1# -*- Mode: Python -*- 2# vim: filetype=python 3# 4# This work is licensed under the terms of the GNU GPL, version 2 or later. 5# See the COPYING file in the top-level directory. 6 7{ 'include': 'authz.json' } 8{ 'include': 'block-core.json' } 9{ 'include': 'common.json' } 10{ 'include': 'crypto.json' } 11 12## 13# = QEMU Object Model (QOM) 14## 15 16## 17# @ObjectPropertyInfo: 18# 19# @name: the name of the property 20# 21# @type: the type of the property. This will typically come in one of 22# four forms: 23# 24# 1) A primitive type such as 'u8', 'u16', 'bool', 'str', or 25# 'double'. These types are mapped to the appropriate JSON 26# type. 27# 28# 2) A child type in the form 'child<subtype>' where subtype is a 29# qdev device type name. Child properties create the 30# composition tree. 31# 32# 3) A link type in the form 'link<subtype>' where subtype is a 33# qdev device type name. Link properties form the device model 34# graph. 35# 36# @description: if specified, the description of the property. 37# 38# @default-value: the default value, if any (since 5.0) 39# 40# Since: 1.2 41## 42{ 'struct': 'ObjectPropertyInfo', 43 'data': { 'name': 'str', 44 'type': 'str', 45 '*description': 'str', 46 '*default-value': 'any' } } 47 48## 49# @qom-list: 50# 51# This command will list any properties of a object given a path in 52# the object model. 53# 54# @path: the path within the object model. See @qom-get for a 55# description of this parameter. 56# 57# Returns: a list of @ObjectPropertyInfo that describe the properties 58# of the object. 59# 60# Since: 1.2 61# 62# Example: 63# 64# -> { "execute": "qom-list", 65# "arguments": { "path": "/chardevs" } } 66# <- { "return": [ { "name": "type", "type": "string" }, 67# { "name": "parallel0", "type": "child<chardev-vc>" }, 68# { "name": "serial0", "type": "child<chardev-vc>" }, 69# { "name": "mon0", "type": "child<chardev-stdio>" } ] } 70## 71{ 'command': 'qom-list', 72 'data': { 'path': 'str' }, 73 'returns': [ 'ObjectPropertyInfo' ], 74 'allow-preconfig': true } 75 76## 77# @qom-get: 78# 79# This command will get a property from a object model path and return 80# the value. 81# 82# @path: The path within the object model. There are two forms of 83# supported paths--absolute and partial paths. 84# 85# Absolute paths are derived from the root object and can follow 86# child<> or link<> properties. Since they can follow link<> 87# properties, they can be arbitrarily long. Absolute paths look 88# like absolute filenames and are prefixed with a leading slash. 89# 90# Partial paths look like relative filenames. They do not begin 91# with a prefix. The matching rules for partial paths are subtle 92# but designed to make specifying objects easy. At each level of 93# the composition tree, the partial path is matched as an absolute 94# path. The first match is not returned. At least two matches 95# are searched for. A successful result is only returned if only 96# one match is found. If more than one match is found, a flag is 97# return to indicate that the match was ambiguous. 98# 99# @property: The property name to read 100# 101# Returns: The property value. The type depends on the property type. 102# child<> and link<> properties are returned as #str pathnames. 103# All integer property types (u8, u16, etc) are returned as #int. 104# 105# Since: 1.2 106# 107# Examples: 108# 109# 1. Use absolute path 110# 111# -> { "execute": "qom-get", 112# "arguments": { "path": "/machine/unattached/device[0]", 113# "property": "hotplugged" } } 114# <- { "return": false } 115# 116# 2. Use partial path 117# 118# -> { "execute": "qom-get", 119# "arguments": { "path": "unattached/sysbus", 120# "property": "type" } } 121# <- { "return": "System" } 122## 123{ 'command': 'qom-get', 124 'data': { 'path': 'str', 'property': 'str' }, 125 'returns': 'any', 126 'allow-preconfig': true } 127 128## 129# @qom-set: 130# 131# This command will set a property from a object model path. 132# 133# @path: see @qom-get for a description of this parameter 134# 135# @property: the property name to set 136# 137# @value: a value who's type is appropriate for the property type. 138# See @qom-get for a description of type mapping. 139# 140# Since: 1.2 141# 142# Example: 143# 144# -> { "execute": "qom-set", 145# "arguments": { "path": "/machine", 146# "property": "graphics", 147# "value": false } } 148# <- { "return": {} } 149## 150{ 'command': 'qom-set', 151 'data': { 'path': 'str', 'property': 'str', 'value': 'any' }, 152 'allow-preconfig': true } 153 154## 155# @ObjectTypeInfo: 156# 157# This structure describes a search result from @qom-list-types 158# 159# @name: the type name found in the search 160# 161# @abstract: the type is abstract and can't be directly instantiated. 162# Omitted if false. (since 2.10) 163# 164# @parent: Name of parent type, if any (since 2.10) 165# 166# Since: 1.1 167## 168{ 'struct': 'ObjectTypeInfo', 169 'data': { 'name': 'str', '*abstract': 'bool', '*parent': 'str' } } 170 171## 172# @qom-list-types: 173# 174# This command will return a list of types given search parameters 175# 176# @implements: if specified, only return types that implement this 177# type name 178# 179# @abstract: if true, include abstract types in the results 180# 181# Returns: a list of @ObjectTypeInfo or an empty list if no results 182# are found 183# 184# Since: 1.1 185## 186{ 'command': 'qom-list-types', 187 'data': { '*implements': 'str', '*abstract': 'bool' }, 188 'returns': [ 'ObjectTypeInfo' ], 189 'allow-preconfig': true } 190 191## 192# @qom-list-properties: 193# 194# List properties associated with a QOM object. 195# 196# @typename: the type name of an object 197# 198# Note: objects can create properties at runtime, for example to 199# describe links between different devices and/or objects. These 200# properties are not included in the output of this command. 201# 202# Returns: a list of ObjectPropertyInfo describing object properties 203# 204# Since: 2.12 205## 206{ 'command': 'qom-list-properties', 207 'data': { 'typename': 'str'}, 208 'returns': [ 'ObjectPropertyInfo' ], 209 'allow-preconfig': true } 210 211## 212# @CanHostSocketcanProperties: 213# 214# Properties for can-host-socketcan objects. 215# 216# @if: interface name of the host system CAN bus to connect to 217# 218# @canbus: object ID of the can-bus object to connect to the host 219# interface 220# 221# Since: 2.12 222## 223{ 'struct': 'CanHostSocketcanProperties', 224 'data': { 'if': 'str', 225 'canbus': 'str' } } 226 227## 228# @ColoCompareProperties: 229# 230# Properties for colo-compare objects. 231# 232# @primary_in: name of the character device backend to use for the 233# primary input (incoming packets are redirected to @outdev) 234# 235# @secondary_in: name of the character device backend to use for 236# secondary input (incoming packets are only compared to the input 237# on @primary_in and then dropped) 238# 239# @outdev: name of the character device backend to use for output 240# 241# @iothread: name of the iothread to run in 242# 243# @notify_dev: name of the character device backend to be used to 244# communicate with the remote colo-frame (only for Xen COLO) 245# 246# @compare_timeout: the maximum time to hold a packet from @primary_in 247# for comparison with an incoming packet on @secondary_in in 248# milliseconds (default: 3000) 249# 250# @expired_scan_cycle: the interval at which colo-compare checks 251# whether packets from @primary have timed out, in milliseconds 252# (default: 3000) 253# 254# @max_queue_size: the maximum number of packets to keep in the queue 255# for comparing with incoming packets from @secondary_in. If the 256# queue is full and additional packets are received, the 257# additional packets are dropped. (default: 1024) 258# 259# @vnet_hdr_support: if true, vnet header support is enabled 260# (default: false) 261# 262# Since: 2.8 263## 264{ 'struct': 'ColoCompareProperties', 265 'data': { 'primary_in': 'str', 266 'secondary_in': 'str', 267 'outdev': 'str', 268 'iothread': 'str', 269 '*notify_dev': 'str', 270 '*compare_timeout': 'uint64', 271 '*expired_scan_cycle': 'uint32', 272 '*max_queue_size': 'uint32', 273 '*vnet_hdr_support': 'bool' } } 274 275## 276# @CryptodevBackendProperties: 277# 278# Properties for cryptodev-backend and cryptodev-backend-builtin 279# objects. 280# 281# @queues: the number of queues for the cryptodev backend. Ignored 282# for cryptodev-backend and must be 1 for 283# cryptodev-backend-builtin. (default: 1) 284# 285# @throttle-bps: limit total bytes per second (Since 8.0) 286# 287# @throttle-ops: limit total operations per second (Since 8.0) 288# 289# Since: 2.8 290## 291{ 'struct': 'CryptodevBackendProperties', 292 'data': { '*queues': 'uint32', 293 '*throttle-bps': 'uint64', 294 '*throttle-ops': 'uint64' } } 295 296## 297# @CryptodevVhostUserProperties: 298# 299# Properties for cryptodev-vhost-user objects. 300# 301# @chardev: the name of a Unix domain socket character device that 302# connects to the vhost-user server 303# 304# Since: 2.12 305## 306{ 'struct': 'CryptodevVhostUserProperties', 307 'base': 'CryptodevBackendProperties', 308 'data': { 'chardev': 'str' } } 309 310## 311# @DBusVMStateProperties: 312# 313# Properties for dbus-vmstate objects. 314# 315# @addr: the name of the DBus bus to connect to 316# 317# @id-list: a comma separated list of DBus IDs of helpers whose data 318# should be included in the VM state on migration 319# 320# Since: 5.0 321## 322{ 'struct': 'DBusVMStateProperties', 323 'data': { 'addr': 'str' , 324 '*id-list': 'str' } } 325 326## 327# @NetfilterInsert: 328# 329# Indicates where to insert a netfilter relative to a given other 330# filter. 331# 332# @before: insert before the specified filter 333# 334# @behind: insert behind the specified filter 335# 336# Since: 5.0 337## 338{ 'enum': 'NetfilterInsert', 339 'data': [ 'before', 'behind' ] } 340 341## 342# @NetfilterProperties: 343# 344# Properties for objects of classes derived from netfilter. 345# 346# @netdev: id of the network device backend to filter 347# 348# @queue: indicates which queue(s) to filter (default: all) 349# 350# @status: indicates whether the filter is enabled ("on") or disabled 351# ("off") (default: "on") 352# 353# @position: specifies where the filter should be inserted in the 354# filter list. "head" means the filter is inserted at the head of 355# the filter list, before any existing filters. "tail" means the 356# filter is inserted at the tail of the filter list, behind any 357# existing filters (default). "id=<id>" means the filter is 358# inserted before or behind the filter specified by <id>, 359# depending on the @insert property. (default: "tail") 360# 361# @insert: where to insert the filter relative to the filter given in 362# @position. Ignored if @position is "head" or "tail". 363# (default: behind) 364# 365# Since: 2.5 366## 367{ 'struct': 'NetfilterProperties', 368 'data': { 'netdev': 'str', 369 '*queue': 'NetFilterDirection', 370 '*status': 'str', 371 '*position': 'str', 372 '*insert': 'NetfilterInsert' } } 373 374## 375# @FilterBufferProperties: 376# 377# Properties for filter-buffer objects. 378# 379# @interval: a non-zero interval in microseconds. All packets 380# arriving in the given interval are delayed until the end of the 381# interval. 382# 383# Since: 2.5 384## 385{ 'struct': 'FilterBufferProperties', 386 'base': 'NetfilterProperties', 387 'data': { 'interval': 'uint32' } } 388 389## 390# @FilterDumpProperties: 391# 392# Properties for filter-dump objects. 393# 394# @file: the filename where the dumped packets should be stored 395# 396# @maxlen: maximum number of bytes in a packet that are stored 397# (default: 65536) 398# 399# Since: 2.5 400## 401{ 'struct': 'FilterDumpProperties', 402 'base': 'NetfilterProperties', 403 'data': { 'file': 'str', 404 '*maxlen': 'uint32' } } 405 406## 407# @FilterMirrorProperties: 408# 409# Properties for filter-mirror objects. 410# 411# @outdev: the name of a character device backend to which all 412# incoming packets are mirrored 413# 414# @vnet_hdr_support: if true, vnet header support is enabled 415# (default: false) 416# 417# Since: 2.6 418## 419{ 'struct': 'FilterMirrorProperties', 420 'base': 'NetfilterProperties', 421 'data': { 'outdev': 'str', 422 '*vnet_hdr_support': 'bool' } } 423 424## 425# @FilterRedirectorProperties: 426# 427# Properties for filter-redirector objects. 428# 429# At least one of @indev or @outdev must be present. If both are 430# present, they must not refer to the same character device backend. 431# 432# @indev: the name of a character device backend from which packets 433# are received and redirected to the filtered network device 434# 435# @outdev: the name of a character device backend to which all 436# incoming packets are redirected 437# 438# @vnet_hdr_support: if true, vnet header support is enabled 439# (default: false) 440# 441# Since: 2.6 442## 443{ 'struct': 'FilterRedirectorProperties', 444 'base': 'NetfilterProperties', 445 'data': { '*indev': 'str', 446 '*outdev': 'str', 447 '*vnet_hdr_support': 'bool' } } 448 449## 450# @FilterRewriterProperties: 451# 452# Properties for filter-rewriter objects. 453# 454# @vnet_hdr_support: if true, vnet header support is enabled 455# (default: false) 456# 457# Since: 2.8 458## 459{ 'struct': 'FilterRewriterProperties', 460 'base': 'NetfilterProperties', 461 'data': { '*vnet_hdr_support': 'bool' } } 462 463## 464# @InputBarrierProperties: 465# 466# Properties for input-barrier objects. 467# 468# @name: the screen name as declared in the screens section of 469# barrier.conf 470# 471# @server: hostname of the Barrier server (default: "localhost") 472# 473# @port: TCP port of the Barrier server (default: "24800") 474# 475# @x-origin: x coordinate of the leftmost pixel on the guest screen 476# (default: "0") 477# 478# @y-origin: y coordinate of the topmost pixel on the guest screen 479# (default: "0") 480# 481# @width: the width of secondary screen in pixels (default: "1920") 482# 483# @height: the height of secondary screen in pixels (default: "1080") 484# 485# Since: 4.2 486## 487{ 'struct': 'InputBarrierProperties', 488 'data': { 'name': 'str', 489 '*server': 'str', 490 '*port': 'str', 491 '*x-origin': 'str', 492 '*y-origin': 'str', 493 '*width': 'str', 494 '*height': 'str' } } 495 496## 497# @InputLinuxProperties: 498# 499# Properties for input-linux objects. 500# 501# @evdev: the path of the host evdev device to use 502# 503# @grab_all: if true, grab is toggled for all devices (e.g. both 504# keyboard and mouse) instead of just one device (default: false) 505# 506# @repeat: enables auto-repeat events (default: false) 507# 508# @grab-toggle: the key or key combination that toggles device grab 509# (default: ctrl-ctrl) 510# 511# Since: 2.6 512## 513{ 'struct': 'InputLinuxProperties', 514 'data': { 'evdev': 'str', 515 '*grab_all': 'bool', 516 '*repeat': 'bool', 517 '*grab-toggle': 'GrabToggleKeys' } } 518 519## 520# @EventLoopBaseProperties: 521# 522# Common properties for event loops 523# 524# @aio-max-batch: maximum number of requests in a batch for the AIO 525# engine, 0 means that the engine will use its default. 526# (default: 0) 527# 528# @thread-pool-min: minimum number of threads reserved in the thread 529# pool (default:0) 530# 531# @thread-pool-max: maximum number of threads the thread pool can 532# contain (default:64) 533# 534# Since: 7.1 535## 536{ 'struct': 'EventLoopBaseProperties', 537 'data': { '*aio-max-batch': 'int', 538 '*thread-pool-min': 'int', 539 '*thread-pool-max': 'int' } } 540 541## 542# @IothreadProperties: 543# 544# Properties for iothread objects. 545# 546# @poll-max-ns: the maximum number of nanoseconds to busy wait for 547# events. 0 means polling is disabled (default: 32768 on POSIX 548# hosts, 0 otherwise) 549# 550# @poll-grow: the multiplier used to increase the polling time when 551# the algorithm detects it is missing events due to not polling 552# long enough. 0 selects a default behaviour (default: 0) 553# 554# @poll-shrink: the divisor used to decrease the polling time when the 555# algorithm detects it is spending too long polling without 556# encountering events. 0 selects a default behaviour (default: 0) 557# 558# The @aio-max-batch option is available since 6.1. 559# 560# Since: 2.0 561## 562{ 'struct': 'IothreadProperties', 563 'base': 'EventLoopBaseProperties', 564 'data': { '*poll-max-ns': 'int', 565 '*poll-grow': 'int', 566 '*poll-shrink': 'int' } } 567 568## 569# @MainLoopProperties: 570# 571# Properties for the main-loop object. 572# 573# Since: 7.1 574## 575{ 'struct': 'MainLoopProperties', 576 'base': 'EventLoopBaseProperties', 577 'data': {} } 578 579## 580# @MemoryBackendProperties: 581# 582# Properties for objects of classes derived from memory-backend. 583# 584# @merge: if true, mark the memory as mergeable (default depends on 585# the machine type) 586# 587# @dump: if true, include the memory in core dumps (default depends on 588# the machine type) 589# 590# @host-nodes: the list of NUMA host nodes to bind the memory to 591# 592# @policy: the NUMA policy (default: 'default') 593# 594# @prealloc: if true, preallocate memory (default: false) 595# 596# @prealloc-threads: number of CPU threads to use for prealloc 597# (default: 1) 598# 599# @prealloc-context: thread context to use for creation of 600# preallocation threads (default: none) (since 7.2) 601# 602# @share: if false, the memory is private to QEMU; if true, it is 603# shared (default: false) 604# 605# @reserve: if true, reserve swap space (or huge pages) if applicable 606# (default: true) (since 6.1) 607# 608# @size: size of the memory region in bytes 609# 610# @x-use-canonical-path-for-ramblock-id: if true, the canonical path 611# is used for ramblock-id. Disable this for 4.0 machine types or 612# older to allow migration with newer QEMU versions. 613# (default: false generally, but true for machine types <= 4.0) 614# 615# Note: prealloc=true and reserve=false cannot be set at the same 616# time. With reserve=true, the behavior depends on the operating 617# system: for example, Linux will not reserve swap space for 618# shared file mappings -- "not applicable". In contrast, 619# reserve=false will bail out if it cannot be configured 620# accordingly. 621# 622# Since: 2.1 623## 624{ 'struct': 'MemoryBackendProperties', 625 'data': { '*dump': 'bool', 626 '*host-nodes': ['uint16'], 627 '*merge': 'bool', 628 '*policy': 'HostMemPolicy', 629 '*prealloc': 'bool', 630 '*prealloc-threads': 'uint32', 631 '*prealloc-context': 'str', 632 '*share': 'bool', 633 '*reserve': 'bool', 634 'size': 'size', 635 '*x-use-canonical-path-for-ramblock-id': 'bool' } } 636 637## 638# @MemoryBackendFileProperties: 639# 640# Properties for memory-backend-file objects. 641# 642# @align: the base address alignment when QEMU mmap(2)s @mem-path. 643# Some backend stores specified by @mem-path require an alignment 644# different than the default one used by QEMU, e.g. the device DAX 645# /dev/dax0.0 requires 2M alignment rather than 4K. In such cases, 646# users can specify the required alignment via this option. 0 647# selects a default alignment (currently the page size). 648# (default: 0) 649# 650# @offset: the offset into the target file that the region starts at. 651# You can use this option to back multiple regions with a single 652# file. Must be a multiple of the page size. 653# (default: 0) (since 8.1) 654# 655# @discard-data: if true, the file contents can be destroyed when QEMU 656# exits, to avoid unnecessarily flushing data to the backing file. 657# Note that @discard-data is only an optimization, and QEMU might 658# not discard file contents if it aborts unexpectedly or is 659# terminated using SIGKILL. (default: false) 660# 661# @mem-path: the path to either a shared memory or huge page 662# filesystem mount 663# 664# @pmem: specifies whether the backing file specified by @mem-path is 665# in host persistent memory that can be accessed using the SNIA 666# NVM programming model (e.g. Intel NVDIMM). 667# 668# @readonly: if true, the backing file is opened read-only; if false, 669# it is opened read-write. (default: false) 670# 671# @rom: whether to create Read Only Memory (ROM) that cannot be 672# modified by the VM. Any write attempts to such ROM will be 673# denied. Most use cases want writable RAM instead of ROM. 674# However, selected use cases, like R/O NVDIMMs, can benefit from 675# ROM. If set to 'on', create ROM; if set to 'off', create 676# writable RAM; if set to 'auto', the value of the @readonly 677# property is used. This property is primarily helpful when we 678# want to have proper RAM in configurations that would 679# traditionally create ROM before this property was introduced: VM 680# templating, where we want to open a file readonly (@readonly set 681# to true) and mark the memory to be private for QEMU (@share set 682# to false). For this use case, we need writable RAM instead of 683# ROM, and want to set this property to 'off'. (default: auto, 684# since 8.2) 685# 686# Since: 2.1 687## 688{ 'struct': 'MemoryBackendFileProperties', 689 'base': 'MemoryBackendProperties', 690 'data': { '*align': 'size', 691 '*offset': 'size', 692 '*discard-data': 'bool', 693 'mem-path': 'str', 694 '*pmem': { 'type': 'bool', 'if': 'CONFIG_LIBPMEM' }, 695 '*readonly': 'bool', 696 '*rom': 'OnOffAuto' } } 697 698## 699# @MemoryBackendMemfdProperties: 700# 701# Properties for memory-backend-memfd objects. 702# 703# The @share boolean option is true by default with memfd. 704# 705# @hugetlb: if true, the file to be created resides in the hugetlbfs 706# filesystem (default: false) 707# 708# @hugetlbsize: the hugetlb page size on systems that support multiple 709# hugetlb page sizes (it must be a power of 2 value supported by 710# the system). 0 selects a default page size. This option is 711# ignored if @hugetlb is false. (default: 0) 712# 713# @seal: if true, create a sealed-file, which will block further 714# resizing of the memory (default: true) 715# 716# Since: 2.12 717## 718{ 'struct': 'MemoryBackendMemfdProperties', 719 'base': 'MemoryBackendProperties', 720 'data': { '*hugetlb': 'bool', 721 '*hugetlbsize': 'size', 722 '*seal': 'bool' } } 723 724## 725# @MemoryBackendEpcProperties: 726# 727# Properties for memory-backend-epc objects. 728# 729# The @share boolean option is true by default with epc 730# 731# The @merge boolean option is false by default with epc 732# 733# The @dump boolean option is false by default with epc 734# 735# Since: 6.2 736## 737{ 'struct': 'MemoryBackendEpcProperties', 738 'base': 'MemoryBackendProperties', 739 'data': {} } 740 741## 742# @PrManagerHelperProperties: 743# 744# Properties for pr-manager-helper objects. 745# 746# @path: the path to a Unix domain socket for connecting to the 747# external helper 748# 749# Since: 2.11 750## 751{ 'struct': 'PrManagerHelperProperties', 752 'data': { 'path': 'str' } } 753 754## 755# @QtestProperties: 756# 757# Properties for qtest objects. 758# 759# @chardev: the chardev to be used to receive qtest commands on. 760# 761# @log: the path to a log file 762# 763# Since: 6.0 764## 765{ 'struct': 'QtestProperties', 766 'data': { 'chardev': 'str', 767 '*log': 'str' } } 768 769## 770# @RemoteObjectProperties: 771# 772# Properties for x-remote-object objects. 773# 774# @fd: file descriptor name previously passed via 'getfd' command 775# 776# @devid: the id of the device to be associated with the file 777# descriptor 778# 779# Since: 6.0 780## 781{ 'struct': 'RemoteObjectProperties', 782 'data': { 'fd': 'str', 'devid': 'str' } } 783 784## 785# @VfioUserServerProperties: 786# 787# Properties for x-vfio-user-server objects. 788# 789# @socket: socket to be used by the libvfio-user library 790# 791# @device: the ID of the device to be emulated at the server 792# 793# Since: 7.1 794## 795{ 'struct': 'VfioUserServerProperties', 796 'data': { 'socket': 'SocketAddress', 'device': 'str' } } 797 798## 799# @IOMMUFDProperties: 800# 801# Properties for iommufd objects. 802# 803# @fd: file descriptor name previously passed via 'getfd' command, 804# which represents a pre-opened /dev/iommu. This allows the 805# iommufd object to be shared across several subsystems (VFIO, 806# VDPA, ...), and the file descriptor to be shared with other 807# process, e.g. DPDK. (default: QEMU opens /dev/iommu by itself) 808# 809# Since: 9.0 810## 811{ 'struct': 'IOMMUFDProperties', 812 'data': { '*fd': 'str' } } 813 814## 815# @AcpiGenericInitiatorProperties: 816# 817# Properties for acpi-generic-initiator objects. 818# 819# @pci-dev: PCI device ID to be associated with the node 820# 821# @node: NUMA node associated with the PCI device 822# 823# Since: 9.0 824## 825{ 'struct': 'AcpiGenericInitiatorProperties', 826 'data': { 'pci-dev': 'str', 827 'node': 'uint32' } } 828 829## 830# @RngProperties: 831# 832# Properties for objects of classes derived from rng. 833# 834# @opened: if true, the device is opened immediately when applying 835# this option and will probably fail when processing the next 836# option. Don't use; only provided for compatibility. 837# (default: false) 838# 839# Features: 840# 841# @deprecated: Member @opened is deprecated. Setting true doesn't 842# make sense, and false is already the default. 843# 844# Since: 1.3 845## 846{ 'struct': 'RngProperties', 847 'data': { '*opened': { 'type': 'bool', 'features': ['deprecated'] } } } 848 849## 850# @RngEgdProperties: 851# 852# Properties for rng-egd objects. 853# 854# @chardev: the name of a character device backend that provides the 855# connection to the RNG daemon 856# 857# Since: 1.3 858## 859{ 'struct': 'RngEgdProperties', 860 'base': 'RngProperties', 861 'data': { 'chardev': 'str' } } 862 863## 864# @RngRandomProperties: 865# 866# Properties for rng-random objects. 867# 868# @filename: the filename of the device on the host to obtain entropy 869# from (default: "/dev/urandom") 870# 871# Since: 1.3 872## 873{ 'struct': 'RngRandomProperties', 874 'base': 'RngProperties', 875 'data': { '*filename': 'str' } } 876 877## 878# @SevCommonProperties: 879# 880# Properties common to objects that are derivatives of sev-common. 881# 882# @sev-device: SEV device to use (default: "/dev/sev") 883# 884# @cbitpos: C-bit location in page table entry (default: 0) 885# 886# @reduced-phys-bits: number of bits in physical addresses that become 887# unavailable when SEV is enabled 888# 889# @kernel-hashes: if true, add hashes of kernel/initrd/cmdline to a 890# designated guest firmware page for measured boot with -kernel 891# (default: false) (since 6.2) 892# 893# Since: 9.1 894## 895{ 'struct': 'SevCommonProperties', 896 'data': { '*sev-device': 'str', 897 '*cbitpos': 'uint32', 898 'reduced-phys-bits': 'uint32', 899 '*kernel-hashes': 'bool' } } 900 901## 902# @SevGuestProperties: 903# 904# Properties for sev-guest objects. 905# 906# @dh-cert-file: guest owners DH certificate (encoded with base64) 907# 908# @session-file: guest owners session parameters (encoded with base64) 909# 910# @policy: SEV policy value (default: 0x1) 911# 912# @handle: SEV firmware handle (default: 0) 913# 914# @legacy-vm-type: Use legacy KVM_SEV_INIT KVM interface for creating the VM. 915# The newer KVM_SEV_INIT2 interface syncs additional vCPU 916# state when initializing the VMSA structures, which will 917# result in a different guest measurement. Set this to 918# maintain compatibility with older QEMU or kernel versions 919# that rely on legacy KVM_SEV_INIT behavior. 920# (default: false) (since 9.1) 921# 922# Since: 2.12 923## 924{ 'struct': 'SevGuestProperties', 925 'base': 'SevCommonProperties', 926 'data': { '*dh-cert-file': 'str', 927 '*session-file': 'str', 928 '*policy': 'uint32', 929 '*handle': 'uint32', 930 '*legacy-vm-type': 'bool' } } 931 932## 933# @SevSnpGuestProperties: 934# 935# Properties for sev-snp-guest objects. Most of these are direct 936# arguments for the KVM_SNP_* interfaces documented in the Linux 937# kernel source under 938# Documentation/arch/x86/amd-memory-encryption.rst, which are in turn 939# closely coupled with the SNP_INIT/SNP_LAUNCH_* firmware commands 940# documented in the SEV-SNP Firmware ABI Specification (Rev 0.9). 941# 942# More usage information is also available in the QEMU source tree 943# under docs/amd-memory-encryption. 944# 945# @policy: the 'POLICY' parameter to the SNP_LAUNCH_START command, as 946# defined in the SEV-SNP firmware ABI (default: 0x30000) 947# 948# @guest-visible-workarounds: 16-byte, base64-encoded blob to report 949# hypervisor-defined workarounds, corresponding to the 'GOSVW' 950# parameter of the SNP_LAUNCH_START command defined in the SEV-SNP 951# firmware ABI (default: all-zero) 952# 953# @id-block: 96-byte, base64-encoded blob to provide the 'ID Block' 954# structure for the SNP_LAUNCH_FINISH command defined in the 955# SEV-SNP firmware ABI (default: all-zero) 956# 957# @id-auth: 4096-byte, base64-encoded blob to provide the 'ID 958# Authentication Information Structure' for the SNP_LAUNCH_FINISH 959# command defined in the SEV-SNP firmware ABI (default: all-zero) 960# 961# @author-key-enabled: true if 'id-auth' blob contains the 'AUTHOR_KEY' 962# field defined SEV-SNP firmware ABI (default: false) 963# 964# @host-data: 32-byte, base64-encoded, user-defined blob to provide to 965# the guest, as documented for the 'HOST_DATA' parameter of the 966# SNP_LAUNCH_FINISH command in the SEV-SNP firmware ABI (default: 967# all-zero) 968# 969# @vcek-disabled: Guests are by default allowed to choose between VLEK 970# (Versioned Loaded Endorsement Key) or VCEK (Versioned Chip 971# Endorsement Key) when requesting attestation reports from 972# firmware. Set this to true to disable the use of VCEK. 973# (default: false) (since: 9.1) 974# 975# Since: 9.1 976## 977{ 'struct': 'SevSnpGuestProperties', 978 'base': 'SevCommonProperties', 979 'data': { 980 '*policy': 'uint64', 981 '*guest-visible-workarounds': 'str', 982 '*id-block': 'str', 983 '*id-auth': 'str', 984 '*author-key-enabled': 'bool', 985 '*host-data': 'str', 986 '*vcek-disabled': 'bool' } } 987 988## 989# @ThreadContextProperties: 990# 991# Properties for thread context objects. 992# 993# @cpu-affinity: the list of host CPU numbers used as CPU affinity for 994# all threads created in the thread context (default: QEMU main 995# thread CPU affinity) 996# 997# @node-affinity: the list of host node numbers that will be resolved 998# to a list of host CPU numbers used as CPU affinity. This is a 999# shortcut for specifying the list of host CPU numbers belonging 1000# to the host nodes manually by setting @cpu-affinity. 1001# (default: QEMU main thread affinity) 1002# 1003# Since: 7.2 1004## 1005{ 'struct': 'ThreadContextProperties', 1006 'data': { '*cpu-affinity': ['uint16'], 1007 '*node-affinity': ['uint16'] } } 1008 1009 1010## 1011# @ObjectType: 1012# 1013# Features: 1014# 1015# @unstable: Member @x-remote-object is experimental. 1016# 1017# Since: 6.0 1018## 1019{ 'enum': 'ObjectType', 1020 'data': [ 1021 'acpi-generic-initiator', 1022 'authz-list', 1023 'authz-listfile', 1024 'authz-pam', 1025 'authz-simple', 1026 'can-bus', 1027 { 'name': 'can-host-socketcan', 1028 'if': 'CONFIG_LINUX' }, 1029 'colo-compare', 1030 'cryptodev-backend', 1031 'cryptodev-backend-builtin', 1032 'cryptodev-backend-lkcf', 1033 { 'name': 'cryptodev-vhost-user', 1034 'if': 'CONFIG_VHOST_CRYPTO' }, 1035 'dbus-vmstate', 1036 'filter-buffer', 1037 'filter-dump', 1038 'filter-mirror', 1039 'filter-redirector', 1040 'filter-replay', 1041 'filter-rewriter', 1042 'input-barrier', 1043 { 'name': 'input-linux', 1044 'if': 'CONFIG_LINUX' }, 1045 'iommufd', 1046 'iothread', 1047 'main-loop', 1048 { 'name': 'memory-backend-epc', 1049 'if': 'CONFIG_LINUX' }, 1050 'memory-backend-file', 1051 { 'name': 'memory-backend-memfd', 1052 'if': 'CONFIG_LINUX' }, 1053 'memory-backend-ram', 1054 'pef-guest', 1055 { 'name': 'pr-manager-helper', 1056 'if': 'CONFIG_LINUX' }, 1057 'qtest', 1058 'rng-builtin', 1059 'rng-egd', 1060 { 'name': 'rng-random', 1061 'if': 'CONFIG_POSIX' }, 1062 'secret', 1063 { 'name': 'secret_keyring', 1064 'if': 'CONFIG_SECRET_KEYRING' }, 1065 'sev-guest', 1066 'sev-snp-guest', 1067 'thread-context', 1068 's390-pv-guest', 1069 'throttle-group', 1070 'tls-creds-anon', 1071 'tls-creds-psk', 1072 'tls-creds-x509', 1073 'tls-cipher-suites', 1074 { 'name': 'x-remote-object', 'features': [ 'unstable' ] }, 1075 { 'name': 'x-vfio-user-server', 'features': [ 'unstable' ] } 1076 ] } 1077 1078## 1079# @ObjectOptions: 1080# 1081# Describes the options of a user creatable QOM object. 1082# 1083# @qom-type: the class name for the object to be created 1084# 1085# @id: the name of the new object 1086# 1087# Since: 6.0 1088## 1089{ 'union': 'ObjectOptions', 1090 'base': { 'qom-type': 'ObjectType', 1091 'id': 'str' }, 1092 'discriminator': 'qom-type', 1093 'data': { 1094 'acpi-generic-initiator': 'AcpiGenericInitiatorProperties', 1095 'authz-list': 'AuthZListProperties', 1096 'authz-listfile': 'AuthZListFileProperties', 1097 'authz-pam': 'AuthZPAMProperties', 1098 'authz-simple': 'AuthZSimpleProperties', 1099 'can-host-socketcan': { 'type': 'CanHostSocketcanProperties', 1100 'if': 'CONFIG_LINUX' }, 1101 'colo-compare': 'ColoCompareProperties', 1102 'cryptodev-backend': 'CryptodevBackendProperties', 1103 'cryptodev-backend-builtin': 'CryptodevBackendProperties', 1104 'cryptodev-backend-lkcf': 'CryptodevBackendProperties', 1105 'cryptodev-vhost-user': { 'type': 'CryptodevVhostUserProperties', 1106 'if': 'CONFIG_VHOST_CRYPTO' }, 1107 'dbus-vmstate': 'DBusVMStateProperties', 1108 'filter-buffer': 'FilterBufferProperties', 1109 'filter-dump': 'FilterDumpProperties', 1110 'filter-mirror': 'FilterMirrorProperties', 1111 'filter-redirector': 'FilterRedirectorProperties', 1112 'filter-replay': 'NetfilterProperties', 1113 'filter-rewriter': 'FilterRewriterProperties', 1114 'input-barrier': 'InputBarrierProperties', 1115 'input-linux': { 'type': 'InputLinuxProperties', 1116 'if': 'CONFIG_LINUX' }, 1117 'iommufd': 'IOMMUFDProperties', 1118 'iothread': 'IothreadProperties', 1119 'main-loop': 'MainLoopProperties', 1120 'memory-backend-epc': { 'type': 'MemoryBackendEpcProperties', 1121 'if': 'CONFIG_LINUX' }, 1122 'memory-backend-file': 'MemoryBackendFileProperties', 1123 'memory-backend-memfd': { 'type': 'MemoryBackendMemfdProperties', 1124 'if': 'CONFIG_LINUX' }, 1125 'memory-backend-ram': 'MemoryBackendProperties', 1126 'pr-manager-helper': { 'type': 'PrManagerHelperProperties', 1127 'if': 'CONFIG_LINUX' }, 1128 'qtest': 'QtestProperties', 1129 'rng-builtin': 'RngProperties', 1130 'rng-egd': 'RngEgdProperties', 1131 'rng-random': { 'type': 'RngRandomProperties', 1132 'if': 'CONFIG_POSIX' }, 1133 'secret': 'SecretProperties', 1134 'secret_keyring': { 'type': 'SecretKeyringProperties', 1135 'if': 'CONFIG_SECRET_KEYRING' }, 1136 'sev-guest': 'SevGuestProperties', 1137 'sev-snp-guest': 'SevSnpGuestProperties', 1138 'thread-context': 'ThreadContextProperties', 1139 'throttle-group': 'ThrottleGroupProperties', 1140 'tls-creds-anon': 'TlsCredsAnonProperties', 1141 'tls-creds-psk': 'TlsCredsPskProperties', 1142 'tls-creds-x509': 'TlsCredsX509Properties', 1143 'tls-cipher-suites': 'TlsCredsProperties', 1144 'x-remote-object': 'RemoteObjectProperties', 1145 'x-vfio-user-server': 'VfioUserServerProperties' 1146 } } 1147 1148## 1149# @object-add: 1150# 1151# Create a QOM object. 1152# 1153# Errors: 1154# - Error if @qom-type is not a valid class name 1155# 1156# Since: 2.0 1157# 1158# Example: 1159# 1160# -> { "execute": "object-add", 1161# "arguments": { "qom-type": "rng-random", "id": "rng1", 1162# "filename": "/dev/hwrng" } } 1163# <- { "return": {} } 1164## 1165{ 'command': 'object-add', 'data': 'ObjectOptions', 'boxed': true, 1166 'allow-preconfig': true } 1167 1168## 1169# @object-del: 1170# 1171# Remove a QOM object. 1172# 1173# @id: the name of the QOM object to remove 1174# 1175# Errors: 1176# - Error if @id is not a valid id for a QOM object 1177# 1178# Since: 2.0 1179# 1180# Example: 1181# 1182# -> { "execute": "object-del", "arguments": { "id": "rng1" } } 1183# <- { "return": {} } 1184## 1185{ 'command': 'object-del', 'data': {'id': 'str'}, 1186 'allow-preconfig': true } 1187