1# -*- Mode: Python -*- 2 3## 4# == Block core (VM unrelated) 5## 6 7{ 'include': 'common.json' } 8{ 'include': 'crypto.json' } 9{ 'include': 'sockets.json' } 10 11## 12# @SnapshotInfo: 13# 14# @id: unique snapshot id 15# 16# @name: user chosen name 17# 18# @vm-state-size: size of the VM state 19# 20# @date-sec: UTC date of the snapshot in seconds 21# 22# @date-nsec: fractional part in nano seconds to be used with date-sec 23# 24# @vm-clock-sec: VM clock relative to boot in seconds 25# 26# @vm-clock-nsec: fractional part in nano seconds to be used with vm-clock-sec 27# 28# Since: 1.3 29# 30## 31{ 'struct': 'SnapshotInfo', 32 'data': { 'id': 'str', 'name': 'str', 'vm-state-size': 'int', 33 'date-sec': 'int', 'date-nsec': 'int', 34 'vm-clock-sec': 'int', 'vm-clock-nsec': 'int' } } 35 36## 37# @ImageInfoSpecificQCow2EncryptionBase: 38# 39# @format: The encryption format 40# 41# Since: 2.10 42## 43{ 'struct': 'ImageInfoSpecificQCow2EncryptionBase', 44 'data': { 'format': 'BlockdevQcow2EncryptionFormat'}} 45 46## 47# @ImageInfoSpecificQCow2Encryption: 48# 49# Since: 2.10 50## 51{ 'union': 'ImageInfoSpecificQCow2Encryption', 52 'base': 'ImageInfoSpecificQCow2EncryptionBase', 53 'discriminator': 'format', 54 'data': { 'aes': 'QCryptoBlockInfoQCow', 55 'luks': 'QCryptoBlockInfoLUKS' } } 56 57## 58# @ImageInfoSpecificQCow2: 59# 60# @compat: compatibility level 61# 62# @lazy-refcounts: on or off; only valid for compat >= 1.1 63# 64# @corrupt: true if the image has been marked corrupt; only valid for 65# compat >= 1.1 (since 2.2) 66# 67# @refcount-bits: width of a refcount entry in bits (since 2.3) 68# 69# @encrypt: details about encryption parameters; only set if image 70# is encrypted (since 2.10) 71# 72# Since: 1.7 73## 74{ 'struct': 'ImageInfoSpecificQCow2', 75 'data': { 76 'compat': 'str', 77 '*lazy-refcounts': 'bool', 78 '*corrupt': 'bool', 79 'refcount-bits': 'int', 80 '*encrypt': 'ImageInfoSpecificQCow2Encryption' 81 } } 82 83## 84# @ImageInfoSpecificVmdk: 85# 86# @create-type: The create type of VMDK image 87# 88# @cid: Content id of image 89# 90# @parent-cid: Parent VMDK image's cid 91# 92# @extents: List of extent files 93# 94# Since: 1.7 95## 96{ 'struct': 'ImageInfoSpecificVmdk', 97 'data': { 98 'create-type': 'str', 99 'cid': 'int', 100 'parent-cid': 'int', 101 'extents': ['ImageInfo'] 102 } } 103 104## 105# @ImageInfoSpecific: 106# 107# A discriminated record of image format specific information structures. 108# 109# Since: 1.7 110## 111{ 'union': 'ImageInfoSpecific', 112 'data': { 113 'qcow2': 'ImageInfoSpecificQCow2', 114 'vmdk': 'ImageInfoSpecificVmdk', 115 # If we need to add block driver specific parameters for 116 # LUKS in future, then we'll subclass QCryptoBlockInfoLUKS 117 # to define a ImageInfoSpecificLUKS 118 'luks': 'QCryptoBlockInfoLUKS' 119 } } 120 121## 122# @ImageInfo: 123# 124# Information about a QEMU image file 125# 126# @filename: name of the image file 127# 128# @format: format of the image file 129# 130# @virtual-size: maximum capacity in bytes of the image 131# 132# @actual-size: actual size on disk in bytes of the image 133# 134# @dirty-flag: true if image is not cleanly closed 135# 136# @cluster-size: size of a cluster in bytes 137# 138# @encrypted: true if the image is encrypted 139# 140# @compressed: true if the image is compressed (Since 1.7) 141# 142# @backing-filename: name of the backing file 143# 144# @full-backing-filename: full path of the backing file 145# 146# @backing-filename-format: the format of the backing file 147# 148# @snapshots: list of VM snapshots 149# 150# @backing-image: info of the backing image (since 1.6) 151# 152# @format-specific: structure supplying additional format-specific 153# information (since 1.7) 154# 155# Since: 1.3 156# 157## 158{ 'struct': 'ImageInfo', 159 'data': {'filename': 'str', 'format': 'str', '*dirty-flag': 'bool', 160 '*actual-size': 'int', 'virtual-size': 'int', 161 '*cluster-size': 'int', '*encrypted': 'bool', '*compressed': 'bool', 162 '*backing-filename': 'str', '*full-backing-filename': 'str', 163 '*backing-filename-format': 'str', '*snapshots': ['SnapshotInfo'], 164 '*backing-image': 'ImageInfo', 165 '*format-specific': 'ImageInfoSpecific' } } 166 167## 168# @ImageCheck: 169# 170# Information about a QEMU image file check 171# 172# @filename: name of the image file checked 173# 174# @format: format of the image file checked 175# 176# @check-errors: number of unexpected errors occurred during check 177# 178# @image-end-offset: offset (in bytes) where the image ends, this 179# field is present if the driver for the image format 180# supports it 181# 182# @corruptions: number of corruptions found during the check if any 183# 184# @leaks: number of leaks found during the check if any 185# 186# @corruptions-fixed: number of corruptions fixed during the check 187# if any 188# 189# @leaks-fixed: number of leaks fixed during the check if any 190# 191# @total-clusters: total number of clusters, this field is present 192# if the driver for the image format supports it 193# 194# @allocated-clusters: total number of allocated clusters, this 195# field is present if the driver for the image format 196# supports it 197# 198# @fragmented-clusters: total number of fragmented clusters, this 199# field is present if the driver for the image format 200# supports it 201# 202# @compressed-clusters: total number of compressed clusters, this 203# field is present if the driver for the image format 204# supports it 205# 206# Since: 1.4 207# 208## 209{ 'struct': 'ImageCheck', 210 'data': {'filename': 'str', 'format': 'str', 'check-errors': 'int', 211 '*image-end-offset': 'int', '*corruptions': 'int', '*leaks': 'int', 212 '*corruptions-fixed': 'int', '*leaks-fixed': 'int', 213 '*total-clusters': 'int', '*allocated-clusters': 'int', 214 '*fragmented-clusters': 'int', '*compressed-clusters': 'int' } } 215 216## 217# @MapEntry: 218# 219# Mapping information from a virtual block range to a host file range 220# 221# @start: the start byte of the mapped virtual range 222# 223# @length: the number of bytes of the mapped virtual range 224# 225# @data: whether the mapped range has data 226# 227# @zero: whether the virtual blocks are zeroed 228# 229# @depth: the depth of the mapping 230# 231# @offset: the offset in file that the virtual sectors are mapped to 232# 233# @filename: filename that is referred to by @offset 234# 235# Since: 2.6 236# 237## 238{ 'struct': 'MapEntry', 239 'data': {'start': 'int', 'length': 'int', 'data': 'bool', 240 'zero': 'bool', 'depth': 'int', '*offset': 'int', 241 '*filename': 'str' } } 242 243## 244# @BlockdevCacheInfo: 245# 246# Cache mode information for a block device 247# 248# @writeback: true if writeback mode is enabled 249# @direct: true if the host page cache is bypassed (O_DIRECT) 250# @no-flush: true if flush requests are ignored for the device 251# 252# Since: 2.3 253## 254{ 'struct': 'BlockdevCacheInfo', 255 'data': { 'writeback': 'bool', 256 'direct': 'bool', 257 'no-flush': 'bool' } } 258 259## 260# @BlockDeviceInfo: 261# 262# Information about the backing device for a block device. 263# 264# @file: the filename of the backing device 265# 266# @node-name: the name of the block driver node (Since 2.0) 267# 268# @ro: true if the backing device was open read-only 269# 270# @drv: the name of the block format used to open the backing device. As of 271# 0.14.0 this can be: 'blkdebug', 'bochs', 'cloop', 'cow', 'dmg', 272# 'file', 'file', 'ftp', 'ftps', 'host_cdrom', 'host_device', 273# 'http', 'https', 'luks', 'nbd', 'parallels', 'qcow', 274# 'qcow2', 'raw', 'vdi', 'vmdk', 'vpc', 'vvfat' 275# 2.2: 'archipelago' added, 'cow' dropped 276# 2.3: 'host_floppy' deprecated 277# 2.5: 'host_floppy' dropped 278# 2.6: 'luks' added 279# 2.8: 'replication' added, 'tftp' dropped 280# 2.9: 'archipelago' dropped 281# 282# @backing_file: the name of the backing file (for copy-on-write) 283# 284# @backing_file_depth: number of files in the backing file chain (since: 1.2) 285# 286# @encrypted: true if the backing device is encrypted 287# 288# @encryption_key_missing: Deprecated; always false 289# 290# @detect_zeroes: detect and optimize zero writes (Since 2.1) 291# 292# @bps: total throughput limit in bytes per second is specified 293# 294# @bps_rd: read throughput limit in bytes per second is specified 295# 296# @bps_wr: write throughput limit in bytes per second is specified 297# 298# @iops: total I/O operations per second is specified 299# 300# @iops_rd: read I/O operations per second is specified 301# 302# @iops_wr: write I/O operations per second is specified 303# 304# @image: the info of image used (since: 1.6) 305# 306# @bps_max: total throughput limit during bursts, 307# in bytes (Since 1.7) 308# 309# @bps_rd_max: read throughput limit during bursts, 310# in bytes (Since 1.7) 311# 312# @bps_wr_max: write throughput limit during bursts, 313# in bytes (Since 1.7) 314# 315# @iops_max: total I/O operations per second during bursts, 316# in bytes (Since 1.7) 317# 318# @iops_rd_max: read I/O operations per second during bursts, 319# in bytes (Since 1.7) 320# 321# @iops_wr_max: write I/O operations per second during bursts, 322# in bytes (Since 1.7) 323# 324# @bps_max_length: maximum length of the @bps_max burst 325# period, in seconds. (Since 2.6) 326# 327# @bps_rd_max_length: maximum length of the @bps_rd_max 328# burst period, in seconds. (Since 2.6) 329# 330# @bps_wr_max_length: maximum length of the @bps_wr_max 331# burst period, in seconds. (Since 2.6) 332# 333# @iops_max_length: maximum length of the @iops burst 334# period, in seconds. (Since 2.6) 335# 336# @iops_rd_max_length: maximum length of the @iops_rd_max 337# burst period, in seconds. (Since 2.6) 338# 339# @iops_wr_max_length: maximum length of the @iops_wr_max 340# burst period, in seconds. (Since 2.6) 341# 342# @iops_size: an I/O size in bytes (Since 1.7) 343# 344# @group: throttle group name (Since 2.4) 345# 346# @cache: the cache mode used for the block device (since: 2.3) 347# 348# @write_threshold: configured write threshold for the device. 349# 0 if disabled. (Since 2.3) 350# 351# Since: 0.14.0 352# 353## 354{ 'struct': 'BlockDeviceInfo', 355 'data': { 'file': 'str', '*node-name': 'str', 'ro': 'bool', 'drv': 'str', 356 '*backing_file': 'str', 'backing_file_depth': 'int', 357 'encrypted': 'bool', 'encryption_key_missing': 'bool', 358 'detect_zeroes': 'BlockdevDetectZeroesOptions', 359 'bps': 'int', 'bps_rd': 'int', 'bps_wr': 'int', 360 'iops': 'int', 'iops_rd': 'int', 'iops_wr': 'int', 361 'image': 'ImageInfo', 362 '*bps_max': 'int', '*bps_rd_max': 'int', 363 '*bps_wr_max': 'int', '*iops_max': 'int', 364 '*iops_rd_max': 'int', '*iops_wr_max': 'int', 365 '*bps_max_length': 'int', '*bps_rd_max_length': 'int', 366 '*bps_wr_max_length': 'int', '*iops_max_length': 'int', 367 '*iops_rd_max_length': 'int', '*iops_wr_max_length': 'int', 368 '*iops_size': 'int', '*group': 'str', 'cache': 'BlockdevCacheInfo', 369 'write_threshold': 'int' } } 370 371## 372# @BlockDeviceIoStatus: 373# 374# An enumeration of block device I/O status. 375# 376# @ok: The last I/O operation has succeeded 377# 378# @failed: The last I/O operation has failed 379# 380# @nospace: The last I/O operation has failed due to a no-space condition 381# 382# Since: 1.0 383## 384{ 'enum': 'BlockDeviceIoStatus', 'data': [ 'ok', 'failed', 'nospace' ] } 385 386## 387# @BlockDeviceMapEntry: 388# 389# Entry in the metadata map of the device (returned by "qemu-img map") 390# 391# @start: Offset in the image of the first byte described by this entry 392# (in bytes) 393# 394# @length: Length of the range described by this entry (in bytes) 395# 396# @depth: Number of layers (0 = top image, 1 = top image's backing file, etc.) 397# before reaching one for which the range is allocated. The value is 398# in the range 0 to the depth of the image chain - 1. 399# 400# @zero: the sectors in this range read as zeros 401# 402# @data: reading the image will actually read data from a file (in particular, 403# if @offset is present this means that the sectors are not simply 404# preallocated, but contain actual data in raw format) 405# 406# @offset: if present, the image file stores the data for this range in 407# raw format at the given offset. 408# 409# Since: 1.7 410## 411{ 'struct': 'BlockDeviceMapEntry', 412 'data': { 'start': 'int', 'length': 'int', 'depth': 'int', 'zero': 'bool', 413 'data': 'bool', '*offset': 'int' } } 414 415## 416# @DirtyBitmapStatus: 417# 418# An enumeration of possible states that a dirty bitmap can report to the user. 419# 420# @frozen: The bitmap is currently in-use by a backup operation or block job, 421# and is immutable. 422# 423# @disabled: The bitmap is currently in-use by an internal operation and is 424# read-only. It can still be deleted. 425# 426# @active: The bitmap is actively monitoring for new writes, and can be cleared, 427# deleted, or used for backup operations. 428# 429# Since: 2.4 430## 431{ 'enum': 'DirtyBitmapStatus', 432 'data': ['active', 'disabled', 'frozen'] } 433 434## 435# @BlockDirtyInfo: 436# 437# Block dirty bitmap information. 438# 439# @name: the name of the dirty bitmap (Since 2.4) 440# 441# @count: number of dirty bytes according to the dirty bitmap 442# 443# @granularity: granularity of the dirty bitmap in bytes (since 1.4) 444# 445# @status: current status of the dirty bitmap (since 2.4) 446# 447# Since: 1.3 448## 449{ 'struct': 'BlockDirtyInfo', 450 'data': {'*name': 'str', 'count': 'int', 'granularity': 'uint32', 451 'status': 'DirtyBitmapStatus'} } 452 453## 454# @BlockInfo: 455# 456# Block device information. This structure describes a virtual device and 457# the backing device associated with it. 458# 459# @device: The device name associated with the virtual device. 460# 461# @qdev: The qdev ID, or if no ID is assigned, the QOM path of the block 462# device. (since 2.10) 463# 464# @type: This field is returned only for compatibility reasons, it should 465# not be used (always returns 'unknown') 466# 467# @removable: True if the device supports removable media. 468# 469# @locked: True if the guest has locked this device from having its media 470# removed 471# 472# @tray_open: True if the device's tray is open 473# (only present if it has a tray) 474# 475# @dirty-bitmaps: dirty bitmaps information (only present if the 476# driver has one or more dirty bitmaps) (Since 2.0) 477# 478# @io-status: @BlockDeviceIoStatus. Only present if the device 479# supports it and the VM is configured to stop on errors 480# (supported device models: virtio-blk, IDE, SCSI except 481# scsi-generic) 482# 483# @inserted: @BlockDeviceInfo describing the device if media is 484# present 485# 486# Since: 0.14.0 487## 488{ 'struct': 'BlockInfo', 489 'data': {'device': 'str', '*qdev': 'str', 'type': 'str', 'removable': 'bool', 490 'locked': 'bool', '*inserted': 'BlockDeviceInfo', 491 '*tray_open': 'bool', '*io-status': 'BlockDeviceIoStatus', 492 '*dirty-bitmaps': ['BlockDirtyInfo'] } } 493 494## 495# @BlockMeasureInfo: 496# 497# Image file size calculation information. This structure describes the size 498# requirements for creating a new image file. 499# 500# The size requirements depend on the new image file format. File size always 501# equals virtual disk size for the 'raw' format, even for sparse POSIX files. 502# Compact formats such as 'qcow2' represent unallocated and zero regions 503# efficiently so file size may be smaller than virtual disk size. 504# 505# The values are upper bounds that are guaranteed to fit the new image file. 506# Subsequent modification, such as internal snapshot or bitmap creation, may 507# require additional space and is not covered here. 508# 509# @required: Size required for a new image file, in bytes. 510# 511# @fully-allocated: Image file size, in bytes, once data has been written 512# to all sectors. 513# 514# Since: 2.10 515## 516{ 'struct': 'BlockMeasureInfo', 517 'data': {'required': 'int', 'fully-allocated': 'int'} } 518 519## 520# @query-block: 521# 522# Get a list of BlockInfo for all virtual block devices. 523# 524# Returns: a list of @BlockInfo describing each virtual block device. Filter 525# nodes that were created implicitly are skipped over. 526# 527# Since: 0.14.0 528# 529# Example: 530# 531# -> { "execute": "query-block" } 532# <- { 533# "return":[ 534# { 535# "io-status": "ok", 536# "device":"ide0-hd0", 537# "locked":false, 538# "removable":false, 539# "inserted":{ 540# "ro":false, 541# "drv":"qcow2", 542# "encrypted":false, 543# "file":"disks/test.qcow2", 544# "backing_file_depth":1, 545# "bps":1000000, 546# "bps_rd":0, 547# "bps_wr":0, 548# "iops":1000000, 549# "iops_rd":0, 550# "iops_wr":0, 551# "bps_max": 8000000, 552# "bps_rd_max": 0, 553# "bps_wr_max": 0, 554# "iops_max": 0, 555# "iops_rd_max": 0, 556# "iops_wr_max": 0, 557# "iops_size": 0, 558# "detect_zeroes": "on", 559# "write_threshold": 0, 560# "image":{ 561# "filename":"disks/test.qcow2", 562# "format":"qcow2", 563# "virtual-size":2048000, 564# "backing_file":"base.qcow2", 565# "full-backing-filename":"disks/base.qcow2", 566# "backing-filename-format":"qcow2", 567# "snapshots":[ 568# { 569# "id": "1", 570# "name": "snapshot1", 571# "vm-state-size": 0, 572# "date-sec": 10000200, 573# "date-nsec": 12, 574# "vm-clock-sec": 206, 575# "vm-clock-nsec": 30 576# } 577# ], 578# "backing-image":{ 579# "filename":"disks/base.qcow2", 580# "format":"qcow2", 581# "virtual-size":2048000 582# } 583# } 584# }, 585# "qdev": "ide_disk", 586# "type":"unknown" 587# }, 588# { 589# "io-status": "ok", 590# "device":"ide1-cd0", 591# "locked":false, 592# "removable":true, 593# "qdev": "/machine/unattached/device[23]", 594# "tray_open": false, 595# "type":"unknown" 596# }, 597# { 598# "device":"floppy0", 599# "locked":false, 600# "removable":true, 601# "qdev": "/machine/unattached/device[20]", 602# "type":"unknown" 603# }, 604# { 605# "device":"sd0", 606# "locked":false, 607# "removable":true, 608# "type":"unknown" 609# } 610# ] 611# } 612# 613## 614{ 'command': 'query-block', 'returns': ['BlockInfo'] } 615 616 617## 618# @BlockDeviceTimedStats: 619# 620# Statistics of a block device during a given interval of time. 621# 622# @interval_length: Interval used for calculating the statistics, 623# in seconds. 624# 625# @min_rd_latency_ns: Minimum latency of read operations in the 626# defined interval, in nanoseconds. 627# 628# @min_wr_latency_ns: Minimum latency of write operations in the 629# defined interval, in nanoseconds. 630# 631# @min_flush_latency_ns: Minimum latency of flush operations in the 632# defined interval, in nanoseconds. 633# 634# @max_rd_latency_ns: Maximum latency of read operations in the 635# defined interval, in nanoseconds. 636# 637# @max_wr_latency_ns: Maximum latency of write operations in the 638# defined interval, in nanoseconds. 639# 640# @max_flush_latency_ns: Maximum latency of flush operations in the 641# defined interval, in nanoseconds. 642# 643# @avg_rd_latency_ns: Average latency of read operations in the 644# defined interval, in nanoseconds. 645# 646# @avg_wr_latency_ns: Average latency of write operations in the 647# defined interval, in nanoseconds. 648# 649# @avg_flush_latency_ns: Average latency of flush operations in the 650# defined interval, in nanoseconds. 651# 652# @avg_rd_queue_depth: Average number of pending read operations 653# in the defined interval. 654# 655# @avg_wr_queue_depth: Average number of pending write operations 656# in the defined interval. 657# 658# Since: 2.5 659## 660{ 'struct': 'BlockDeviceTimedStats', 661 'data': { 'interval_length': 'int', 'min_rd_latency_ns': 'int', 662 'max_rd_latency_ns': 'int', 'avg_rd_latency_ns': 'int', 663 'min_wr_latency_ns': 'int', 'max_wr_latency_ns': 'int', 664 'avg_wr_latency_ns': 'int', 'min_flush_latency_ns': 'int', 665 'max_flush_latency_ns': 'int', 'avg_flush_latency_ns': 'int', 666 'avg_rd_queue_depth': 'number', 'avg_wr_queue_depth': 'number' } } 667 668## 669# @BlockDeviceStats: 670# 671# Statistics of a virtual block device or a block backing device. 672# 673# @rd_bytes: The number of bytes read by the device. 674# 675# @wr_bytes: The number of bytes written by the device. 676# 677# @rd_operations: The number of read operations performed by the device. 678# 679# @wr_operations: The number of write operations performed by the device. 680# 681# @flush_operations: The number of cache flush operations performed by the 682# device (since 0.15.0) 683# 684# @flush_total_time_ns: Total time spend on cache flushes in nano-seconds 685# (since 0.15.0). 686# 687# @wr_total_time_ns: Total time spend on writes in nano-seconds (since 0.15.0). 688# 689# @rd_total_time_ns: Total_time_spend on reads in nano-seconds (since 0.15.0). 690# 691# @wr_highest_offset: The offset after the greatest byte written to the 692# device. The intended use of this information is for 693# growable sparse files (like qcow2) that are used on top 694# of a physical device. 695# 696# @rd_merged: Number of read requests that have been merged into another 697# request (Since 2.3). 698# 699# @wr_merged: Number of write requests that have been merged into another 700# request (Since 2.3). 701# 702# @idle_time_ns: Time since the last I/O operation, in 703# nanoseconds. If the field is absent it means that 704# there haven't been any operations yet (Since 2.5). 705# 706# @failed_rd_operations: The number of failed read operations 707# performed by the device (Since 2.5) 708# 709# @failed_wr_operations: The number of failed write operations 710# performed by the device (Since 2.5) 711# 712# @failed_flush_operations: The number of failed flush operations 713# performed by the device (Since 2.5) 714# 715# @invalid_rd_operations: The number of invalid read operations 716# performed by the device (Since 2.5) 717# 718# @invalid_wr_operations: The number of invalid write operations 719# performed by the device (Since 2.5) 720# 721# @invalid_flush_operations: The number of invalid flush operations 722# performed by the device (Since 2.5) 723# 724# @account_invalid: Whether invalid operations are included in the 725# last access statistics (Since 2.5) 726# 727# @account_failed: Whether failed operations are included in the 728# latency and last access statistics (Since 2.5) 729# 730# @timed_stats: Statistics specific to the set of previously defined 731# intervals of time (Since 2.5) 732# 733# Since: 0.14.0 734## 735{ 'struct': 'BlockDeviceStats', 736 'data': {'rd_bytes': 'int', 'wr_bytes': 'int', 'rd_operations': 'int', 737 'wr_operations': 'int', 'flush_operations': 'int', 738 'flush_total_time_ns': 'int', 'wr_total_time_ns': 'int', 739 'rd_total_time_ns': 'int', 'wr_highest_offset': 'int', 740 'rd_merged': 'int', 'wr_merged': 'int', '*idle_time_ns': 'int', 741 'failed_rd_operations': 'int', 'failed_wr_operations': 'int', 742 'failed_flush_operations': 'int', 'invalid_rd_operations': 'int', 743 'invalid_wr_operations': 'int', 'invalid_flush_operations': 'int', 744 'account_invalid': 'bool', 'account_failed': 'bool', 745 'timed_stats': ['BlockDeviceTimedStats'] } } 746 747## 748# @BlockStats: 749# 750# Statistics of a virtual block device or a block backing device. 751# 752# @device: If the stats are for a virtual block device, the name 753# corresponding to the virtual block device. 754# 755# @node-name: The node name of the device. (Since 2.3) 756# 757# @stats: A @BlockDeviceStats for the device. 758# 759# @parent: This describes the file block device if it has one. 760# Contains recursively the statistics of the underlying 761# protocol (e.g. the host file for a qcow2 image). If there is 762# no underlying protocol, this field is omitted 763# 764# @backing: This describes the backing block device if it has one. 765# (Since 2.0) 766# 767# Since: 0.14.0 768## 769{ 'struct': 'BlockStats', 770 'data': {'*device': 'str', '*node-name': 'str', 771 'stats': 'BlockDeviceStats', 772 '*parent': 'BlockStats', 773 '*backing': 'BlockStats'} } 774 775## 776# @query-blockstats: 777# 778# Query the @BlockStats for all virtual block devices. 779# 780# @query-nodes: If true, the command will query all the block nodes 781# that have a node name, in a list which will include "parent" 782# information, but not "backing". 783# If false or omitted, the behavior is as before - query all the 784# device backends, recursively including their "parent" and 785# "backing". Filter nodes that were created implicitly are 786# skipped over in this mode. (Since 2.3) 787# 788# Returns: A list of @BlockStats for each virtual block devices. 789# 790# Since: 0.14.0 791# 792# Example: 793# 794# -> { "execute": "query-blockstats" } 795# <- { 796# "return":[ 797# { 798# "device":"ide0-hd0", 799# "parent":{ 800# "stats":{ 801# "wr_highest_offset":3686448128, 802# "wr_bytes":9786368, 803# "wr_operations":751, 804# "rd_bytes":122567168, 805# "rd_operations":36772 806# "wr_total_times_ns":313253456 807# "rd_total_times_ns":3465673657 808# "flush_total_times_ns":49653 809# "flush_operations":61, 810# "rd_merged":0, 811# "wr_merged":0, 812# "idle_time_ns":2953431879, 813# "account_invalid":true, 814# "account_failed":false 815# } 816# }, 817# "stats":{ 818# "wr_highest_offset":2821110784, 819# "wr_bytes":9786368, 820# "wr_operations":692, 821# "rd_bytes":122739200, 822# "rd_operations":36604 823# "flush_operations":51, 824# "wr_total_times_ns":313253456 825# "rd_total_times_ns":3465673657 826# "flush_total_times_ns":49653, 827# "rd_merged":0, 828# "wr_merged":0, 829# "idle_time_ns":2953431879, 830# "account_invalid":true, 831# "account_failed":false 832# } 833# }, 834# { 835# "device":"ide1-cd0", 836# "stats":{ 837# "wr_highest_offset":0, 838# "wr_bytes":0, 839# "wr_operations":0, 840# "rd_bytes":0, 841# "rd_operations":0 842# "flush_operations":0, 843# "wr_total_times_ns":0 844# "rd_total_times_ns":0 845# "flush_total_times_ns":0, 846# "rd_merged":0, 847# "wr_merged":0, 848# "account_invalid":false, 849# "account_failed":false 850# } 851# }, 852# { 853# "device":"floppy0", 854# "stats":{ 855# "wr_highest_offset":0, 856# "wr_bytes":0, 857# "wr_operations":0, 858# "rd_bytes":0, 859# "rd_operations":0 860# "flush_operations":0, 861# "wr_total_times_ns":0 862# "rd_total_times_ns":0 863# "flush_total_times_ns":0, 864# "rd_merged":0, 865# "wr_merged":0, 866# "account_invalid":false, 867# "account_failed":false 868# } 869# }, 870# { 871# "device":"sd0", 872# "stats":{ 873# "wr_highest_offset":0, 874# "wr_bytes":0, 875# "wr_operations":0, 876# "rd_bytes":0, 877# "rd_operations":0 878# "flush_operations":0, 879# "wr_total_times_ns":0 880# "rd_total_times_ns":0 881# "flush_total_times_ns":0, 882# "rd_merged":0, 883# "wr_merged":0, 884# "account_invalid":false, 885# "account_failed":false 886# } 887# } 888# ] 889# } 890# 891## 892{ 'command': 'query-blockstats', 893 'data': { '*query-nodes': 'bool' }, 894 'returns': ['BlockStats'] } 895 896## 897# @BlockdevOnError: 898# 899# An enumeration of possible behaviors for errors on I/O operations. 900# The exact meaning depends on whether the I/O was initiated by a guest 901# or by a block job 902# 903# @report: for guest operations, report the error to the guest; 904# for jobs, cancel the job 905# 906# @ignore: ignore the error, only report a QMP event (BLOCK_IO_ERROR 907# or BLOCK_JOB_ERROR) 908# 909# @enospc: same as @stop on ENOSPC, same as @report otherwise. 910# 911# @stop: for guest operations, stop the virtual machine; 912# for jobs, pause the job 913# 914# @auto: inherit the error handling policy of the backend (since: 2.7) 915# 916# Since: 1.3 917## 918{ 'enum': 'BlockdevOnError', 919 'data': ['report', 'ignore', 'enospc', 'stop', 'auto'] } 920 921## 922# @MirrorSyncMode: 923# 924# An enumeration of possible behaviors for the initial synchronization 925# phase of storage mirroring. 926# 927# @top: copies data in the topmost image to the destination 928# 929# @full: copies data from all images to the destination 930# 931# @none: only copy data written from now on 932# 933# @incremental: only copy data described by the dirty bitmap. Since: 2.4 934# 935# Since: 1.3 936## 937{ 'enum': 'MirrorSyncMode', 938 'data': ['top', 'full', 'none', 'incremental'] } 939 940## 941# @BlockJobType: 942# 943# Type of a block job. 944# 945# @commit: block commit job type, see "block-commit" 946# 947# @stream: block stream job type, see "block-stream" 948# 949# @mirror: drive mirror job type, see "drive-mirror" 950# 951# @backup: drive backup job type, see "drive-backup" 952# 953# Since: 1.7 954## 955{ 'enum': 'BlockJobType', 956 'data': ['commit', 'stream', 'mirror', 'backup'] } 957 958## 959# @BlockJobInfo: 960# 961# Information about a long-running block device operation. 962# 963# @type: the job type ('stream' for image streaming) 964# 965# @device: The job identifier. Originally the device name but other 966# values are allowed since QEMU 2.7 967# 968# @len: the maximum progress value 969# 970# @busy: false if the job is known to be in a quiescent state, with 971# no pending I/O. Since 1.3. 972# 973# @paused: whether the job is paused or, if @busy is true, will 974# pause itself as soon as possible. Since 1.3. 975# 976# @offset: the current progress value 977# 978# @speed: the rate limit, bytes per second 979# 980# @io-status: the status of the job (since 1.3) 981# 982# @ready: true if the job may be completed (since 2.2) 983# 984# Since: 1.1 985## 986{ 'struct': 'BlockJobInfo', 987 'data': {'type': 'str', 'device': 'str', 'len': 'int', 988 'offset': 'int', 'busy': 'bool', 'paused': 'bool', 'speed': 'int', 989 'io-status': 'BlockDeviceIoStatus', 'ready': 'bool'} } 990 991## 992# @query-block-jobs: 993# 994# Return information about long-running block device operations. 995# 996# Returns: a list of @BlockJobInfo for each active block job 997# 998# Since: 1.1 999## 1000{ 'command': 'query-block-jobs', 'returns': ['BlockJobInfo'] } 1001 1002## 1003# @block_passwd: 1004# 1005# This command sets the password of a block device that has not been open 1006# with a password and requires one. 1007# 1008# This command is now obsolete and will always return an error since 2.10 1009# 1010## 1011{ 'command': 'block_passwd', 'data': {'*device': 'str', 1012 '*node-name': 'str', 'password': 'str'} } 1013 1014## 1015# @block_resize: 1016# 1017# Resize a block image while a guest is running. 1018# 1019# Either @device or @node-name must be set but not both. 1020# 1021# @device: the name of the device to get the image resized 1022# 1023# @node-name: graph node name to get the image resized (Since 2.0) 1024# 1025# @size: new image size in bytes 1026# 1027# Returns: nothing on success 1028# If @device is not a valid block device, DeviceNotFound 1029# 1030# Since: 0.14.0 1031# 1032# Example: 1033# 1034# -> { "execute": "block_resize", 1035# "arguments": { "device": "scratch", "size": 1073741824 } } 1036# <- { "return": {} } 1037# 1038## 1039{ 'command': 'block_resize', 'data': { '*device': 'str', 1040 '*node-name': 'str', 1041 'size': 'int' }} 1042 1043## 1044# @NewImageMode: 1045# 1046# An enumeration that tells QEMU how to set the backing file path in 1047# a new image file. 1048# 1049# @existing: QEMU should look for an existing image file. 1050# 1051# @absolute-paths: QEMU should create a new image with absolute paths 1052# for the backing file. If there is no backing file available, the new 1053# image will not be backed either. 1054# 1055# Since: 1.1 1056## 1057{ 'enum': 'NewImageMode', 1058 'data': [ 'existing', 'absolute-paths' ] } 1059 1060## 1061# @BlockdevSnapshotSync: 1062# 1063# Either @device or @node-name must be set but not both. 1064# 1065# @device: the name of the device to generate the snapshot from. 1066# 1067# @node-name: graph node name to generate the snapshot from (Since 2.0) 1068# 1069# @snapshot-file: the target of the new image. If the file exists, or 1070# if it is a device, the snapshot will be created in the existing 1071# file/device. Otherwise, a new file will be created. 1072# 1073# @snapshot-node-name: the graph node name of the new image (Since 2.0) 1074# 1075# @format: the format of the snapshot image, default is 'qcow2'. 1076# 1077# @mode: whether and how QEMU should create a new image, default is 1078# 'absolute-paths'. 1079## 1080{ 'struct': 'BlockdevSnapshotSync', 1081 'data': { '*device': 'str', '*node-name': 'str', 1082 'snapshot-file': 'str', '*snapshot-node-name': 'str', 1083 '*format': 'str', '*mode': 'NewImageMode' } } 1084 1085## 1086# @BlockdevSnapshot: 1087# 1088# @node: device or node name that will have a snapshot created. 1089# 1090# @overlay: reference to the existing block device that will become 1091# the overlay of @node, as part of creating the snapshot. 1092# It must not have a current backing file (this can be 1093# achieved by passing "backing": "" to blockdev-add). 1094# 1095# Since: 2.5 1096## 1097{ 'struct': 'BlockdevSnapshot', 1098 'data': { 'node': 'str', 'overlay': 'str' } } 1099 1100## 1101# @DriveBackup: 1102# 1103# @job-id: identifier for the newly-created block job. If 1104# omitted, the device name will be used. (Since 2.7) 1105# 1106# @device: the device name or node-name of a root node which should be copied. 1107# 1108# @target: the target of the new image. If the file exists, or if it 1109# is a device, the existing file/device will be used as the new 1110# destination. If it does not exist, a new file will be created. 1111# 1112# @format: the format of the new destination, default is to 1113# probe if @mode is 'existing', else the format of the source 1114# 1115# @sync: what parts of the disk image should be copied to the destination 1116# (all the disk, only the sectors allocated in the topmost image, from a 1117# dirty bitmap, or only new I/O). 1118# 1119# @mode: whether and how QEMU should create a new image, default is 1120# 'absolute-paths'. 1121# 1122# @speed: the maximum speed, in bytes per second 1123# 1124# @bitmap: the name of dirty bitmap if sync is "incremental". 1125# Must be present if sync is "incremental", must NOT be present 1126# otherwise. (Since 2.4) 1127# 1128# @compress: true to compress data, if the target format supports it. 1129# (default: false) (since 2.8) 1130# 1131# @on-source-error: the action to take on an error on the source, 1132# default 'report'. 'stop' and 'enospc' can only be used 1133# if the block device supports io-status (see BlockInfo). 1134# 1135# @on-target-error: the action to take on an error on the target, 1136# default 'report' (no limitations, since this applies to 1137# a different block device than @device). 1138# 1139# Note: @on-source-error and @on-target-error only affect background 1140# I/O. If an error occurs during a guest write request, the device's 1141# rerror/werror actions will be used. 1142# 1143# Since: 1.6 1144## 1145{ 'struct': 'DriveBackup', 1146 'data': { '*job-id': 'str', 'device': 'str', 'target': 'str', 1147 '*format': 'str', 'sync': 'MirrorSyncMode', '*mode': 'NewImageMode', 1148 '*speed': 'int', '*bitmap': 'str', '*compress': 'bool', 1149 '*on-source-error': 'BlockdevOnError', 1150 '*on-target-error': 'BlockdevOnError' } } 1151 1152## 1153# @BlockdevBackup: 1154# 1155# @job-id: identifier for the newly-created block job. If 1156# omitted, the device name will be used. (Since 2.7) 1157# 1158# @device: the device name or node-name of a root node which should be copied. 1159# 1160# @target: the device name or node-name of the backup target node. 1161# 1162# @sync: what parts of the disk image should be copied to the destination 1163# (all the disk, only the sectors allocated in the topmost image, or 1164# only new I/O). 1165# 1166# @speed: the maximum speed, in bytes per second. The default is 0, 1167# for unlimited. 1168# 1169# @compress: true to compress data, if the target format supports it. 1170# (default: false) (since 2.8) 1171# 1172# @on-source-error: the action to take on an error on the source, 1173# default 'report'. 'stop' and 'enospc' can only be used 1174# if the block device supports io-status (see BlockInfo). 1175# 1176# @on-target-error: the action to take on an error on the target, 1177# default 'report' (no limitations, since this applies to 1178# a different block device than @device). 1179# 1180# Note: @on-source-error and @on-target-error only affect background 1181# I/O. If an error occurs during a guest write request, the device's 1182# rerror/werror actions will be used. 1183# 1184# Since: 2.3 1185## 1186{ 'struct': 'BlockdevBackup', 1187 'data': { '*job-id': 'str', 'device': 'str', 'target': 'str', 1188 'sync': 'MirrorSyncMode', 1189 '*speed': 'int', 1190 '*compress': 'bool', 1191 '*on-source-error': 'BlockdevOnError', 1192 '*on-target-error': 'BlockdevOnError' } } 1193 1194## 1195# @blockdev-snapshot-sync: 1196# 1197# Generates a synchronous snapshot of a block device. 1198# 1199# For the arguments, see the documentation of BlockdevSnapshotSync. 1200# 1201# Returns: nothing on success 1202# If @device is not a valid block device, DeviceNotFound 1203# 1204# Since: 0.14.0 1205# 1206# Example: 1207# 1208# -> { "execute": "blockdev-snapshot-sync", 1209# "arguments": { "device": "ide-hd0", 1210# "snapshot-file": 1211# "/some/place/my-image", 1212# "format": "qcow2" } } 1213# <- { "return": {} } 1214# 1215## 1216{ 'command': 'blockdev-snapshot-sync', 1217 'data': 'BlockdevSnapshotSync' } 1218 1219 1220## 1221# @blockdev-snapshot: 1222# 1223# Generates a snapshot of a block device. 1224# 1225# Create a snapshot, by installing 'node' as the backing image of 1226# 'overlay'. Additionally, if 'node' is associated with a block 1227# device, the block device changes to using 'overlay' as its new active 1228# image. 1229# 1230# For the arguments, see the documentation of BlockdevSnapshot. 1231# 1232# Since: 2.5 1233# 1234# Example: 1235# 1236# -> { "execute": "blockdev-add", 1237# "arguments": { "driver": "qcow2", 1238# "node-name": "node1534", 1239# "file": { "driver": "file", 1240# "filename": "hd1.qcow2" }, 1241# "backing": "" } } 1242# 1243# <- { "return": {} } 1244# 1245# -> { "execute": "blockdev-snapshot", 1246# "arguments": { "node": "ide-hd0", 1247# "overlay": "node1534" } } 1248# <- { "return": {} } 1249# 1250## 1251{ 'command': 'blockdev-snapshot', 1252 'data': 'BlockdevSnapshot' } 1253 1254## 1255# @change-backing-file: 1256# 1257# Change the backing file in the image file metadata. This does not 1258# cause QEMU to reopen the image file to reparse the backing filename 1259# (it may, however, perform a reopen to change permissions from 1260# r/o -> r/w -> r/o, if needed). The new backing file string is written 1261# into the image file metadata, and the QEMU internal strings are 1262# updated. 1263# 1264# @image-node-name: The name of the block driver state node of the 1265# image to modify. The "device" argument is used 1266# to verify "image-node-name" is in the chain 1267# described by "device". 1268# 1269# @device: The device name or node-name of the root node that owns 1270# image-node-name. 1271# 1272# @backing-file: The string to write as the backing file. This 1273# string is not validated, so care should be taken 1274# when specifying the string or the image chain may 1275# not be able to be reopened again. 1276# 1277# Returns: Nothing on success 1278# 1279# If "device" does not exist or cannot be determined, DeviceNotFound 1280# 1281# Since: 2.1 1282## 1283{ 'command': 'change-backing-file', 1284 'data': { 'device': 'str', 'image-node-name': 'str', 1285 'backing-file': 'str' } } 1286 1287## 1288# @block-commit: 1289# 1290# Live commit of data from overlay image nodes into backing nodes - i.e., 1291# writes data between 'top' and 'base' into 'base'. 1292# 1293# @job-id: identifier for the newly-created block job. If 1294# omitted, the device name will be used. (Since 2.7) 1295# 1296# @device: the device name or node-name of a root node 1297# 1298# @base: The file name of the backing image to write data into. 1299# If not specified, this is the deepest backing image. 1300# 1301# @top: The file name of the backing image within the image chain, 1302# which contains the topmost data to be committed down. If 1303# not specified, this is the active layer. 1304# 1305# @backing-file: The backing file string to write into the overlay 1306# image of 'top'. If 'top' is the active layer, 1307# specifying a backing file string is an error. This 1308# filename is not validated. 1309# 1310# If a pathname string is such that it cannot be 1311# resolved by QEMU, that means that subsequent QMP or 1312# HMP commands must use node-names for the image in 1313# question, as filename lookup methods will fail. 1314# 1315# If not specified, QEMU will automatically determine 1316# the backing file string to use, or error out if 1317# there is no obvious choice. Care should be taken 1318# when specifying the string, to specify a valid 1319# filename or protocol. 1320# (Since 2.1) 1321# 1322# If top == base, that is an error. 1323# If top == active, the job will not be completed by itself, 1324# user needs to complete the job with the block-job-complete 1325# command after getting the ready event. (Since 2.0) 1326# 1327# If the base image is smaller than top, then the base image 1328# will be resized to be the same size as top. If top is 1329# smaller than the base image, the base will not be 1330# truncated. If you want the base image size to match the 1331# size of the smaller top, you can safely truncate it 1332# yourself once the commit operation successfully completes. 1333# 1334# @speed: the maximum speed, in bytes per second 1335# 1336# @filter-node-name: the node name that should be assigned to the 1337# filter driver that the commit job inserts into the graph 1338# above @top. If this option is not given, a node name is 1339# autogenerated. (Since: 2.9) 1340# 1341# Returns: Nothing on success 1342# If commit or stream is already active on this device, DeviceInUse 1343# If @device does not exist, DeviceNotFound 1344# If image commit is not supported by this device, NotSupported 1345# If @base or @top is invalid, a generic error is returned 1346# If @speed is invalid, InvalidParameter 1347# 1348# Since: 1.3 1349# 1350# Example: 1351# 1352# -> { "execute": "block-commit", 1353# "arguments": { "device": "virtio0", 1354# "top": "/tmp/snap1.qcow2" } } 1355# <- { "return": {} } 1356# 1357## 1358{ 'command': 'block-commit', 1359 'data': { '*job-id': 'str', 'device': 'str', '*base': 'str', '*top': 'str', 1360 '*backing-file': 'str', '*speed': 'int', 1361 '*filter-node-name': 'str' } } 1362 1363## 1364# @drive-backup: 1365# 1366# Start a point-in-time copy of a block device to a new destination. The 1367# status of ongoing drive-backup operations can be checked with 1368# query-block-jobs where the BlockJobInfo.type field has the value 'backup'. 1369# The operation can be stopped before it has completed using the 1370# block-job-cancel command. 1371# 1372# Returns: nothing on success 1373# If @device is not a valid block device, GenericError 1374# 1375# Since: 1.6 1376# 1377# Example: 1378# 1379# -> { "execute": "drive-backup", 1380# "arguments": { "device": "drive0", 1381# "sync": "full", 1382# "target": "backup.img" } } 1383# <- { "return": {} } 1384# 1385## 1386{ 'command': 'drive-backup', 'boxed': true, 1387 'data': 'DriveBackup' } 1388 1389## 1390# @blockdev-backup: 1391# 1392# Start a point-in-time copy of a block device to a new destination. The 1393# status of ongoing blockdev-backup operations can be checked with 1394# query-block-jobs where the BlockJobInfo.type field has the value 'backup'. 1395# The operation can be stopped before it has completed using the 1396# block-job-cancel command. 1397# 1398# Returns: nothing on success 1399# If @device is not a valid block device, DeviceNotFound 1400# 1401# Since: 2.3 1402# 1403# Example: 1404# -> { "execute": "blockdev-backup", 1405# "arguments": { "device": "src-id", 1406# "sync": "full", 1407# "target": "tgt-id" } } 1408# <- { "return": {} } 1409# 1410## 1411{ 'command': 'blockdev-backup', 'boxed': true, 1412 'data': 'BlockdevBackup' } 1413 1414 1415## 1416# @query-named-block-nodes: 1417# 1418# Get the named block driver list 1419# 1420# Returns: the list of BlockDeviceInfo 1421# 1422# Since: 2.0 1423# 1424# Example: 1425# 1426# -> { "execute": "query-named-block-nodes" } 1427# <- { "return": [ { "ro":false, 1428# "drv":"qcow2", 1429# "encrypted":false, 1430# "file":"disks/test.qcow2", 1431# "node-name": "my-node", 1432# "backing_file_depth":1, 1433# "bps":1000000, 1434# "bps_rd":0, 1435# "bps_wr":0, 1436# "iops":1000000, 1437# "iops_rd":0, 1438# "iops_wr":0, 1439# "bps_max": 8000000, 1440# "bps_rd_max": 0, 1441# "bps_wr_max": 0, 1442# "iops_max": 0, 1443# "iops_rd_max": 0, 1444# "iops_wr_max": 0, 1445# "iops_size": 0, 1446# "write_threshold": 0, 1447# "image":{ 1448# "filename":"disks/test.qcow2", 1449# "format":"qcow2", 1450# "virtual-size":2048000, 1451# "backing_file":"base.qcow2", 1452# "full-backing-filename":"disks/base.qcow2", 1453# "backing-filename-format":"qcow2", 1454# "snapshots":[ 1455# { 1456# "id": "1", 1457# "name": "snapshot1", 1458# "vm-state-size": 0, 1459# "date-sec": 10000200, 1460# "date-nsec": 12, 1461# "vm-clock-sec": 206, 1462# "vm-clock-nsec": 30 1463# } 1464# ], 1465# "backing-image":{ 1466# "filename":"disks/base.qcow2", 1467# "format":"qcow2", 1468# "virtual-size":2048000 1469# } 1470# } } ] } 1471# 1472## 1473{ 'command': 'query-named-block-nodes', 'returns': [ 'BlockDeviceInfo' ] } 1474 1475## 1476# @drive-mirror: 1477# 1478# Start mirroring a block device's writes to a new destination. target 1479# specifies the target of the new image. If the file exists, or if it 1480# is a device, it will be used as the new destination for writes. If 1481# it does not exist, a new file will be created. format specifies the 1482# format of the mirror image, default is to probe if mode='existing', 1483# else the format of the source. 1484# 1485# Returns: nothing on success 1486# If @device is not a valid block device, GenericError 1487# 1488# Since: 1.3 1489# 1490# Example: 1491# 1492# -> { "execute": "drive-mirror", 1493# "arguments": { "device": "ide-hd0", 1494# "target": "/some/place/my-image", 1495# "sync": "full", 1496# "format": "qcow2" } } 1497# <- { "return": {} } 1498# 1499## 1500{ 'command': 'drive-mirror', 'boxed': true, 1501 'data': 'DriveMirror' } 1502 1503## 1504# @DriveMirror: 1505# 1506# A set of parameters describing drive mirror setup. 1507# 1508# @job-id: identifier for the newly-created block job. If 1509# omitted, the device name will be used. (Since 2.7) 1510# 1511# @device: the device name or node-name of a root node whose writes should be 1512# mirrored. 1513# 1514# @target: the target of the new image. If the file exists, or if it 1515# is a device, the existing file/device will be used as the new 1516# destination. If it does not exist, a new file will be created. 1517# 1518# @format: the format of the new destination, default is to 1519# probe if @mode is 'existing', else the format of the source 1520# 1521# @node-name: the new block driver state node name in the graph 1522# (Since 2.1) 1523# 1524# @replaces: with sync=full graph node name to be replaced by the new 1525# image when a whole image copy is done. This can be used to repair 1526# broken Quorum files. (Since 2.1) 1527# 1528# @mode: whether and how QEMU should create a new image, default is 1529# 'absolute-paths'. 1530# 1531# @speed: the maximum speed, in bytes per second 1532# 1533# @sync: what parts of the disk image should be copied to the destination 1534# (all the disk, only the sectors allocated in the topmost image, or 1535# only new I/O). 1536# 1537# @granularity: granularity of the dirty bitmap, default is 64K 1538# if the image format doesn't have clusters, 4K if the clusters 1539# are smaller than that, else the cluster size. Must be a 1540# power of 2 between 512 and 64M (since 1.4). 1541# 1542# @buf-size: maximum amount of data in flight from source to 1543# target (since 1.4). 1544# 1545# @on-source-error: the action to take on an error on the source, 1546# default 'report'. 'stop' and 'enospc' can only be used 1547# if the block device supports io-status (see BlockInfo). 1548# 1549# @on-target-error: the action to take on an error on the target, 1550# default 'report' (no limitations, since this applies to 1551# a different block device than @device). 1552# @unmap: Whether to try to unmap target sectors where source has 1553# only zero. If true, and target unallocated sectors will read as zero, 1554# target image sectors will be unmapped; otherwise, zeroes will be 1555# written. Both will result in identical contents. 1556# Default is true. (Since 2.4) 1557# 1558# Since: 1.3 1559## 1560{ 'struct': 'DriveMirror', 1561 'data': { '*job-id': 'str', 'device': 'str', 'target': 'str', 1562 '*format': 'str', '*node-name': 'str', '*replaces': 'str', 1563 'sync': 'MirrorSyncMode', '*mode': 'NewImageMode', 1564 '*speed': 'int', '*granularity': 'uint32', 1565 '*buf-size': 'int', '*on-source-error': 'BlockdevOnError', 1566 '*on-target-error': 'BlockdevOnError', 1567 '*unmap': 'bool' } } 1568 1569## 1570# @BlockDirtyBitmap: 1571# 1572# @node: name of device/node which the bitmap is tracking 1573# 1574# @name: name of the dirty bitmap 1575# 1576# Since: 2.4 1577## 1578{ 'struct': 'BlockDirtyBitmap', 1579 'data': { 'node': 'str', 'name': 'str' } } 1580 1581## 1582# @BlockDirtyBitmapAdd: 1583# 1584# @node: name of device/node which the bitmap is tracking 1585# 1586# @name: name of the dirty bitmap 1587# 1588# @granularity: the bitmap granularity, default is 64k for 1589# block-dirty-bitmap-add 1590# 1591# @persistent: the bitmap is persistent, i.e. it will be saved to the 1592# corresponding block device image file on its close. For now only 1593# Qcow2 disks support persistent bitmaps. Default is false for 1594# block-dirty-bitmap-add. (Since: 2.10) 1595# 1596# @autoload: ignored and deprecated since 2.12. 1597# Currently, all dirty tracking bitmaps are loaded from Qcow2 on 1598# open. 1599# 1600# Since: 2.4 1601## 1602{ 'struct': 'BlockDirtyBitmapAdd', 1603 'data': { 'node': 'str', 'name': 'str', '*granularity': 'uint32', 1604 '*persistent': 'bool', '*autoload': 'bool' } } 1605 1606## 1607# @block-dirty-bitmap-add: 1608# 1609# Create a dirty bitmap with a name on the node, and start tracking the writes. 1610# 1611# Returns: nothing on success 1612# If @node is not a valid block device or node, DeviceNotFound 1613# If @name is already taken, GenericError with an explanation 1614# 1615# Since: 2.4 1616# 1617# Example: 1618# 1619# -> { "execute": "block-dirty-bitmap-add", 1620# "arguments": { "node": "drive0", "name": "bitmap0" } } 1621# <- { "return": {} } 1622# 1623## 1624{ 'command': 'block-dirty-bitmap-add', 1625 'data': 'BlockDirtyBitmapAdd' } 1626 1627## 1628# @block-dirty-bitmap-remove: 1629# 1630# Stop write tracking and remove the dirty bitmap that was created 1631# with block-dirty-bitmap-add. If the bitmap is persistent, remove it from its 1632# storage too. 1633# 1634# Returns: nothing on success 1635# If @node is not a valid block device or node, DeviceNotFound 1636# If @name is not found, GenericError with an explanation 1637# if @name is frozen by an operation, GenericError 1638# 1639# Since: 2.4 1640# 1641# Example: 1642# 1643# -> { "execute": "block-dirty-bitmap-remove", 1644# "arguments": { "node": "drive0", "name": "bitmap0" } } 1645# <- { "return": {} } 1646# 1647## 1648{ 'command': 'block-dirty-bitmap-remove', 1649 'data': 'BlockDirtyBitmap' } 1650 1651## 1652# @block-dirty-bitmap-clear: 1653# 1654# Clear (reset) a dirty bitmap on the device, so that an incremental 1655# backup from this point in time forward will only backup clusters 1656# modified after this clear operation. 1657# 1658# Returns: nothing on success 1659# If @node is not a valid block device, DeviceNotFound 1660# If @name is not found, GenericError with an explanation 1661# 1662# Since: 2.4 1663# 1664# Example: 1665# 1666# -> { "execute": "block-dirty-bitmap-clear", 1667# "arguments": { "node": "drive0", "name": "bitmap0" } } 1668# <- { "return": {} } 1669# 1670## 1671{ 'command': 'block-dirty-bitmap-clear', 1672 'data': 'BlockDirtyBitmap' } 1673 1674## 1675# @BlockDirtyBitmapSha256: 1676# 1677# SHA256 hash of dirty bitmap data 1678# 1679# @sha256: ASCII representation of SHA256 bitmap hash 1680# 1681# Since: 2.10 1682## 1683 { 'struct': 'BlockDirtyBitmapSha256', 1684 'data': {'sha256': 'str'} } 1685 1686## 1687# @x-debug-block-dirty-bitmap-sha256: 1688# 1689# Get bitmap SHA256 1690# 1691# Returns: BlockDirtyBitmapSha256 on success 1692# If @node is not a valid block device, DeviceNotFound 1693# If @name is not found or if hashing has failed, GenericError with an 1694# explanation 1695# 1696# Since: 2.10 1697## 1698 { 'command': 'x-debug-block-dirty-bitmap-sha256', 1699 'data': 'BlockDirtyBitmap', 'returns': 'BlockDirtyBitmapSha256' } 1700 1701## 1702# @blockdev-mirror: 1703# 1704# Start mirroring a block device's writes to a new destination. 1705# 1706# @job-id: identifier for the newly-created block job. If 1707# omitted, the device name will be used. (Since 2.7) 1708# 1709# @device: The device name or node-name of a root node whose writes should be 1710# mirrored. 1711# 1712# @target: the id or node-name of the block device to mirror to. This mustn't be 1713# attached to guest. 1714# 1715# @replaces: with sync=full graph node name to be replaced by the new 1716# image when a whole image copy is done. This can be used to repair 1717# broken Quorum files. 1718# 1719# @speed: the maximum speed, in bytes per second 1720# 1721# @sync: what parts of the disk image should be copied to the destination 1722# (all the disk, only the sectors allocated in the topmost image, or 1723# only new I/O). 1724# 1725# @granularity: granularity of the dirty bitmap, default is 64K 1726# if the image format doesn't have clusters, 4K if the clusters 1727# are smaller than that, else the cluster size. Must be a 1728# power of 2 between 512 and 64M 1729# 1730# @buf-size: maximum amount of data in flight from source to 1731# target 1732# 1733# @on-source-error: the action to take on an error on the source, 1734# default 'report'. 'stop' and 'enospc' can only be used 1735# if the block device supports io-status (see BlockInfo). 1736# 1737# @on-target-error: the action to take on an error on the target, 1738# default 'report' (no limitations, since this applies to 1739# a different block device than @device). 1740# 1741# @filter-node-name: the node name that should be assigned to the 1742# filter driver that the mirror job inserts into the graph 1743# above @device. If this option is not given, a node name is 1744# autogenerated. (Since: 2.9) 1745# 1746# Returns: nothing on success. 1747# 1748# Since: 2.6 1749# 1750# Example: 1751# 1752# -> { "execute": "blockdev-mirror", 1753# "arguments": { "device": "ide-hd0", 1754# "target": "target0", 1755# "sync": "full" } } 1756# <- { "return": {} } 1757# 1758## 1759{ 'command': 'blockdev-mirror', 1760 'data': { '*job-id': 'str', 'device': 'str', 'target': 'str', 1761 '*replaces': 'str', 1762 'sync': 'MirrorSyncMode', 1763 '*speed': 'int', '*granularity': 'uint32', 1764 '*buf-size': 'int', '*on-source-error': 'BlockdevOnError', 1765 '*on-target-error': 'BlockdevOnError', 1766 '*filter-node-name': 'str' } } 1767 1768## 1769# @block_set_io_throttle: 1770# 1771# Change I/O throttle limits for a block drive. 1772# 1773# Since QEMU 2.4, each device with I/O limits is member of a throttle 1774# group. 1775# 1776# If two or more devices are members of the same group, the limits 1777# will apply to the combined I/O of the whole group in a round-robin 1778# fashion. Therefore, setting new I/O limits to a device will affect 1779# the whole group. 1780# 1781# The name of the group can be specified using the 'group' parameter. 1782# If the parameter is unset, it is assumed to be the current group of 1783# that device. If it's not in any group yet, the name of the device 1784# will be used as the name for its group. 1785# 1786# The 'group' parameter can also be used to move a device to a 1787# different group. In this case the limits specified in the parameters 1788# will be applied to the new group only. 1789# 1790# I/O limits can be disabled by setting all of them to 0. In this case 1791# the device will be removed from its group and the rest of its 1792# members will not be affected. The 'group' parameter is ignored. 1793# 1794# Returns: Nothing on success 1795# If @device is not a valid block device, DeviceNotFound 1796# 1797# Since: 1.1 1798# 1799# Example: 1800# 1801# -> { "execute": "block_set_io_throttle", 1802# "arguments": { "id": "virtio-blk-pci0/virtio-backend", 1803# "bps": 0, 1804# "bps_rd": 0, 1805# "bps_wr": 0, 1806# "iops": 512, 1807# "iops_rd": 0, 1808# "iops_wr": 0, 1809# "bps_max": 0, 1810# "bps_rd_max": 0, 1811# "bps_wr_max": 0, 1812# "iops_max": 0, 1813# "iops_rd_max": 0, 1814# "iops_wr_max": 0, 1815# "bps_max_length": 0, 1816# "iops_size": 0 } } 1817# <- { "return": {} } 1818# 1819# -> { "execute": "block_set_io_throttle", 1820# "arguments": { "id": "ide0-1-0", 1821# "bps": 1000000, 1822# "bps_rd": 0, 1823# "bps_wr": 0, 1824# "iops": 0, 1825# "iops_rd": 0, 1826# "iops_wr": 0, 1827# "bps_max": 8000000, 1828# "bps_rd_max": 0, 1829# "bps_wr_max": 0, 1830# "iops_max": 0, 1831# "iops_rd_max": 0, 1832# "iops_wr_max": 0, 1833# "bps_max_length": 60, 1834# "iops_size": 0 } } 1835# <- { "return": {} } 1836## 1837{ 'command': 'block_set_io_throttle', 'boxed': true, 1838 'data': 'BlockIOThrottle' } 1839 1840## 1841# @BlockIOThrottle: 1842# 1843# A set of parameters describing block throttling. 1844# 1845# @device: Block device name (deprecated, use @id instead) 1846# 1847# @id: The name or QOM path of the guest device (since: 2.8) 1848# 1849# @bps: total throughput limit in bytes per second 1850# 1851# @bps_rd: read throughput limit in bytes per second 1852# 1853# @bps_wr: write throughput limit in bytes per second 1854# 1855# @iops: total I/O operations per second 1856# 1857# @iops_rd: read I/O operations per second 1858# 1859# @iops_wr: write I/O operations per second 1860# 1861# @bps_max: total throughput limit during bursts, 1862# in bytes (Since 1.7) 1863# 1864# @bps_rd_max: read throughput limit during bursts, 1865# in bytes (Since 1.7) 1866# 1867# @bps_wr_max: write throughput limit during bursts, 1868# in bytes (Since 1.7) 1869# 1870# @iops_max: total I/O operations per second during bursts, 1871# in bytes (Since 1.7) 1872# 1873# @iops_rd_max: read I/O operations per second during bursts, 1874# in bytes (Since 1.7) 1875# 1876# @iops_wr_max: write I/O operations per second during bursts, 1877# in bytes (Since 1.7) 1878# 1879# @bps_max_length: maximum length of the @bps_max burst 1880# period, in seconds. It must only 1881# be set if @bps_max is set as well. 1882# Defaults to 1. (Since 2.6) 1883# 1884# @bps_rd_max_length: maximum length of the @bps_rd_max 1885# burst period, in seconds. It must only 1886# be set if @bps_rd_max is set as well. 1887# Defaults to 1. (Since 2.6) 1888# 1889# @bps_wr_max_length: maximum length of the @bps_wr_max 1890# burst period, in seconds. It must only 1891# be set if @bps_wr_max is set as well. 1892# Defaults to 1. (Since 2.6) 1893# 1894# @iops_max_length: maximum length of the @iops burst 1895# period, in seconds. It must only 1896# be set if @iops_max is set as well. 1897# Defaults to 1. (Since 2.6) 1898# 1899# @iops_rd_max_length: maximum length of the @iops_rd_max 1900# burst period, in seconds. It must only 1901# be set if @iops_rd_max is set as well. 1902# Defaults to 1. (Since 2.6) 1903# 1904# @iops_wr_max_length: maximum length of the @iops_wr_max 1905# burst period, in seconds. It must only 1906# be set if @iops_wr_max is set as well. 1907# Defaults to 1. (Since 2.6) 1908# 1909# @iops_size: an I/O size in bytes (Since 1.7) 1910# 1911# @group: throttle group name (Since 2.4) 1912# 1913# Since: 1.1 1914## 1915{ 'struct': 'BlockIOThrottle', 1916 'data': { '*device': 'str', '*id': 'str', 'bps': 'int', 'bps_rd': 'int', 1917 'bps_wr': 'int', 'iops': 'int', 'iops_rd': 'int', 'iops_wr': 'int', 1918 '*bps_max': 'int', '*bps_rd_max': 'int', 1919 '*bps_wr_max': 'int', '*iops_max': 'int', 1920 '*iops_rd_max': 'int', '*iops_wr_max': 'int', 1921 '*bps_max_length': 'int', '*bps_rd_max_length': 'int', 1922 '*bps_wr_max_length': 'int', '*iops_max_length': 'int', 1923 '*iops_rd_max_length': 'int', '*iops_wr_max_length': 'int', 1924 '*iops_size': 'int', '*group': 'str' } } 1925 1926## 1927# @ThrottleLimits: 1928# 1929# Limit parameters for throttling. 1930# Since some limit combinations are illegal, limits should always be set in one 1931# transaction. All fields are optional. When setting limits, if a field is 1932# missing the current value is not changed. 1933# 1934# @iops-total: limit total I/O operations per second 1935# @iops-total-max: I/O operations burst 1936# @iops-total-max-length: length of the iops-total-max burst period, in seconds 1937# It must only be set if @iops-total-max is set as well. 1938# @iops-read: limit read operations per second 1939# @iops-read-max: I/O operations read burst 1940# @iops-read-max-length: length of the iops-read-max burst period, in seconds 1941# It must only be set if @iops-read-max is set as well. 1942# @iops-write: limit write operations per second 1943# @iops-write-max: I/O operations write burst 1944# @iops-write-max-length: length of the iops-write-max burst period, in seconds 1945# It must only be set if @iops-write-max is set as well. 1946# @bps-total: limit total bytes per second 1947# @bps-total-max: total bytes burst 1948# @bps-total-max-length: length of the bps-total-max burst period, in seconds. 1949# It must only be set if @bps-total-max is set as well. 1950# @bps-read: limit read bytes per second 1951# @bps-read-max: total bytes read burst 1952# @bps-read-max-length: length of the bps-read-max burst period, in seconds 1953# It must only be set if @bps-read-max is set as well. 1954# @bps-write: limit write bytes per second 1955# @bps-write-max: total bytes write burst 1956# @bps-write-max-length: length of the bps-write-max burst period, in seconds 1957# It must only be set if @bps-write-max is set as well. 1958# @iops-size: when limiting by iops max size of an I/O in bytes 1959# 1960# Since: 2.11 1961## 1962{ 'struct': 'ThrottleLimits', 1963 'data': { '*iops-total' : 'int', '*iops-total-max' : 'int', 1964 '*iops-total-max-length' : 'int', '*iops-read' : 'int', 1965 '*iops-read-max' : 'int', '*iops-read-max-length' : 'int', 1966 '*iops-write' : 'int', '*iops-write-max' : 'int', 1967 '*iops-write-max-length' : 'int', '*bps-total' : 'int', 1968 '*bps-total-max' : 'int', '*bps-total-max-length' : 'int', 1969 '*bps-read' : 'int', '*bps-read-max' : 'int', 1970 '*bps-read-max-length' : 'int', '*bps-write' : 'int', 1971 '*bps-write-max' : 'int', '*bps-write-max-length' : 'int', 1972 '*iops-size' : 'int' } } 1973 1974## 1975# @block-stream: 1976# 1977# Copy data from a backing file into a block device. 1978# 1979# The block streaming operation is performed in the background until the entire 1980# backing file has been copied. This command returns immediately once streaming 1981# has started. The status of ongoing block streaming operations can be checked 1982# with query-block-jobs. The operation can be stopped before it has completed 1983# using the block-job-cancel command. 1984# 1985# The node that receives the data is called the top image, can be located in 1986# any part of the chain (but always above the base image; see below) and can be 1987# specified using its device or node name. Earlier qemu versions only allowed 1988# 'device' to name the top level node; presence of the 'base-node' parameter 1989# during introspection can be used as a witness of the enhanced semantics 1990# of 'device'. 1991# 1992# If a base file is specified then sectors are not copied from that base file and 1993# its backing chain. When streaming completes the image file will have the base 1994# file as its backing file. This can be used to stream a subset of the backing 1995# file chain instead of flattening the entire image. 1996# 1997# On successful completion the image file is updated to drop the backing file 1998# and the BLOCK_JOB_COMPLETED event is emitted. 1999# 2000# @job-id: identifier for the newly-created block job. If 2001# omitted, the device name will be used. (Since 2.7) 2002# 2003# @device: the device or node name of the top image 2004# 2005# @base: the common backing file name. 2006# It cannot be set if @base-node is also set. 2007# 2008# @base-node: the node name of the backing file. 2009# It cannot be set if @base is also set. (Since 2.8) 2010# 2011# @backing-file: The backing file string to write into the top 2012# image. This filename is not validated. 2013# 2014# If a pathname string is such that it cannot be 2015# resolved by QEMU, that means that subsequent QMP or 2016# HMP commands must use node-names for the image in 2017# question, as filename lookup methods will fail. 2018# 2019# If not specified, QEMU will automatically determine 2020# the backing file string to use, or error out if there 2021# is no obvious choice. Care should be taken when 2022# specifying the string, to specify a valid filename or 2023# protocol. 2024# (Since 2.1) 2025# 2026# @speed: the maximum speed, in bytes per second 2027# 2028# @on-error: the action to take on an error (default report). 2029# 'stop' and 'enospc' can only be used if the block device 2030# supports io-status (see BlockInfo). Since 1.3. 2031# 2032# Returns: Nothing on success. If @device does not exist, DeviceNotFound. 2033# 2034# Since: 1.1 2035# 2036# Example: 2037# 2038# -> { "execute": "block-stream", 2039# "arguments": { "device": "virtio0", 2040# "base": "/tmp/master.qcow2" } } 2041# <- { "return": {} } 2042# 2043## 2044{ 'command': 'block-stream', 2045 'data': { '*job-id': 'str', 'device': 'str', '*base': 'str', 2046 '*base-node': 'str', '*backing-file': 'str', '*speed': 'int', 2047 '*on-error': 'BlockdevOnError' } } 2048 2049## 2050# @block-job-set-speed: 2051# 2052# Set maximum speed for a background block operation. 2053# 2054# This command can only be issued when there is an active block job. 2055# 2056# Throttling can be disabled by setting the speed to 0. 2057# 2058# @device: The job identifier. This used to be a device name (hence 2059# the name of the parameter), but since QEMU 2.7 it can have 2060# other values. 2061# 2062# @speed: the maximum speed, in bytes per second, or 0 for unlimited. 2063# Defaults to 0. 2064# 2065# Returns: Nothing on success 2066# If no background operation is active on this device, DeviceNotActive 2067# 2068# Since: 1.1 2069## 2070{ 'command': 'block-job-set-speed', 2071 'data': { 'device': 'str', 'speed': 'int' } } 2072 2073## 2074# @block-job-cancel: 2075# 2076# Stop an active background block operation. 2077# 2078# This command returns immediately after marking the active background block 2079# operation for cancellation. It is an error to call this command if no 2080# operation is in progress. 2081# 2082# The operation will cancel as soon as possible and then emit the 2083# BLOCK_JOB_CANCELLED event. Before that happens the job is still visible when 2084# enumerated using query-block-jobs. 2085# 2086# Note that if you issue 'block-job-cancel' after 'drive-mirror' has indicated 2087# (via the event BLOCK_JOB_READY) that the source and destination are 2088# synchronized, then the event triggered by this command changes to 2089# BLOCK_JOB_COMPLETED, to indicate that the mirroring has ended and the 2090# destination now has a point-in-time copy tied to the time of the cancellation. 2091# 2092# For streaming, the image file retains its backing file unless the streaming 2093# operation happens to complete just as it is being cancelled. A new streaming 2094# operation can be started at a later time to finish copying all data from the 2095# backing file. 2096# 2097# @device: The job identifier. This used to be a device name (hence 2098# the name of the parameter), but since QEMU 2.7 it can have 2099# other values. 2100# 2101# @force: whether to allow cancellation of a paused job (default 2102# false). Since 1.3. 2103# 2104# Returns: Nothing on success 2105# If no background operation is active on this device, DeviceNotActive 2106# 2107# Since: 1.1 2108## 2109{ 'command': 'block-job-cancel', 'data': { 'device': 'str', '*force': 'bool' } } 2110 2111## 2112# @block-job-pause: 2113# 2114# Pause an active background block operation. 2115# 2116# This command returns immediately after marking the active background block 2117# operation for pausing. It is an error to call this command if no 2118# operation is in progress. Pausing an already paused job has no cumulative 2119# effect; a single block-job-resume command will resume the job. 2120# 2121# The operation will pause as soon as possible. No event is emitted when 2122# the operation is actually paused. Cancelling a paused job automatically 2123# resumes it. 2124# 2125# @device: The job identifier. This used to be a device name (hence 2126# the name of the parameter), but since QEMU 2.7 it can have 2127# other values. 2128# 2129# Returns: Nothing on success 2130# If no background operation is active on this device, DeviceNotActive 2131# 2132# Since: 1.3 2133## 2134{ 'command': 'block-job-pause', 'data': { 'device': 'str' } } 2135 2136## 2137# @block-job-resume: 2138# 2139# Resume an active background block operation. 2140# 2141# This command returns immediately after resuming a paused background block 2142# operation. It is an error to call this command if no operation is in 2143# progress. Resuming an already running job is not an error. 2144# 2145# This command also clears the error status of the job. 2146# 2147# @device: The job identifier. This used to be a device name (hence 2148# the name of the parameter), but since QEMU 2.7 it can have 2149# other values. 2150# 2151# Returns: Nothing on success 2152# If no background operation is active on this device, DeviceNotActive 2153# 2154# Since: 1.3 2155## 2156{ 'command': 'block-job-resume', 'data': { 'device': 'str' } } 2157 2158## 2159# @block-job-complete: 2160# 2161# Manually trigger completion of an active background block operation. This 2162# is supported for drive mirroring, where it also switches the device to 2163# write to the target path only. The ability to complete is signaled with 2164# a BLOCK_JOB_READY event. 2165# 2166# This command completes an active background block operation synchronously. 2167# The ordering of this command's return with the BLOCK_JOB_COMPLETED event 2168# is not defined. Note that if an I/O error occurs during the processing of 2169# this command: 1) the command itself will fail; 2) the error will be processed 2170# according to the rerror/werror arguments that were specified when starting 2171# the operation. 2172# 2173# A cancelled or paused job cannot be completed. 2174# 2175# @device: The job identifier. This used to be a device name (hence 2176# the name of the parameter), but since QEMU 2.7 it can have 2177# other values. 2178# 2179# Returns: Nothing on success 2180# If no background operation is active on this device, DeviceNotActive 2181# 2182# Since: 1.3 2183## 2184{ 'command': 'block-job-complete', 'data': { 'device': 'str' } } 2185 2186## 2187# @BlockdevDiscardOptions: 2188# 2189# Determines how to handle discard requests. 2190# 2191# @ignore: Ignore the request 2192# @unmap: Forward as an unmap request 2193# 2194# Since: 2.9 2195## 2196{ 'enum': 'BlockdevDiscardOptions', 2197 'data': [ 'ignore', 'unmap' ] } 2198 2199## 2200# @BlockdevDetectZeroesOptions: 2201# 2202# Describes the operation mode for the automatic conversion of plain 2203# zero writes by the OS to driver specific optimized zero write commands. 2204# 2205# @off: Disabled (default) 2206# @on: Enabled 2207# @unmap: Enabled and even try to unmap blocks if possible. This requires 2208# also that @BlockdevDiscardOptions is set to unmap for this device. 2209# 2210# Since: 2.1 2211## 2212{ 'enum': 'BlockdevDetectZeroesOptions', 2213 'data': [ 'off', 'on', 'unmap' ] } 2214 2215## 2216# @BlockdevAioOptions: 2217# 2218# Selects the AIO backend to handle I/O requests 2219# 2220# @threads: Use qemu's thread pool 2221# @native: Use native AIO backend (only Linux and Windows) 2222# 2223# Since: 2.9 2224## 2225{ 'enum': 'BlockdevAioOptions', 2226 'data': [ 'threads', 'native' ] } 2227 2228## 2229# @BlockdevCacheOptions: 2230# 2231# Includes cache-related options for block devices 2232# 2233# @direct: enables use of O_DIRECT (bypass the host page cache; 2234# default: false) 2235# @no-flush: ignore any flush requests for the device (default: 2236# false) 2237# 2238# Since: 2.9 2239## 2240{ 'struct': 'BlockdevCacheOptions', 2241 'data': { '*direct': 'bool', 2242 '*no-flush': 'bool' } } 2243 2244## 2245# @BlockdevDriver: 2246# 2247# Drivers that are supported in block device operations. 2248# 2249# @vxhs: Since 2.10 2250# @throttle: Since 2.11 2251# @nvme: Since 2.12 2252# 2253# Since: 2.9 2254## 2255{ 'enum': 'BlockdevDriver', 2256 'data': [ 'blkdebug', 'blkverify', 'bochs', 'cloop', 2257 'dmg', 'file', 'ftp', 'ftps', 'gluster', 'host_cdrom', 2258 'host_device', 'http', 'https', 'iscsi', 'luks', 'nbd', 'nfs', 2259 'null-aio', 'null-co', 'nvme', 'parallels', 'qcow', 'qcow2', 'qed', 2260 'quorum', 'raw', 'rbd', 'replication', 'sheepdog', 'ssh', 2261 'throttle', 'vdi', 'vhdx', 'vmdk', 'vpc', 'vvfat', 'vxhs' ] } 2262 2263## 2264# @BlockdevOptionsFile: 2265# 2266# Driver specific block device options for the file backend. 2267# 2268# @filename: path to the image file 2269# @pr-manager: the id for the object that will handle persistent reservations 2270# for this device (default: none, forward the commands via SG_IO; 2271# since 2.11) 2272# @aio: AIO backend (default: threads) (since: 2.8) 2273# @locking: whether to enable file locking. If set to 'auto', only enable 2274# when Open File Descriptor (OFD) locking API is available 2275# (default: auto, since 2.10) 2276# 2277# Since: 2.9 2278## 2279{ 'struct': 'BlockdevOptionsFile', 2280 'data': { 'filename': 'str', 2281 '*pr-manager': 'str', 2282 '*locking': 'OnOffAuto', 2283 '*aio': 'BlockdevAioOptions' } } 2284 2285## 2286# @BlockdevOptionsNull: 2287# 2288# Driver specific block device options for the null backend. 2289# 2290# @size: size of the device in bytes. 2291# @latency-ns: emulated latency (in nanoseconds) in processing 2292# requests. Default to zero which completes requests immediately. 2293# (Since 2.4) 2294# 2295# Since: 2.9 2296## 2297{ 'struct': 'BlockdevOptionsNull', 2298 'data': { '*size': 'int', '*latency-ns': 'uint64' } } 2299 2300## 2301# @BlockdevOptionsNVMe: 2302# 2303# Driver specific block device options for the NVMe backend. 2304# 2305# @device: controller address of the NVMe device. 2306# @namespace: namespace number of the device, starting from 1. 2307# 2308# Since: 2.12 2309## 2310{ 'struct': 'BlockdevOptionsNVMe', 2311 'data': { 'device': 'str', 'namespace': 'int' } } 2312 2313## 2314# @BlockdevOptionsVVFAT: 2315# 2316# Driver specific block device options for the vvfat protocol. 2317# 2318# @dir: directory to be exported as FAT image 2319# @fat-type: FAT type: 12, 16 or 32 2320# @floppy: whether to export a floppy image (true) or 2321# partitioned hard disk (false; default) 2322# @label: set the volume label, limited to 11 bytes. FAT16 and 2323# FAT32 traditionally have some restrictions on labels, which are 2324# ignored by most operating systems. Defaults to "QEMU VVFAT". 2325# (since 2.4) 2326# @rw: whether to allow write operations (default: false) 2327# 2328# Since: 2.9 2329## 2330{ 'struct': 'BlockdevOptionsVVFAT', 2331 'data': { 'dir': 'str', '*fat-type': 'int', '*floppy': 'bool', 2332 '*label': 'str', '*rw': 'bool' } } 2333 2334## 2335# @BlockdevOptionsGenericFormat: 2336# 2337# Driver specific block device options for image format that have no option 2338# besides their data source. 2339# 2340# @file: reference to or definition of the data source block device 2341# 2342# Since: 2.9 2343## 2344{ 'struct': 'BlockdevOptionsGenericFormat', 2345 'data': { 'file': 'BlockdevRef' } } 2346 2347## 2348# @BlockdevOptionsLUKS: 2349# 2350# Driver specific block device options for LUKS. 2351# 2352# @key-secret: the ID of a QCryptoSecret object providing 2353# the decryption key (since 2.6). Mandatory except when 2354# doing a metadata-only probe of the image. 2355# 2356# Since: 2.9 2357## 2358{ 'struct': 'BlockdevOptionsLUKS', 2359 'base': 'BlockdevOptionsGenericFormat', 2360 'data': { '*key-secret': 'str' } } 2361 2362 2363## 2364# @BlockdevOptionsGenericCOWFormat: 2365# 2366# Driver specific block device options for image format that have no option 2367# besides their data source and an optional backing file. 2368# 2369# @backing: reference to or definition of the backing file block 2370# device, null disables the backing file entirely. 2371# Defaults to the backing file stored the image file. 2372# 2373# Since: 2.9 2374## 2375{ 'struct': 'BlockdevOptionsGenericCOWFormat', 2376 'base': 'BlockdevOptionsGenericFormat', 2377 'data': { '*backing': 'BlockdevRefOrNull' } } 2378 2379## 2380# @Qcow2OverlapCheckMode: 2381# 2382# General overlap check modes. 2383# 2384# @none: Do not perform any checks 2385# 2386# @constant: Perform only checks which can be done in constant time and 2387# without reading anything from disk 2388# 2389# @cached: Perform only checks which can be done without reading anything 2390# from disk 2391# 2392# @all: Perform all available overlap checks 2393# 2394# Since: 2.9 2395## 2396{ 'enum': 'Qcow2OverlapCheckMode', 2397 'data': [ 'none', 'constant', 'cached', 'all' ] } 2398 2399## 2400# @Qcow2OverlapCheckFlags: 2401# 2402# Structure of flags for each metadata structure. Setting a field to 'true' 2403# makes qemu guard that structure against unintended overwriting. The default 2404# value is chosen according to the template given. 2405# 2406# @template: Specifies a template mode which can be adjusted using the other 2407# flags, defaults to 'cached' 2408# 2409# Since: 2.9 2410## 2411{ 'struct': 'Qcow2OverlapCheckFlags', 2412 'data': { '*template': 'Qcow2OverlapCheckMode', 2413 '*main-header': 'bool', 2414 '*active-l1': 'bool', 2415 '*active-l2': 'bool', 2416 '*refcount-table': 'bool', 2417 '*refcount-block': 'bool', 2418 '*snapshot-table': 'bool', 2419 '*inactive-l1': 'bool', 2420 '*inactive-l2': 'bool' } } 2421 2422## 2423# @Qcow2OverlapChecks: 2424# 2425# Specifies which metadata structures should be guarded against unintended 2426# overwriting. 2427# 2428# @flags: set of flags for separate specification of each metadata structure 2429# type 2430# 2431# @mode: named mode which chooses a specific set of flags 2432# 2433# Since: 2.9 2434## 2435{ 'alternate': 'Qcow2OverlapChecks', 2436 'data': { 'flags': 'Qcow2OverlapCheckFlags', 2437 'mode': 'Qcow2OverlapCheckMode' } } 2438 2439## 2440# @BlockdevQcowEncryptionFormat: 2441# 2442# @aes: AES-CBC with plain64 initialization vectors 2443# 2444# Since: 2.10 2445## 2446{ 'enum': 'BlockdevQcowEncryptionFormat', 2447 'data': [ 'aes' ] } 2448 2449## 2450# @BlockdevQcowEncryption: 2451# 2452# Since: 2.10 2453## 2454{ 'union': 'BlockdevQcowEncryption', 2455 'base': { 'format': 'BlockdevQcowEncryptionFormat' }, 2456 'discriminator': 'format', 2457 'data': { 'aes': 'QCryptoBlockOptionsQCow' } } 2458 2459## 2460# @BlockdevOptionsQcow: 2461# 2462# Driver specific block device options for qcow. 2463# 2464# @encrypt: Image decryption options. Mandatory for 2465# encrypted images, except when doing a metadata-only 2466# probe of the image. 2467# 2468# Since: 2.10 2469## 2470{ 'struct': 'BlockdevOptionsQcow', 2471 'base': 'BlockdevOptionsGenericCOWFormat', 2472 'data': { '*encrypt': 'BlockdevQcowEncryption' } } 2473 2474 2475 2476## 2477# @BlockdevQcow2EncryptionFormat: 2478# @aes: AES-CBC with plain64 initialization venctors 2479# 2480# Since: 2.10 2481## 2482{ 'enum': 'BlockdevQcow2EncryptionFormat', 2483 'data': [ 'aes', 'luks' ] } 2484 2485## 2486# @BlockdevQcow2Encryption: 2487# 2488# Since: 2.10 2489## 2490{ 'union': 'BlockdevQcow2Encryption', 2491 'base': { 'format': 'BlockdevQcow2EncryptionFormat' }, 2492 'discriminator': 'format', 2493 'data': { 'aes': 'QCryptoBlockOptionsQCow', 2494 'luks': 'QCryptoBlockOptionsLUKS'} } 2495 2496## 2497# @BlockdevOptionsQcow2: 2498# 2499# Driver specific block device options for qcow2. 2500# 2501# @lazy-refcounts: whether to enable the lazy refcounts 2502# feature (default is taken from the image file) 2503# 2504# @pass-discard-request: whether discard requests to the qcow2 2505# device should be forwarded to the data source 2506# 2507# @pass-discard-snapshot: whether discard requests for the data source 2508# should be issued when a snapshot operation (e.g. 2509# deleting a snapshot) frees clusters in the qcow2 file 2510# 2511# @pass-discard-other: whether discard requests for the data source 2512# should be issued on other occasions where a cluster 2513# gets freed 2514# 2515# @overlap-check: which overlap checks to perform for writes 2516# to the image, defaults to 'cached' (since 2.2) 2517# 2518# @cache-size: the maximum total size of the L2 table and 2519# refcount block caches in bytes (since 2.2) 2520# 2521# @l2-cache-size: the maximum size of the L2 table cache in 2522# bytes (since 2.2) 2523# 2524# @l2-cache-entry-size: the size of each entry in the L2 cache in 2525# bytes. It must be a power of two between 512 2526# and the cluster size. The default value is 2527# the cluster size (since 2.12) 2528# 2529# @refcount-cache-size: the maximum size of the refcount block cache 2530# in bytes (since 2.2) 2531# 2532# @cache-clean-interval: clean unused entries in the L2 and refcount 2533# caches. The interval is in seconds. The default value 2534# is 0 and it disables this feature (since 2.5) 2535# @encrypt: Image decryption options. Mandatory for 2536# encrypted images, except when doing a metadata-only 2537# probe of the image. (since 2.10) 2538# 2539# Since: 2.9 2540## 2541{ 'struct': 'BlockdevOptionsQcow2', 2542 'base': 'BlockdevOptionsGenericCOWFormat', 2543 'data': { '*lazy-refcounts': 'bool', 2544 '*pass-discard-request': 'bool', 2545 '*pass-discard-snapshot': 'bool', 2546 '*pass-discard-other': 'bool', 2547 '*overlap-check': 'Qcow2OverlapChecks', 2548 '*cache-size': 'int', 2549 '*l2-cache-size': 'int', 2550 '*l2-cache-entry-size': 'int', 2551 '*refcount-cache-size': 'int', 2552 '*cache-clean-interval': 'int', 2553 '*encrypt': 'BlockdevQcow2Encryption' } } 2554 2555## 2556# @BlockdevOptionsSsh: 2557# 2558# @server: host address 2559# 2560# @path: path to the image on the host 2561# 2562# @user: user as which to connect, defaults to current 2563# local user name 2564# 2565# TODO: Expose the host_key_check option in QMP 2566# 2567# Since: 2.9 2568## 2569{ 'struct': 'BlockdevOptionsSsh', 2570 'data': { 'server': 'InetSocketAddress', 2571 'path': 'str', 2572 '*user': 'str' } } 2573 2574 2575## 2576# @BlkdebugEvent: 2577# 2578# Trigger events supported by blkdebug. 2579# 2580# @l1_shrink_write_table: write zeros to the l1 table to shrink image. 2581# (since 2.11) 2582# 2583# @l1_shrink_free_l2_clusters: discard the l2 tables. (since 2.11) 2584# 2585# @cor_write: a write due to copy-on-read (since 2.11) 2586# 2587# Since: 2.9 2588## 2589{ 'enum': 'BlkdebugEvent', 'prefix': 'BLKDBG', 2590 'data': [ 'l1_update', 'l1_grow_alloc_table', 'l1_grow_write_table', 2591 'l1_grow_activate_table', 'l2_load', 'l2_update', 2592 'l2_update_compressed', 'l2_alloc_cow_read', 'l2_alloc_write', 2593 'read_aio', 'read_backing_aio', 'read_compressed', 'write_aio', 2594 'write_compressed', 'vmstate_load', 'vmstate_save', 'cow_read', 2595 'cow_write', 'reftable_load', 'reftable_grow', 'reftable_update', 2596 'refblock_load', 'refblock_update', 'refblock_update_part', 2597 'refblock_alloc', 'refblock_alloc_hookup', 'refblock_alloc_write', 2598 'refblock_alloc_write_blocks', 'refblock_alloc_write_table', 2599 'refblock_alloc_switch_table', 'cluster_alloc', 2600 'cluster_alloc_bytes', 'cluster_free', 'flush_to_os', 2601 'flush_to_disk', 'pwritev_rmw_head', 'pwritev_rmw_after_head', 2602 'pwritev_rmw_tail', 'pwritev_rmw_after_tail', 'pwritev', 2603 'pwritev_zero', 'pwritev_done', 'empty_image_prepare', 2604 'l1_shrink_write_table', 'l1_shrink_free_l2_clusters', 2605 'cor_write'] } 2606 2607## 2608# @BlkdebugInjectErrorOptions: 2609# 2610# Describes a single error injection for blkdebug. 2611# 2612# @event: trigger event 2613# 2614# @state: the state identifier blkdebug needs to be in to 2615# actually trigger the event; defaults to "any" 2616# 2617# @errno: error identifier (errno) to be returned; defaults to 2618# EIO 2619# 2620# @sector: specifies the sector index which has to be affected 2621# in order to actually trigger the event; defaults to "any 2622# sector" 2623# 2624# @once: disables further events after this one has been 2625# triggered; defaults to false 2626# 2627# @immediately: fail immediately; defaults to false 2628# 2629# Since: 2.9 2630## 2631{ 'struct': 'BlkdebugInjectErrorOptions', 2632 'data': { 'event': 'BlkdebugEvent', 2633 '*state': 'int', 2634 '*errno': 'int', 2635 '*sector': 'int', 2636 '*once': 'bool', 2637 '*immediately': 'bool' } } 2638 2639## 2640# @BlkdebugSetStateOptions: 2641# 2642# Describes a single state-change event for blkdebug. 2643# 2644# @event: trigger event 2645# 2646# @state: the current state identifier blkdebug needs to be in; 2647# defaults to "any" 2648# 2649# @new_state: the state identifier blkdebug is supposed to assume if 2650# this event is triggered 2651# 2652# Since: 2.9 2653## 2654{ 'struct': 'BlkdebugSetStateOptions', 2655 'data': { 'event': 'BlkdebugEvent', 2656 '*state': 'int', 2657 'new_state': 'int' } } 2658 2659## 2660# @BlockdevOptionsBlkdebug: 2661# 2662# Driver specific block device options for blkdebug. 2663# 2664# @image: underlying raw block device (or image file) 2665# 2666# @config: filename of the configuration file 2667# 2668# @align: required alignment for requests in bytes, must be 2669# positive power of 2, or 0 for default 2670# 2671# @max-transfer: maximum size for I/O transfers in bytes, must be 2672# positive multiple of @align and of the underlying 2673# file's request alignment (but need not be a power of 2674# 2), or 0 for default (since 2.10) 2675# 2676# @opt-write-zero: preferred alignment for write zero requests in bytes, 2677# must be positive multiple of @align and of the 2678# underlying file's request alignment (but need not be a 2679# power of 2), or 0 for default (since 2.10) 2680# 2681# @max-write-zero: maximum size for write zero requests in bytes, must be 2682# positive multiple of @align, of @opt-write-zero, and of 2683# the underlying file's request alignment (but need not 2684# be a power of 2), or 0 for default (since 2.10) 2685# 2686# @opt-discard: preferred alignment for discard requests in bytes, must 2687# be positive multiple of @align and of the underlying 2688# file's request alignment (but need not be a power of 2689# 2), or 0 for default (since 2.10) 2690# 2691# @max-discard: maximum size for discard requests in bytes, must be 2692# positive multiple of @align, of @opt-discard, and of 2693# the underlying file's request alignment (but need not 2694# be a power of 2), or 0 for default (since 2.10) 2695# 2696# @inject-error: array of error injection descriptions 2697# 2698# @set-state: array of state-change descriptions 2699# 2700# Since: 2.9 2701## 2702{ 'struct': 'BlockdevOptionsBlkdebug', 2703 'data': { 'image': 'BlockdevRef', 2704 '*config': 'str', 2705 '*align': 'int', '*max-transfer': 'int32', 2706 '*opt-write-zero': 'int32', '*max-write-zero': 'int32', 2707 '*opt-discard': 'int32', '*max-discard': 'int32', 2708 '*inject-error': ['BlkdebugInjectErrorOptions'], 2709 '*set-state': ['BlkdebugSetStateOptions'] } } 2710 2711## 2712# @BlockdevOptionsBlkverify: 2713# 2714# Driver specific block device options for blkverify. 2715# 2716# @test: block device to be tested 2717# 2718# @raw: raw image used for verification 2719# 2720# Since: 2.9 2721## 2722{ 'struct': 'BlockdevOptionsBlkverify', 2723 'data': { 'test': 'BlockdevRef', 2724 'raw': 'BlockdevRef' } } 2725 2726## 2727# @QuorumReadPattern: 2728# 2729# An enumeration of quorum read patterns. 2730# 2731# @quorum: read all the children and do a quorum vote on reads 2732# 2733# @fifo: read only from the first child that has not failed 2734# 2735# Since: 2.9 2736## 2737{ 'enum': 'QuorumReadPattern', 'data': [ 'quorum', 'fifo' ] } 2738 2739## 2740# @BlockdevOptionsQuorum: 2741# 2742# Driver specific block device options for Quorum 2743# 2744# @blkverify: true if the driver must print content mismatch 2745# set to false by default 2746# 2747# @children: the children block devices to use 2748# 2749# @vote-threshold: the vote limit under which a read will fail 2750# 2751# @rewrite-corrupted: rewrite corrupted data when quorum is reached 2752# (Since 2.1) 2753# 2754# @read-pattern: choose read pattern and set to quorum by default 2755# (Since 2.2) 2756# 2757# Since: 2.9 2758## 2759{ 'struct': 'BlockdevOptionsQuorum', 2760 'data': { '*blkverify': 'bool', 2761 'children': [ 'BlockdevRef' ], 2762 'vote-threshold': 'int', 2763 '*rewrite-corrupted': 'bool', 2764 '*read-pattern': 'QuorumReadPattern' } } 2765 2766## 2767# @BlockdevOptionsGluster: 2768# 2769# Driver specific block device options for Gluster 2770# 2771# @volume: name of gluster volume where VM image resides 2772# 2773# @path: absolute path to image file in gluster volume 2774# 2775# @server: gluster servers description 2776# 2777# @debug: libgfapi log level (default '4' which is Error) 2778# (Since 2.8) 2779# 2780# @logfile: libgfapi log file (default /dev/stderr) (Since 2.8) 2781# 2782# Since: 2.9 2783## 2784{ 'struct': 'BlockdevOptionsGluster', 2785 'data': { 'volume': 'str', 2786 'path': 'str', 2787 'server': ['SocketAddress'], 2788 '*debug': 'int', 2789 '*logfile': 'str' } } 2790 2791## 2792# @IscsiTransport: 2793# 2794# An enumeration of libiscsi transport types 2795# 2796# Since: 2.9 2797## 2798{ 'enum': 'IscsiTransport', 2799 'data': [ 'tcp', 'iser' ] } 2800 2801## 2802# @IscsiHeaderDigest: 2803# 2804# An enumeration of header digests supported by libiscsi 2805# 2806# Since: 2.9 2807## 2808{ 'enum': 'IscsiHeaderDigest', 2809 'prefix': 'QAPI_ISCSI_HEADER_DIGEST', 2810 'data': [ 'crc32c', 'none', 'crc32c-none', 'none-crc32c' ] } 2811 2812## 2813# @BlockdevOptionsIscsi: 2814# 2815# @transport: The iscsi transport type 2816# 2817# @portal: The address of the iscsi portal 2818# 2819# @target: The target iqn name 2820# 2821# @lun: LUN to connect to. Defaults to 0. 2822# 2823# @user: User name to log in with. If omitted, no CHAP 2824# authentication is performed. 2825# 2826# @password-secret: The ID of a QCryptoSecret object providing 2827# the password for the login. This option is required if 2828# @user is specified. 2829# 2830# @initiator-name: The iqn name we want to identify to the target 2831# as. If this option is not specified, an initiator name is 2832# generated automatically. 2833# 2834# @header-digest: The desired header digest. Defaults to 2835# none-crc32c. 2836# 2837# @timeout: Timeout in seconds after which a request will 2838# timeout. 0 means no timeout and is the default. 2839# 2840# Driver specific block device options for iscsi 2841# 2842# Since: 2.9 2843## 2844{ 'struct': 'BlockdevOptionsIscsi', 2845 'data': { 'transport': 'IscsiTransport', 2846 'portal': 'str', 2847 'target': 'str', 2848 '*lun': 'int', 2849 '*user': 'str', 2850 '*password-secret': 'str', 2851 '*initiator-name': 'str', 2852 '*header-digest': 'IscsiHeaderDigest', 2853 '*timeout': 'int' } } 2854 2855 2856## 2857# @BlockdevOptionsRbd: 2858# 2859# @pool: Ceph pool name. 2860# 2861# @image: Image name in the Ceph pool. 2862# 2863# @conf: path to Ceph configuration file. Values 2864# in the configuration file will be overridden by 2865# options specified via QAPI. 2866# 2867# @snapshot: Ceph snapshot name. 2868# 2869# @user: Ceph id name. 2870# 2871# @server: Monitor host address and port. This maps 2872# to the "mon_host" Ceph option. 2873# 2874# Since: 2.9 2875## 2876{ 'struct': 'BlockdevOptionsRbd', 2877 'data': { 'pool': 'str', 2878 'image': 'str', 2879 '*conf': 'str', 2880 '*snapshot': 'str', 2881 '*user': 'str', 2882 '*server': ['InetSocketAddressBase'] } } 2883 2884## 2885# @BlockdevOptionsSheepdog: 2886# 2887# Driver specific block device options for sheepdog 2888# 2889# @vdi: Virtual disk image name 2890# @server: The Sheepdog server to connect to 2891# @snap-id: Snapshot ID 2892# @tag: Snapshot tag name 2893# 2894# Only one of @snap-id and @tag may be present. 2895# 2896# Since: 2.9 2897## 2898{ 'struct': 'BlockdevOptionsSheepdog', 2899 'data': { 'server': 'SocketAddress', 2900 'vdi': 'str', 2901 '*snap-id': 'uint32', 2902 '*tag': 'str' } } 2903 2904## 2905# @ReplicationMode: 2906# 2907# An enumeration of replication modes. 2908# 2909# @primary: Primary mode, the vm's state will be sent to secondary QEMU. 2910# 2911# @secondary: Secondary mode, receive the vm's state from primary QEMU. 2912# 2913# Since: 2.9 2914## 2915{ 'enum' : 'ReplicationMode', 'data' : [ 'primary', 'secondary' ] } 2916 2917## 2918# @BlockdevOptionsReplication: 2919# 2920# Driver specific block device options for replication 2921# 2922# @mode: the replication mode 2923# 2924# @top-id: In secondary mode, node name or device ID of the root 2925# node who owns the replication node chain. Must not be given in 2926# primary mode. 2927# 2928# Since: 2.9 2929## 2930{ 'struct': 'BlockdevOptionsReplication', 2931 'base': 'BlockdevOptionsGenericFormat', 2932 'data': { 'mode': 'ReplicationMode', 2933 '*top-id': 'str' } } 2934 2935## 2936# @NFSTransport: 2937# 2938# An enumeration of NFS transport types 2939# 2940# @inet: TCP transport 2941# 2942# Since: 2.9 2943## 2944{ 'enum': 'NFSTransport', 2945 'data': [ 'inet' ] } 2946 2947## 2948# @NFSServer: 2949# 2950# Captures the address of the socket 2951# 2952# @type: transport type used for NFS (only TCP supported) 2953# 2954# @host: host address for NFS server 2955# 2956# Since: 2.9 2957## 2958{ 'struct': 'NFSServer', 2959 'data': { 'type': 'NFSTransport', 2960 'host': 'str' } } 2961 2962## 2963# @BlockdevOptionsNfs: 2964# 2965# Driver specific block device option for NFS 2966# 2967# @server: host address 2968# 2969# @path: path of the image on the host 2970# 2971# @user: UID value to use when talking to the 2972# server (defaults to 65534 on Windows and getuid() 2973# on unix) 2974# 2975# @group: GID value to use when talking to the 2976# server (defaults to 65534 on Windows and getgid() 2977# in unix) 2978# 2979# @tcp-syn-count: number of SYNs during the session 2980# establishment (defaults to libnfs default) 2981# 2982# @readahead-size: set the readahead size in bytes (defaults 2983# to libnfs default) 2984# 2985# @page-cache-size: set the pagecache size in bytes (defaults 2986# to libnfs default) 2987# 2988# @debug: set the NFS debug level (max 2) (defaults 2989# to libnfs default) 2990# 2991# Since: 2.9 2992## 2993{ 'struct': 'BlockdevOptionsNfs', 2994 'data': { 'server': 'NFSServer', 2995 'path': 'str', 2996 '*user': 'int', 2997 '*group': 'int', 2998 '*tcp-syn-count': 'int', 2999 '*readahead-size': 'int', 3000 '*page-cache-size': 'int', 3001 '*debug': 'int' } } 3002 3003## 3004# @BlockdevOptionsCurlBase: 3005# 3006# Driver specific block device options shared by all protocols supported by the 3007# curl backend. 3008# 3009# @url: URL of the image file 3010# 3011# @readahead: Size of the read-ahead cache; must be a multiple of 3012# 512 (defaults to 256 kB) 3013# 3014# @timeout: Timeout for connections, in seconds (defaults to 5) 3015# 3016# @username: Username for authentication (defaults to none) 3017# 3018# @password-secret: ID of a QCryptoSecret object providing a password 3019# for authentication (defaults to no password) 3020# 3021# @proxy-username: Username for proxy authentication (defaults to none) 3022# 3023# @proxy-password-secret: ID of a QCryptoSecret object providing a password 3024# for proxy authentication (defaults to no password) 3025# 3026# Since: 2.9 3027## 3028{ 'struct': 'BlockdevOptionsCurlBase', 3029 'data': { 'url': 'str', 3030 '*readahead': 'int', 3031 '*timeout': 'int', 3032 '*username': 'str', 3033 '*password-secret': 'str', 3034 '*proxy-username': 'str', 3035 '*proxy-password-secret': 'str' } } 3036 3037## 3038# @BlockdevOptionsCurlHttp: 3039# 3040# Driver specific block device options for HTTP connections over the curl 3041# backend. URLs must start with "http://". 3042# 3043# @cookie: List of cookies to set; format is 3044# "name1=content1; name2=content2;" as explained by 3045# CURLOPT_COOKIE(3). Defaults to no cookies. 3046# 3047# @cookie-secret: ID of a QCryptoSecret object providing the cookie data in a 3048# secure way. See @cookie for the format. (since 2.10) 3049# 3050# Since: 2.9 3051## 3052{ 'struct': 'BlockdevOptionsCurlHttp', 3053 'base': 'BlockdevOptionsCurlBase', 3054 'data': { '*cookie': 'str', 3055 '*cookie-secret': 'str'} } 3056 3057## 3058# @BlockdevOptionsCurlHttps: 3059# 3060# Driver specific block device options for HTTPS connections over the curl 3061# backend. URLs must start with "https://". 3062# 3063# @cookie: List of cookies to set; format is 3064# "name1=content1; name2=content2;" as explained by 3065# CURLOPT_COOKIE(3). Defaults to no cookies. 3066# 3067# @sslverify: Whether to verify the SSL certificate's validity (defaults to 3068# true) 3069# 3070# @cookie-secret: ID of a QCryptoSecret object providing the cookie data in a 3071# secure way. See @cookie for the format. (since 2.10) 3072# 3073# Since: 2.9 3074## 3075{ 'struct': 'BlockdevOptionsCurlHttps', 3076 'base': 'BlockdevOptionsCurlBase', 3077 'data': { '*cookie': 'str', 3078 '*sslverify': 'bool', 3079 '*cookie-secret': 'str'} } 3080 3081## 3082# @BlockdevOptionsCurlFtp: 3083# 3084# Driver specific block device options for FTP connections over the curl 3085# backend. URLs must start with "ftp://". 3086# 3087# Since: 2.9 3088## 3089{ 'struct': 'BlockdevOptionsCurlFtp', 3090 'base': 'BlockdevOptionsCurlBase', 3091 'data': { } } 3092 3093## 3094# @BlockdevOptionsCurlFtps: 3095# 3096# Driver specific block device options for FTPS connections over the curl 3097# backend. URLs must start with "ftps://". 3098# 3099# @sslverify: Whether to verify the SSL certificate's validity (defaults to 3100# true) 3101# 3102# Since: 2.9 3103## 3104{ 'struct': 'BlockdevOptionsCurlFtps', 3105 'base': 'BlockdevOptionsCurlBase', 3106 'data': { '*sslverify': 'bool' } } 3107 3108## 3109# @BlockdevOptionsNbd: 3110# 3111# Driver specific block device options for NBD. 3112# 3113# @server: NBD server address 3114# 3115# @export: export name 3116# 3117# @tls-creds: TLS credentials ID 3118# 3119# Since: 2.9 3120## 3121{ 'struct': 'BlockdevOptionsNbd', 3122 'data': { 'server': 'SocketAddress', 3123 '*export': 'str', 3124 '*tls-creds': 'str' } } 3125 3126## 3127# @BlockdevOptionsRaw: 3128# 3129# Driver specific block device options for the raw driver. 3130# 3131# @offset: position where the block device starts 3132# @size: the assumed size of the device 3133# 3134# Since: 2.9 3135## 3136{ 'struct': 'BlockdevOptionsRaw', 3137 'base': 'BlockdevOptionsGenericFormat', 3138 'data': { '*offset': 'int', '*size': 'int' } } 3139 3140## 3141# @BlockdevOptionsVxHS: 3142# 3143# Driver specific block device options for VxHS 3144# 3145# @vdisk-id: UUID of VxHS volume 3146# @server: vxhs server IP, port 3147# @tls-creds: TLS credentials ID 3148# 3149# Since: 2.10 3150## 3151{ 'struct': 'BlockdevOptionsVxHS', 3152 'data': { 'vdisk-id': 'str', 3153 'server': 'InetSocketAddressBase', 3154 '*tls-creds': 'str' } } 3155 3156## 3157# @BlockdevOptionsThrottle: 3158# 3159# Driver specific block device options for the throttle driver 3160# 3161# @throttle-group: the name of the throttle-group object to use. It 3162# must already exist. 3163# @file: reference to or definition of the data source block device 3164# Since: 2.11 3165## 3166{ 'struct': 'BlockdevOptionsThrottle', 3167 'data': { 'throttle-group': 'str', 3168 'file' : 'BlockdevRef' 3169 } } 3170## 3171# @BlockdevOptions: 3172# 3173# Options for creating a block device. Many options are available for all 3174# block devices, independent of the block driver: 3175# 3176# @driver: block driver name 3177# @node-name: the node name of the new node (Since 2.0). 3178# This option is required on the top level of blockdev-add. 3179# @discard: discard-related options (default: ignore) 3180# @cache: cache-related options 3181# @read-only: whether the block device should be read-only (default: false). 3182# Note that some block drivers support only read-only access, 3183# either generally or in certain configurations. In this case, 3184# the default value does not work and the option must be 3185# specified explicitly. 3186# @detect-zeroes: detect and optimize zero writes (Since 2.1) 3187# (default: off) 3188# @force-share: force share all permission on added nodes. 3189# Requires read-only=true. (Since 2.10) 3190# 3191# Remaining options are determined by the block driver. 3192# 3193# Since: 2.9 3194## 3195{ 'union': 'BlockdevOptions', 3196 'base': { 'driver': 'BlockdevDriver', 3197 '*node-name': 'str', 3198 '*discard': 'BlockdevDiscardOptions', 3199 '*cache': 'BlockdevCacheOptions', 3200 '*read-only': 'bool', 3201 '*force-share': 'bool', 3202 '*detect-zeroes': 'BlockdevDetectZeroesOptions' }, 3203 'discriminator': 'driver', 3204 'data': { 3205 'blkdebug': 'BlockdevOptionsBlkdebug', 3206 'blkverify': 'BlockdevOptionsBlkverify', 3207 'bochs': 'BlockdevOptionsGenericFormat', 3208 'cloop': 'BlockdevOptionsGenericFormat', 3209 'dmg': 'BlockdevOptionsGenericFormat', 3210 'file': 'BlockdevOptionsFile', 3211 'ftp': 'BlockdevOptionsCurlFtp', 3212 'ftps': 'BlockdevOptionsCurlFtps', 3213 'gluster': 'BlockdevOptionsGluster', 3214 'host_cdrom': 'BlockdevOptionsFile', 3215 'host_device':'BlockdevOptionsFile', 3216 'http': 'BlockdevOptionsCurlHttp', 3217 'https': 'BlockdevOptionsCurlHttps', 3218 'iscsi': 'BlockdevOptionsIscsi', 3219 'luks': 'BlockdevOptionsLUKS', 3220 'nbd': 'BlockdevOptionsNbd', 3221 'nfs': 'BlockdevOptionsNfs', 3222 'null-aio': 'BlockdevOptionsNull', 3223 'null-co': 'BlockdevOptionsNull', 3224 'nvme': 'BlockdevOptionsNVMe', 3225 'parallels': 'BlockdevOptionsGenericFormat', 3226 'qcow2': 'BlockdevOptionsQcow2', 3227 'qcow': 'BlockdevOptionsQcow', 3228 'qed': 'BlockdevOptionsGenericCOWFormat', 3229 'quorum': 'BlockdevOptionsQuorum', 3230 'raw': 'BlockdevOptionsRaw', 3231 'rbd': 'BlockdevOptionsRbd', 3232 'replication':'BlockdevOptionsReplication', 3233 'sheepdog': 'BlockdevOptionsSheepdog', 3234 'ssh': 'BlockdevOptionsSsh', 3235 'throttle': 'BlockdevOptionsThrottle', 3236 'vdi': 'BlockdevOptionsGenericFormat', 3237 'vhdx': 'BlockdevOptionsGenericFormat', 3238 'vmdk': 'BlockdevOptionsGenericCOWFormat', 3239 'vpc': 'BlockdevOptionsGenericFormat', 3240 'vvfat': 'BlockdevOptionsVVFAT', 3241 'vxhs': 'BlockdevOptionsVxHS' 3242 } } 3243 3244## 3245# @BlockdevRef: 3246# 3247# Reference to a block device. 3248# 3249# @definition: defines a new block device inline 3250# @reference: references the ID of an existing block device 3251# 3252# Since: 2.9 3253## 3254{ 'alternate': 'BlockdevRef', 3255 'data': { 'definition': 'BlockdevOptions', 3256 'reference': 'str' } } 3257 3258## 3259# @BlockdevRefOrNull: 3260# 3261# Reference to a block device. 3262# 3263# @definition: defines a new block device inline 3264# @reference: references the ID of an existing block device. 3265# An empty string means that no block device should 3266# be referenced. Deprecated; use null instead. 3267# @null: No block device should be referenced (since 2.10) 3268# 3269# Since: 2.9 3270## 3271{ 'alternate': 'BlockdevRefOrNull', 3272 'data': { 'definition': 'BlockdevOptions', 3273 'reference': 'str', 3274 'null': 'null' } } 3275 3276## 3277# @blockdev-add: 3278# 3279# Creates a new block device. If the @id option is given at the top level, a 3280# BlockBackend will be created; otherwise, @node-name is mandatory at the top 3281# level and no BlockBackend will be created. 3282# 3283# Since: 2.9 3284# 3285# Example: 3286# 3287# 1. 3288# -> { "execute": "blockdev-add", 3289# "arguments": { 3290# "driver": "qcow2", 3291# "node-name": "test1", 3292# "file": { 3293# "driver": "file", 3294# "filename": "test.qcow2" 3295# } 3296# } 3297# } 3298# <- { "return": {} } 3299# 3300# 2. 3301# -> { "execute": "blockdev-add", 3302# "arguments": { 3303# "driver": "qcow2", 3304# "node-name": "node0", 3305# "discard": "unmap", 3306# "cache": { 3307# "direct": true 3308# }, 3309# "file": { 3310# "driver": "file", 3311# "filename": "/tmp/test.qcow2" 3312# }, 3313# "backing": { 3314# "driver": "raw", 3315# "file": { 3316# "driver": "file", 3317# "filename": "/dev/fdset/4" 3318# } 3319# } 3320# } 3321# } 3322# 3323# <- { "return": {} } 3324# 3325## 3326{ 'command': 'blockdev-add', 'data': 'BlockdevOptions', 'boxed': true } 3327 3328## 3329# @blockdev-del: 3330# 3331# Deletes a block device that has been added using blockdev-add. 3332# The command will fail if the node is attached to a device or is 3333# otherwise being used. 3334# 3335# @node-name: Name of the graph node to delete. 3336# 3337# Since: 2.9 3338# 3339# Example: 3340# 3341# -> { "execute": "blockdev-add", 3342# "arguments": { 3343# "driver": "qcow2", 3344# "node-name": "node0", 3345# "file": { 3346# "driver": "file", 3347# "filename": "test.qcow2" 3348# } 3349# } 3350# } 3351# <- { "return": {} } 3352# 3353# -> { "execute": "blockdev-del", 3354# "arguments": { "node-name": "node0" } 3355# } 3356# <- { "return": {} } 3357# 3358## 3359{ 'command': 'blockdev-del', 'data': { 'node-name': 'str' } } 3360 3361## 3362# @blockdev-open-tray: 3363# 3364# Opens a block device's tray. If there is a block driver state tree inserted as 3365# a medium, it will become inaccessible to the guest (but it will remain 3366# associated to the block device, so closing the tray will make it accessible 3367# again). 3368# 3369# If the tray was already open before, this will be a no-op. 3370# 3371# Once the tray opens, a DEVICE_TRAY_MOVED event is emitted. There are cases in 3372# which no such event will be generated, these include: 3373# - if the guest has locked the tray, @force is false and the guest does not 3374# respond to the eject request 3375# - if the BlockBackend denoted by @device does not have a guest device attached 3376# to it 3377# - if the guest device does not have an actual tray 3378# 3379# @device: Block device name (deprecated, use @id instead) 3380# 3381# @id: The name or QOM path of the guest device (since: 2.8) 3382# 3383# @force: if false (the default), an eject request will be sent to 3384# the guest if it has locked the tray (and the tray will not be opened 3385# immediately); if true, the tray will be opened regardless of whether 3386# it is locked 3387# 3388# Since: 2.5 3389# 3390# Example: 3391# 3392# -> { "execute": "blockdev-open-tray", 3393# "arguments": { "id": "ide0-1-0" } } 3394# 3395# <- { "timestamp": { "seconds": 1418751016, 3396# "microseconds": 716996 }, 3397# "event": "DEVICE_TRAY_MOVED", 3398# "data": { "device": "ide1-cd0", 3399# "id": "ide0-1-0", 3400# "tray-open": true } } 3401# 3402# <- { "return": {} } 3403# 3404## 3405{ 'command': 'blockdev-open-tray', 3406 'data': { '*device': 'str', 3407 '*id': 'str', 3408 '*force': 'bool' } } 3409 3410## 3411# @blockdev-close-tray: 3412# 3413# Closes a block device's tray. If there is a block driver state tree associated 3414# with the block device (which is currently ejected), that tree will be loaded 3415# as the medium. 3416# 3417# If the tray was already closed before, this will be a no-op. 3418# 3419# @device: Block device name (deprecated, use @id instead) 3420# 3421# @id: The name or QOM path of the guest device (since: 2.8) 3422# 3423# Since: 2.5 3424# 3425# Example: 3426# 3427# -> { "execute": "blockdev-close-tray", 3428# "arguments": { "id": "ide0-1-0" } } 3429# 3430# <- { "timestamp": { "seconds": 1418751345, 3431# "microseconds": 272147 }, 3432# "event": "DEVICE_TRAY_MOVED", 3433# "data": { "device": "ide1-cd0", 3434# "id": "ide0-1-0", 3435# "tray-open": false } } 3436# 3437# <- { "return": {} } 3438# 3439## 3440{ 'command': 'blockdev-close-tray', 3441 'data': { '*device': 'str', 3442 '*id': 'str' } } 3443 3444## 3445# @blockdev-remove-medium: 3446# 3447# Removes a medium (a block driver state tree) from a block device. That block 3448# device's tray must currently be open (unless there is no attached guest 3449# device). 3450# 3451# If the tray is open and there is no medium inserted, this will be a no-op. 3452# 3453# @id: The name or QOM path of the guest device 3454# 3455# Since: 2.12 3456# 3457# Example: 3458# 3459# -> { "execute": "blockdev-remove-medium", 3460# "arguments": { "id": "ide0-1-0" } } 3461# 3462# <- { "error": { "class": "GenericError", 3463# "desc": "Tray of device 'ide0-1-0' is not open" } } 3464# 3465# -> { "execute": "blockdev-open-tray", 3466# "arguments": { "id": "ide0-1-0" } } 3467# 3468# <- { "timestamp": { "seconds": 1418751627, 3469# "microseconds": 549958 }, 3470# "event": "DEVICE_TRAY_MOVED", 3471# "data": { "device": "ide1-cd0", 3472# "id": "ide0-1-0", 3473# "tray-open": true } } 3474# 3475# <- { "return": {} } 3476# 3477# -> { "execute": "blockdev-remove-medium", 3478# "arguments": { "id": "ide0-1-0" } } 3479# 3480# <- { "return": {} } 3481# 3482## 3483{ 'command': 'blockdev-remove-medium', 3484 'data': { 'id': 'str' } } 3485 3486## 3487# @blockdev-insert-medium: 3488# 3489# Inserts a medium (a block driver state tree) into a block device. That block 3490# device's tray must currently be open (unless there is no attached guest 3491# device) and there must be no medium inserted already. 3492# 3493# @id: The name or QOM path of the guest device 3494# 3495# @node-name: name of a node in the block driver state graph 3496# 3497# Since: 2.12 3498# 3499# Example: 3500# 3501# -> { "execute": "blockdev-add", 3502# "arguments": { 3503# "node-name": "node0", 3504# "driver": "raw", 3505# "file": { "driver": "file", 3506# "filename": "fedora.iso" } } } 3507# <- { "return": {} } 3508# 3509# -> { "execute": "blockdev-insert-medium", 3510# "arguments": { "id": "ide0-1-0", 3511# "node-name": "node0" } } 3512# 3513# <- { "return": {} } 3514# 3515## 3516{ 'command': 'blockdev-insert-medium', 3517 'data': { 'id': 'str', 3518 'node-name': 'str'} } 3519 3520 3521## 3522# @BlockdevChangeReadOnlyMode: 3523# 3524# Specifies the new read-only mode of a block device subject to the 3525# @blockdev-change-medium command. 3526# 3527# @retain: Retains the current read-only mode 3528# 3529# @read-only: Makes the device read-only 3530# 3531# @read-write: Makes the device writable 3532# 3533# Since: 2.3 3534# 3535## 3536{ 'enum': 'BlockdevChangeReadOnlyMode', 3537 'data': ['retain', 'read-only', 'read-write'] } 3538 3539 3540## 3541# @blockdev-change-medium: 3542# 3543# Changes the medium inserted into a block device by ejecting the current medium 3544# and loading a new image file which is inserted as the new medium (this command 3545# combines blockdev-open-tray, blockdev-remove-medium, blockdev-insert-medium 3546# and blockdev-close-tray). 3547# 3548# @device: Block device name (deprecated, use @id instead) 3549# 3550# @id: The name or QOM path of the guest device 3551# (since: 2.8) 3552# 3553# @filename: filename of the new image to be loaded 3554# 3555# @format: format to open the new image with (defaults to 3556# the probed format) 3557# 3558# @read-only-mode: change the read-only mode of the device; defaults 3559# to 'retain' 3560# 3561# Since: 2.5 3562# 3563# Examples: 3564# 3565# 1. Change a removable medium 3566# 3567# -> { "execute": "blockdev-change-medium", 3568# "arguments": { "id": "ide0-1-0", 3569# "filename": "/srv/images/Fedora-12-x86_64-DVD.iso", 3570# "format": "raw" } } 3571# <- { "return": {} } 3572# 3573# 2. Load a read-only medium into a writable drive 3574# 3575# -> { "execute": "blockdev-change-medium", 3576# "arguments": { "id": "floppyA", 3577# "filename": "/srv/images/ro.img", 3578# "format": "raw", 3579# "read-only-mode": "retain" } } 3580# 3581# <- { "error": 3582# { "class": "GenericError", 3583# "desc": "Could not open '/srv/images/ro.img': Permission denied" } } 3584# 3585# -> { "execute": "blockdev-change-medium", 3586# "arguments": { "id": "floppyA", 3587# "filename": "/srv/images/ro.img", 3588# "format": "raw", 3589# "read-only-mode": "read-only" } } 3590# 3591# <- { "return": {} } 3592# 3593## 3594{ 'command': 'blockdev-change-medium', 3595 'data': { '*device': 'str', 3596 '*id': 'str', 3597 'filename': 'str', 3598 '*format': 'str', 3599 '*read-only-mode': 'BlockdevChangeReadOnlyMode' } } 3600 3601 3602## 3603# @BlockErrorAction: 3604# 3605# An enumeration of action that has been taken when a DISK I/O occurs 3606# 3607# @ignore: error has been ignored 3608# 3609# @report: error has been reported to the device 3610# 3611# @stop: error caused VM to be stopped 3612# 3613# Since: 2.1 3614## 3615{ 'enum': 'BlockErrorAction', 3616 'data': [ 'ignore', 'report', 'stop' ] } 3617 3618 3619## 3620# @BLOCK_IMAGE_CORRUPTED: 3621# 3622# Emitted when a disk image is being marked corrupt. The image can be 3623# identified by its device or node name. The 'device' field is always 3624# present for compatibility reasons, but it can be empty ("") if the 3625# image does not have a device name associated. 3626# 3627# @device: device name. This is always present for compatibility 3628# reasons, but it can be empty ("") if the image does not 3629# have a device name associated. 3630# 3631# @node-name: node name (Since: 2.4) 3632# 3633# @msg: informative message for human consumption, such as the kind of 3634# corruption being detected. It should not be parsed by machine as it is 3635# not guaranteed to be stable 3636# 3637# @offset: if the corruption resulted from an image access, this is 3638# the host's access offset into the image 3639# 3640# @size: if the corruption resulted from an image access, this is 3641# the access size 3642# 3643# @fatal: if set, the image is marked corrupt and therefore unusable after this 3644# event and must be repaired (Since 2.2; before, every 3645# BLOCK_IMAGE_CORRUPTED event was fatal) 3646# 3647# Note: If action is "stop", a STOP event will eventually follow the 3648# BLOCK_IO_ERROR event. 3649# 3650# Example: 3651# 3652# <- { "event": "BLOCK_IMAGE_CORRUPTED", 3653# "data": { "device": "ide0-hd0", "node-name": "node0", 3654# "msg": "Prevented active L1 table overwrite", "offset": 196608, 3655# "size": 65536 }, 3656# "timestamp": { "seconds": 1378126126, "microseconds": 966463 } } 3657# 3658# Since: 1.7 3659## 3660{ 'event': 'BLOCK_IMAGE_CORRUPTED', 3661 'data': { 'device' : 'str', 3662 '*node-name' : 'str', 3663 'msg' : 'str', 3664 '*offset' : 'int', 3665 '*size' : 'int', 3666 'fatal' : 'bool' } } 3667 3668## 3669# @BLOCK_IO_ERROR: 3670# 3671# Emitted when a disk I/O error occurs 3672# 3673# @device: device name. This is always present for compatibility 3674# reasons, but it can be empty ("") if the image does not 3675# have a device name associated. 3676# 3677# @node-name: node name. Note that errors may be reported for the root node 3678# that is directly attached to a guest device rather than for the 3679# node where the error occurred. (Since: 2.8) 3680# 3681# @operation: I/O operation 3682# 3683# @action: action that has been taken 3684# 3685# @nospace: true if I/O error was caused due to a no-space 3686# condition. This key is only present if query-block's 3687# io-status is present, please see query-block documentation 3688# for more information (since: 2.2) 3689# 3690# @reason: human readable string describing the error cause. 3691# (This field is a debugging aid for humans, it should not 3692# be parsed by applications) (since: 2.2) 3693# 3694# Note: If action is "stop", a STOP event will eventually follow the 3695# BLOCK_IO_ERROR event 3696# 3697# Since: 0.13.0 3698# 3699# Example: 3700# 3701# <- { "event": "BLOCK_IO_ERROR", 3702# "data": { "device": "ide0-hd1", 3703# "node-name": "#block212", 3704# "operation": "write", 3705# "action": "stop" }, 3706# "timestamp": { "seconds": 1265044230, "microseconds": 450486 } } 3707# 3708## 3709{ 'event': 'BLOCK_IO_ERROR', 3710 'data': { 'device': 'str', 'node-name': 'str', 'operation': 'IoOperationType', 3711 'action': 'BlockErrorAction', '*nospace': 'bool', 3712 'reason': 'str' } } 3713 3714## 3715# @BLOCK_JOB_COMPLETED: 3716# 3717# Emitted when a block job has completed 3718# 3719# @type: job type 3720# 3721# @device: The job identifier. Originally the device name but other 3722# values are allowed since QEMU 2.7 3723# 3724# @len: maximum progress value 3725# 3726# @offset: current progress value. On success this is equal to len. 3727# On failure this is less than len 3728# 3729# @speed: rate limit, bytes per second 3730# 3731# @error: error message. Only present on failure. This field 3732# contains a human-readable error message. There are no semantics 3733# other than that streaming has failed and clients should not try to 3734# interpret the error string 3735# 3736# Since: 1.1 3737# 3738# Example: 3739# 3740# <- { "event": "BLOCK_JOB_COMPLETED", 3741# "data": { "type": "stream", "device": "virtio-disk0", 3742# "len": 10737418240, "offset": 10737418240, 3743# "speed": 0 }, 3744# "timestamp": { "seconds": 1267061043, "microseconds": 959568 } } 3745# 3746## 3747{ 'event': 'BLOCK_JOB_COMPLETED', 3748 'data': { 'type' : 'BlockJobType', 3749 'device': 'str', 3750 'len' : 'int', 3751 'offset': 'int', 3752 'speed' : 'int', 3753 '*error': 'str' } } 3754 3755## 3756# @BLOCK_JOB_CANCELLED: 3757# 3758# Emitted when a block job has been cancelled 3759# 3760# @type: job type 3761# 3762# @device: The job identifier. Originally the device name but other 3763# values are allowed since QEMU 2.7 3764# 3765# @len: maximum progress value 3766# 3767# @offset: current progress value. On success this is equal to len. 3768# On failure this is less than len 3769# 3770# @speed: rate limit, bytes per second 3771# 3772# Since: 1.1 3773# 3774# Example: 3775# 3776# <- { "event": "BLOCK_JOB_CANCELLED", 3777# "data": { "type": "stream", "device": "virtio-disk0", 3778# "len": 10737418240, "offset": 134217728, 3779# "speed": 0 }, 3780# "timestamp": { "seconds": 1267061043, "microseconds": 959568 } } 3781# 3782## 3783{ 'event': 'BLOCK_JOB_CANCELLED', 3784 'data': { 'type' : 'BlockJobType', 3785 'device': 'str', 3786 'len' : 'int', 3787 'offset': 'int', 3788 'speed' : 'int' } } 3789 3790## 3791# @BLOCK_JOB_ERROR: 3792# 3793# Emitted when a block job encounters an error 3794# 3795# @device: The job identifier. Originally the device name but other 3796# values are allowed since QEMU 2.7 3797# 3798# @operation: I/O operation 3799# 3800# @action: action that has been taken 3801# 3802# Since: 1.3 3803# 3804# Example: 3805# 3806# <- { "event": "BLOCK_JOB_ERROR", 3807# "data": { "device": "ide0-hd1", 3808# "operation": "write", 3809# "action": "stop" }, 3810# "timestamp": { "seconds": 1265044230, "microseconds": 450486 } } 3811# 3812## 3813{ 'event': 'BLOCK_JOB_ERROR', 3814 'data': { 'device' : 'str', 3815 'operation': 'IoOperationType', 3816 'action' : 'BlockErrorAction' } } 3817 3818## 3819# @BLOCK_JOB_READY: 3820# 3821# Emitted when a block job is ready to complete 3822# 3823# @type: job type 3824# 3825# @device: The job identifier. Originally the device name but other 3826# values are allowed since QEMU 2.7 3827# 3828# @len: maximum progress value 3829# 3830# @offset: current progress value. On success this is equal to len. 3831# On failure this is less than len 3832# 3833# @speed: rate limit, bytes per second 3834# 3835# Note: The "ready to complete" status is always reset by a @BLOCK_JOB_ERROR 3836# event 3837# 3838# Since: 1.3 3839# 3840# Example: 3841# 3842# <- { "event": "BLOCK_JOB_READY", 3843# "data": { "device": "drive0", "type": "mirror", "speed": 0, 3844# "len": 2097152, "offset": 2097152 } 3845# "timestamp": { "seconds": 1265044230, "microseconds": 450486 } } 3846# 3847## 3848{ 'event': 'BLOCK_JOB_READY', 3849 'data': { 'type' : 'BlockJobType', 3850 'device': 'str', 3851 'len' : 'int', 3852 'offset': 'int', 3853 'speed' : 'int' } } 3854 3855## 3856# @PreallocMode: 3857# 3858# Preallocation mode of QEMU image file 3859# 3860# @off: no preallocation 3861# @metadata: preallocate only for metadata 3862# @falloc: like @full preallocation but allocate disk space by 3863# posix_fallocate() rather than writing zeros. 3864# @full: preallocate all data by writing zeros to device to ensure disk 3865# space is really available. @full preallocation also sets up 3866# metadata correctly. 3867# 3868# Since: 2.2 3869## 3870{ 'enum': 'PreallocMode', 3871 'data': [ 'off', 'metadata', 'falloc', 'full' ] } 3872 3873## 3874# @BLOCK_WRITE_THRESHOLD: 3875# 3876# Emitted when writes on block device reaches or exceeds the 3877# configured write threshold. For thin-provisioned devices, this 3878# means the device should be extended to avoid pausing for 3879# disk exhaustion. 3880# The event is one shot. Once triggered, it needs to be 3881# re-registered with another block-set-write-threshold command. 3882# 3883# @node-name: graph node name on which the threshold was exceeded. 3884# 3885# @amount-exceeded: amount of data which exceeded the threshold, in bytes. 3886# 3887# @write-threshold: last configured threshold, in bytes. 3888# 3889# Since: 2.3 3890## 3891{ 'event': 'BLOCK_WRITE_THRESHOLD', 3892 'data': { 'node-name': 'str', 3893 'amount-exceeded': 'uint64', 3894 'write-threshold': 'uint64' } } 3895 3896## 3897# @block-set-write-threshold: 3898# 3899# Change the write threshold for a block drive. An event will be 3900# delivered if a write to this block drive crosses the configured 3901# threshold. The threshold is an offset, thus must be 3902# non-negative. Default is no write threshold. Setting the threshold 3903# to zero disables it. 3904# 3905# This is useful to transparently resize thin-provisioned drives without 3906# the guest OS noticing. 3907# 3908# @node-name: graph node name on which the threshold must be set. 3909# 3910# @write-threshold: configured threshold for the block device, bytes. 3911# Use 0 to disable the threshold. 3912# 3913# Since: 2.3 3914# 3915# Example: 3916# 3917# -> { "execute": "block-set-write-threshold", 3918# "arguments": { "node-name": "mydev", 3919# "write-threshold": 17179869184 } } 3920# <- { "return": {} } 3921# 3922## 3923{ 'command': 'block-set-write-threshold', 3924 'data': { 'node-name': 'str', 'write-threshold': 'uint64' } } 3925 3926## 3927# @x-blockdev-change: 3928# 3929# Dynamically reconfigure the block driver state graph. It can be used 3930# to add, remove, insert or replace a graph node. Currently only the 3931# Quorum driver implements this feature to add or remove its child. This 3932# is useful to fix a broken quorum child. 3933# 3934# If @node is specified, it will be inserted under @parent. @child 3935# may not be specified in this case. If both @parent and @child are 3936# specified but @node is not, @child will be detached from @parent. 3937# 3938# @parent: the id or name of the parent node. 3939# 3940# @child: the name of a child under the given parent node. 3941# 3942# @node: the name of the node that will be added. 3943# 3944# Note: this command is experimental, and its API is not stable. It 3945# does not support all kinds of operations, all kinds of children, nor 3946# all block drivers. 3947# 3948# FIXME Removing children from a quorum node means introducing gaps in the 3949# child indices. This cannot be represented in the 'children' list of 3950# BlockdevOptionsQuorum, as returned by .bdrv_refresh_filename(). 3951# 3952# Warning: The data in a new quorum child MUST be consistent with that of 3953# the rest of the array. 3954# 3955# Since: 2.7 3956# 3957# Example: 3958# 3959# 1. Add a new node to a quorum 3960# -> { "execute": "blockdev-add", 3961# "arguments": { 3962# "driver": "raw", 3963# "node-name": "new_node", 3964# "file": { "driver": "file", 3965# "filename": "test.raw" } } } 3966# <- { "return": {} } 3967# -> { "execute": "x-blockdev-change", 3968# "arguments": { "parent": "disk1", 3969# "node": "new_node" } } 3970# <- { "return": {} } 3971# 3972# 2. Delete a quorum's node 3973# -> { "execute": "x-blockdev-change", 3974# "arguments": { "parent": "disk1", 3975# "child": "children.1" } } 3976# <- { "return": {} } 3977# 3978## 3979{ 'command': 'x-blockdev-change', 3980 'data' : { 'parent': 'str', 3981 '*child': 'str', 3982 '*node': 'str' } } 3983 3984## 3985# @x-blockdev-set-iothread: 3986# 3987# Move @node and its children into the @iothread. If @iothread is null then 3988# move @node and its children into the main loop. 3989# 3990# The node must not be attached to a BlockBackend. 3991# 3992# @node-name: the name of the block driver node 3993# 3994# @iothread: the name of the IOThread object or null for the main loop 3995# 3996# @force: true if the node and its children should be moved when a BlockBackend 3997# is already attached 3998# 3999# Note: this command is experimental and intended for test cases that need 4000# control over IOThreads only. 4001# 4002# Since: 2.12 4003# 4004# Example: 4005# 4006# 1. Move a node into an IOThread 4007# -> { "execute": "x-blockdev-set-iothread", 4008# "arguments": { "node-name": "disk1", 4009# "iothread": "iothread0" } } 4010# <- { "return": {} } 4011# 4012# 2. Move a node into the main loop 4013# -> { "execute": "x-blockdev-set-iothread", 4014# "arguments": { "node-name": "disk1", 4015# "iothread": null } } 4016# <- { "return": {} } 4017# 4018## 4019{ 'command': 'x-blockdev-set-iothread', 4020 'data' : { 'node-name': 'str', 4021 'iothread': 'StrOrNull', 4022 '*force': 'bool' } } 4023