xref: /openbmc/qemu/qapi/machine-common.json (revision e50a24ea)
1# -*- Mode: Python -*-
2# vim: filetype=python
3#
4# This work is licensed under the terms of the GNU GPL, version 2 or later.
5# See the COPYING file in the top-level directory.
6
7##
8# = Common machine types
9##
10
11##
12# @S390CpuEntitlement:
13#
14# An enumeration of CPU entitlements that can be assumed by a virtual
15# S390 CPU
16#
17# Since: 8.2
18##
19{ 'enum': 'S390CpuEntitlement',
20  'data': [ 'auto', 'low', 'medium', 'high' ] }
21
22##
23# @CpuTopologyLevel:
24#
25# An enumeration of CPU topology levels.
26#
27# @thread: thread level, which would also be called SMT level or
28#     logical processor level.  The @threads option in
29#     SMPConfiguration is used to configure the topology of this
30#     level.
31#
32# @core: core level.  The @cores option in SMPConfiguration is used
33#     to configure the topology of this level.
34#
35# @module: module level.  The @modules option in SMPConfiguration is
36#     used to configure the topology of this level.
37#
38# @cluster: cluster level.  The @clusters option in SMPConfiguration
39#     is used to configure the topology of this level.
40#
41# @die: die level.  The @dies option in SMPConfiguration is used to
42#     configure the topology of this level.
43#
44# @socket: socket level, which would also be called package level.
45#     The @sockets option in SMPConfiguration is used to configure
46#     the topology of this level.
47#
48# @book: book level.  The @books option in SMPConfiguration is used
49#     to configure the topology of this level.
50#
51# @drawer: drawer level.  The @drawers option in SMPConfiguration is
52#     used to configure the topology of this level.
53#
54# @default: default level.  Some architectures will have default
55#     topology settings (e.g., cache topology), and this special
56#     level means following the architecture-specific settings.
57#
58# Since: 9.2
59##
60{ 'enum': 'CpuTopologyLevel',
61  'data': [ 'thread', 'core', 'module', 'cluster', 'die',
62            'socket', 'book', 'drawer', 'default' ] }
63
64##
65# @CacheLevelAndType:
66#
67# Caches a system may have.  The enumeration value here is the
68# combination of cache level and cache type.
69#
70# @l1d: L1 data cache.
71#
72# @l1i: L1 instruction cache.
73#
74# @l2: L2 (unified) cache.
75#
76# @l3: L3 (unified) cache
77#
78# Since: 9.2
79##
80{ 'enum': 'CacheLevelAndType',
81  'data': [ 'l1d', 'l1i', 'l2', 'l3' ] }
82
83##
84# @SmpCacheProperties:
85#
86# Cache information for SMP system.
87#
88# @cache: Cache name, which is the combination of cache level
89#     and cache type.
90#
91# @topology: Cache topology level.  It accepts the CPU topology
92#     enumeration as the parameter, i.e., CPUs in the same
93#     topology container share the same cache.
94#
95# Since: 9.2
96##
97{ 'struct': 'SmpCacheProperties',
98  'data': {
99  'cache': 'CacheLevelAndType',
100  'topology': 'CpuTopologyLevel' } }
101
102##
103# @SmpCachePropertiesWrapper:
104#
105# List wrapper of SmpCacheProperties.
106#
107# @caches: the list of SmpCacheProperties.
108#
109# Since 9.2
110##
111{ 'struct': 'SmpCachePropertiesWrapper',
112  'data': { 'caches': ['SmpCacheProperties'] } }
113