ANSI INCITS483-2012 Information technology - Virtualization Management Specification《信息技术.虚拟化管理规范》.pdf

1、American National StandardDeveloped byfor Information Technology Virtualization Management SpecificationINCITS 483-2012INCITS 483-2012Copyright American National Standards Institute Provided by IHS under license with ANSI Not for ResaleNo reproduction or networking permitted without license from IHS

2、-,-,-Copyright American National Standards Institute Provided by IHS under license with ANSI Not for ResaleNo reproduction or networking permitted without license from IHS-,-,-INCITS 483-2012American National Standardfor Information Technology Virtualization Management SpecificationSecretariatInform

3、ation Technology Industry CouncilApproved May 29, 2012American National Standards Institute, Inc.Copyright American National Standards Institute Provided by IHS under license with ANSI Not for ResaleNo reproduction or networking permitted without license from IHS-,-,-Approval of an American National

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14、thout license from IHS-,-,-i CONTENTS Foreword . ix Introduction 1 1 Scope 3 1.1 Resource Allocation Profile 3 1.2 System Virtualization Profile 3 1.3 Allocation Capabilities Profile . 3 1.4 Processor Resource Virtualization Profile 3 1.5 Memory Resource Virtualization Profile . 3 1.6 Storage Resour

15、ce Virtualization Profile 3 1.7 Ethernet Port Resource Virtualization Profile . 3 1.8 Virtual System Profile . 3 1.9 Generic Device Resource Virtualization Profile 3 1.10 Virtual Ethernet Switch Profile 4 2 Normative references 4 3 Terms and definitions . 5 4 Symbols and abbreviated terms 12 5 Resou

16、rce Allocation Profile 14 5.1 Description . 14 5.2 Implementation . 18 5.3 Methods . 27 5.4 Use cases 35 5.5 CIM elements . 40 6 System Virtualization Profile 52 6.1 Description . 52 6.2 Implementation . 59 6.3 Methods . 67 6.4 Use cases 84 6.5 CIM elements . 110 7 Allocation Capabilities Profile 12

17、6 7.1 Description . 126 7.2 Implementation . 129 7.3 Methods . 130 7.4 Use cases 134 7.5 CIM elements . 139 8 Processor Resource Virtualization Profile . 144 8.1 Description . 144 8.2 Implementation . 149 8.3 Methods . 157 8.4 Use cases 158 8.5 CIM elements . 168 9 Memory Resource Virtualization Pro

18、file . 178 9.1 Description (informative) 178 9.2 Implementation . 186 9.3 Methods . 198 9.4 Use cases (informative) . 198 9.5 CIM elements . 207 10 Storage Resource Virtualization Profile . 221 10.1 Description . 222 10.2 Implementation . 234 10.3 Methods . 251 10.4 Use cases 253 10.5 CIM Elements.

19、270 11 Ethernet Port Resource Virtualization Profile. 282 11.1 Description . 282 11.2 Implementation . 291 11.3 Methods . 303 Copyright American National Standards Institute Provided by IHS under license with ANSI Not for ResaleNo reproduction or networking permitted without license from IHS-,-,-ii

20、11.4 Use cases 304 11.5 CIM elements . 318 12 Virtual System Profile 341 12.1 Description . 341 12.2 Implementation . 350 12.3 Methods . 360 12.4 Use-cases 363 12.5 CIM elements . 374 13 Generic Device Resource Virtualization Profile . 381 13.1 Description . 381 13.2 Implementation . 383 13.3 Method

21、s . 383 13.4 Use cases 383 13.5 CIM elements . 388 14 Virtual Ethernet Switch Profile . 390 14.1 Description . 390 14.2 Implementation . 394 14.3 Methods . 395 14.4 Use cases 397 14.5 CIM elements . 400 Annex A (Informative) Virtual system modeling background information 407 A.1 Concepts: Model, vie

22、w, controller 407 A.2 Aspect-oriented modeling approach . 407 A.3 Presence of model information. 408 A.4 Model extension through settings. 409 Annex B (Informative) Implementation details . 410 B.1 Dual-configuration implementation approach . 410 B.2 Single-configuration implementation approach 413

23、Figures Figure 1 Resource Allocation Profile: Class Diagram 15 Figure 2 Abstract instance diagram: Concrete resource pool . 35 Figure 3 Abstract instance diagram: Primordial pool with backed resources 36 Figure 4 Abstract instance diagram: Primordial pool without backed resources 36 Figure 5 Resourc

24、e pool hierarchy instance diagram . 37 Figure 6 Simple resource allocation 38 Figure 7 Profiles related to system virtualization . 54 Figure 8 System Virtualization Profile: Class diagram . 56 Figure 9 System Virtualization Profile instance diagram: Discovery, localization, and inspection . 86 Figur

25、e 10 Virtual system configuration based on input virtual system configurations and implementation defaults 98 Figure 11 Virtual system resource modification . 102 Figure 12 System Virtualization Profile: Snapshot example 105 Figure 13 Allocation Capabilities Profile: Class diagram . 127 Figure 14 Al

26、location capabilities associated to CIM_ComputerSystem and CIM_ResourcePool 135 Figure 15 Allocation capabilities associated to CIM_ResourceAllocationSettingData . 136 Figure 16 Multiple CIM_AllocationCapabilities instances 137 Figure 17 Processor Resource Virtualization Profile: Class Diagram 145 F

27、igure 18 Processor Resource Virtualization Profile: Instance diagram 159 Figure 19 Defined state . 160 Figure 20 Active state . 161 Figure 21 CIM_ModifyResourceSettings Before 163 Figure 22 RASD to Modify Resources 164 Copyright American National Standards Institute Provided by IHS under license wit

28、h ANSI Not for ResaleNo reproduction or networking permitted without license from IHS-,-,-iii Figure 23 CIM_ModifyResourceSettings After . 165 Figure 24 CIM_AddResourceSettings Before 166 Figure 25 RASD to add processor 167 Figure 26 CIM_AddResourceSettings After . 168 Figure 27 Memory Resource Virt

29、ualization Profile: Profile class diagram . 179 Figure 28 Instance Diagram: Concept of memory resource pool hierarchies 181 Figure 29 Instance Diagram: Concept of memory resource allocation 183 Figure 30 Instance Diagram: Memory composition . 185 Figure 31 Instance Diagram: Example CIM representatio

30、n of memory resource virtualization . 200 Figure 32 Storage Resource Virtualization Profile: Profile class diagram . 223 Figure 33 Instance diagram: Concept of storage resource pool hierarchies . 227 Figure 34 Instance diagram: Concept of storage resource allocation . 230 Figure 35 Cooperation of DM

31、TF SVPC and SNIA SMI-S profiles . 233 Figure 36 Instance diagram: Example CIM representation of storage resource virtualization . 254 Figure 37 Create virtual disk with implicit file creation . 263 Figure 38 Create virtual disk with pre-existing file . 265 Figure 39 Create dedicated virtual disk . 2

32、67 Figure 40 Create virtual delta disk and file 269 Figure 41 Ethernet Port Resource Virtualization: Profile class diagram 283 Figure 42 Virtual ethernet switch port allocation 287 Figure 43 Instance Diagram: Ethernet adapter and Ethernet connection resource allocations . 289 Figure 44 Ethernet swit

33、ch port and Ethernet connection resource pools 306 Figure 45 Static Ethernet switch port allocation to a virtual Ethernet switch . 308 Figure 46 Ethernet adapter connection to static switch port 310 Figure 47 Dynamic Ethernet switch port connection capabilities. 313 Figure 48 Dynamic Ethernet switch

34、 port allocation . 314 Figure 49 Allocation capabilities for simple Ethernet connection. 315 Figure 50 Simple connection of virtual machine to Ethernet switch 316 Figure 51 Profiles related to system virtualization . 343 Figure 52 Virtual System Profile: Class diagram . 344 Figure 53 Virtual system

35、states . 349 Figure 54 Virtual system representation and virtual system configuration 354 Figure 55 Sample virtual system configuration . 365 Figure 56 Sample virtual system in “active“ state 367 Figure 57 Instance diagram: Profile conformance of scoped resources 368 Figure 58 Generic Device Resourc

36、e Virtualization: Class diagram . 382 Figure 59 Simple virtual device allocation . 384 Figure 60 Profile registration using central class . 385 Figure 61 Profile registration using scoping class . 386 Figure 62 Determining resource capabilities . 387 Figure 63 DMTF Management profiles related to the

37、 virtual Ethernet switch 392 Figure 64 Virtual Ethernet Switch Profile: Class Diagram . 393 Figure 65 Basic example of virtual Ethernet switch . 398 Figure A-1 State-dependent presence of model elements 408 Figure B-2 Sample virtual system in a state other than “defined“ (Dual-configuration approach

38、) . 412 Figure B-3 Sample virtual system in the “defined“ state (Single-configuration approach) . 414 Figure B-4 Sample virtual system in a state other than “defined“ (Single-configuration approach) . 415 Copyright American National Standards Institute Provided by IHS under license with ANSI Not for

39、 ResaleNo reproduction or networking permitted without license from IHS-,-,-iv Tables Table 1 Component documents 2 Table 2 Related profiles for the Resource Allocation Profile . 14 Table 3 CIM_ResourcePoolConfigurationService.CreateChildResourcePool( ) method: Return code values 27 Table 4 CIM_Reso

40、urcePoolConfigurationService.CreateChildResourcePool( ) method: Parameters 28 Table 5 CIM_ResourcePoolConfigurationService.DeleteResourcePool( ) method: Return code values . 28 Table 6 CIM_ResourcePoolConfigurationService.DeleteResourcePool( ) method: Parameters . 29 Table 7 CIM_ResourcePoolConfigur

41、ationService.AddResourcesToResourcePool( ) method: Return code values 29 Table 8 CIM_ResourcePoolConfigurationService.AddResourcesToResourcePool( ) method: Parameters 30 Table 9 CIM_ResourcePoolConfigurationService.RemoveResourcesFromResourcePool( ) method: Return code values 31 Table 10 CIM_Resourc

42、ePoolConfigurationService.RemoveResourcesFromResourcePool( ) method: Parameters 31 Table 11 CIM_ResourcePoolConfigurationService.ChangeParentResourcePool( ) method: Return code values 32 Table 12 CIM_ResourcePoolConfigurationService.ChangeParentResourcePool( ) method: Parameters 32 Table 13 CIM elem

43、ents: Resource Allocation Profile . 40 Table 14 Class: CIM_AffectedJobElement 41 Table 15 Class: CIM_BaseMetricDefinition . 41 Table 16 Class: CIM_BaseMetricDefinition Instantaneous consumption 42 Table 17 Class: CIM_BaseMetricDefinition Interval metrics . 42 Table 18 Class: CIM_BaseMetricDefinition

44、 Aggregate consumption 42 Table 19 Class: CIM_BaseMetricValue . 43 Table 20 Class: CIM_BaseMetricValue Instantaneous consumption . 43 Table 21 Class: CIM_BaseMetricValue Interval metrics . 43 Table 22 Class: CIM_BaseMetricValue Aggregate consumption . 44 Table 23 Class: CIM_Component . 44 Table 24 C

45、lass: CIM_ConcreteJob . 44 Table 25 Class: CIM_ElementAllocatedFromPool 45 Table 26 Class: CIM_ElementCapabilities 45 Table 27 Class: CIM_ElementSettingData 45 Table 28 Class: CIM_HostedDependency 46 Table 29 Class: CIM_HostedResourcePool 46 Table 30 Class: CIM_HostedService 46 Table 31 Class: CIM_L

46、ogicalDevice . 47 Table 32 Class: CIM_MetricDefForME 47 Table 33 Class: CIM_MetricForME . 47 Table 34 Class: CIM_ResourceAllocationFromPool . 48 Table 35 Class: CIM_ResourceAllocationSettingData (current settings) 48 Table 36 Class: CIM_ResourceAllocationSettingData (defined settings) 49 Table 37 Cl

47、ass: CIM_ResourcePool . 49 Table 38 Class: CIM_ResourcePoolConfigurationCapabilities . 50 Table 39 Class: CIM_ResourcePoolConfigurationService 50 Table 40 Class: CIM_SettingsDefineState 51 Table 41 Class: CIM_ServiceAffectsElement 51 Table 42 Class: CIM_SystemDevice . 51 Table 43 Related profiles fo

48、r the System Virtualization Profile 52 Table 44 DefineSystem( ) method: Parameters. 70 Table 45 DefineSystem( ) method: Return code values 72 Table 46 DestroySystem( ) method: Parameters . 72 Table 47 DestroySystem( ) method: Return code values 73 Copyright American National Standards Institute Provided by IHS under license with ANSI Not for ResaleNo reproduction or networking permitted without license from IHS-,-,