xemu/hmp-commands.hx

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HXCOMM Use DEFHEADING() to define headings in both help text and rST.
HXCOMM Text between SRST and ERST is copied to the rST version and
HXCOMM discarded from C version.
HXCOMM DEF(command, args, callback, arg_string, help) is used to construct
HXCOMM monitor commands
HXCOMM HXCOMM can be used for comments, discarded from both rST and C.
{
.name = "help|?",
.args_type = "name:S?",
.params = "[cmd]",
.help = "show the help",
.cmd = do_help_cmd,
.flags = "p",
},
SRST
``help`` or ``?`` [*cmd*]
Show the help for all commands or just for command *cmd*.
ERST
{
.name = "commit",
.args_type = "device:B",
.params = "device|all",
.help = "commit changes to the disk images (if -snapshot is used) or backing files",
.cmd = hmp_commit,
},
SRST
``commit``
Commit changes to the disk images (if -snapshot is used) or backing files.
If the backing file is smaller than the snapshot, then the backing file
will be resized to be the same size as the snapshot. If the snapshot is
smaller than the backing file, the backing file will not be truncated.
If you want the backing file to match the size of the smaller snapshot,
you can safely truncate it yourself once the commit operation successfully
completes.
ERST
{
.name = "quit|q",
.args_type = "",
.params = "",
.help = "quit the emulator",
.cmd = hmp_quit,
.flags = "p",
},
SRST
``quit`` or ``q``
Quit the emulator.
ERST
{
.name = "exit_preconfig",
.args_type = "",
.params = "",
.help = "exit the preconfig state",
.cmd = hmp_exit_preconfig,
.flags = "p",
},
SRST
``exit_preconfig``
This command makes QEMU exit the preconfig state and proceed with
VM initialization using configuration data provided on the command line
and via the QMP monitor during the preconfig state. The command is only
available during the preconfig state (i.e. when the --preconfig command
line option was in use).
ERST
{
.name = "block_resize",
.args_type = "device:B,size:o",
.params = "device size",
.help = "resize a block image",
.cmd = hmp_block_resize,
.coroutine = true,
.flags = "p",
},
SRST
``block_resize``
Resize a block image while a guest is running. Usually requires guest
action to see the updated size. Resize to a lower size is supported,
but should be used with extreme caution. Note that this command only
resizes image files, it can not resize block devices like LVM volumes.
ERST
{
.name = "block_stream",
.args_type = "device:B,speed:o?,base:s?",
.params = "device [speed [base]]",
.help = "copy data from a backing file into a block device",
.cmd = hmp_block_stream,
.flags = "p",
},
SRST
``block_stream``
Copy data from a backing file into a block device.
ERST
{
.name = "block_job_set_speed",
.args_type = "device:B,speed:o",
.params = "device speed",
.help = "set maximum speed for a background block operation",
.cmd = hmp_block_job_set_speed,
.flags = "p",
},
SRST
``block_job_set_speed``
Set maximum speed for a background block operation.
ERST
{
.name = "block_job_cancel",
.args_type = "force:-f,device:B",
.params = "[-f] device",
.help = "stop an active background block operation (use -f"
block/mirror: change the semantic of 'force' of block-job-cancel When doing drive mirror to a low speed shared storage, if there was heavy BLK IO write workload in VM after the 'ready' event, drive mirror block job can't be canceled immediately, it would keep running until the heavy BLK IO workload stopped in the VM. Libvirt depends on the current block-job-cancel semantics, which is that when used without a flag after the 'ready' event, the command blocks until data is in sync. However, these semantics are awkward in other situations, for example, people may use drive mirror for realtime backups while still wanting to use block live migration. Libvirt cannot start a block live migration while another drive mirror is in progress, but the user would rather abandon the backup attempt as broken and proceed with the live migration than be stuck waiting for the current drive mirror backup to finish. The drive-mirror command already includes a 'force' flag, which libvirt does not use, although it documented the flag as only being useful to quit a job which is paused. However, since quitting a paused job has the same effect as abandoning a backup in a non-paused job (namely, the destination file is not in sync, and the command completes immediately), we can just improve the documentation to make the force flag obviously useful. Cc: Paolo Bonzini <pbonzini@redhat.com> Cc: Jeff Cody <jcody@redhat.com> Cc: Kevin Wolf <kwolf@redhat.com> Cc: Max Reitz <mreitz@redhat.com> Cc: Eric Blake <eblake@redhat.com> Cc: John Snow <jsnow@redhat.com> Reported-by: Huaitong Han <huanhuaitong@didichuxing.com> Signed-off-by: Huaitong Han <huanhuaitong@didichuxing.com> Signed-off-by: Liang Li <liliangleo@didichuxing.com> Signed-off-by: Jeff Cody <jcody@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2018-03-13 12:12:16 +00:00
"\n\t\t\t if you want to abort the operation immediately"
"\n\t\t\t instead of keep running until data is in sync)",
.cmd = hmp_block_job_cancel,
.flags = "p",
},
SRST
``block_job_cancel``
Stop an active background block operation (streaming, mirroring).
ERST
{
.name = "block_job_complete",
.args_type = "device:B",
.params = "device",
.help = "stop an active background block operation",
.cmd = hmp_block_job_complete,
.flags = "p",
},
SRST
``block_job_complete``
Manually trigger completion of an active background block operation.
For mirroring, this will switch the device to the destination path.
ERST
{
.name = "block_job_pause",
.args_type = "device:B",
.params = "device",
.help = "pause an active background block operation",
.cmd = hmp_block_job_pause,
.flags = "p",
},
SRST
``block_job_pause``
Pause an active block streaming operation.
ERST
{
.name = "block_job_resume",
.args_type = "device:B",
.params = "device",
.help = "resume a paused background block operation",
.cmd = hmp_block_job_resume,
.flags = "p",
},
SRST
``block_job_resume``
Resume a paused block streaming operation.
ERST
{
.name = "eject",
.args_type = "force:-f,device:B",
.params = "[-f] device",
.help = "eject a removable medium (use -f to force it)",
.cmd = hmp_eject,
},
SRST
``eject [-f]`` *device*
Eject a removable medium (use -f to force it).
ERST
{
.name = "drive_del",
.args_type = "id:B",
.params = "device",
.help = "remove host block device",
.cmd = hmp_drive_del,
},
SRST
``drive_del`` *device*
Remove host block device. The result is that guest generated IO is no longer
submitted against the host device underlying the disk. Once a drive has
been deleted, the QEMU Block layer returns -EIO which results in IO
errors in the guest for applications that are reading/writing to the device.
These errors are always reported to the guest, regardless of the drive's error
actions (drive options rerror, werror).
ERST
{
.name = "change",
.args_type = "device:B,force:-f,target:F,arg:s?,read-only-mode:s?",
.params = "device [-f] filename [format [read-only-mode]]",
.help = "change a removable medium, optional format, use -f to force the operation",
.cmd = hmp_change,
},
SRST
``change`` *device* *setting*
Change the configuration of a device.
``change`` *diskdevice* [-f] *filename* [*format* [*read-only-mode*]]
Change the medium for a removable disk device to point to *filename*. eg::
(qemu) change ide1-cd0 /path/to/some.iso
``-f``
forces the operation even if the guest has locked the tray.
*format* is optional.
*read-only-mode* may be used to change the read-only status of the device.
It accepts the following values:
retain
Retains the current status; this is the default.
read-only
Makes the device read-only.
read-write
Makes the device writable.
``change vnc password`` [*password*]
Change the password associated with the VNC server. If the new password
is not supplied, the monitor will prompt for it to be entered. VNC
passwords are only significant up to 8 letters. eg::
(qemu) change vnc password
Password: ********
ERST
{
.name = "screendump",
.args_type = "filename:F,format:-fs,device:s?,head:i?",
.params = "filename [-f format] [device [head]]",
.help = "save screen from head 'head' of display device 'device'"
"in specified format 'format' as image 'filename'."
"Currently only 'png' and 'ppm' formats are supported.",
.cmd = hmp_screendump,
.coroutine = true,
},
SRST
``screendump`` *filename*
Save screen into PPM image *filename*.
ERST
{
.name = "logfile",
.args_type = "filename:F",
.params = "filename",
.help = "output logs to 'filename'",
.cmd = hmp_logfile,
},
SRST
``logfile`` *filename*
Output logs to *filename*.
ERST
{
.name = "trace-event",
.args_type = "name:s,option:b,vcpu:i?",
.params = "name on|off [vcpu]",
.help = "changes status of a specific trace event "
"(vcpu: vCPU to set, default is all)",
.cmd = hmp_trace_event,
.command_completion = trace_event_completion,
},
SRST
``trace-event``
changes status of a trace event
ERST
trace: Add trace-file command to open/close/flush trace file This patch adds the trace-file command: trace-file [on|off|flush] Open, close, or flush the trace file. If no argument is given, the status of the trace file is displayed. The trace file is turned on by default but is only written out when the trace buffer becomes full. The flush operation can be used to force write out at any time. Turning off the trace file does not change the state of trace events; tracing will continue to the trace buffer. When the trace file is off, use "info trace" to display the contents of the trace buffer in memory. Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com> This commit also contains the trace-file sub-command from the following commit: commit 5ce8d1a957afae2c52ad748944ce72848ccf57bd Author: Prerna Saxena <prerna@linux.vnet.ibm.com> Date: Wed Aug 4 16:23:54 2010 +0530 trace: Add options to specify trace file name at startup and runtime This patch adds an optional command line switch '-trace' to specify the filename to write traces to, when qemu starts. Eg, If compiled with the 'simple' trace backend, [temp@system]$ qemu -trace FILENAME IMAGE Allows the binary traces to be written to FILENAME instead of the option set at config-time. Also, this adds monitor sub-command 'set' to trace-file commands to dynamically change trace log file at runtime. Eg, (qemu)trace-file set FILENAME This allows one to set trace outputs to FILENAME from the default specified at startup. Signed-off-by: Prerna Saxena <prerna@linux.vnet.ibm.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2010-07-13 08:26:33 +00:00
#if defined(CONFIG_TRACE_SIMPLE)
trace: Add trace-file command to open/close/flush trace file This patch adds the trace-file command: trace-file [on|off|flush] Open, close, or flush the trace file. If no argument is given, the status of the trace file is displayed. The trace file is turned on by default but is only written out when the trace buffer becomes full. The flush operation can be used to force write out at any time. Turning off the trace file does not change the state of trace events; tracing will continue to the trace buffer. When the trace file is off, use "info trace" to display the contents of the trace buffer in memory. Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com> This commit also contains the trace-file sub-command from the following commit: commit 5ce8d1a957afae2c52ad748944ce72848ccf57bd Author: Prerna Saxena <prerna@linux.vnet.ibm.com> Date: Wed Aug 4 16:23:54 2010 +0530 trace: Add options to specify trace file name at startup and runtime This patch adds an optional command line switch '-trace' to specify the filename to write traces to, when qemu starts. Eg, If compiled with the 'simple' trace backend, [temp@system]$ qemu -trace FILENAME IMAGE Allows the binary traces to be written to FILENAME instead of the option set at config-time. Also, this adds monitor sub-command 'set' to trace-file commands to dynamically change trace log file at runtime. Eg, (qemu)trace-file set FILENAME This allows one to set trace outputs to FILENAME from the default specified at startup. Signed-off-by: Prerna Saxena <prerna@linux.vnet.ibm.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2010-07-13 08:26:33 +00:00
{
.name = "trace-file",
.args_type = "op:s?,arg:F?",
.params = "on|off|flush|set [arg]",
.help = "open, close, or flush trace file, or set a new file name",
.cmd = hmp_trace_file,
trace: Add trace-file command to open/close/flush trace file This patch adds the trace-file command: trace-file [on|off|flush] Open, close, or flush the trace file. If no argument is given, the status of the trace file is displayed. The trace file is turned on by default but is only written out when the trace buffer becomes full. The flush operation can be used to force write out at any time. Turning off the trace file does not change the state of trace events; tracing will continue to the trace buffer. When the trace file is off, use "info trace" to display the contents of the trace buffer in memory. Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com> This commit also contains the trace-file sub-command from the following commit: commit 5ce8d1a957afae2c52ad748944ce72848ccf57bd Author: Prerna Saxena <prerna@linux.vnet.ibm.com> Date: Wed Aug 4 16:23:54 2010 +0530 trace: Add options to specify trace file name at startup and runtime This patch adds an optional command line switch '-trace' to specify the filename to write traces to, when qemu starts. Eg, If compiled with the 'simple' trace backend, [temp@system]$ qemu -trace FILENAME IMAGE Allows the binary traces to be written to FILENAME instead of the option set at config-time. Also, this adds monitor sub-command 'set' to trace-file commands to dynamically change trace log file at runtime. Eg, (qemu)trace-file set FILENAME This allows one to set trace outputs to FILENAME from the default specified at startup. Signed-off-by: Prerna Saxena <prerna@linux.vnet.ibm.com> Signed-off-by: Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
2010-07-13 08:26:33 +00:00
},
SRST
``trace-file on|off|flush``
Open, close, or flush the trace file. If no argument is given, the
status of the trace file is displayed.
ERST
#endif
{
.name = "log",
.args_type = "items:s",
.params = "item1[,...]",
.help = "activate logging of the specified items",
.cmd = hmp_log,
},
SRST
``log`` *item1*\ [,...]
Activate logging of the specified items.
ERST
{
.name = "savevm",
.args_type = "name:s?",
block/snapshot.c: eliminate use of ID input in snapshot operations At this moment, QEMU attempts to create/load/delete snapshots by using either an ID (id_str) or a name. The problem is that the code isn't consistent of whether the entered argument is an ID or a name, causing unexpected behaviors. For example, when creating snapshots via savevm <arg>, what happens is that "arg" is treated as both name and id_str. In a guest without snapshots, create a single snapshot via savevm: (qemu) savevm 0 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 0 741M 2018-07-31 13:39:56 00:41:25.313 A snapshot with name "0" is created. ID is hidden from the user, but the ID is a non-zero integer that starts at "1". Thus, this snapshot has id_str=1, TAG="0". Creating a second snapshot with arg = 1, the first one is deleted: (qemu) savevm 1 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 1 741M 2018-07-31 13:42:14 00:41:55.252 What happened? - when creating the second snapshot, a verification is done inside bdrv_all_delete_snapshot to delete any existing snapshots that matches an string argument. Here, the code calls bdrv_all_delete_snapshot("1", ...); - bdrv_all_delete_snapshot calls bdrv_snapshot_find(..., "1") for each BlockDriverState of the guest. And this is where things goes tilting: bdrv_snapshot_find does a search by both id_str and name. It finds out that there is a snapshot that has id_str = 1, stores a reference to the snapshot in the sn_info pointer and then returns match found; - since a match was found, a call to bdrv_snapshot_delete_by_id_or_name() is made. This function ignores the pointer written by bdrv_snapshot_find. Instead, it deletes the snapshot using bdrv_snapshot_delete() calling it first with id_str = 1. If it fails to delete, then it calls it again with name = 1. - after all that, QEMU creates the new snapshot, that has id_str = 1 and name = 1. The user is left wondering that happened with the first snapshot created. Similar bugs can be triggered when using loadvm and delvm. Before contemplating discarding the use of ID input in these operations, I've searched the code of what would be the implications. My findings are: - the RBD and Sheepdog drivers don't care. Both uses the 'name' field as key in their logic, making id_str = name when appropriate. replay-snapshot.c does not make any special use of id_str; - qcow2 uses id_str as an unique identifier but it is automatically calculated, not being influenced by user input. Other than that, there are no distinguish operations made only with id_str; - in blockdev.c, the delete operation uses a match of both id_str AND name. Given that id_str is either a copy of 'name' or auto-generated, we're fine here. This gives motivation to not consider ID as a valid user input in HMP commands - sticking with 'name' input only is more consistent. To accomplish that, the following changes were made in this patch: - bdrv_snapshot_find() does not match for id_str anymore, only 'name'. The function is called in save_snapshot(), load_snapshot(), bdrv_all_delete_snapshot() and bdrv_all_find_snapshot(). This change makes the search function more predictable and does not change the behavior of any underlying code that uses these affected functions, which are related to HMP (which is fine) and the main loop inside vl.c (which doesn't care about it anyways); - bdrv_all_delete_snapshot() does not call bdrv_snapshot_delete_by_id_or_name anymore. Instead, it uses the pointer returned by bdrv_snapshot_find to erase the snapshot with the exact match of id_str an name. This function is called in save_snapshot and hmp_delvm, thus this change produces the intended effect; - documentation changes to reflect the new behavior. I consider this to be an API fix instead of an API change - the user was already creating snapshots using 'name', but now he/she will also enjoy a consistent behavior. Ideally we would get rid of the id_str field entirely, but this would have repercussions on existing snapshots. Another day perhaps. Signed-off-by: Daniel Henrique Barboza <danielhb413@gmail.com> Acked-by: Dr. David Alan Gilbert <dgilbert@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2018-11-07 13:09:58 +00:00
.params = "tag",
.help = "save a VM snapshot. If no tag is provided, a new snapshot is created",
.cmd = hmp_savevm,
},
SRST
``savevm`` *tag*
Create a snapshot of the whole virtual machine. If *tag* is
provided, it is used as human readable identifier. If there is already
a snapshot with the same tag, it is replaced. More info at
:ref:`vm_005fsnapshots`.
Since 4.0, savevm stopped allowing the snapshot id to be set, accepting
only *tag* as parameter.
ERST
{
.name = "loadvm",
.args_type = "name:s",
block/snapshot.c: eliminate use of ID input in snapshot operations At this moment, QEMU attempts to create/load/delete snapshots by using either an ID (id_str) or a name. The problem is that the code isn't consistent of whether the entered argument is an ID or a name, causing unexpected behaviors. For example, when creating snapshots via savevm <arg>, what happens is that "arg" is treated as both name and id_str. In a guest without snapshots, create a single snapshot via savevm: (qemu) savevm 0 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 0 741M 2018-07-31 13:39:56 00:41:25.313 A snapshot with name "0" is created. ID is hidden from the user, but the ID is a non-zero integer that starts at "1". Thus, this snapshot has id_str=1, TAG="0". Creating a second snapshot with arg = 1, the first one is deleted: (qemu) savevm 1 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 1 741M 2018-07-31 13:42:14 00:41:55.252 What happened? - when creating the second snapshot, a verification is done inside bdrv_all_delete_snapshot to delete any existing snapshots that matches an string argument. Here, the code calls bdrv_all_delete_snapshot("1", ...); - bdrv_all_delete_snapshot calls bdrv_snapshot_find(..., "1") for each BlockDriverState of the guest. And this is where things goes tilting: bdrv_snapshot_find does a search by both id_str and name. It finds out that there is a snapshot that has id_str = 1, stores a reference to the snapshot in the sn_info pointer and then returns match found; - since a match was found, a call to bdrv_snapshot_delete_by_id_or_name() is made. This function ignores the pointer written by bdrv_snapshot_find. Instead, it deletes the snapshot using bdrv_snapshot_delete() calling it first with id_str = 1. If it fails to delete, then it calls it again with name = 1. - after all that, QEMU creates the new snapshot, that has id_str = 1 and name = 1. The user is left wondering that happened with the first snapshot created. Similar bugs can be triggered when using loadvm and delvm. Before contemplating discarding the use of ID input in these operations, I've searched the code of what would be the implications. My findings are: - the RBD and Sheepdog drivers don't care. Both uses the 'name' field as key in their logic, making id_str = name when appropriate. replay-snapshot.c does not make any special use of id_str; - qcow2 uses id_str as an unique identifier but it is automatically calculated, not being influenced by user input. Other than that, there are no distinguish operations made only with id_str; - in blockdev.c, the delete operation uses a match of both id_str AND name. Given that id_str is either a copy of 'name' or auto-generated, we're fine here. This gives motivation to not consider ID as a valid user input in HMP commands - sticking with 'name' input only is more consistent. To accomplish that, the following changes were made in this patch: - bdrv_snapshot_find() does not match for id_str anymore, only 'name'. The function is called in save_snapshot(), load_snapshot(), bdrv_all_delete_snapshot() and bdrv_all_find_snapshot(). This change makes the search function more predictable and does not change the behavior of any underlying code that uses these affected functions, which are related to HMP (which is fine) and the main loop inside vl.c (which doesn't care about it anyways); - bdrv_all_delete_snapshot() does not call bdrv_snapshot_delete_by_id_or_name anymore. Instead, it uses the pointer returned by bdrv_snapshot_find to erase the snapshot with the exact match of id_str an name. This function is called in save_snapshot and hmp_delvm, thus this change produces the intended effect; - documentation changes to reflect the new behavior. I consider this to be an API fix instead of an API change - the user was already creating snapshots using 'name', but now he/she will also enjoy a consistent behavior. Ideally we would get rid of the id_str field entirely, but this would have repercussions on existing snapshots. Another day perhaps. Signed-off-by: Daniel Henrique Barboza <danielhb413@gmail.com> Acked-by: Dr. David Alan Gilbert <dgilbert@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2018-11-07 13:09:58 +00:00
.params = "tag",
.help = "restore a VM snapshot from its tag",
.cmd = hmp_loadvm,
.command_completion = loadvm_completion,
},
SRST
``loadvm`` *tag*
Set the whole virtual machine to the snapshot identified by the tag
*tag*.
Since 4.0, loadvm stopped accepting snapshot id as parameter.
ERST
{
.name = "delvm",
.args_type = "name:s",
block/snapshot.c: eliminate use of ID input in snapshot operations At this moment, QEMU attempts to create/load/delete snapshots by using either an ID (id_str) or a name. The problem is that the code isn't consistent of whether the entered argument is an ID or a name, causing unexpected behaviors. For example, when creating snapshots via savevm <arg>, what happens is that "arg" is treated as both name and id_str. In a guest without snapshots, create a single snapshot via savevm: (qemu) savevm 0 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 0 741M 2018-07-31 13:39:56 00:41:25.313 A snapshot with name "0" is created. ID is hidden from the user, but the ID is a non-zero integer that starts at "1". Thus, this snapshot has id_str=1, TAG="0". Creating a second snapshot with arg = 1, the first one is deleted: (qemu) savevm 1 (qemu) info snapshots List of snapshots present on all disks: ID TAG VM SIZE DATE VM CLOCK -- 1 741M 2018-07-31 13:42:14 00:41:55.252 What happened? - when creating the second snapshot, a verification is done inside bdrv_all_delete_snapshot to delete any existing snapshots that matches an string argument. Here, the code calls bdrv_all_delete_snapshot("1", ...); - bdrv_all_delete_snapshot calls bdrv_snapshot_find(..., "1") for each BlockDriverState of the guest. And this is where things goes tilting: bdrv_snapshot_find does a search by both id_str and name. It finds out that there is a snapshot that has id_str = 1, stores a reference to the snapshot in the sn_info pointer and then returns match found; - since a match was found, a call to bdrv_snapshot_delete_by_id_or_name() is made. This function ignores the pointer written by bdrv_snapshot_find. Instead, it deletes the snapshot using bdrv_snapshot_delete() calling it first with id_str = 1. If it fails to delete, then it calls it again with name = 1. - after all that, QEMU creates the new snapshot, that has id_str = 1 and name = 1. The user is left wondering that happened with the first snapshot created. Similar bugs can be triggered when using loadvm and delvm. Before contemplating discarding the use of ID input in these operations, I've searched the code of what would be the implications. My findings are: - the RBD and Sheepdog drivers don't care. Both uses the 'name' field as key in their logic, making id_str = name when appropriate. replay-snapshot.c does not make any special use of id_str; - qcow2 uses id_str as an unique identifier but it is automatically calculated, not being influenced by user input. Other than that, there are no distinguish operations made only with id_str; - in blockdev.c, the delete operation uses a match of both id_str AND name. Given that id_str is either a copy of 'name' or auto-generated, we're fine here. This gives motivation to not consider ID as a valid user input in HMP commands - sticking with 'name' input only is more consistent. To accomplish that, the following changes were made in this patch: - bdrv_snapshot_find() does not match for id_str anymore, only 'name'. The function is called in save_snapshot(), load_snapshot(), bdrv_all_delete_snapshot() and bdrv_all_find_snapshot(). This change makes the search function more predictable and does not change the behavior of any underlying code that uses these affected functions, which are related to HMP (which is fine) and the main loop inside vl.c (which doesn't care about it anyways); - bdrv_all_delete_snapshot() does not call bdrv_snapshot_delete_by_id_or_name anymore. Instead, it uses the pointer returned by bdrv_snapshot_find to erase the snapshot with the exact match of id_str an name. This function is called in save_snapshot and hmp_delvm, thus this change produces the intended effect; - documentation changes to reflect the new behavior. I consider this to be an API fix instead of an API change - the user was already creating snapshots using 'name', but now he/she will also enjoy a consistent behavior. Ideally we would get rid of the id_str field entirely, but this would have repercussions on existing snapshots. Another day perhaps. Signed-off-by: Daniel Henrique Barboza <danielhb413@gmail.com> Acked-by: Dr. David Alan Gilbert <dgilbert@redhat.com> Signed-off-by: Kevin Wolf <kwolf@redhat.com>
2018-11-07 13:09:58 +00:00
.params = "tag",
.help = "delete a VM snapshot from its tag",
.cmd = hmp_delvm,
.command_completion = delvm_completion,
},
SRST
``delvm`` *tag*
Delete the snapshot identified by *tag*.
Since 4.0, delvm stopped deleting snapshots by snapshot id, accepting
only *tag* as parameter.
ERST
{
.name = "singlestep",
.args_type = "option:s?",
.params = "[on|off]",
.help = "run emulation in singlestep mode or switch to normal mode",
.cmd = hmp_singlestep,
},
SRST
``singlestep [off]``
Run the emulation in single step mode.
If called with option off, the emulation returns to normal mode.
ERST
{
.name = "stop|s",
.args_type = "",
.params = "",
.help = "stop emulation",
.cmd = hmp_stop,
},
SRST
``stop`` or ``s``
Stop emulation.
ERST
{
.name = "cont|c",
.args_type = "",
.params = "",
.help = "resume emulation",
.cmd = hmp_cont,
},
SRST
``cont`` or ``c``
Resume emulation.
ERST
{
.name = "system_wakeup",
.args_type = "",
.params = "",
.help = "wakeup guest from suspend",
.cmd = hmp_system_wakeup,
},
SRST
``system_wakeup``
Wakeup guest from suspend.
ERST
{
.name = "gdbserver",
.args_type = "device:s?",
.params = "[device]",
.help = "start gdbserver on given device (default 'tcp::1234'), stop with 'none'",
.cmd = hmp_gdbserver,
},
SRST
``gdbserver`` [*port*]
Start gdbserver session (default *port*\=1234)
ERST
{
.name = "x",
.args_type = "fmt:/,addr:l",
.params = "/fmt addr",
.help = "virtual memory dump starting at 'addr'",
.cmd = hmp_memory_dump,
},
SRST
``x/``\ *fmt* *addr*
Virtual memory dump starting at *addr*.
ERST
{
.name = "xp",
.args_type = "fmt:/,addr:l",
.params = "/fmt addr",
.help = "physical memory dump starting at 'addr'",
.cmd = hmp_physical_memory_dump,
},
SRST
``xp /``\ *fmt* *addr*
Physical memory dump starting at *addr*.
*fmt* is a format which tells the command how to format the
data. Its syntax is: ``/{count}{format}{size}``
*count*
is the number of items to be dumped.
*format*
can be x (hex), d (signed decimal), u (unsigned decimal), o (octal),
c (char) or i (asm instruction).
*size*
can be b (8 bits), h (16 bits), w (32 bits) or g (64 bits). On x86,
``h`` or ``w`` can be specified with the ``i`` format to
respectively select 16 or 32 bit code instruction size.
Examples:
Dump 10 instructions at the current instruction pointer::
(qemu) x/10i $eip
0x90107063: ret
0x90107064: sti
0x90107065: lea 0x0(%esi,1),%esi
0x90107069: lea 0x0(%edi,1),%edi
0x90107070: ret
0x90107071: jmp 0x90107080
0x90107073: nop
0x90107074: nop
0x90107075: nop
0x90107076: nop
Dump 80 16 bit values at the start of the video memory::
(qemu) xp/80hx 0xb8000
0x000b8000: 0x0b50 0x0b6c 0x0b65 0x0b78 0x0b38 0x0b36 0x0b2f 0x0b42
0x000b8010: 0x0b6f 0x0b63 0x0b68 0x0b73 0x0b20 0x0b56 0x0b47 0x0b41
0x000b8020: 0x0b42 0x0b69 0x0b6f 0x0b73 0x0b20 0x0b63 0x0b75 0x0b72
0x000b8030: 0x0b72 0x0b65 0x0b6e 0x0b74 0x0b2d 0x0b63 0x0b76 0x0b73
0x000b8040: 0x0b20 0x0b30 0x0b35 0x0b20 0x0b4e 0x0b6f 0x0b76 0x0b20
0x000b8050: 0x0b32 0x0b30 0x0b30 0x0b33 0x0720 0x0720 0x0720 0x0720
0x000b8060: 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720
0x000b8070: 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720
0x000b8080: 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720
0x000b8090: 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720 0x0720
ERST
{
.name = "gpa2hva",
.args_type = "addr:l",
.params = "addr",
.help = "print the host virtual address corresponding to a guest physical address",
.cmd = hmp_gpa2hva,
},
SRST
``gpa2hva`` *addr*
Print the host virtual address at which the guest's physical address *addr*
is mapped.
ERST
#ifdef CONFIG_LINUX
{
.name = "gpa2hpa",
.args_type = "addr:l",
.params = "addr",
.help = "print the host physical address corresponding to a guest physical address",
.cmd = hmp_gpa2hpa,
},
#endif
SRST
``gpa2hpa`` *addr*
Print the host physical address at which the guest's physical address *addr*
is mapped.
ERST
{
.name = "gva2gpa",
.args_type = "addr:l",
.params = "addr",
.help = "print the guest physical address corresponding to a guest virtual address",
.cmd = hmp_gva2gpa,
},
SRST
``gva2gpa`` *addr*
Print the guest physical address at which the guest's virtual address *addr*
is mapped based on the mapping for the current CPU.
ERST
{
.name = "print|p",
.args_type = "fmt:/,val:l",
.params = "/fmt expr",
.help = "print expression value (use $reg for CPU register access)",
.cmd = do_print,
},
SRST
``print`` or ``p/``\ *fmt* *expr*
Print expression value. Only the *format* part of *fmt* is
used.
ERST
{
.name = "i",
.args_type = "fmt:/,addr:i,index:i.",
.params = "/fmt addr",
.help = "I/O port read",
.cmd = hmp_ioport_read,
},
SRST
``i/``\ *fmt* *addr* [.\ *index*\ ]
Read I/O port.
ERST
{
.name = "o",
.args_type = "fmt:/,addr:i,val:i",
.params = "/fmt addr value",
.help = "I/O port write",
.cmd = hmp_ioport_write,
},
SRST
``o/``\ *fmt* *addr* *val*
Write to I/O port.
ERST
{
.name = "sendkey",
.args_type = "keys:s,hold-time:i?",
.params = "keys [hold_ms]",
.help = "send keys to the VM (e.g. 'sendkey ctrl-alt-f1', default hold time=100 ms)",
.cmd = hmp_sendkey,
.command_completion = sendkey_completion,
},
SRST
``sendkey`` *keys*
Send *keys* to the guest. *keys* could be the name of the
key or the raw value in hexadecimal format. Use ``-`` to press
several keys simultaneously. Example::
sendkey ctrl-alt-f1
This command is useful to send keys that your graphical user interface
intercepts at low level, such as ``ctrl-alt-f1`` in X Window.
ERST
{
.name = "sync-profile",
.args_type = "op:s?",
.params = "[on|off|reset]",
.help = "enable, disable or reset synchronization profiling. "
"With no arguments, prints whether profiling is on or off.",
.cmd = hmp_sync_profile,
},
SRST
``sync-profile [on|off|reset]``
Enable, disable or reset synchronization profiling. With no arguments, prints
whether profiling is on or off.
ERST
{
.name = "system_reset",
.args_type = "",
.params = "",
.help = "reset the system",
.cmd = hmp_system_reset,
},
SRST
``system_reset``
Reset the system.
ERST
{
.name = "system_powerdown",
.args_type = "",
.params = "",
.help = "send system power down event",
.cmd = hmp_system_powerdown,
},
SRST
``system_powerdown``
Power down the system (if supported).
ERST
{
.name = "sum",
.args_type = "start:i,size:i",
.params = "addr size",
.help = "compute the checksum of a memory region",
.cmd = hmp_sum,
},
SRST
``sum`` *addr* *size*
Compute the checksum of a memory region.
ERST
{
.name = "device_add",
.args_type = "device:O",
.params = "driver[,prop=value][,...]",
.help = "add device, like -device on the command line",
.cmd = hmp_device_add,
.command_completion = device_add_completion,
},
SRST
``device_add`` *config*
Add device.
ERST
{
.name = "device_del",
.args_type = "id:s",
.params = "device",
.help = "remove device",
.cmd = hmp_device_del,
.command_completion = device_del_completion,
},
SRST
``device_del`` *id*
Remove device *id*. *id* may be a short ID
or a QOM object path.
ERST
{
.name = "cpu",
.args_type = "index:i",
.params = "index",
.help = "set the default CPU",
.cmd = hmp_cpu,
},
SRST
``cpu`` *index*
Set the default CPU.
ERST
{
.name = "mouse_move",
.args_type = "dx_str:s,dy_str:s,dz_str:s?",
.params = "dx dy [dz]",
.help = "send mouse move events",
.cmd = hmp_mouse_move,
},
SRST
``mouse_move`` *dx* *dy* [*dz*]
Move the active mouse to the specified coordinates *dx* *dy*
with optional scroll axis *dz*.
ERST
{
.name = "mouse_button",
.args_type = "button_state:i",
.params = "state",
.help = "change mouse button state (1=L, 2=M, 4=R)",
.cmd = hmp_mouse_button,
},
SRST
``mouse_button`` *val*
Change the active mouse button state *val* (1=L, 2=M, 4=R).
ERST
{
.name = "mouse_set",
.args_type = "index:i",
.params = "index",
.help = "set which mouse device receives events",
.cmd = hmp_mouse_set,
},
SRST
``mouse_set`` *index*
Set which mouse device receives events at given *index*, index
can be obtained with::
info mice
ERST
{
.name = "wavcapture",
.args_type = "path:F,audiodev:s,freq:i?,bits:i?,nchannels:i?",
.params = "path audiodev [frequency [bits [channels]]]",
.help = "capture audio to a wave file (default frequency=44100 bits=16 channels=2)",
.cmd = hmp_wavcapture,
},
SRST
``wavcapture`` *filename* *audiodev* [*frequency* [*bits* [*channels*]]]
Capture audio into *filename* from *audiodev*, using sample rate
*frequency* bits per sample *bits* and number of channels
*channels*.
Defaults:
- Sample rate = 44100 Hz - CD quality
- Bits = 16
- Number of channels = 2 - Stereo
ERST
{
.name = "stopcapture",
.args_type = "n:i",
.params = "capture index",
.help = "stop capture",
.cmd = hmp_stopcapture,
},
SRST
``stopcapture`` *index*
Stop capture with a given *index*, index can be obtained with::
info capture
ERST
{
.name = "memsave",
.args_type = "val:l,size:i,filename:s",
.params = "addr size file",
.help = "save to disk virtual memory dump starting at 'addr' of size 'size'",
.cmd = hmp_memsave,
},
SRST
``memsave`` *addr* *size* *file*
save to disk virtual memory dump starting at *addr* of size *size*.
ERST
{
.name = "pmemsave",
.args_type = "val:l,size:i,filename:s",
.params = "addr size file",
.help = "save to disk physical memory dump starting at 'addr' of size 'size'",
.cmd = hmp_pmemsave,
},
SRST
``pmemsave`` *addr* *size* *file*
save to disk physical memory dump starting at *addr* of size *size*.
ERST
{
.name = "boot_set",
.args_type = "bootdevice:s",
.params = "bootdevice",
.help = "define new values for the boot device list",
.cmd = hmp_boot_set,
},
SRST
``boot_set`` *bootdevicelist*
Define new values for the boot device list. Those values will override
the values specified on the command line through the ``-boot`` option.
The values that can be specified here depend on the machine type, but are
the same that can be specified in the ``-boot`` command line option.
ERST
{
.name = "nmi",
.args_type = "",
.params = "",
.help = "inject an NMI",
.cmd = hmp_nmi,
},
SRST
``nmi`` *cpu*
Inject an NMI on the default CPU (x86/s390) or all CPUs (ppc64).
ERST
{
.name = "ringbuf_write",
.args_type = "device:s,data:s",
.params = "device data",
.help = "Write to a ring buffer character device",
.cmd = hmp_ringbuf_write,
.command_completion = ringbuf_write_completion,
},
SRST
``ringbuf_write`` *device* *data*
Write *data* to ring buffer character device *device*.
*data* must be a UTF-8 string.
ERST
{
.name = "ringbuf_read",
.args_type = "device:s,size:i",
.params = "device size",
.help = "Read from a ring buffer character device",
.cmd = hmp_ringbuf_read,
.command_completion = ringbuf_write_completion,
},
SRST
``ringbuf_read`` *device*
Read and print up to *size* bytes from ring buffer character
device *device*.
Certain non-printable characters are printed ``\uXXXX``, where ``XXXX`` is the
character code in hexadecimal. Character ``\`` is printed ``\\``.
Bug: can screw up when the buffer contains invalid UTF-8 sequences,
NUL characters, after the ring buffer lost data, and when reading
stops because the size limit is reached.
ERST
{
.name = "announce_self",
.args_type = "interfaces:s?,id:s?",
.params = "[interfaces] [id]",
.help = "Trigger GARP/RARP announcements",
.cmd = hmp_announce_self,
},
SRST
``announce_self``
Trigger a round of GARP/RARP broadcasts; this is useful for explicitly
updating the network infrastructure after a reconfiguration or some forms
of migration. The timings of the round are set by the migration announce
parameters. An optional comma separated *interfaces* list restricts the
announce to the named set of interfaces. An optional *id* can be used to
start a separate announce timer and to change the parameters of it later.
ERST
{
.name = "migrate",
.args_type = "detach:-d,blk:-b,inc:-i,resume:-r,uri:s",
.params = "[-d] [-b] [-i] [-r] uri",
.help = "migrate to URI (using -d to not wait for completion)"
"\n\t\t\t -b for migration without shared storage with"
" full copy of disk\n\t\t\t -i for migration without "
"shared storage with incremental copy of disk "
"(base image shared between src and destination)"
"\n\t\t\t -r to resume a paused migration",
.cmd = hmp_migrate,
},
SRST
``migrate [-d] [-b] [-i]`` *uri*
Migrate to *uri* (using -d to not wait for completion).
``-b``
for migration with full copy of disk
``-i``
for migration with incremental copy of disk (base image is shared)
ERST
{
.name = "migrate_cancel",
.args_type = "",
.params = "",
.help = "cancel the current VM migration",
.cmd = hmp_migrate_cancel,
},
SRST
``migrate_cancel``
Cancel the current VM migration.
ERST
{
.name = "migrate_continue",
.args_type = "state:s",
.params = "state",
.help = "Continue migration from the given paused state",
.cmd = hmp_migrate_continue,
},
SRST
``migrate_continue`` *state*
Continue migration from the paused state *state*
ERST
{
.name = "migrate_incoming",
.args_type = "uri:s",
.params = "uri",
.help = "Continue an incoming migration from an -incoming defer",
.cmd = hmp_migrate_incoming,
},
SRST
``migrate_incoming`` *uri*
Continue an incoming migration using the *uri* (that has the same syntax
as the ``-incoming`` option).
ERST
{
.name = "migrate_recover",
.args_type = "uri:s",
.params = "uri",
.help = "Continue a paused incoming postcopy migration",
.cmd = hmp_migrate_recover,
},
SRST
``migrate_recover`` *uri*
Continue a paused incoming postcopy migration using the *uri*.
ERST
{
.name = "migrate_pause",
.args_type = "",
.params = "",
.help = "Pause an ongoing migration (postcopy-only)",
.cmd = hmp_migrate_pause,
},
SRST
``migrate_pause``
Pause an ongoing migration. Currently it only supports postcopy.
ERST
{
.name = "migrate_set_capability",
.args_type = "capability:s,state:b",
.params = "capability state",
.help = "Enable/Disable the usage of a capability for migration",
.cmd = hmp_migrate_set_capability,
.command_completion = migrate_set_capability_completion,
},
SRST
``migrate_set_capability`` *capability* *state*
Enable/Disable the usage of a capability *capability* for migration.
ERST
{
.name = "migrate_set_parameter",
.args_type = "parameter:s,value:s",
.params = "parameter value",
.help = "Set the parameter for migration",
.cmd = hmp_migrate_set_parameter,
.command_completion = migrate_set_parameter_completion,
},
SRST
``migrate_set_parameter`` *parameter* *value*
Set the parameter *parameter* for migration.
ERST
{
.name = "migrate_start_postcopy",
.args_type = "",
.params = "",
.help = "Followup to a migration command to switch the migration"
" to postcopy mode. The postcopy-ram capability must "
"be set on both source and destination before the "
"original migration command .",
.cmd = hmp_migrate_start_postcopy,
},
SRST
``migrate_start_postcopy``
Switch in-progress migration to postcopy mode. Ignored after the end of
migration (or once already in postcopy).
ERST
{
.name = "x_colo_lost_heartbeat",
.args_type = "",
.params = "",
.help = "Tell COLO that heartbeat is lost,\n\t\t\t"
"a failover or takeover is needed.",
.cmd = hmp_x_colo_lost_heartbeat,
},
SRST
``x_colo_lost_heartbeat``
Tell COLO that heartbeat is lost, a failover or takeover is needed.
ERST
{
.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 = "set migration information for remote display",
.cmd = hmp_client_migrate_info,
},
SRST
``client_migrate_info`` *protocol* *hostname* *port* *tls-port* *cert-subject*
Set migration information for remote display. This makes the server
ask the client to automatically reconnect using the new parameters
once migration finished successfully. Only implemented for SPICE.
ERST
{
.name = "dump-guest-memory",
.args_type = "paging:-p,detach:-d,windmp:-w,zlib:-z,lzo:-l,snappy:-s,filename:F,begin:l?,length:l?",
.params = "[-p] [-d] [-z|-l|-s|-w] filename [begin length]",
.help = "dump guest memory into file 'filename'.\n\t\t\t"
"-p: do paging to get guest's memory mapping.\n\t\t\t"
"-d: return immediately (do not wait for completion).\n\t\t\t"
"-z: dump in kdump-compressed format, with zlib compression.\n\t\t\t"
"-l: dump in kdump-compressed format, with lzo compression.\n\t\t\t"
"-s: dump in kdump-compressed format, with snappy compression.\n\t\t\t"
"-w: dump in Windows crashdump format (can be used instead of ELF-dump converting),\n\t\t\t"
" for Windows x86 and x64 guests with vmcoreinfo driver only.\n\t\t\t"
"begin: the starting physical address.\n\t\t\t"
"length: the memory size, in bytes.",
.cmd = hmp_dump_guest_memory,
},
SRST
``dump-guest-memory [-p]`` *filename* *begin* *length*
\
``dump-guest-memory [-z|-l|-s|-w]`` *filename*
Dump guest memory to *protocol*. The file can be processed with crash or
gdb. Without ``-z|-l|-s|-w``, the dump format is ELF.
``-p``
do paging to get guest's memory mapping.
``-z``
dump in kdump-compressed format, with zlib compression.
``-l``
dump in kdump-compressed format, with lzo compression.
``-s``
dump in kdump-compressed format, with snappy compression.
``-w``
dump in Windows crashdump format (can be used instead of ELF-dump converting),
for Windows x64 guests with vmcoreinfo driver only
*filename*
dump file name.
*begin*
the starting physical address. It's optional, and should be
specified together with *length*.
*length*
the memory size, in bytes. It's optional, and should be specified
together with *begin*.
ERST
#if defined(TARGET_S390X)
{
.name = "dump-skeys",
.args_type = "filename:F",
.params = "",
.help = "Save guest storage keys into file 'filename'.\n",
.cmd = hmp_dump_skeys,
},
#endif
SRST
``dump-skeys`` *filename*
Save guest storage keys to a file.
ERST
#if defined(TARGET_S390X)
{
.name = "migration_mode",
.args_type = "mode:i",
.params = "mode",
.help = "Enables or disables migration mode\n",
.cmd = hmp_migrationmode,
},
#endif
SRST
``migration_mode`` *mode*
Enables or disables migration mode.
ERST
{
.name = "snapshot_blkdev",
.args_type = "reuse:-n,device:B,snapshot-file:s?,format:s?",
.params = "[-n] device [new-image-file] [format]",
.help = "initiates a live snapshot\n\t\t\t"
"of device. If a new image file is specified, the\n\t\t\t"
"new image file will become the new root image.\n\t\t\t"
"If format is specified, the snapshot file will\n\t\t\t"
"be created in that format.\n\t\t\t"
"The default format is qcow2. The -n flag requests QEMU\n\t\t\t"
"to reuse the image found in new-image-file, instead of\n\t\t\t"
"recreating it from scratch.",
.cmd = hmp_snapshot_blkdev,
},
SRST
``snapshot_blkdev``
Snapshot device, using snapshot file as target if provided
ERST
{
.name = "snapshot_blkdev_internal",
.args_type = "device:B,name:s",
.params = "device name",
.help = "take an internal snapshot of device.\n\t\t\t"
"The format of the image used by device must\n\t\t\t"
"support it, such as qcow2.\n\t\t\t",
.cmd = hmp_snapshot_blkdev_internal,
},
SRST
``snapshot_blkdev_internal``
Take an internal snapshot on device if it support
ERST
{
.name = "snapshot_delete_blkdev_internal",
.args_type = "device:B,name:s,id:s?",
.params = "device name [id]",
.help = "delete an internal snapshot of device.\n\t\t\t"
"If id is specified, qemu will try delete\n\t\t\t"
"the snapshot matching both id and name.\n\t\t\t"
"The format of the image used by device must\n\t\t\t"
"support it, such as qcow2.\n\t\t\t",
.cmd = hmp_snapshot_delete_blkdev_internal,
},
SRST
``snapshot_delete_blkdev_internal``
Delete an internal snapshot on device if it support
ERST
{
.name = "drive_mirror",
.args_type = "reuse:-n,full:-f,device:B,target:s,format:s?",
.params = "[-n] [-f] device target [format]",
.help = "initiates live storage\n\t\t\t"
"migration for a device. The device's contents are\n\t\t\t"
"copied to the new image file, including data that\n\t\t\t"
"is written after the command is started.\n\t\t\t"
"The -n flag requests QEMU to reuse the image found\n\t\t\t"
"in new-image-file, instead of recreating it from scratch.\n\t\t\t"
"The -f flag requests QEMU to copy the whole disk,\n\t\t\t"
"so that the result does not need a backing file.\n\t\t\t",
.cmd = hmp_drive_mirror,
},
SRST
``drive_mirror``
Start mirroring a block device's writes to a new destination,
using the specified target.
ERST
{
.name = "drive_backup",
.args_type = "reuse:-n,full:-f,compress:-c,device:B,target:s,format:s?",
.params = "[-n] [-f] [-c] device target [format]",
.help = "initiates a point-in-time\n\t\t\t"
"copy for a device. The device's contents are\n\t\t\t"
"copied to the new image file, excluding data that\n\t\t\t"
"is written after the command is started.\n\t\t\t"
"The -n flag requests QEMU to reuse the image found\n\t\t\t"
"in new-image-file, instead of recreating it from scratch.\n\t\t\t"
"The -f flag requests QEMU to copy the whole disk,\n\t\t\t"
"so that the result does not need a backing file.\n\t\t\t"
"The -c flag requests QEMU to compress backup data\n\t\t\t"
"(if the target format supports it).\n\t\t\t",
.cmd = hmp_drive_backup,
},
SRST
``drive_backup``
Start a point-in-time copy of a block device to a specified target.
ERST
{
.name = "drive_add",
.args_type = "node:-n,pci_addr:s,opts:s",
.params = "[-n] [[<domain>:]<bus>:]<slot>\n"
"[file=file][,if=type][,bus=n]\n"
"[,unit=m][,media=d][,index=i]\n"
"[,snapshot=on|off][,cache=on|off]\n"
"[,readonly=on|off][,copy-on-read=on|off]",
.help = "add drive to PCI storage controller",
.cmd = hmp_drive_add,
},
SRST
``drive_add``
Add drive to PCI storage controller.
ERST
{
.name = "pcie_aer_inject_error",
.args_type = "advisory_non_fatal:-a,correctable:-c,"
"id:s,error_status:s,"
"header0:i?,header1:i?,header2:i?,header3:i?,"
"prefix0:i?,prefix1:i?,prefix2:i?,prefix3:i?",
.params = "[-a] [-c] id "
"<error_status> [<tlp header> [<tlp header prefix>]]",
.help = "inject pcie aer error\n\t\t\t"
" -a for advisory non fatal error\n\t\t\t"
" -c for correctable error\n\t\t\t"
"<id> = qdev device id\n\t\t\t"
"<error_status> = error string or 32bit\n\t\t\t"
"<tlp header> = 32bit x 4\n\t\t\t"
"<tlp header prefix> = 32bit x 4",
.cmd = hmp_pcie_aer_inject_error,
},
SRST
``pcie_aer_inject_error``
Inject PCIe AER error
ERST
{
.name = "netdev_add",
.args_type = "netdev:O",
.params = "[user|tap|socket|vde|bridge|hubport|netmap|vhost-user"
#ifdef CONFIG_VMNET
"|vmnet-host|vmnet-shared|vmnet-bridged"
#endif
"],id=str[,prop=value][,...]",
.help = "add host network device",
.cmd = hmp_netdev_add,
.command_completion = netdev_add_completion,
.flags = "p",
},
SRST
``netdev_add``
Add host network device.
ERST
{
.name = "netdev_del",
.args_type = "id:s",
.params = "id",
.help = "remove host network device",
.cmd = hmp_netdev_del,
.command_completion = netdev_del_completion,
.flags = "p",
},
SRST
``netdev_del``
Remove host network device.
ERST
{
.name = "object_add",
.args_type = "object:S",
.params = "[qom-type=]type,id=str[,prop=value][,...]",
.help = "create QOM object",
.cmd = hmp_object_add,
.command_completion = object_add_completion,
.flags = "p",
},
SRST
``object_add``
Create QOM object.
ERST
{
.name = "object_del",
.args_type = "id:s",
.params = "id",
.help = "destroy QOM object",
.cmd = hmp_object_del,
.command_completion = object_del_completion,
.flags = "p",
},
SRST
``object_del``
Destroy QOM object.
ERST
#ifdef CONFIG_SLIRP
{
.name = "hostfwd_add",
.args_type = "arg1:s,arg2:s?",
.params = "[netdev_id] [tcp|udp]:[hostaddr]:hostport-[guestaddr]:guestport",
.help = "redirect TCP or UDP connections from host to guest (requires -net user)",
.cmd = hmp_hostfwd_add,
},
#endif
SRST
``hostfwd_add``
Redirect TCP or UDP connections from host to guest (requires -net user).
ERST
#ifdef CONFIG_SLIRP
{
.name = "hostfwd_remove",
.args_type = "arg1:s,arg2:s?",
.params = "[netdev_id] [tcp|udp]:[hostaddr]:hostport",
.help = "remove host-to-guest TCP or UDP redirection",
.cmd = hmp_hostfwd_remove,
},
#endif
SRST
``hostfwd_remove``
Remove host-to-guest TCP or UDP redirection.
ERST
{
.name = "balloon",
.args_type = "value:M",
.params = "target",
.help = "request VM to change its memory allocation (in MB)",
.cmd = hmp_balloon,
},
SRST
``balloon`` *value*
Request VM to change its memory allocation to *value* (in MB).
ERST
{
.name = "set_link",
.args_type = "name:s,up:b",
.params = "name on|off",
.help = "change the link status of a network adapter",
.cmd = hmp_set_link,
.command_completion = set_link_completion,
},
SRST
``set_link`` *name* ``[on|off]``
Switch link *name* on (i.e. up) or off (i.e. down).
ERST
{
.name = "watchdog_action",
.args_type = "action:s",
.params = "[reset|shutdown|poweroff|pause|debug|none]",
.help = "change watchdog action",
.cmd = hmp_watchdog_action,
.command_completion = watchdog_action_completion,
},
SRST
``watchdog_action``
Change watchdog action.
ERST
{
.name = "nbd_server_start",
.args_type = "all:-a,writable:-w,uri:s",
.params = "nbd_server_start [-a] [-w] host:port",
.help = "serve block devices on the given host and port",
.cmd = hmp_nbd_server_start,
.flags = "p",
},
SRST
``nbd_server_start`` *host*:*port*
Start an NBD server on the given host and/or port. If the ``-a``
option is included, all of the virtual machine's block devices that
have an inserted media on them are automatically exported; in this case,
the ``-w`` option makes the devices writable too.
ERST
{
.name = "nbd_server_add",
.args_type = "writable:-w,device:B,name:s?",
.params = "nbd_server_add [-w] device [name]",
.help = "export a block device via NBD",
.cmd = hmp_nbd_server_add,
.flags = "p",
},
SRST
``nbd_server_add`` *device* [ *name* ]
Export a block device through QEMU's NBD server, which must be started
beforehand with ``nbd_server_start``. The ``-w`` option makes the
exported device writable too. The export name is controlled by *name*,
defaulting to *device*.
ERST
{
.name = "nbd_server_remove",
.args_type = "force:-f,name:s",
.params = "nbd_server_remove [-f] name",
.help = "remove an export previously exposed via NBD",
.cmd = hmp_nbd_server_remove,
.flags = "p",
},
SRST
``nbd_server_remove [-f]`` *name*
Stop exporting a block device through QEMU's NBD server, which was
previously started with ``nbd_server_add``. The ``-f``
option forces the server to drop the export immediately even if
clients are connected; otherwise the command fails unless there are no
clients.
ERST
{
.name = "nbd_server_stop",
.args_type = "",
.params = "nbd_server_stop",
.help = "stop serving block devices using the NBD protocol",
.cmd = hmp_nbd_server_stop,
.flags = "p",
},
SRST
``nbd_server_stop``
Stop the QEMU embedded NBD server.
ERST
#if defined(TARGET_I386)
{
.name = "mce",
.args_type = "broadcast:-b,cpu_index:i,bank:i,status:l,mcg_status:l,addr:l,misc:l",
.params = "[-b] cpu bank status mcgstatus addr misc",
.help = "inject a MCE on the given CPU [and broadcast to other CPUs with -b option]",
.cmd = hmp_mce,
},
#endif
SRST
``mce`` *cpu* *bank* *status* *mcgstatus* *addr* *misc*
Inject an MCE on the given CPU (x86 only).
ERST
{
.name = "getfd",
.args_type = "fdname:s",
.params = "getfd name",
.help = "receive a file descriptor via SCM rights and assign it a name",
.cmd = hmp_getfd,
.flags = "p",
},
SRST
``getfd`` *fdname*
If a file descriptor is passed alongside this command using the SCM_RIGHTS
mechanism on unix sockets, it is stored using the name *fdname* for
later use by other monitor commands.
ERST
{
.name = "closefd",
.args_type = "fdname:s",
.params = "closefd name",
.help = "close a file descriptor previously passed via SCM rights",
.cmd = hmp_closefd,
.flags = "p",
},
SRST
``closefd`` *fdname*
Close the file descriptor previously assigned to *fdname* using the
``getfd`` command. This is only needed if the file descriptor was never
used by another monitor command.
ERST
{
.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",
.params = "device bps bps_rd bps_wr iops iops_rd iops_wr",
.help = "change I/O throttle limits for a block drive",
.cmd = hmp_block_set_io_throttle,
.flags = "p",
},
SRST
``block_set_io_throttle`` *device* *bps* *bps_rd* *bps_wr* *iops* *iops_rd* *iops_wr*
Change I/O throttle limits for a block drive to
*bps* *bps_rd* *bps_wr* *iops* *iops_rd* *iops_wr*.
*device* can be a block device name, a qdev ID or a QOM path.
ERST
{
.name = "set_password",
.args_type = "protocol:s,password:s,display:-ds,connected:s?",
.params = "protocol password [-d display] [action-if-connected]",
.help = "set spice/vnc password",
.cmd = hmp_set_password,
},
SRST
``set_password [ vnc | spice ] password [ -d display ] [ action-if-connected ]``
Change spice/vnc password. *display* can be used with 'vnc' to specify
which display to set the password on. *action-if-connected* specifies
what should happen in case a connection is established: *fail* makes
the password change fail. *disconnect* changes the password and
disconnects the client. *keep* changes the password and keeps the
connection up. *keep* is the default.
ERST
{
.name = "expire_password",
.args_type = "protocol:s,time:s,display:-ds",
.params = "protocol time [-d display]",
.help = "set spice/vnc password expire-time",
.cmd = hmp_expire_password,
},
SRST
``expire_password [ vnc | spice ] expire-time [ -d display ]``
Specify when a password for spice/vnc becomes invalid.
*display* behaves the same as in ``set_password``.
*expire-time* accepts:
``now``
Invalidate password instantly.
``never``
Password stays valid forever.
``+``\ *nsec*
Password stays valid for *nsec* seconds starting now.
*nsec*
Password is invalidated at the given time. *nsec* are the seconds
passed since 1970, i.e. unix epoch.
ERST
{
.name = "chardev-add",
.args_type = "args:s",
.params = "args",
.help = "add chardev",
.cmd = hmp_chardev_add,
.command_completion = chardev_add_completion,
},
SRST
``chardev-add`` *args*
chardev-add accepts the same parameters as the -chardev command line switch.
ERST
{
.name = "chardev-change",
.args_type = "id:s,args:s",
.params = "id args",
.help = "change chardev",
.cmd = hmp_chardev_change,
},
SRST
``chardev-change`` *args*
chardev-change accepts existing chardev *id* and then the same arguments
as the -chardev command line switch (except for "id").
ERST
{
.name = "chardev-remove",
.args_type = "id:s",
.params = "id",
.help = "remove chardev",
.cmd = hmp_chardev_remove,
.command_completion = chardev_remove_completion,
},
SRST
``chardev-remove`` *id*
Removes the chardev *id*.
ERST
{
.name = "chardev-send-break",
.args_type = "id:s",
.params = "id",
.help = "send a break on chardev",
.cmd = hmp_chardev_send_break,
.command_completion = chardev_remove_completion,
},
SRST
``chardev-send-break`` *id*
Send a break on the chardev *id*.
ERST
{
.name = "qemu-io",
.args_type = "qdev:-d,device:B,command:s",
.params = "[-d] [device] \"[command]\"",
.help = "run a qemu-io command on a block device\n\t\t\t"
"-d: [device] is a device ID rather than a "
"drive ID or node name",
.cmd = hmp_qemu_io,
},
SRST
``qemu-io`` *device* *command*
Executes a qemu-io command on the given block device.
ERST
{
.name = "qom-list",
.args_type = "path:s?",
.params = "path",
.help = "list QOM properties",
.cmd = hmp_qom_list,
.flags = "p",
},
SRST
``qom-list`` [*path*]
Print QOM properties of object at location *path*
ERST
{
.name = "qom-get",
.args_type = "path:s,property:s",
.params = "path property",
.help = "print QOM property",
.cmd = hmp_qom_get,
.flags = "p",
},
SRST
``qom-get`` *path* *property*
Print QOM property *property* of object at location *path*
ERST
{
.name = "qom-set",
.args_type = "json:-j,path:s,property:s,value:S",
.params = "[-j] path property value",
.help = "set QOM property.\n\t\t\t"
"-j: the value is specified in json format.",
.cmd = hmp_qom_set,
.flags = "p",
},
SRST
``qom-set`` *path* *property* *value*
Set QOM property *property* of object at location *path* to value *value*
ERST
{
.name = "replay_break",
.args_type = "icount:l",
.params = "icount",
.help = "set breakpoint at the specified instruction count",
.cmd = hmp_replay_break,
},
SRST
``replay_break`` *icount*
Set replay breakpoint at instruction count *icount*.
Execution stops when the specified instruction is reached.
There can be at most one breakpoint. When breakpoint is set, any prior
one is removed. The breakpoint may be set only in replay mode and only
"in the future", i.e. at instruction counts greater than the current one.
The current instruction count can be observed with ``info replay``.
ERST
{
.name = "replay_delete_break",
.args_type = "",
.params = "",
.help = "remove replay breakpoint",
.cmd = hmp_replay_delete_break,
},
SRST
``replay_delete_break``
Remove replay breakpoint which was previously set with ``replay_break``.
The command is ignored when there are no replay breakpoints.
ERST
{
.name = "replay_seek",
.args_type = "icount:l",
.params = "icount",
.help = "replay execution to the specified instruction count",
.cmd = hmp_replay_seek,
},
SRST
``replay_seek`` *icount*
Automatically proceed to the instruction count *icount*, when
replaying the execution. The command automatically loads nearest
snapshot and replays the execution to find the desired instruction.
When there is no preceding snapshot or the execution is not replayed,
then the command fails.
*icount* for the reference may be observed with ``info replay`` command.
ERST
{
.name = "calc_dirty_rate",
.args_type = "dirty_ring:-r,dirty_bitmap:-b,second:l,sample_pages_per_GB:l?",
.params = "[-r] [-b] second [sample_pages_per_GB]",
.help = "start a round of guest dirty rate measurement (using -r to"
"\n\t\t\t specify dirty ring as the method of calculation and"
"\n\t\t\t -b to specify dirty bitmap as method of calculation)",
.cmd = hmp_calc_dirty_rate,
},
SRST
``calc_dirty_rate`` *second*
Start a round of dirty rate measurement with the period specified in *second*.
The result of the dirty rate measurement may be observed with ``info
dirty_rate`` command.
ERST
{
.name = "set_vcpu_dirty_limit",
.args_type = "dirty_rate:l,cpu_index:l?",
.params = "dirty_rate [cpu_index]",
.help = "set dirty page rate limit, use cpu_index to set limit"
"\n\t\t\t\t\t on a specified virtual cpu",
.cmd = hmp_set_vcpu_dirty_limit,
},
SRST
``set_vcpu_dirty_limit``
Set dirty page rate limit on virtual CPU, the information about all the
virtual CPU dirty limit status can be observed with ``info vcpu_dirty_limit``
command.
ERST
{
.name = "cancel_vcpu_dirty_limit",
.args_type = "cpu_index:l?",
.params = "[cpu_index]",
.help = "cancel dirty page rate limit, use cpu_index to cancel"
"\n\t\t\t\t\t limit on a specified virtual cpu",
.cmd = hmp_cancel_vcpu_dirty_limit,
},
SRST
``cancel_vcpu_dirty_limit``
Cancel dirty page rate limit on virtual CPU, the information about all the
virtual CPU dirty limit status can be observed with ``info vcpu_dirty_limit``
command.
ERST
{
.name = "info",
.args_type = "item:s?",
.params = "[subcommand]",
.help = "show various information about the system state",
.cmd = hmp_info_help,
.sub_table = hmp_info_cmds,
.flags = "p",
},