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# -*- Mode: Python -*-
# vim: filetype=python
#

##
# = Migration
##

{ 'include': 'common.json' }
{ 'include': 'sockets.json' }

##
# @MigrationStats:
#
# Detailed migration status.
#
# @transferred: amount of bytes already transferred to the target VM
#
# @remaining: amount of bytes remaining to be transferred to the
#     target VM
#
# @total: total amount of bytes involved in the migration process
#
# @duplicate: number of duplicate (zero) pages (since 1.2)
#
# @skipped: number of skipped zero pages (since 1.5)
#
# @normal: number of normal pages (since 1.2)
#
# @normal-bytes: number of normal bytes sent (since 1.2)
#
# @dirty-pages-rate: number of pages dirtied by second by the guest
#     (since 1.3)
#
# @mbps: throughput in megabits/sec.  (since 1.6)
#
# @dirty-sync-count: number of times that dirty ram was synchronized
#     (since 2.1)
#
# @postcopy-requests: The number of page requests received from the
#     destination (since 2.7)
#
# @page-size: The number of bytes per page for the various page-based
#     statistics (since 2.10)
#
# @multifd-bytes: The number of bytes sent through multifd (since 3.0)
#
# @pages-per-second: the number of memory pages transferred per second
#     (Since 4.0)
#
# @precopy-bytes: The number of bytes sent in the pre-copy phase
#     (since 7.0).
#
# @downtime-bytes: The number of bytes sent while the guest is paused
#     (since 7.0).
#
# @postcopy-bytes: The number of bytes sent during the post-copy phase
#     (since 7.0).
#
# @dirty-sync-missed-zero-copy: Number of times dirty RAM
#     synchronization could not avoid copying dirty pages.  This is
#     between 0 and @dirty-sync-count * @multifd-channels.  (since
#     7.1)
#
# Since: 0.14
##
{ 'struct': 'MigrationStats',
  'data': {'transferred': 'int', 'remaining': 'int', 'total': 'int' ,
           'duplicate': 'int', 'skipped': 'int', 'normal': 'int',
           'normal-bytes': 'int', 'dirty-pages-rate': 'int',
           'mbps': 'number', 'dirty-sync-count': 'int',
           'postcopy-requests': 'int', 'page-size': 'int',
           'multifd-bytes': 'uint64', 'pages-per-second': 'uint64',
           'precopy-bytes': 'uint64', 'downtime-bytes': 'uint64',
           'postcopy-bytes': 'uint64',
           'dirty-sync-missed-zero-copy': 'uint64' } }

##
# @XBZRLECacheStats:
#
# Detailed XBZRLE migration cache statistics
#
# @cache-size: XBZRLE cache size
#
# @bytes: amount of bytes already transferred to the target VM
#
# @pages: amount of pages transferred to the target VM
#
# @cache-miss: number of cache miss
#
# @cache-miss-rate: rate of cache miss (since 2.1)
#
# @encoding-rate: rate of encoded bytes (since 5.1)
#
# @overflow: number of overflows
#
# Since: 1.2
##
{ 'struct': 'XBZRLECacheStats',
  'data': {'cache-size': 'size', 'bytes': 'int', 'pages': 'int',
           'cache-miss': 'int', 'cache-miss-rate': 'number',
           'encoding-rate': 'number', 'overflow': 'int' } }

##
# @CompressionStats:
#
# Detailed migration compression statistics
#
# @pages: amount of pages compressed and transferred to the target VM
#
# @busy: count of times that no free thread was available to compress
#     data
#
# @busy-rate: rate of thread busy
#
# @compressed-size: amount of bytes after compression
#
# @compression-rate: rate of compressed size
#
# Since: 3.1
##
{ 'struct': 'CompressionStats',
  'data': {'pages': 'int', 'busy': 'int', 'busy-rate': 'number',
           'compressed-size': 'int', 'compression-rate': 'number' } }

##
# @MigrationStatus:
#
# An enumeration of migration status.
#
# @none: no migration has ever happened.
#
# @setup: migration process has been initiated.
#
# @cancelling: in the process of cancelling migration.
#
# @cancelled: cancelling migration is finished.
#
# @active: in the process of doing migration.
#
# @postcopy-active: like active, but now in postcopy mode.  (since
#     2.5)
#
# @postcopy-paused: during postcopy but paused.  (since 3.0)
#
# @postcopy-recover: trying to recover from a paused postcopy.  (since
#     3.0)
#
# @completed: migration is finished.
#
# @failed: some error occurred during migration process.
#
# @colo: VM is in the process of fault tolerance, VM can not get into
#     this state unless colo capability is enabled for migration.
#     (since 2.8)
#
# @pre-switchover: Paused before device serialisation.  (since 2.11)
#
# @device: During device serialisation when pause-before-switchover is
#     enabled (since 2.11)
#
# @wait-unplug: wait for device unplug request by guest OS to be
#     completed.  (since 4.2)
#
# Since: 2.3
##
{ 'enum': 'MigrationStatus',
  'data': [ 'none', 'setup', 'cancelling', 'cancelled',
            'active', 'postcopy-active', 'postcopy-paused',
            'postcopy-recover', 'completed', 'failed', 'colo',
            'pre-switchover', 'device', 'wait-unplug' ] }
##
# @VfioStats:
#
# Detailed VFIO devices migration statistics
#
# @transferred: amount of bytes transferred to the target VM by VFIO
#     devices
#
# Since: 5.2
##
{ 'struct': 'VfioStats',
  'data': {'transferred': 'int' } }

##
# @MigrationInfo:
#
# Information about current migration process.
#
# @status: @MigrationStatus describing the current migration status.
#     If this field is not returned, no migration process has been
#     initiated
#
# @ram: @MigrationStats containing detailed migration status, only
#     returned if status is 'active' or 'completed'(since 1.2)
#
# @disk: @MigrationStats containing detailed disk migration status,
#     only returned if status is 'active' and it is a block migration
#
# @xbzrle-cache: @XBZRLECacheStats containing detailed XBZRLE
#     migration statistics, only returned if XBZRLE feature is on and
#     status is 'active' or 'completed' (since 1.2)
#
# @total-time: total amount of milliseconds since migration started.
#     If migration has ended, it returns the total migration time.
#     (since 1.2)
#
# @downtime: only present when migration finishes correctly total
#     downtime in milliseconds for the guest.  (since 1.3)
#
# @expected-downtime: only present while migration is active expected
#     downtime in milliseconds for the guest in last walk of the dirty
#     bitmap.  (since 1.3)
#
# @setup-time: amount of setup time in milliseconds *before* the
#     iterations begin but *after* the QMP command is issued.  This is
#     designed to provide an accounting of any activities (such as
#     RDMA pinning) which may be expensive, but do not actually occur
#     during the iterative migration rounds themselves.  (since 1.6)
#
# @cpu-throttle-percentage: percentage of time guest cpus are being
#     throttled during auto-converge.  This is only present when
#     auto-converge has started throttling guest cpus.  (Since 2.7)
#
# @error-desc: the human readable error description string, when
#     @status is 'failed'. Clients should not attempt to parse the
#     error strings.  (Since 2.7)
#
# @postcopy-blocktime: total time when all vCPU were blocked during
#     postcopy live migration.  This is only present when the
#     postcopy-blocktime migration capability is enabled.  (Since 3.0)
#
# @postcopy-vcpu-blocktime: list of the postcopy blocktime per vCPU.
#     This is only present when the postcopy-blocktime migration
#     capability is enabled.  (Since 3.0)
#
# @compression: migration compression statistics, only returned if
#     compression feature is on and status is 'active' or 'completed'
#     (Since 3.1)
#
# @socket-address: Only used for tcp, to know what the real port is
#     (Since 4.0)
#
# @vfio: @VfioStats containing detailed VFIO devices migration
#     statistics, only returned if VFIO device is present, migration
#     is supported by all VFIO devices and status is 'active' or
#     'completed' (since 5.2)
#
# @blocked-reasons: A list of reasons an outgoing migration is
#     blocked.  Present and non-empty when migration is blocked.
#     (since 6.0)
#
# @dirty-limit-throttle-time-per-round: Maximum throttle time (in microseconds) of virtual
#                                       CPUs each dirty ring full round, which shows how
#                                       MigrationCapability dirty-limit affects the guest
#                                       during live migration. (since 8.1)
#
# @dirty-limit-ring-full-time: Estimated average dirty ring full time (in microseconds)
#                              each dirty ring full round, note that the value equals
#                              dirty ring memory size divided by average dirty page rate
#                              of virtual CPU, which can be used to observe the average
#                              memory load of virtual CPU indirectly. Note that zero
#                              means guest doesn't dirty memory (since 8.1)
#
# Since: 0.14
##
{ 'struct': 'MigrationInfo',
  'data': {'*status': 'MigrationStatus', '*ram': 'MigrationStats',
           '*disk': 'MigrationStats',
           '*vfio': 'VfioStats',
           '*xbzrle-cache': 'XBZRLECacheStats',
           '*total-time': 'int',
           '*expected-downtime': 'int',
           '*downtime': 'int',
           '*setup-time': 'int',
           '*cpu-throttle-percentage': 'int',
           '*error-desc': 'str',
           '*blocked-reasons': ['str'],
           '*postcopy-blocktime': 'uint32',
           '*postcopy-vcpu-blocktime': ['uint32'],
           '*compression': 'CompressionStats',
           '*socket-address': ['SocketAddress'],
           '*dirty-limit-throttle-time-per-round': 'uint64',
           '*dirty-limit-ring-full-time': 'uint64'} }

##
# @query-migrate:
#
# Returns information about current migration process.  If migration
# is active there will be another json-object with RAM migration
# status and if block migration is active another one with block
# migration status.
#
# Returns: @MigrationInfo
#
# Since: 0.14
#
# Examples:
#
# 1. Before the first migration
#
# -> { "execute": "query-migrate" }
# <- { "return": {} }
#
# 2. Migration is done and has succeeded
#
# -> { "execute": "query-migrate" }
# <- { "return": {
#         "status": "completed",
#         "total-time":12345,
#         "setup-time":12345,
#         "downtime":12345,
#         "ram":{
#           "transferred":123,
#           "remaining":123,
#           "total":246,
#           "duplicate":123,
#           "normal":123,
#           "normal-bytes":123456,
#           "dirty-sync-count":15
#         }
#      }
#    }
#
# 3. Migration is done and has failed
#
# -> { "execute": "query-migrate" }
# <- { "return": { "status": "failed" } }
#
# 4. Migration is being performed and is not a block migration:
#
# -> { "execute": "query-migrate" }
# <- {
#       "return":{
#          "status":"active",
#          "total-time":12345,
#          "setup-time":12345,
#          "expected-downtime":12345,
#          "ram":{
#             "transferred":123,
#             "remaining":123,
#             "total":246,
#             "duplicate":123,
#             "normal":123,
#             "normal-bytes":123456,
#             "dirty-sync-count":15
#          }
#       }
#    }
#
# 5. Migration is being performed and is a block migration:
#
# -> { "execute": "query-migrate" }
# <- {
#       "return":{
#          "status":"active",
#          "total-time":12345,
#          "setup-time":12345,
#          "expected-downtime":12345,
#          "ram":{
#             "total":1057024,
#             "remaining":1053304,
#             "transferred":3720,
#             "duplicate":123,
#             "normal":123,
#             "normal-bytes":123456,
#             "dirty-sync-count":15
#          },
#          "disk":{
#             "total":20971520,
#             "remaining":20880384,
#             "transferred":91136
#          }
#       }
#    }
#
# 6. Migration is being performed and XBZRLE is active:
#
# -> { "execute": "query-migrate" }
# <- {
#       "return":{
#          "status":"active",
#          "total-time":12345,
#          "setup-time":12345,
#          "expected-downtime":12345,
#          "ram":{
#             "total":1057024,
#             "remaining":1053304,
#             "transferred":3720,
#             "duplicate":10,
#             "normal":3333,
#             "normal-bytes":3412992,
#             "dirty-sync-count":15
#          },
#          "xbzrle-cache":{
#             "cache-size":67108864,
#             "bytes":20971520,
#             "pages":2444343,
#             "cache-miss":2244,
#             "cache-miss-rate":0.123,
#             "encoding-rate":80.1,
#             "overflow":34434
#          }
#       }
#    }
##
{ 'command': 'query-migrate', 'returns': 'MigrationInfo' }

##
# @MigrationCapability:
#
# Migration capabilities enumeration
#
# @xbzrle: Migration supports xbzrle (Xor Based Zero Run Length
#     Encoding). This feature allows us to minimize migration traffic
#     for certain work loads, by sending compressed difference of the
#     pages
#
# @rdma-pin-all: Controls whether or not the entire VM memory
#     footprint is mlock()'d on demand or all at once.  Refer to
#     docs/rdma.txt for usage.  Disabled by default.  (since 2.0)
#
# @zero-blocks: During storage migration encode blocks of zeroes
#     efficiently.  This essentially saves 1MB of zeroes per block on
#     the wire.  Enabling requires source and target VM to support
#     this feature.  To enable it is sufficient to enable the
#     capability on the source VM. The feature is disabled by default.
#     (since 1.6)
#
# @compress: Use multiple compression threads to accelerate live
#     migration.  This feature can help to reduce the migration
#     traffic, by sending compressed pages.  Please note that if
#     compress and xbzrle are both on, compress only takes effect in
#     the ram bulk stage, after that, it will be disabled and only
#     xbzrle takes effect, this can help to minimize migration
#     traffic.  The feature is disabled by default.  (since 2.4 )
#
# @events: generate events for each migration state change (since 2.4
#     )
#
# @auto-converge: If enabled, QEMU will automatically throttle down
#     the guest to speed up convergence of RAM migration.  (since 1.6)
#
# @postcopy-ram: Start executing on the migration target before all of
#     RAM has been migrated, pulling the remaining pages along as
#     needed.  The capacity must have the same setting on both source
#     and target or migration will not even start.  NOTE: If the
#     migration fails during postcopy the VM will fail.  (since 2.6)
#
# @x-colo: If enabled, migration will never end, and the state of the
#     VM on the primary side will be migrated continuously to the VM
#     on secondary side, this process is called COarse-Grain LOck
#     Stepping (COLO) for Non-stop Service.  (since 2.8)
#
# @release-ram: if enabled, qemu will free the migrated ram pages on
#     the source during postcopy-ram migration.  (since 2.9)
#
# @block: If enabled, QEMU will also migrate the contents of all block
#     devices.  Default is disabled.  A possible alternative uses
#     mirror jobs to a builtin NBD server on the destination, which
#     offers more flexibility.  (Since 2.10)
#
# @return-path: If enabled, migration will use the return path even
#     for precopy.  (since 2.10)
#
# @pause-before-switchover: Pause outgoing migration before
#     serialising device state and before disabling block IO (since
#     2.11)
#
# @multifd: Use more than one fd for migration (since 4.0)
#
# @dirty-bitmaps: If enabled, QEMU will migrate named dirty bitmaps.
#     (since 2.12)
#
# @postcopy-blocktime: Calculate downtime for postcopy live migration
#     (since 3.0)
#
# @late-block-activate: If enabled, the destination will not activate
#     block devices (and thus take locks) immediately at the end of
#     migration.  (since 3.0)
#
# @x-ignore-shared: If enabled, QEMU will not migrate shared memory that is
#     accessible on the destination machine. (since 4.0)
#
# @validate-uuid: Send the UUID of the source to allow the destination
#     to ensure it is the same.  (since 4.2)
#
# @background-snapshot: If enabled, the migration stream will be a
#     snapshot of the VM exactly at the point when the migration
#     procedure starts.  The VM RAM is saved with running VM. (since
#     6.0)
#
# @zero-copy-send: Controls behavior on sending memory pages on
#     migration.  When true, enables a zero-copy mechanism for sending
#     memory pages, if host supports it.  Requires that QEMU be
#     permitted to use locked memory for guest RAM pages.  (since 7.1)
#
# @postcopy-preempt: If enabled, the migration process will allow
#     postcopy requests to preempt precopy stream, so postcopy
#     requests will be handled faster.  This is a performance feature
#     and should not affect the correctness of postcopy migration.
#     (since 7.1)
#
# @switchover-ack: If enabled, migration will not stop the source VM
#     and complete the migration until an ACK is received from the
#     destination that it's OK to do so.  Exactly when this ACK is
#     sent depends on the migrated devices that use this feature.
#     For example, a device can use it to make sure some of its data
#     is sent and loaded in the destination before doing switchover.
#     This can reduce downtime if devices that support this capability
#     are present.  'return-path' capability must be enabled to use
#     it.  (since 8.1)
#
# @dirty-limit: If enabled, migration will use the dirty-limit algo to
#               throttle down guest instead of auto-converge algo.
#               Throttle algo only works when vCPU's dirtyrate greater
#               than 'vcpu-dirty-limit', read processes in guest os
#               aren't penalized any more, so this algo can improve
#               performance of vCPU during live migration. This is an
#               optional performance feature and should not affect the
#               correctness of the existing auto-converge algo.
#               (since 8.1)
#
# Features:
#
# @unstable: Members @x-colo and @x-ignore-shared are experimental.
#
# Since: 1.2
##
{ 'enum': 'MigrationCapability',
  'data': ['xbzrle', 'rdma-pin-all', 'auto-converge', 'zero-blocks',
           'compress', 'events', 'postcopy-ram',
           { 'name': 'x-colo', 'features': [ 'unstable' ] },
           'release-ram',
           'block', 'return-path', 'pause-before-switchover', 'multifd',
           'dirty-bitmaps', 'postcopy-blocktime', 'late-block-activate',
           { 'name': 'x-ignore-shared', 'features': [ 'unstable' ] },
           'validate-uuid', 'background-snapshot',
           'zero-copy-send', 'postcopy-preempt', 'switchover-ack',
           'dirty-limit'] }

##
# @MigrationCapabilityStatus:
#
# Migration capability information
#
# @capability: capability enum
#
# @state: capability state bool
#
# Since: 1.2
##
{ 'struct': 'MigrationCapabilityStatus',
  'data': { 'capability': 'MigrationCapability', 'state': 'bool' } }

##
# @migrate-set-capabilities:
#
# Enable/Disable the following migration capabilities (like xbzrle)
#
# @capabilities: json array of capability modifications to make
#
# Since: 1.2
#
# Example:
#
# -> { "execute": "migrate-set-capabilities" , "arguments":
#      { "capabilities": [ { "capability": "xbzrle", "state": true } ] } }
# <- { "return": {} }
##
{ 'command': 'migrate-set-capabilities',
  'data': { 'capabilities': ['MigrationCapabilityStatus'] } }

##
# @query-migrate-capabilities:
#
# Returns information about the current migration capabilities status
#
# Returns: @MigrationCapabilityStatus
#
# Since: 1.2
#
# Example:
#
# -> { "execute": "query-migrate-capabilities" }
# <- { "return": [
#       {"state": false, "capability": "xbzrle"},
#       {"state": false, "capability": "rdma-pin-all"},
#       {"state": false, "capability": "auto-converge"},
#       {"state": false, "capability": "zero-blocks"},
#       {"state": false, "capability": "compress"},
#       {"state": true, "capability": "events"},
#       {"state": false, "capability": "postcopy-ram"},
#       {"state": false, "capability": "x-colo"}
#    ]}
##
{ 'command': 'query-migrate-capabilities', 'returns':   ['MigrationCapabilityStatus']}

##
# @MultiFDCompression:
#
# An enumeration of multifd compression methods.
#
# @none: no compression.
#
# @zlib: use zlib compression method.
#
# @zstd: use zstd compression method.
#
# Since: 5.0
##
{ 'enum': 'MultiFDCompression',
  'data': [ 'none', 'zlib',
            { 'name': 'zstd', 'if': 'CONFIG_ZSTD' } ] }

##
# @BitmapMigrationBitmapAliasTransform:
#
# @persistent: If present, the bitmap will be made persistent or
#     transient depending on this parameter.
#
# Since: 6.0
##
{ 'struct': 'BitmapMigrationBitmapAliasTransform',
  'data': {
      '*persistent': 'bool'
  } }

##
# @BitmapMigrationBitmapAlias:
#
# @name: The name of the bitmap.
#
# @alias: An alias name for migration (for example the bitmap name on
#     the opposite site).
#
# @transform: Allows the modification of the migrated bitmap.  (since
#     6.0)
#
# Since: 5.2
##
{ 'struct': 'BitmapMigrationBitmapAlias',
  'data': {
      'name': 'str',
      'alias': 'str',
      '*transform': 'BitmapMigrationBitmapAliasTransform'
  } }

##
# @BitmapMigrationNodeAlias:
#
# Maps a block node name and the bitmaps it has to aliases for dirty
# bitmap migration.
#
# @node-name: A block node name.
#
# @alias: An alias block node name for migration (for example the node
#     name on the opposite site).
#
# @bitmaps: Mappings for the bitmaps on this node.
#
# Since: 5.2
##
{ 'struct': 'BitmapMigrationNodeAlias',
  'data': {
      'node-name': 'str',
      'alias': 'str',
      'bitmaps': [ 'BitmapMigrationBitmapAlias' ]
  } }

##
# @MigrationParameter:
#
# Migration parameters enumeration
#
# @announce-initial: Initial delay (in milliseconds) before sending
#     the first announce (Since 4.0)
#
# @announce-max: Maximum delay (in milliseconds) between packets in
#     the announcement (Since 4.0)
#
# @announce-rounds: Number of self-announce packets sent after
#     migration (Since 4.0)
#
# @announce-step: Increase in delay (in milliseconds) between
#     subsequent packets in the announcement (Since 4.0)
#
# @compress-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 9,
#     where 0 means no compression, 1 means the best compression
#     speed, and 9 means best compression ratio which will consume
#     more CPU.
#
# @compress-threads: Set compression thread count to be used in live
#     migration, the compression thread count is an integer between 1
#     and 255.
#
# @compress-wait-thread: Controls behavior when all compression
#     threads are currently busy.  If true (default), wait for a free
#     compression thread to become available; otherwise, send the page
#     uncompressed.  (Since 3.1)
#
# @decompress-threads: Set decompression thread count to be used in
#     live migration, the decompression thread count is an integer
#     between 1 and 255. Usually, decompression is at least 4 times as
#     fast as compression, so set the decompress-threads to the number
#     about 1/4 of compress-threads is adequate.
#
# @throttle-trigger-threshold: The ratio of bytes_dirty_period and
#     bytes_xfer_period to trigger throttling.  It is expressed as
#     percentage.  The default value is 50. (Since 5.0)
#
# @cpu-throttle-initial: Initial percentage of time guest cpus are
#     throttled when migration auto-converge is activated.  The
#     default value is 20. (Since 2.7)
#
# @cpu-throttle-increment: throttle percentage increase each time
#     auto-converge detects that migration is not making progress.
#     The default value is 10. (Since 2.7)
#
# @cpu-throttle-tailslow: Make CPU throttling slower at tail stage At
#     the tail stage of throttling, the Guest is very sensitive to CPU
#     percentage while the @cpu-throttle -increment is excessive
#     usually at tail stage.  If this parameter is true, we will
#     compute the ideal CPU percentage used by the Guest, which may
#     exactly make the dirty rate match the dirty rate threshold.
#     Then we will choose a smaller throttle increment between the one
#     specified by @cpu-throttle-increment and the one generated by
#     ideal CPU percentage.  Therefore, it is compatible to
#     traditional throttling, meanwhile the throttle increment won't
#     be excessive at tail stage.  The default value is false.  (Since
#     5.1)
#
# @tls-creds: ID of the 'tls-creds' object that provides credentials
#     for establishing a TLS connection over the migration data
#     channel.  On the outgoing side of the migration, the credentials
#     must be for a 'client' endpoint, while for the incoming side the
#     credentials must be for a 'server' endpoint.  Setting this will
#     enable TLS for all migrations.  The default is unset, resulting
#     in unsecured migration at the QEMU level.  (Since 2.7)
#
# @tls-hostname: hostname of the target host for the migration.  This
#     is required when using x509 based TLS credentials and the
#     migration URI does not already include a hostname.  For example
#     if using fd: or exec: based migration, the hostname must be
#     provided so that the server's x509 certificate identity can be
#     validated.  (Since 2.7)
#
# @tls-authz: ID of the 'authz' object subclass that provides access
#     control checking of the TLS x509 certificate distinguished name.
#     This object is only resolved at time of use, so can be deleted
#     and recreated on the fly while the migration server is active.
#     If missing, it will default to denying access (Since 4.0)
#
# @max-bandwidth: to set maximum speed for migration.  maximum speed
#     in bytes per second.  (Since 2.8)
#
# @downtime-limit: set maximum tolerated downtime for migration.
#     maximum downtime in milliseconds (Since 2.8)
#
# @x-checkpoint-delay: The delay time (in ms) between two COLO
#     checkpoints in periodic mode.  (Since 2.8)
#
# @block-incremental: Affects how much storage is migrated when the
#     block migration capability is enabled.  When false, the entire
#     storage backing chain is migrated into a flattened image at the
#     destination; when true, only the active qcow2 layer is migrated
#     and the destination must already have access to the same backing
#     chain as was used on the source.  (since 2.10)
#
# @multifd-channels: Number of channels used to migrate data in
#     parallel.  This is the same number that the number of sockets
#     used for migration.  The default value is 2 (since 4.0)
#
# @xbzrle-cache-size: cache size to be used by XBZRLE migration.  It
#     needs to be a multiple of the target page size and a power of 2
#     (Since 2.11)
#
# @max-postcopy-bandwidth: Background transfer bandwidth during
#     postcopy.  Defaults to 0 (unlimited).  In bytes per second.
#     (Since 3.0)
#
# @max-cpu-throttle: maximum cpu throttle percentage.  Defaults to 99.
#     (Since 3.1)
#
# @multifd-compression: Which compression method to use.  Defaults to
#     none.  (Since 5.0)
#
# @multifd-zlib-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 9,
#     where 0 means no compression, 1 means the best compression
#     speed, and 9 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @multifd-zstd-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 20,
#     where 0 means no compression, 1 means the best compression
#     speed, and 20 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @block-bitmap-mapping: Maps block nodes and bitmaps on them to
#     aliases for the purpose of dirty bitmap migration.  Such aliases
#     may for example be the corresponding names on the opposite site.
#     The mapping must be one-to-one, but not necessarily complete: On
#     the source, unmapped bitmaps and all bitmaps on unmapped nodes
#     will be ignored.  On the destination, encountering an unmapped
#     alias in the incoming migration stream will result in a report,
#     and all further bitmap migration data will then be discarded.
#     Note that the destination does not know about bitmaps it does
#     not receive, so there is no limitation or requirement regarding
#     the number of bitmaps received, or how they are named, or on
#     which nodes they are placed.  By default (when this parameter
#     has never been set), bitmap names are mapped to themselves.
#     Nodes are mapped to their block device name if there is one, and
#     to their node name otherwise.  (Since 5.2)
#
# @x-vcpu-dirty-limit-period: Periodic time (in milliseconds) of dirty limit during
#                             live migration. Should be in the range 1 to 1000ms,
#                             defaults to 1000ms. (Since 8.1)
#
# @vcpu-dirty-limit: Dirtyrate limit (MB/s) during live migration.
#                    Defaults to 1. (Since 8.1)
#
# Features:
#
# @unstable: Members @x-checkpoint-delay and @x-vcpu-dirty-limit-period
#            are experimental.
#
# Since: 2.4
##
{ 'enum': 'MigrationParameter',
  'data': ['announce-initial', 'announce-max',
           'announce-rounds', 'announce-step',
           'compress-level', 'compress-threads', 'decompress-threads',
           'compress-wait-thread', 'throttle-trigger-threshold',
           'cpu-throttle-initial', 'cpu-throttle-increment',
           'cpu-throttle-tailslow',
           'tls-creds', 'tls-hostname', 'tls-authz', 'max-bandwidth',
           'downtime-limit',
           { 'name': 'x-checkpoint-delay', 'features': [ 'unstable' ] },
           'block-incremental',
           'multifd-channels',
           'xbzrle-cache-size', 'max-postcopy-bandwidth',
           'max-cpu-throttle', 'multifd-compression',
           'multifd-zlib-level', 'multifd-zstd-level',
           'block-bitmap-mapping',
           { 'name': 'x-vcpu-dirty-limit-period', 'features': ['unstable'] },
           'vcpu-dirty-limit'] }

##
# @MigrateSetParameters:
#
# @announce-initial: Initial delay (in milliseconds) before sending
#     the first announce (Since 4.0)
#
# @announce-max: Maximum delay (in milliseconds) between packets in
#     the announcement (Since 4.0)
#
# @announce-rounds: Number of self-announce packets sent after
#     migration (Since 4.0)
#
# @announce-step: Increase in delay (in milliseconds) between
#     subsequent packets in the announcement (Since 4.0)
#
# @compress-level: compression level
#
# @compress-threads: compression thread count
#
# @compress-wait-thread: Controls behavior when all compression
#     threads are currently busy.  If true (default), wait for a free
#     compression thread to become available; otherwise, send the page
#     uncompressed.  (Since 3.1)
#
# @decompress-threads: decompression thread count
#
# @throttle-trigger-threshold: The ratio of bytes_dirty_period and
#     bytes_xfer_period to trigger throttling.  It is expressed as
#     percentage.  The default value is 50. (Since 5.0)
#
# @cpu-throttle-initial: Initial percentage of time guest cpus are
#     throttled when migration auto-converge is activated.  The
#     default value is 20. (Since 2.7)
#
# @cpu-throttle-increment: throttle percentage increase each time
#     auto-converge detects that migration is not making progress.
#     The default value is 10. (Since 2.7)
#
# @cpu-throttle-tailslow: Make CPU throttling slower at tail stage At
#     the tail stage of throttling, the Guest is very sensitive to CPU
#     percentage while the @cpu-throttle -increment is excessive
#     usually at tail stage.  If this parameter is true, we will
#     compute the ideal CPU percentage used by the Guest, which may
#     exactly make the dirty rate match the dirty rate threshold.
#     Then we will choose a smaller throttle increment between the one
#     specified by @cpu-throttle-increment and the one generated by
#     ideal CPU percentage.  Therefore, it is compatible to
#     traditional throttling, meanwhile the throttle increment won't
#     be excessive at tail stage.  The default value is false.  (Since
#     5.1)
#
# @tls-creds: ID of the 'tls-creds' object that provides credentials
#     for establishing a TLS connection over the migration data
#     channel.  On the outgoing side of the migration, the credentials
#     must be for a 'client' endpoint, while for the incoming side the
#     credentials must be for a 'server' endpoint.  Setting this to a
#     non-empty string enables TLS for all migrations.  An empty
#     string means that QEMU will use plain text mode for migration,
#     rather than TLS (Since 2.9) Previously (since 2.7), this was
#     reported by omitting tls-creds instead.
#
# @tls-hostname: hostname of the target host for the migration.  This
#     is required when using x509 based TLS credentials and the
#     migration URI does not already include a hostname.  For example
#     if using fd: or exec: based migration, the hostname must be
#     provided so that the server's x509 certificate identity can be
#     validated.  (Since 2.7) An empty string means that QEMU will use
#     the hostname associated with the migration URI, if any.  (Since
#     2.9) Previously (since 2.7), this was reported by omitting
#     tls-hostname instead.
#
# @max-bandwidth: to set maximum speed for migration.  maximum speed
#     in bytes per second.  (Since 2.8)
#
# @downtime-limit: set maximum tolerated downtime for migration.
#     maximum downtime in milliseconds (Since 2.8)
#
# @x-checkpoint-delay: the delay time between two COLO checkpoints.
#     (Since 2.8)
#
# @block-incremental: Affects how much storage is migrated when the
#     block migration capability is enabled.  When false, the entire
#     storage backing chain is migrated into a flattened image at the
#     destination; when true, only the active qcow2 layer is migrated
#     and the destination must already have access to the same backing
#     chain as was used on the source.  (since 2.10)
#
# @multifd-channels: Number of channels used to migrate data in
#     parallel.  This is the same number that the number of sockets
#     used for migration.  The default value is 2 (since 4.0)
#
# @xbzrle-cache-size: cache size to be used by XBZRLE migration.  It
#     needs to be a multiple of the target page size and a power of 2
#     (Since 2.11)
#
# @max-postcopy-bandwidth: Background transfer bandwidth during
#     postcopy.  Defaults to 0 (unlimited).  In bytes per second.
#     (Since 3.0)
#
# @max-cpu-throttle: maximum cpu throttle percentage.  The default
#     value is 99. (Since 3.1)
#
# @multifd-compression: Which compression method to use.  Defaults to
#     none.  (Since 5.0)
#
# @multifd-zlib-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 9,
#     where 0 means no compression, 1 means the best compression
#     speed, and 9 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @multifd-zstd-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 20,
#     where 0 means no compression, 1 means the best compression
#     speed, and 20 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @block-bitmap-mapping: Maps block nodes and bitmaps on them to
#     aliases for the purpose of dirty bitmap migration.  Such aliases
#     may for example be the corresponding names on the opposite site.
#     The mapping must be one-to-one, but not necessarily complete: On
#     the source, unmapped bitmaps and all bitmaps on unmapped nodes
#     will be ignored.  On the destination, encountering an unmapped
#     alias in the incoming migration stream will result in a report,
#     and all further bitmap migration data will then be discarded.
#     Note that the destination does not know about bitmaps it does
#     not receive, so there is no limitation or requirement regarding
#     the number of bitmaps received, or how they are named, or on
#     which nodes they are placed.  By default (when this parameter
#     has never been set), bitmap names are mapped to themselves.
#     Nodes are mapped to their block device name if there is one, and
#     to their node name otherwise.  (Since 5.2)
#
# @x-vcpu-dirty-limit-period: Periodic time (in milliseconds) of dirty limit during
#                             live migration. Should be in the range 1 to 1000ms,
#                             defaults to 1000ms. (Since 8.1)
#
# @vcpu-dirty-limit: Dirtyrate limit (MB/s) during live migration.
#                    Defaults to 1. (Since 8.1)
#
# Features:
#
# @unstable: Members @x-checkpoint-delay and @x-vcpu-dirty-limit-period
#            are experimental.
#
# TODO: either fuse back into MigrationParameters, or make
#     MigrationParameters members mandatory
#
# Since: 2.4
##
{ 'struct': 'MigrateSetParameters',
  'data': { '*announce-initial': 'size',
            '*announce-max': 'size',
            '*announce-rounds': 'size',
            '*announce-step': 'size',
            '*compress-level': 'uint8',
            '*compress-threads': 'uint8',
            '*compress-wait-thread': 'bool',
            '*decompress-threads': 'uint8',
            '*throttle-trigger-threshold': 'uint8',
            '*cpu-throttle-initial': 'uint8',
            '*cpu-throttle-increment': 'uint8',
            '*cpu-throttle-tailslow': 'bool',
            '*tls-creds': 'StrOrNull',
            '*tls-hostname': 'StrOrNull',
            '*tls-authz': 'StrOrNull',
            '*max-bandwidth': 'size',
            '*downtime-limit': 'uint64',
            '*x-checkpoint-delay': { 'type': 'uint32',
                                     'features': [ 'unstable' ] },
            '*block-incremental': 'bool',
            '*multifd-channels': 'uint8',
            '*xbzrle-cache-size': 'size',
            '*max-postcopy-bandwidth': 'size',
            '*max-cpu-throttle': 'uint8',
            '*multifd-compression': 'MultiFDCompression',
            '*multifd-zlib-level': 'uint8',
            '*multifd-zstd-level': 'uint8',
            '*block-bitmap-mapping': [ 'BitmapMigrationNodeAlias' ],
            '*x-vcpu-dirty-limit-period': { 'type': 'uint64',
                                            'features': [ 'unstable' ] },
            '*vcpu-dirty-limit': 'uint64'} }

##
# @migrate-set-parameters:
#
# Set various migration parameters.
#
# Since: 2.4
#
# Example:
#
# -> { "execute": "migrate-set-parameters" ,
#      "arguments": { "compress-level": 1 } }
# <- { "return": {} }
##
{ 'command': 'migrate-set-parameters', 'boxed': true,
  'data': 'MigrateSetParameters' }

##
# @MigrationParameters:
#
# The optional members aren't actually optional.
#
# @announce-initial: Initial delay (in milliseconds) before sending
#     the first announce (Since 4.0)
#
# @announce-max: Maximum delay (in milliseconds) between packets in
#     the announcement (Since 4.0)
#
# @announce-rounds: Number of self-announce packets sent after
#     migration (Since 4.0)
#
# @announce-step: Increase in delay (in milliseconds) between
#     subsequent packets in the announcement (Since 4.0)
#
# @compress-level: compression level
#
# @compress-threads: compression thread count
#
# @compress-wait-thread: Controls behavior when all compression
#     threads are currently busy.  If true (default), wait for a free
#     compression thread to become available; otherwise, send the page
#     uncompressed.  (Since 3.1)
#
# @decompress-threads: decompression thread count
#
# @throttle-trigger-threshold: The ratio of bytes_dirty_period and
#     bytes_xfer_period to trigger throttling.  It is expressed as
#     percentage.  The default value is 50. (Since 5.0)
#
# @cpu-throttle-initial: Initial percentage of time guest cpus are
#     throttled when migration auto-converge is activated.  (Since
#     2.7)
#
# @cpu-throttle-increment: throttle percentage increase each time
#     auto-converge detects that migration is not making progress.
#     (Since 2.7)
#
# @cpu-throttle-tailslow: Make CPU throttling slower at tail stage At
#     the tail stage of throttling, the Guest is very sensitive to CPU
#     percentage while the @cpu-throttle -increment is excessive
#     usually at tail stage.  If this parameter is true, we will
#     compute the ideal CPU percentage used by the Guest, which may
#     exactly make the dirty rate match the dirty rate threshold.
#     Then we will choose a smaller throttle increment between the one
#     specified by @cpu-throttle-increment and the one generated by
#     ideal CPU percentage.  Therefore, it is compatible to
#     traditional throttling, meanwhile the throttle increment won't
#     be excessive at tail stage.  The default value is false.  (Since
#     5.1)
#
# @tls-creds: ID of the 'tls-creds' object that provides credentials
#     for establishing a TLS connection over the migration data
#     channel.  On the outgoing side of the migration, the credentials
#     must be for a 'client' endpoint, while for the incoming side the
#     credentials must be for a 'server' endpoint.  An empty string
#     means that QEMU will use plain text mode for migration, rather
#     than TLS (Since 2.7) Note: 2.8 reports this by omitting
#     tls-creds instead.
#
# @tls-hostname: hostname of the target host for the migration.  This
#     is required when using x509 based TLS credentials and the
#     migration URI does not already include a hostname.  For example
#     if using fd: or exec: based migration, the hostname must be
#     provided so that the server's x509 certificate identity can be
#     validated.  (Since 2.7) An empty string means that QEMU will use
#     the hostname associated with the migration URI, if any.  (Since
#     2.9) Note: 2.8 reports this by omitting tls-hostname instead.
#
# @tls-authz: ID of the 'authz' object subclass that provides access
#     control checking of the TLS x509 certificate distinguished name.
#     (Since 4.0)
#
# @max-bandwidth: to set maximum speed for migration.  maximum speed
#     in bytes per second.  (Since 2.8)
#
# @downtime-limit: set maximum tolerated downtime for migration.
#     maximum downtime in milliseconds (Since 2.8)
#
# @x-checkpoint-delay: the delay time between two COLO checkpoints.
#     (Since 2.8)
#
# @block-incremental: Affects how much storage is migrated when the
#     block migration capability is enabled.  When false, the entire
#     storage backing chain is migrated into a flattened image at the
#     destination; when true, only the active qcow2 layer is migrated
#     and the destination must already have access to the same backing
#     chain as was used on the source.  (since 2.10)
#
# @multifd-channels: Number of channels used to migrate data in
#     parallel.  This is the same number that the number of sockets
#     used for migration.  The default value is 2 (since 4.0)
#
# @xbzrle-cache-size: cache size to be used by XBZRLE migration.  It
#     needs to be a multiple of the target page size and a power of 2
#     (Since 2.11)
#
# @max-postcopy-bandwidth: Background transfer bandwidth during
#     postcopy.  Defaults to 0 (unlimited).  In bytes per second.
#     (Since 3.0)
#
# @max-cpu-throttle: maximum cpu throttle percentage.  Defaults to 99.
#     (Since 3.1)
#
# @multifd-compression: Which compression method to use.  Defaults to
#     none.  (Since 5.0)
#
# @multifd-zlib-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 9,
#     where 0 means no compression, 1 means the best compression
#     speed, and 9 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @multifd-zstd-level: Set the compression level to be used in live
#     migration, the compression level is an integer between 0 and 20,
#     where 0 means no compression, 1 means the best compression
#     speed, and 20 means best compression ratio which will consume
#     more CPU. Defaults to 1. (Since 5.0)
#
# @block-bitmap-mapping: Maps block nodes and bitmaps on them to
#     aliases for the purpose of dirty bitmap migration.  Such aliases
#     may for example be the corresponding names on the opposite site.
#     The mapping must be one-to-one, but not necessarily complete: On
#     the source, unmapped bitmaps and all bitmaps on unmapped nodes
#     will be ignored.  On the destination, encountering an unmapped
#     alias in the incoming migration stream will result in a report,
#     and all further bitmap migration data will then be discarded.
#     Note that the destination does not know about bitmaps it does
#     not receive, so there is no limitation or requirement regarding
#     the number of bitmaps received, or how they are named, or on
#     which nodes they are placed.  By default (when this parameter
#     has never been set), bitmap names are mapped to themselves.
#     Nodes are mapped to their block device name if there is one, and
#     to their node name otherwise.  (Since 5.2)
#
# @x-vcpu-dirty-limit-period: Periodic time (in milliseconds) of dirty limit during
#                             live migration. Should be in the range 1 to 1000ms,
#                             defaults to 1000ms. (Since 8.1)
#
# @vcpu-dirty-limit: Dirtyrate limit (MB/s) during live migration.
#                    Defaults to 1. (Since 8.1)
#
# Features:
#
# @unstable: Members @x-checkpoint-delay and @x-vcpu-dirty-limit-period
#            are experimental.
#
# Since: 2.4
##
{ 'struct': 'MigrationParameters',
  'data': { '*announce-initial': 'size',
            '*announce-max': 'size',
            '*announce-rounds': 'size',
            '*announce-step': 'size',
            '*compress-level': 'uint8',
            '*compress-threads': 'uint8',
            '*compress-wait-thread': 'bool',
            '*decompress-threads': 'uint8',
            '*throttle-trigger-threshold': 'uint8',
            '*cpu-throttle-initial': 'uint8',
            '*cpu-throttle-increment': 'uint8',
            '*cpu-throttle-tailslow': 'bool',
            '*tls-creds': 'str',
            '*tls-hostname': 'str',
            '*tls-authz': 'str',
            '*max-bandwidth': 'size',
            '*downtime-limit': 'uint64',
            '*x-checkpoint-delay': { 'type': 'uint32',
                                     'features': [ 'unstable' ] },
            '*block-incremental': 'bool',
            '*multifd-channels': 'uint8',
            '*xbzrle-cache-size': 'size',
            '*max-postcopy-bandwidth': 'size',
            '*max-cpu-throttle': 'uint8',
            '*multifd-compression': 'MultiFDCompression',
            '*multifd-zlib-level': 'uint8',
            '*multifd-zstd-level': 'uint8',
            '*block-bitmap-mapping': [ 'BitmapMigrationNodeAlias' ],
            '*x-vcpu-dirty-limit-period': { 'type': 'uint64',
                                            'features': [ 'unstable' ] },
            '*vcpu-dirty-limit': 'uint64'} }

##
# @query-migrate-parameters:
#
# Returns information about the current migration parameters
#
# Returns: @MigrationParameters
#
# Since: 2.4
#
# Example:
#
# -> { "execute": "query-migrate-parameters" }
# <- { "return": {
#          "decompress-threads": 2,
#          "cpu-throttle-increment": 10,
#          "compress-threads": 8,
#          "compress-level": 1,
#          "cpu-throttle-initial": 20,
#          "max-bandwidth": 33554432,
#          "downtime-limit": 300
#       }
#    }
##
{ 'command': 'query-migrate-parameters',
  'returns': 'MigrationParameters' }

##
# @migrate-start-postcopy:
#
# 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.
#
# Since: 2.5
#
# Example:
#
# -> { "execute": "migrate-start-postcopy" }
# <- { "return": {} }
##
{ 'command': 'migrate-start-postcopy' }

##
# @MIGRATION:
#
# Emitted when a migration event happens
#
# @status: @MigrationStatus describing the current migration status.
#
# Since: 2.4
#
# Example:
#
# <- {"timestamp": {"seconds": 1432121972, "microseconds": 744001},
#     "event": "MIGRATION",
#     "data": {"status": "completed"} }
##
{ 'event': 'MIGRATION',
  'data': {'status': 'MigrationStatus'}}

##
# @MIGRATION_PASS:
#
# Emitted from the source side of a migration at the start of each
# pass (when it syncs the dirty bitmap)
#
# @pass: An incrementing count (starting at 1 on the first pass)
#
# Since: 2.6
#
# Example:
#
# <- { "timestamp": {"seconds": 1449669631, "microseconds": 239225},
#       "event": "MIGRATION_PASS", "data": {"pass": 2} }
##
{ 'event': 'MIGRATION_PASS',
  'data': { 'pass': 'int' } }

##
# @COLOMessage:
#
# The message transmission between Primary side and Secondary side.
#
# @checkpoint-ready: Secondary VM (SVM) is ready for checkpointing
#
# @checkpoint-request: Primary VM (PVM) tells SVM to prepare for
#     checkpointing
#
# @checkpoint-reply: SVM gets PVM's checkpoint request
#
# @vmstate-send: VM's state will be sent by PVM.
#
# @vmstate-size: The total size of VMstate.
#
# @vmstate-received: VM's state has been received by SVM.
#
# @vmstate-loaded: VM's state has been loaded by SVM.
#
# Since: 2.8
##
{ 'enum': 'COLOMessage',
  'data': [ 'checkpoint-ready', 'checkpoint-request', 'checkpoint-reply',
            'vmstate-send', 'vmstate-size', 'vmstate-received',
            'vmstate-loaded' ] }

##
# @COLOMode:
#
# The COLO current mode.
#
# @none: COLO is disabled.
#
# @primary: COLO node in primary side.
#
# @secondary: COLO node in slave side.
#
# Since: 2.8
##
{ 'enum': 'COLOMode',
  'data': [ 'none', 'primary', 'secondary'] }

##
# @FailoverStatus:
#
# An enumeration of COLO failover status
#
# @none: no failover has ever happened
#
# @require: got failover requirement but not handled
#
# @active: in the process of doing failover
#
# @completed: finish the process of failover
#
# @relaunch: restart the failover process, from 'none' -> 'completed'
#     (Since 2.9)
#
# Since: 2.8
##
{ 'enum': 'FailoverStatus',
  'data': [ 'none', 'require', 'active', 'completed', 'relaunch' ] }

##
# @COLO_EXIT:
#
# Emitted when VM finishes COLO mode due to some errors happening or
# at the request of users.
#
# @mode: report COLO mode when COLO exited.
#
# @reason: describes the reason for the COLO exit.
#
# Since: 3.1
#
# Example:
#
# <- { "timestamp": {"seconds": 2032141960, "microseconds": 417172},
#      "event": "COLO_EXIT", "data": {"mode": "primary", "reason": "request" } }
##
{ 'event': 'COLO_EXIT',
  'data': {'mode': 'COLOMode', 'reason': 'COLOExitReason' } }

##
# @COLOExitReason:
#
# The reason for a COLO exit.
#
# @none: failover has never happened.  This state does not occur in
#     the COLO_EXIT event, and is only visible in the result of
#     query-colo-status.
#
# @request: COLO exit is due to an external request.
#
# @error: COLO exit is due to an internal error.
#
# @processing: COLO is currently handling a failover (since 4.0).
#
# Since: 3.1
##
{ 'enum': 'COLOExitReason',
  'data': [ 'none', 'request', 'error' , 'processing' ] }

##
# @x-colo-lost-heartbeat:
#
# Tell qemu that heartbeat is lost, request it to do takeover
# procedures.  If this command is sent to the PVM, the Primary side
# will exit COLO mode.  If sent to the Secondary, the Secondary side
# will run failover work, then takes over server operation to become
# the service VM.
#
# Features:
#
# @unstable: This command is experimental.
#
# Since: 2.8
#
# Example:
#
# -> { "execute": "x-colo-lost-heartbeat" }
# <- { "return": {} }
##
{ 'command': 'x-colo-lost-heartbeat',
  'features': [ 'unstable' ],
  'if': 'CONFIG_REPLICATION' }

##
# @migrate_cancel:
#
# Cancel the current executing migration process.
#
# Returns: nothing on success
#
# Notes: This command succeeds even if there is no migration process
#     running.
#
# Since: 0.14
#
# Example:
#
# -> { "execute": "migrate_cancel" }
# <- { "return": {} }
##
{ 'command': 'migrate_cancel' }

##
# @migrate-continue:
#
# Continue migration when it's in a paused state.
#
# @state: The state the migration is currently expected to be in
#
# Returns: nothing on success
#
# Since: 2.11
#
# Example:
#
# -> { "execute": "migrate-continue" , "arguments":
#      { "state": "pre-switchover" } }
# <- { "return": {} }
##
{ 'command': 'migrate-continue', 'data': {'state': 'MigrationStatus'} }

##
# @migrate:
#
# Migrates the current running guest to another Virtual Machine.
#
# @uri: the Uniform Resource Identifier of the destination VM
#
# @blk: do block migration (full disk copy)
#
# @inc: incremental disk copy migration
#
# @detach: this argument exists only for compatibility reasons and is
#     ignored by QEMU
#
# @resume: resume one paused migration, default "off". (since 3.0)
#
# Returns: nothing on success
#
# Since: 0.14
#
# 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
#
# Example:
#
# -> { "execute": "migrate", "arguments": { "uri": "tcp:0:4446" } }
# <- { "return": {} }
##
{ 'command': 'migrate',
  'data': {'uri': 'str', '*blk': 'bool', '*inc': 'bool',
           '*detach': 'bool', '*resume': 'bool' } }

##
# @migrate-incoming:
#
# Start an incoming migration, the qemu must have been started with
# -incoming defer
#
# @uri: The Uniform Resource Identifier identifying the source or
#     address to listen on
#
# Returns: nothing on success
#
# Since: 2.3
#
# Notes:
#
# 1. It's a bad idea to use a string for the uri, but it needs
#    to stay compatible with -incoming and the format of the uri
#    is already exposed above libvirt.
#
# 2. QEMU must be started with -incoming defer to allow
#    migrate-incoming to be used.
#
# 3. The uri format is the same as for -incoming
#
# Example:
#
# -> { "execute": "migrate-incoming",
#      "arguments": { "uri": "tcp::4446" } }
# <- { "return": {} }
##
{ 'command': 'migrate-incoming', 'data': {'uri': 'str' } }

##
# @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.
#
# @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.
#
# @live: Optional argument to ask QEMU to treat this command as part
#     of a live migration.  Default to true.  (since 2.11)
#
# Returns: Nothing on success
#
# Since: 1.1
#
# Example:
#
# -> { "execute": "xen-save-devices-state",
#      "arguments": { "filename": "/tmp/save" } }
# <- { "return": {} }
##
{ 'command': 'xen-save-devices-state',
  'data': {'filename': 'str', '*live':'bool' } }

##
# @xen-set-global-dirty-log:
#
# Enable or disable the global dirty log mode.
#
# @enable: true to enable, false to disable.
#
# Returns: nothing
#
# Since: 1.3
#
# Example:
#
# -> { "execute": "xen-set-global-dirty-log",
#      "arguments": { "enable": true } }
# <- { "return": {} }
##
{ 'command': 'xen-set-global-dirty-log', 'data': { 'enable': 'bool' } }

##
# @xen-load-devices-state:
#
# Load the state of all devices from file.  The RAM and the block
# devices of the VM are not loaded by this command.
#
# @filename: the file to load the state of the devices from as binary
#     data.  See xen-save-devices-state.txt for a description of the
#     binary format.
#
# Since: 2.7
#
# Example:
#
# -> { "execute": "xen-load-devices-state",
#      "arguments": { "filename": "/tmp/resume" } }
# <- { "return": {} }
##
{ 'command': 'xen-load-devices-state', 'data': {'filename': 'str'} }

##
# @xen-set-replication:
#
# Enable or disable replication.
#
# @enable: true to enable, false to disable.
#
# @primary: true for primary or false for secondary.
#
# @failover: true to do failover, false to stop.  but cannot be
#     specified if 'enable' is true.  default value is false.
#
# Returns: nothing.
#
# Example:
#
# -> { "execute": "xen-set-replication",
#      "arguments": {"enable": true, "primary": false} }
# <- { "return": {} }
#
# Since: 2.9
##
{ 'command': 'xen-set-replication',
  'data': { 'enable': 'bool', 'primary': 'bool', '*failover': 'bool' },
  'if': 'CONFIG_REPLICATION' }

##
# @ReplicationStatus:
#
# The result format for 'query-xen-replication-status'.
#
# @error: true if an error happened, false if replication is normal.
#
# @desc: the human readable error description string, when @error is
#     'true'.
#
# Since: 2.9
##
{ 'struct': 'ReplicationStatus',
  'data': { 'error': 'bool', '*desc': 'str' },
  'if': 'CONFIG_REPLICATION' }

##
# @query-xen-replication-status:
#
# Query replication status while the vm is running.
#
# Returns: A @ReplicationStatus object showing the status.
#
# Example:
#
# -> { "execute": "query-xen-replication-status" }
# <- { "return": { "error": false } }
#
# Since: 2.9
##
{ 'command': 'query-xen-replication-status',
  'returns': 'ReplicationStatus',
  'if': 'CONFIG_REPLICATION' }

##
# @xen-colo-do-checkpoint:
#
# Xen uses this command to notify replication to trigger a checkpoint.
#
# Returns: nothing.
#
# Example:
#
# -> { "execute": "xen-colo-do-checkpoint" }
# <- { "return": {} }
#
# Since: 2.9
##
{ 'command': 'xen-colo-do-checkpoint',
  'if': 'CONFIG_REPLICATION' }

##
# @COLOStatus:
#
# The result format for 'query-colo-status'.
#
# @mode: COLO running mode.  If COLO is running, this field will
#     return 'primary' or 'secondary'.
#
# @last-mode: COLO last running mode.  If COLO is running, this field
#     will return same like mode field, after failover we can use this
#     field to get last colo mode.  (since 4.0)
#
# @reason: describes the reason for the COLO exit.
#
# Since: 3.1
##
{ 'struct': 'COLOStatus',
  'data': { 'mode': 'COLOMode', 'last-mode': 'COLOMode',
            'reason': 'COLOExitReason' },
  'if': 'CONFIG_REPLICATION' }

##
# @query-colo-status:
#
# Query COLO status while the vm is running.
#
# Returns: A @COLOStatus object showing the status.
#
# Example:
#
# -> { "execute": "query-colo-status" }
# <- { "return": { "mode": "primary", "last-mode": "none", "reason": "request" } }
#
# Since: 3.1
##
{ 'command': 'query-colo-status',
  'returns': 'COLOStatus',
  'if': 'CONFIG_REPLICATION' }

##
# @migrate-recover:
#
# Provide a recovery migration stream URI.
#
# @uri: the URI to be used for the recovery of migration stream.
#
# Returns: nothing.
#
# Example:
#
# -> { "execute": "migrate-recover",
#      "arguments": { "uri": "tcp:192.168.1.200:12345" } }
# <- { "return": {} }
#
# Since: 3.0
##
{ 'command': 'migrate-recover',
  'data': { 'uri': 'str' },
  'allow-oob': true }

##
# @migrate-pause:
#
# Pause a migration.  Currently it only supports postcopy.
#
# Returns: nothing.
#
# Example:
#
# -> { "execute": "migrate-pause" }
# <- { "return": {} }
#
# Since: 3.0
##
{ 'command': 'migrate-pause', 'allow-oob': true }

##
# @UNPLUG_PRIMARY:
#
# Emitted from source side of a migration when migration state is
# WAIT_UNPLUG. Device was unplugged by guest operating system.  Device
# resources in QEMU are kept on standby to be able to re-plug it in
# case of migration failure.
#
# @device-id: QEMU device id of the unplugged device
#
# Since: 4.2
#
# Example:
#
# <- { "event": "UNPLUG_PRIMARY",
#      "data": { "device-id": "hostdev0" },
#      "timestamp": { "seconds": 1265044230, "microseconds": 450486 } }
##
{ 'event': 'UNPLUG_PRIMARY',
  'data': { 'device-id': 'str' } }

##
# @DirtyRateVcpu:
#
# Dirty rate of vcpu.
#
# @id: vcpu index.
#
# @dirty-rate: dirty rate.
#
# Since: 6.2
##
{ 'struct': 'DirtyRateVcpu',
  'data': { 'id': 'int', 'dirty-rate': 'int64' } }

##
# @DirtyRateStatus:
#
# Dirty page rate measurement status.
#
# @unstarted: measuring thread has not been started yet
#
# @measuring: measuring thread is running
#
# @measured: dirty page rate is measured and the results are available
#
# Since: 5.2
##
{ 'enum': 'DirtyRateStatus',
  'data': [ 'unstarted', 'measuring', 'measured'] }

##
# @DirtyRateMeasureMode:
#
# Method used to measure dirty page rate.  Differences between
# available methods are explained in @calc-dirty-rate.
#
# @page-sampling: use page sampling
#
# @dirty-ring: use dirty ring
#
# @dirty-bitmap: use dirty bitmap
#
# Since: 6.2
##
{ 'enum': 'DirtyRateMeasureMode',
  'data': ['page-sampling', 'dirty-ring', 'dirty-bitmap'] }

##
# @DirtyRateInfo:
#
# Information about measured dirty page rate.
#
# @dirty-rate: an estimate of the dirty page rate of the VM in units
#     of MiB/s.  Value is present only when @status is 'measured'.
#
# @status: current status of dirty page rate measurements
#
# @start-time: start time in units of second for calculation
#
# @calc-time: time period for which dirty page rate was measured
#     (in seconds)
#
# @sample-pages: number of sampled pages per GiB of guest memory.
#     Valid only in page-sampling mode (Since 6.1)
#
# @mode: mode that was used to measure dirty page rate (Since 6.2)
#
# @vcpu-dirty-rate: dirty rate for each vCPU if dirty-ring mode was
#     specified (Since 6.2)
#
# Since: 5.2
##
{ 'struct': 'DirtyRateInfo',
  'data': {'*dirty-rate': 'int64',
           'status': 'DirtyRateStatus',
           'start-time': 'int64',
           'calc-time': 'int64',
           'sample-pages': 'uint64',
           'mode': 'DirtyRateMeasureMode',
           '*vcpu-dirty-rate': [ 'DirtyRateVcpu' ] } }

##
# @calc-dirty-rate:
#
# Start measuring dirty page rate of the VM.  Results can be retrieved
# with @query-dirty-rate after measurements are completed.
#
# Dirty page rate is the number of pages changed in a given time
# period expressed in MiB/s.  The following methods of calculation are
# available:
#
# 1. In page sampling mode, a random subset of pages are selected and
#    hashed twice: once at the beginning of measurement time period,
#    and once again at the end.  If two hashes for some page are
#    different, the page is counted as changed.  Since this method
#    relies on sampling and hashing, calculated dirty page rate is
#    only an estimate of its true value.  Increasing @sample-pages
#    improves estimation quality at the cost of higher computational
#    overhead.
#
# 2. Dirty bitmap mode captures writes to memory (for example by
#    temporarily revoking write access to all pages) and counting page
#    faults.  Information about modified pages is collected into a
#    bitmap, where each bit corresponds to one guest page.  This mode
#    requires that KVM accelerator property "dirty-ring-size" is *not*
#    set.
#
# 3. Dirty ring mode is similar to dirty bitmap mode, but the
#    information about modified pages is collected into ring buffer.
#    This mode tracks page modification per each vCPU separately.  It
#    requires that KVM accelerator property "dirty-ring-size" is set.
#
# @calc-time: time period in units of second for which dirty page rate
#     is calculated.  Note that larger @calc-time values will
#     typically result in smaller dirty page rates because page
#     dirtying is a one-time event.  Once some page is counted as
#     dirty during @calc-time period, further writes to this page will
#     not increase dirty page rate anymore.
#
# @sample-pages: number of sampled pages per each GiB of guest memory.
#     Default value is 512.  For 4KiB guest pages this corresponds to
#     sampling ratio of 0.2%.  This argument is used only in page
#     sampling mode.  (Since 6.1)
#
# @mode: mechanism for tracking dirty pages.  Default value is
#     'page-sampling'.  Others are 'dirty-bitmap' and 'dirty-ring'.
#     (Since 6.1)
#
# Since: 5.2
#
# Example:
#
# -> {"execute": "calc-dirty-rate", "arguments": {"calc-time": 1,
#                                                 'sample-pages': 512} }
# <- { "return": {} }
##
{ 'command': 'calc-dirty-rate', 'data': {'calc-time': 'int64',
                                         '*sample-pages': 'int',
                                         '*mode': 'DirtyRateMeasureMode'} }

##
# @query-dirty-rate:
#
# Query results of the most recent invocation of @calc-dirty-rate.
#
# Since: 5.2
#
# Examples:
#
# 1. Measurement is in progress:
#
# <- {"status": "measuring", "sample-pages": 512,
#     "mode": "page-sampling", "start-time": 3665220, "calc-time": 10}
#
# 2. Measurement has been completed:
#
# <- {"status": "measured", "sample-pages": 512, "dirty-rate": 108,
#     "mode": "page-sampling", "start-time": 3665220, "calc-time": 10}
##
{ 'command': 'query-dirty-rate', 'returns': 'DirtyRateInfo' }

##
# @DirtyLimitInfo:
#
# Dirty page rate limit information of a virtual CPU.
#
# @cpu-index: index of a virtual CPU.
#
# @limit-rate: upper limit of dirty page rate (MB/s) for a virtual
#     CPU, 0 means unlimited.
#
# @current-rate: current dirty page rate (MB/s) for a virtual CPU.
#
# Since: 7.1
##
{ 'struct': 'DirtyLimitInfo',
  'data': { 'cpu-index': 'int',
            'limit-rate': 'uint64',
            'current-rate': 'uint64' } }

##
# @set-vcpu-dirty-limit:
#
# Set the upper limit of dirty page rate for virtual CPUs.
#
# Requires KVM with accelerator property "dirty-ring-size" set.  A
# virtual CPU's dirty page rate is a measure of its memory load.  To
# observe dirty page rates, use @calc-dirty-rate.
#
# @cpu-index: index of a virtual CPU, default is all.
#
# @dirty-rate: upper limit of dirty page rate (MB/s) for virtual CPUs.
#
# Since: 7.1
#
# Example:
#
# -> {"execute": "set-vcpu-dirty-limit"}
#     "arguments": { "dirty-rate": 200,
#                    "cpu-index": 1 } }
# <- { "return": {} }
##
{ 'command': 'set-vcpu-dirty-limit',
  'data': { '*cpu-index': 'int',
            'dirty-rate': 'uint64' } }

##
# @cancel-vcpu-dirty-limit:
#
# Cancel the upper limit of dirty page rate for virtual CPUs.
#
# Cancel the dirty page limit for the vCPU which has been set with
# set-vcpu-dirty-limit command.  Note that this command requires
# support from dirty ring, same as the "set-vcpu-dirty-limit".
#
# @cpu-index: index of a virtual CPU, default is all.
#
# Since: 7.1
#
# Example:
#
# -> {"execute": "cancel-vcpu-dirty-limit"},
#     "arguments": { "cpu-index": 1 } }
# <- { "return": {} }
##
{ 'command': 'cancel-vcpu-dirty-limit',
  'data': { '*cpu-index': 'int'} }

##
# @query-vcpu-dirty-limit:
#
# Returns information about virtual CPU dirty page rate limits, if
# any.
#
# Since: 7.1
#
# Example:
#
# -> {"execute": "query-vcpu-dirty-limit"}
# <- {"return": [
#        { "limit-rate": 60, "current-rate": 3, "cpu-index": 0},
#        { "limit-rate": 60, "current-rate": 3, "cpu-index": 1}]}
##
{ 'command': 'query-vcpu-dirty-limit',
  'returns': [ 'DirtyLimitInfo' ] }

##
# @MigrationThreadInfo:
#
# Information about migrationthreads
#
# @name: the name of migration thread
#
# @thread-id: ID of the underlying host thread
#
# Since: 7.2
##
{ 'struct': 'MigrationThreadInfo',
  'data': {'name': 'str',
           'thread-id': 'int'} }

##
# @query-migrationthreads:
#
# Returns information of migration threads
#
# data: migration thread name
#
# Returns: information about migration threads
#
# Since: 7.2
##
{ 'command': 'query-migrationthreads',
  'returns': ['MigrationThreadInfo'] }

##
# @snapshot-save:
#
# Save a VM snapshot
#
# @job-id: identifier for the newly created job
#
# @tag: name of the snapshot to create
#
# @vmstate: block device node name to save vmstate to
#
# @devices: list of block device node names to save a snapshot to
#
# Applications should not assume that the snapshot save is complete
# when this command returns.  The job commands / events must be used
# to determine completion and to fetch details of any errors that
# arise.
#
# Note that execution of the guest CPUs may be stopped during the time
# it takes to save the snapshot.  A future version of QEMU may ensure
# CPUs are executing continuously.
#
# It is strongly recommended that @devices contain all writable block
# device nodes if a consistent snapshot is required.
#
# If @tag already exists, an error will be reported
#
# Returns: nothing
#
# Example:
#
# -> { "execute": "snapshot-save",
#      "arguments": {
#         "job-id": "snapsave0",
#         "tag": "my-snap",
#         "vmstate": "disk0",
#         "devices": ["disk0", "disk1"]
#      }
#    }
# <- { "return": { } }
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1432121972, "microseconds": 744001},
#     "data": {"status": "created", "id": "snapsave0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1432122172, "microseconds": 744001},
#     "data": {"status": "running", "id": "snapsave0"}}
# <- {"event": "STOP",
#     "timestamp": {"seconds": 1432122372, "microseconds": 744001} }
# <- {"event": "RESUME",
#     "timestamp": {"seconds": 1432122572, "microseconds": 744001} }
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1432122772, "microseconds": 744001},
#     "data": {"status": "waiting", "id": "snapsave0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1432122972, "microseconds": 744001},
#     "data": {"status": "pending", "id": "snapsave0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1432123172, "microseconds": 744001},
#     "data": {"status": "concluded", "id": "snapsave0"}}
# -> {"execute": "query-jobs"}
# <- {"return": [{"current-progress": 1,
#                 "status": "concluded",
#                 "total-progress": 1,
#                 "type": "snapshot-save",
#                 "id": "snapsave0"}]}
#
# Since: 6.0
##
{ 'command': 'snapshot-save',
  'data': { 'job-id': 'str',
            'tag': 'str',
            'vmstate': 'str',
            'devices': ['str'] } }

##
# @snapshot-load:
#
# Load a VM snapshot
#
# @job-id: identifier for the newly created job
#
# @tag: name of the snapshot to load.
#
# @vmstate: block device node name to load vmstate from
#
# @devices: list of block device node names to load a snapshot from
#
# Applications should not assume that the snapshot load is complete
# when this command returns.  The job commands / events must be used
# to determine completion and to fetch details of any errors that
# arise.
#
# Note that execution of the guest CPUs will be stopped during the
# time it takes to load the snapshot.
#
# It is strongly recommended that @devices contain all writable block
# device nodes that can have changed since the original @snapshot-save
# command execution.
#
# Returns: nothing
#
# Example:
#
# -> { "execute": "snapshot-load",
#      "arguments": {
#         "job-id": "snapload0",
#         "tag": "my-snap",
#         "vmstate": "disk0",
#         "devices": ["disk0", "disk1"]
#      }
#    }
# <- { "return": { } }
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1472124172, "microseconds": 744001},
#     "data": {"status": "created", "id": "snapload0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1472125172, "microseconds": 744001},
#     "data": {"status": "running", "id": "snapload0"}}
# <- {"event": "STOP",
#     "timestamp": {"seconds": 1472125472, "microseconds": 744001} }
# <- {"event": "RESUME",
#     "timestamp": {"seconds": 1472125872, "microseconds": 744001} }
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1472126172, "microseconds": 744001},
#     "data": {"status": "waiting", "id": "snapload0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1472127172, "microseconds": 744001},
#     "data": {"status": "pending", "id": "snapload0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1472128172, "microseconds": 744001},
#     "data": {"status": "concluded", "id": "snapload0"}}
# -> {"execute": "query-jobs"}
# <- {"return": [{"current-progress": 1,
#                 "status": "concluded",
#                 "total-progress": 1,
#                 "type": "snapshot-load",
#                 "id": "snapload0"}]}
#
# Since: 6.0
##
{ 'command': 'snapshot-load',
  'data': { 'job-id': 'str',
            'tag': 'str',
            'vmstate': 'str',
            'devices': ['str'] } }

##
# @snapshot-delete:
#
# Delete a VM snapshot
#
# @job-id: identifier for the newly created job
#
# @tag: name of the snapshot to delete.
#
# @devices: list of block device node names to delete a snapshot from
#
# Applications should not assume that the snapshot delete is complete
# when this command returns.  The job commands / events must be used
# to determine completion and to fetch details of any errors that
# arise.
#
# Returns: nothing
#
# Example:
#
# -> { "execute": "snapshot-delete",
#      "arguments": {
#         "job-id": "snapdelete0",
#         "tag": "my-snap",
#         "devices": ["disk0", "disk1"]
#      }
#    }
# <- { "return": { } }
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1442124172, "microseconds": 744001},
#     "data": {"status": "created", "id": "snapdelete0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1442125172, "microseconds": 744001},
#     "data": {"status": "running", "id": "snapdelete0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1442126172, "microseconds": 744001},
#     "data": {"status": "waiting", "id": "snapdelete0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1442127172, "microseconds": 744001},
#     "data": {"status": "pending", "id": "snapdelete0"}}
# <- {"event": "JOB_STATUS_CHANGE",
#     "timestamp": {"seconds": 1442128172, "microseconds": 744001},
#     "data": {"status": "concluded", "id": "snapdelete0"}}
# -> {"execute": "query-jobs"}
# <- {"return": [{"current-progress": 1,
#                 "status": "concluded",
#                 "total-progress": 1,
#                 "type": "snapshot-delete",
#                 "id": "snapdelete0"}]}
#
# Since: 6.0
##
{ 'command': 'snapshot-delete',
  'data': { 'job-id': 'str',
            'tag': 'str',
            'devices': ['str'] } }