i386: add bios linker/loader
[qemu.git] / qmp-commands.hx
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1 HXCOMM QMP dispatch table and documentation
2 HXCOMM Text between SQMP and EQMP is copied to the QMP documention file and
3 HXCOMM does not show up in the other formats.
5 SQMP
6 QMP Supported Commands
7 ----------------------
9 This document describes all commands currently supported by QMP.
11 Most of the time their usage is exactly the same as in the user Monitor, this
12 means that any other document which also describe commands (the manpage,
13 QEMU's manual, etc) can and should be consulted.
15 QMP has two types of commands: regular and query commands. Regular commands
16 usually change the Virtual Machine's state someway, while query commands just
17 return information. The sections below are divided accordingly.
19 It's important to observe that all communication examples are formatted in
20 a reader-friendly way, so that they're easier to understand. However, in real
21 protocol usage, they're emitted as a single line.
23 Also, the following notation is used to denote data flow:
25 -> data issued by the Client
26 <- Server data response
28 Please, refer to the QMP specification (QMP/qmp-spec.txt) for detailed
29 information on the Server command and response formats.
31 NOTE: This document is temporary and will be replaced soon.
33 1. Stability Considerations
34 ===========================
36 The current QMP command set (described in this file) may be useful for a
37 number of use cases, however it's limited and several commands have bad
38 defined semantics, specially with regard to command completion.
40 These problems are going to be solved incrementally in the next QEMU releases
41 and we're going to establish a deprecation policy for badly defined commands.
43 If you're planning to adopt QMP, please observe the following:
45 1. The deprecation policy will take effect and be documented soon, please
46 check the documentation of each used command as soon as a new release of
47 QEMU is available
49 2. DO NOT rely on anything which is not explicit documented
51 3. Errors, in special, are not documented. Applications should NOT check
52 for specific errors classes or data (it's strongly recommended to only
53 check for the "error" key)
55 2. Regular Commands
56 ===================
58 Server's responses in the examples below are always a success response, please
59 refer to the QMP specification for more details on error responses.
61 EQMP
64 .name = "quit",
65 .args_type = "",
66 .mhandler.cmd_new = qmp_marshal_input_quit,
69 SQMP
70 quit
71 ----
73 Quit the emulator.
75 Arguments: None.
77 Example:
79 -> { "execute": "quit" }
80 <- { "return": {} }
82 EQMP
85 .name = "eject",
86 .args_type = "force:-f,device:B",
87 .mhandler.cmd_new = qmp_marshal_input_eject,
90 SQMP
91 eject
92 -----
94 Eject a removable medium.
96 Arguments:
98 - force: force ejection (json-bool, optional)
99 - device: device name (json-string)
101 Example:
103 -> { "execute": "eject", "arguments": { "device": "ide1-cd0" } }
104 <- { "return": {} }
106 Note: The "force" argument defaults to false.
108 EQMP
111 .name = "change",
112 .args_type = "device:B,target:F,arg:s?",
113 .mhandler.cmd_new = qmp_marshal_input_change,
116 SQMP
117 change
118 ------
120 Change a removable medium or VNC configuration.
122 Arguments:
124 - "device": device name (json-string)
125 - "target": filename or item (json-string)
126 - "arg": additional argument (json-string, optional)
128 Examples:
130 1. Change a removable medium
132 -> { "execute": "change",
133 "arguments": { "device": "ide1-cd0",
134 "target": "/srv/images/Fedora-12-x86_64-DVD.iso" } }
135 <- { "return": {} }
137 2. Change VNC password
139 -> { "execute": "change",
140 "arguments": { "device": "vnc", "target": "password",
141 "arg": "foobar1" } }
142 <- { "return": {} }
144 EQMP
147 .name = "screendump",
148 .args_type = "filename:F",
149 .mhandler.cmd_new = qmp_marshal_input_screendump,
152 SQMP
153 screendump
154 ----------
156 Save screen into PPM image.
158 Arguments:
160 - "filename": file path (json-string)
162 Example:
164 -> { "execute": "screendump", "arguments": { "filename": "/tmp/image" } }
165 <- { "return": {} }
167 EQMP
170 .name = "stop",
171 .args_type = "",
172 .mhandler.cmd_new = qmp_marshal_input_stop,
175 SQMP
176 stop
177 ----
179 Stop the emulator.
181 Arguments: None.
183 Example:
185 -> { "execute": "stop" }
186 <- { "return": {} }
188 EQMP
191 .name = "cont",
192 .args_type = "",
193 .mhandler.cmd_new = qmp_marshal_input_cont,
196 SQMP
197 cont
198 ----
200 Resume emulation.
202 Arguments: None.
204 Example:
206 -> { "execute": "cont" }
207 <- { "return": {} }
209 EQMP
212 .name = "system_wakeup",
213 .args_type = "",
214 .mhandler.cmd_new = qmp_marshal_input_system_wakeup,
217 SQMP
218 system_wakeup
219 -------------
221 Wakeup guest from suspend.
223 Arguments: None.
225 Example:
227 -> { "execute": "system_wakeup" }
228 <- { "return": {} }
230 EQMP
233 .name = "system_reset",
234 .args_type = "",
235 .mhandler.cmd_new = qmp_marshal_input_system_reset,
238 SQMP
239 system_reset
240 ------------
242 Reset the system.
244 Arguments: None.
246 Example:
248 -> { "execute": "system_reset" }
249 <- { "return": {} }
251 EQMP
254 .name = "system_powerdown",
255 .args_type = "",
256 .mhandler.cmd_new = qmp_marshal_input_system_powerdown,
259 SQMP
260 system_powerdown
261 ----------------
263 Send system power down event.
265 Arguments: None.
267 Example:
269 -> { "execute": "system_powerdown" }
270 <- { "return": {} }
272 EQMP
275 .name = "device_add",
276 .args_type = "device:O",
277 .params = "driver[,prop=value][,...]",
278 .help = "add device, like -device on the command line",
279 .user_print = monitor_user_noop,
280 .mhandler.cmd_new = do_device_add,
283 SQMP
284 device_add
285 ----------
287 Add a device.
289 Arguments:
291 - "driver": the name of the new device's driver (json-string)
292 - "bus": the device's parent bus (device tree path, json-string, optional)
293 - "id": the device's ID, must be unique (json-string)
294 - device properties
296 Example:
298 -> { "execute": "device_add", "arguments": { "driver": "e1000", "id": "net1" } }
299 <- { "return": {} }
301 Notes:
303 (1) For detailed information about this command, please refer to the
304 'docs/qdev-device-use.txt' file.
306 (2) It's possible to list device properties by running QEMU with the
307 "-device DEVICE,\?" command-line argument, where DEVICE is the device's name
309 EQMP
312 .name = "device_del",
313 .args_type = "id:s",
314 .mhandler.cmd_new = qmp_marshal_input_device_del,
317 SQMP
318 device_del
319 ----------
321 Remove a device.
323 Arguments:
325 - "id": the device's ID (json-string)
327 Example:
329 -> { "execute": "device_del", "arguments": { "id": "net1" } }
330 <- { "return": {} }
332 EQMP
335 .name = "send-key",
336 .args_type = "keys:O,hold-time:i?",
337 .mhandler.cmd_new = qmp_marshal_input_send_key,
340 SQMP
341 send-key
342 ----------
344 Send keys to VM.
346 Arguments:
348 keys array:
349 - "key": key sequence (a json-array of key union values,
350 union can be number or qcode enum)
352 - hold-time: time to delay key up events, milliseconds. Defaults to 100
353 (json-int, optional)
355 Example:
357 -> { "execute": "send-key",
358 "arguments": { "keys": [ { "type": "qcode", "data": "ctrl" },
359 { "type": "qcode", "data": "alt" },
360 { "type": "qcode", "data": "delete" } ] } }
361 <- { "return": {} }
363 EQMP
366 .name = "cpu",
367 .args_type = "index:i",
368 .mhandler.cmd_new = qmp_marshal_input_cpu,
371 SQMP
375 Set the default CPU.
377 Arguments:
379 - "index": the CPU's index (json-int)
381 Example:
383 -> { "execute": "cpu", "arguments": { "index": 0 } }
384 <- { "return": {} }
386 Note: CPUs' indexes are obtained with the 'query-cpus' command.
388 EQMP
391 .name = "cpu-add",
392 .args_type = "id:i",
393 .mhandler.cmd_new = qmp_marshal_input_cpu_add,
396 SQMP
397 cpu-add
398 -------
400 Adds virtual cpu
402 Arguments:
404 - "id": cpu id (json-int)
406 Example:
408 -> { "execute": "cpu-add", "arguments": { "id": 2 } }
409 <- { "return": {} }
411 EQMP
414 .name = "memsave",
415 .args_type = "val:l,size:i,filename:s,cpu:i?",
416 .mhandler.cmd_new = qmp_marshal_input_memsave,
419 SQMP
420 memsave
421 -------
423 Save to disk virtual memory dump starting at 'val' of size 'size'.
425 Arguments:
427 - "val": the starting address (json-int)
428 - "size": the memory size, in bytes (json-int)
429 - "filename": file path (json-string)
430 - "cpu": virtual CPU index (json-int, optional)
432 Example:
434 -> { "execute": "memsave",
435 "arguments": { "val": 10,
436 "size": 100,
437 "filename": "/tmp/virtual-mem-dump" } }
438 <- { "return": {} }
440 EQMP
443 .name = "pmemsave",
444 .args_type = "val:l,size:i,filename:s",
445 .mhandler.cmd_new = qmp_marshal_input_pmemsave,
448 SQMP
449 pmemsave
450 --------
452 Save to disk physical memory dump starting at 'val' of size 'size'.
454 Arguments:
456 - "val": the starting address (json-int)
457 - "size": the memory size, in bytes (json-int)
458 - "filename": file path (json-string)
460 Example:
462 -> { "execute": "pmemsave",
463 "arguments": { "val": 10,
464 "size": 100,
465 "filename": "/tmp/physical-mem-dump" } }
466 <- { "return": {} }
468 EQMP
471 .name = "inject-nmi",
472 .args_type = "",
473 .mhandler.cmd_new = qmp_marshal_input_inject_nmi,
476 SQMP
477 inject-nmi
478 ----------
480 Inject an NMI on guest's CPUs.
482 Arguments: None.
484 Example:
486 -> { "execute": "inject-nmi" }
487 <- { "return": {} }
489 Note: inject-nmi fails when the guest doesn't support injecting.
490 Currently, only x86 (NMI) and s390x (RESTART) guests do.
492 EQMP
495 .name = "ringbuf-write",
496 .args_type = "device:s,data:s,format:s?",
497 .mhandler.cmd_new = qmp_marshal_input_ringbuf_write,
500 SQMP
501 ringbuf-write
502 -------------
504 Write to a ring buffer character device.
506 Arguments:
508 - "device": ring buffer character device name (json-string)
509 - "data": data to write (json-string)
510 - "format": data format (json-string, optional)
511 - Possible values: "utf8" (default), "base64"
512 Bug: invalid base64 is currently not rejected.
513 Whitespace *is* invalid.
515 Example:
517 -> { "execute": "ringbuf-write",
518 "arguments": { "device": "foo",
519 "data": "abcdefgh",
520 "format": "utf8" } }
521 <- { "return": {} }
523 EQMP
526 .name = "ringbuf-read",
527 .args_type = "device:s,size:i,format:s?",
528 .mhandler.cmd_new = qmp_marshal_input_ringbuf_read,
531 SQMP
532 ringbuf-read
533 -------------
535 Read from a ring buffer character device.
537 Arguments:
539 - "device": ring buffer character device name (json-string)
540 - "size": how many bytes to read at most (json-int)
541 - Number of data bytes, not number of characters in encoded data
542 - "format": data format (json-string, optional)
543 - Possible values: "utf8" (default), "base64"
544 - Naturally, format "utf8" works only when the ring buffer
545 contains valid UTF-8 text. Invalid UTF-8 sequences get
546 replaced. Bug: replacement doesn't work. Bug: can screw
547 up on encountering NUL characters, after the ring buffer
548 lost data, and when reading stops because the size limit
549 is reached.
551 Example:
553 -> { "execute": "ringbuf-read",
554 "arguments": { "device": "foo",
555 "size": 1000,
556 "format": "utf8" } }
557 <- {"return": "abcdefgh"}
559 EQMP
562 .name = "xen-save-devices-state",
563 .args_type = "filename:F",
564 .mhandler.cmd_new = qmp_marshal_input_xen_save_devices_state,
567 SQMP
568 xen-save-devices-state
569 -------
571 Save the state of all devices to file. The RAM and the block devices
572 of the VM are not saved by this command.
574 Arguments:
576 - "filename": the file to save the state of the devices to as binary
577 data. See xen-save-devices-state.txt for a description of the binary
578 format.
580 Example:
582 -> { "execute": "xen-save-devices-state",
583 "arguments": { "filename": "/tmp/save" } }
584 <- { "return": {} }
586 EQMP
589 .name = "xen-set-global-dirty-log",
590 .args_type = "enable:b",
591 .mhandler.cmd_new = qmp_marshal_input_xen_set_global_dirty_log,
594 SQMP
595 xen-set-global-dirty-log
596 -------
598 Enable or disable the global dirty log mode.
600 Arguments:
602 - "enable": Enable it or disable it.
604 Example:
606 -> { "execute": "xen-set-global-dirty-log",
607 "arguments": { "enable": true } }
608 <- { "return": {} }
610 EQMP
613 .name = "migrate",
614 .args_type = "detach:-d,blk:-b,inc:-i,uri:s",
615 .mhandler.cmd_new = qmp_marshal_input_migrate,
618 SQMP
619 migrate
620 -------
622 Migrate to URI.
624 Arguments:
626 - "blk": block migration, full disk copy (json-bool, optional)
627 - "inc": incremental disk copy (json-bool, optional)
628 - "uri": Destination URI (json-string)
630 Example:
632 -> { "execute": "migrate", "arguments": { "uri": "tcp:0:4446" } }
633 <- { "return": {} }
635 Notes:
637 (1) The 'query-migrate' command should be used to check migration's progress
638 and final result (this information is provided by the 'status' member)
639 (2) All boolean arguments default to false
640 (3) The user Monitor's "detach" argument is invalid in QMP and should not
641 be used
643 EQMP
646 .name = "migrate_cancel",
647 .args_type = "",
648 .mhandler.cmd_new = qmp_marshal_input_migrate_cancel,
651 SQMP
652 migrate_cancel
653 --------------
655 Cancel the current migration.
657 Arguments: None.
659 Example:
661 -> { "execute": "migrate_cancel" }
662 <- { "return": {} }
664 EQMP
666 .name = "migrate-set-cache-size",
667 .args_type = "value:o",
668 .mhandler.cmd_new = qmp_marshal_input_migrate_set_cache_size,
671 SQMP
672 migrate-set-cache-size
673 ----------------------
675 Set cache size to be used by XBZRLE migration, the cache size will be rounded
676 down to the nearest power of 2
678 Arguments:
680 - "value": cache size in bytes (json-int)
682 Example:
684 -> { "execute": "migrate-set-cache-size", "arguments": { "value": 536870912 } }
685 <- { "return": {} }
687 EQMP
689 .name = "query-migrate-cache-size",
690 .args_type = "",
691 .mhandler.cmd_new = qmp_marshal_input_query_migrate_cache_size,
694 SQMP
695 query-migrate-cache-size
696 ------------------------
698 Show cache size to be used by XBZRLE migration
700 returns a json-object with the following information:
701 - "size" : json-int
703 Example:
705 -> { "execute": "query-migrate-cache-size" }
706 <- { "return": 67108864 }
708 EQMP
711 .name = "migrate_set_speed",
712 .args_type = "value:o",
713 .mhandler.cmd_new = qmp_marshal_input_migrate_set_speed,
716 SQMP
717 migrate_set_speed
718 -----------------
720 Set maximum speed for migrations.
722 Arguments:
724 - "value": maximum speed, in bytes per second (json-int)
726 Example:
728 -> { "execute": "migrate_set_speed", "arguments": { "value": 1024 } }
729 <- { "return": {} }
731 EQMP
734 .name = "migrate_set_downtime",
735 .args_type = "value:T",
736 .mhandler.cmd_new = qmp_marshal_input_migrate_set_downtime,
739 SQMP
740 migrate_set_downtime
741 --------------------
743 Set maximum tolerated downtime (in seconds) for migrations.
745 Arguments:
747 - "value": maximum downtime (json-number)
749 Example:
751 -> { "execute": "migrate_set_downtime", "arguments": { "value": 0.1 } }
752 <- { "return": {} }
754 EQMP
757 .name = "client_migrate_info",
758 .args_type = "protocol:s,hostname:s,port:i?,tls-port:i?,cert-subject:s?",
759 .params = "protocol hostname port tls-port cert-subject",
760 .help = "send migration info to spice/vnc client",
761 .user_print = monitor_user_noop,
762 .mhandler.cmd_async = client_migrate_info,
763 .flags = MONITOR_CMD_ASYNC,
766 SQMP
767 client_migrate_info
768 ------------------
770 Set the spice/vnc connection info for the migration target. The spice/vnc
771 server will ask the spice/vnc client to automatically reconnect using the
772 new parameters (if specified) once the vm migration finished successfully.
774 Arguments:
776 - "protocol": protocol: "spice" or "vnc" (json-string)
777 - "hostname": migration target hostname (json-string)
778 - "port": spice/vnc tcp port for plaintext channels (json-int, optional)
779 - "tls-port": spice tcp port for tls-secured channels (json-int, optional)
780 - "cert-subject": server certificate subject (json-string, optional)
782 Example:
784 -> { "execute": "client_migrate_info",
785 "arguments": { "protocol": "spice",
786 "hostname": "virt42.lab.kraxel.org",
787 "port": 1234 } }
788 <- { "return": {} }
790 EQMP
793 .name = "dump-guest-memory",
794 .args_type = "paging:b,protocol:s,begin:i?,end:i?",
795 .params = "-p protocol [begin] [length]",
796 .help = "dump guest memory to file",
797 .user_print = monitor_user_noop,
798 .mhandler.cmd_new = qmp_marshal_input_dump_guest_memory,
801 SQMP
802 dump
805 Dump guest memory to file. The file can be processed with crash or gdb.
807 Arguments:
809 - "paging": do paging to get guest's memory mapping (json-bool)
810 - "protocol": destination file(started with "file:") or destination file
811 descriptor (started with "fd:") (json-string)
812 - "begin": the starting physical address. It's optional, and should be specified
813 with length together (json-int)
814 - "length": the memory size, in bytes. It's optional, and should be specified
815 with begin together (json-int)
817 Example:
819 -> { "execute": "dump-guest-memory", "arguments": { "protocol": "fd:dump" } }
820 <- { "return": {} }
822 Notes:
824 (1) All boolean arguments default to false
826 EQMP
829 .name = "netdev_add",
830 .args_type = "netdev:O",
831 .mhandler.cmd_new = qmp_netdev_add,
834 SQMP
835 netdev_add
836 ----------
838 Add host network device.
840 Arguments:
842 - "type": the device type, "tap", "user", ... (json-string)
843 - "id": the device's ID, must be unique (json-string)
844 - device options
846 Example:
848 -> { "execute": "netdev_add", "arguments": { "type": "user", "id": "netdev1" } }
849 <- { "return": {} }
851 Note: The supported device options are the same ones supported by the '-netdev'
852 command-line argument, which are listed in the '-help' output or QEMU's
853 manual
855 EQMP
858 .name = "netdev_del",
859 .args_type = "id:s",
860 .mhandler.cmd_new = qmp_marshal_input_netdev_del,
863 SQMP
864 netdev_del
865 ----------
867 Remove host network device.
869 Arguments:
871 - "id": the device's ID, must be unique (json-string)
873 Example:
875 -> { "execute": "netdev_del", "arguments": { "id": "netdev1" } }
876 <- { "return": {} }
879 EQMP
882 .name = "block_resize",
883 .args_type = "device:B,size:o",
884 .mhandler.cmd_new = qmp_marshal_input_block_resize,
887 SQMP
888 block_resize
889 ------------
891 Resize a block image while a guest is running.
893 Arguments:
895 - "device": the device's ID, must be unique (json-string)
896 - "size": new size
898 Example:
900 -> { "execute": "block_resize", "arguments": { "device": "scratch", "size": 1073741824 } }
901 <- { "return": {} }
903 EQMP
906 .name = "block-stream",
907 .args_type = "device:B,base:s?,speed:o?,on-error:s?",
908 .mhandler.cmd_new = qmp_marshal_input_block_stream,
912 .name = "block-commit",
913 .args_type = "device:B,base:s?,top:s,speed:o?",
914 .mhandler.cmd_new = qmp_marshal_input_block_commit,
918 .name = "drive-backup",
919 .args_type = "sync:s,device:B,target:s,speed:i?,mode:s?,format:s?,"
920 "on-source-error:s?,on-target-error:s?",
921 .mhandler.cmd_new = qmp_marshal_input_drive_backup,
924 SQMP
925 drive-backup
926 ------------
928 Start a point-in-time copy of a block device to a new destination. The
929 status of ongoing drive-backup operations can be checked with
930 query-block-jobs where the BlockJobInfo.type field has the value 'backup'.
931 The operation can be stopped before it has completed using the
932 block-job-cancel command.
934 Arguments:
936 - "device": the name of the device which should be copied.
937 (json-string)
938 - "target": the target of the new image. If the file exists, or if it is a
939 device, the existing file/device will be used as the new
940 destination. If it does not exist, a new file will be created.
941 (json-string)
942 - "format": the format of the new destination, default is to probe if 'mode' is
943 'existing', else the format of the source
944 (json-string, optional)
945 - "sync": what parts of the disk image should be copied to the destination;
946 possibilities include "full" for all the disk, "top" for only the sectors
947 allocated in the topmost image, or "none" to only replicate new I/O
948 (MirrorSyncMode).
949 - "mode": whether and how QEMU should create a new image
950 (NewImageMode, optional, default 'absolute-paths')
951 - "speed": the maximum speed, in bytes per second (json-int, optional)
952 - "on-source-error": the action to take on an error on the source, default
953 'report'. 'stop' and 'enospc' can only be used
954 if the block device supports io-status.
955 (BlockdevOnError, optional)
956 - "on-target-error": the action to take on an error on the target, default
957 'report' (no limitations, since this applies to
958 a different block device than device).
959 (BlockdevOnError, optional)
961 Example:
962 -> { "execute": "drive-backup", "arguments": { "device": "drive0",
963 "sync": "full",
964 "target": "backup.img" } }
965 <- { "return": {} }
966 EQMP
969 .name = "block-job-set-speed",
970 .args_type = "device:B,speed:o",
971 .mhandler.cmd_new = qmp_marshal_input_block_job_set_speed,
975 .name = "block-job-cancel",
976 .args_type = "device:B,force:b?",
977 .mhandler.cmd_new = qmp_marshal_input_block_job_cancel,
980 .name = "block-job-pause",
981 .args_type = "device:B",
982 .mhandler.cmd_new = qmp_marshal_input_block_job_pause,
985 .name = "block-job-resume",
986 .args_type = "device:B",
987 .mhandler.cmd_new = qmp_marshal_input_block_job_resume,
990 .name = "block-job-complete",
991 .args_type = "device:B",
992 .mhandler.cmd_new = qmp_marshal_input_block_job_complete,
995 .name = "transaction",
996 .args_type = "actions:q",
997 .mhandler.cmd_new = qmp_marshal_input_transaction,
1000 SQMP
1001 transaction
1002 -----------
1004 Atomically operate on one or more block devices. The only supported
1005 operation for now is snapshotting. If there is any failure performing
1006 any of the operations, all snapshots for the group are abandoned, and
1007 the original disks pre-snapshot attempt are used.
1009 A list of dictionaries is accepted, that contains the actions to be performed.
1010 For snapshots this is the device, the file to use for the new snapshot,
1011 and the format. The default format, if not specified, is qcow2.
1013 Each new snapshot defaults to being created by QEMU (wiping any
1014 contents if the file already exists), but it is also possible to reuse
1015 an externally-created file. In the latter case, you should ensure that
1016 the new image file has the same contents as the current one; QEMU cannot
1017 perform any meaningful check. Typically this is achieved by using the
1018 current image file as the backing file for the new image.
1020 Arguments:
1022 actions array:
1023 - "type": the operation to perform. The only supported
1024 value is "blockdev-snapshot-sync". (json-string)
1025 - "data": a dictionary. The contents depend on the value
1026 of "type". When "type" is "blockdev-snapshot-sync":
1027 - "device": device name to snapshot (json-string)
1028 - "snapshot-file": name of new image file (json-string)
1029 - "format": format of new image (json-string, optional)
1030 - "mode": whether and how QEMU should create the snapshot file
1031 (NewImageMode, optional, default "absolute-paths")
1033 Example:
1035 -> { "execute": "transaction",
1036 "arguments": { "actions": [
1037 { 'type': 'blockdev-snapshot-sync', 'data' : { "device": "ide-hd0",
1038 "snapshot-file": "/some/place/my-image",
1039 "format": "qcow2" } },
1040 { 'type': 'blockdev-snapshot-sync', 'data' : { "device": "ide-hd1",
1041 "snapshot-file": "/some/place/my-image2",
1042 "mode": "existing",
1043 "format": "qcow2" } } ] } }
1044 <- { "return": {} }
1046 EQMP
1049 .name = "blockdev-snapshot-sync",
1050 .args_type = "device:B,snapshot-file:s,format:s?,mode:s?",
1051 .mhandler.cmd_new = qmp_marshal_input_blockdev_snapshot_sync,
1054 SQMP
1055 blockdev-snapshot-sync
1056 ----------------------
1058 Synchronous snapshot of a block device. snapshot-file specifies the
1059 target of the new image. If the file exists, or if it is a device, the
1060 snapshot will be created in the existing file/device. If does not
1061 exist, a new file will be created. format specifies the format of the
1062 snapshot image, default is qcow2.
1064 Arguments:
1066 - "device": device name to snapshot (json-string)
1067 - "snapshot-file": name of new image file (json-string)
1068 - "mode": whether and how QEMU should create the snapshot file
1069 (NewImageMode, optional, default "absolute-paths")
1070 - "format": format of new image (json-string, optional)
1072 Example:
1074 -> { "execute": "blockdev-snapshot-sync", "arguments": { "device": "ide-hd0",
1075 "snapshot-file":
1076 "/some/place/my-image",
1077 "format": "qcow2" } }
1078 <- { "return": {} }
1080 EQMP
1083 .name = "drive-mirror",
1084 .args_type = "sync:s,device:B,target:s,speed:i?,mode:s?,format:s?,"
1085 "on-source-error:s?,on-target-error:s?,"
1086 "granularity:i?,buf-size:i?",
1087 .mhandler.cmd_new = qmp_marshal_input_drive_mirror,
1090 SQMP
1091 drive-mirror
1092 ------------
1094 Start mirroring a block device's writes to a new destination. target
1095 specifies the target of the new image. If the file exists, or if it is
1096 a device, it will be used as the new destination for writes. If it does not
1097 exist, a new file will be created. format specifies the format of the
1098 mirror image, default is to probe if mode='existing', else the format
1099 of the source.
1101 Arguments:
1103 - "device": device name to operate on (json-string)
1104 - "target": name of new image file (json-string)
1105 - "format": format of new image (json-string, optional)
1106 - "mode": how an image file should be created into the target
1107 file/device (NewImageMode, optional, default 'absolute-paths')
1108 - "speed": maximum speed of the streaming job, in bytes per second
1109 (json-int)
1110 - "granularity": granularity of the dirty bitmap, in bytes (json-int, optional)
1111 - "buf_size": maximum amount of data in flight from source to target, in bytes
1112 (json-int, default 10M)
1113 - "sync": what parts of the disk image should be copied to the destination;
1114 possibilities include "full" for all the disk, "top" for only the sectors
1115 allocated in the topmost image, or "none" to only replicate new I/O
1116 (MirrorSyncMode).
1117 - "on-source-error": the action to take on an error on the source
1118 (BlockdevOnError, default 'report')
1119 - "on-target-error": the action to take on an error on the target
1120 (BlockdevOnError, default 'report')
1122 The default value of the granularity is the image cluster size clamped
1123 between 4096 and 65536, if the image format defines one. If the format
1124 does not define a cluster size, the default value of the granularity
1125 is 65536.
1128 Example:
1130 -> { "execute": "drive-mirror", "arguments": { "device": "ide-hd0",
1131 "target": "/some/place/my-image",
1132 "sync": "full",
1133 "format": "qcow2" } }
1134 <- { "return": {} }
1136 EQMP
1139 .name = "balloon",
1140 .args_type = "value:M",
1141 .mhandler.cmd_new = qmp_marshal_input_balloon,
1144 SQMP
1145 balloon
1146 -------
1148 Request VM to change its memory allocation (in bytes).
1150 Arguments:
1152 - "value": New memory allocation (json-int)
1154 Example:
1156 -> { "execute": "balloon", "arguments": { "value": 536870912 } }
1157 <- { "return": {} }
1159 EQMP
1162 .name = "set_link",
1163 .args_type = "name:s,up:b",
1164 .mhandler.cmd_new = qmp_marshal_input_set_link,
1167 SQMP
1168 set_link
1169 --------
1171 Change the link status of a network adapter.
1173 Arguments:
1175 - "name": network device name (json-string)
1176 - "up": status is up (json-bool)
1178 Example:
1180 -> { "execute": "set_link", "arguments": { "name": "e1000.0", "up": false } }
1181 <- { "return": {} }
1183 EQMP
1186 .name = "getfd",
1187 .args_type = "fdname:s",
1188 .params = "getfd name",
1189 .help = "receive a file descriptor via SCM rights and assign it a name",
1190 .mhandler.cmd_new = qmp_marshal_input_getfd,
1193 SQMP
1194 getfd
1195 -----
1197 Receive a file descriptor via SCM rights and assign it a name.
1199 Arguments:
1201 - "fdname": file descriptor name (json-string)
1203 Example:
1205 -> { "execute": "getfd", "arguments": { "fdname": "fd1" } }
1206 <- { "return": {} }
1208 Notes:
1210 (1) If the name specified by the "fdname" argument already exists,
1211 the file descriptor assigned to it will be closed and replaced
1212 by the received file descriptor.
1213 (2) The 'closefd' command can be used to explicitly close the file
1214 descriptor when it is no longer needed.
1216 EQMP
1219 .name = "closefd",
1220 .args_type = "fdname:s",
1221 .params = "closefd name",
1222 .help = "close a file descriptor previously passed via SCM rights",
1223 .mhandler.cmd_new = qmp_marshal_input_closefd,
1226 SQMP
1227 closefd
1228 -------
1230 Close a file descriptor previously passed via SCM rights.
1232 Arguments:
1234 - "fdname": file descriptor name (json-string)
1236 Example:
1238 -> { "execute": "closefd", "arguments": { "fdname": "fd1" } }
1239 <- { "return": {} }
1241 EQMP
1244 .name = "add-fd",
1245 .args_type = "fdset-id:i?,opaque:s?",
1246 .params = "add-fd fdset-id opaque",
1247 .help = "Add a file descriptor, that was passed via SCM rights, to an fd set",
1248 .mhandler.cmd_new = qmp_marshal_input_add_fd,
1251 SQMP
1252 add-fd
1253 -------
1255 Add a file descriptor, that was passed via SCM rights, to an fd set.
1257 Arguments:
1259 - "fdset-id": The ID of the fd set to add the file descriptor to.
1260 (json-int, optional)
1261 - "opaque": A free-form string that can be used to describe the fd.
1262 (json-string, optional)
1264 Return a json-object with the following information:
1266 - "fdset-id": The ID of the fd set that the fd was added to. (json-int)
1267 - "fd": The file descriptor that was received via SCM rights and added to the
1268 fd set. (json-int)
1270 Example:
1272 -> { "execute": "add-fd", "arguments": { "fdset-id": 1 } }
1273 <- { "return": { "fdset-id": 1, "fd": 3 } }
1275 Notes:
1277 (1) The list of fd sets is shared by all monitor connections.
1278 (2) If "fdset-id" is not specified, a new fd set will be created.
1280 EQMP
1283 .name = "remove-fd",
1284 .args_type = "fdset-id:i,fd:i?",
1285 .params = "remove-fd fdset-id fd",
1286 .help = "Remove a file descriptor from an fd set",
1287 .mhandler.cmd_new = qmp_marshal_input_remove_fd,
1290 SQMP
1291 remove-fd
1292 ---------
1294 Remove a file descriptor from an fd set.
1296 Arguments:
1298 - "fdset-id": The ID of the fd set that the file descriptor belongs to.
1299 (json-int)
1300 - "fd": The file descriptor that is to be removed. (json-int, optional)
1302 Example:
1304 -> { "execute": "remove-fd", "arguments": { "fdset-id": 1, "fd": 3 } }
1305 <- { "return": {} }
1307 Notes:
1309 (1) The list of fd sets is shared by all monitor connections.
1310 (2) If "fd" is not specified, all file descriptors in "fdset-id" will be
1311 removed.
1313 EQMP
1316 .name = "query-fdsets",
1317 .args_type = "",
1318 .help = "Return information describing all fd sets",
1319 .mhandler.cmd_new = qmp_marshal_input_query_fdsets,
1322 SQMP
1323 query-fdsets
1324 -------------
1326 Return information describing all fd sets.
1328 Arguments: None
1330 Example:
1332 -> { "execute": "query-fdsets" }
1333 <- { "return": [
1335 "fds": [
1337 "fd": 30,
1338 "opaque": "rdonly:/path/to/file"
1341 "fd": 24,
1342 "opaque": "rdwr:/path/to/file"
1345 "fdset-id": 1
1348 "fds": [
1350 "fd": 28
1353 "fd": 29
1356 "fdset-id": 0
1361 Note: The list of fd sets is shared by all monitor connections.
1363 EQMP
1366 .name = "block_passwd",
1367 .args_type = "device:B,password:s",
1368 .mhandler.cmd_new = qmp_marshal_input_block_passwd,
1371 SQMP
1372 block_passwd
1373 ------------
1375 Set the password of encrypted block devices.
1377 Arguments:
1379 - "device": device name (json-string)
1380 - "password": password (json-string)
1382 Example:
1384 -> { "execute": "block_passwd", "arguments": { "device": "ide0-hd0",
1385 "password": "12345" } }
1386 <- { "return": {} }
1388 EQMP
1391 .name = "block_set_io_throttle",
1392 .args_type = "device:B,bps:l,bps_rd:l,bps_wr:l,iops:l,iops_rd:l,iops_wr:l,bps_max:l?,bps_rd_max:l?,bps_wr_max:l?,iops_max:l?,iops_rd_max:l?,iops_wr_max:l?,iops_size:l?",
1393 .mhandler.cmd_new = qmp_marshal_input_block_set_io_throttle,
1396 SQMP
1397 block_set_io_throttle
1398 ------------
1400 Change I/O throttle limits for a block drive.
1402 Arguments:
1404 - "device": device name (json-string)
1405 - "bps": total throughput limit in bytes per second (json-int)
1406 - "bps_rd": read throughput limit in bytes per second (json-int)
1407 - "bps_wr": write throughput limit in bytes per second (json-int)
1408 - "iops": total I/O operations per second (json-int)
1409 - "iops_rd": read I/O operations per second (json-int)
1410 - "iops_wr": write I/O operations per second (json-int)
1411 - "bps_max": total max in bytes (json-int)
1412 - "bps_rd_max": read max in bytes (json-int)
1413 - "bps_wr_max": write max in bytes (json-int)
1414 - "iops_max": total I/O operations max (json-int)
1415 - "iops_rd_max": read I/O operations max (json-int)
1416 - "iops_wr_max": write I/O operations max (json-int)
1417 - "iops_size": I/O size in bytes when limiting (json-int)
1419 Example:
1421 -> { "execute": "block_set_io_throttle", "arguments": { "device": "virtio0",
1422 "bps": 1000000,
1423 "bps_rd": 0,
1424 "bps_wr": 0,
1425 "iops": 0,
1426 "iops_rd": 0,
1427 "iops_wr": 0,
1428 "bps_max": 8000000,
1429 "bps_rd_max": 0,
1430 "bps_wr_max": 0,
1431 "iops_max": 0,
1432 "iops_rd_max": 0,
1433 "iops_wr_max": 0,
1434 "iops_size": 0 } }
1435 <- { "return": {} }
1437 EQMP
1440 .name = "set_password",
1441 .args_type = "protocol:s,password:s,connected:s?",
1442 .mhandler.cmd_new = qmp_marshal_input_set_password,
1445 SQMP
1446 set_password
1447 ------------
1449 Set the password for vnc/spice protocols.
1451 Arguments:
1453 - "protocol": protocol name (json-string)
1454 - "password": password (json-string)
1455 - "connected": [ keep | disconnect | fail ] (josn-string, optional)
1457 Example:
1459 -> { "execute": "set_password", "arguments": { "protocol": "vnc",
1460 "password": "secret" } }
1461 <- { "return": {} }
1463 EQMP
1466 .name = "expire_password",
1467 .args_type = "protocol:s,time:s",
1468 .mhandler.cmd_new = qmp_marshal_input_expire_password,
1471 SQMP
1472 expire_password
1473 ---------------
1475 Set the password expire time for vnc/spice protocols.
1477 Arguments:
1479 - "protocol": protocol name (json-string)
1480 - "time": [ now | never | +secs | secs ] (json-string)
1482 Example:
1484 -> { "execute": "expire_password", "arguments": { "protocol": "vnc",
1485 "time": "+60" } }
1486 <- { "return": {} }
1488 EQMP
1491 .name = "add_client",
1492 .args_type = "protocol:s,fdname:s,skipauth:b?,tls:b?",
1493 .mhandler.cmd_new = qmp_marshal_input_add_client,
1496 SQMP
1497 add_client
1498 ----------
1500 Add a graphics client
1502 Arguments:
1504 - "protocol": protocol name (json-string)
1505 - "fdname": file descriptor name (json-string)
1506 - "skipauth": whether to skip authentication (json-bool, optional)
1507 - "tls": whether to perform TLS (json-bool, optional)
1509 Example:
1511 -> { "execute": "add_client", "arguments": { "protocol": "vnc",
1512 "fdname": "myclient" } }
1513 <- { "return": {} }
1515 EQMP
1517 .name = "qmp_capabilities",
1518 .args_type = "",
1519 .params = "",
1520 .help = "enable QMP capabilities",
1521 .user_print = monitor_user_noop,
1522 .mhandler.cmd_new = do_qmp_capabilities,
1525 SQMP
1526 qmp_capabilities
1527 ----------------
1529 Enable QMP capabilities.
1531 Arguments: None.
1533 Example:
1535 -> { "execute": "qmp_capabilities" }
1536 <- { "return": {} }
1538 Note: This command must be issued before issuing any other command.
1540 EQMP
1543 .name = "human-monitor-command",
1544 .args_type = "command-line:s,cpu-index:i?",
1545 .mhandler.cmd_new = qmp_marshal_input_human_monitor_command,
1548 SQMP
1549 human-monitor-command
1550 ---------------------
1552 Execute a Human Monitor command.
1554 Arguments:
1556 - command-line: the command name and its arguments, just like the
1557 Human Monitor's shell (json-string)
1558 - cpu-index: select the CPU number to be used by commands which access CPU
1559 data, like 'info registers'. The Monitor selects CPU 0 if this
1560 argument is not provided (json-int, optional)
1562 Example:
1564 -> { "execute": "human-monitor-command", "arguments": { "command-line": "info kvm" } }
1565 <- { "return": "kvm support: enabled\r\n" }
1567 Notes:
1569 (1) The Human Monitor is NOT an stable interface, this means that command
1570 names, arguments and responses can change or be removed at ANY time.
1571 Applications that rely on long term stability guarantees should NOT
1572 use this command
1574 (2) Limitations:
1576 o This command is stateless, this means that commands that depend
1577 on state information (such as getfd) might not work
1579 o Commands that prompt the user for data (eg. 'cont' when the block
1580 device is encrypted) don't currently work
1582 3. Query Commands
1583 =================
1585 HXCOMM Each query command below is inside a SQMP/EQMP section, do NOT change
1586 HXCOMM this! We will possibly move query commands definitions inside those
1587 HXCOMM sections, just like regular commands.
1589 EQMP
1591 SQMP
1592 query-version
1593 -------------
1595 Show QEMU version.
1597 Return a json-object with the following information:
1599 - "qemu": A json-object containing three integer values:
1600 - "major": QEMU's major version (json-int)
1601 - "minor": QEMU's minor version (json-int)
1602 - "micro": QEMU's micro version (json-int)
1603 - "package": package's version (json-string)
1605 Example:
1607 -> { "execute": "query-version" }
1608 <- {
1609 "return":{
1610 "qemu":{
1611 "major":0,
1612 "minor":11,
1613 "micro":5
1615 "package":""
1619 EQMP
1622 .name = "query-version",
1623 .args_type = "",
1624 .mhandler.cmd_new = qmp_marshal_input_query_version,
1627 SQMP
1628 query-commands
1629 --------------
1631 List QMP available commands.
1633 Each command is represented by a json-object, the returned value is a json-array
1634 of all commands.
1636 Each json-object contain:
1638 - "name": command's name (json-string)
1640 Example:
1642 -> { "execute": "query-commands" }
1643 <- {
1644 "return":[
1646 "name":"query-balloon"
1649 "name":"system_powerdown"
1654 Note: This example has been shortened as the real response is too long.
1656 EQMP
1659 .name = "query-commands",
1660 .args_type = "",
1661 .mhandler.cmd_new = qmp_marshal_input_query_commands,
1664 SQMP
1665 query-events
1666 --------------
1668 List QMP available events.
1670 Each event is represented by a json-object, the returned value is a json-array
1671 of all events.
1673 Each json-object contains:
1675 - "name": event's name (json-string)
1677 Example:
1679 -> { "execute": "query-events" }
1680 <- {
1681 "return":[
1683 "name":"SHUTDOWN"
1686 "name":"RESET"
1691 Note: This example has been shortened as the real response is too long.
1693 EQMP
1696 .name = "query-events",
1697 .args_type = "",
1698 .mhandler.cmd_new = qmp_marshal_input_query_events,
1701 SQMP
1702 query-chardev
1703 -------------
1705 Each device is represented by a json-object. The returned value is a json-array
1706 of all devices.
1708 Each json-object contain the following:
1710 - "label": device's label (json-string)
1711 - "filename": device's file (json-string)
1713 Example:
1715 -> { "execute": "query-chardev" }
1716 <- {
1717 "return":[
1719 "label":"monitor",
1720 "filename":"stdio"
1723 "label":"serial0",
1724 "filename":"vc"
1729 EQMP
1732 .name = "query-chardev",
1733 .args_type = "",
1734 .mhandler.cmd_new = qmp_marshal_input_query_chardev,
1737 SQMP
1738 query-block
1739 -----------
1741 Show the block devices.
1743 Each block device information is stored in a json-object and the returned value
1744 is a json-array of all devices.
1746 Each json-object contain the following:
1748 - "device": device name (json-string)
1749 - "type": device type (json-string)
1750 - deprecated, retained for backward compatibility
1751 - Possible values: "unknown"
1752 - "removable": true if the device is removable, false otherwise (json-bool)
1753 - "locked": true if the device is locked, false otherwise (json-bool)
1754 - "tray_open": only present if removable, true if the device has a tray,
1755 and it is open (json-bool)
1756 - "inserted": only present if the device is inserted, it is a json-object
1757 containing the following:
1758 - "file": device file name (json-string)
1759 - "ro": true if read-only, false otherwise (json-bool)
1760 - "drv": driver format name (json-string)
1761 - Possible values: "blkdebug", "bochs", "cloop", "cow", "dmg",
1762 "file", "file", "ftp", "ftps", "host_cdrom",
1763 "host_device", "host_floppy", "http", "https",
1764 "nbd", "parallels", "qcow", "qcow2", "raw",
1765 "tftp", "vdi", "vmdk", "vpc", "vvfat"
1766 - "backing_file": backing file name (json-string, optional)
1767 - "backing_file_depth": number of files in the backing file chain (json-int)
1768 - "encrypted": true if encrypted, false otherwise (json-bool)
1769 - "bps": limit total bytes per second (json-int)
1770 - "bps_rd": limit read bytes per second (json-int)
1771 - "bps_wr": limit write bytes per second (json-int)
1772 - "iops": limit total I/O operations per second (json-int)
1773 - "iops_rd": limit read operations per second (json-int)
1774 - "iops_wr": limit write operations per second (json-int)
1775 - "bps_max": total max in bytes (json-int)
1776 - "bps_rd_max": read max in bytes (json-int)
1777 - "bps_wr_max": write max in bytes (json-int)
1778 - "iops_max": total I/O operations max (json-int)
1779 - "iops_rd_max": read I/O operations max (json-int)
1780 - "iops_wr_max": write I/O operations max (json-int)
1781 - "iops_size": I/O size when limiting by iops (json-int)
1782 - "image": the detail of the image, it is a json-object containing
1783 the following:
1784 - "filename": image file name (json-string)
1785 - "format": image format (json-string)
1786 - "virtual-size": image capacity in bytes (json-int)
1787 - "dirty-flag": true if image is not cleanly closed, not present
1788 means clean (json-bool, optional)
1789 - "actual-size": actual size on disk in bytes of the image, not
1790 present when image does not support thin
1791 provision (json-int, optional)
1792 - "cluster-size": size of a cluster in bytes, not present if image
1793 format does not support it (json-int, optional)
1794 - "encrypted": true if the image is encrypted, not present means
1795 false or the image format does not support
1796 encryption (json-bool, optional)
1797 - "backing_file": backing file name, not present means no backing
1798 file is used or the image format does not
1799 support backing file chain
1800 (json-string, optional)
1801 - "full-backing-filename": full path of the backing file, not
1802 present if it equals backing_file or no
1803 backing file is used
1804 (json-string, optional)
1805 - "backing-filename-format": the format of the backing file, not
1806 present means unknown or no backing
1807 file (json-string, optional)
1808 - "snapshots": the internal snapshot info, it is an optional list
1809 of json-object containing the following:
1810 - "id": unique snapshot id (json-string)
1811 - "name": snapshot name (json-string)
1812 - "vm-state-size": size of the VM state in bytes (json-int)
1813 - "date-sec": UTC date of the snapshot in seconds (json-int)
1814 - "date-nsec": fractional part in nanoseconds to be used with
1815 date-sec (json-int)
1816 - "vm-clock-sec": VM clock relative to boot in seconds
1817 (json-int)
1818 - "vm-clock-nsec": fractional part in nanoseconds to be used
1819 with vm-clock-sec (json-int)
1820 - "backing-image": the detail of the backing image, it is an
1821 optional json-object only present when a
1822 backing image present for this image
1824 - "io-status": I/O operation status, only present if the device supports it
1825 and the VM is configured to stop on errors. It's always reset
1826 to "ok" when the "cont" command is issued (json_string, optional)
1827 - Possible values: "ok", "failed", "nospace"
1829 Example:
1831 -> { "execute": "query-block" }
1832 <- {
1833 "return":[
1835 "io-status": "ok",
1836 "device":"ide0-hd0",
1837 "locked":false,
1838 "removable":false,
1839 "inserted":{
1840 "ro":false,
1841 "drv":"qcow2",
1842 "encrypted":false,
1843 "file":"disks/test.qcow2",
1844 "backing_file_depth":1,
1845 "bps":1000000,
1846 "bps_rd":0,
1847 "bps_wr":0,
1848 "iops":1000000,
1849 "iops_rd":0,
1850 "iops_wr":0,
1851 "bps_max": 8000000,
1852 "bps_rd_max": 0,
1853 "bps_wr_max": 0,
1854 "iops_max": 0,
1855 "iops_rd_max": 0,
1856 "iops_wr_max": 0,
1857 "iops_size": 0,
1858 "image":{
1859 "filename":"disks/test.qcow2",
1860 "format":"qcow2",
1861 "virtual-size":2048000,
1862 "backing_file":"base.qcow2",
1863 "full-backing-filename":"disks/base.qcow2",
1864 "backing-filename-format:"qcow2",
1865 "snapshots":[
1867 "id": "1",
1868 "name": "snapshot1",
1869 "vm-state-size": 0,
1870 "date-sec": 10000200,
1871 "date-nsec": 12,
1872 "vm-clock-sec": 206,
1873 "vm-clock-nsec": 30
1876 "backing-image":{
1877 "filename":"disks/base.qcow2",
1878 "format":"qcow2",
1879 "virtual-size":2048000
1883 "type":"unknown"
1886 "io-status": "ok",
1887 "device":"ide1-cd0",
1888 "locked":false,
1889 "removable":true,
1890 "type":"unknown"
1893 "device":"floppy0",
1894 "locked":false,
1895 "removable":true,
1896 "type":"unknown"
1899 "device":"sd0",
1900 "locked":false,
1901 "removable":true,
1902 "type":"unknown"
1907 EQMP
1910 .name = "query-block",
1911 .args_type = "",
1912 .mhandler.cmd_new = qmp_marshal_input_query_block,
1915 SQMP
1916 query-blockstats
1917 ----------------
1919 Show block device statistics.
1921 Each device statistic information is stored in a json-object and the returned
1922 value is a json-array of all devices.
1924 Each json-object contain the following:
1926 - "device": device name (json-string)
1927 - "stats": A json-object with the statistics information, it contains:
1928 - "rd_bytes": bytes read (json-int)
1929 - "wr_bytes": bytes written (json-int)
1930 - "rd_operations": read operations (json-int)
1931 - "wr_operations": write operations (json-int)
1932 - "flush_operations": cache flush operations (json-int)
1933 - "wr_total_time_ns": total time spend on writes in nano-seconds (json-int)
1934 - "rd_total_time_ns": total time spend on reads in nano-seconds (json-int)
1935 - "flush_total_time_ns": total time spend on cache flushes in nano-seconds (json-int)
1936 - "wr_highest_offset": Highest offset of a sector written since the
1937 BlockDriverState has been opened (json-int)
1938 - "parent": Contains recursively the statistics of the underlying
1939 protocol (e.g. the host file for a qcow2 image). If there is
1940 no underlying protocol, this field is omitted
1941 (json-object, optional)
1943 Example:
1945 -> { "execute": "query-blockstats" }
1946 <- {
1947 "return":[
1949 "device":"ide0-hd0",
1950 "parent":{
1951 "stats":{
1952 "wr_highest_offset":3686448128,
1953 "wr_bytes":9786368,
1954 "wr_operations":751,
1955 "rd_bytes":122567168,
1956 "rd_operations":36772
1957 "wr_total_times_ns":313253456
1958 "rd_total_times_ns":3465673657
1959 "flush_total_times_ns":49653
1960 "flush_operations":61,
1963 "stats":{
1964 "wr_highest_offset":2821110784,
1965 "wr_bytes":9786368,
1966 "wr_operations":692,
1967 "rd_bytes":122739200,
1968 "rd_operations":36604
1969 "flush_operations":51,
1970 "wr_total_times_ns":313253456
1971 "rd_total_times_ns":3465673657
1972 "flush_total_times_ns":49653
1976 "device":"ide1-cd0",
1977 "stats":{
1978 "wr_highest_offset":0,
1979 "wr_bytes":0,
1980 "wr_operations":0,
1981 "rd_bytes":0,
1982 "rd_operations":0
1983 "flush_operations":0,
1984 "wr_total_times_ns":0
1985 "rd_total_times_ns":0
1986 "flush_total_times_ns":0
1990 "device":"floppy0",
1991 "stats":{
1992 "wr_highest_offset":0,
1993 "wr_bytes":0,
1994 "wr_operations":0,
1995 "rd_bytes":0,
1996 "rd_operations":0
1997 "flush_operations":0,
1998 "wr_total_times_ns":0
1999 "rd_total_times_ns":0
2000 "flush_total_times_ns":0
2004 "device":"sd0",
2005 "stats":{
2006 "wr_highest_offset":0,
2007 "wr_bytes":0,
2008 "wr_operations":0,
2009 "rd_bytes":0,
2010 "rd_operations":0
2011 "flush_operations":0,
2012 "wr_total_times_ns":0
2013 "rd_total_times_ns":0
2014 "flush_total_times_ns":0
2020 EQMP
2023 .name = "query-blockstats",
2024 .args_type = "",
2025 .mhandler.cmd_new = qmp_marshal_input_query_blockstats,
2028 SQMP
2029 query-cpus
2030 ----------
2032 Show CPU information.
2034 Return a json-array. Each CPU is represented by a json-object, which contains:
2036 - "CPU": CPU index (json-int)
2037 - "current": true if this is the current CPU, false otherwise (json-bool)
2038 - "halted": true if the cpu is halted, false otherwise (json-bool)
2039 - Current program counter. The key's name depends on the architecture:
2040 "pc": i386/x86_64 (json-int)
2041 "nip": PPC (json-int)
2042 "pc" and "npc": sparc (json-int)
2043 "PC": mips (json-int)
2044 - "thread_id": ID of the underlying host thread (json-int)
2046 Example:
2048 -> { "execute": "query-cpus" }
2049 <- {
2050 "return":[
2052 "CPU":0,
2053 "current":true,
2054 "halted":false,
2055 "pc":3227107138
2056 "thread_id":3134
2059 "CPU":1,
2060 "current":false,
2061 "halted":true,
2062 "pc":7108165
2063 "thread_id":3135
2068 EQMP
2071 .name = "query-cpus",
2072 .args_type = "",
2073 .mhandler.cmd_new = qmp_marshal_input_query_cpus,
2076 SQMP
2077 query-pci
2078 ---------
2080 PCI buses and devices information.
2082 The returned value is a json-array of all buses. Each bus is represented by
2083 a json-object, which has a key with a json-array of all PCI devices attached
2084 to it. Each device is represented by a json-object.
2086 The bus json-object contains the following:
2088 - "bus": bus number (json-int)
2089 - "devices": a json-array of json-objects, each json-object represents a
2090 PCI device
2092 The PCI device json-object contains the following:
2094 - "bus": identical to the parent's bus number (json-int)
2095 - "slot": slot number (json-int)
2096 - "function": function number (json-int)
2097 - "class_info": a json-object containing:
2098 - "desc": device class description (json-string, optional)
2099 - "class": device class number (json-int)
2100 - "id": a json-object containing:
2101 - "device": device ID (json-int)
2102 - "vendor": vendor ID (json-int)
2103 - "irq": device's IRQ if assigned (json-int, optional)
2104 - "qdev_id": qdev id string (json-string)
2105 - "pci_bridge": It's a json-object, only present if this device is a
2106 PCI bridge, contains:
2107 - "bus": bus number (json-int)
2108 - "secondary": secondary bus number (json-int)
2109 - "subordinate": subordinate bus number (json-int)
2110 - "io_range": I/O memory range information, a json-object with the
2111 following members:
2112 - "base": base address, in bytes (json-int)
2113 - "limit": limit address, in bytes (json-int)
2114 - "memory_range": memory range information, a json-object with the
2115 following members:
2116 - "base": base address, in bytes (json-int)
2117 - "limit": limit address, in bytes (json-int)
2118 - "prefetchable_range": Prefetchable memory range information, a
2119 json-object with the following members:
2120 - "base": base address, in bytes (json-int)
2121 - "limit": limit address, in bytes (json-int)
2122 - "devices": a json-array of PCI devices if there's any attached, each
2123 each element is represented by a json-object, which contains
2124 the same members of the 'PCI device json-object' described
2125 above (optional)
2126 - "regions": a json-array of json-objects, each json-object represents a
2127 memory region of this device
2129 The memory range json-object contains the following:
2131 - "base": base memory address (json-int)
2132 - "limit": limit value (json-int)
2134 The region json-object can be an I/O region or a memory region, an I/O region
2135 json-object contains the following:
2137 - "type": "io" (json-string, fixed)
2138 - "bar": BAR number (json-int)
2139 - "address": memory address (json-int)
2140 - "size": memory size (json-int)
2142 A memory region json-object contains the following:
2144 - "type": "memory" (json-string, fixed)
2145 - "bar": BAR number (json-int)
2146 - "address": memory address (json-int)
2147 - "size": memory size (json-int)
2148 - "mem_type_64": true or false (json-bool)
2149 - "prefetch": true or false (json-bool)
2151 Example:
2153 -> { "execute": "query-pci" }
2154 <- {
2155 "return":[
2157 "bus":0,
2158 "devices":[
2160 "bus":0,
2161 "qdev_id":"",
2162 "slot":0,
2163 "class_info":{
2164 "class":1536,
2165 "desc":"Host bridge"
2167 "id":{
2168 "device":32902,
2169 "vendor":4663
2171 "function":0,
2172 "regions":[
2177 "bus":0,
2178 "qdev_id":"",
2179 "slot":1,
2180 "class_info":{
2181 "class":1537,
2182 "desc":"ISA bridge"
2184 "id":{
2185 "device":32902,
2186 "vendor":28672
2188 "function":0,
2189 "regions":[
2194 "bus":0,
2195 "qdev_id":"",
2196 "slot":1,
2197 "class_info":{
2198 "class":257,
2199 "desc":"IDE controller"
2201 "id":{
2202 "device":32902,
2203 "vendor":28688
2205 "function":1,
2206 "regions":[
2208 "bar":4,
2209 "size":16,
2210 "address":49152,
2211 "type":"io"
2216 "bus":0,
2217 "qdev_id":"",
2218 "slot":2,
2219 "class_info":{
2220 "class":768,
2221 "desc":"VGA controller"
2223 "id":{
2224 "device":4115,
2225 "vendor":184
2227 "function":0,
2228 "regions":[
2230 "prefetch":true,
2231 "mem_type_64":false,
2232 "bar":0,
2233 "size":33554432,
2234 "address":4026531840,
2235 "type":"memory"
2238 "prefetch":false,
2239 "mem_type_64":false,
2240 "bar":1,
2241 "size":4096,
2242 "address":4060086272,
2243 "type":"memory"
2246 "prefetch":false,
2247 "mem_type_64":false,
2248 "bar":6,
2249 "size":65536,
2250 "address":-1,
2251 "type":"memory"
2256 "bus":0,
2257 "qdev_id":"",
2258 "irq":11,
2259 "slot":4,
2260 "class_info":{
2261 "class":1280,
2262 "desc":"RAM controller"
2264 "id":{
2265 "device":6900,
2266 "vendor":4098
2268 "function":0,
2269 "regions":[
2271 "bar":0,
2272 "size":32,
2273 "address":49280,
2274 "type":"io"
2283 Note: This example has been shortened as the real response is too long.
2285 EQMP
2288 .name = "query-pci",
2289 .args_type = "",
2290 .mhandler.cmd_new = qmp_marshal_input_query_pci,
2293 SQMP
2294 query-kvm
2295 ---------
2297 Show KVM information.
2299 Return a json-object with the following information:
2301 - "enabled": true if KVM support is enabled, false otherwise (json-bool)
2302 - "present": true if QEMU has KVM support, false otherwise (json-bool)
2304 Example:
2306 -> { "execute": "query-kvm" }
2307 <- { "return": { "enabled": true, "present": true } }
2309 EQMP
2312 .name = "query-kvm",
2313 .args_type = "",
2314 .mhandler.cmd_new = qmp_marshal_input_query_kvm,
2317 SQMP
2318 query-status
2319 ------------
2321 Return a json-object with the following information:
2323 - "running": true if the VM is running, or false if it is paused (json-bool)
2324 - "singlestep": true if the VM is in single step mode,
2325 false otherwise (json-bool)
2326 - "status": one of the following values (json-string)
2327 "debug" - QEMU is running on a debugger
2328 "inmigrate" - guest is paused waiting for an incoming migration
2329 "internal-error" - An internal error that prevents further guest
2330 execution has occurred
2331 "io-error" - the last IOP has failed and the device is configured
2332 to pause on I/O errors
2333 "paused" - guest has been paused via the 'stop' command
2334 "postmigrate" - guest is paused following a successful 'migrate'
2335 "prelaunch" - QEMU was started with -S and guest has not started
2336 "finish-migrate" - guest is paused to finish the migration process
2337 "restore-vm" - guest is paused to restore VM state
2338 "running" - guest is actively running
2339 "save-vm" - guest is paused to save the VM state
2340 "shutdown" - guest is shut down (and -no-shutdown is in use)
2341 "watchdog" - the watchdog action is configured to pause and
2342 has been triggered
2344 Example:
2346 -> { "execute": "query-status" }
2347 <- { "return": { "running": true, "singlestep": false, "status": "running" } }
2349 EQMP
2352 .name = "query-status",
2353 .args_type = "",
2354 .mhandler.cmd_new = qmp_marshal_input_query_status,
2357 SQMP
2358 query-mice
2359 ----------
2361 Show VM mice information.
2363 Each mouse is represented by a json-object, the returned value is a json-array
2364 of all mice.
2366 The mouse json-object contains the following:
2368 - "name": mouse's name (json-string)
2369 - "index": mouse's index (json-int)
2370 - "current": true if this mouse is receiving events, false otherwise (json-bool)
2371 - "absolute": true if the mouse generates absolute input events (json-bool)
2373 Example:
2375 -> { "execute": "query-mice" }
2376 <- {
2377 "return":[
2379 "name":"QEMU Microsoft Mouse",
2380 "index":0,
2381 "current":false,
2382 "absolute":false
2385 "name":"QEMU PS/2 Mouse",
2386 "index":1,
2387 "current":true,
2388 "absolute":true
2393 EQMP
2396 .name = "query-mice",
2397 .args_type = "",
2398 .mhandler.cmd_new = qmp_marshal_input_query_mice,
2401 SQMP
2402 query-vnc
2403 ---------
2405 Show VNC server information.
2407 Return a json-object with server information. Connected clients are returned
2408 as a json-array of json-objects.
2410 The main json-object contains the following:
2412 - "enabled": true or false (json-bool)
2413 - "host": server's IP address (json-string)
2414 - "family": address family (json-string)
2415 - Possible values: "ipv4", "ipv6", "unix", "unknown"
2416 - "service": server's port number (json-string)
2417 - "auth": authentication method (json-string)
2418 - Possible values: "invalid", "none", "ra2", "ra2ne", "sasl", "tight",
2419 "tls", "ultra", "unknown", "vencrypt", "vencrypt",
2420 "vencrypt+plain", "vencrypt+tls+none",
2421 "vencrypt+tls+plain", "vencrypt+tls+sasl",
2422 "vencrypt+tls+vnc", "vencrypt+x509+none",
2423 "vencrypt+x509+plain", "vencrypt+x509+sasl",
2424 "vencrypt+x509+vnc", "vnc"
2425 - "clients": a json-array of all connected clients
2427 Clients are described by a json-object, each one contain the following:
2429 - "host": client's IP address (json-string)
2430 - "family": address family (json-string)
2431 - Possible values: "ipv4", "ipv6", "unix", "unknown"
2432 - "service": client's port number (json-string)
2433 - "x509_dname": TLS dname (json-string, optional)
2434 - "sasl_username": SASL username (json-string, optional)
2436 Example:
2438 -> { "execute": "query-vnc" }
2439 <- {
2440 "return":{
2441 "enabled":true,
2442 "host":"0.0.0.0",
2443 "service":"50402",
2444 "auth":"vnc",
2445 "family":"ipv4",
2446 "clients":[
2448 "host":"127.0.0.1",
2449 "service":"50401",
2450 "family":"ipv4"
2456 EQMP
2459 .name = "query-vnc",
2460 .args_type = "",
2461 .mhandler.cmd_new = qmp_marshal_input_query_vnc,
2464 SQMP
2465 query-spice
2466 -----------
2468 Show SPICE server information.
2470 Return a json-object with server information. Connected clients are returned
2471 as a json-array of json-objects.
2473 The main json-object contains the following:
2475 - "enabled": true or false (json-bool)
2476 - "host": server's IP address (json-string)
2477 - "port": server's port number (json-int, optional)
2478 - "tls-port": server's port number (json-int, optional)
2479 - "auth": authentication method (json-string)
2480 - Possible values: "none", "spice"
2481 - "channels": a json-array of all active channels clients
2483 Channels are described by a json-object, each one contain the following:
2485 - "host": client's IP address (json-string)
2486 - "family": address family (json-string)
2487 - Possible values: "ipv4", "ipv6", "unix", "unknown"
2488 - "port": client's port number (json-string)
2489 - "connection-id": spice connection id. All channels with the same id
2490 belong to the same spice session (json-int)
2491 - "channel-type": channel type. "1" is the main control channel, filter for
2492 this one if you want track spice sessions only (json-int)
2493 - "channel-id": channel id. Usually "0", might be different needed when
2494 multiple channels of the same type exist, such as multiple
2495 display channels in a multihead setup (json-int)
2496 - "tls": whevener the channel is encrypted (json-bool)
2498 Example:
2500 -> { "execute": "query-spice" }
2501 <- {
2502 "return": {
2503 "enabled": true,
2504 "auth": "spice",
2505 "port": 5920,
2506 "tls-port": 5921,
2507 "host": "0.0.0.0",
2508 "channels": [
2510 "port": "54924",
2511 "family": "ipv4",
2512 "channel-type": 1,
2513 "connection-id": 1804289383,
2514 "host": "127.0.0.1",
2515 "channel-id": 0,
2516 "tls": true
2519 "port": "36710",
2520 "family": "ipv4",
2521 "channel-type": 4,
2522 "connection-id": 1804289383,
2523 "host": "127.0.0.1",
2524 "channel-id": 0,
2525 "tls": false
2527 [ ... more channels follow ... ]
2532 EQMP
2534 #if defined(CONFIG_SPICE)
2536 .name = "query-spice",
2537 .args_type = "",
2538 .mhandler.cmd_new = qmp_marshal_input_query_spice,
2540 #endif
2542 SQMP
2543 query-name
2544 ----------
2546 Show VM name.
2548 Return a json-object with the following information:
2550 - "name": VM's name (json-string, optional)
2552 Example:
2554 -> { "execute": "query-name" }
2555 <- { "return": { "name": "qemu-name" } }
2557 EQMP
2560 .name = "query-name",
2561 .args_type = "",
2562 .mhandler.cmd_new = qmp_marshal_input_query_name,
2565 SQMP
2566 query-uuid
2567 ----------
2569 Show VM UUID.
2571 Return a json-object with the following information:
2573 - "UUID": Universally Unique Identifier (json-string)
2575 Example:
2577 -> { "execute": "query-uuid" }
2578 <- { "return": { "UUID": "550e8400-e29b-41d4-a716-446655440000" } }
2580 EQMP
2583 .name = "query-uuid",
2584 .args_type = "",
2585 .mhandler.cmd_new = qmp_marshal_input_query_uuid,
2588 SQMP
2589 query-command-line-options
2590 --------------------------
2592 Show command line option schema.
2594 Return a json-array of command line option schema for all options (or for
2595 the given option), returning an error if the given option doesn't exist.
2597 Each array entry contains the following:
2599 - "option": option name (json-string)
2600 - "parameters": a json-array describes all parameters of the option:
2601 - "name": parameter name (json-string)
2602 - "type": parameter type (one of 'string', 'boolean', 'number',
2603 or 'size')
2604 - "help": human readable description of the parameter
2605 (json-string, optional)
2607 Example:
2609 -> { "execute": "query-command-line-options", "arguments": { "option": "option-rom" } }
2610 <- { "return": [
2612 "parameters": [
2614 "name": "romfile",
2615 "type": "string"
2618 "name": "bootindex",
2619 "type": "number"
2622 "option": "option-rom"
2627 EQMP
2630 .name = "query-command-line-options",
2631 .args_type = "option:s?",
2632 .mhandler.cmd_new = qmp_marshal_input_query_command_line_options,
2635 SQMP
2636 query-migrate
2637 -------------
2639 Migration status.
2641 Return a json-object. If migration is active there will be another json-object
2642 with RAM migration status and if block migration is active another one with
2643 block migration status.
2645 The main json-object contains the following:
2647 - "status": migration status (json-string)
2648 - Possible values: "active", "completed", "failed", "cancelled"
2649 - "total-time": total amount of ms since migration started. If
2650 migration has ended, it returns the total migration
2651 time (json-int)
2652 - "setup-time" amount of setup time in milliseconds _before_ the
2653 iterations begin but _after_ the QMP command is issued.
2654 This is designed to provide an accounting of any activities
2655 (such as RDMA pinning) which may be expensive, but do not
2656 actually occur during the iterative migration rounds
2657 themselves. (json-int)
2658 - "downtime": only present when migration has finished correctly
2659 total amount in ms for downtime that happened (json-int)
2660 - "expected-downtime": only present while migration is active
2661 total amount in ms for downtime that was calculated on
2662 the last bitmap round (json-int)
2663 - "ram": only present if "status" is "active", it is a json-object with the
2664 following RAM information:
2665 - "transferred": amount transferred in bytes (json-int)
2666 - "remaining": amount remaining to transfer in bytes (json-int)
2667 - "total": total amount of memory in bytes (json-int)
2668 - "duplicate": number of pages filled entirely with the same
2669 byte (json-int)
2670 These are sent over the wire much more efficiently.
2671 - "skipped": number of skipped zero pages (json-int)
2672 - "normal" : number of whole pages transferred. I.e. they
2673 were not sent as duplicate or xbzrle pages (json-int)
2674 - "normal-bytes" : number of bytes transferred in whole
2675 pages. This is just normal pages times size of one page,
2676 but this way upper levels don't need to care about page
2677 size (json-int)
2678 - "disk": only present if "status" is "active" and it is a block migration,
2679 it is a json-object with the following disk information:
2680 - "transferred": amount transferred in bytes (json-int)
2681 - "remaining": amount remaining to transfer in bytes json-int)
2682 - "total": total disk size in bytes (json-int)
2683 - "xbzrle-cache": only present if XBZRLE is active.
2684 It is a json-object with the following XBZRLE information:
2685 - "cache-size": XBZRLE cache size in bytes
2686 - "bytes": number of bytes transferred for XBZRLE compressed pages
2687 - "pages": number of XBZRLE compressed pages
2688 - "cache-miss": number of XBRZRLE page cache misses
2689 - "overflow": number of times XBZRLE overflows. This means
2690 that the XBZRLE encoding was bigger than just sent the
2691 whole page, and then we sent the whole page instead (as as
2692 normal page).
2694 Examples:
2696 1. Before the first migration
2698 -> { "execute": "query-migrate" }
2699 <- { "return": {} }
2701 2. Migration is done and has succeeded
2703 -> { "execute": "query-migrate" }
2704 <- { "return": {
2705 "status": "completed",
2706 "ram":{
2707 "transferred":123,
2708 "remaining":123,
2709 "total":246,
2710 "total-time":12345,
2711 "setup-time":12345,
2712 "downtime":12345,
2713 "duplicate":123,
2714 "normal":123,
2715 "normal-bytes":123456
2720 3. Migration is done and has failed
2722 -> { "execute": "query-migrate" }
2723 <- { "return": { "status": "failed" } }
2725 4. Migration is being performed and is not a block migration:
2727 -> { "execute": "query-migrate" }
2728 <- {
2729 "return":{
2730 "status":"active",
2731 "ram":{
2732 "transferred":123,
2733 "remaining":123,
2734 "total":246,
2735 "total-time":12345,
2736 "setup-time":12345,
2737 "expected-downtime":12345,
2738 "duplicate":123,
2739 "normal":123,
2740 "normal-bytes":123456
2745 5. Migration is being performed and is a block migration:
2747 -> { "execute": "query-migrate" }
2748 <- {
2749 "return":{
2750 "status":"active",
2751 "ram":{
2752 "total":1057024,
2753 "remaining":1053304,
2754 "transferred":3720,
2755 "total-time":12345,
2756 "setup-time":12345,
2757 "expected-downtime":12345,
2758 "duplicate":123,
2759 "normal":123,
2760 "normal-bytes":123456
2762 "disk":{
2763 "total":20971520,
2764 "remaining":20880384,
2765 "transferred":91136
2770 6. Migration is being performed and XBZRLE is active:
2772 -> { "execute": "query-migrate" }
2773 <- {
2774 "return":{
2775 "status":"active",
2776 "capabilities" : [ { "capability": "xbzrle", "state" : true } ],
2777 "ram":{
2778 "total":1057024,
2779 "remaining":1053304,
2780 "transferred":3720,
2781 "total-time":12345,
2782 "setup-time":12345,
2783 "expected-downtime":12345,
2784 "duplicate":10,
2785 "normal":3333,
2786 "normal-bytes":3412992
2788 "xbzrle-cache":{
2789 "cache-size":67108864,
2790 "bytes":20971520,
2791 "pages":2444343,
2792 "cache-miss":2244,
2793 "overflow":34434
2798 EQMP
2801 .name = "query-migrate",
2802 .args_type = "",
2803 .mhandler.cmd_new = qmp_marshal_input_query_migrate,
2806 SQMP
2807 migrate-set-capabilities
2808 ------------------------
2810 Enable/Disable migration capabilities
2812 - "xbzrle": XBZRLE support
2814 Arguments:
2816 Example:
2818 -> { "execute": "migrate-set-capabilities" , "arguments":
2819 { "capabilities": [ { "capability": "xbzrle", "state": true } ] } }
2821 EQMP
2824 .name = "migrate-set-capabilities",
2825 .args_type = "capabilities:O",
2826 .params = "capability:s,state:b",
2827 .mhandler.cmd_new = qmp_marshal_input_migrate_set_capabilities,
2829 SQMP
2830 query-migrate-capabilities
2831 --------------------------
2833 Query current migration capabilities
2835 - "capabilities": migration capabilities state
2836 - "xbzrle" : XBZRLE state (json-bool)
2838 Arguments:
2840 Example:
2842 -> { "execute": "query-migrate-capabilities" }
2843 <- { "return": [ { "state": false, "capability": "xbzrle" } ] }
2845 EQMP
2848 .name = "query-migrate-capabilities",
2849 .args_type = "",
2850 .mhandler.cmd_new = qmp_marshal_input_query_migrate_capabilities,
2853 SQMP
2854 query-balloon
2855 -------------
2857 Show balloon information.
2859 Make an asynchronous request for balloon info. When the request completes a
2860 json-object will be returned containing the following data:
2862 - "actual": current balloon value in bytes (json-int)
2864 Example:
2866 -> { "execute": "query-balloon" }
2867 <- {
2868 "return":{
2869 "actual":1073741824,
2873 EQMP
2876 .name = "query-balloon",
2877 .args_type = "",
2878 .mhandler.cmd_new = qmp_marshal_input_query_balloon,
2882 .name = "query-block-jobs",
2883 .args_type = "",
2884 .mhandler.cmd_new = qmp_marshal_input_query_block_jobs,
2888 .name = "qom-list",
2889 .args_type = "path:s",
2890 .mhandler.cmd_new = qmp_marshal_input_qom_list,
2894 .name = "qom-set",
2895 .args_type = "path:s,property:s,value:q",
2896 .mhandler.cmd_new = qmp_qom_set,
2900 .name = "qom-get",
2901 .args_type = "path:s,property:s",
2902 .mhandler.cmd_new = qmp_qom_get,
2906 .name = "nbd-server-start",
2907 .args_type = "addr:q",
2908 .mhandler.cmd_new = qmp_marshal_input_nbd_server_start,
2911 .name = "nbd-server-add",
2912 .args_type = "device:B,writable:b?",
2913 .mhandler.cmd_new = qmp_marshal_input_nbd_server_add,
2916 .name = "nbd-server-stop",
2917 .args_type = "",
2918 .mhandler.cmd_new = qmp_marshal_input_nbd_server_stop,
2922 .name = "change-vnc-password",
2923 .args_type = "password:s",
2924 .mhandler.cmd_new = qmp_marshal_input_change_vnc_password,
2927 .name = "qom-list-types",
2928 .args_type = "implements:s?,abstract:b?",
2929 .mhandler.cmd_new = qmp_marshal_input_qom_list_types,
2933 .name = "device-list-properties",
2934 .args_type = "typename:s",
2935 .mhandler.cmd_new = qmp_marshal_input_device_list_properties,
2939 .name = "query-machines",
2940 .args_type = "",
2941 .mhandler.cmd_new = qmp_marshal_input_query_machines,
2945 .name = "query-cpu-definitions",
2946 .args_type = "",
2947 .mhandler.cmd_new = qmp_marshal_input_query_cpu_definitions,
2951 .name = "query-target",
2952 .args_type = "",
2953 .mhandler.cmd_new = qmp_marshal_input_query_target,
2957 .name = "query-tpm",
2958 .args_type = "",
2959 .mhandler.cmd_new = qmp_marshal_input_query_tpm,
2962 SQMP
2963 query-tpm
2964 ---------
2966 Return information about the TPM device.
2968 Arguments: None
2970 Example:
2972 -> { "execute": "query-tpm" }
2973 <- { "return":
2975 { "model": "tpm-tis",
2976 "options":
2977 { "type": "passthrough",
2978 "data":
2979 { "cancel-path": "/sys/class/misc/tpm0/device/cancel",
2980 "path": "/dev/tpm0"
2983 "id": "tpm0"
2988 EQMP
2991 .name = "query-tpm-models",
2992 .args_type = "",
2993 .mhandler.cmd_new = qmp_marshal_input_query_tpm_models,
2996 SQMP
2997 query-tpm-models
2998 ----------------
3000 Return a list of supported TPM models.
3002 Arguments: None
3004 Example:
3006 -> { "execute": "query-tpm-models" }
3007 <- { "return": [ "tpm-tis" ] }
3009 EQMP
3012 .name = "query-tpm-types",
3013 .args_type = "",
3014 .mhandler.cmd_new = qmp_marshal_input_query_tpm_types,
3017 SQMP
3018 query-tpm-types
3019 ---------------
3021 Return a list of supported TPM types.
3023 Arguments: None
3025 Example:
3027 -> { "execute": "query-tpm-types" }
3028 <- { "return": [ "passthrough" ] }
3030 EQMP
3033 .name = "chardev-add",
3034 .args_type = "id:s,backend:q",
3035 .mhandler.cmd_new = qmp_marshal_input_chardev_add,
3038 SQMP
3039 chardev-add
3040 ----------------
3042 Add a chardev.
3044 Arguments:
3046 - "id": the chardev's ID, must be unique (json-string)
3047 - "backend": chardev backend type + parameters
3049 Examples:
3051 -> { "execute" : "chardev-add",
3052 "arguments" : { "id" : "foo",
3053 "backend" : { "type" : "null", "data" : {} } } }
3054 <- { "return": {} }
3056 -> { "execute" : "chardev-add",
3057 "arguments" : { "id" : "bar",
3058 "backend" : { "type" : "file",
3059 "data" : { "out" : "/tmp/bar.log" } } } }
3060 <- { "return": {} }
3062 -> { "execute" : "chardev-add",
3063 "arguments" : { "id" : "baz",
3064 "backend" : { "type" : "pty", "data" : {} } } }
3065 <- { "return": { "pty" : "/dev/pty/42" } }
3067 EQMP
3070 .name = "chardev-remove",
3071 .args_type = "id:s",
3072 .mhandler.cmd_new = qmp_marshal_input_chardev_remove,
3076 SQMP
3077 chardev-remove
3078 --------------
3080 Remove a chardev.
3082 Arguments:
3084 - "id": the chardev's ID, must exist and not be in use (json-string)
3086 Example:
3088 -> { "execute": "chardev-remove", "arguments": { "id" : "foo" } }
3089 <- { "return": {} }
3091 EQMP
3093 .name = "query-rx-filter",
3094 .args_type = "name:s?",
3095 .mhandler.cmd_new = qmp_marshal_input_query_rx_filter,
3098 SQMP
3099 query-rx-filter
3100 ---------------
3102 Show rx-filter information.
3104 Returns a json-array of rx-filter information for all NICs (or for the
3105 given NIC), returning an error if the given NIC doesn't exist, or
3106 given NIC doesn't support rx-filter querying, or given net client
3107 isn't a NIC.
3109 The query will clear the event notification flag of each NIC, then qemu
3110 will start to emit event to QMP monitor.
3112 Each array entry contains the following:
3114 - "name": net client name (json-string)
3115 - "promiscuous": promiscuous mode is enabled (json-bool)
3116 - "multicast": multicast receive state (one of 'normal', 'none', 'all')
3117 - "unicast": unicast receive state (one of 'normal', 'none', 'all')
3118 - "broadcast-allowed": allow to receive broadcast (json-bool)
3119 - "multicast-overflow": multicast table is overflowed (json-bool)
3120 - "unicast-overflow": unicast table is overflowed (json-bool)
3121 - "main-mac": main macaddr string (json-string)
3122 - "vlan-table": a json-array of active vlan id
3123 - "unicast-table": a json-array of unicast macaddr string
3124 - "multicast-table": a json-array of multicast macaddr string
3126 Example:
3128 -> { "execute": "query-rx-filter", "arguments": { "name": "vnet0" } }
3129 <- { "return": [
3131 "promiscuous": true,
3132 "name": "vnet0",
3133 "main-mac": "52:54:00:12:34:56",
3134 "unicast": "normal",
3135 "vlan-table": [
3139 "unicast-table": [
3141 "multicast": "normal",
3142 "multicast-overflow": false,
3143 "unicast-overflow": false,
3144 "multicast-table": [
3145 "01:00:5e:00:00:01",
3146 "33:33:00:00:00:01",
3147 "33:33:ff:12:34:56"
3149 "broadcast-allowed": false
3154 EQMP