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HXCOMM QMP dispatch table and documentation

HXCOMM Text between SQMP and EQMP is copied to the QMP documention file and

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SQMP

                        QMP Supported Commands

                        ----------------------

This document describes all commands currently supported by QMP.

Most of the time their usage is exactly the same as in the user Monitor, this

means that any other document which also describe commands (the manpage,

QEMU's manual, etc) can and should be consulted.

QMP has two types of commands: regular and query commands. Regular commands

usually change the Virtual Machine's state someway, while query commands just

return information. The sections below are divided accordingly.

It's important to observe that all communication examples are formatted in

a reader-friendly way, so that they're easier to understand. However, in real

protocol usage, they're emitted as a single line.

Also, the following notation is used to denote data flow:

-> data issued by the Client

<- Server data response

Please, refer to the QMP specification (QMP/qmp-spec.txt) for detailed

information on the Server command and response formats.

NOTE: This document is temporary and will be replaced soon.

1. Stability Considerations

===========================

The current QMP command set (described in this file) may be useful for a

number of use cases, however it's limited and several commands have bad

defined semantics, specially with regard to command completion.

These problems are going to be solved incrementally in the next QEMU releases

and we're going to establish a deprecation policy for badly defined commands.

If you're planning to adopt QMP, please observe the following:

    1. The deprecation policy will take effect and be documented soon, please

       check the documentation of each used command as soon as a new release of

       QEMU is available

    2. DO NOT rely on anything which is not explicit documented

    3. Errors, in special, are not documented. Applications should NOT check

       for specific errors classes or data (it's strongly recommended to only

       check for the "error" key)

2. Regular Commands

===================

Server's responses in the examples below are always a success response, please

refer to the QMP specification for more details on error responses.

EQMP

    {

        .name       = "quit",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_quit,

    },

SQMP

quit

----

Quit the emulator.

Arguments: None.

Example:

-> { "execute": "quit" }

<- { "return": {} }

EQMP

    {

        .name       = "eject",

        .args_type  = "force:-f,device:B",

        .mhandler.cmd_new = qmp_marshal_input_eject,

    },

SQMP

eject

-----

Eject a removable medium.

Arguments: 

- force: force ejection (json-bool, optional)

- device: device name (json-string)

Example:

-> { "execute": "eject", "arguments": { "device": "ide1-cd0" } }

<- { "return": {} }

Note: The "force" argument defaults to false.

EQMP

    {

        .name       = "change",

        .args_type  = "device:B,target:F,arg:s?",

        .mhandler.cmd_new = qmp_marshal_input_change,

    },

SQMP

change

------

Change a removable medium or VNC configuration.

Arguments:

- "device": device name (json-string)

- "target": filename or item (json-string)

- "arg": additional argument (json-string, optional)

Examples:

1. Change a removable medium

-> { "execute": "change",

             "arguments": { "device": "ide1-cd0",

                            "target": "/srv/images/Fedora-12-x86_64-DVD.iso" } }

<- { "return": {} }

2. Change VNC password

-> { "execute": "change",

             "arguments": { "device": "vnc", "target": "password",

                            "arg": "foobar1" } }

<- { "return": {} }

EQMP

    {

        .name       = "screendump",

        .args_type  = "filename:F",

        .params     = "filename",

        .help       = "save screen into PPM image 'filename'",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_screen_dump,

    },

SQMP

screendump

----------

Save screen into PPM image.

Arguments:

- "filename": file path (json-string)

Example:

-> { "execute": "screendump", "arguments": { "filename": "/tmp/image" } }

<- { "return": {} }

EQMP

    {

        .name       = "stop",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_stop,

    },

SQMP

stop

----

Stop the emulator.

Arguments: None.

Example:

-> { "execute": "stop" }

<- { "return": {} }

EQMP

    {

        .name       = "cont",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_cont,

    },

SQMP

cont

----

Resume emulation.

Arguments: None.

Example:

-> { "execute": "cont" }

<- { "return": {} }

EQMP

    {

        .name       = "system_wakeup",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_system_wakeup,

    },

SQMP

system_wakeup

-------------

Wakeup guest from suspend.

Arguments: None.

Example:

-> { "execute": "system_wakeup" }

<- { "return": {} }

EQMP

    {

        .name       = "system_reset",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_system_reset,

    },

SQMP

system_reset

------------

Reset the system.

Arguments: None.

Example:

-> { "execute": "system_reset" }

<- { "return": {} }

EQMP

    {

        .name       = "system_powerdown",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_system_powerdown,

    },

SQMP

system_powerdown

----------------

Send system power down event.

Arguments: None.

Example:

-> { "execute": "system_powerdown" }

<- { "return": {} }

EQMP

    {

        .name       = "device_add",

        .args_type  = "device:O",

        .params     = "driver[,prop=value][,...]",

        .help       = "add device, like -device on the command line",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_device_add,

    },

SQMP

device_add

----------

Add a device.

Arguments:

- "driver": the name of the new device's driver (json-string)

- "bus": the device's parent bus (device tree path, json-string, optional)

- "id": the device's ID, must be unique (json-string)

- device properties

Example:

-> { "execute": "device_add", "arguments": { "driver": "e1000", "id": "net1" } }

<- { "return": {} }

Notes:

(1) For detailed information about this command, please refer to the

    'docs/qdev-device-use.txt' file.

(2) It's possible to list device properties by running QEMU with the

    "-device DEVICE,\?" command-line argument, where DEVICE is the device's name

EQMP

    {

        .name       = "device_del",

        .args_type  = "id:s",

        .mhandler.cmd_new = qmp_marshal_input_device_del,

    },

SQMP

device_del

----------

Remove a device.

Arguments:

- "id": the device's ID (json-string)

Example:

-> { "execute": "device_del", "arguments": { "id": "net1" } }

<- { "return": {} }

EQMP

    {

        .name       = "cpu",

        .args_type  = "index:i",

        .mhandler.cmd_new = qmp_marshal_input_cpu,

    },

SQMP

cpu

---

Set the default CPU.

Arguments:

- "index": the CPU's index (json-int)

Example:

-> { "execute": "cpu", "arguments": { "index": 0 } }

<- { "return": {} }

Note: CPUs' indexes are obtained with the 'query-cpus' command.

EQMP

    {

        .name       = "memsave",

        .args_type  = "val:l,size:i,filename:s,cpu:i?",

        .mhandler.cmd_new = qmp_marshal_input_memsave,

    },

SQMP

memsave

-------

Save to disk virtual memory dump starting at 'val' of size 'size'.

Arguments:

- "val": the starting address (json-int)

- "size": the memory size, in bytes (json-int)

- "filename": file path (json-string)

- "cpu": virtual CPU index (json-int, optional)

Example:

-> { "execute": "memsave",

             "arguments": { "val": 10,

                            "size": 100,

                            "filename": "/tmp/virtual-mem-dump" } }

<- { "return": {} }

EQMP

    {

        .name       = "pmemsave",

        .args_type  = "val:l,size:i,filename:s",

        .mhandler.cmd_new = qmp_marshal_input_pmemsave,

    },

SQMP

pmemsave

--------

Save to disk physical memory dump starting at 'val' of size 'size'.

Arguments:

- "val": the starting address (json-int)

- "size": the memory size, in bytes (json-int)

- "filename": file path (json-string)

Example:

-> { "execute": "pmemsave",

             "arguments": { "val": 10,

                            "size": 100,

                            "filename": "/tmp/physical-mem-dump" } }

<- { "return": {} }

EQMP

    {

        .name       = "inject-nmi",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_inject_nmi,

    },

SQMP

inject-nmi

----------

Inject an NMI on guest's CPUs.

Arguments: None.

Example:

-> { "execute": "inject-nmi" }

<- { "return": {} }

Note: inject-nmi is only supported for x86 guest currently, it will

      returns "Unsupported" error for non-x86 guest.

EQMP

    {

        .name       = "xen-save-devices-state",

        .args_type  = "filename:F",

    .mhandler.cmd_new = qmp_marshal_input_xen_save_devices_state,

    },

SQMP

xen-save-devices-state

-------

Save the state of all devices to file. The RAM and the block devices

of the VM are not saved by this command.

Arguments:

- "filename": the file to save the state of the devices to as binary

data. See xen-save-devices-state.txt for a description of the binary

format.

Example:

-> { "execute": "xen-save-devices-state",

     "arguments": { "filename": "/tmp/save" } }

<- { "return": {} }

EQMP

    {

        .name       = "migrate",

        .args_type  = "detach:-d,blk:-b,inc:-i,uri:s",

        .mhandler.cmd_new = qmp_marshal_input_migrate,

    },

SQMP

migrate

-------

Migrate to URI.

Arguments:

- "blk": block migration, full disk copy (json-bool, optional)

- "inc": incremental disk copy (json-bool, optional)

- "uri": Destination URI (json-string)

Example:

-> { "execute": "migrate", "arguments": { "uri": "tcp:0:4446" } }

<- { "return": {} }

Notes:

(1) The 'query-migrate' command should be used to check migration's progress

    and final result (this information is provided by the 'status' member)

(2) All boolean arguments default to false

(3) The user Monitor's "detach" argument is invalid in QMP and should not

    be used

EQMP

    {

        .name       = "migrate_cancel",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_migrate_cancel,

    },

SQMP

migrate_cancel

--------------

Cancel the current migration.

Arguments: None.

Example:

-> { "execute": "migrate_cancel" }

<- { "return": {} }

EQMP

    {

        .name       = "migrate_set_speed",

        .args_type  = "value:o",

        .mhandler.cmd_new = qmp_marshal_input_migrate_set_speed,

    },

SQMP

migrate_set_speed

-----------------

Set maximum speed for migrations.

Arguments:

- "value": maximum speed, in bytes per second (json-int)

Example:

-> { "execute": "migrate_set_speed", "arguments": { "value": 1024 } }

<- { "return": {} }

EQMP

    {

        .name       = "migrate_set_downtime",

        .args_type  = "value:T",

        .mhandler.cmd_new = qmp_marshal_input_migrate_set_downtime,

    },

SQMP

migrate_set_downtime

--------------------

Set maximum tolerated downtime (in seconds) for migrations.

Arguments:

- "value": maximum downtime (json-number)

Example:

-> { "execute": "migrate_set_downtime", "arguments": { "value": 0.1 } }

<- { "return": {} }

EQMP

    {

        .name       = "client_migrate_info",

        .args_type  = "protocol:s,hostname:s,port:i?,tls-port:i?,cert-subject:s?",

        .params     = "protocol hostname port tls-port cert-subject",

        .help       = "send migration info to spice/vnc client",

        .user_print = monitor_user_noop,

        .mhandler.cmd_async = client_migrate_info,

        .flags      = MONITOR_CMD_ASYNC,

    },

SQMP

client_migrate_info

------------------

Set the spice/vnc connection info for the migration target.  The spice/vnc

server will ask the spice/vnc client to automatically reconnect using the

new parameters (if specified) once the vm migration finished successfully.

Arguments:

- "protocol":     protocol: "spice" or "vnc" (json-string)

- "hostname":     migration target hostname (json-string)

- "port":         spice/vnc tcp port for plaintext channels (json-int, optional)

- "tls-port":     spice tcp port for tls-secured channels (json-int, optional)

- "cert-subject": server certificate subject (json-string, optional)

Example:

-> { "execute": "client_migrate_info",

     "arguments": { "protocol": "spice",

                    "hostname": "virt42.lab.kraxel.org",

                    "port": 1234 } }

<- { "return": {} }

EQMP

    {

        .name       = "dump-guest-memory",

        .args_type  = "paging:b,protocol:s,begin:i?,end:i?",

        .params     = "-p protocol [begin] [length]",

        .help       = "dump guest memory to file",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = qmp_marshal_input_dump_guest_memory,

    },

SQMP

dump

Dump guest memory to file. The file can be processed with crash or gdb.

Arguments:

- "paging": do paging to get guest's memory mapping (json-bool)

- "protocol": destination file(started with "file:") or destination file

              descriptor (started with "fd:") (json-string)

- "begin": the starting physical address. It's optional, and should be specified

           with length together (json-int)

- "length": the memory size, in bytes. It's optional, and should be specified

            with begin together (json-int)

Example:

-> { "execute": "dump-guest-memory", "arguments": { "protocol": "fd:dump" } }

<- { "return": {} }

Notes:

(1) All boolean arguments default to false

EQMP

    {

        .name       = "netdev_add",

        .args_type  = "netdev:O",

        .params     = "[user|tap|socket],id=str[,prop=value][,...]",

        .help       = "add host network device",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_netdev_add,

    },

SQMP

netdev_add

----------

Add host network device.

Arguments:

- "type": the device type, "tap", "user", ... (json-string)

- "id": the device's ID, must be unique (json-string)

- device options

Example:

-> { "execute": "netdev_add", "arguments": { "type": "user", "id": "netdev1" } }

<- { "return": {} }

Note: The supported device options are the same ones supported by the '-net'

      command-line argument, which are listed in the '-help' output or QEMU's

      manual

EQMP

    {

        .name       = "netdev_del",

        .args_type  = "id:s",

        .params     = "id",

        .help       = "remove host network device",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_netdev_del,

    },

SQMP

netdev_del

----------

Remove host network device.

Arguments:

- "id": the device's ID, must be unique (json-string)

Example:

-> { "execute": "netdev_del", "arguments": { "id": "netdev1" } }

<- { "return": {} }

EQMP

    {

        .name       = "block_resize",

        .args_type  = "device:B,size:o",

        .mhandler.cmd_new = qmp_marshal_input_block_resize,

    },

SQMP

block_resize

------------

Resize a block image while a guest is running.

Arguments:

- "device": the device's ID, must be unique (json-string)

- "size": new size

Example:

-> { "execute": "block_resize", "arguments": { "device": "scratch", "size": 1073741824 } }

<- { "return": {} }

EQMP

    {

        .name       = "block-stream",

        .args_type  = "device:B,base:s?,speed:o?",

        .mhandler.cmd_new = qmp_marshal_input_block_stream,

    },

    {

        .name       = "block-job-set-speed",

        .args_type  = "device:B,speed:o",

        .mhandler.cmd_new = qmp_marshal_input_block_job_set_speed,

    },

    {

        .name       = "block-job-cancel",

        .args_type  = "device:B",

        .mhandler.cmd_new = qmp_marshal_input_block_job_cancel,

    },

    {

        .name       = "transaction",

        .args_type  = "actions:q",

        .mhandler.cmd_new = qmp_marshal_input_transaction,

    },

SQMP

transaction

-----------

Atomically operate on one or more block devices.  The only supported

operation for now is snapshotting.  If there is any failure performing

any of the operations, all snapshots for the group are abandoned, and

the original disks pre-snapshot attempt are used.

A list of dictionaries is accepted, that contains the actions to be performed.

For snapshots this is the device, the file to use for the new snapshot,

and the format.  The default format, if not specified, is qcow2.

Each new snapshot defaults to being created by QEMU (wiping any

contents if the file already exists), but it is also possible to reuse

an externally-created file.  In the latter case, you should ensure that

the new image file has the same contents as the current one; QEMU cannot

perform any meaningful check.  Typically this is achieved by using the

current image file as the backing file for the new image.

Arguments:

actions array:

    - "type": the operation to perform.  The only supported

      value is "blockdev-snapshot-sync". (json-string)

    - "data": a dictionary.  The contents depend on the value

      of "type".  When "type" is "blockdev-snapshot-sync":

      - "device": device name to snapshot (json-string)

      - "snapshot-file": name of new image file (json-string)

      - "format": format of new image (json-string, optional)

      - "mode": whether and how QEMU should create the snapshot file

        (NewImageMode, optional, default "absolute-paths")

Example:

-> { "execute": "transaction",

     "arguments": { "actions": [

         { 'type': 'blockdev-snapshot-sync', 'data' : { "device": "ide-hd0",

                                         "snapshot-file": "/some/place/my-image",

                                         "format": "qcow2" } },

         { 'type': 'blockdev-snapshot-sync', 'data' : { "device": "ide-hd1",

                                         "snapshot-file": "/some/place/my-image2",

                                         "mode": "existing",

                                         "format": "qcow2" } } ] } }

<- { "return": {} }

EQMP

    {

        .name       = "blockdev-snapshot-sync",

        .args_type  = "device:B,snapshot-file:s,format:s?,mode:s?",

        .mhandler.cmd_new = qmp_marshal_input_blockdev_snapshot_sync,

    },

SQMP

blockdev-snapshot-sync

----------------------

Synchronous snapshot of a block device. snapshot-file specifies the

target of the new image. If the file exists, or if it is a device, the

snapshot will be created in the existing file/device. If does not

exist, a new file will be created. format specifies the format of the

snapshot image, default is qcow2.

Arguments:

- "device": device name to snapshot (json-string)

- "snapshot-file": name of new image file (json-string)

- "mode": whether and how QEMU should create the snapshot file

  (NewImageMode, optional, default "absolute-paths")

- "format": format of new image (json-string, optional)

Example:

-> { "execute": "blockdev-snapshot-sync", "arguments": { "device": "ide-hd0",

                                                         "snapshot-file":

                                                        "/some/place/my-image",

                                                        "format": "qcow2" } }

<- { "return": {} }

EQMP

    {

        .name       = "balloon",

        .args_type  = "value:M",

        .mhandler.cmd_new = qmp_marshal_input_balloon,

    },

SQMP

balloon

-------

Request VM to change its memory allocation (in bytes).

Arguments:

- "value": New memory allocation (json-int)

Example:

-> { "execute": "balloon", "arguments": { "value": 536870912 } }

<- { "return": {} }

EQMP

    {

        .name       = "set_link",

        .args_type  = "name:s,up:b",

        .mhandler.cmd_new = qmp_marshal_input_set_link,

    },

SQMP

set_link

--------

Change the link status of a network adapter.

Arguments:

- "name": network device name (json-string)

- "up": status is up (json-bool)

Example:

-> { "execute": "set_link", "arguments": { "name": "e1000.0", "up": false } }

<- { "return": {} }

EQMP

    {

        .name       = "getfd",

        .args_type  = "fdname:s",

        .params     = "getfd name",

        .help       = "receive a file descriptor via SCM rights and assign it a name",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_getfd,

    },

SQMP

getfd

-----

Receive a file descriptor via SCM rights and assign it a name.

Arguments:

- "fdname": file descriptor name (json-string)

Example:

-> { "execute": "getfd", "arguments": { "fdname": "fd1" } }

<- { "return": {} }

EQMP

    {

        .name       = "closefd",

        .args_type  = "fdname:s",

        .params     = "closefd name",

        .help       = "close a file descriptor previously passed via SCM rights",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_closefd,

    },

SQMP

closefd

-------

Close a file descriptor previously passed via SCM rights.

Arguments:

- "fdname": file descriptor name (json-string)

Example:

-> { "execute": "closefd", "arguments": { "fdname": "fd1" } }

<- { "return": {} }

EQMP

    {

        .name       = "block_passwd",

        .args_type  = "device:B,password:s",

        .mhandler.cmd_new = qmp_marshal_input_block_passwd,

    },

SQMP

block_passwd

------------

Set the password of encrypted block devices.

Arguments:

- "device": device name (json-string)

- "password": password (json-string)

Example:

-> { "execute": "block_passwd", "arguments": { "device": "ide0-hd0",

                                               "password": "12345" } }

<- { "return": {} }

EQMP

    {

        .name       = "block_set_io_throttle",

        .args_type  = "device:B,bps:l,bps_rd:l,bps_wr:l,iops:l,iops_rd:l,iops_wr:l",

        .mhandler.cmd_new = qmp_marshal_input_block_set_io_throttle,

    },

SQMP

block_set_io_throttle

------------

Change I/O throttle limits for a block drive.

Arguments:

- "device": device name (json-string)

- "bps":  total throughput limit in bytes per second(json-int)

- "bps_rd":  read throughput limit in bytes per second(json-int)

- "bps_wr":  read throughput limit in bytes per second(json-int)

- "iops":  total I/O operations per second(json-int)

- "iops_rd":  read I/O operations per second(json-int)

- "iops_wr":  write I/O operations per second(json-int)

Example:

-> { "execute": "block_set_io_throttle", "arguments": { "device": "virtio0",

                                               "bps": "1000000",

                                               "bps_rd": "0",

                                               "bps_wr": "0",

                                               "iops": "0",

                                               "iops_rd": "0",

                                               "iops_wr": "0" } }

<- { "return": {} }

EQMP

    {

        .name       = "set_password",

        .args_type  = "protocol:s,password:s,connected:s?",

        .mhandler.cmd_new = qmp_marshal_input_set_password,

    },

SQMP

set_password

------------

Set the password for vnc/spice protocols.

Arguments:

- "protocol": protocol name (json-string)

- "password": password (json-string)

- "connected": [ keep | disconnect | fail ] (josn-string, optional)

Example:

-> { "execute": "set_password", "arguments": { "protocol": "vnc",

                                               "password": "secret" } }

<- { "return": {} }

EQMP

    {

        .name       = "expire_password",

        .args_type  = "protocol:s,time:s",

        .mhandler.cmd_new = qmp_marshal_input_expire_password,

    },

SQMP

expire_password

---------------

Set the password expire time for vnc/spice protocols.

Arguments:

- "protocol": protocol name (json-string)

- "time": [ now | never | +secs | secs ] (json-string)

Example:

-> { "execute": "expire_password", "arguments": { "protocol": "vnc",

                                                  "time": "+60" } }

<- { "return": {} }

EQMP

    {

        .name       = "add_client",

        .args_type  = "protocol:s,fdname:s,skipauth:b?,tls:b?",

        .params     = "protocol fdname skipauth tls",

        .help       = "add a graphics client",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = add_graphics_client,

    },

SQMP

add_client

----------

Add a graphics client

Arguments:

- "protocol": protocol name (json-string)

- "fdname": file descriptor name (json-string)

- "skipauth": whether to skip authentication (json-bool, optional)

- "tls": whether to perform TLS (json-bool, optional)

Example:

-> { "execute": "add_client", "arguments": { "protocol": "vnc",

                                             "fdname": "myclient" } }

<- { "return": {} }

EQMP

    {

        .name       = "qmp_capabilities",

        .args_type  = "",

        .params     = "",

        .help       = "enable QMP capabilities",

        .user_print = monitor_user_noop,

        .mhandler.cmd_new = do_qmp_capabilities,

    },

SQMP

qmp_capabilities

----------------

Enable QMP capabilities.

Arguments: None.

Example:

-> { "execute": "qmp_capabilities" }

<- { "return": {} }

Note: This command must be issued before issuing any other command.

EQMP

    {

        .name       = "human-monitor-command",

        .args_type  = "command-line:s,cpu-index:i?",

        .mhandler.cmd_new = qmp_marshal_input_human_monitor_command,

    },

SQMP

human-monitor-command

---------------------

Execute a Human Monitor command.

Arguments: 

- command-line: the command name and its arguments, just like the

                Human Monitor's shell (json-string)

- cpu-index: select the CPU number to be used by commands which access CPU

             data, like 'info registers'. The Monitor selects CPU 0 if this

             argument is not provided (json-int, optional)

Example:

-> { "execute": "human-monitor-command", "arguments": { "command-line": "info kvm" } }

<- { "return": "kvm support: enabled\r\n" }

Notes:

(1) The Human Monitor is NOT an stable interface, this means that command

    names, arguments and responses can change or be removed at ANY time.

    Applications that rely on long term stability guarantees should NOT

    use this command

(2) Limitations:

    o This command is stateless, this means that commands that depend

      on state information (such as getfd) might not work

    o Commands that prompt the user for data (eg. 'cont' when the block

      device is encrypted) don't currently work

3. Query Commands

=================

HXCOMM Each query command below is inside a SQMP/EQMP section, do NOT change

HXCOMM this! We will possibly move query commands definitions inside those

HXCOMM sections, just like regular commands.

EQMP

SQMP

query-version

-------------

Show QEMU version.

Return a json-object with the following information:

- "qemu": A json-object containing three integer values:

    - "major": QEMU's major version (json-int)

    - "minor": QEMU's minor version (json-int)

    - "micro": QEMU's micro version (json-int)

- "package": package's version (json-string)

Example:

-> { "execute": "query-version" }

<- {

      "return":{

         "qemu":{

            "major":0,

            "minor":11,

            "micro":5

         },

         "package":""

      }

   }

EQMP

    {

        .name       = "query-version",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_version,

    },

SQMP

query-commands

--------------

List QMP available commands.

Each command is represented by a json-object, the returned value is a json-array

of all commands.

Each json-object contain:

- "name": command's name (json-string)

Example:

-> { "execute": "query-commands" }

<- {

      "return":[

         {

            "name":"query-balloon"

         },

         {

            "name":"system_powerdown"

         }

      ]

   }

Note: This example has been shortened as the real response is too long.

EQMP

    {

        .name       = "query-commands",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_commands,

    },

SQMP

query-chardev

-------------

Each device is represented by a json-object. The returned value is a json-array

of all devices.

Each json-object contain the following:

- "label": device's label (json-string)

- "filename": device's file (json-string)

Example:

-> { "execute": "query-chardev" }

<- {

      "return":[

         {

            "label":"monitor",

            "filename":"stdio"

         },

         {

            "label":"serial0",

            "filename":"vc"

         }

      ]

   }

EQMP

    {

        .name       = "query-chardev",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_chardev,

    },

SQMP

query-block

-----------

Show the block devices.

Each block device information is stored in a json-object and the returned value

is a json-array of all devices.

Each json-object contain the following:

- "device": device name (json-string)

- "type": device type (json-string)

         - deprecated, retained for backward compatibility

         - Possible values: "unknown"

- "removable": true if the device is removable, false otherwise (json-bool)

- "locked": true if the device is locked, false otherwise (json-bool)

- "tray-open": only present if removable, true if the device has a tray,

               and it is open (json-bool)

- "inserted": only present if the device is inserted, it is a json-object

   containing the following:

         - "file": device file name (json-string)

         - "ro": true if read-only, false otherwise (json-bool)

         - "drv": driver format name (json-string)

             - Possible values: "blkdebug", "bochs", "cloop", "cow", "dmg",

                                "file", "file", "ftp", "ftps", "host_cdrom",

                                "host_device", "host_floppy", "http", "https",

                                "nbd", "parallels", "qcow", "qcow2", "raw",

                                "tftp", "vdi", "vmdk", "vpc", "vvfat"

         - "backing_file": backing file name (json-string, optional)

         - "encrypted": true if encrypted, false otherwise (json-bool)

         - "bps": limit total bytes per second (json-int)

         - "bps_rd": limit read bytes per second (json-int)

         - "bps_wr": limit write bytes per second (json-int)

         - "iops": limit total I/O operations per second (json-int)

         - "iops_rd": limit read operations per second (json-int)

         - "iops_wr": limit write operations per second (json-int)

- "io-status": I/O operation status, only present if the device supports it

               and the VM is configured to stop on errors. It's always reset

               to "ok" when the "cont" command is issued (json_string, optional)

             - Possible values: "ok", "failed", "nospace"

Example:

-> { "execute": "query-block" }

<- {

      "return":[

         {

            "io-status": "ok",

            "device":"ide0-hd0",

            "locked":false,

            "removable":false,

            "inserted":{

               "ro":false,

               "drv":"qcow2",

               "encrypted":false,

               "file":"disks/test.img",

               "bps":1000000,

               "bps_rd":0,

               "bps_wr":0,

               "iops":1000000,

               "iops_rd":0,

               "iops_wr":0,

            },

            "type":"unknown"

         },

         {

            "io-status": "ok",

            "device":"ide1-cd0",

            "locked":false,

            "removable":true,

            "type":"unknown"

         },

         {

            "device":"floppy0",

            "locked":false,

            "removable":true,

            "type":"unknown"

         },

         {

            "device":"sd0",

            "locked":false,

            "removable":true,

            "type":"unknown"

         }

      ]

   }

EQMP

    {

        .name       = "query-block",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_block,

    },

SQMP

query-blockstats

----------------

Show block device statistics.

Each device statistic information is stored in a json-object and the returned

value is a json-array of all devices.

Each json-object contain the following:

- "device": device name (json-string)

- "stats": A json-object with the statistics information, it contains:

    - "rd_bytes": bytes read (json-int)

    - "wr_bytes": bytes written (json-int)

    - "rd_operations": read operations (json-int)

    - "wr_operations": write operations (json-int)

    - "flush_operations": cache flush operations (json-int)

    - "wr_total_time_ns": total time spend on writes in nano-seconds (json-int)

    - "rd_total_time_ns": total time spend on reads in nano-seconds (json-int)

    - "flush_total_time_ns": total time spend on cache flushes in nano-seconds (json-int)

    - "wr_highest_offset": Highest offset of a sector written since the

                           BlockDriverState has been opened (json-int)

- "parent": Contains recursively the statistics of the underlying

            protocol (e.g. the host file for a qcow2 image). If there is

            no underlying protocol, this field is omitted

            (json-object, optional)

Example:

-> { "execute": "query-blockstats" }

<- {

      "return":[

         {

            "device":"ide0-hd0",

            "parent":{

               "stats":{

                  "wr_highest_offset":3686448128,

                  "wr_bytes":9786368,

                  "wr_operations":751,

                  "rd_bytes":122567168,

                  "rd_operations":36772

                  "wr_total_times_ns":313253456

                  "rd_total_times_ns":3465673657

                  "flush_total_times_ns":49653

                  "flush_operations":61,

               }

            },

            "stats":{

               "wr_highest_offset":2821110784,

               "wr_bytes":9786368,

               "wr_operations":692,

               "rd_bytes":122739200,

               "rd_operations":36604

               "flush_operations":51,

               "wr_total_times_ns":313253456

               "rd_total_times_ns":3465673657

               "flush_total_times_ns":49653

            }

         },

         {

            "device":"ide1-cd0",

            "stats":{

               "wr_highest_offset":0,

               "wr_bytes":0,

               "wr_operations":0,

               "rd_bytes":0,

               "rd_operations":0

               "flush_operations":0,

               "wr_total_times_ns":0

               "rd_total_times_ns":0

               "flush_total_times_ns":0

            }

         },

         {

            "device":"floppy0",

            "stats":{

               "wr_highest_offset":0,

               "wr_bytes":0,

               "wr_operations":0,

               "rd_bytes":0,

               "rd_operations":0

               "flush_operations":0,

               "wr_total_times_ns":0

               "rd_total_times_ns":0

               "flush_total_times_ns":0

            }

         },

         {

            "device":"sd0",

            "stats":{

               "wr_highest_offset":0,

               "wr_bytes":0,

               "wr_operations":0,

               "rd_bytes":0,

               "rd_operations":0

               "flush_operations":0,

               "wr_total_times_ns":0

               "rd_total_times_ns":0

               "flush_total_times_ns":0

            }

         }

      ]

   }

EQMP

    {

        .name       = "query-blockstats",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_blockstats,

    },

SQMP

query-cpus

----------

Show CPU information.

Return a json-array. Each CPU is represented by a json-object, which contains:

- "CPU": CPU index (json-int)

- "current": true if this is the current CPU, false otherwise (json-bool)

- "halted": true if the cpu is halted, false otherwise (json-bool)

- Current program counter. The key's name depends on the architecture:

     "pc": i386/x86_64 (json-int)

     "nip": PPC (json-int)

     "pc" and "npc": sparc (json-int)

     "PC": mips (json-int)

- "thread_id": ID of the underlying host thread (json-int)

Example:

-> { "execute": "query-cpus" }

<- {

      "return":[

         {

            "CPU":0,

            "current":true,

            "halted":false,

            "pc":3227107138

            "thread_id":3134

         },

         {

            "CPU":1,

            "current":false,

            "halted":true,

            "pc":7108165

            "thread_id":3135

         }

      ]

   }

EQMP

    {

        .name       = "query-cpus",

        .args_type  = "",

        .mhandler.cmd_new = qmp_marshal_input_query_cpus,

    },

SQMP

query-pci

---------

PCI buses and devices information.

The returned value is a json-array of all buses. Each bus is represented by

a json-object, which has a key with a json-array of all PCI devices attached

to it. Each device is represented by a json-object.

The bus json-object contains the following:

- "bus": bus number (json-int)

- "devices": a json-array of json-objects, each json-object represents a

             PCI device

The PCI device json-object contains the following:

- "bus": identical to the parent's bus number (json-int)

- "slot": slot number (json-int)

- "function": function number (json-int)

- "class_info": a json-object containing:

     - "desc": device class description (json-string, optional)

     - "class": device class number (json-int)

- "id": a json-object containing:

     - "device": device ID (json-int)

     - "vendor": vendor ID (json-int)

- "irq": device's IRQ if assigned (json-int, optional)

- "qdev_id": qdev id string (json-string)

- "pci_bridge": It's a json-object, only present if this device is a

                PCI bridge, contains:

     - "bus": bus number (json-int)

     - "secondary": secondary bus number (json-int)

     - "subordinate": subordinate bus number (json-int)

     - "io_range": I/O memory range information, a json-object with the

                   following members:

                 - "base": base address, in bytes (json-int)

                 - "limit": limit address, in bytes (json-int)

     - "memory_range": memory range information, a json-object with the

                       following members:

                 - "base": base address, in bytes (json-int)

                 - "limit": limit address, in bytes (json-int)

     - "prefetchable_range": Prefetchable memory range information, a

                             json-object with the following members:

                 - "base": base address, in bytes (json-int)

                 - "limit": limit address, in bytes (json-int)

     - "devices": a json-array of PCI devices if there's any attached, each

                  each element is represented by a json-object, which contains

                  the same members of the 'PCI device json-object' described

                  above (optional)

- "regions": a json-array of json-objects, each json-object represents a

             memory region of this device

The memory range json-object contains the following:

- "base": base memory address (json-int)

- "limit": limit value (json-int)

The region json-object can be an I/O region or a memory region, an I/O region

json-object contains the following:

- "type": "io" (json-string, fixed)

- "bar": BAR number (json-int)

- "address": memory address (json-int)

- "size": memory size (json-int)

A memory region json-object contains the following:

- "type": "memory" (json-string, fixed)

- "bar": BAR number (json-int)

- "address": memory address (json-int)

- "size": memory size (json-int)

- "mem_type_64": true or false (json-bool)

- "prefetch": true or false (json-bool)

Example: