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__$HLHLHL$=A@,4LL4` ity0M $P$__Subject,LL<>O  HM8L$LM __SecurityRelatedClass  R`)6A]`__SubjectabstractAuthority J stringEditSecurity  booleanEnabled  booleanExecuteMethods  booleanName ! stringPermissions  Usint32. 0@PL dQ __User,OOP4 L8QR$OdP|]__Subject  H__Userabstract 0QO(__NTLMUser,QPORP$PQ__User H>__NTLMUserGroupType 6sint32 0SL __Group,xRHR8QT  R8OHRS$HR@S|^__Subject  H__Groupabstract 0@TL(__NTLMGroup,SSR$SdT__Subject  H?__NTLMGroupGroupType 7sint32  ,U8U8)$SECURITYdU$|V$SECURITY,UU"8(l@. __NAMESPACESECURITYhW%@__EventConsumerProviderCacheControl00000000000010.000000:000`P9__ObjectProviderCacheControl00000000000200.000000:000dR ;__PropertyProviderCacheControl00000000000200.000000:000<$XA.0lHX PY,__SystemClass,WW`t$Y$lWlX`A __SystemClassabstract ClTER0llYW/(__NAMESPACE,XXpZXZZ$lXY__SystemClass  E__NAMESPACEName = string 0l [W Tp\a(__Provider,`Z0Zb$YD\  Z8X0Zd`w8~MPUTERROOT\SECURIT$l0Z0[a__SystemClass  N__ProviderabstractName F string 0l\0ZT0__Win32Provider,\[Z`[$l[\'__Provider  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<@__ProviderRegistration,99LTd5;$T09D:__SystemClass "Q__ProviderRegistrationabstractf Aref:__Provider __0??@__ProviderRegistration0T08<9 @L__ObjectProviderRegistration,;t;X\E9@E$T0t;\< __ProviderRegistration (9L\+__ObjectProviderRegistrationabstractInteractionType em usint32ValuesPullPushPushVerifyQuerySupportLevels    stringValueMap$5WQL:UnarySelectWQL:ReferencesWQL:AssociatorsWQL:V1ProviderDefinedSupportsDelete  {booleanSupportsEnumeration   booleanSupportsGet  booleanSupportsPut  "boolean  P?8 :8<@CFTHJLL__ObjectProviderRegistration  ?84;?BD\GI KM 0T0@t;H__ClassProviderRegistration,\@,@dK;dCC$T0,@Am#&__ObjectProviderRegistration:Pwn__ClassProviderRegistrationf@ ReferencedSetQueries  ostringResultSetQueries  stringUnsupportedQueries  string H__ClassProviderRegistration0T0Ct;P__InstanceProviderRegistration,CB@E  C8,@B$T0B D&__ObjectProviderRegistration =__InstanceProviderRegistrationf@ P__InstanceProviderRegistration0T0F9P__PropertyProviderRegistration,DEEZdC(H  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P__InstanceProviderRegistration\\.\Root\CIMV2:__Win32Provider.Name="WBEMCORE"4$__SystemSecurity(CIM_Action,D\<,$l lx!)  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T string 0lT!<Win32_FontInfoAction,\$lx)CIM_Action C $ LUkpvWin32_FontInfoActionLocaleUUID{C63BAA94-DB32-11d2-85FC-0000F8102E5F}MSIProvImplementationSourceMSIFile "  stringFontTitle   string ri0l!<Win32_MIMEInfoAction,P =8(X$l -CIM_Action C $ LU e|W1Win32_MIMEInfoActionLocaleUUID{F3F3A266-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringsmMicrosoft.MSICLSID "  stringContentType   stringExtension & ) string ri0l!LWin32_PublishComponentActionst, Tt$,,,,,xxX,,,hhXX,,,,4,  -CIM_Action C &, T] mW6Win32_PublishComponentActionLocaleUUID{990E7AE6-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsuMicrosoft.MSIAppData &  stringComponentID   stringQual " . string 0l(!<Win32_RegistryAction,dXl,dd4$ldL4CIM_Action C $ LU e|)3ekWWin32_RegistryActionLocaleUUID{A3864E0E-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsmMicrosoft.MSIEntryName "  stringEntryValue &  string , ! stringRegistry  ] stringRoot *)   sint16ValueMap 0l!<Win32_RemoveIniAction,0,$l80CIM_Action C % MV f}$+W]Win32_RemoveIniActionLocaleUUID{B94A25A8-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsnMicrosoft.MSIAction *  uint16 "  stringSection   stringValue & U string 0l!DWin32_SelfRegModuleAction,P Il,,  XX$l 'CIM_Action C #) QZ jWin32_SelfRegModuleActionLocaleUUID{DC7E5E90-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsrMicrosoft.MSICost   uint16File   string 0l!<Win32_ShortcutAction,Q,$l|]:CIM_Action C $ LU e|%+]g >EWUwWin32_ShortcutActionLocaleUUID{FAE1F7B6-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsmMicrosoft.MSIArguments   stringHotKey "  uint16IconIndex $ stringName@ U stringShortcut *  stringShowCmd ()   uint16ValueMap037Target. 6 stringWkDir2 o string 0l!@Win32_TypeLibraryAction,T$w@T,p,$$X$l$+CIM_Action C !' OX hW,Win32_TypeLibraryActionLocaleUUID{5D06847A-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStringspMicrosoft.MSICost   uint32Language   uint16LibID $ $ string 0l 8CIM_ActionSequence,8<$l 4  + 39age*CIM_ActionSequenceAbstractAssociationLocaleUUID{F127E50E-E3E0-11d2-8601-0000F8102E5F}Nextf6  ref:CIM_ActionMaxMinPriorf6  % ref:CIM_ActionMaxMin $``8CIM_ActionSequenceIM0lh 0CIM_ActsAsSpare, pp$l 4  ( 06^eU1CIM_ActsAsSpareAbstractAssociationLocaleUUID{64C1726E-DB21-11d2-85FC-0000F8102E5F}Groupf  ref:CIM_SpareGroupHotStandby   BOOLEANSparef  ref:CIM_ManagedSystemElement w,lp{hLLWin32_ApplicationCommandLine0l x4Win32_BaseService0T04CIM_ChassisInRack0l0s 4|$:,sH @Z,`D$l @x@Win32_DependentServiceHCIM_ConnectorOnPackage$HCIM_StorageRedundancyGroupM4lzdl0l{!h(<X{y$+X{0lc @ $l| 0d 0l 4CIM_AdjacentSlots,d4$YB<P$l44  * 28`v CJUCIM_AdjacentSlotsAbstractAssociationLocaleUUID{FAF76B88-798C-11D2-AAD1-006008C78BC7}DistanceBetweenSlots)  real32UnitsInchesSharedSlots    booleanSlotAf 5 ref:CIM_SlotSlotBf t ref:CIM_Slot  w8Pu Hp̶,px\  8R P:CIM_Adjacen(lU0C o<$pXp@@$0CIM_CardInSlotO  30CIM_SlotInSlot0l| Q$CIM_Check,,؋\ $lQx!)  A KT4AsyTkAJUUCIM_CheckLocaleUUID{7A9135CA-DB21-11d2-85FC-0000F8102E5F}AbstractCaption) @ stringMaxlenCheckID4   stringmaxlenCheckMode  + booleanDescription k stringNameA   stringPropagatedCIM_SoftwareElement.NameCIM_keymaxlenSoftwareElementID A iq}  stringPropagatedCIM_SoftwareElement.SoftwareElementIDCIM_keymaxlenSoftwareElementState4  !K  uint16PropagatedCIM_SoftwareElement.SoftwareElementStateCIM_keyTargetOperatingSystemA   uint16PropagatedCIM_SoftwareElement.TargetOperatingSystemCIM_keyMappingstringsMIF.DMTF|Software Component Information|002.5VersionN  @ stringPropagatedCIM_SoftwareElement.VersionCIM_keyMaxlenMappingstringsMIF.DMTF|ComponentID|001.3 InvokepBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ ___0l  tHCIM_DirectorySpecification,H  PHl6$l  L'CIM_Check ) $*R \k)CIM_DirectorySpecificationLocaleUUID{A524EE6E-DB29-11d2-85FC-0000F8102E5F}abstractDirectoryPath )  stringMaxlenDirectoryType )  uint16MappingstringsMIF.DMTF|Location|001.2 0l !LWin32_DirectorySpecification,t $l0$CIM_DirectorySpecificationC &, T] mWin32_DirectorySpecificationLocaleUUID{6328B2A8-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringsuMicrosoft.MSIDefaultDir $  stringDirectory (  string 0lx 8CIM_DiskSpaceCheck,(H,558:,l5H8x03$l)CIM_Check ) "J ThCIM_DiskSpaceCheckLocaleUUID{D3B1178A-DB29-11d2-85FC-0000F8102E5F}AbstractAvailableDiskSpace 6   UINT64ModelCorrespondenceCIM_FileSystem.AvailableSpace unitsKiloBytes on0l <CIM_FileSpecification,p@T$l@h>CIM_Check ) %M WaKQcpWCIM_FileSpecificationLocaleUUID{41F377B0-DB2A-11d2-85FC-0000F8102E5F}abstractCheckSum *)  uint32MappingstringsMIF.DMTF|Software Signature|002.4CRC1 .) ( uint32MappingstringsMIF.DMTF|Software Signature|002.5CRC2 2)  uint32MappingstringsMIF.DMTF|Software Signature|002.6CreateTimeStampe   datetimeFileSize ") IQX uint64unitsKiloBytesMD5Checksum6)  stringmaxlenName@)  stringmaxlen )0l@!,@Win32_FileSpecification,|{$lKCIM_FileSpecificationC !' OX h3=oxWin32_FileSpecificationLocaleUUID{BBB7EBAA-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringspMicrosoft.MSIAttributes>  uint16FileIDB  stringLanguage: + stringSequence@ g uint16Version@  string g0ll@!HWin32_IniFileSpecification,p#pT   48p$lpQCIM_FileSpecificationC $* R[ k)2dkUWin32_IniFileSpecificationLocaleUUID{47772EC4-DB21-11d2-85FC-0000F8102E5F}MSIProvMappingStringssMicrosoft.MSIActionF  uint16IniFileH  string> ! stringSection: \ stringValueB  string 0l  0CIM_MemoryCheck,l < p,<"$l<  )CIM_Check ) G Q]CIM_MemoryCheckLocaleUUID{DC0E96FE-DB2A-11d2-85FC-0000F8102E5F}AbstractMemorySize 6   UINT64ModelCorrespondenceCIM_OperatingSystem.FreePhysicalMemoryunitsKiloBytes s0l # 8CIM_OSVersionCheckua,"" %$l"D#8)CIM_Check ) "J TdCIM_OSVersionCheckLocaleUUID{FEE8368A-DB2A-11d2-85FC-0000F8102E5F}AbstractMaximumVersion 6 @  STRINGmaxlenModelCorrespondenceCIM_OperatingSystem.VersionMinimumVersion "6 FN@V k STRINGmaxlenModelCorrespondencesCIM_OperatingSystem.Version mt.0l & 4CIM_SettingCheck,%|%pHR"<)$l|%0&p4CIM_Check )  H R])p|WCIM_SettingCheckLocaleUUID{DC1D8140-DB30-11d2-85FC-0000F8102E5F}AbstractCheckType   UINT16EntryName )  STRINGMaxlenEntryValue $  STRINGFileName () `h STRINGMaxlenSectionKey ,)  STRINGMaxlen ,0lh) PCIM_SoftwareElementVersionCheck,((%.$l()t2CIM_Check )! )/W a~ !d;WCIM_SoftwareElementVersionCheckLocaleUUID{4D23FBD0-DB31-11d2-85FC-0000F8102E5F}AbstractLowerSoftwareElementVersion 6 @  STRINGmaxlenModelCorrespondenceCIM_SoftwareElement.VersionSoftwareElementName "6 emu  STRINGmaxlenModelCorrespondenceCIM_SoftwareElement.NameSoftwareElementStateDesired &6  @ 2 UINT16maxlenModelCorrespondence:CIM_SoftwareElement.SoftwareElementStateTargetOperatingSystemDesired (6 @  UINT16maxlenModelCorrespondenceCIM_SoftwareElement.TargetOperatingSystemUpperSoftwareElementVersion *6 @  STRINGmaxlenModelCorrespondenceCIM_SoftwareElement.Version m0l. 8CIM_SwapSpaceCheck,L..l<)0$l..)CIM_Check ) "J TcCIM_SwapSpaceCheckLocaleUUID{A5AE701E-DB31-11d2-85FC-0000F8102E5F}AbstractSwapSpaceSize 6   UINT64ModelCorrespondenceCIM_OperatingSystem.TotalSwapSpaceSizeunitsKiloBytes 0l 1 LCIM_VersionCompatibilityCheck,0x03@.|3$lx0D1'CIM_Check ) '-U _qW,CIM_VersionCompatibilityCheckLocaleUUID{D368CA4A-DB31-11d2-85FC-0000F8102E5F}AbstractAllowDownVersion   BOOLEANAllowMultipleVersions   BOOLEANReinstall " # BOOLEAN EA0l3!0Win32_Condition,L3390@6$l33+CIM_Check C  GP `wW(Win32_ConditionLocaleUUID{43FF3654-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringshMicrosoft.MSICondition   stringFeature $  stringLevel    uint16 0lL!PWin32_EnvironmentSpecificationst,55|3t:$76R,  6,6666,@@67,< < 6l76@7,""7l7,|%|%@77@77,((l77,..7:77,x0x078,337 7 )CIM_Check C  (. V_ oWin32_EnvironmentSpecificationLocaleUUID{8518ABC0-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringswMicrosoft.MSIEnvironment   stringValue "  string 0l:!<Win32_LaunchCondition,8::@6<,::8F =$l::pR%CIM_Check C % MV f}Win32_LaunchConditionLocaleUUID{E79C9694-DB32-11d2-85FC-0000F8102E5F}MSIProvMappingStringsnMicrosoft.MSICondition   string .M0l<=!teTWin32_ODBCDataSourceSpecification,<`<،t:<@,`<`<:h@$l`<`=08`C-CIM_Check C# +1Y b rKYWWin32_ODBCDataSourceSpecificationLocaleUUID{1F20B83E-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringszMicrosoft.MSIDataSource   stringDescription@  stringDriverDescription " C stringRegistration &  string tr0l@!,LWin32_ODBCDriverSpecification,??C<C,??=C=C$l?@,H+-CIM_Check C '-U ^ n6AWsWin32_ODBCDriverSpecificationLocaleUUID{45BD8DD2-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsvMicrosoft.MSIDescription@  stringDriver   stringFile " . stringSetupFile & k string tu0lC!TWin32_ODBCTranslatorSpecification,0CC9<@F,CCh@F$lCDP3-CIM_Check C# +1Y b r =IW{Win32_ODBCTranslatorSpecificationLocaleUUID{51E28842-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringszMicrosoft.MSIDescription@  stringFile "  stringSetupFile & 5 stringTranslator  s string nsp0lG!DWin32_ProgIDSpecification,FPFtXCI,PFPFh@MCI$lPF@G)CIM_Check C #)Q Z j4Win32_ProgIDSpecificationLocaleUUID{8D500594-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsrMicrosoft.MSIDescription@  stringParent "  stringProgID  , string P0lI!4Win32_ReserveCost,lI % stringServiceType & d sint32StartName:  stringStartType *  sint32 ar0l@R!PWin32_SoftwareElementCondition,QhQ$0LHT,hQhQM$lhQdRx[%CIM_Check C  (. V_ oWin32_SoftwareElementConditionLocaleUUID{280AE270-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStringswMicrosoft.MSICondition   string .M0ltT <CIM_CompatibleProduct, TS*QX$lST 4 ! )/W d~UBCIM_CompatibleProductAbstractLocaleUUID{2F648FBA-DB22-11d2-85FC-0000F8102E5F}AssociationCompatibilityDescription  STRINGCompatibleProductf  ref:CIM_ProductProductf 1 ref:CIM_Product 0X$LWin32_ProductSoftwareFeaturesX@  ,W8tTPX0s0x(pTtpati0CIM_ProductFRU@CIM_PackageInChassisW@CIM_FRUIncludesProduct2  w(lw 0lY ],CIM_Component,XxXHT\$lxX$Y ?  & 3 ;Aiye.CIM_ComponentAssociationAbstractAggregationLocaleUUID{8502C573-5FBB-11D2-AAC1-006008C78BC7}GroupComponentf'   ref:CIM_ManagedSystemElementAggregatePartComponentf  ref:CIM_ManagedSystemElement 0l`u!(l$8CIM_LogicalElementC\$lh88 $_8h  p 0CIM_DependencyOHCIM_ElementConfiguration0l8]xX @CIM_CollectionOfSensors,\\X d$l\\] CIM_Component) # +1YiemCIM_CollectionOfSensorsAbstractLocaleUUID{A2ABF536-DB35-11d2-85FC-0000F8102E5F}GroupComponentf@6  ref:CIM_MultiStateSensorMaxOverrideGroupComponentPartComponentf@6 9 OT^ref:CIM_BinarySensorMinOverridePartComponent _,o`(llvtm Wt@CIM_CollectionOfSensors$l0  OYh ref:CIM_ProcessOverridePartComponentWeak Co0l !(lܹ,,v$lc(,b4(ocess,44CIM_ProcessThreadHdo  8$PV2:CIM_OSProce hXWin32_InstalledSoftwareElement8@OMPUTER\ROOT\Cl$lp0l<`!84,p,4<CIM_ProcessExecutable  4$k0l$xX 4CIM_ProcessThread,Ľ@$lH CIM_Component)  %+SceiCIM_ProcessThreadAbstractLocaleUUID{B7E6042C-DB36-11d2-85FC-0000F8102E5F}GroupComponentf@C  ref:CIM_ProcessMaxMinOverrideGroupComponentPartComponentf@4 : JTc ref:CIM_ThreadOverridePartComponentWeak Co$l8 0lh $T,Win32_Account,`|,``4$l`X 8p0Win32_GroupUser0l@`! (Win32_Group,Ԝ$ld$l؟ DG8hT\CIMV2:CIM_Proce<Win32_COMApplication,iiT'$liTD`XWin32_COMApplicationClasses0lxX @CIM_RedundancyComponent,D4$l CIM_Component) # +1Yie*CIM_RedundancyComponentAbstractLocaleUUID{FB9D6E62-DB36-11d2-85FC-0000F8102E5F}GroupComponentf@)  ref:CIM_RedundancyGroupOverrideGroupComponentPartComponentf@   ref:CIM_ManagedSystemElement ed8vlGroup,lmq[\t@CIM_RedundancyComponent< CIM_RedundancyGroup) " *0XiCIM_ExtraCapacityGroupAbstractLocaleUUID{570ED2E8-E3D1-11d2-8601-0000F8102E5F}MinNumberNeeded  UINT32 708zdundancyGroup, on4"00lt @CIM_ExtraCapacityGroupt\t$lH0l` L8CIM_SpareGroupt0l TCIM_AggregateRedundancyComponent,0$l !CIM_RedundancyComponent)" , 4:bre\CIM_AggregateRedundancyComponentAbstractLocaleUUID{154E66D8-DB35-11d2-85FC-0000F8102E5F}GroupComponentf@)  ref:CIM_StorageRedundancyGroupOverrideGroupComponentPartComponentf@) ) CMref:CIM_AggregatePExtentOverridePartComponent te8VXM_StHCIM_BootServiceAccessBySAP<CIM_HostedBootService8`pOEMC0lt <CIM_ClusteringService0T0<Win32_ClassInfoAction,p@kx$T0@$T0`  @8 IMV2:CIM_AggregaLCIM_ClusterServiceAccessBySAPDWin32_ApplicationServicen,0f8lMCOMPUTER\ROOT\C  ( L8 lQd*h,M_AgLCIM_LinkHasConnectorPCIM_PExtentRedundancyComponentg  L,l, l0l  PCIM_PExtentRedundancyComponent,84L  8ponentOverridePartComponent$l0 !CIM_RedundancyComponent) * 28`peXCIM_PExtentRedundancyComponentAbstractLocaleUUID{AD3C1FA2-DB36-11d2-85FC-0000F8102E5F}GroupComponentf@)  ref:CIM_StorageRedundancyGroupOverrideGroupComponentPartComponentf@) ' ?Iref:CIM_PhysicalExtentOverridePartComponent ca  <8Ht $l \x<l!t$l(5-0DWin32_ImplementedCategory0ll0 ITCIM_AggregateRedundancyComponento)CIM_Service )  #)QCIM_BootServiceAbstractLocaleUUID{75BCF4FE-DB46-11D2-B4C8-80080C7B6371} y,0l49,#!8Win32_OnBoardDevice +TC0lh xtxs(CIM_Service, l 0l(xX PXCIM_SoftwareFeatureSoftwareElements,t4z$$ltL CIM_Component)% -3[ eueNCIM_SoftwareFeatureSoftwareElementsLocaleUUID{A91081E2-DB37-11d2-85FC-0000F8102E5F}AbstractGroupComponentf@4   ref:CIM_SoftwareFeatureMinMaxPartComponentf@4 + DI ref:CIM_SoftwareElementMinMax em0lT!(l$XCIM_OperatingSystemSoftwareFeaturer8x|@ents, ܵ,H0T0h@CIM_ModifySettingAction,h8̛` ܵD$`\CIM_ApplicationSystemSoftwareFeaturee, 8t,*/H}Ђ  A$lDg $l$T000T00@Win32_RemoveFileActionm4dX L0lF x?0CIM_BIOSFeature,8|U0llt HCIM_BIOSFeatureBIOSElements,it;$l -CIM_SoftwareFeatureSoftwareElements%) %+S ]meGCIM_BIOSFeatureBIOSElementsLocaleUUID{42B2EC5C-DB35-11d2-85FC-0000F8102E5F}AbstractGroupComponentf@)  ref:CIM_BIOSFeatureOverrideGroupComponentPartComponentf@)  .8ref:CIM_BIOSElementOverridePartComponent OSHCIM_BIOSFeatureBIOSElements,?XAh8XA$lXAHf/CIM_SoftwareFeature) $L VrduCIM_VideoBIOSFeatureLocaleUUID{BAE20634-E3D4-11d2-8601-0000F8102E5F}AbstractCharacteristicDescriptions $C  ! 6 STRINGArrayTypeIndexedMappingStringsMIF.DMTF|Video BIOS Characteristic|001.4ModelCorrespondence>CIM_VideoBIOSFeature.CharacteristicsCharacteristics (P  1 F  UINT16ArrayTypeIndexedMappingStringsMIF.DMTF|Video BIOS Characteristic|001.3ModelCorrespondenceNCIM_VideoBIOSFeature.CharacteristicDescriptionsValueMap 123456789 idEH8ܵ0BIOSElementsU0lHt \CIM_VideoBIOSFeatureVideoBIOSElements,h8$4  88OverrideGroupComponentA$l8l -CIM_SoftwareFeatureSoftwareElements%)' /5] gwe[CIM_VideoBIOSFeatureVideoBIOSElementsLocaleUUID{B3F86390-DB37-11d2-85FC-0000F8102E5F}AbstractGroupComponentf@)  ref:CIM_VideoBIOSFeatureOverrideGroupComponentPartComponentf@) ( BLref:CIM_VideoBIOSElementOverridePartComponent OSDWin32_DuplicateFileAction,h\7N v8\CIM_VideoBIOSFeatureVideoBIOSElements 4 ! )/W dze?CIM_ToDirectoryActionAbstractLocaleUUID{B58D172E-DB31-11d2-85FC-0000F8102E5F}AssociationDestinationDirectoryf6  ref:CIM_DirectoryActionMaxMinFileNamef) " :ref:CIM_CopyFileActionMin t$T0\$0T0@$<CIM_RemoveFileActiona8`0̓0l@F!<Win32_SoftwareFeature$l(k d$T0$Q0T08$<8CIM_CopyFileAction,$T0@P0T0 d0l`t!\Win32_SoftwareFeatureSoftwareElements,4$lT7 -CIM_SoftwareFeatureSoftwareElements%C' /5 ]f v#eWin32_SoftwareFeatureSoftwareElementsLocaleUUID{F3B44268-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStrings~Microsoft.MSIGroupComponentf@4   ref:Win32_SoftwareFeatureOverrideGroupComponentPartComponentf@4 e  ref:Win32_SoftwareElementOverridePartComponent re ?  %+S ` mteHCIM_StorageDefectAbstractLocaleUUID{5CC70817-DB31-11d2-85FC-0000F8102E5F}AggregationAssociationErrorf'   ref:CIM_StorageErrorWeakExtentfA  3 >Cref:CIM_StorageExtentAggregateMaxMin \^HCIM_ComputerSystemDMAHWin32_SoftwareFeatureParentDj 4ts_,ppb (ȥ8CIM_DirectoryAction)(  CIM_CreateDirectoryActionDescription The CIM_CreateDirectoryAction creates empty directories for software elements to be installed locally.AMENDMENTLOCALE to0T0,N`0lh fn(CIM_Systemw,po$lpv 0lxdxX H8CIM_SystemComponent,Hxu4$,\\,cc((,ppT,ġġ(,ШШT,pp,88,T`0,\,tt0Ld0Ld CIM_Component)  '-UeeCCIM_SystemComponentAbstractLocaleUUID{527BC6CE-BAFE-11d2-85E5-0000F8102E5F}GroupComponentf@)  ref:CIM_SystemOverrideGroupComponentPartComponentf@)   *4ref:CIM_ManagedSystemElementOverridePartComponent sta8(dԧdY>M_Sy+CIM_System ) ! )/WCIM_ApplicationSystemAbstractLocaleUUID{120BB700-DB2B-11d2-85FC-0000F8102E5F} ,ddX >  8XtemComponent$T0X\4$__SystemSecurity,CIM_ActionDh4CIM_SystemDeviceTHWin32_SoftwareFeatureCheckHWin32_SoftwareFeatureCheck2DWin32_PrivilegesStatus0ld \CIM_ApplicationSystemSoftwareFeature ,4 x$l CIM_SystemComponent)& .4\ fve~CIM_ApplicationSystemSoftwareFeatureLocaleUUID{0E17B9EA-E3D3-11d2-8601-0000F8102E5F}AbstractGroupComponentf@6  ref:CIM_ApplicationSystemMinOverrideGroupComponentPartComponentf@6 G `eoref:CIM_SoftwareFeatureMinOverridePartComponent tu<lP!ystem,X`(`9\CIM_ApplicationSystemSoftwareFeature4Win32_ShortcutSAP,x.8P0dd,4Win32_ShortcutSAP4Win32_ShortcutSAP  8`f<,M_Applicf,gbL0lp ܴ8CIM_ComputerSystemt  80dfOEMC$l0$ 0 (l40lt HCIM_ComputerSystemResource),xG,twtwTyT,ltwyjq$lx CIM_SystemComponent) & .4\lepCIM_ComputerSystemResourceAbstractLocaleUUID{9B81340A-E3D3-11d2-8601-0000F8102E5F}GroupComponentf@C  ref:CIM_ComputerSystemMaxMinOverrideGroupComponentPartComponentf@) ? Waref:CIM_SystemResourceOverridePartComponent mR HCIM_ComputerSystemMappedIO0l 4$ @cpl 4  CCIM_DMA 6  $*RXWin32_DMAChannelCIMWin32LocaleUUID{8502C4D1-5FBB-11D2-AAC1-006008C78BC7}Port:)   uint32MappingStringsWin32API|System Structures|CM_PARTIAL_RESOURCE_DESCRIPTOR|Dma|Port s )  %MVU.CIM_SettingAbstractLocaleUUID{8502C572-5FBB-11D2-AAC1-006008C78BC7}Caption)  @stringMaxLenDescription  stringSettingID)  &stringMaxLen 4@Win32_AllocatedResourcePWin32_COMApplicationSettings0lx <CIM_ComputerSystemDMA,hXxx$lh@ $CIM_ComputerSystemResource) ! )/WgeMCIM_ComputerSystemDMAAbstractLocaleUUID{9B81340B-E3D3-11d2-8601-0000F8102E5F}GroupComponentf@)  ref:CIM_ComputerSystemOverrideGroupComponentPartComponentf@4 ! .8G ref:CIM_DMAOverridePartComponentWeak 8XWin32_SystemMemoryResource<CIM_ComputerSystemDMA8!ystemDMA$l $l` "CIM_LogicalElement)  (.VWin32_COMApplicationabstractLocaleUUID{0F73ED4F-8ED9-11d2-B340-00105A1F8569} a0li!, )8`\M('$l` 0l  CIM_IRQ,#$ A,0l!4Win32_DMAChannele$0lx <CIM_ComputerSystemIRQ,<   8h 8"$($l   $CIM_ComputerSystemResource) ! )/Wge&CIM_ComputerSystemIRQAbstractLocaleUUID{A2EFC896-E3D3-11d2-8601-0000F8102E5F}GroupComponentf@  ref:CIM_ComputerSystemPartComponentf@4    ref:CIM_IRQOverridePartComponentWeak <CIM_ComputerSystemIRQ0l!4Win32_IRQResource,h8p8$l8X,0l  8CIM_MemoryMappedIOe,8, $lܫ 4Win32_Environment,!@!$l!ܯ 0l0h Ⱥ(CIM_ThreadE,`l |4``L(0lx HCIM_ComputerSystemMappedIO,Hx"$l $CIM_ComputerSystemResource) & .4\le6CIM_ComputerSystemMappedIOAbstractLocaleUUID{A2EFC897-E3D3-11d2-8601-0000F8102E5F}GroupComponentf@  ref:CIM_ComputerSystemPartComponentf@4  !0 ref:CIM_MemoryMappedIOOverridePartComponentWeak  $l 3CIM_MemoryMappedIO) & .4\Win32_SystemMemoryResourceAbstractLocaleUUID{8502C4CE-5FBB-11D2-AAC1-006008C78BC7} 0l  !DWin32_DeviceMemoryAddress,( , @!l!$l0l! !8Win32_PortResource,! 4l   !8 ( OEMC$l 00l<! $0l"x!<Win32_SystemResources,h"8"jd-*$l8""c $CIM_ComputerSystemResource6 ! )/Wg+eWin32_SystemResourcesCIMWin32LocaleUUID{8502C4F8-5FBB-11D2-AAC1-006008C78BC7}GroupComponentf@A    ref:Win32_ComputerSystemOverrideGroupComponentMappingStringsWMI|Win32_ComputerSystemPartComponentf@A z   ref:CIM_SystemResourceOverridePartComponentMappingStringsCIM|CIM_SystemResource rtXWin32_SoftwareElementActionSystem,=Ԭ$T0 ?8Q,$dHCIM_ToDirectoryAction(@ @,CIM_Battery,CIM_Fan$l(j<CIM_ApplicationSystem$ldf0AdHWin32_SoftwareFeatureCheck,LA$4T04N e,CIM_DataFile$l`Hh@Win32_PrinterController"0lLC<!LI8Win32_SystemDevices,BBV]l< IB$lBpCtU CIM_SystemDevice6  '-Ue)eWin32_SystemDevicesCIMWin32LocaleUUID{8502C4F4-5FBB-11D2-AAC1-006008C78BC7}GroupComponentf@A    ref:Win32_ComputerSystemOverrideGroupComponentMappingStringsWMI|Win32_ComputerSystemPartComponentf@A x   ref:CIM_LogicalDeviceOverridePartComponentMappingStringsCIM|CIM_LogicalDevice ar0lL;!(l n,;; Vh,@@ccF,qq8hF@lDb h e$l pv   dGHolTIMV2:Win32_SystemUserss@4CIM_ControlledByT8CIM_SCSIInterfacen,CIM_BootSAP0l B<\ xg0lhIB!LWin32_ComputerSystemProcessor,HHCOP$lHIP2 Win32_SystemDevices6 ) 17_oeWin32_ComputerSystemProcessorCIMWin32LocaleUUID{719A6839-C124-11d2-85E8-0000F8102E5F}GroupComponentf@+  ref:Win32_ComputerSystemOverrideGroupComponentMappingStringsWMI|Win32_ComputerSystemPartComponentf@+ Vku ref:Win32_ProcessorOverridePartComponentMappingStringsWMI|Win32_Processor 2_CI8Win32_PageFileUsage,TjTjj4lTjT \h!8Win32_NetworkClient,bb4H0l$d!PWin32_SystemNetworkConnections,cxc]j$lxcHdo CIM_SystemComponent6  * 28`p%4eWin32_SystemNetworkConnectionsCIMWin32LocaleUUID{8502C4F7-5FBB-11D2-AAC1-006008C78BC7}GroupComponentf@A    ref:Win32_ComputerSystemOverrideGroupComponentMappingStrings WMI|Win32_ComputerSystemPartComponentf@A    ref:Win32_NetworkConnectionOverridePartComponentMappingStringsWMI|Win32_NetworkConnection e #CIM_SoftwareElementChecksC! )/W ` pu?Win32_ODBCDriverSoftwareElementLocaleUUID{3A20796C-DB33-11d2-85FC-0000F8102E5F}MSIProvMappingStringsxMicrosoft.MSICheckf@'   ref:Win32_ODBCDriverSpecificationElementf@' $  ref:Win32_SoftwareElement f:xF,L$lЀHWin32_ProgramGroupContentssL,LCFYd<CIM_AllocatedResource,LCLCu4,hIhIu4t`,hPhP4@n@Win32_SettingChecklT`Win32_SystemLogicalMemoryConfiguratione<Win32_SystemTimeZone,,,CIM_Dependency)  %MY+:l}UCIM_BasedOnAbstractLocaleUUID{8502C53E-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@)  ref:CIM_StorageExtentOverrideAntecedentDependentf@)   ref:CIM_StorageExtentOverrideDependentEndingAddress d uint64StartingAddress  uint64 nt(CIM_BasedOn8`l<4 HCIM_AggregatePExtentP4  880D :CIM_BasedOn$l   48+, #4CIM_MediaPresentT    0l 4&PCIM_LogicalDiskBasedOnPartition, &X-$lCIM_BasedOn )! + 39am=CIM_LogicalDiskBasedOnPartitionAbstractLocaleUUID{8502C53F-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@)  ref:CIM_DiskPartitionOverrideAntecedentDependentf@)  (2ref:CIM_LogicalDiskOverrideDependent reObjPWin32_SoftwareElementResourcen,| Y $l0l$HCIM_BIOSFeatureBIOSElements8CIM_BIOSLoadedInNV  >8D>>?OEMCOMPU,AAP i@0lAR ?>x<CIM_VideoBIOSFeaturevV@4Win32_SystemBIOS0l,Af j<CIM_VideoBIOSElemente,l@<@?b  @8<@Hc kV2:CIM_BIOSL,l<@`aj@0l$F ( D0lH?!?(Win32_BIOSa(AA0lB 4CIM_BootOSFromFSnt,`B0B||kt;G$l0BB CIM_Dependency)  $*R^U/CIM_BootOSFromFSAbstractLocaleUUID{5F5B101E-DB35-11d2-85FC-0000F8102E5F}Antecedentf@)  ref:CIM_FileSystemOverrideAntecedentDependentf@)  $ref:CIM_OperatingSystemOverrideDependent de  D8$/BHIM_BootOSFxE4CIM_BootOSFromFS\0CIM_InstalledOS  E8EHEE(FTFTER\ROOT\CXCIM_OperatingSystemSoftwareFeature\,CIM_OSProcess<CIM_RunningOSF0l0G DCIM_ComputerSystemPackage,FFB$M$lFTG CIM_Dependency) % -3[gUCCIM_ComputerSystemPackageAbstractLocaleUUID{FAF76B8D-798C-11D2-AAD1-006008C78BC7}Antecedentf@)  ref:CIM_PhysicalPackageOverrideAntecedentDependentf@)  .8ref:CIM_UnitaryComputerSystemOverrideDependent dePWin32_ClientApplicationSettingmPWin32_ClientApplicationSetting0l! 0m,$8dl0Gl tU 4  &,T ajeCIM_ProductSupportAbstractLocaleUUID{8D6D6880-DB2B-11d2-85FC-0000F8102E5F}AssociationProductf  ref:CIM_ProductSupportf  ref:CIM_SupportAccess C<,\,< uԞ@CIM_ConnectorOnPackage28h4L8 Tin@ 0l tR0CIM_ConnectedTo,LLGHR$DtM2,M,00tMMtMM,DDMM,MPNM$N,MPN,DD$N|N$N|N,PNN, ; ;MV|NN,0B0BNO,FFNN CIM_Dependency)  #)Q]U7CIM_ConnectedToAbstractLocaleUUID{FAF76B85-798C-11D2-AAD1-006008C78BC7}Antecedentf@)  ref:CIM_PhysicalConnectorOverrideAntecedentDependentf@)  ",ref:CIM_PhysicalConnectorOverrideDependent de  Q8hV2:CIM_Connect$QP@CIM_ConnectorOnPackage2  40lRL 0CIM_SlotInSlot,RQP_$MVQ$lQR CIM_ConnectedTo)  "(P\U.CIM_SlotInSlotAbstractLocaleUUID{FAF76B87-798C-11D2-AAD1-006008C78BC7}Antecedentf@)  ref:CIM_SlotOverrideAntecedentDependentf@6  )ref:CIM_SlotOverrideDependentMax Ov$lPh4l0P!|4CIM_AdjacentSlots(UT0CIM_CardOnCard(  0l!4Win32_SystemSlot0lV DCIM_DeviceAccessedByFile,@VVHR\,VVO\$lVW CIM_Dependency) $ ,2ZfUGCIM_DeviceAccessedByFileAbstractLocaleUUID{05D1FFF2-DB36-11d2-85FC-0000F8102E5F}Antecedentf@)  ref:CIM_DeviceFileOverrideAntecedentDependentf@6  -2<ref:CIM_LogicalDeviceMaxOverrideDependent deLY0l!P, 0@0DCIM_DeviceAccessedByFile@Win32_WMIElementSetting8mY(fccessedByFile8<\`MCOMPUTER\ROOT\C4T@ rmF 0lP[ $,,)`)9P,HZ$lZ_ Z  eLCIM_AssociatedProcessorMemory4Vxg,l nDs0l] <CIM_DeviceConnection,l\<\:pV,<\<\V$l<\$]CIM_Dependency)  (.Vb4IUCIM_DeviceConnectionAbstractLocaleUUID{8502C53C-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@)  ref:CIM_LogicalDeviceOverrideAntecedentDependentf@)  )ref:CIM_LogicalDeviceOverrideDependentNegotiatedDataWidth)  uint32UnitsBitsNegotiatedSpeed)  uint64UnitsBits per Second co$l@ 8t"|DTER\ROOT\C8dNurce8CIM_AssociatedAlarm,D7 D7 x9 4; 4lD7 9 h rm,l<Li,bb$l {dL$ld@lTg `,b<CIM_AssociatedCooling4lH<!__, cFd0l+0" ,CIM_FlatPanel<bXbPdg(l,b,bF8yd(cPUTER\ROOT\C0lXA : T_0d(cmLF8Win32_SystemDriverC<XficeAccessedByFile, B BhF<CIM_HostedAccessPointTWin32_PowerManagementEvent<0lXag DCIM_ManagementControllerv, <&eLWin32_ODBCDataSourceAttributeL8L;qZOMPUTER\ROOT\C<Win32_SystemServices0l Ap [$l4lT l,0THWin32_SystemLoadOrderGroupsPWin32_SystemNetworkConnections CIM_DeviceConnection)  $*R_ lCIM_ControlledByAbstractLocaleUUID{8502C53D-5FBB-11D2-AAC1-006008C78BC7}AccessState  uint16Antecedentf@)  ref:CIM_ControllerOverrideAntecedentDependentf@) @ Waref:CIM_LogicalDeviceOverrideDependentNumberOfHardResets  uint32NumberOfSoftResets  uint32 4CIM_SCSIInterfacepR)CIM_ControlledBy)  %+S_2?qCIM_SCSIInterfaceAbstractLocaleUUID{7CE7448E-E3D4-11d2-8601-0000F8102E5F}Antecedentf@)  ref:CIM_SCSIControllerOverrideAntecedentDependentf@)  'ref:CIM_LogicalDeviceOverrideDependentSCSIRetries i UINT32SCSITimeouts"  UINT32 \W8CIM_SCSIInterface,dnXc0ll!0Win32_HeatPipea0l\ o@CIM_Refrigerationface,e8l\o!!ėer,XZ$; m<Win32_SCSIControllerM$ln%o(8< nlOT\CIMV2:CIM_SXt,@df0lq`H 8CIM_SerialInterface,Lpp0PXw  p8(p`w`~HL| #$lp,q'CIM_ControlledBy)  '-Ua6GyCIM_SerialInterfaceAbstractLocaleUUID{8B309BDA-E3D4-11d2-8601-0000F8102E5F}Antecedentf@)  ref:CIM_SerialControllerOverrideAntecedentDependentf@)   !+ref:CIM_LogicalDeviceOverrideDependentFlowControlInfo q UINT16NumberOfStopBits )  UINT16UnitsBitsParityInfo "   UINT16  t<CIM_SerialInterface, XDHWin32_POTSModemToSerialPort@Win32_SerialPortSetting  0u8ttPUTER\ROOT\CIMV20lg 4CIM_USBController,uhu0L ed,a40lvę!4Win32_SerialPortaDv$lDv /vw  $w<,vg4~0lx`H!HWin32_1394ControllerDevice,w`wp~$l`w(xc CIM_ControlledBy6 & .4\h$Win32_1394ControllerDeviceCIMWin32LocaleUUID{8835CFC9-BAEF-11d2-85E5-0000F8102E5F}Antecedentf@A    ref:Win32_1394ControllerOverrideAntecedentMappingStringsWMI|Win32_1394ControllerDependentf@A s   ref:CIM_LogicalDeviceOverrideDependentMappingStringsCIM|CIM_LogicalDevice rzHWin32_1394ControllerDevice0l ag!@Win32_FloppyController,<{ {}$|{~ ,PP{,|a|a{$|{$|,dd{P|,huhu{~$|||,||P||,ęęP|}|||,ԡԡ|},|,}|,},X}}X},!!,}0lTg!8Win32_IDEController,}}|{ ,}}||0l`H!DWin32_IDEControllerDevice,~`~}w$l`~$tX CIM_ControlledBy6 % -3[gWin32_IDEControllerDeviceCIMWin32LocaleUUID{5BC42B62-C7A1-11d2-911D-0060081A46FD}Antecedentf@A   ref:Win32_IDEControllerOverrideAntecedentMappingStringsCIM|Win32_IDEControllerDependentf@A h   ref:CIM_LogicalDeviceOverrideDependentMappingStringsCIM|CIM_LogicalDevice rDWin32_IDEControllerDevice0l\ 04CIM_CoolingDevice$l܃\?ICIM_LogicalDevice)  %+SbCIM_CoolingDeviceAbstractLocaleUUID{9565979A-7D80-11D2-AAD3-006008C78BC7}ActiveCooling B  boolean X$Win32_Fan,aȄ$lan0l  x,CIM_HeatPipeU,l#( oce,  P40l`H!HWin32_POTSModemToSerialPort,xH~$lHtX CIM_ControlledBy6 ' /5]iWin32_POTSModemToSerialPortCIMWin32LocaleUUID{8502C4B6-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@A    ref:Win32_SerialPortOverrideAntecedentMappingStringsWMI|Win32_SerialPortDependentf@A l   ref:Win32_POTSModemOverrideDependentMappingStringsWMI|Win32_POTSModem @Win32_SerialPortSetting,`0`<00TCIM_AssociatedSupplyVoltageSensorPCIM_UninterruptiblePowerSupply<\t< TSModem, tHWin32_POTSModemToSerialPortTCIM_AssociatedSupplyCurrentSensor@HalPort0l A!LWin32_StartupCommandD($ȋ  8 SModemToSerialPo<  0l h ,l8x)|Dh0l  0CIM_PowerSupply4l0l`H!@Win32_PrinterController,|L$lL hL CIM_ControlledBy6 # +1Ye Win32_PrinterControllerCIMWin32LocaleUUID{FAF76B5C-798C-11D2-AAD1-006008C78BC7}Antecedentf@A    ref:CIM_ControllerOverrideAntecedentMappingStringsCIM|CIM_ControllerDependentf@A d  w ref:Win32_PrinterOverrideDependentMappingStringsWMI|Win32_Printer  0l!46 0Win32_Processor,t)v,7 t$ltl* 5 LWin32_PublishComponentAction3,``,0@@<̑  48̴̺:Win32_Print8<Win32_PrinterSetting8Win32_PrinterShare0l X,X Ԑ,[, <,++N@Win32_PrinterDriverDll2  ,CIM_Processor0l(`H!HWin32_SCSIControllerDevice,$lLx[ CIM_ControlledBy6 & .4\hWin32_SCSIControllerDeviceCIMWin32LocaleUUID{CC0F48D2-C847-11d2-911E-0060081A46FD}Antecedentf@A   ref:Win32_SCSIControllerOverrideAntecedentMappingStringsCIM|Win32_SCSIControllerDependentf@A k   ref:CIM_LogicalDeviceOverrideDependentMappingStringsCIM|CIM_LogicalDevice rHWin32_SCSIControllerDeviceD8Win32_VideoSettings0lg!z<Win32_1394ControllerC,|Р|{$l|b8x$l} gD~ me, @ (0l\g vt<CIM_SerialController,ę; $lę+q$lhu`Au<Win32_VideoController$lR,88@@ o0l`H!DWin32_USBControllerDevice,|<آ$l|@x\ CIM_ControlledBy6 % -3[gWin32_USBControllerDeviceCIMWin32LocaleUUID{DE57D792-A032-11D2-90F0-0060081A46FD}Antecedentf@A    ref:CIM_USBControllerOverrideAntecedentMappingStringsCIM|CIM_USBControllerDependentf@A l   ref:CIM_LogicalDeviceOverrideDependentMappingStringsCIM|CIM_LogicalDevice r44ԡ(L4ler,t0DWin32_USBControllerDevice4CIM_VideoSetting20l|ԡ <CIM_PCVideoController,ȟԞРȟ$lȟO0lȟ!(0'4r, YA0lhu!8Win32_USBController,$l,B0l<g `x8CIM_VideoController$lԡDJ0l0 HCIM_DeviceSAPImplementation,`p,``\\$l`T CIM_Dependency) %+S ]iU@CIM_DeviceSAPImplementationLocaleUUID{1BE949DA-DB36-11d2-85FC-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_LogicalDeviceOverrideAntecedentDependentf@)  +5ref:CIM_ServiceAccessPointOverrideDependent de@\Win32_SoftwareFeatureSoftwareElements lpo,lHtD4  <xd<essPointp$T0`4T0`P  80MPQ\lz_DeviceS\PWin32_InstalledSoftwareElementO  $,a FOh,HtoU40<CIM_HostedBootService  X,A ̓<CIM_HostedAccessPoint  8\4S`nnn$o\0lȩ PCIM_DeviceServiceImplementation, دآد,$l CIM_Dependency)! + 39amU9CIM_DeviceServiceImplementationAbstractLocaleUUID{290FC242-DB36-11d2-85FC-0000F8102E5F}Antecedentf@)  ref:CIM_LogicalDeviceOverrideAntecedentDependentf@)  $.ref:CIM_ServiceOverrideDependent deLCIM_ServiceServiceDependencyD, en0T0@ ?DCIM_CreateDirectoryAction,`t?`{  88ȩPQ\lHq(_DeviceS@CIM_ServiceAccessBySAPDCIM_ServiceSAPDependency20CIM_BootService@~  @*go8CIM_SystemComponent8LA̓04CIM_HostedService  (HpԮsson"Ԯ0l0 8CIM_DeviceSoftware3,p$[pt,ppN8$lpTCIM_Dependency)  &,T`4=ULCIM_DeviceSoftwareAbstractLocaleUUID{36363AAA-DB36-11d2-85FC-0000F8102E5F}Antecedentf@)  ref:CIM_SoftwareElementOverrideAntecedentDependentf@)  )ref:CIM_LogicalDeviceOverrideDependentPurpose) t | UINT16ModelCorrespondenceCIM_DeviceSoftware.PurposeDescriptionPurposeDescription )    (STRINGModelCorrespondence0CIM_DeviceSoftware.Purpose po2@Win32_ShareToDirectory"8(0P`}TER\ROOT\CT8CIM_DeviceSoftware\CIM_SoftwareFeatureSoftwareElementse, _d,CIM_RunningOS,UlLCIM_InstalledSoftwareElementD  t8( a\\OEMCOMPU0lif B(>,\,x(x80l̶ (CIM_Dockedti,LدL,x$l CIM_Dependency6  &M U[ UyCIM_DockedAbstractMappingStrings.MIF.DMTF|Dynamic States|001.2LocaleUUID{FAF76B75-798C-11D2-AAD1-006008C78BC7}Antecedentf@6  ref:CIM_ChassisOverrideAntecedentMaxDependentf@6 N _itref:CIM_ChassisOverrideDependentMax MedLCIM_ProductProductDependencyD0lpT 0wHCIM_ProductSoftwareFeatures0l 8CIM_ElementsLinked,tT,$lȺ CIM_Dependency)  &,T`U3CIM_ElementsLinkedAbstractLocaleUUID{FAF76B83-798C-11D2-AAD1-006008C78BC7}Antecedentf@)  ref:CIM_PhysicalLinkOverrideAntecedentDependentf@)  (ref:CIM_PhysicalElementOverrideDependent de@Win32_ComClassEmulatoryATU  8hIMV2:CIM_Element@Win32_ComClassEmulator0l!DWin32_ImplementedCategory,x<@0$lx<TWin32_ImplementedCategoryingmaxlenNam<CIM_LinkHasConnectorM  h,I('<,<$lI,8MCOMPUTER\ROOT\CHWin32_ComClassAutoEmulator0l $<CIM_HostedAccessPoint,yL,x$l CIM_Dependency) %M WcUhCIM_HostedAccessPointLocaleUUID{343E596A-E3D5-11d2-8601-0000F8102E5F}AbstractAntecedentf@C  ref:CIM_SystemMaxMinOverrideAntecedentDependentf@4 1 MWb ref:CIM_ServiceAccessPointOverrideDependentWeak WeT5Win32_Account6   %MUWin32_GroupCIMWin32LocaleUUID{8502C4CB-5FBB-11D2-AAC1-006008C78BC7}Domain@6   stringMappingStringsWin32API|Network Management Functions|domainnameOverrideDomainName@ 6 G OY_ ostringOverrideNameMappingStringswWin32API|Network Management Structures|name 8CIM_ExecuteProgramC,00l@ 4CIM_HostedBootSAP,@Tx$ld CIM_HostedAccessPoint)  %+S_U3CIM_HostedBootSAPAbstractLocaleUUID{625B4512-DB36-11d2-85FC-0000F8102E5F}Antecedentf@)  ref:CIM_UnitaryComputerSystemOverrideAntecedentDependentf@)   (ref:CIM_BootSAPOverrideDependent SA,X<,lX<DCIM_ComputerSystemPackage  8YX8  @8o`̇t$l`  8x,MCOMPUTER\ROOT\CxDWin32_ODBCDriverAttribute  P 32<Win32_ComputerSystemM,Z w$lZ tuLWin32_ODBCDataSourceAttributeDWin32_ODBCDriverAttribute8`Lo0l DCIM_HostedJobDestination6,4,x$$l CIM_Dependency) $ ,2ZfUgCIM_HostedJobDestinationAbstractLocaleUUID{7880DD16-DB36-11d2-85FC-0000F8102E5F}Antecedentf@C  ref:CIM_SystemMaxMinOverrideAntecedentDependentf@4 4 LVa ref:CIM_JobDestinationOverrideDependentWeak WeI7$Win32_SystemMemoryResource6 % -3[gWhWin32_DeviceMemoryAddressCIMWin32LocaleUUID{8502C4CF-5FBB-11D2-AAC1-006008C78BC7}MemoryType 06    stringValueMapReadWriteReadOnlyWriteOnlyPrefetchableMappingStringsWin32API|SystemStructures|CM_PARTIAL_RESOURCE_DESCRIPTOR|FlagsStartingAddress@ A    uint64MappingStringsMIF.DMTF|Memory Mapped I/O|001.1OverrideStartingAddress DCIM_RemoveDirectoryAction,@$9`P t0l l4CIM_HostedService,`xx/x@,``$$l`@ CIM_Dependency)  %+S_UYCIM_HostedServiceAbstractLocaleUUID{83B2A7AA-DB36-11d2-85FC-0000F8102E5F}Antecedentf@C  ref:CIM_SystemMaxMinOverrideAntecedentDependentf@4 - >HS ref:CIM_ServiceOverrideDependentWeak We+CIM_System )  &,T`WCIM_ComputerSystemAbstractLocaleUUID{8502C525-5FBB-11D2-AAC1-006008C78BC7}NameFormat@6   stringOverrideNameFormatValueMap !&,16;BGPIPDialHIDNWAHWAX25ISDNIPXDCCICDE.164SNAOID/OSIOther DWin32_CreateFolderAction,djԬd,T0dDT0l` <CIM_HostedBootService,$le CIM_HostedService) ! )/WcUCIM_HostedBootServiceAbstractLocaleUUID{6DAE7092-DB36-11d2-85FC-0000F8102E5F}Antecedentf@ ref:CIM_SystemDependentf@ ref:CIM_BootServiceOverrideDependent iciattW5$Win32_SystemMemoryResource6  &,T[Win32_PortResourceCIMWin32LocaleUUID{8502C4D0-5FBB-11D2-AAC1-006008C78BC7}Alias 0)   booleanMappingStringsWin32API|Configuration Manager Structures|IO_INFOStartingAddress@ A F N ^ uint64MappingStringsfMIF.DMTF|Memory Mapped I/O|001.1OverrideStartingAddress $T0@ 8T0@̓4CIM_HostedService$T0A|0T0Z 0lP @CIM_JobDestinationJobs,l@,$lt CIM_Dependency) " *0XdU?CIM_JobDestinationJobsAbstractLocaleUUID{8D079BEE-DB36-11d2-85FC-0000F8102E5F}Antecedentf@6  ref:CIM_JobDestinationMaxOverrideAntecedentDependentf@)  *4ref:CIM_JobOverrideDependent de0T0 ?( X8DCIM_HostedJobDestinationt@CIM_JobDestinationJobs  X8<  ,LCLChF,||,,T, ? ?t<l,<@LB0l@h 4CIM_LogicalDevice,d$ld,]]c,xxF0$FD,<<0l d4CIM_MediaPresent,X(8,(($8$l( CIM_Dependency)  $*R^U4CIM_MediaPresentAbstractLocaleUUID{8502C540-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@)  ref:CIM_MediaAccessDeviceOverrideAntecedentDependentf@)  )ref:CIM_StorageExtentOverrideDependent deobCIM_StorageExtent)  (.VfCIM_AggregatePExtentAbstractLocaleUUID{9565979F-7D80-11D2-AAD3-006008C78BC7}NumberOfBlocks@P6   uint64MappingStringsMIF.DMTF|Aggregate Physical Extent|001.2OverrideNumberOfBlocks Exd<CIM_AggregatePSExtent,GFF @8hx$,`9tG|$lG\ 0l 8a4CIM_DiskPartition<tCIM_Dependen8CIM_ResidesOnExtent0l  uint16 600UUP4esDCIM_RealizesDiskPartition0l$*ܿ QHQ<CIM_PhysicalConnector  )8,#`)(5,OEMC$l`)@'H*P8CIM_ConnectedTo*0l+ DCIM_RealizesDiskPartition,**81$81  \+8($*05<nref:CIM_L$l*+( CIM_Realizes) % -3[gK\UCIM_RealizesDiskPartitionAbstractLocaleUUID{FAF76B80-798C-11D2-AAD1-006008C78BC7}Antecedentf@6  ref:CIM_PhysicalMediaOverrideAntecedentMaxDependentf@)  6@ref:CIM_DiskPartitionOverrideDependentStartingAddress  uint64 `BSCIM_PhysicalElement)  $*RZ:AtCIM_PhysicalLinkAbstractLocaleUUID{FAF76B82-798C-11D2-AAD1-006008C78BC7}LengthB)  real64UnitsFeetMaxLength:)  real64UnitsFeetMediaTypeL 2 uint16Wired J k boolean ,6 Y$lXL@l !!@00ld1 8CIM_RealizesPExtent,10+06$l01$CIM_Realizes)  '-UaFWUCIM_RealizesPExtentAbstractLocaleUUID{FAF76B7F-798C-11D2-AAD1-006008C78BC7}Antecedentf@6  ref:CIM_PhysicalMediaOverrideAntecedentMaxDependentf@)  1;ref:CIM_PhysicalExtentOverrideDependentStartingAddress  uint64 8|T3PUTER\ROOT\C4CIM_PackageInSlot0l5`)!8Win32_PortConnector,H44(5  484OT\CIMV2:CIM_Rea$l4G 0l ܿ p4CIM_PhysicalLinki0X5(5`B4y0l\6!DWin32_MemoryArrayLocation,55381=$l56pQ CIM_Realizes6 % -3[g"-UWin32_MemoryArrayLocationCIMWin32LocaleUUID{B24EF561-BBBE-11d2-ABFB-00805F538618}Antecedentf@A    ref:Win32_PhysicalMemoryArrayOverrideAntecedentMappingStringsWMI|Win32_PhysicalMemoryArrayDependentf@A |   ref:Win32_MemoryArrayOverrideDependentMappingStringsWMI|Win32_MemoryArray  )  (.V_U2CIM_PhysicalCapacityAbstractLocaleUUID{FAF76B69-798C-11D2-AAD1-006008C78BC7}Caption)  @stringMaxLenDescription  stringName) " *stringMaxLen @CIM_ProductParentChild0:|LWin32_PhysicalMemoryLocation2  ;8;?;4Win32_CheckCheckT4Win32_CheckCheckS4Win32_CheckCheck8lX!<0l4=!HWin32_MemoryDeviceLocation,<<06C$l<X=x\ CIM_Realizes6 & .4\h+6UWin32_MemoryDeviceLocationCIMWin32LocaleUUID{FAF76B9C-798C-11D2-AAD1-006008C78BC7}Antecedentf@N    ref:Win32_PhysicalMemoryOverrideAntecedentMaxMappingStringsWMI|Win32_PhysicalMemoryDependentf@A    ref:Win32_MemoryDeviceOverrideDependentMappingStringsWMI|Win32_MemoryDevice DWin32_MemoryArrayLocation ? ! . ; CIqzuCIM_ParticipatesInSetAbstractAssociationAggregationLocaleUUID{FAF76B6D-798C-11D2-AAD1-006008C78BC7}Elementf  ref:CIM_PhysicalElementSetf'   ref:CIM_ReplacementSetAggregate <lP | Xw8MCOMPUTER\ROOT\C0lC,# &4CIM_PhysicalMedia,`B0BT9  B8\0BLOMPUTER\ROOT\C$l0BP5 CIM_SAPSAPDependencyLocaleUUID{422D175A-E3D5-11d2-8601-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_ServiceAccessPointOverrideAntecedentDependentf@)   )3ref:CIM_ServiceAccessPointOverrideDependent de<Win32_SoftwareElement,OHcb|$lHch_ P(P  HP@`$~ !,Ђ0SP0lPQ U@CIM_ServiceAccessBySAP,PP4,8MU,PPdM0l$lPtQ CIM_Dependency)  &N XdU5CIM_ServiceAccessBySAPLocaleUUID{714C00BA-DB37-11d2-85FC-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_ServiceOverrideAntecedentDependentf@)  *ref:CIM_ServiceAccessPointOverrideDependent deDCIM_ServiceSAPDependencyC" CIM_ServiceAccessPoint)  C MCIM_BootSAPLocaleUUID{F6FEF20A-E3D2-11d2-8601-0000F8102E5F}Abstract M" CIM_ServiceAccessPoint)  %+SCIM_ClusteringSAPAbstractLocaleUUID{2bb2b772-ffed-4aa6-b1b3-3d0cb74fc613} 0lVP HCIM_BootServiceAccessBySAP,UTUP\H\$lTU8V CIM_ServiceAccessBySAP) $*R \hU2CIM_BootServiceAccessBySAPLocaleUUID{6EDF1DD2-DB35-11d2-85FC-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_BootServiceOverrideAntecedentDependentf@)   'ref:CIM_BootSAPOverrideDependent SA(8`@ X8H I  xX8@VIMV2:CIM_BootSer\Z\<CIM_HostedBootSAPyHCIM_BootServiceAccessBySAPM  8p(l[dTXDCIM_HostedJobDestination X4CIM_HostedBootSAP  |Z<@Y(ZBySAP(Z0l!8(ZaWidth@0lY4 ^4CIM_ClusteringSAP,@[[40op_0l\P LCIM_ClusterServiceAccessBySAP,[[t[\Ud  h\8TU[c$l[\ CIM_ServiceAccessBySAP) '-U _kUACIM_ClusterServiceAccessBySAPLocaleUUID{88F073D8-DB35-11d2-85FC-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_ClusteringServiceOverrideAntecedentDependentf@)  ,6ref:CIM_ClusteringSAPOverrideDependent SA^LCIM_ClusterServiceAccessBySAP0l_4!f@Win32_CommandLineAccess,0__t[Xg$l__Dae' CIM_ServiceAccessPointC !' OX hWin32_CommandLineAccessLocaleUUID{656E1F1E-E3D2-11d2-8601-0000F8102E5F}MSIProvMappingStringspMicrosoft.MSICommandLine   string {CCIM_SoftwareElement)  (.VbCIM_VideoBIOSElementAbstractLocaleUUID{76148BF6-E3D1-11d2-8601-0000F8102E5F}IsShadowed <)   BOOLEANMappingStringsMIF.DMTF|Video BIOS|001.5 le,Pk k@O$l kZ @lOf!b0l0dP!LWin32_ApplicationCommandLine,cc\l$lcTd4 CIM_ServiceAccessBySAPC &,T d{ UWin32_ApplicationCommandLineLocaleUUID{C170CF06-DB34-11d2-85FC-0000F8102E5F}MappingStringslMicrosoft.MSIMSIProvAntecedentf@4   ref:Win32_ApplicationServiceOverrideAntecedentDependentf@4 S  pzref:Win32_CommandLineAccessOverrideDependent esovLWin32_ApplicationCommandLine0lh iԳ8CIM_SoftwareElement, gfp_i$,hgD:,  g,gh,g,h,b hhXh,,hh,44XhhXhh,hh,@@hihi,4ih4i,  i40CIM_BIOSElement,|ihXg?@$lP j4j  Tj8l;iHj\CIM_VideoBIOSFeatureVideoBIOSElements0l$cf!@Win32_DriverVXDj0l\l DCIM_ServiceSAPDependency2,kkp%dp,kkdM`z$Qq$lkl CIM_Dependency) "(P ZfU7CIM_ServiceSAPDependencyLocaleUUID{652E2D58-DB37-11d2-85FC-0000F8102E5F}AbstractAntecedentf@)  ref:CIM_ServiceAccessPointOverrideAntecedentDependentf@)  ",ref:CIM_ServiceOverrideDependent deHCIM_DeviceSAPImplementation<CIM_SAPSAPDependency\@CIM_ServiceAccessBySAPi\CIM_SoftwareFeatureSAPImplementationU0lo4 X,4Ho,t[Y$loxSpXX<[_oncy0Ho0lHq UWin32_CIMLogicalDeviceCIMDataFileCIMWin32LocaleUUID{8502C510-5FBB-11D2-AAC1-006008C78BC7}Antecedentf@A    ref:CIM_LogicalDeviceOverrideAntecedentMappingStringsCIM|CIM_LogicalDeviceDependentf@A t   ref:CIM_DataFileOverrideDependentMappingStringsCIM|CIM_DataFilePurpose)   uint16MappingStrings%CIMPurposeDescription ) u } stringMappingStringsCIM CTWin32_CIMLogicalDeviceCIMDataFile4Win32_PageFilee, d <8OMPUTER\ROOT\C$lW 0lT!8Win32_ShortcutFileU,  booleanRemovable :  booleanReplaceable <   boolean \8CIM_PhysicalMemoryg,(5T 4T$l,+ ̫  8dogramGroupItemDa(0l!DWin32_OperatingSystemQFE,|LDt,LLpp$lL<k CIM_Dependency6 $ ,2Zf$UWin32_OperatingSystemQFECIMWin32LocaleUUID{2CB2C452-C516-11D2-B364-00105A1F77A1}Antecedentf@A    ref:Win32_OperatingSystemOverrideAntecedentMappingStringsWMI|Win32_OperatingSystemDependentf@L ~    ref:Win32_QuickFixEngineeringWeakOverrideDependentMappingStringsWMI|Win32_QuickFixEngineering ri"CIM_LogicalElement6  "(P],xWIWin32_RegistryCIMWin32LocaleUUID{8502C4D7-5FBB-11D2-AAC1-006008C78BC7}CurrentSize6   uint32UnitsMegabytesMappingStringsWin32API|NTDLL.DLL|NtQuerySystemInformation|SystemRegistryQuotaInformationMaximumSize6 p x uint32UnitsMegabytesMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control|RegistrySizeLimitName@ A 9  AKQ astringOverrideNameMappingStringsiWin32RegistryProposedSizeA    uint32UnitsMegabytesMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control|RegistrySizeLimit sti0l9x x0l̴!@Win32_PrinterDriverDll,4<t,$lL. CIM_Dependency6 " *0XdUWin32_PrinterDriverDllCIMWin32LocaleUUID{FAF76B5D-798C-11D2-AAD1-006008C78BC7}Antecedentf@A    ref:CIM_DataFileOverrideAntecedentMappingStringsCIM|CIM_DataFileDependentf@A _  r| ref:Win32_PrinterOverrideDependentMappingStringsWMI|Win32_Printer nt<CIM_ProcessExecutable8tI܎@<8erDll0T0<Win32_FontInfoAction|DCIM_DirectoryContainsFile( x,,{UWin32_PatchMappingStrings%Microsoft.MSILocaleUUID{7A9E24ED-E3D2-11d2-8601-0000F8102E5F}MSIProvAttributes  uint16File '   stringPatchSize ) uint32ProductCode' s  stringSequence'   sint16 $l(= $lhXe0lA!LWin32_OSRecoveryConfiguration,P  Win32_SystemSetting6 ) 17_h eWin32_SystemBootConfigurationCIMWin32LocaleUUID{8502C507-5FBB-11D2-AAC1-006008C78BC7}Elementf@6   ref:Win32_ComputerSystemOverrideElementMappingStringsWMI|Win32_ComputerSystemSettingf@6 X u ref:Win32_BootConfigurationOverrideSettingMappingStringsWMI|Win32_BootConfiguration Wt$l7̦ 5p8[`uTFwP,HWin32_SoftwareElementCheck, ation,dd, LWin32_SystemBootConfiguration$l87 CIM_Setting )  $*RWin32_COMSettingabstractLocaleUUID{E5D8A560-F6C0-11d2-B35E-00105A1F8569} 35o0l58!4ZLWin32_ClassicCOMClassSetting,87D9`\,Ԗh 0l6A p54Win32_COMSettingC488P `880l<:,!8Win32_SystemDesktop,9P92@  :8,2P9@GpM$lP9`:<  Win32_SystemSetting6  '-U^ eWin32_SystemDesktopCIMWin32LocaleUUID{8502C506-5FBB-11D2-AAC1-006008C78BC7}Elementf@6   ref:Win32_ComputerSystemOverrideElementMappingStringsWMI|Win32_ComputerSystemSettingf@6 N akt ref:Win32_DesktopOverrideSettingMappingStringsWMI|Win32_Desktop s<Win32_ServiceControlM,<>x>=$l> 0lA!xTWin32_NetworkAdapterConfiguration,X=(=</  >8<:lTIMV2:Win32_Syste0Win32_Property,H>Y$`Y<<l=F!ktop,lb4 0l?A!HWin32_DisplayConfiguration, FLt}7@eWin32_SystemLogicalMemoryConfigurationDEPRECATEDCIMWin32LocaleUUID{8502C502-5FBB-11D2-AAC1-006008C78BC7}Elementf@A   + ref:Win32_ComputerSystemOverrideElementMappingStringsWMI|Win32_ComputerSystemDEPRECATEDSettingf@A    ref:Win32_LogicalMemoryConfigurationOverrideSettingMappingStringsWMI|Win32_LogicalMemoryConfigurationDEPRECATED or0lDF!x8>CG,YYtemLogical(lC$n, ,8xD`Win32_SystemLogicalMemoryConfiguration CIM_Setting 6 !I S czWin32_MSIResourceLocaleUUID{CD7CA121-E3D2-11d2-8601-0000F8102E5F}AbstractMappingStringskMicrosoft.MSI ,Win32_BinaryM,EG@Gl$lG0W  C,KTj iT0llGA G@Win32_MSIResourcetion,п,FFPQF$lFDD!0l4FF!(XF@G0lH,!DWin32_SystemProgramGroups,HG@M$lGH\> Win32_SystemSetting6 % -3[deWin32_SystemProgramGroupsCIMWin32LocaleUUID{8502C505-5FBB-11D2-AAC1-006008C78BC7}Elementf@6   ref:Win32_ComputerSystemOverrideElementMappingStringsWMI|Win32_ComputerSystemSettingf@6 T s} ref:Win32_LogicalProgramGroupOverrideSettingMappingStringsWMI|Win32_LogicalProgramGroup MIP4GCIM_PhysicalComponent)  "JVCIM_ChipabstractLocaleUUID{FAF76B7A-798C-11D2-AAD1-006008C78BC7}FormFactor@  uint16 4$ ,2Z g qWin32_ManagedSystemElementResourceLocaleUUID{E40D5488-DB31-11d2-85FC-0000F8102E5F}Associationabstract s<Win32_PnPDeviceL0lN,!<Win32_SystemTimeZone,MpM\H@T$lpM,N@# Win32_SystemSetting6   (.V_ eWin32_SystemTimeZoneCIMWin32LocaleUUID{8502C504-5FBB-11D2-AAC1-006008C78BC7}Elementf@6   ref:Win32_ComputerSystemOverrideElementMappingStringsWMI|Win32_ComputerSystemSettingf@6 O cmv ref:Win32_TimeZoneOverrideSettingMappingStringsWMI|Win32_TimeZone DCIM_SoftwareElementChecks,lP~%$l~ЕL6wH,VM&@GQ<Win32_SystemTimeZone$lXSA0lRAt4Win32_WMISetting\,(RQ't,QQ'$lQWRZ8l$~\_!ne,l? D0lQA!TWin32_VideoConfigurationXS0llT`!4Win32_UserDesktop, TSLMZ$lSTL- CIM_ElementSetting6  %+S\ eWin32_UserDesktopCIMWin32LocaleUUID{8502C4FF-5FBB-11D2-AAC1-006008C78BC7}Elementf@A    ref:Win32_UserAccountOverrideElementMappingStringsWMI|Win32_UserAccountSettingf@A \  oy ref:Win32_DesktopOverrideSettingMappingStringsWMI|Win32_Desktop ktTWin32_LogicalMemoryConfigurationWin32_MSIResourceC 5 =C ktz9Win32_BinaryMappingStrings&Microsoft.MSILocaleUUID{DB150AA8-E3D1-11d2-8601-0000F8102E5F}MSIProvData  stringName '   stringProductCode' 1  string 1n0lYF!8Win32_PatchPackage,\Y,Ylx>$l,Y0lZF!(lY0lZ`!@Win32_WMIElementSetting,lZC  ref:CIM_ComputerSystemMinMax 0 ? #)Q ^ k u|^eUCIM_SoftwareElementChecksLocaleUUID{24783E8A-DB31-11d2-85FC-0000F8102E5F}AssociationAggregationAbstractCheckf4   ref:CIM_CheckMinWeakElementfA 0INS  ref:CIM_SoftwareElementMinMaxAggregatePhase  uint16 m P0lЂ }!PWin32_InstalledSoftwareElemente,8}$l0 &CIM_InstalledSoftwareElementC  (.V f}  e{Win32_InstalledSoftwareElementLocaleUUID{DB91D602-DB32-11d2-85FC-0000F8102E5F}MappingStringsnMicrosoft.MSIMSIProvSoftwaref@A   ref:Win32_SoftwareElementMinMaxSystemf@? Yqv   ref:CIM_ComputerSystemMinMax Mn3<CIM_ComputerSystemIRQ 8(Xܻ$HIMHCIM_ComputerSystemMappedIOHCIM_ComputerSystemResourceT<CIM_HostedFileSysteme0lz0 ZXDCIM_UnitaryComputerSystem  80G@ROOT\CIMV2:Win328p*ftwareElementDWin32_ODBCDriverAttribute0lв n!8Win32_PatchFile0l |v,CIM_Location,d4x4$l4v )   &NWUZCIM_LocationAbstractLocaleUUID{FAF76B67-798C-11D2-AAD1-006008C78BC7}Address)  stringMaxLenName4   stringMaxLenPhysicalPosition4 J  RstringMaxLen g0l` p[DCIM_ManagedSystemElementtr, <$l) $ ,2ZckqUsCIM_ManagedSystemElementAbstractLocaleUUID{8502C517-5FBB-11D2-AAC1-006008C78BC7}Caption) @ stringMaxLenDescription  stringInstallDatee) -7 G datetimeMappingStringsOMIF.DMTF|ComponentID|001.5Name   stringStatus6    stringMaxLenValueMap-18BKV`jOKErrorDegradedUnknownPred FailStartingStoppingService l  Ў8hYxd,"CIM_ManagedSystemElement)  &,TCIM_LogicalElementAbstractLocaleUUID{8502C518-5FBB-11D2-AAC1-006008C78BC7} C5on0lh Ę0CIM_FileSystem, xg$lPwWCIM_LogicalElement)  "(P`DS0CMWUUVCIM_FileSystemAbstractLocaleUUID{4DA18760-E3D0-11d2-8601-0000F8102E5F}AvailableSpace6   UINT64MappingStringsMIF.DMTF|Partition|002.4UnitsBytesBlockSize) . 6=UINT64UnitsBytesCasePreserved $ } BOOLEANCaseSensitive &  BOOLEANCodeSet (  UINT16CompressionMethod ,) M U eSTRINGMappingStringsmMIF.DMTF|Partition|002.7CreationClassName 04   STRINGMaxLenCSCreationClassName 4A P  X`lSTRINGMaxLenPropagatedCIM_ComputerSystem.CreationClassNameCSName 8A   STRINGMaxLenPropagatedCIM_ComputerSystem.NameEncryptionMethod<) g o STRINGMappingStringsMIF.DMTF|Partition|002.8FileSystemSize@)  UINT64UnitsBytesMaxFileNameLengthH ; UINT32ReadOnly L)   BOOLEANMappingStringsMIB.IETF|HOST-RESOURCES-MIB.hrFSAccessRootN)    "STRINGMappingStrings*MIB.IETF|HOST-RESOURCES-MIB.hrFSMountPoint pil  8P,*B0DD4CIM_BootOSFromFS0CIM_FileStorage  d8ؙ<CIM_HostedFileSystem8CIM_ResidesOnExtent0l 8CIM_LocalFileSystem,@PМ$l WCIM_FileSystem)  '-UCIM_LocalFileSystemAbstractLocaleUUID{5B6C820A-E3D0-11d2-8601-0000F8102E5F} a<(CIM_Export0lT <CIM_RemoteFileSystem,d| x  8d$ldx WCIM_FileSystem)  (.VCIM_RemoteFileSystemAbstractLocaleUUID{75BCF4F9-DB46-11D2-B4C8-80080C7B6371} 0l0d  CIM_NFS,ȞМ$lTrCIM_RemoteFileSystem)  !I[#r Xi-_ovUUUCIM_NFSAbstractLocaleUUID{75BCF4FB-DB46-11D2-B4C8-80080C7B6371}AttributeCaching R  BOOLEANAttributeCachingForDirectoriesMaxT)  UINT16UnitsSecondsAttributeCachingForDirectoriesMinV) Z biUINT16UnitsSecondsAttributeCachingForRegularFilesMaxX)  UINT16UnitsSecondsAttributeCachingForRegularFilesMinZ) @ HOUINT16UnitsSecondsForegroundMount \  BOOLEANHardMount ^  BOOLEANInterrupt `  BOOLEANMountFailureRetriesb W UINT16ReadBufferSized)  UINT64UnitsBytesRetransmissionAttemptsl  UINT16RetransmissionTimeoutn) T \cUINT32UnitsTenths of SecondsServerCommunicationPortr  UINT32WriteBufferSize v)   UINT64UnitsBytes $CIM_Mount0lh d| CIM_Job,p@8,ff4ib ,lfG `i $l@8`( 8CIM_LogicalElement)  !IV:DvWU7CIM_JobAbstractLocaleUUID{8502C564-5FBB-11D2-AAC1-006008C78BC7}ElapsedTimee  datetimeJobStatus (  stringNotify  stringOwner 2 stringPriority  n uint32StartTimee $  datetimeTimeSubmittede ,  datetimeUntilTimee 0 - datetime bstP@CIM_JobDestinationJobs0l@!0Win32_PrintJob,تH$lت fCIM_Job 6  "( PZFVaigs"|!-WUUWin32_PrintJobCIMWin32LocaleUUID{8502C4DF-5FBB-11D2-AAC1-006008C78BC7}DataType 4)   stringMappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pDatatypeDocument8) 7 ? OstringMappingStringsWWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pDocumentDriverName<)   stringMappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pDriverNameHostPrintQueue@)   stringMappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pMachineNameJobIdD) 3 ; Kuint32MappingStringsSWin32API|Printing and Print Spooler Structures|JOB_INFO_2|JobIdName@ A    stringOverrideNameMappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pPrinterNameNotify@)  stringOverrideNotifyPagesPrintedH)   uint32MappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|PagesPrintedParametersL)   stringMappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pParameters PrintProcessorP) Y a qstringMappingStringsyWin32API|Printing and Print Spooler Structures|JOB_INFO_2|pPrintProcessorSizeT6  $ 4uint32UnitsBytesMappingStrings<Win32API|Printing and Print Spooler Structures|JOB_INFO_2|SizeStatusMaskX)   uint32MappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|StatusTotalPages\) d l |uint32MappingStringsWin32API|Printing and Print Spooler Structures|JOB_INFO_2|TotalPages 0l@!8Win32_ScheduledJob,8d  h8ت )[nD$lĶ8MCIM_Job 6  &,T]*?HWWWin32_ScheduledJobCIMWin32LocaleUUID{8502C4E0-5FBB-11D2-AAC1-006008C78BC7}Command8)   stringMappingStringsWin32API|Network Management Structures|AT_INFO|CommandDaysOfMonthD) 0 8 Huint32MappingStringsPWin32API|Network Management Structures|AT_INFO|DaysOfMonthDaysOfWeek@)   uint32MappingStringsWin32API|Network Management Structures|AT_INFO|DaysOfWeekInteractWithDesktop >) v  booleanMappingStringsWin32API|Network Management Structures|AT_INFO|Flags|JOB_NONINTERACTIVEJobId 44 )  1 Auint32MappingStringsIWin32API|Network Management Structures|AT_ENUM|JobIdJobStatus@ (6   stringOverrideJobStatusMappingStringsWin32API|Network Management Structures|AT_ENUM|Flags|JOB_EXEC_ERRORRunRepeatedly <)   booleanMappingStringsWin32API|Network Management Structures|AT_INFO|Flags|JOB_RUN_PERIODICALLYStartTimee@ $6 I S]h xdatetimeOverrideStartTimeMappingStringsWin32API|Network Management Structures|AT_ENUM|JobTime]2:imeBKCreate2: G O \ lConstructorStaticImplementedMappingStringstWin32API|Network Management Functions|NetScheduleJobAddBLD117ROOT\CIMV2 7 *Ru  q^Ud __PARAMETERSabstractCommandstring 3In 3Z Win32API|Network Management Structures|AT_INFO|CommandMappingStrings) 3Z  ID6 WZ  stringeStartTimedatetimee |Ine | Win32API|Network Management Structures|AT_ENUM|JobTimeMappingStringse) |  IDe6   Zdatetime RunRepeatedlyboolean  In   Optional '  # jWin32API|Network Management Structures|AT_INFO|Flags|JOB_RUN_PERIODICALLYMappingStrings 4  #  bID A Z #  bboolean DaysOfWeekuint32  In   Optional '   Win32API|Network Management Structures|AT_INFO|DaysOfWeekMappingStrings 4   X ID A   X uint32DaysOfMonthuint32 $In $K Optional' $K y Win32API|Network Management Structures|AT_INFO|DaysOfMonthMappingStrings4 $K y  IDA K y  Nuint32 InteractWithDesktopboolean  In   Optional '  & mWin32API|Network Management Structures|AT_INFO|Flags|JOB_NONINTERACTIVEMappingStrings 4  &  eID A [  &  e boolean __ __ __ __ __ __BLD117ROOT\CIMV2   *n__PARAMETERSabstractJobIduint32 1Out 1X Win32API|Network Management Structures|AT_ENUM|JobIdMappingStrings) 1X  ID6 TX  uint32ReturnValueuint32 uint32out  __ __ __ __ __Delete'i u  DestructorImplementedMappingStringsWin32API|Network Management Functions|NetScheduleJobDelpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __0lh 8CIM_JobDestinationut,,$lHw"CIM_LogicalElement)  &,Tg[gWCIM_JobDestinationAbstractLocaleUUID{673E0A2C-E3D0-11d2-8601-0000F8102E5F}CreationClassName4   STRINGMaxLenSystemCreationClassNameA !  )1=STRINGMaxLenPropagatedCIM_System.CreationClassNameSystemNameA   STRINGMaxLenPropagatedCIM_System.Name d  8PP,*B0D GCIM_LogicalElement)  %+Sa #r)\n<Y1=WUUCIM_LogicalDeviceAbstractLocaleUUID{8502C529-5FBB-11D2-AAC1-006008C78BC7}Availability6   : Juint16ValueMap "&*.261234567891011121314151617MappingStringsVxMIF.DMTF|Operational State|003.5MIB.IETF|HOST-RESOURCES-MIB.hrDeviceStatusConfigManagerErrorCode)  uint32SchemaWin32ConfigManagerUserConfig ) Z ckbooleanSchemaWin32CreationClassName'   stringCIM_KeyDeviceID '    stringCIM_KeyErrorCleared @ S booleanErrorDescription<  stringLastErrorCode8  uint32PNPDeviceID () % -5stringSchemaWin32PowerManagementCapabilities $  uint16PowerManagementSupported ,  booleanStatusInfo .6 ( 0 :a quint16ValueMapRUX[^12345MappingStringsyMIF.DMTF|Operational State|003.3SystemCreationClassName04  (  stringPropagatedCIM_System.CreationClassNameCIM_KeySystemName44   stringPropagatedCIM_System.NameCIM_Key  agaSetPowerStateBLD117ROOT\CIMV2 5 *A__PARAMETERSabstractPowerStateuint16 6IN 6] ID) ] uint16eTimedatetimee INe  IDe) x =datetime __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ResetpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __i,,T,T,,VV,\\,((0,0\,00,ȩȩ  ,008,P P  d,8,ppdd,<<,<CIM_AllocatedResource8CIM_AssociatedAlarm,,GG,<CIM_AssociatedBattery<CIM_AssociatedCooling<CIM_AssociatedMemory<CIM_AssociatedSensor0-DCIM_DeviceAccessedByFile 4CIM_SystemDevicegS@Win32_AssociatedBattery8Win32_SystemDevices<CIM_DeviceConnectionAc$,<T,00hh,ll<,h,88<p,tt,DD,p,00D,ddp,8CIM_SerialInterface,HWin32_1394ControllerDevicen3,XX,DWin32_IDEControllerDevice,HWin32_SCSIControllerDevice,<<DWin32_USBControllerDevice,hHCIM_DeviceSAPImplementation,  PCIM_DeviceServiceImplementation,hHhH8CIM_DeviceSoftware,,CIM_Realizes,ttH @Win32_AllocatedResource,TWin32_CIMLogicalDeviceCIMDataFile,88  0Win32_DeviceBus,PP<Win32_DeviceSettingsde,0l$ 0CIM_AlarmDevice,|XZ7 $l|HNCIM_LogicalDevice)  #)Q_CIM_AlarmDeviceAbstractLocaleUUID{FAF76B66-798C-11D2-AAD1-006008C78BC7}AudibleAlarm B  booleanUrgencyF  uint16VisibleAlarm D  boolean00C7} (SetUrgency BLD117ROOT\CIMV2  *__PARAMETERSabstractRequestedUrgencyuint16 <IN <c ID) c uint16 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __R$l(xCIM_LogicalDevice)  % M\?J%izUUCIM_BatteryAbstractLocaleUUID{8502C548-5FBB-11D2-AAC1-006008C78BC7}BatteryStatusB6    uint16ValueMap 1234567891011MappingStringsMIF.DMTF|Portable Battery|002.14ChemistryN6    uint16ValueMap12345678MappingStringsMIF.DMTF|Portable Battery|002.7DesignCapacityP6 i qx uint32UnitsMilliwatt-HoursMappingStringsMIF.DMTF|Portable Battery|002.8DesignVoltageX6  $0 @uint64UnitsMillivoltsMappingStringsHMIF.DMTF|Portable Battery|002.9EstimatedChargeRemainingL)  uint16UnitsPercentEstimatedRunTimeH6 ( 07@ Puint32UnitsMinutesMappingStringsXMIF.DMTF|Portable Battery|002.15ExpectedLifeh)  uint32UnitsMinutesFullChargeCapacityT6 / 7>O _uint32UnitsMilliwatt-HoursMappingStringsgMIF.DMTF|Portable Battery|002.11MaxRechargeTimel)  uint32UnitsMinutesSmartBatteryVersion`6 B J@R bstringMaxLenMappingStringsjMIF.DMTF|Portable Battery|002.10TimeOnBatteryD)  uint32UnitsSecondsTimeToFullCharged6 @ HOX huint32UnitsMinutesMappingStringspMIF.DMTF|Portable Battery|002.16 etCIM_Battery 6  !'Od1;Win32_BatteryCIMWin32LocaleUUID{8502C4B9-5FBB-11D2-AAC1-006008C78BC7}BatteryRechargeTime tA    uint32DeprecateUnitsMinutesMappingStringsHKEY_LOCAL_MACHINE\System\CurrentControlSet\Services|RechargeRateDeviceID@ A    stringOverrideDeviceIdMappingStringsWMIExpectedBatteryLifepA ' / :AJ Zuint32DeprecateUnitsMinutesMappingStringsbHKEY_LOCAL_MACHINE\System\CurrentControlSet\Services|BatteryLife Deg`AWin32_Battery6 ! )/WkgxrW%Win32_PortableBatteryCIMWin32LocaleUUID{FAF76B9E-798C-11D2-AAD1-006008C78BC7}CapacityMultiplier%)   uint16MappingStringsSMBIOS|Type 22|Design Capacity MultiplierLocation!x) . 6 FstringMappingStringsNSMBIOS|Type 22|LocationManufactureDate"|)   stringMappingStringsSMBIOS|Type 22|Manufacture DateManufacturer#) 5 = MstringMappingStringsUSMBIOS|Type 22|ManufacturerMaxBatteryError$6   uint16UnitsPercentMappingStringsSMBIOS|Type 22|Maximum Error in Battery Data s RCIM_LogicalDevice)  "(Pe ACIM_ControllerAbstractLocaleUUID{8502C531-5FBB-11D2-AAC1-006008C78BC7}MaxNumberControlledB)   uint32MappingStringsMIF.DMTF|Bus Port|001.9ProtocolSupportedF6 , 4 > uint16ValueMap/  !%)-159=AEIMQUY]aeimquy}1234567891011121314151617181920212223242526272829303132333435363738394041424344454647MappingStringsMIF.DMTF|Bus Port|001.2MIF.DMTF|Disks|003.3TimeOfLastReseteH 7 datetime 3RCIM_Controller) " *0XCIM_InfraredControllerAbstractLocaleUUID{EDCE42F9-0991-11d3-910A-00105AA630BE} L-V CIM_InfraredController6   (.V`\Win32_InfraredDeviceCIMWin32LocaleUUID{67F74295-BA42-11d2-85E5-0000F8102E5F}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIManufacturerL) - 5 EstringMappingStringsMWin32Registry vi RCIM_Controller) $ ,2ZCIM_ManagementControllerAbstractLocaleUUID{7250D62E-E3D0-11d2-8601-0000F8102E5F} @@CIM_ParallelController,|a<\$l|ax|^]CIM_Controller) " *0XfVn_CIM_ParallelControllerAbstractLocaleUUID{8502C552-5FBB-11D2-AAC1-006008C78BC7}Capabilities LC    uint16ArrayTypeIndexedMappingStringsMIF.DMTF|Parallel Ports|003.8ModelCorrespondence'CIM_ParallelController.CapabilityDescriptionsCapabilityDescriptions P6   stringArrayTypeIndexedModelCorrespondenceCIM_ParallelController.CapabilitiesDMASupport T) S \ lbooleanMappingStringstMIF.DMTF|Parallel Ports|003.7 0l|a!8Win32_ParallelPort,$xF(x$lL/_ CIM_ParallelController6  &,T^UWin32_ParallelPortCIMWin32LocaleUUID{8502C4C2-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIOSAutoDiscovered V) / 8 HbooleanMappingStringsPWMI B-0lg 4CIM_PCIController,D\L$lRCIM_Controller)  %+SCIM_PCIControllerAbstractLocaleUUID{7BB67AE8-E3D0-11d2-8601-0000F8102E5F} 0lxg <CIM_PCMCIAController,x$lfVCIM_Controller)  (.VdCIM_PCMCIAControllerAbstractLocaleUUID{FAF76B5A-798C-11D2-AAD1-006008C78BC7}ManufacturerL)  stringSchemaWin32 0l!@Win32_PCMCIAController,P \TL4" $l VCIM_PCMCIAController6 " *0XbWin32_PCMCIAControllerCIMWin32LocaleUUID{98C7E2C6-D592-11d2-B355-00105A0A323A}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMI 0l`"g h$8CIM_SCSIController,!!7 $l!"%( eCIM_Controller)  &,Th\r_1CIM_SCSIControllerAbstractLocaleUUID{8502C553-5FBB-11D2-AAC1-006008C78BC7}ControllerTimeoutsL  uint32MaxDataWidthP)  uint32UnitsBitsMaxTransferRateT) <DK uint64UnitsBits per SecondProtectionManagement\6    uint16ValueMap123456MappingStringsMIF.DMTF|Storage Controller|001.3 @T7zCIM_SCSIController6   (.V` Xi_&Win32_SCSIControllerCIMWin32LocaleUUID{8502C4C1-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWin32Registry|Hardware\DeviceMap\ScsiDeviceMapf4 W_  k {stringDeprecatedMappingStringsWin32Registry|Hardware\DeviceMap\Scsi|ScsiPortDriverNameb)   stringMappingStringsWin32Registry|System\CurrentControlSet\Services\Class|PortDriverHardwareVersionj)   stringMappingStringsWin32Registry|System\CurrentControlSet\Enum\Root|HWRevisionIndex^) ; C Suint32MappingStrings[Win32Registry|Hardware\DeviceMap\Scsi|ScsiPortManufacturern)   stringMappingStringsWin32Registry|System\CurrentControlSet\Enum\Root|Mfg _CIM_Controller)  (.Vd_l_CIM_SerialControllerAbstractLocaleUUID{8502C554-5FBB-11D2-AAC1-006008C78BC7}Capabilities LP   ( 8] ruint16ArrayTypeIndexedValueMap #123456160161MappingStrings@MIF.DMTF|Serial Ports|004.7ModelCorrespondencezCIM_SerialController.CapabilityDescriptionsCapabilityDescriptions P6   4stringArrayTypeIndexedModelCorrespondence<CIM_SerialController.CapabilitiesMaxBaudRateT6   uint32MappingStringsMIF.DMTF|Serial Ports|004.6UnitsBits per Second raT8CIM_SerialController6  $*RZ^w"4k},5JM `   y 5 J Rm&WUUUUWin32_SerialPortCIMWin32LocaleUUID{8502C4BF-5FBB-11D2-AAC1-006008C78BC7}Binary X)   booleanMappingStringsWin32API|Communication Structures|DCB|fBinaryDeviceID@ A :  BLV fstringOverrideDeviceIdMappingStringsnWin32Registry|Hardware\DeviceMap\SerialCommMaximumInputBufferSizeZ6    uint32unitsBytesMappingStrings%Win32API|Communication Structures|COMMPROP|dwMaxRxQueueMaximumOutputBufferSize^6   uint32unitsBytesMappingStringsWin32API|Communication Structures|COMMPROP|dwMaxTxQueueOSAutoDiscovered .) k t booleanMappingStringsWin32Registry|HARDWARE\DESCRIPTION\SYSTEM\MultifunctionAdapterProviderTypeb)   )stringMappingStrings1Win32API|Communication Structures|COMMPROP|dwProvSubTypeSettableBaudRate f)   booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwSettableParams|SP_BAUDSettableDataBits h) c l |booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwSettableParams|SP_DATABITSSettableFlowControl j)  " 2booleanMappingStrings:Win32API|Communication Structures|COMMPROP|dwSettableParams|SP_HANDSHAKINGSettableParity l)   booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwSettableParams|SP_PARITYSettableParityCheck !n)   booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwSettableParams|SP_PARITY_CHECKSettableRLSD "p) 4 = MbooleanMappingStringsUWin32API|Communication Structures|COMMPROP|dwSettableParams|SP_RLSDSettableStopBits #r)   booleanMappingStrings Win32API|Communication Structures|COMMPROP|dwSettableParams|SP_STOPBITSSupports16BitMode $t)    booleanMappingStrings Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_16BITMODESupportsDTRDSR %v) L  U  e booleanMappingStringsm Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_DTRDSRSupportsElapsedTimeouts &x)     booleanMappingStrings( Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_TOTALTIMEOUTSSupportsIntTimeouts 'z)    booleanMappingStrings Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_INTTIMEOUTSSupportsParityCheck (|)    booleanMappingStrings Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_PARITY_CHECKSupportsRLSD )~) 7  @  P booleanMappingStringsX Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_RLSDSupportsRTSCTS *)    booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_RTSCTSSupportsSpecialCharacters +)   booleanMappingStringsWin32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_SPECIALCHARSSupportsXOnXOff ,) ] f vbooleanMappingStrings~Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_XONXOFFSupportsXOnXOffSet -)   -booleanMappingStrings5Win32API|Communication Structures|COMMPROP|dwProvCapabilities|PCF_SETXCHAR McVCIM_Controller)  %+SaCIM_USBControllerAbstractLocaleUUID{FAF76B5B-798C-11D2-AAD1-006008C78BC7}ManufacturerL)  stringSchemaWin32 VCIM_USBController6  '-U_Win32_USBControllerCIMWin32LocaleUUID{98C7E2C7-D592-11d2-B355-00105A0A323A}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMI CIM_Controller)  '-UnUrE]NbEY>N- $ _UUUV CIM_VideoControllerAbstractLocaleUUID{1008CCE5-7BFF-11D2-AAD2-006008C78BC7}AcceleratorCapabilities Z)   uint16ModelCorrespondenceCIM_VideoController.CapabilityDescriptionsCapabilityDescriptions ^6 R Zen stringArrayTypeIndexedModelCorrespondenceCIM_VideoController.AcceleratorCapabilitiesCurrentBitsPerPixelb6   & 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uint16VideoArchitecture&6   k {uint16ValueMap ?BEHKNQTWZ^bf123456789101112160MappingStringsMIF.DMTF|Video|003.2VideoMode')   uint16MappingStringsMIF.DMTF|Video|003.3 VaCIM_PCVideoController6 ! )/Wmeq$'$3~D P "  8 s  ' WUUU Win32_VideoControllerCIMWin32LocaleUUID{1008CCF1-7BFF-11D2-AAD2-006008C78BC7}AdapterCompatibility))   stringMappingStringsWin32RegistryAdapterDACType*)  " 2stringMappingStrings:Win32Registry|HardwareInformation.DACTypeAdapterRAM+6   uint32UnitsBytesMappingStringsWin32Registry|HardwareInformation.MemorySizeColorTableEntries6) [ c suint32MappingStrings{Win32API|Device Context Functions|GetDeviceCapsCurrentRefreshRate@!vC   ' 7cmuint32UnitsHertzMappingStrings?Win32Registry|HardwareInformation.OverrideCurrentRefreshRateDeviceID@ A    stringOverrideDeviceIdMappingStringsWMIDeviceSpecificPens7) ^ f vuint32MappingStrings~Win32API|Device Context Functions|GetDeviceCapsDitherType-6   V `uint32MappingStringsWin32API|Device Context 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VcNZKXUUpWin32_NetworkAdapterCIMWin32LocaleUUID{8502C4C0-5FBB-11D2-AAC1-006008C78BC7}AdapterType`6    stringMappingStringsDeviceIoControl::OID_GEN_MEDIA_IN_USEValueMap4DV Ethernet 802.3Token Ring 802.5Fiber Distributed Data Interface (FDDI)Wide Area Network (WAN)LocalTalkEthernet using DIX header formatARCNETARCNET (878.2)ATMWirelessInfrared WirelessBpcCoWan1394DeviceID@ A j  r| stringOverrideDeviceIdMappingStringsWin32Registry|System\CurrentControlSet\Services\Class\NetIndexr)   /uint32MappingStrings7Win32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCardsInstalled p4    booleanDEPRECATEDMappingStringsWin32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCards|DriverDateMACAddressd)   stringMappingStringsWin32API|Device Input and Output Functions|DeviceIoControlManufacturerl) 2 : JstringMappingStringsRWin32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCards|ManufacturerMaxNumberControlledv)   uint32MappingStringsMIF.DMTF|Bus Port|001.9|Maximum Number of AttachmentsProductName\)   stringMappingStringsWin32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCards|ServiceNameServiceNameh) H P `stringMappingStringshWin32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCards|ProductNameTimeOfLastResete z)   datetimeMappingStrings'SOFTWARE\Microsoft\Windows NT\CurrentVersion\Perflib\009|System Up Time isHWin32_NetworkAdapterSetting0l `,CIM_PotsModem,h4$lhzCIM_LogicalDevice)  !'O['Yk0Zp*=oUUUUHCIM_PotsModemAbstractLocaleUUID{8502C546-5FBB-11D2-AAC1-006008C78BC7}AnswerModeB  uint16CompressionInfoD  uint16CountriesSupported F  stringCountrySelectedJ Q stringCurrentPasswords N  stringDialTypeR  uint16ErrorControlInfoT  uint16InactivityTimeoutV) g ovuint32UnitsSecondsMaxBaudRateToPhoneZ)  uint32UnitsBits per secondMaxBaudRateToSerialPort^) :BI uint32UnitsBits per secondMaxNumberOfPasswordsb  uint16ModulationSchemed  uint16RingsBeforeAnswerf # uint8SpeakerVolumeInfo g g uint16SupportsCallback !i  booleanSupportsSynchronousConnect "k  booleanTimeOfLastResete#m > datetime 0l|h!0Win32_POTSModem,@!t$l! 1CIM_PotsModem6  #),Q]3G?Tpy DPZf  d t  " m ~  - dk JZdpIPAQGZ \j :NUUUUUUUUUUWin32_POTSModemCIMWin32LocaleUUID{8502C4BE-5FBB-11D2-AAC1-006008C78BC7}AttachedTo$q)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|AttachedToBlindOff%u) 6 > NstringMappingStringsVWin32Registry|SYSTEM\CurrentControlSet\Control\Class|BlindOffBlindOn&y)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|BlindOnCompatibilityFlags'}) ~  stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|CompatibilityFlagsCompressionOff() . 6 FstringMappingStringsNWin32Registry|SYSTEM\CurrentControlSet\Control\Class|Compression_OffCompressionOn))   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|Compression_OnConfigurationDialog*)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ConfigDialogDCB +) * 1 Auint8MappingStringsIWin32API|Communication Structures|DCBDefault ,)   uint8MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|DefaultDeviceID@ A f  nx stringOverrideDeviceIdMappingStringsWMIDeviceLoader-)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|DevLoaderDeviceType.6    stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|DeviceTypeValueMap#3CQNull ModemInternal ModemExternal ModemPCMCIA ModemUnknownDriverDatee/)   datetimeMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|DriverDateErrorControlForced0) K  S  c stringMappingStringsk Win32Registry|SYSTEM\CurrentControlSet\Control\Class|ErrorControl_ForcedErrorControlOff1)      stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|ErrorControl_OffErrorControlOn2)    stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|ErrorControl_OnFlowControlHard3) Y  a  q stringMappingStringsy Win32Registry|SYSTEM\CurrentControlSet\Control\Class|FlowControl_HardFlowControlOff5)      stringMappingStrings' Win32Registry|SYSTEM\CurrentControlSet\Control\Class|FlowControl_OffFlowControlSoft4)    stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|FlowControl_SoftInactivityScale6) d  l  | stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|InactivityScaleIndex7)   uint32MappingStrings(Win32Registry|SYSTEM\CurrentControlSet\Control\Class|IndexModel8)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ModelModemInfPath9) C K [stringMappingStringscWin32Registry|SYSTEM\CurrentControlSet\Control\Class|InfPathModemInfSection:)   stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|InfSectionModulationBell;)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|Modulation_BellModulationCCITT<) ? G WstringMappingStrings_Win32Registry|SYSTEM\CurrentControlSet\Control\Class|Modulation_CCITTPortSubClass=C   h o stringMappingStrings%Win32Registry|SYSTEM\CurrentControlSet\Control\Class|PortSubClassValueParallel PortSerial PortModemValueMap000102Prefix>)   stringMappingStrings'Win32Registry|SYSTEM\CurrentControlSet\Control\Class|PrefixProperties ?)   uint8MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|PropertiesProviderName@) L T dstringMappingStringslWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ProviderNamePulseA)   stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\Class|PulseResetB)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ResetResponsesKeyNameC) , 4 DstringMappingStringsLWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ResponsesKeyNameSpeakerModeDialD)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerModeDialSpeakerModeOffE)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerModeOffSpeakerModeOnF) 3 ; KstringMappingStringsSWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerModeOnSpeakerModeSetupG)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerModeSetupSpeakerVolumeHighH)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerVolume_HighSpeakerVolumeLowI) C K [stringMappingStringscWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerVolume_LowSpeakerVolumeMedJ )   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|SpeakerVolume_MedStringFormatK )   stringMappingStringsWin32_API|Line Device Structures|LINEDEVCAPS|dwStringFormatTerminatorL) A I YstringMappingStringsaWin32Registry|SYSTEM\CurrentControlSet\Control\Class|TerminatorToneM)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|ToneVoiceSwitchFeatureN)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class|VoiceSwitchFeature l\ tCIM_LogicalDevice)  #) Qe+^xSkTmVhUUCIM_PowerSupplyAbstractLocaleUUID{8502C547-5FBB-11D2-AAC1-006008C78BC7}ActiveInputVoltageB6    uint16ValueMap12345MappingStringsMIF.DMTF|Power Supply|002.15IsSwitchingSupply D U booleanRange1InputFrequencyHighF  uint32Range1InputFrequencyLowJ6  - uint32UnitsHertzMappingStrings5MIF.DMTF|Power Supply|002.17Range1InputVoltageHighN6   uint32UnitsMillivoltsMappingStringsMIF.DMTF|Power Supply|002.8Range1InputVoltageLowR6 Zbiu  uint32UnitsMillivoltsMappingStringsMIF.DMTF|Power Supply|002.7Range2InputFrequencyHighV6  . uint32UnitsHertzMappingStrings6MIF.DMTF|Power Supply|002.20Range2InputFrequencyLowZ6   uint32UnitsHertzMappingStringsMIF.DMTF|Power Supply|002.19Range2InputVoltageHigh^6 Yaht  uint32UnitsMillivoltsMappingStringsMIF.DMTF|Power Supply|002.12Range2InputVoltageLowb6    0 uint32UnitsMillivoltsMappingStrings8MIF.DMTF|Power Supply|002.11TotalOutputPowerf6   uint32UnitsMilliwattsMappingStringsMIF.DMTF|Power Supply|002.21TypeOfRangeSwitchingj6 W _ i uint16ValueMap123456MappingStringsMIF.DMTF|Power Supply|002.16 an\$l\CIM_PowerSupply) * 28`z E\u %}}mCIM_UninterruptiblePowerSupplyAbstractLocaleUUID{8502C54F-5FBB-11D2-AAC1-006008C78BC7}EstimatedChargeRemaining"v6   uint16UnitsPercentMappingStringsMIF.DMTF|UPS Battery|001.4EstimatedRunTime!r6 ` hox uint32UnitsMinutesMappingStringsMIF.DMTF|UPS Battery|001.3Range1InputVoltageHigh@N6  #-uint32UnitsMillivoltsOverrideRange1InputVoltageHighRange1InputVoltageLow@R6  uint32UnitsMillivoltsOverrideRange1InputVoltageLowRange2InputVoltageHigh@^6 8@G S]uint32UnitsMillivoltsOverrideRange2InputVoltageHighRange2InputVoltageLow@b6  uint32UnitsMillivoltsOverrideRange2InputVoltageLowRemainingCapacityStatusl6 i q { uint16ValueMap1234MappingStringsMIF.DMTF|UPS Battery|001.1TimeOnBackup n6 ! )09 Iuint32UnitsSecondsMappingStringsQMIF.DMTF|UPS Battery|001.2 qppi0l \!TWin32_UninterruptiblePowerSupply,   $l  (CIM_UninterruptiblePowerSupply 6 ", 4: bt Wa^o(9UhWin32_UninterruptiblePowerSupplyCIMWin32LocaleUUID{8502C4BD-5FBB-11D2-AAC1-006008C78BC7}BatteryInstalled #x)   booleanMappingStringsWin32Registry|System\CurrentControlSet\Services\UPS|OptionsCanTurnOffRemotely $z) T ] mbooleanMappingStringsuWin32Registry|System\CurrentControlSet\Services\UPS|OptionsCommandFile%|)   stringMappingStringsWin32Registry|System\CurrentControlSet\Services\UPS|CommandFileDeviceID@ A    stringOverrideDeviceIdMappingStringsWMIFirstMessageDelay&6 @ HOX huint32UnitsSecondsMappingStringspWin32Registry|System\CurrentControlSet\Services\UPS|FirstMessageDelayLowBatterySignal ')   booleanMappingStrings!Win32Registry|System\CurrentControlSet\Services\UPS|OptionsMessageInterval(6   uint32UnitsSecondsMappingStringsWin32Registry|System\CurrentControlSet\Services\UPS|MessageIntervalPowerFailSignal )) p y booleanMappingStringsWin32Registry|System\CurrentControlSet\Services\UPS|OptionsUPSPort*)   &stringMappingStrings.Win32Registry|System\CurrentControlSet\Services\UPS|Port re 0l   (CIM_Printer, <  $l , nCIM_LogicalDevice)  % M[H^0bq,=qUUCIM_PrinterAbstractLocaleUUID{8502C54A-5FBB-11D2-AAC1-006008C78BC7}Capabilities B6   uint16ArrayTypeIndexedModelCorrespondenceCIM_Printer.CapabilityDescriptionsCapabilityDescriptions V6 X `kt stringArrayTypeIndexedModelCorrespondenceCIM_Printer.CapabilitiesDetectedErrorState\)   uint16MappingStringsMIB.IETF|Printer-MIB.hrPrinterDetectedErrorStateHorizontalResolutionF)  uint32UnitsPixels per InchJobCountSinceLastResetJ  uint32LanguagesSupported N6 W _ i uint16ValueMap.%(+.147:=@DHLPTX\`dhlptx|12345678910111213141516171819202122232425262728293031323334353637383940414243444546MappingStringsMIB.IETF|Printer-MIB.prtInterpreterLangFamilyPaperSizesSupported R Z uint16PrinterStatusZ6    uint16ValueMap12345MappingStringsMIB.IETF|Printer-MIB.hrPrinterStatusTimeOfLastResete^ g datetimeVerticalResolutionb)  uint32UnitsPixels per Inch te0l !l,Win32_Printer,l < ,< $l<  CIM_Printer 6  !'O[kuDPFY`p%r }  , { WUUU( Win32_PrinterCIMWin32LocaleUUID{8502C4BC-5FBB-11D2-AAC1-006008C78BC7}Attributesf)   uint32MappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|AttributesAveragePagesPerMinute*) J R buint32MappingStringsjWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|AveragePPMDefaultPriority))   uint32MappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|DefaultPriorityDeviceID@ A    stringOverrideDeviceIdMappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_4|sPrinterNameDriverNamej)   stringMappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pDriverNameLocationn) 3 ; KstringMappingStringsSWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pLocationPortName!v)   stringMappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pPortNamePrinterPaperNames r)   stringMappingStringsWin32API|Printing and Print Spooler Structures|DeviceCapabilities|DC_PAPERNAMESPrinterState#~) F N ^uint32MappingStringsfWin32API|Printing and Print Spooler Structures|PRINTER_INFO_6|dwStatusPrintJobDataType"z)   stringMappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pDataTypePrintProcessor+)   stringMappingStringsWin32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pPrintProcessorSeparatorFile$) \ d tstringMappingStrings|Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pSepFileServerName%)      stringMappingStrings' Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pServerNameShareName&)    stringMappingStrings Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|pShareNameSpoolEnabled ,) c  l  | booleanMappingStrings Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|AttributesStartTimee')     * datetimeMappingStrings2 Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|StartTimeUntilTimee()    datetimeMappingStrings Win32API|Printing and Print Spooler Structures|PRINTER_INFO_2|UntilTime p S lCIM_LogicalDevice)  !' O]LWeu%TZDSUU6CIM_ProcessorAbstractLocaleUUID{8502C54B-5FBB-11D2-AAC1-006008C78BC7}AddressWidthB)  uint16UnitsBitsCurrentClockSpeedD6  * uint32UnitsMegaHertzMappingStrings2MIF.DMTF|Processor|006.6DataWidthH)  uint16UnitsBitsFamilyJC    " 7uint16ValueMap7  !%)-159=AEIMQUY]aeimquz123456789101112131415161718192526272829323334353648648096979899100101112128144160176180200250251260261280281300301302320MappingStringsSMBIOS|Processor Information|Type 4|Processor FamilyModelCorrespondence?CIM_Processor.OtherFamilyDescriptionLoadPercentageP6   uint16UnitsPercentMappingStringsMIB.IETF|HOST-RESOURCES-MIB.hrProcessorLoadMaxClockSpeedR6 iqx  uint32UnitsMegaHertzMappingStringsMIF.DMTF|Processor|006.5OtherFamilyDescriptionL6  @! 6stringMaxLenModelCorrespondence>CIM_Processor.FamilyRoleV  stringStepping\)   stringModelCorrespondenceCIM_Processor.FamilyUniqueId` < stringUpgradeMethodZ6    uint16ValueMap 123456789101112MappingStringsMIF.DMTF|Processor|006.7 |T 7 CIM_Processor6  #)Q_IY ,9  _UUU Win32_ProcessorCIMWin32LocaleUUID{8502C4BB-5FBB-11D2-AAC1-006008C78BC7}Architecture"t)   uint16MappingStringsWMICpuStatus%z)   uint16MappingStringsSMBIOS|Type 4|Processor Information|StatusCurrentVoltage&|6   uint16Unitstenth-VoltsMappingStringsSMBIOS|Type 4|Processor Information|VoltageDeviceID@ A W  _is stringOverrideDeviceIdMappingStringsWin32API|System Information Structures|SYSTEM_INFO|dwNumberOfProcessorsExtClock'~6 " *1< Luint32UnitsMegaHertzMappingStringsTSMBIOS|Type 4|Processor Information|External ClockL2CacheSize l6   uint32UnitsKilobytesMappingStrings WMIL2CacheSpeed!p6 b jq| uint32UnitsMegaHertzMappingStringsWMILevel#v)   uint16MappingStringsWMILoadPercentage@PC ] elu uint16UnitsPercentMappingStringsWin32API|Performance DataOverrideLoadPercentageManufacturerh)   stringMappingStrings'WMIProcessorId() p x stringMappingStringsSMBIOS|Type 4|Processor Information|Processor IDProcessorType)6   -i suint16MappingStrings5SMBIOS|Type 4|Processor Information|Processor TypeValueMap123456Revision$x)   uint16MappingStringsWMISocketDesignation*) Q Y istringMappingStringsqSMBIOS|Type 4|Processor Information|Socket DesignationVersiond)    stringMappingStrings WMIVoltageCaps+6 _  g n u  uint32UnitsVoltsMappingStrings SMBIOS|Type 4|Processor Information|Voltage on55  5 8hIL" " 4" D6 PWin32_AssociatedProcessorMemoryLWin32_ComputerSystemProcessor   7 8P6 6 B.hrDeviceStatusCapabilities0l` (CIM_Scanner,t7 D7 Ԑ; $ 9 7 , ,"8 ,gg7 D8 7 D8 ,8 p8 ,8 8 D8 8 ,p8 8 ,||8 8 8 ,vv8 9 ,||p8 4; 8 L9 ,hh 9 x9 , L9 `L9 ` GCIM_LogicalDevice)  %MCIM_ScannerAbstractLocaleUUID{07F12A62-E3D1-11d2-8601-0000F8102E5F} D0l`;  L(CIM_Sensorea,: : 7 n,: : x9 @ `$l: ; < GCIM_LogicalDevice)  $LCIM_SensorAbstractLocaleUUID{9565979B-7D80-11D2-AAD3-006008C78BC7} xZTCIM_Sensor )  $*Rb7MCIM_BinarySensorAbstractLocaleUUID{11140D44-E3D1-11d2-8601-0000F8102E5F}CurrentReading B  BOOLEANExpectedReading D  BOOLEANInterpretationOfFalseF) ' /@STRINGMaxLenInterpretationOfTrueJ)  @STRINGMaxLen 8TCIM_Sensor )  &,Tf[CIM_DiscreteSensorAbstractLocaleUUID{1BF00330-E3D1-11d2-8601-0000F8102E5F}AcceptableValues B)  @STRINGMaxLenCurrentReadingF)  @STRINGMaxLenPossibleValues J) K S@STRINGMaxLen  $l(c|A  GCIM_Sensor )  (.VCIM_MultiStateSensorAbstractLocaleUUID{237D964E-E3D1-11d2-8601-0000F8102E5F} l$CIM_Sensor )  %+S]9Q$VcQ]+]xUUUCIM_NumericSensorAbstractLocaleUUID{9565979C-7D80-11D2-AAD3-006008C78BC7}Accuracyb)  sint32UnitsHundredths of PercentCurrentReadingB  sint32IsLinear f 0 booleanLowerThresholdCriticalp { sint32LowerThresholdFatal!x  sint32LowerThresholdNonCriticalh  sint32MaxReadableR N sint32MinReadableV  sint32NominalReadingF  sint32NormalMaxJ   sint32NormalMinN I sint32ResolutionZ  uint32Tolerance^  sint32UpperThresholdCritical t  sint32UpperThresholdFatal"| U sint32UpperThresholdNonCriticall  sint32 ROOlNCIM_NumericSensor) !I S]Zg+; r } ? W & ;  " UUW CIM_CurrentSensorLocaleUUID{DCA1D084-E3D3-11d2-8601-0000F8102E5F}AbstractAccuracy@b6   sint32OverrideAccuracyMappingStringsMIF.DMTF|Electrical Current Probe|001.19CurrentReading@BC ` hr sint32OverrideCurrentReadingUnitsMilliampsMappingStringsMIF.DMTF|Electrical Current Probe|001.5LowerThresholdCritical@pC > FPhoz sint32OverrideLowerThresholdCriticalUnitsMilliampsMappingStringsMIF.DMTF|Electrical Current Probe|001.13LowerThresholdFatal@!xC " *4IP[ ksint32OverrideLowerThresholdFatalUnitsMilliampsMappingStringssMIF.DMTF|Electrical Current Probe|001.15LowerThresholdNonCritical@hC   6=H Xsint32OverrideLowerThresholdNonCriticalUnitsMilliampsMappingStrings`MIF.DMTF|Electrical Current Probe|001.11MaxReadable@RC   )sint32OverrideMaxReadableUnitsMilliampsMappingStrings1MIF.DMTF|Electrical Current Probe|001.9MinReadable@VC   sint32OverrideMinReadableUnitsMilliampsMappingStringsMIF.DMTF|Electrical Current Probe|001.10NominalReading@FC   sint32OverrideNominalReadingUnitsMilliampsMappingStringsMIF.DMTF|Electrical Current Probe|001.6NormalMax@JC ] eoz sint32OverrideNormalMaxUnitsMilliampsMappingStringsMIF.DMTF|Electrical Current Probe|001.7NormalMin@NC ) 1;FMX hsint32OverrideNormalMinUnitsMilliampsMappingStringspMIF.DMTF|Electrical Current Probe|001.8Resolution@ZC     0  @ uint32OverrideResolutionUnitsTenths of MilliampsMappingStringsH MIF.DMTF|Electrical Current Probe|001.17Tolerance@^C      sint32OverrideToleranceUnitsMilliampsMappingStrings MIF.DMTF|Electrical Current Probe|001.18UpperThresholdCritical@ tC      sint32OverrideUpperThresholdCriticalUnitsMilliampsMappingStrings MIF.DMTF|Electrical Current Probe|001.14UpperThresholdFatal@"|C      sint32OverrideUpperThresholdFatalUnitsMilliampsMappingStrings MIF.DMTF|Electrical Current Probe|001.16UpperThresholdNonCritical@lC s  {    sint32OverrideUpperThresholdNonCriticalUnitsMilliampsMappingStrings MIF.DMTF|Electrical Current Probe|001.12 be^CIM_CurrentSensor6  &,T^Win32_CurrentProbeCIMWin32LocaleUUID{464FFABA-946F-11d2-AAE2-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMI  CIM_NumericSensor)  "(P`)Dcp4?dyUWCIM_TachometerAbstractLocaleUUID{237D964F-E3D1-11d2-8601-0000F8102E5F}CurrentReading@B6  sint32OverrideCurrentReadingUnitsRevolutions per MinuteLowerThresholdCritical@p6 A ISkrsint32OverrideLowerThresholdCriticalUnitsRevolutions per MinuteLowerThresholdFatal@!x6   sint32OverrideLowerThresholdFatalUnitsRevolutions per MinuteLowerThresholdNonCritical@h6  sint32OverrideLowerThresholdNonCriticalUnitsRevolutions per MinuteMaxReadable@R6 % -7DKsint32OverrideMaxReadableUnitsRevolutions per MinuteMinReadable@V6  sint32OverrideMinReadableUnitsRevolutions per MinuteNominalReading@F6 F NXhosint32OverrideNominalReadingUnitsRevolutions per MinuteNormalMax@J6  sint32OverrideNormalMaxUnitsRevolutions per MinuteNormalMin@N6 a is~sint32OverrideNormalMinUnitsRevolutions per MinuteResolution@Z6   uint32OverrideResolutionUnitsTenths of Revolutions per MinuteTolerance@^6  sint32OverrideToleranceUnitsRevolutions per MinuteUpperThresholdCritical@ t6  #-ELsint32OverrideUpperThresholdCriticalUnitsRevolutions per MinuteUpperThresholdFatal@"|6  sint32OverrideUpperThresholdFatalUnitsRevolutions per MinuteUpperThresholdNonCritical@l6 b jtsint32OverrideUpperThresholdNonCriticalUnitsRevolutions per Minute CIM_NumericSensor) ! )/Wa pR]*5  UUW CIM_TemperatureSensorAbstractLocaleUUID{9565979D-7D80-11D2-AAD3-006008C78BC7}Accuracy@b6   sint32OverrideAccuracyMappingStringsMIF.DMTF|Temperature Probe|001.19CurrentReading@BC ] eo sint32OverrideCurrentReadingUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.5LowerThresholdCritical@pC G OYqx sint32OverrideLowerThresholdCriticalUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.13LowerThresholdFatal@!xC 7 ?I^e sint32OverrideLowerThresholdFatalUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.15LowerThresholdNonCritical@hC * 2<W^| sint32OverrideLowerThresholdNonCriticalUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.11MaxReadable@RC  '4;Y isint32OverrideMaxReadableUnitsTenths of degrees CentigradeMappingStringsqMIF.DMTF|Temperature Probe|001.9MinReadable@VC  5 Esint32OverrideMinReadableUnitsTenths of degrees CentigradeMappingStringsMMIF.DMTF|Temperature Probe|001.10NominalReading@FC   (sint32OverrideNominalReadingUnitsTenths of degrees CentigradeMappingStrings0MIF.DMTF|Temperature Probe|001.6NormalMax@JC   sint32OverrideNormalMaxUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.7NormalMin@NC   sint32OverrideNormalMinUnitsTenths of degrees CentigradeMappingStringsMIF.DMTF|Temperature Probe|001.8Resolution@ZC _  g q }   uint32OverrideResolutionUnitsHundredths of degrees CentigradeMappingStrings MIF.DMTF|Temperature Probe|001.17Tolerance@^C =  E O Z a   sint32OverrideToleranceUnitsTenths of degrees CentigradeMappingStrings MIF.DMTF|Temperature Probe|001.18UpperThresholdCritical@ tC #  + 5 M T r  sint32OverrideUpperThresholdCriticalUnitsTenths of degrees CentigradeMappingStrings MIF.DMTF|Temperature Probe|001.14UpperThresholdFatal@"|C    % : A _  o sint32OverrideUpperThresholdFatalUnitsTenths of degrees CentigradeMappingStringsw MIF.DMTF|Temperature Probe|001.16UpperThresholdNonCritical@lC     3 : X  h sint32OverrideUpperThresholdNonCriticalUnitsTenths of degrees CentigradeMappingStringsp MIF.DMTF|Temperature Probe|001.12 ppCIM_TemperatureSensor6 " *0XbWin32_TemperatureProbeCIMWin32LocaleUUID{464FFABB-946F-11d2-AAE2-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMI CIM_NumericSensor) !I S]tWd*r}4@  z UUW] CIM_VoltageSensorLocaleUUID{A998F9B4-E3D4-11d2-8601-0000F8102E5F}AbstractAccuracy@b6   sint32OverrideAccuracyMappingStringsMIF.DMTF|Voltage Probe|001.19CurrentReading@BC U ]gw~ sint32OverrideCurrentReadingUnitsMillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.5LowerThresholdCritical@pC ) 1;SZf vsint32OverrideLowerThresholdCriticalUnitsMillivoltsMappingStrings~MIF.DMTF|Voltage Probe|001.13LowerThresholdFatal@!xC  *1= Msint32OverrideLowerThresholdFatalUnitsMillivoltsMappingStringsUMIF.DMTF|Voltage Probe|001.15LowerThresholdNonCritical@hC     0sint32OverrideLowerThresholdNonCriticalUnitsMillivoltsMappingStrings8MIF.DMTF|Voltage Probe|001.11MaxReadable@RC   sint32OverrideMaxReadableUnitsMillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.9MinReadable@VC {  sint32OverrideMinReadableUnitsMillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.10NominalReading@FC E MWgnz sint32OverrideNominalReadingUnitsMillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.6NormalMax@JC   )0< Lsint32OverrideNormalMaxUnitsMillivoltsMappingStringsTMIF.DMTF|Voltage Probe|001.7NormalMin@NC   sint32OverrideNormalMinUnitsMillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.8Resolution@ZC   uint32OverrideResolutionUnitsTenths of MillivoltsMappingStringsMIF.DMTF|Voltage Probe|001.17Tolerance@^C _  g q |   sint32OverrideToleranceUnitsMillivoltsMappingStrings MIF.DMTF|Voltage Probe|001.18UpperThresholdCritical@ tC /  7 A Y ` l  | sint32OverrideUpperThresholdCriticalUnitsMillivoltsMappingStrings MIF.DMTF|Voltage Probe|001.14UpperThresholdFatal@"|C     0 7 C  S sint32OverrideUpperThresholdFatalUnitsMillivoltsMappingStrings[ MIF.DMTF|Voltage Probe|001.16UpperThresholdNonCritical@lC      &  6 sint32OverrideUpperThresholdNonCriticalUnitsMillivoltsMappingStrings> MIF.DMTF|Voltage Probe|001.12 olH)bCIM_LogicalDevice)  %+S[@R UFCIM_StorageExtentAbstractLocaleUUID{8502C538-5FBB-11D2-AAC1-006008C78BC7}AccessB  uint16BlockSizeD6   uint64UnitsBytesMappingStrings MIB.IETF|HOST-RESOURCES-MIB.hrStorageAllocationUnitsErrorMethodologyL | stringNumberOfBlocksP  uint64MappingStringsMIB.IETF|HOST-RESOURCES-MIB.hrStorageSizePurposeX > string tr0bCIM_StorageExtent) ! )/WCIM_AggregatePSExtentAbstractLocaleUUID{2D0E255C-E3D1-11d2-8601-0000F8102E5F} 2gCIM_StorageExtent)  %+S]CIM_DiskPartitionAbstractLocaleUUID{8502C541-5FBB-11D2-AAC1-006008C78BC7}Bootable \  booleanPrimaryPartition ^  boolean CIM_DiskPartition6  '- Udp{dk/_UJWin32_DiskPartitionCIMWin32LocaleUUID{8502C4B8-5FBB-11D2-AAC1-006008C78BC7}BootPartition `)   booleanMappingStringsWin32API|File Functions|ReadFileDeviceID@ A 7  ?IS cstringOverrideDeviceIdMappingStringskWMIDiskIndexb)   uint32MappingStringsWin32API|File Functions|ReadFileHiddenSectorsf) : B Ruint32MappingStringsZWin32APIIndexj)   uint32MappingStringsWMIRewritePartition n)   )booleanMappingStrings1Win32API|Device Input and Output Structures|PARTITION_INFORMATION|RewritePartitionSizep6   uint64unitsBytesMappingStringsWin32API|File Functions|ReadFileStartingOffset x6 s { uint64unitsBytesMappingStringsWin32API|File Functions|ReadFileType!)   stringMappingStrings Win32API|PartitionRecord|dwPartitionType tisCIM_StorageExtent)  #)Q\CIM_LogicalDiskAbstractLocaleUUID{8502C539-5FBB-11D2-AAC1-006008C78BC7}FreeSpace\)  uint64unitsBytesSized)  uint64unitsBytes CIM_LogicalDisk6  %+ S_ &VaQ]_UWin32_LogicalDiskCIMWin32LocaleUUID{8502C4B7-5FBB-11D2-AAC1-006008C78BC7}Compressed l)   booleanMappingStringsWin32API|File System Functions|GetVolumeInformation|FS_VOL_IS_COMPRESSEDDeviceID@ A Z  blv stringOverrideDeviceIdMappingStringsWMIDriveTypen)   uint32MappingStringsWin32API|FileFunctions|GetDriveTypeFileSystemr) ] e ustringMappingStrings}Win32API|File System Functions|GetVolumeInformationMaximumComponentLengthv)   uint32MappingStrings!Win32API|File System Functions|GetVolumeInformationMediaType")   uint32MappingStringsWin32API|Device Input and Output Functions|DeviceIoControlProviderNamez) 9 A QstringMappingStringsYWin32API|Windows Networking Functions|WNetGetConnectionSupportsFileBasedCompression ~)   booleanMappingStringsWin32API|File System Functions|GetVolumeInformation|FS_FILE_COMPRESSIONVolumeName 4    stringMappingStringsWin32API|File System Functions|GetVolumeInformationVolumeSerialNumber!) ? G WstringMappingStrings_Win32API|File System Functions|GetVolumeInformation gat CIM_StorageExtent)  $La%juHX  /   UUUM CIM_MemoryAbstractLocaleUUID{FAF76B64-798C-11D2-AAD1-006008C78BC7}AdditionalErrorData %6   @uint8MappingStringsMIF.DMTF|Memory Device|002.18MIF.DMTF|Physical Memory Array|001.13MAXCorrectableError r) \e u booleanMappingStringsMIF.DMTF|Memory Device|002.12MIF.DMTF|Physical Memory Array|001.8EndingAddressd6 !(3 C uint64UnitsKiloBytesMappingStringsO}MIF.DMTF|Memory Array Mapped Addresses|001.4MIF.DMTF|Memory Device Mapped Addresses|001.5ErrorAccessx6  6 F uint16ValueMap'*-0312345MappingStringsRqMIF.DMTF|Memory Device|002.15MIF.DMTF|Physical Memory Array|001.10ErrorAddress")   uint64MappingStrings$CMIF.DMTF|Memory Device|002.19MIF.DMTF|Memory Device|002.20MIF.DMTF|Physical Memory Array|001.14ErrorData ~C   C@uint8ArrayTypeIndexedMappingStringsMIF.DMTF|Memory Device|002.17MIF.DMTF|Physical Memory Array|001.12MAXErrorDataOrder!  uint16ErrorInfolC  c s  uint16ValueMap47:=@CFILOSW[_1234567891011121314MappingStringsMIF.DMTF|Memory Device|002.12MIF.DMTF|Physical Memory Array|001.8ModelCorrespondenceCIM_Memory.OtherErrorDescriptionErrorMethodology@L6 Y ak} stringOverrideErrorMethodologyMappingStringsMIF.DMTF|Physical Memory Array|001.7ErrorResolution$6 & 6 uint64UnitsBytesMappingStringsBaMIF.DMTF|Memory Device|002.21MIF.DMTF|Physical Memory Array|001.15ErrorTimeet  datetimeErrorTransferSizez6  & - 3  C  uint32UnitsBitsMappingStringsO n MIF.DMTF|Memory Device|002.16MIF.DMTF|Physical Memory Array|001.11OtherErrorDescriptionn)    stringModelCorrespondence CIM_Memory.ErrorInfoStartingAddress\6 s {    uint64UnitsKiloBytesMappingStrings MIF.DMTF|Memory Array Mapped Addresses|001.3MIF.DMTF|Memory Device Mapped Addresses|001.4SystemLevelAddress # D  boolean { fCIM_Memory )  #)Q`%u|.8[h_UCIM_CacheMemoryabstractLocaleUUID{FAF76B65-798C-11D2-AAD1-006008C78BC7}Associativity-6    uint16ValueMap123456MappingStringsMIF.DMTF|System Cache|003.15CacheType(6 iq {  uint16ValueMap12345MappingStringsMIF.DMTF|System Cache|003.9FlushTimer,6 '/6? O uint32UnitsSecondsMappingStringsWMIF.DMTF|System Cache|003.14Level&6    uint16ValueMap12345MappingStringsMIF.DMTF|System Cache|003.2LineSize)6 |  uint32UnitsBytesMappingStringsMIF.DMTF|System Cache|003.10ReadPolicy+6   *Q a uint16ValueMapBEHKN12345MappingStringsiMIF.DMTF|System Cache|003.13ReplacementPolicy*6  % 5 uint16ValueMap"1234567MappingStrings=MIF.DMTF|System Cache|003.12WritePolicy'6    uint16ValueMap12345MappingStringsMIF.DMTF|System Cache|003.5 acxZCIM_CacheMemory6  %+S_w :DYh_UWin32_CacheMemoryCIMWin32LocaleUUID{FAF76B97-798C-11D2-AAD1-006008C78BC7}CacheSpeed46   uint32UnitsNanoSecondsMappingStringsSMBIOS|Type 7|Cache SpeedCurrentSRAM 2) 6 > Nuint16MappingStringsVSMBIOS|Type 7|Current SRAM TypeDeviceID@ A    stringOverrideDeviceIdMappingStringsWMIErrorCorrectType3) R Z juint16MappingStringsrSMBIOS|Type 7|Error Correction TypeInstalledSize06   uint32UnitsKilobytesMappingStringsSMBIOS|Type 7|Installed SizeLocation.) {  uint16MappingStringsSMBIOS|Type 7|LocationMaxCacheSize/6   /uint32UnitsKilobytesMappingStrings7SMBIOS|Type 7|Maximum Cache SizeSupportedSRAM 1)   uint16MappingStringsSMBIOS|Type 7|Supported SRAM Type StCIM_Memory ) " *0XeCIM_NonVolatileStorageAbstractLocaleUUID{18074AFA-F0FE-11d2-8617-0000F8102E5F}IsWriteable &  boolean |CIM_Memory )  '-U`_rCIM_VolatileStorageAbstractLocaleUUID{36851DFE-F0FE-11d2-8617-0000F8102E5F}Cacheable &)   booleanMappingStringsMIF.DMTF|System Resource Memory Info|001.5CacheType') & . >uint16MappingStringsFMIF.DMTF|System Resource Memory Info|001.6 {CIM_StorageExtent)  &,T_Xj CIM_PhysicalExtentAbstractLocaleUUID{9565979E-7D80-11D2-AAD3-006008C78BC7}BlockSize@D6   uint64MappingStringsMIF.DMTF|Physical Extent|001.4OverrideBlockSizeNumberOfBlocks@P6 LT d uint64MappingStringslMIF.DMTF|Physical Extent|001.3OverrideNumberOfBlocksUnitsBeforeCheckDataInterleave\6     0uint64UnitsBytesMappingStrings8MIF.DMTF|Physical Extent|001.6UnitsOfCheckDatad6   uint64UnitsBytesMappingStringsMIF.DMTF|Physical Extent|001.7UnitsOfUserDatal6 Q Y`g wuint64UnitsBytesMappingStringsMIF.DMTF|Physical Extent|001.8 kCIM_StorageExtent) $ ,2ZoCIM_ProtectedSpaceExtentAbstractLocaleUUID{35E25AA4-E3D1-11d2-8601-0000F8102E5F}UserDataStripeDepth\6   UINT64MappingStringsMIF.DMTF|Protected Space Extent|001.6UnitsBytes CI\>sCIM_StorageExtent)  !'OhbCIM_VolumeSetAbstractLocaleUUID{35E25AA5-E3D1-11d2-8601-0000F8102E5F}PSExtentInterleaveDepth\)   UINT64MappingStringsMIF.DMTF|Volume Set|001.5PSExtentStripeLengthd) ' / ?UINT64MappingStringsGMIF.DMTF|Volume Set|001.4 erLo CIM_StorageExtent)  &,Ti#Zg<J{Rd_jT k  UUU\ Win32_SMBIOSMemoryAbstractLocaleUUID{FECB095B-F0FA-11d2-8617-0000F8102E5F}AdditionalErrorData %6   @uint8MappingStringsSMBIOS|Type 18|32-bit Memory Error Information|Vendor SyndromeMAXCorrectableError r) Z c sbooleanMappingStrings{SMBIOS|Type 18|32-bit Memory Error Information|Error TypeEndingAddressd)   uint64MappingStringsSMBIOS|Type 19|Memory Device Mapped Addresses|Ending AddressErrorAccessx6     uint16MappingStringsSMBIOS|Type 18|32-bit Memory Error Information|Error OperationValueMap-036912345ErrorAddress")   uint64MappingStringsSMBIOS|Type 18|32-bit Memory Error Information|Error AddressErrorData ~C ; BMV fv@uint8ArrayTypeIndexedMappingStringsnSMBIOSMAXErrorDataOrder!)   uint16MappingStringsWMIErrorInfolC C K `  uint16ModelCorrespondencehCIM_Memory.OtherErrorDescriptionMappingStringsSMBIOS|Type 18|32-bit Memory Error Information|Error TypeValueMap#&),/258;>BFJN1234567891011121314ErrorMethodology@LC   / 9stringOverrideErrorMethodologyMappingStringsSMBIOS|Type 16|Physical Memory Array|Memory Error CorrectionValueMapY`iowOtherUnknownNoneParitySingle-bit ECCMulti-bit ECCCRCErrorResolution$6   uint64UnitsBytesMappingStringsSMBIOS|Type 18|32-bit Memory Error Information|Error ResolutionErrorTimeet)   datetimeMappingStringsWMIErrorTransferSizez6   ' . 4  D uint32UnitsBitsMappingStringsL SMBIOSOtherErrorDescriptionn6     stringModelCorrespondence CIM_Memory.ErrorInfoMappingStrings SMBIOSStartingAddress\) R  Z  j uint64MappingStringsr SMBIOS|Type 19|Memory Device Mapped Addresses|Starting AddressSystemLevelAddress #)      booleanMappingStrings SMBIOS|Type 18|32-bit Memory Error Information|Error Address pp.10 Win32_SMBIOSMemory6  %+S]Win32_MemoryArrayCIMWin32LocaleUUID{FAF76B9A-798C-11D2-AAD1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIErrorGranularity&6 ; C S} uint16MappingStrings[SMBIOS|Type 18|Error GranularityValueMapOtherUnknownDevice levelMemory partition level C7"CWin32_SMBIOSMemory6  &,T^Win32_MemoryDeviceCIMWin32LocaleUUID{FAF76B9B-798C-11D2-AAD1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIErrorGranularity&6 < D T~ uint16MappingStrings\SMBIOS|Type 18|Error GranularityValueMap1234 alICIM_UserDevice)  %MCIM_DisplayAbstractLocaleUUID{1008CCE7-7BFF-11D2-AAD2-006008C78BC7} X9XCIM_Display )  &,T_/<UnCIM_DesktopMonitorAbstractLocaleUUID{1008CCE8-7BFF-11D2-AAD2-006008C78BC7}BandwidthF)  uint32UnitsMegaHertzDisplayTypeD  uint16ScreenHeightJ ' uint32ScreenWidthN f uint32 iCIM_DesktopMonitor6   (.V`}UWin32_DesktopMonitorCIMWin32LocaleUUID{1008CCF0-7BFF-11D2-AAD2-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWin32API|Windows GDI|HMONITORMonitorManufacturerR) N V fstringMappingStringsnWin32RegistryMonitorTypeV)   stringMappingStringsWin32RegistryPixelsPerXLogicalInchZ6 K SZs uint32UnitsPixels per Logical InchMappingStringsWin32API|Device Context Functions|GetDeviceCapsPixelsPerYLogicalInch^6  &? Ouint32UnitsPixels per Logical InchMappingStringsWWin32API|Device Context Functions|GetDeviceCaps r [CIM_Display )  !'O\1;m|UCIM_FlatPanelAbstractLocaleUUID{1008CCE9-7BFF-11D2-AAD2-006008C78BC7}DisplayTypeN  uint16HorizontalResolutionD)  uint32UnitsPixelsLightSourceP ) uint16ScanModeL e uint16SupportsColor R  booleanVerticalResolutionH)   uint32UnitsPixels $l tXRCIM_UserDevice)   &NVCIM_KeyboardAbstractLocaleUUID{8502C534-5FBB-11D2-AAC1-006008C78BC7}LayoutD  stringNumberOfFunctionKeysH  uint16PasswordJ6  & 0W guint16ValueMapHKNQT12345MappingStringsoMIF.DMTF|System Hardware Security|001.2 0l8 !0Win32_Keyboard, t:lT  $l \ sRCIM_Keyboard6  "(PZWin32_KeyboardCIMWin32LocaleUUID{8502C4B5-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ 4   stringOverrideDeviceId 0l T 8CIM_PointingDevice , y $l  SCIM_UserDevice)  &,T`UCIM_PointingDeviceAbstractLocaleUUID{8502C535-5FBB-11D2-AAC1-006008C78BC7}HandednessD  uint16NumberOfButtonsF  uint8PointingTypeG6 & . 8t uint16ValueMap\_behknq12345678MappingStringsMIF.DMTF|Pointing Device|001.1ResolutionI  uint32 0l( !<Win32_PointingDevice, t T  t $lt L tXxCIM_PointingDevice6   (. V`S`)=UU)Win32_PointingDeviceCIMWin32LocaleUUID{8502C4B4-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIDeviceInterfacei6 = E Uw uint16MappingStrings]SMBIOS|Type 21|InterfaceValueMap 12345678160161162DoubleSpeedThresholda6 2 :AJ Zuint32UnitsMickeysMappingStringsbWin32API|System Information Functions|SystemParametersInfoHardwareTypeM)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SYSTEM\ControlSet001\Control\Class|DriverDescInfFileNameQ)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Class|InfPathInfSectionU) K S cstringMappingStringskWin32Registry|HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\Class|InfSectionManufacturer k)   stringMappingStrings$WMIQuadSpeedThresholde6   uint32UnitsMickeysMappingStringsWin32API|System Information Functions|SystemParametersInfoSampleRateY6 = ELS cuint32UnitsHertzMappingStringskWin32Registry|SampleRateSynch]6   uint32Units100 NanosecondsMappingStringsWin32Registry|MouseSynchIn100ns 0ll !$Win32_Bus, ?4 8, , "$l  L0PCIM_LogicalDevice6   #KSbWin32_BusCIMWin32LocaleUUID{8502C50E-5FBB-11D2-AAC1-006008C78BC7}BusNumB)   uint32MappingStringsWMIBusTypeF6   < Fuint32MappingStringsWin32API|cHwRes|INTERFACE_TYPEValueMap-1012345678910111213141516DeviceID@ A )  1;E UstringOverrideDeviceIdMappingStrings]WMI 4<TCIM_LogicalDevice6 # +1YcUgWin32_MotherboardDeviceCIMWin32LocaleUUID{8502C4BA-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ A    stringOverrideDeviceIdMappingStringsWMIPrimaryBusTypeB) 2 : JstringMappingStringsRWin32Registry|HKEY_LOCAL_MACHINE\HARDWARE\DESCRIPTION\System\MultifunctionAdapter|IdentifierRevisionNumberF)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\HARDWARE\DESCRIPTION\SystemSecondaryBusTypeJ)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\HARDWARE\DESCRIPTION\System\MultifunctionAdapter|Identifier arTCIM_LogicalDevice6  #)Q\JXWin32_PnPEntityCimwin32LocaleUUID{FE28FD98-C875-11d2-B352-00104BC97924}ClassGuidJ)   stringMappingStringsWMIDeviceID@ A   #- =stringOverrideDeviceIdMappingStringsEWMIManufacturerB)   stringMappingStringsWMIServiceF)   stringMappingStringsWMI HWin32_SystemDriverPNPEntity8 MIF.DMTF|Pointing Devi0lX !4Win32_SoundDevice,  , x6$l | <VCIM_LogicalDevice6  %+S]BQ6E9Win32_SoundDeviceCIMWin32LocaleUUID{8502C50C-5FBB-11D2-AAC1-006008C78BC7}DeviceID@ N    stringOverrideDeviceIdMaxLenMappingStringsWin32Registry|SYSTEM\CurrentControlSet\control\MediaResources\wave|DeviceIDDMABufferSizeB6   uint16UnitsKilobytesMappingStringsWMIManufacturerD)   )stringMappingStrings1WMIMPU401AddressH) |  uint32MappingStringsWMIProductNameL)   stringMappingStringsWin32API|Multimedia Structures|WAVEOUTCAPS|szPname 0lD h ?0CIM_LogicalFile,   $l h R HP ~CIM_LogicalElement6 % -35>-@`h3J6A>H,4 =K! ' u   WUUUUUG CIM_LogicalFileAbstractCIMWin32LocaleUUID{8502C559-5FBB-11D2-AAC1-006008C78BC7}AccessMaskr6   uint32SchemaWin32BitMap  !%)-10123456781617181920Archive ) u ~booleanSchemaWin32Compressed &)  booleanSchemaWin32CompressionMethodZ % stringCreationClassName (' u}  stringCIM_KeyCreationDatee ,  datetimeCSCreationClassName4 '3W  stringPropagatedCIM_FileSystem.CSCreationClassNameCIM_KeyCSName"4   stringPropagatedCIM_FileSystem.CSNameCIM_KeyDriveb)  $,stringSchemaWin32EightDotThreeFileNameV)  stringSchemaWin32Encrypted 0)  booleanSchemaWin32EncryptionMethod^ . stringExtensionn) x stringSchemaWin32FileNamej)  stringSchemaWin32FileSizeD) (07 uint64UnitsBytesFileTypeR)  stringSchemaWin32FSCreationClassName 24 #  stringPropagatedCIM_FileSystem.CreationClassNameCIM_KeyFSName64 v~  stringPropagatedCIM_FileSystem.NameCIM_KeyHidden N)  booleanSchemaWin32InUseCount 5 uint64LastAccessede: u datetimeLastModifiede>  datetimeName@ 4      stringOverrideNamePathf) ^  f n stringSchemaWin32Readable 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ZstringMappingStringsbWin32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\drivers.desc 0CIM_DataFileA  & .4\g8E/< WWin32_PageFileDEPRECATEDCIMWin32LocaleUUID{8502C4C6-5FBB-11D2-AAC1-006008C78BC7}FreeSpace!~A    uint32DEPRECATEDUnitsMegabytesMappingStringsWin32API|Memory Management Structures|MEMORYSTATUS|dwAvailPageFileInitialSize"A    uint32DEPRECATEDUnitsMegabytesMappingStringsWin32Regstry|System\CurrentControlSet\Control\Session Manager\Memory Management|PagingFilesMaximumSize#A    uint32DEPRECATEDunitsMegabytesMappingStringsWin32API|Memory Management Structures|MEMORYSTATUS|dwTotalPageFileName@ A b j v stringDEPRECATEDOverrideNameMappingStringsWin32DLL|NTDLL.DLL|NtQuerySystemInformation|SystemPageFileInformation|PageFileName teeCIM_DataFile6  &,T\Win32_ShortcutFileCIMWin32LocaleUUID{F25FE466-783E-11d2-90BF-0060081A46FD}Target!~)   stringMappingStringsWin32API|_beginthreadex D%~CIM_LogicalFile)  "(PCIM_DeviceFileAbstractLocaleUUID{4333BD60-E3D1-11d2-8601-0000F8102E5F} @$~CIM_LogicalFile)  !'OCIM_DirectoryAbstractLocaleUUID{8502C55F-5FBB-11D2-AAC1-006008C78BC7} T CIM_LogicalElement)  '-UhHP(5h|*9Ja,;Nd $ u WUUUU_ CIM_OperatingSystemAbstractLocaleUUID{8502C565-5FBB-11D2-AAC1-006008C78BC7}CreationClassName'   stringCIM_KeyCSCreationClassName4  ?  stringPropagatedCIM_ComputerSystem.CreationClassNameCIM_KeyCSName4   stringPropagatedCIM_ComputerSystem.NameCIM_KeyCurrentTimeZoneH)  sint16UnitsMinutesDistributed   _ booleanFreePhysicalMemory ")  uint64UnitsKiloBytesFreeSpaceInPagingFilesR6 ) 18C Suint64UnitsKiloBytesMappingStrings[MIF.DMTF|System Memory Settings|001.4FreeVirtualMemory *)  uint64UnitsKiloBytesLastBootUpTimeeZ   datetimeLocalDateTimeeD) p z datetimeMappingStringsMIB.IETF|HOST-RESOURCES-MIB.hrSystemDateMIF.DMTF|General Information|001.6MaxNumberOfProcesses^) 19 I uint32MappingStringsQMIB.IETF|HOST-RESOURCES-MIB.hrSystemMaxProcessesMaxProcessMemorySize 2)  uint64UnitsKiloBytesName@ 4 2 :D stringOverrideNameNumberOfLicensedUsersb  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stringMappingStringsWin32API|DRIVE_MAP_INFO|btInt13UnitBuildNumber) # + ;stringMappingStringsCWin32API|System Information Structures|OSVERSIONINFOEX|dwBuildNumberBuildType)   stringMappingStringsWin32Registry|Software\Microsoft\Windows\CurrentVersion|CurrentTypeCodeSet6 }  stringMaxLenMappingStringsWin32API|National Language Support Functions|GetLocaleInfo|LOCALE_IDEFAULTANSICODEPAGECountryCode) A I YstringMappingStringsaWin32API|National Language Support Functions|GetLocaleInfo|LOCALE_ICOUNTRYCSDVersion )   stringMappingStringsWin32API|System Information Structures|OSVERSIONINFOEX|szCSDVersionDebug !)   booleanMappingStringsWin32API|GetSystemMetrics|SM_DEBUGDescription@A 4  <FS cstringOverrideDescriptionMappingStringskWMIForegroundApplicationBoost"4    uint8MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\PriorityControl|Win32PrioritySeparationLocale#)   stringMappingStringsWin32API|National Language Support Functions|GetLocaleInfo|LOCALE_ILANGUAGEManufacturer$) 6 > 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ProductIdPlusVersionNumber)) \  d  t stringMappingStrings| Win32Registry|Software\Microsoft\Windows NT\CurrentVersion|Plus! VersionNumberPrimary *)     % booleanMappingStrings- WMIQuantumLength+4     uint8MappingStrings Win32Registry|SYSTEM\CurrentControlSet\Control\PriorityControl|Win32PrioritySeparationQuantumType,4 I   P  ` uint8MappingStringsh Win32Registry|SYSTEM\CurrentControlSet\Control\PriorityControl|Win32PrioritySeparationRegisteredUser-)      stringMappingStrings' Win32Registry|Software\Microsoft\Windows NT\CurrentVersion|RegisteredOwnerSerialNumber.)    stringMappingStrings Win32Registry|Software\Microsoft\Windows NT\CurrentVersion|ProductIdServicePackMajorVersion/) n v uint16MappingStringsWin32API|System Information Structures|OSVERSIONINFOEX|wServicePackMajorServicePackMinorVersion0) ( 0 @uint16MappingStringsHWin32API|System Information Structures|OSVERSIONINFOEX|wServicePackMinorSystemDevice1)   stringMappingStringsWin32API|Registry Functions|GetPrivateProfileString|Paths|TargetDeviceSystemDirectory2)   stringMappingStringsWin32API|System Information Functions|GetSystemDirectoryVersion@@6 . 6 FstringMappingStringsNWin32API|System Information Structures|OSVERSIONINFOEX|dwMajorVersion, dwMinorVersionOverrideVersionWindowsDirectory3)   stringMappingStrings!Win32API|System Information Functions|GetWindowsDirectory ma StrS EX|]48orVd u Reboot6> KU] i implementedOverrideRebootPrivilegesqSeShutdownPrivilegeMappingStringsWin32API|System Shutdown Functions|ExitWindowsEx|EWX_REBOOTpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Shutdown6   implementedOverrideShutdownPrivilegesSeShutdownPrivilegeMappingStringsWin32API|System Shutdown Functions|ExitWindowsEx|EWX_SHUTDOWNpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Win32Shutdown)   *implementedPrivilegesSeShutdownPrivilegeMappingStrings2Win32API|System Shutdown Functions|ExitWindowsExBLD117ROOT\CIMV2 O  * iM__PARAMETERSabstractFlagssint32 1in 1X Win32API|System Shutdown Functions|ExitWindowsExMappingStrings) 1X  ID6 OX  sint32Reservedsint32 sin s Win32API|System Shutdown Functions|ExitWindowsExMappingStrings) s  ID6   Isint32__ __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ihWCIM_LogicalElement)  % M`JRK\WUUOCIM_ProcessAbstractLocaleUUID{8502C566-5FBB-11D2-AAC1-006008C78BC7}CreationClassName'   stringCIM_KeyCreationDatee   datetimeCSCreationClassName4 ?GS|  stringPropagatedCIM_OperatingSystem.CSCreationClassNameCIM_KeyCSName4   stringPropagatedCIM_OperatingSystem.CSNameCIM_KeyExecutionState< B uint16Handle $'   stringKernelModeTime ()  uint64UnitsMillisecondsOSCreationClassName 04 JR^  stringPropagatedCIM_OperatingSystem.CreationClassNameCIM_KeyOSName 44   stringPropagatedCIM_OperatingSystem.NameCIM_KeyPriority 8 C uint32TerminationDatee>  datetimeUserModeTimeB)  uint64UnitsMillisecondsWorkingSetSizeJ) 9 AHuint64UnitsBytes )2CIM_Process 6  !'O_ -kGSm<M  E P  ^ z 9w$~3_UUUUUUWin32_ProcessCIMWin32LocaleUUID{8502C4DC-5FBB-11D2-AAC1-006008C78BC7}ExecutablePathR6    stringPrivilegesSeDebugPrivilegeMappingStringsWin32API|Tool Help Structures|MODULEENTRY32|szExePathHandleCount ) d l |uint32MappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|HandleCountMaximumWorkingSetSizeVC , 4;F Rl |uint32UnitsKilobytesPrivilegesZSeDebugPrivilegeMappingStringsWin32|WINNT.H|QUOTA_LIMITS|MaximumWorkingSetSizeMinimumWorkingSetSizeZC  &-8 D^ nuint32UnitsKilobytesPrivilegesLSeDebugPrivilegeMappingStringsvWin32|WINNT.H|QUOTA_LIMITS|MinimumWorkingSetSizeOtherOperationCount()   uint64MappingStringsWin32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|OtherOperationCountOtherTransferCount+6   uint64UnitsBytesMappingStringsWin32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|OtherTransferCountPageFaults^)   uint32MappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|PageFaultCountPageFileUsageb6 @ HOZ juint32UnitsKilobytesMappingStringsrWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|PagefileUsageParentProcessId!)   uint32MappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|InheritedFromUniqueProcessIdPeakPageFileUsagef6   uint32UnitsKilobytesMappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|PeakPagefileUsagePeakVirtualSize$6   uint64UnitsBytesMappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|PeakVirtualSizePeakWorkingSetSizej6 [  c j u  uint32UnitsKilobytesMappingStrings Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|PeakWorkingSetSizePriority@ 86 "  * 4 >  N uint32OverridePriorityMappingStringsV Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|BasePriorityPrivatePageCount#)    uint64MappingStrings Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|PrivatePageCountProcessIdn)    uint32MappingStrings Win32API|Process and Thread Structures|PROCESS_INFORMATION|dwProcessId QuotaNonPagedPoolUsager) ?  G  W uint32MappingStrings_ Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|QuotaNonPagedPoolUsageQuotaPagedPoolUsagev)     uint32MappingStrings Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|QuotaPagedPoolUsageQuotaPeakNonPagedPoolUsagez)    uint32MappingStrings Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|QuotaPeakNonPagedPoolUsageQuotaPeakPagedPoolUsage~) p x uint32MappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|QuotaPeakPagedPoolUsageReadOperationCount&) ' / ?uint64MappingStringsGWin32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|ReadOperationCountReadTransferCount)6    uint64UnitsBytesMappingStrings"Win32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|ReadTransferCountSessionId")   uint32MappingStringsWin32API|Process Status|SYSTEM_PROCESS_INFORMATION|SessionIdThreadCount) [ c suint32MappingStrings{Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|NumberOfThreadsVirtualSize%6  & 6uint64UnitsBytesMappingStrings>Win32API|Process Status|SYSTEM_PROCESS_INFORMATION|VirtualSizeWindowsVersion)   stringMappingStringsWin32API|Process and Thread Functions|GetProcessVersionWriteOperationCount') j r uint64MappingStringsWin32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|WriteOperationCountWriteTransferCount*6 9 AHO _uint64UnitsBytesMappingStringsgWin32API|Process and Thread Structures|SYSTEM_PROCESS_INFORMATION|WriteTransferCount  Ant6KmingzfCreate?G T \ i u ConstructorStaticImplementedPrivilegesSeAssignPrimaryTokenPrivilegeSeIncreaseQuotaPrivilegeMappingStringsWin32API|Process and Thread Functions|CreateProcessBLD117ROOT\CIMV2 S  *sv__PARAMETERSabstractCommandLinestring 7In 7^ Win32API|Process and Thread Functions|lpCommandLine MappingStrings) 7^  ID6 Y^  stringCurrentDirectorystring In  Win32API|Process and Thread Functions|CreateProcess|lpCurrentDirectory MappingStrings)  + ID6  + rstring ProcessStartupInformationobject  In   LWMI|Win32_ProcessStartupMappingStrings )  f DID 6  f Dobject:Win32_ProcessStartup __ __ __LBLD117ROOT\CIMV2   *4__PARAMETERSabstractProcessIduint32 5Out 5\ Win32API|Process and Thread Functions|CreateProcess|lpProcessInformation|dwProcessIdMappingStrings) 5\  ID6 x\  0uint32ReturnValueuint32 uint32out  __ __ __ __ __Terminate'* 6 C  S DestructorImplementedMappingStrings[ Win32API|Process and Thread Functions|TerminateProcess6BLD117ROOT\CIMV2  *i__PARAMETERSabstractReasonuint32 2In 2Y Win32API|Process and Thread Functions|TerminateProcess|uExitCode MappingStrings) 2Y  ID6 aY  uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetOwnerg t ImplementedMappingStringsWMIBLD117ROOT\CIMV2   <P*__PARAMETERSabstractUserstring 0Out 0W WMIMappingStrings) 0W  ID6 "W  stringDomainstring DOut Dk WMIMappingStrings) Dk  ID6 6k  stringReturnValueuint32 uint32out  __ __ __ __GetOwnerSid  ImplementedMappingStringsWMIBLD117ROOT\CIMV2 T  ;|*__PARAMETERSabstractSidstring /Out /V WMIMappingStrings) /V  ID6 !V  stringReturnValueuint32 ouint32out ow __ __ __ __z)CIM_LogicalElement)  %M`BMKWWCIM_ServiceAbstractLocaleUUID{8502C527-5FBB-11D2-AAC1-006008C78BC7}CreationClassName'   stringCIM_KeyName@ 4   stringOverrideNameStarted  9 booleanStartMode)   stringValueMapAutomaticManualSystemCreationClassName4 $B  stringPropagatedCIM_System.CreationClassNameCIM_KeySystemName "4   stringPropagatedCIM_System.NameCIM_KeyOCIMStartServicepBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __StopServicepBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __et)CIM_Service ) ! )/WCIM_ClusteringServiceAbstractLocaleUUID{debac832-6b54-4add-8a62-8d3861b97b1d} )48TAddNodeBLD117ROOT\CIMV2 Z *__PARAMETERSabstractfCSreff .INf .R IDf) R ref:CIM_ComputerSystem __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EvictNodeBLD117ROOT\CIMV2 Z *__PARAMETERSabstractfCSreff .INf .R IDf) R ref:CIM_ComputerSystem __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __4)CIM_Service C "( PY iWin32_ApplicationServiceLocaleUUID{CC78410E-E3D1-11d2-8601-0000F8102E5F}MSIProvMappingStringsqMicrosoft.MSI Wf VCIM_Service 6 ' /5 ]j+?M?I6C5@  _UU Win32_BaseServiceAbstractCIMWin32LocaleUUID{8502C4C4-5FBB-11D2-AAC1-006008C78BC7}AcceptPause &)   booleanMappingStringsWin32API|Service Structures|SERVICE_STATUS|dwControlsAccepted|SERVICE_ACCEPT_PAUSE_CONTINUEAcceptStop () b k {booleanMappingStringsWin32API|Service Structures|SERVICE_STATUS|dwControlsAccepted|SERVICE_ACCEPT_STOPDesktopInteract *)  ' 7booleanMappingStrings?Win32API|Service Structures|QUERY_SERVICE_CONFIG|dwServiceType|SERVICE_INTERACTIVE_PROCESSDisplayName ,)   stringMappingStringsWin32API|Service Structures|QUERY_SERVICE_CONFIG|lpDisplayNameErrorControl06    stringMappingStringsWin32API|Service Structures|QUERY_SERVICE_CONFIG|dwErrorControlValueMap$,6IgnoreNormalSevereCriticalUnknownExitCodeH)   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J0222GQRR@S%VWW7X;XYStartService)7AO \ lOverrideStartServiceImplementedMappingStringstWin32API|Service Functions|StartServicepBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __StopService)KUb o OverrideStopServiceImplementedMappingStringsWin32API|Service Functions|ControlService|dwControl|SERVICE_CONTROL_STOPpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __PauseServices  ImplementedMappingStringsWin32API|Service Functions|ControlService|dwControl|SERVICE_CONTROL_PAUSEpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ResumeService  ImplementedMappingStringsWin32API|Service Functions|ControlService|dwControl|SERVICE_CONTROL_CONTINUEpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __InterrogateService  ImplementedMappingStringsWin32API|Service Functions|ControlService|dwControl|SERVICE_CONTROL_INTERROGATEpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __UserControlService   ImplementedMappingStrings Win32API|Service Functions|CreateService|dwDesiredAccess|SERVICE_USER_DEFINED_CONTROLBLD117ROOT\CIMV2  *^__PARAMETERSabstractControlCodeuint8 7In 7] Win32API|Service Functions|ControlService|dwControlMappingStrings) 7]  ID6 W]  uint8 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Create2    ConstructorImplementedStaticMappingStrings Win32API|Service Functions|CreateServiceE!BLD117ROOT\CIMV2 + * @ mY? :* = UUUE__PARAMETERSabstractNamestring 0In 0W Win32API|Service Functions|CreateServicelpServiceNameMappingStrings) 0W  ID6 SW  stringDisplayNamestring zIn z Win32API|Service Functions|CreateServicelpDisplayNameMappingStrings) z  ID6   UstringPathNamestring In  Win32API|Service Structures|QUERY_SERVICE_CONFIG|lpBinaryPathName MappingStrings)  b ID6  b string ServiceTypeuint8  In  > tWin32API|Service Structures|QUERY_SERVICE_CONFIG|dwServiceTypeMappingStrings ) >  l!$'*-0123458BitMap 6 >  l0 ID C >  l0 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IV1?_i /bw(9~JTWUU CIM_DMAAbstractLocaleUUID{8502C523-5FBB-11D2-AAC1-006008C78BC7}AddressSize ,C    uint16UnitsBitsValueMap08163264MappingStringsMIF.DMTF|System Resource DMA Info|001.3Availability $6    uint16ValueMap12345MappingStringsMIF.DMTF|DMA|001.2BurstMode &) * 3 CbooleanMappingStringsKMIF.DMTF|DMA|001.3ByteMode26    uint16ValueMap1234MappingStringsMIF.DMTF|System Resource DMA Info|001.7ChannelTiming66 s {  uint16ValueMap123456MappingStringsMIF.DMTF|System Resource DMA Info|001.9CreationClassName4 I Q@Y stringMaxLenCIM_KeyCSCreationClassNameA  @ stringPropagatedCIM_ComputerSystem.CreationClassNameMaxLenCIM_KeyCSNameA h p| stringPropagatedCIM_ComputerSystem.NameCIM_KeyMaxLenDMAChannel 4    uint32MappingStringsMIF.DMTF|DMA|001.1MaxTransferSize .6 }  uint32UnitsBytesMappingStringsMIF.DMTF|System Resource DMA Info|001.4TransferWidths (6 ( 07= Muint16UnitsBitsMappingStringsUMIF.DMTF|System Resource DMA Info|001.2TypeCTiming86    uint16ValueMap12345MappingStrings MIF.DMTF|System Resource DMA Info|001.10WordMode46    uint16ValueMap1234MappingStringsMIF.DMTF|System Resource DMA Info|001.8 40CIM_SystemResource)  !IWn%3>o|WUKCIM_IRQAbstractLocaleUUID{8502C51A-5FBB-11D2-AAC1-006008C78BC7}Availability $6    uint16ValueMap12345MappingStringsMIF.DMTF|IRQ|001.2CreationClassName4 U ] f@stringCIM_KeyMaxLenCSCreationClassNameA    @stringPropagatedCIM_ComputerSystem.CreationClassNameCIM_KeyMaxLenCSNameA t | stringPropagatedCIM_ComputerSystem.NameCIM_KeyMaxLenIRQNumber 4    uint32MappingStringsMIF.DMTF|IRQ|001.1Shareable *) u ~ booleanMappingStringsMIF.DMTF|IRQ|001.4TriggerLevel (6   . >uint16ValueMap"%(+1234MappingStringsFMIF.DMTF|System Resource IRQ Info|001.3TriggerType &6    uint16ValueMap1234MappingStrings"MIF.DMTF|IRQ|001.3MIF.DMTF|System Resource IRQ Info|001.2 Ma 3CIM_SystemResource)  &,TgqyW,CIM_MemoryMappedIOAbstractLocaleUUID{8502C51B-5FBB-11D2-AAC1-006008C78BC7}CreationClassName4  @ stringMaxLenCIM_KeyCSCreationClassNameA & .:` i@stringPropagatedCIM_ComputerSystem.CreationClassNameCIM_KeyMaxLenCSNameA   stringPropagatedCIM_ComputerSystem.NameMaxLenCIM_KeyEndingAddress () L T duint64MappingStringslMIF.DMTF|Memory Mapped I/O|001.2StartingAddress 4    uint64CIM_KeyMappingStrings MIF.DMTF|Memory Mapped I/O|001.1 rin0 CIM_SystemResource6  %+SY/?WmWin32_EnvironmentCIMWin32LocaleUUID{8502C4D2-5FBB-11D2-AAC1-006008C78BC7}Name@ L     stringOverrideNameMappingStringsWin32Registry|System\CurrentControlSet\Control\Session Manager\EnvironmentSystemVariable ) v  booleanMappingStringsWin32Registry|System\CurrentControlSet\Control\Session Manager\EnvironmentUserNameA <  DL \stringMaxLenMappingStringsdWin32Registry|System\CurrentControlSet\Control\Session Manager\EnvironmentVariableValue4    stringMappingStrings!Win32Registry|System\CurrentControlSet\Control\Session Manager\Environment !,OCIM_LogicalElement)  $ L_dl6> .8j&WUUCIM_ThreadAbstractLocaleUUID{8502C571-5FBB-11D2-AAC1-006008C78BC7}CreationClassName ,4   stringCim_KeyMaxLenCSCreationClassNameA  &2S \stringPropagatedCIM_Process.CSCreationClassNameCim_KeyMaxLenCSNameA   stringPropagatedCIM_Process.CSNameCim_KeyMaxLenExecutionState8 . uint16Handle 04   stringMaxLenKernelModeTimeB)  uint64UnitsMilliSecondsOSCreationClassNameA X `l stringPropagatedCIM_Process.OSCreationClassNameCim_KeyMaxLenOSName A    &stringPropagatedCIM_Process.OSNameCim_KeyMaxLenPriority 4 b uint32ProcessCreationClassName $A   stringPropagatedCIM_Process.CreationClassNameCim_KeyMaxLenProcessHandle (A u } stringPropagatedCIM_Process.HandleMaxLenUserModeTime:)  uint64UnitsMilliSeconds hCIM_Thread 6   &N[HWVdtWWin32_ThreadCIMWin32LocaleUUID{8502C4DD-5FBB-11D2-AAC1-006008C78BC7}ElapsedTimeJ6   uint64UnitsMillisecondsMappingStringsWin32API|Performance Data Structures|PERF_OBJECT_TYPE|PerfTimeHandle@ 0C m u} stringMaxLenOverrideHandleMappingStringsWin32API|Tool Help Structures|THREADENTRY32|th32ThreadIDPriority@ 46 / 7AK [uint32OverridePriorityMappingStringscWin32API|Tool 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S`6@1:x.?UWin32_UserAccountCIMWin32LocaleUUID{8502C4CC-5FBB-11D2-AAC1-006008C78BC7}AccountType6    uint32MappingStringsWin32API|Network Management Structures|USER_INFO_2|usri2_flagsBitMap$'*.289111213Disabled !) w  booleanMappingStringsWin32API|Network Management Structures|USER_INFO|UF_ACCOUNTDISABLEDomain@6 ( 0 @zstringMappingStringsHWin32API|Network Management Functions|domainnameOverrideDomainFullName #)   stringMappingStringsWin32API|Network Management Structures|USER_INFO_2|usri2_full_nameLockout ') q z booleanMappingStringsWin32API|Network Management Structures|USER_INFO_2|UF_LOCKOUTName@ 6  #-3 CstringOverrideNameMappingStringsKWin32API|Network Management Structures|namePasswordChangeable ))   booleanMappingStringsWin32API|Network Management Structures|USER_INFO_2|UF_PASSWD_CANT_CHANGEPasswordExpires +) v  booleanMappingStringsWin32API|Network Management Structures|USER_INFO_2|UF_DONT_EXPIRE_PASSWDPasswordRequired -) * 3 CbooleanMappingStringsKWin32API|Network Management Structures|USER_INFO_2|UF_PASSWD_NOTREQD ntepSCIM_LogicalElement6 # +1YeWin32_ComponentCategoryCIMWin32LocaleUUID{0F73ED5A-8ED9-11d2-B340-00105A1F8569}CategoryIdA    stringMaxLenMappingStringsWin32API|Component Categories|CATEGORYINFO|catidName@ 6 X `jp stringOverrideNameMappingStringsWin32API|Component Categories|CATEGORYINFO|szDescription inCIM_LogicalElement6   (.VebWin32_LoadOrderGroupCIMWin32LocaleUUID{8502C4D4-5FBB-11D2-AAC1-006008C78BC7}DriverEnabled )   booleanMappingStringsWin32Registry|System\CurrentControlSet\Control\GroupOrderListGroupOrder) ? G Wuint32MappingStrings_Win32Registry|System\CurrentControlSet\Control\GroupOrderListName@ A     stringOverrideNameMappingStrings#Win32Registry|System\CurrentControlSet\Control\GroupOrderList egstrCIM_LogicalElement6  '-UcWin32_NetworkClientCIMWin32LocaleUUID{8502C4D5-5FBB-11D2-AAC1-006008C78BC7}Manufacturer)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\LanmanWorkstation\NetworkProvider|MfgName@ A f  nx~ stringOverrideNameMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\LanmanWorkstation\NetworkProvider|Name trN GCIM_LogicalElement6 # +1 Ye3<7=0<xQ [ WUU Win32_NetworkConnectionCIMWin32LocaleUUID{8502C4CD-5FBB-11D2-AAC1-006008C78BC7}AccessMask>6   uint32SchemaWin32BitMap  #'+/0123456781617181920Comment) s { stringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|lpCommentConnectionStateC 3 ;C M stringMaxLenValueMapit{ConnectedErrorPausedDisconnectedConnectingReconnectingMappingStringsWin32API|Network Management Structures|USE_INFO_1|ui1_statusConnectionType) H P `stringMappingStringshWin32API|Windows Networking Structures|NETRESOURCE|dwScopeDisplayType 6   W astringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|dwDisplayTypeValueMapu}DomainGenericServerShareLocalName $)   stringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|lpLocalNameName@ A    stringOverrideNameMappingStringsWin32API|Windows Networking Structures|NETRESOURCEPersistent () 3 < LbooleanMappingStringsTWin32API|Windows Networking Functions|WNetEnumResourceProviderName *)   stringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|lpProviderRemoteName .) s { stringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|lpRemoteNameRemotePath 2)   /stringMappingStrings7Win32API|Windows Networking Structures|NETRESOURCE|lpRemoteNameResourceType66   %  / stringMappingStringsWin32API|Windows Networking Structures|NETRESOURCE|dwTypeValueMap? E L DiskPrintAnyUserName:)    stringMappingStrings Win32API|Windows Networking Functions|WNetGetUser lMDCIM_LogicalElement6 ! )/Wn0s@QSi/ [ r  6 x ?YWUUU Win32_NetworkProtocolCIMWin32LocaleUUID{8502C4D8-5FBB-11D2-AAC1-006008C78BC7}ConnectionlessService )   booleanMappingStringsWin32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP1_CONNECTIONLESSGuaranteesDelivery ) g p booleanMappingStringsWin32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_GUARANTEED_DELIVERYGuaranteesSequencing ) / 8 HbooleanMappingStringsPWin32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_GUARANTEED_ORDERMaximumAddressSize6   *uint32unitsCharactersMappingStrings2Win32_API|Windows Sockets Structures|PROTOCOL_INFO|iMaxSockAddrMaximumMessageSize 6   uint32unitsCharactersMappingStringsWin32_API|Windows Sockets Structures|PROTOCOL_INFO|dwMessageSizeMessageOriented ")   booleanMappingStringsWin32_API|Windows Sockets 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booleanMappingStrings Win32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_EXPEDITED_DATASupportsFragmentation 4) m  v  booleanMappingStrings Win32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_FRAGMENTATIONSupportsGracefulClosing 6) 2  ;  K booleanMappingStringsS Win32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_GRACEFUL_CLOSESupportsGuaranteedBandwidth 8)      booleanMappingStrings Win32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_BANDWIDTH_ALLOCATIONSupportsMulticasting :)    booleanMappingStrings Win32_API|Windows Sockets Structures|PROTOCOL_INFO|dwServiceFlags|XP_SUPPORTS_MULTICASTSupportsQualityofService <)   booleanMappingStringsWin32_API|Windows Sockets Structures|WSAPROTOCOL_INFO|dwServiceFlags1|XP1_QOS_SUPPORTED ures|xY"CIM_LogicalElement6  '-Uh*5WWin32_PageFileUsageCIMWin32LocaleUUID{9B3AC16A-EEE5-11d2-B13B-00105A1F77A1}AllocatedBaseSize6   uint32unitsMegabytesMappingStringsWin32API|MEMORYSTATUS|dwTotalPageFileCurrentUsage6 W _fq uint32unitsMegabytesMappingStringsWin32API|MEMORYSTATUSName@ A     stringOverrideNameMappingStrings%WMIPeakUsage6 y  uint32unitsMegabytesMappingStringsWMI ( "Win32_ProgramGroupOrItem6 % -3[ffWin32_LogicalProgramGroupCIMWin32LocaleUUID{D52706F2-8045-11d2-90CE-0060081A46FD}GroupName)   stringMappingStringsWin32API|CWbemProviderGlue Class Methods|GetAllInstancesName@ N Y ak qy stringOverrideNameMaxLenMappingStringsWin32API|CWbemProviderGlue Class Methods|GetAllInstancesUserName)    $stringMappingStrings,Win32API|CWbemProviderGlue Class Methods|GetAllInstances aph/CIM_LogicalElement6 % -3[c',9WWin32_QuickFixEngineeringCIMWin32LocaleUUID{0827250D-BA3E-11d2-B361-00105A1F77A1}CSNameN    stringCIM_KeyMaxLenPropagatedCIM_ComputerSystem.NameMappingStringsWMIFixComments ) ^ f vstringMappingStrings~Win32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\HotfixHotFixIDA   "* :stringMaxLenMappingStringsBWin32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\HotfixInstalledBy $)   stringMappingStringsWin32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\HotfixInstalledOn () p x stringMappingStringsWin32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\HotfixServicePackInEffectA 7  ?G WstringMaxLenMappingStrings_Win32Registry|SOFTWARE\Microsoft\Windows NT\CurrentVersion\Hotfix n3))CIM_LogicalElement6   %MYm{*/5WFWin32_ShareCIMWin32LocaleUUID{8502C4D6-5FBB-11D2-AAC1-006008C78BC7}AccessMask "6    uint32MappingStringsWin32API|Access Control Functions|GetEffectiveRightsFromAclBitMap>ADGJMPSVY]aei0123456781617181920AllowMaximum )   booleanMappingStringsWin32API|Network Management Structures|SHARE_INFO_502|shi502_max_usesMaximumAllowed) a i yuint32MappingStringsWin32API|Network Management Structures|SHARE_INFO_502|shi502_max_usesName@ A   %/5 EstringOverrideNameMappingStringsMWin32API|Network Management Structures|SHARE_INFO_1|shi1_netnamePath)   stringMappingStringsWin32API|Network Management Structures|SHARE_INFO_502|shi502_pathType6 y   uint32MappingStringsWin32API|Network Management Structures|SHARE_INFO_502|shi502_typeValueMap  ".:01232147483648214748364921474836502147483651#12W2Q.  5!9!"Create2: G O \ lConstructorStaticImplementedMappingStringstWin32API|Network Management Functions|NetShareAddBLD117ROOT\CIMV2 b  yi,m *fU^ __PARAMETERSabstractPathstring 0In 0W Win32API|Network Management Structures|SHARE_INFO_502|shi502_pathMappingStrings) 0W  ID6 _W  stringNamestring In  Win32API|Network Management Structures|SHARE_INFO_1|shi1_netnameMappingStrings)   ID6   estringTypeuint32 In  *Win32API|Network Management Structures|SHARE_INFO_502|shi502_typeMappingStrings)  m "01232147483648214748364921474836502147483651ValueMap6  m " IDC  m " buint32 MaximumAlloweduint32  In   Optional '  6 }Win32API|Network Management Structures|SHARE_INFO_502|shi502_max_usesMappingStrings 4  6  uID A i 6  uuint32Descriptionstring In  Optional'   ,Win32API|Network Management Structures|SHARE_INFO_1|shi1_remarkMappingStrings4   m $IDA   m $stringPasswordstring 6In 6] Optional' 6]  Win32API|Network Management Structures|SHARE_INFO_502|shi502_passwdMappingStrings4 6]    IDA  ]    i string Accessobject   In     Optional '    3  z WMI|Win32_SecurityDescriptorMappingStrings 4    3   r ID A =  3   r object:Win32_SecurityDescriptor __ __ __ __ __ __ __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetShareInfo  ImplementedMappingStringsWin32API|Network Management Functions|NetShareSetInfoBLD117ROOT\CIMV2   *s __PARAMETERSabstractMaximumAlloweduint32 :In :a Optional' :a  Win32API|Network Management Structures|SHARE_INFO_502|shi502_max_usesMappingStrings4 :a   IDA a   ouint32Descriptionstring In  Optional'  > Win32API|Network Management Structures|SHARE_INFO_1|shi1_remarkMappingStrings4  >  }IDA k >  }string Accessobject  In   Optional '   )WMI|Win32_SecurityDescriptorMappingStrings 4   G !ID A   G !object:Win32_SecurityDescriptor __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Delete'  DestructorImplementedMappingStrings!Win32API|Network Management Functions|NetShareDelpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __~>"CIM_ManagedSystemElement)  '- Uhf| ?M@IWUCIM_PhysicalElementAbstractLocaleUUID{FAF76B61-798C-11D2-AAD1-006008C78BC7}CreationClassName4   stringCIM_KeyMaxLenManufacturer)  stringMaxLenModel) V ^@stringMaxLenOtherIdentifyingInfo 4  stringPartNumber 0)  stringMaxLenPoweredOn 8 6 booleanSerialNumber $)  @stringMaxLenSKU )  @stringMaxLenTag (4 '/  8stringCIM_KeyMaxLenVersion ,)  @stringMaxLen MegCIM_Chip )  &, T_)[gqx_UfCIM_PhysicalMemoryabstractLocaleUUID{FAF76B7B-798C-11D2-AAD1-006008C78BC7}BankLabelT6 @  stringMaxLenMappingStringsMIF.DMTF|Memory Device|002.4CapacityL6 7?FM ] uint64UnitsBytesMappingStringseMIF.DMTF|Memory Device|002.5DataWidthF6   uint16UnitsBitsMappingStringsMIF.DMTF|Memory Device|002.8FormFactor@@6 m u uint16OverrideFormFactorMappingStringsMIF.DMTF|Memory Device|002.6InterleavePosition\)   $ uint32MappingStrings,MIF.DMTF|Memory Device Mapped Addresses|001.7MemoryTypeB)   uint16MappingStringsMIF.DMTF|Memory Device|002.9PositionInRowX) "* : uint32MappingStringsBMIF.DMTF|Memory Device Mapped Addresses|001.6SpeedH)  uint32UnitsNanoSecondsTotalWidthD6 #*0 @ uint16UnitsBitsMappingStringsHMIF.DMTF|Memory Device|002.7 |SHpCIM_PhysicalMemory6   (.Vens Win32_PhysicalMemoryCIMWin32LocaleUUID{FAF76B93-798C-11D2-AAD1-006008C78BC7}DeviceLocator`)   stringMappingStringsSMBIOS|Type 17|Device LocatorInterleaveDataDepthf) ' / ?uint16MappingStringsGSMBIOS|Type 20|Interleaved Data DepthTag@ (N    stringMaxLenOverrideTagMappingStringsWMITypeDetaild) N V fuint16MappingStringsnSMBIOS|Type 17|Type Detail ed @!XCIM_PhysicalComponent)  %+S]v_DCIM_PhysicalMediaAbstractLocaleUUID{FAF76B7D-798C-11D2-AAD1-006008C78BC7}Capacity@)  uint64UnitsBytesCleanerMedia P  booleanMediaDescriptionJ) 4< Q stringModelCorrespondenceYCIM_PhysicalMedia.MediaTypeMediaTypeH)   uint16ModelCorrespondenceCIM_PhysicalMedia.MediaDescriptionWriteProtectOn N ; boolean ICIM_PhysicalComponent6  '-UbGL_Win32_OnBoardDeviceCIMWin32LocaleUUID{AEECF151-D0EA-11d2-ABFC-00805F538618}Description@6   stringOverrideDescriptionMappingStringsSMBIOS|Type 10|DescriptionDeviceType@6 I Q a uint16MappingStringsiSMBIOS|Type 10|Device Type nValueMap1234567Enabled B)   booleanMappingStrings'SMBIOS|Type 10|Device Status nTag@ (N    stringMaxLenOverrideTagMappingStringsWMI 1iCIM_PhysicalConnector)  " JYO^GO {UUCIM_SlotabstractLocaleUUID{FAF76B86-798C-11D2-AAD1-006008C78BC7}ConnectorType`>6   uint16OverrideConnectorTypeMappingStringsMIF.DMTF|System Slot|004.2HeightAllowedD) 8@G real32UnitsInchesLengthAllowedH)  real32UnitsInchesMaxDataWidthL6   # uint16UnitsBitsMappingStrings+MIF.DMTF|System Slot|004.3Number` y uint16PurposeDescription\)   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'-Ud.S]UjWin32_PortConnectorCIMWin32LocaleUUID{FAF76B92-798C-11D2-AAD1-006008C78BC7}ConnectorType`>6   uint16OverrideConnectorTypeMappingStringsSMBIOS|Type 8|Internal/External Connector TypeExternalReferenceDesignatorF) e m }stringMappingStringsSMBIOS|Type 8|External Reference DesignatorInternalReferenceDesignatorB)   stringMappingStrings&SMBIOS|Type 8|Internal Reference DesignatorPortTypeJ)   uint16MappingStringsSMBIOS|Type 8|Port TypeTag@ (N . 6 >HM ]stringMaxLenOverrideTagMappingStringseWMI 8|bSVCIM_PhysicalElement)  '-U\ALUjCIM_PhysicalPackageabstractLocaleUUID{FAF76B6E-798C-11D2-AAD1-006008C78BC7}DepthD)  real32UnitsInchesHeight@)  real32UnitsInchesHotSwappable > 8 booleanRemovable : v booleanReplaceable <  booleanWeightL)   real32UnitsPoundsWidthH) S[b real32UnitsInches IsCompatible BLD117ROOT\CIMV2  *__PARAMETERSabstractfElementToCheckreff :INf :^ IDf) ^ ref:CIM_PhysicalElement __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __pCIM_PhysicalPackage)  %+Sa%>p}CQ_UCIM_PhysicalFrameabstractLocaleUUID{FAF76B70-798C-11D2-AAD1-006008C78BC7}AudibleAlarm ^  booleanBreachDescriptiond)   stringModelCorrespondenceCIM_PhysicalFrame.SecurityBreachCableManagementStrategyP h stringLockPresent \  booleanSecurityBreachbC  #J Z  uint16ValueMap;>ADG12345MappingStringsbMIF.DMTF|Physical Container Global Table|002.12ModelCorrespondenceCIM_PhysicalFrame.BreachDescriptionServiceDescriptions X6 .6AJ _ stringArrayTypeIndexedModelCorrespondencegCIM_PhysicalFrame.ServicePhilosophyServicePhilosophy T6   uint16ArrayTypeIndexedModelCorrespondenceCIM_PhysicalFrame.ServiceDescriptionsVisibleAlarm ` { boolean CIM_PhysicalFrame)  %M[8 ;M_CIM_ChassisabstractLocaleUUID{FAF76B72-798C-11D2-AAD1-006008C78BC7}ChassisTypes !nP     uint16ArrayTypeIndexedValueMapCFILORUX[^bfjnrvz~123456789101112131415161718192021222324MappingStringsMIF.DMTF|Physical Container Global Table|002.1ModelCorrespondenceCIM_Chassis.TypeDescriptionsCurrentRequiredOrProducedj) ow~ sint16UnitsAmps at 120 VoltsHeatGeneration l)  uint16UnitsBTU per HourNumberOfPowerCordsh 3 uint16TypeDescriptions "r6   stringArrayTypeIndexedModelCorrespondenceCIM_Chassis.ChassisTypes T6CIM_Chassis 6 ! )/Wg+8Win32_SystemEnclosureCIMWin32LocaleUUID{FAF76B94-798C-11D2-AAD1-006008C78BC7}SecurityStatus$z6    uint16ValueMap12345MappingStringsSMBIOS|Type 3|Security StatusSMBIOSAssetTag#v) b j zstringMappingStringsSMBIOS|Type 3|Asset TagTag@ (N    +stringMaxLenOverrideTagMappingStrings3WMI vCIM_PhysicalFrame)  "J^@L_CIM_RackAbstractLocaleUUID{FAF76B71-798C-11D2-AAD1-006008C78BC7}CountryDesignationj)   stringModelCorrespondenceCIM_Rack.TypeOfRackHeight@@6 #* .8real32UnitsUsOverrideHeightTypeOfRackh)   uint16ModelCorrespondenceCIM_Rack.CountryDesignation cCIM_PhysicalPackage6 % -3[ey;@_Win32_PhysicalMemoryArrayCIMWin32LocaleUUID{FAF76B99-798C-11D2-AAD1-006008C78BC7}LocationP)   uint16MappingStringsSMBIOS|Type 16|LocationMaxCapacityV6 & .5@ Puint32UnitsKilobytesMappingStringsXSMBIOS|Type 16|Maximum CapacityMemoryDevicesZ)   uint16MappingStringsSMBIOS|Type 16|Number of Memory DevicesMemoryErrorCorrectionT) V ^ nuint16MappingStringsvSMBIOS|Type 16|Memory Error CorrectionTag@ (N    .stringMaxLenOverrideTagMappingStrings6WMIUseR) w  uint16MappingStringsSMBIOS|Type 16|Use icdE)  %MV&muUCIM_ProductabstractLocaleUUID{FAF76B63-798C-11D2-AAD1-006008C78BC7}Caption)  @stringMaxLenDescription  stringIdentifyingNumberA >  F@N ^stringMaxLenMappingStringsfMIF.DMTF|ComponentID|001.4Name A    stringMaxLenMappingStringsMIF.DMTF|ComponentID|001.2SKUNumber) ] e@stringMaxLenVendorA    stringCIM_KeyMaxLenMappingStringsMIF.DMTF|ComponentID|001.1VersionA i  q@y stringMaxLenMappingStringsMIF.DMTF|ComponentID|001.3 $-CIM_Product C E N ^u/Win32_ProductLocaleUUID{CE3324AA-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStringsfMicrosoft.MSIInstallDate "  stringInstallLocation &  stringInstallState6 I Q Xt ~sint16ValueValueMapBad ConfigurationInvalid ArgumentUnknown PackageAdvertisedAbsentInstalledPackageCache ' string! 8> o z #.J1:V]hYd Install# + staticImplementedBLD117ROOT\CIMV2   G*<__PARAMETERSabstractPackageLocationstring ;in ;b ID) b stringOptionsstring in  ID) ~ Cstring AllUsersboolean  in   ID ) 3 boolean __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Admin  staticImplementedBLD117ROOT\CIMV2   *N@__PARAMETERSabstractPackageLocationstring ;in ;b ID) b stringTargetLocationstring in  ID)  JstringOptionsstring in  ID) 8 string __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Advertise staticImplementedBLD117ROOT\CIMV2   G*<__PARAMETERSabstractPackageLocationstring ;in ;b ID) b stringOptionsstring in  ID) ~ Cstring AllUsersboolean  in   ID ) 3 boolean __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Reinstall= ImplementedoBLD117ROOT\CIMV2 % *j__PARAMETERSabstractReinstallModeuint16 9in 9` 12345678910valuemap) 9`  ID6 b`  uint16 __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __UpgradeI ImplementedBLD117ROOT\CIMV2 E  G*__PARAMETERSabstractPackageLocationstring ;in ;b ID) b stringOptionsstring in  ID) ~ Cstring __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Configurew Implemented]BLD117ROOT\CIMV2  I *V__PARAMETERSabstractInstallStateuint16 8in 8_ 123valuemap) 8_  ID6 /_  uint16InstallLeveluint16 Win W~ 123valuemap) W~  ID6 N~  uint16 __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Uninstalls ImplementedpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __%CIM_Setting ) ! )/Wm_oScGT<FNY}UCIM_MonitorResolutionAbstractLocaleUUID{1008CCEC-7BFF-11D2-AAD2-006008C78BC7}HorizontalResolution C   # 3uint32UnitsPixelsModelCorrespondenceCIM_VideoController.CurrentHorizontalResolutionMappingStrings;MIF.DMTF|Monitor Resolutions|002.2MaxRefreshRateC    'uint32UnitsHertzModelCorrespondenceCIM_VideoController.MaxRefreshRateMappingStrings/MIF.DMTF|Monitor Resolutions|002.7MinRefreshRateC     uint32UnitsHertzModelCorrespondenceCIM_VideoController.MinRefreshRateMappingStrings#MIF.DMTF|Monitor Resolutions|002.6RefreshRateC    uint32UnitsHertzModelCorrespondenceCIM_VideoController.CurrentRefreshRateMappingStringsMIF.DMTF|Monitor Resolutions|002.4ScanMode C     "uint16ValueMap12345ModelCorrespondenceCIM_VideoController.CurrentScanModeMappingStrings*MIF.DMTF|Monitor Resolutions|002.5SettingID@A   stringMaxLenOverrideSettingIDVerticalResolutionC 2 :AI ^ uint32UnitsPixelsModelCorrespondencefCIM_VideoController.CurrentVerticalResolutionMappingStringsMIF.DMTF|Monitor Resolutions|002.3 on@\=-CIM_Setting 6 ) 17_ugw[kO_l}UpCIM_VideoControllerResolutionCIMWin32LocaleUUID{1008CCEA-7BFF-11D2-AAD2-006008C78BC7}HorizontalResolution C   + ;uint32UnitsPixelsModelCorrespondenceCIM_VideoController.CurrentHorizontalResolutionMappingStringsCMIF.DMTF|Monitor Resolutions|002.2MaxRefreshRateC    /uint32UnitsHertzModelCorrespondenceCIM_VideoController.MaxRefreshRateMappingStrings7MIF.DMTF|Monitor Resolutions|002.7MinRefreshRateC    #uint32UnitsHertzModelCorrespondenceCIM_VideoController.MinRefreshRateMappingStrings+MIF.DMTF|Monitor Resolutions|002.6NumberOfColors ")   uint64ModelCorrespondenceCIM_VideoController.CurrentNumberOfColorsRefreshRateC D LSZ o uint32UnitsHertzModelCorrespondencewCIM_VideoController.CurrentRefreshRateMappingStringsMIF.DMTF|Monitor Resolutions|002.4ScanMode C 6 > Ho  uint16ValueMap`cfil12345ModelCorrespondenceCIM_VideoController.CurrentScanModeMappingStringsMIF.DMTF|Monitor Resolutions|002.5SettingID@A G OWa stringMaxLenOverrideSettingIDVerticalResolutionC   4 Duint32UnitsPixelsModelCorrespondenceCIM_VideoController.CurrentVerticalResolutionMappingStringsLMIF.DMTF|Monitor Resolutions|002.3 onede'CIM_Setting 6 # +1YhCISbUWin32_BootConfigurationCIMWin32LocaleUUID{8502C4E2-5FBB-11D2-AAC1-006008C78BC7}BootDirectory )   stringMappingStringsWin32API|Process and Thread Functions|GetEnvironmentVariable|WinBootDirConfigurationPath) R Z jstringMappingStringsrWin32API|Process and Thread Functions|GetEnvironmentVariable|WinBootDirLastDrive)   stringMappingStringsWin32API|File Functions|GetDriveTypeNameA    stringMaxLenMappingStringsWMIScratchDirectory)   &stringMappingStrings.Win32API|File Functions|GetTempPathTempDirectory )   stringMappingStringsWin32API|File Functions|GetTempPath tiN)iWin32_COMSetting6 ( 06^e;DZk)DO  w 6 > jx /UUUUU[Win32_ClassicCOMClassSettingCIMWin32LocaleUUID{E5D8A562-F6C0-11d2-B35E-00105A1F8569}AppID)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}[AppID]AutoConvertToClsidF) N V fstringMappingStringsnWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\AutoConvertTo[Default]AutoTreatAsClsidJ)   &stringMappingStrings.Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\AutoTreatAs[Default]ComponentId 4    stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}[Default]Control ") {  booleanMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\ControlDefaultIconN) ( 0 @stringMappingStringsHWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\DefaultIcon[Default]InprocHandler>)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocHandler[Default]InprocHandler32B)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocHandler32[Default]InprocServer .) ` h xstringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocServer[Default]InprocServer322)  % 5stringMappingStrings=Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocServer32[Default]Insertable  )   booleanMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InsertableJavaClass ()   booleanMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocServer32[JavaClass]LocalServer6) E  M  ] stringMappingStringse Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\LocalServer[Default]LocalServer32:)      stringMappingStrings Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\LocalServer32[Default]LongDisplayNameZ)    stringMappingStrings Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\AuxUserType\3[Default]ProgId) u  }  stringMappingStrings Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\ProgID[Default]ShortDisplayNameV) .  6  F stringMappingStringsN Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\AuxUserType\2[Default]ThreadingModel6     2  B stringValueMap & , ApartmentFreeBothMappingStringsJ Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\InprocServer32[ThreadingModel]ToolBoxBitmap32^)    stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\ToolBoxBitmap32[Default]TreatAsClsid *)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\TreatAs[Default]TypeLibraryId $) f n ~stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\TypeLib[Default]Version)   /stringMappingStrings7Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\Version[Default]VersionIndependentProgIdR)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\CLSID\{GUID}\VersionIndependentProgId[Default] \V/Win32_COMSetting6 ( 06 ^e%'EW ftUUWin32_DCOMApplicationSettingCIMWin32LocaleUUID{E5D8A561-F6C0-11d2-B35E-00105A1F8569}AppID 4    stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[Default]AuthenticationLevel6 i q  uint32MappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[AuthenticationLevel]ValueMap  123456CustomSurrogate ) ^ f vstringMappingStrings~Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[DllSurrogate]EnableAtStorageActivation )  ' 7booleanMappingStrings?Win32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[ActivateAtStorage]LocalService $)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[LocalService]RemoteServerName)   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[RemoteServerName]RunAsUser) B J ZstringMappingStringsbWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[RunAs]ServiceParameters ()   stringMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[ServiceParameters]UseSurrogate )   booleanMappingStringsWin32Registry|HKEY_LOCAL_MACHINE\SOFTWARE\Classes\AppID\{GUID}[DllSurrogate] Cl s LCIM_Setting 6  !'O\N_o-2I P [ UUUU7 Win32_DesktopCIMWin32LocaleUUID{8502C4E3-5FBB-11D2-AAC1-006008C78BC7}BorderWidth )   uint32MappingStringsWin32Registry|.DEFAULT\Control Panel\Desktop\WindowMetrics|BorderWidthCoolSwitch ) > G WbooleanMappingStrings_Win32Registry|Control Panel\Desktop|CoolSwitchCursorBlinkRate6   uint32UnitsMillisecondsMappingStringsWin32Registry|Control Panel\Desktop|CursorBlinkRateDragFullWindows )   booleanMappingStringsWin32Registry|Control Panel\Desktop|DragFullWindowsGridGranularity6 A IPZ juint32Units8 PixelsMappingStringsrWin32Registry|Control Panel\Desktop|GridGranularityIconSpacing6   uint32UnitsPixelsMappingStrings'Win32Registry|.DEFAULT\Control Panel\Desktop\WindowMetrics|IconSpacingIconTitleFaceName )   stringMappingStringsWin32Registry|.DEFAULT\Control Panel\Desktop\WindowMetrics|IconFontIconTitleSize $6 q y uint32UnitsPointMappingStringsWin32API|Font and Text Structures|LOGFONTW|lfHeightIconTitleWrap ()  # 3booleanMappingStrings;Win32Registry|.DEFAULT\Control Panel\Desktop\WindowMetrics|IconTitleWrapName *4    stringMappingStringsWMIPattern .) 2 : JstringMappingStringsRWin32Registry|.DEFAULT\Control Panel\Desktop|PatternScreenSaverActive 2)   booleanMappingStringsWin32Registry|.DEFAULT\Control Panel\Desktop|ScreenSaveActiveScreenSaverExecutable4)   stringMappingStringsWin32Registry|.DEFAULT\Control Panel\Desktop|SCRNSAVE.EXEScreenSaverSecure 8) %  .  > booleanMappingStringsF Win32Registry|.DEFAULT\Control Panel\Desktop|ScreenSaverIsSecureScreenSaverTimeout:6      uint32UnitsSecondsMappingStrings Win32Registry|.DEFAULT\Control Panel\Desktop|ScreenSaveTimeOutWallpaper>)    stringMappingStrings Win32Registry|.DEFAULT\Control Panel\Desktop|WallpaperWallpaperStretched D) 5  >  N booleanMappingStringsV Win32Registry|.DEFAULT\Control Panel\Desktop|WallpaperStyleWallpaperTiled B)    booleanMappingStrings Win32Registry|.DEFAULT\Control Panel\Desktop|TileWallpaper to0l P @CIM_Setting A  (2 :@ ht)UaRa { UUE Win32_DisplayConfigurationDEPRECATEDCIMWin32LocaleUUID{8502C4E4-5FBB-11D2-AAC1-006008C78BC7}BitsPerPel 4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|BITSPIXELDeviceNameL     stringDEPRECATEDMaxLenMappingStringsWMIDisplayFlags4     0uint32DEPRECATEDMappingStrings8Win32API|Printing and Print Spooler Structures|DEVMODE|dmDisplayFlags DisplayFrequencyA    uint32DEPRECATEDUnitsHertzMappingStringsWin32API|Device Context Functions|GetDeviceCaps|VREFRESHDitherTypeA    ! +uint32DEPRECATEDMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmDitherTypeValueMapCFILO12345DriverVersion 4    stringDEPRECATEDMappingStringsWin32Registry|System\CurrentControlSet\Services\Class|VerICMIntent $A dl  x  uint32DEPRECATEDMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmICMIntentValueMap123ICMMethod (A QY  e u uint32DEPRECATEDMappingStrings}Win32API|Printing and Print Spooler Structures|DEVMODE|dmICMMethod ValueMap1234LogPixels ,A FN  Zai yuint32DEPRECATEDUnitsPixelsMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmLogPixelsPelsHeight 0A  (  4;C Suint32DEPRECATEDUnitsPixelsMappingStrings[Win32API|Printing and Print Spooler Structures|DEVMODE|dmPelsHeight PelsWidth 4A        . uint32DEPRECATEDUnitsPixelsMappingStrings6 Win32API|Printing and Print Spooler Structures|DEVMODE|dmPelsWidth SpecificationVersion84     uint32DEPRECATEDMappingStrings Win32API|Printing and Print Spooler Structures|DEVMODE|dmSpecVersion OD n <CIM_Setting A&  2< DJ r)6\r5;Yo.UUoWin32_DisplayControllerConfigurationDEPRECATEDCIMWin32LocaleUUID{8502C4E5-5FBB-11D2-AAC1-006008C78BC7}BitsPerPixel 4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|BITSPIXELColorPlanes4 x   uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|PLANESDeviceEntriesInAColorTable4 :B  N ^uint32DEPRECATEDMappingStringsfWin32API|Device Context Functions|GetDeviceCaps|NUMCOLORSDeviceSpecificPens4    uint32DEPRECATEDMappingStrings#Win32API|Device Context Functions|GetDeviceCaps|NUMPENSHorizontalResolutionA    uint32DEPRECATEDUnitsPixelsMappingStringsWin32API|Device Context Functions|GetDeviceCaps|HORZRESName ?     stringDEPRECATEDMappingStringsWMIRefreshRate $A   )07 Gsint32DEPRECATEDUnitsHertzMappingStringsOWin32API|Device Context Functions|GetDeviceCaps|HORZRESVREFRESHReservedSystemPaletteEntries (4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|NUMRESERVEDSystemPaletteEntries ,4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|NUMRESERVEDVerticalResolution 0A }   uint32DEPRECATEDUnitsPixelsMappingStringsWin32API|Device Context Functions|GetDeviceCaps|VERTRESVideoMode 44 >F  R bstringDEPRECATEDMappingStringsjWMI inUdF"CIM_Setting A"  .8 @FnY_UWin32_LogicalMemoryConfigurationDEPRECATEDCIMWin32LocaleUUID{8502C4E6-5FBB-11D2-AAC1-006008C78BC7}AvailableVirtualMemoryA    uint32DEPRECATEDUnitsKilobytesMappingStringsWin32API|Memory Management Structures|MEMORYSTATUSEX|ullAvailVirtualName ?     stringDEPRECATEDMappingStringsWMITotalPageFileSpaceA @H  T[f vuint32DEPRECATEDUnitsKilobytesMappingStrings~Win32API|Memory Management Structures|MEMORYSTATUSEX|ullTotalPageFileTotalPhysicalMemoryA )1  =DO _uint32DEPRECATEDUnitsKilobytesMappingStringsgWin32API|Memory Management Structures|MEMORYSTATUSEX|ullTotalPhysTotalVirtualMemoryA    !(3 Cuint32DEPRECATEDUnitsKilobytesMappingStringsKWin32API|Memory Management Structures|MEMORYSTATUSEX|ullTotalVirtual X|r%Win32_MSIResourceC &= EKs |39kxUWin32_ServiceControlMappingStrings.Microsoft.MSILocaleUUID{E7D29B98-E3D1-11d2-8601-0000F8102E5F}MSIProvArguments  stringEvent  stringID ' +  stringName c stringProductCode'   stringWait  uint16 l+CIM_Setting 6 #- 5;9cy(9Yk kx kw u 6 C   / a l >Eh-E pz,uw=P,Uh(R g m!!;"N""###$$\%p%&)&&&j''UUUUUUUUUUUUUU(Win32_NetworkAdapterConfigurationCIMWin32LocaleUUID{8502C515-5FBB-11D2-AAC1-006008C78BC7}ArpAlwaysSourceRoute L)   booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ArpAlwaysSourceRouteArpUseEtherSNAP N) p y booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ArpUseEtherSNAPDatabasePathF) ( 0 @stringMappingStringsHWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DatabasePathDeadGWDetectEnabled R)   booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnableDeadGWDetectDefaultIPGateway )   stringMappingStringsWin32Registry|System\CurrentControlSet\Services|Parameters|DefaultGatewayDefaultTOSP) P W guint8MappingStringsoWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DefaultTOSDefaultTTLQ)   uint8MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DefaultTTLDHCPEnabled )   booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services|EnableDHCPDHCPLeaseExpirese) U _ odatetimeMappingStringswWin32Registry|SYSTEM\CurrentControlSet\Services|LeaseTerminatesTimeDHCPLeaseObtainede)   datetimeMappingStrings(Win32Registry|SYSTEM\CurrentControlSet\Services|LeaseObtainedTimeDHCPServer)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services|DhcpServerDNSDomain.) L T dstringMappingStringslWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DomainDNSDomainSuffixSearchOrder 0)     stringMappingStrings( Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|SearchListDNSEnabledForWINSResolution 1)    booleanMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnableDNSDNSHostName-) z   stringMappingStrings Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|HostnameDNSServerSearchOrder /) 2  :  J stringMappingStringsR Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NameServerDomainDNSRegistrationEnabled @   booleanForwardBufferMemoryX6 I  Q X _  o uint32UnitsBytesMappingStringsw Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ForwardBufferMemoryFullDNSRegistrationEnabled >   booleanGatewayCostMetric   Y  uint16IGMPLevel\6     uint8ValueMap 012MappingStrings Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|IGMPLevelIndex "4    uint32MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\Class\{4D36E972-E325-11CE-BFC1-08002BE10318}IPAddress &) F N ^stringMappingStringsfWin32Registry|System\CurrentControlSet\Services|Parameters\Tcpip|IPAddressIPConnectionMetricB  uint32IPEnabled :) : C SbooleanMappingStrings[Win32Registry|System\CurrentControlSet\Services|Parameters\TcpipIPFilterSecurityEnabled ))   booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|IPFilterSecurityEnabledIPPortSecurityEnabled (}4    booleanDEPRECATEDMappingStringsWMI|Win32_NetworkAdapterConfiguration|IPFilterSecurityEnabledIPSecPermitIPProtocols ,) |  stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|RawIPAllowedProtocolsIPSecPermitTCPPorts *) @ H XstringMappingStrings`Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TCPAllowedPortsIPSecPermitUDPPorts +)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|UDPAllowedPortsIPSubnet *)   stringMappingStringsWin32Registry|System\CurrentControlSet\Services|Parameters|SubnetMaskIPUseZeroBroadcast J) c l |booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|UseZeroBroadcastIPXAddress .)  " 2stringMappingStrings:Win32API|Windows Sockets Version 2|getsockopt|IPX_ADDRESSIPXEnabled <)   booleanMappingStringsWMIIPXFrameType :6 0 8 H uint32MappingStringsPWin32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters|PktTypeValueMap0123255IPXMediaType;6 " * : uint32MappingStringsBWin32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters|MediaTypeValueMap1238IPXNetworkNumber 9)   stringMappingStrings$Win32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters|NetworkNumberIPXVirtualNetNumber8)   stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters|VirtualNetworkNumberKeepAliveInterval]6   uint32UnitsMillisecondsMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|KeepAliveIntervalKeepAliveTime a6 p x uint32UnitsMillisecondsMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|KeepAliveIntervalMACAddress 2) < D TstringMappingStrings\Win32API|Device Input and Output Functions|DeviceIoControlMTU!e6   uint32UnitsBytesMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|MTUNumForwardPackets"i)   uint32MappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NumForwardPacketsPMTUBHDetectEnabled T) _ h xbooleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnablePMTUBHDetectPMTUDiscoveryEnabled V) " + ;booleanMappingStringsCWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnablePMTUDiscoveryServiceName6)   stringMappingStringsWin32Registry|Software\Microsoft\Windows NT\CurrentVersion\NetworkCards|ServiceNameTcpipNetbiosOptions7   uint32TcpMaxConnectRetransmissions#m)    !uint32MappingStrings!Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpMaxConnectRetransmissionsTcpMaxDataRetransmissions$q) ! ! !uint32MappingStrings!Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpMaxDataRetransmissionsTcpNumConnections%u) " " "uint32MappingStrings"Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpNumConnectionsTcpUseRFC1122UrgentPointer &y) L# U# e#booleanMappingStringsm#Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpUseRFC1122UrgentPointerTcpWindowSize'{6 $ %$,$3$ C$uint16UnitsBytesMappingStringsK$Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpWindowSizeWINSEnableLMHostsLookup 2) $ $ %booleanMappingStrings %Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnableLMHOSTSWINSHostLookupFile5) % % %stringMappingStrings%Win32API|System Information Functions|GetSystemDirectory|\drivers\etc\lmhostsWINSPrimaryServer3) `& h& x&stringMappingStrings&Win32API|Device Input and Output Functions|DeviceIoControlWINSScopeID6) ' ' 'stringMappingStrings 'Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ScopeIDWINSSecondaryServer4) ' ' 'stringMappingStrings'Win32API|Device Input and Output Functions|DeviceIoControl`)s|eIo RV $|La2 @ IV I !!N"^$%%n&(*0** -...13333H566H7';<<,=GI*IFI^KLLmMTVVVVX8XX[\\0]?abbZcyefggiCk\kk1nooOpzrsstvx(xxzD|U||%@zԇH`,:ēZfxˢ?Ufū9W@ʱ`&/'|EnableDHCP( 5 EImplementedMappingStringsMWMIpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __RenewDHCPLease  ImplementedMappingStringsWMIpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __RenewDHCPLeaseAll'   ImplementedStaticMappingStringsWMIpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ReleaseDHCPLease  ImplementedMappingStringsWMIpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ReleaseDHCPLeaseAll'   ImplementedStaticMappingStringsWMIpBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableStatic\  i  y ImplementedMappingStrings WMIKBLD117ROOT\CIMV2   *@E__PARAMETERSabstract IPAddressstring  5In  5\ WMIMappingStrings ) 5\  ID 6 &\  string SubnetMaskstring  LIn  Ls WMIMappingStrings ) Ls  ID 6 =s  string __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetGatewaysr  ImplementedMappingStringsWMIBLD117ROOT\CIMV2   *2__PARAMETERSabstract DefaultIPGatewaystring  <In  <c Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters\Interfaces\MappingStrings ) <c  ID 6 vc  .string GatewayCostMetricuint16  In   Optional '   ?WMIMappingStrings 4   D 7ID A   D 7uint16 __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableDNS'? L T dImplementedStaticMappingStringslWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters BLD117ROOT\CIMV2 M  #J*tU__PARAMETERSabstractDNSHostNamestring 7In 7^ Optional' 7^  Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|HostnameMappingStrings4 7^   IDA ^   pstringDNSDomainstring In  Optional'  = Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DomainMappingStrings4  =  |IDA r =  |string DNSServerSearchOrderstring  In   Optional '   >Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NameServerMappingStrings 4    6ID A 0   6string  DNSDomainSuffixSearchOrderstring   fIn   f Optional  ' f  Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|SearchListMappingStrings  4 f  O ID  A   O string __ __ __ __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSDomain! ! "ImplementedMappingStrings "Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters BLD117ROOT\CIMV2  *&r__PARAMETERSabstractDNSDomainstring 5In 5\ Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DomainMappingStrings) 5\  ID6 j\  "string __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSServerSearchOrder& & $&ImplementedMappingStrings,&Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters1BLD117ROOT\CIMV2  *5__PARAMETERSabstract DNSServerSearchOrderstring  @In  @g Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NameServerMappingStrings ) @g  ID 6 yg  1string __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSSuffixSearchOrder'W* d* l* |*ImplementedStaticMappingStrings*Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersCBLD117ROOT\CIMV2  *;__PARAMETERSabstract DNSDomainSuffixSearchOrderstring  FIn  Fm Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NameServerMappingStrings ) Fm  ID 6 m  7string __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDynamicDNSRegistration. ImplementedBLD117ROOT\CIMV2  *__PARAMETERSabstract FullDNSRegistrationEnabledboolean  FIn  Fn ID ) n boolean DomainDNSRegistrationEnabledboolean  In  8 Optional ' 8 f ID 4 8 f boolean__ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPConnectionMetric&3 ImplementedBLD117ROOT\CIMV2  *__PARAMETERSabstractIPConnectionMetricuint32 >In >e ID) e uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetWINSServer6 6 7ImplementedMappingStrings 7Win32API|Device Input and Output Functions|DeviceIoControlBLD117ROOT\CIMV2   *!x__PARAMETERSabstractWINSPrimaryServerstring =In =d Win32API|Device Input and Output Functions|DeviceIoControlMappingStrings) =d  ID6 ed  stringWINSSecondaryServerstring In  Win32API|Device Input and Output Functions|DeviceIoControlMappingStrings)  - ID6  - tstring __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableWINS'< < < <ImplementedStaticMappingStrings<Win32Registry|SYSTEM\CurrentControlSet\Servicesu BLD117ROOT\CIMV2 +  *< aUj__PARAMETERSabstract DNSEnabledForWINSResolutionboolean  GIn  Go Win32Registry|SYSTEM\CurrentControlSet\Services\Netbt\Parameters|EnableDNSMappingStrings ) Go  ID 6 o  8boolean WINSEnableLMHostsLookupboolean  In   Win32Registry|SYSTEM\CurrentControlSet\Services\Netbt\Parameters|EnableLMHOSTSMappingStrings )  b ID 6  b booleanWINSHostLookupFilestring  In  G optional'  G u Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DatabasePathMappingStrings4  G u  IDA G u  ]stringWINSScopeIDstring In  optional'  , sWin32Registry|SYSTEM\CurrentControlSet\Services\Netbt\Parameters|ScopeIDMappingStrings4  ,  kIDA b ,  kstring __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpipNetbios9I ImplementedBLD117ROOT\CIMV2  *__PARAMETERSabstractTcpipNetbiosOptionsuint32 ?In ?f ID) f uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableIPSecL M MImplementedMappingStrings MWin32Registry|SYSTEM\CurrentControlSet\Services|Tcpip\Parameters\Interfaces#BLD117ROOT\CIMV2   =*D__PARAMETERSabstract IPSecPermitTCPPortsstring  ?In  ?f Win32Registry|SYSTEM\CurrentControlSet\Services|Tcpip\Parameters\Interfaces|TCPAllowedPortsMappingStrings ) ?f  ID 6 f  @string IPSecPermitUDPPortsstring  In   Win32Registry|SYSTEM\CurrentControlSet\Services|Tcpip\Parameters\Interfaces|UDPAllowedPortsMappingStrings )  q ID 6  q string IPSecPermitIPProtocolsstring  2In  2Y Win32Registry|SYSTEM\CurrentControlSet\Services|Tcpip\Parameters\Interfaces|RawIPAllowedProtocolsMappingStrings ) 2Y  ID 6 Y  9string __ __ __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __DisableIPSec2V ?V OVImplementedMappingStringsWVWin32Registry|SYSTEM\CurrentControlSet\Services|Tcpip\Parameters\InterfacespBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPXVirtualNetworkNumber'_X lX tX XImplementedStaticMappingStringsXWin32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters;BLD117ROOT\CIMV2  *A__PARAMETERSabstractIPXVirtualNetNumberstring ?In ?f Win32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters|VirtualNetworkNumberMappingStrings) ?f  ID6 f  =string __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPXFrameTypeNetworkPairs\ \ \ImplementedMappingStrings\Win32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters\Adapters BLD117ROOT\CIMV2   !*@z__PARAMETERSabstract IPXNetworkNumberstring  <In  <c Win32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters\Adapters|NetworkNumberMappingStrings ) <c  ID 6 c  <string IPXFrameTypeuint32  In    Win32Registry|SYSTEM\CurrentControlSet\Services\nwlnkipx\Parameters\Adapters|PktTypeMappingStrings )  _ 0123255ValueMap 6  _  ID C r _  uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDatabasePath'b b c cImplementedStaticMappingStringscWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersBLD117ROOT\CIMV2  */{__PARAMETERSabstractDatabasePathstring 8In 8_ Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DatabasePathMappingStrings) 8_  ID6 s_  +string __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPUseZeroBroadcast'+g 8g @g PgImplementedStaticMappingStringsXgWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters1BLD117ROOT\CIMV2  *:__PARAMETERSabstract IPUseZeroBroadcastboolean  >In  >f Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|UseZeroBroadcastMappingStrings ) >f  ID 6 ~f  6boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetArpAlwaysSourceRoute'k k k kImplementedStaticMappingStringskWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters;BLD117ROOT\CIMV2  *@__PARAMETERSabstract ArpAlwaysSourceRouteboolean  @In  @h Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ArpAlwaysSourceRouteMappingStrings ) @h  ID 6 h  <boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetArpUseEtherSNAP'o o o pImplementedStaticMappingStrings pWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters'BLD117ROOT\CIMV2  *6__PARAMETERSabstract ArpUseEtherSNAPboolean  ;In  ;c Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ArpUseEtherSNAPMappingStrings ) ;c  ID 6 zc  2boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDefaultTOS'$t 1t 9t ItImplementedStaticMappingStringsQtWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersBLD117ROOT\CIMV2  **u__PARAMETERSabstractDefaultTOSuint8 6In 6\ Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DefaultTOSMappingStrings) 6\  ID6 n\  &uint8 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDefaultTTL'Ox \x dx txImplementedStaticMappingStrings|xWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersBLD117ROOT\CIMV2  **u__PARAMETERSabstractDefaultTTLuint8 6In 6\ Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|DefaultTTLMappingStrings) 6\  ID6 n\  &uint8 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDeadGWDetect'|| | | |ImplementedStaticMappingStrings|Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters6BLD117ROOT\CIMV2  *=__PARAMETERSabstract DeadGWDetectEnabledboolean  ?In  ?g Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnableDeadGWDetectMappingStrings ) ?g  ID 6 g  9boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetPMTUBHDetect'р ހ  ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters6BLD117ROOT\CIMV2  *=__PARAMETERSabstract PMTUBHDetectEnabledboolean  ?In  ?g Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnablePMTUBHDetectMappingStrings ) ?g  ID 6 g  9boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetPMTUDiscovery'' 4 < LImplementedStaticMappingStringsTWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters:BLD117ROOT\CIMV2  *?__PARAMETERSabstract PMTUDiscoveryEnabledboolean  @In  @h Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|EnablePMTUDiscoveryMappingStrings ) @h  ID 6 h  ;boolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetForwardBufferMemory'   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersBLD117ROOT\CIMV2  *__PARAMETERSabstractForwardBufferMemoryuint32 ?In ?f BytesUnits) ?f Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|ForwardBufferMemoryMappingStrings6 ?f 7 IDC f 7 uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIGMPLevel' ʏ ҏ ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters BLD117ROOT\CIMV2  *(s__PARAMETERSabstractIGMPLeveluint8 5In 5[ Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|IGMPLevelMappingStrings) 5[  ID6 l[  $uint8 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetKeepAliveInterval'   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersBLD117ROOT\CIMV2 J *__PARAMETERSabstractKeepAliveIntervaluint32 =In =d MillisecondsUnits) =d Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|KeepAliveIntervalMappingStrings6 =d : IDC d : uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetKeepAliveTime'   ęImplementedStaticMappingStrings̙Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParameterssBLD117ROOT\CIMV2 ) *__PARAMETERSabstractKeepAliveTimeuint32 9In 9` MillisecondsUnits) 9` Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|KeepAliveIntervalMappingStrings6 9` 6 IDC ` 6 uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetMTU'( 5 = MImplementedStaticMappingStringsUWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters0BLD117ROOT\CIMV2  *i__PARAMETERSabstractMTUuint32 /In /V Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|MTUMappingStrings) /V  ID6 aV  uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetNumForwardPackets'|   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters/BLD117ROOT\CIMV2  *9__PARAMETERSabstractNumForwardPacketsuint32 =In =d Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|NumForwardPacketsMappingStrings) =d  ID6 }d  5uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpMaxConnectRetransmissions'ڨ   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpMaxConnectRetransmissions[BLD117ROOT\CIMV2  *O__PARAMETERSabstractTcpMaxConnectRetransmissionsuint32 HIn Ho Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpMaxConnectRetransmissionsMappingStrings) Ho  ID6 o  Kuint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpMaxDataRetransmissions'~   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersOBLD117ROOT\CIMV2  *I__PARAMETERSabstractTcpMaxDataRetransmissionsuint32 EIn El Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpMaxDataRetransmissionsMappingStrings) El  ID6 l  Euint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpNumConnections'   ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters/BLD117ROOT\CIMV2  *9__PARAMETERSabstractTcpNumConnectionsuint32 =In =d Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpNumConnectionsMappingStrings) =d  ID6 }d  5uint32 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpUseRFC1122UrgentPointer'M Z b rImplementedStaticMappingStringszWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersSBLD117ROOT\CIMV2  *L__PARAMETERSabstract TcpUseRFC1122UrgentPointerboolean  FIn  Fn Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpUseRFC1122UrgentPointerMappingStrings ) Fn  ID 6 n  Hboolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpWindowSize' ͺ պ ImplementedStaticMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersmBLD117ROOT\CIMV2 # *__PARAMETERSabstractTcpWindowSizeuint16 9In 9` BytesUnits) 9` Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|TcpWindowSizeMappingStrings6 9` + IDC ` + uint16 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableIPFilterSec'N [ c sImplementedStaticMappingStrings{Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\ParametersGBLD117ROOT\CIMV2  *F__PARAMETERSabstract IPFilterSecurityEnabledboolean  CIn  Ck Win32Registry|SYSTEM\CurrentControlSet\Services\Tcpip\Parameters|IPFilterSecurityEnabledMappingStrings ) Ck  ID 6 k  Bboolean __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __32CIM_Setting 6 % -3[k WaIPXb Zfl y  ' G S ScIUJR7EUUUUUUUWin32_NetworkLoginProfileCIMWin32LocaleUUID{8502C4E7-5FBB-11D2-AAC1-006008C78BC7}AccountExpirese )   datetimeMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_acct_expiresAuthorizationFlags) V ^ nuint32MappingStringsvWin32API|Network Management Structures|USER_INFO_3|usri3_auth_flagsBadPasswordCount)   uint32MappingStrings$Win32API|Network Management Functions|NetUserEnumCodePage)   uint32MappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_code_pageComment) < D TstringMappingStrings\Win32API|Network Management Structures|USER_INFO_3|usri3_commentCountryCode )   uint32MappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_country_codeFlags $6    uint32MappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_flagsBitMap 0369<?BFILPT0135681698121311FullName ()   stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_full_nameHomeDirectory ,) C K [stringMappingStringscWin32API|Network Management Structures|USER_INFO_3|usri3_home_dirHomeDirectoryDrive 0)   stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_home_dir_driveLastLogoffe 4)   datetimeMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_last_logoffLastLogone8) G Q adatetimeMappingStringsiWin32API|Network Management Structures|USER_INFO_3|usri3_last_logonLogonHours<6      stringMaxLenMappingStrings& Win32API|Network Management Structures|USER_INFO_3|usri3_logon_hoursLogonServer@)    stringMappingStrings Win32API|Network Management Structures|USER_INFO_3|usri3_logon_serverMaximumStorageD6 k  s z  uint64UnitsBytesMappingStrings Win32API|Network Management Structures|USER_INFO_3|usri3_max_storageNameLA 4   < D  T stringMaxLenMappingStrings\ Win32API|Network Management Structures|USER_INFO_3|usri3_nameNumberOfLogonsP)    uint32MappingStrings Win32API|Network Management Structures|USER_INFO_3|usri3_num_logonsParametersT)    stringMappingStrings Win32API|Network Management Structures|USER_INFO_3|usri3_parmsPasswordAgeeX) .  8  H datetimeMappingStringsP Win32API|Network Management Structures|USER_INFO_3|usri3_password_agePasswordExpirese\)    datetimeMappingStringsWin32API|Network Management Structures|USER_MODALS_INFO_0|usrmod0_max_passwd_agePrimaryGroupId`)   uint32MappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_primary_group_idPrivilegesd) H P `uint32MappingStringshWin32API|Network Management Structures|USER_INFO_3|usri3_privProfileh)   stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_profileScriptPathl)   stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_script_pathUnitsPerWeekp) 7 ? Ouint32MappingStringsWWin32API|Network Management Structures|USER_INFO_3|usri3_units_per_weekUserCommentt)   stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_usr_commentUserIdx)   uint32MappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_user_idUserType|6 9 A Q stringMappingStringsYWin32API|Network Management Structures|USER_INFO_3|usri3_flagsValueMap.Normal AccountDuplicate AccountWorkstation Trust AccountServer Trust AccountInterdomain Trust AccountUnknownWorkstations) |  stringMappingStringsWin32API|Network Management Structures|USER_INFO_3|usri3_workstations srr#CIM_Setting 6 ) 17_k%*OaU Win32_OSRecoveryConfigurationCIMWin32LocaleUUID{8502C4E8-5FBB-11D2-AAC1-006008C78BC7}AutoReboot  4    booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|AutoRebootDebugFilePath4 g  o stringMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|DumpFileKernelDumpOnly 4   ( 8booleanMappingStrings@Win32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|KernelDumpOnlyNameA    stringMaxLenMappingStrings WMIOverwriteExistingDebugFile 4 l  u booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|OverwriteSendAdminAlert 4 &  / ?booleanMappingStringsGWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|SendAlertWriteDebugInfo 4    booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|CrashDumpEnabledWriteToSystemLog 4    booleanMappingStringsWin32Registry|SYSTEM\CurrentControlSet\Control\CrashControl|LogEvent hCX9CIM_Setting 6 ! )/WdCP/5Win32_PageFileSettingCIMWin32LocaleUUID{514A9270-C856-11D2-B364-00105A1f77A1}InitialSizeA    uint32UnitsMegabytesMappingStringsWin32Registry|System\CurrentControlSet\Control\Session Manager\Memory Management|PagingFilesMaximumSizeA    uint32UnitsMegabytesMappingStringsWin32Registry|System\CurrentControlSet\Control\Session Manager\Memory Management|PagingFilesName ?     stringMappingStringsWMI inoolCIM_Setting 6 & .4\h$%1]iCR6L  p v 9 F ]i9D!hr<PUUUUUUUWin32_PrinterConfigurationCIMWin32LocaleUUID{8502C4E9-5FBB-11D2-AAC1-006008C78BC7}BitsPerPel 4    uint32DEPRECATEDMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmBitsPerPelCollate ) [ d tbooleanMappingStrings|Win32API|Printing and Print Spooler Structures|DEVMODE|dmCollateColor6    - =uint32ValueMap'*12MappingStringsEWin32API|Printing and Print Spooler Structures|DEVMODE|dmColorCopies)   uint32MappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmCopiesDeviceName) h p stringMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmDeviceNameDisplayFlags4 %  1 Auint32DEPRECATEDMappingStringsIWin32API|Printing and Print Spooler Structures|DEVMODE|dmDisplayFlags DisplayFrequency "4    uint32DEPRECATEDMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmDisplayFrequency DitherType &6    uint32MappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmDitherTypeValueMap47:=@12345DriverVersion *)   uint32MappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmDriverVersionDuplex .) 0 9 IbooleanMappingStringsQWin32API|Printing and Print Spooler Structures|DEVMODE|dmDuplexFormName 0)   stringMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmFormNameHorizontalResolutionx6   uint32Unitsdots per inchMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPrintQualityICMIntent46 \  d  t  uint32MappingStrings| Win32API|Printing and Print Spooler Structures|DEVMODE|dmICMIntentValueMap 123ICMMethod86 2  :  J  uint32MappingStringsR Win32API|Printing and Print Spooler Structures|DEVMODE|dmICMMethod ValueMap 1234LogPixels<A  #   / 6 >  N uint32DEPRECATEDUnitsPixelsMappingStringsV Win32API|Printing and Print Spooler Structures|DEVMODE|dmLogPixelsMediaType@6     M  W uint32MappingStrings Win32API|Printing and Print Spooler Structures|DEVMODE|dmMediaTypeValueMapg j m 123NameDA      stringMaxLenMappingStrings Win32API|Printing and Print Spooler Structures|PRINTER_INFO_5|pPrinterNameOrientationH6     uint32ValueMap 12MappingStrings Win32API|Printing and Print Spooler Structures|DEVMODE|dmOrientationPaperLengthL6 ] el uint32UnitsTenths of a MillimeterMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPaperLengthPaperSizeP) $ , <stringMappingStringsDWin32API|Printing and Print Spooler Structures|DEVMODE|dmPaperSizePaperWidthT6   uint32UnitsTenths of a MillimeterMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPaperWidth PelsHeightXA    uint32DEPRECATEDUnitsPixelsMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPelsHeight PelsWidth\A    uint32DEPRECATEDUnitsPixelsMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPelsWidth PrintQuality`6 e m } uint32MappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPrintQualityValueMap-1-2-3-4Scaled6 E MT] muint32UnitsPercentMappingStringsuWin32API|Printing and Print Spooler Structures|DEVMODE|dmScaleSpecificationVersionh)   uint32MappingStrings"Win32API|Printing and Print Spooler Structures|DEVMODE|dmSpecVersionTTOptionl6    #uint32MappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmTTOptionValueMap369123VerticalResolution |6   uint32Unitsdots per inchMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmYResolutionXResolutionpA l t  uint32DeprecateUnitsdots per inchMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmPrintQualityYResolutiontA P X cjy uint32DeprecateUnitsdots per inchMappingStringsWin32API|Printing and Print Spooler Structures|DEVMODE|dmYResolution DECIM_Setting A   * 28`k)/?Win32_ProgramGroupDEPRECATEDCIMWin32LocaleUUID{8502C4EA-5FBB-11D2-AAC1-006008C78BC7}GroupName 4    stringDEPRECATEDMappingStringsWin32Registry|Software\Microsoft\Windows\CurrentVersion\Explorer\Shell FoldersNameL     stringDEPRECATEDMaxLenMappingStringsWMIUserName4   " 2stringDEPRECATEDMappingStrings:WMI inhIhCIM_Setting 6 ) 17_v .;gz<LPg( 0 V ^ 0 D ` j # 2 R`}-UUUUUUWin32_SerialPortConfigurationCIMWin32LocaleUUID{8502C4EB-5FBB-11D2-AAC1-006008C78BC7}AbortReadWriteOnError  )   booleanMappingStringsWin32API|Communication Structures|DCB|fAbortOnErrorBaudRate) D L \uint32MappingStringsdWin32API|Communication Structures|DCB|BaudRateBinaryModeEnabled )   booleanMappingStringsWin32API|Communication Structures|DCB|fBinaryBitsPerByte) r z uint32MappingStringsWin32API|Communication Structures|DCB|ByteSizeContinueXMitOnXOff )    &booleanMappingStrings.Win32API|Communication Structures|DCB|fTXContinueOnXoffCTSOutflowControl )   booleanMappingStringsWin32API|Communication Structures|DCB|fOutxCtsFlowDiscardNULLBytes ) O X hbooleanMappingStringspWin32API|Communication Structures|DCB|fNullDSROutflowControl )   booleanMappingStringsWin32API|Communication Structures|DCB|fOutxDsrFlowDSRSensitivity )   booleanMappingStringsWin32API|Communication Structures|DCB|fDsrSensitivityDTRFlowControlType "6 3 ; Eq stringValueMapU]fEnableDisableHandshakeMappingStringsWin32API|Communication Structures|DCB|fDtrControlEOFCharacter &)   uint32MappingStrings!Win32API|Communication Structures|DCB|EofCharErrorReplaceCharacter*)   uint32MappingStringsWin32API|Communication Structures|DCB|ErrorCharErrorReplacementEnabled .) ? H XbooleanMappingStrings`Win32API|Communication Structures|DCB|fErrorCharEventCharacter0)   uint32MappingStringsWin32API|Communication Structures|DCB|EvtCharIsBusy 4) g  p  booleanMappingStrings Win32API|File Functions|CreateFileName6A      ! stringMaxLenMappingStrings) Win32Registry|Hardware\DeviceMap\SerialCommParity:6     stringMappingStrings Win32API|Communication Structures|DCB|ParityValueMap   # ) NoneOddEvenMarkSpaceParityCheckEnabled >) {   booleanMappingStrings Win32API|Communication Structures|DCB|fParityRTSFlowControlType@)     ( stringValueMap< D M X EnableDisableHandshakeToggleStopBitsD6      stringMappingStrings Win32API|Communication Structures|DCB|StopBitsValueMap  11.52XOffCharacterH) i  q  uint32MappingStrings Win32API|Communication Structures|DCB|XoffCharXOffXMitThresholdL)   uint32MappingStrings#Win32API|Communication Structures|DCB|XoffLimXOnCharacterP)   uint32MappingStringsWin32API|Communication Structures|DCB|XonCharXOnXMitThresholdT) / 7 Guint32MappingStringsOWin32API|Communication Structures|DCB|XonLimXOnXOffInFlowControlX)   uint32MappingStringsWin32API|Communication Structures|DCB|fInXXOnXOffOutFlowControl\) d l |uint32MappingStringsWin32API|Communication Structures|DCB|fOutX ucC `CIM_Setting 6  "(PV dw#t /<JGU  ] k   h w FVUUUUUWin32_TimeZoneCIMWin32LocaleUUID{8502C4EC-5FBB-11D2-AAC1-006008C78BC7}Bias 6   sint32UnitsMinutesMappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|BiasDaylightBias6 Q Y`i ysint32UnitsMinutesMappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightBiasDaylightDay)   uint32MappingStrings"Win32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wDayDaylightDayOfWeek)   uint8MappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wDayOfWeekDaylightHour) Z b ruint32MappingStringszWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wHourDaylightMillisecond)    !uint32MappingStrings)Win32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wMillisecondsDaylightMinute !)   uint32MappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wMinuteDaylightMonth %6 s {  uint32MappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wMonthValueMap !$'*-048123456789101112DaylightName )6   stringMaxLenMappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightNameDaylightSecond -) : B Ruint32MappingStringsZWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wSecondDaylightYear 1)   uint32MappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|DaylightDate|wYearStandardBias56   uint32UnitsMinutesMappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|StandardBiasStandardDay9) J  R  b uint32MappingStringsj Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wDayStandardDayOfWeek=)    uint8MappingStrings Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wDayOfWeekStandardHour>)    uint32MappingStrings Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wHourStandardMillisecondB) Q  Y  i uint32MappingStringsq Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wMillisecondsStandardMinuteF)     uint32MappingStrings# Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wMinuteStandardMonthJ6      ) uint32MappingStrings Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wMonthValueMap ] ` c f i l o r u x | 123456789101112StandardNameNA      stringMaxLenMappingStrings Win32API|Time Structures|TIME_ZONE_INFORMATION|StandardNameStandardSecondR)   uint32MappingStringsWin32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wSecondStandardYearV) 7 ? Ouint32MappingStringsWWin32API|Time Structures|TIME_ZONE_INFORMATION|StandardDate|wYear taD%CIM_Setting A  &0 8>f}IZ #x Xe S i   P e 6Mmw9GUUUUUUbWin32_VideoConfigurationDEPRECATEDCIMWin32LocaleUUID{8502C4ED-5FBB-11D2-AAC1-006008C78BC7}ActualColorResolution A    uint32DEPRECATEDUnitsBits Per PixelMappingStringsWin32API|Device Context Functions|GetDeviceCaps|COLORRESAdapterChipType4    stringDEPRECATEDMappingStringsWin32Registry|System\CurrentControlSet\Services\Class\Info|ChipTypeAdapterCompatibilityL }    stringDEPRECATEDMaxLenMappingStringsWMIAdapterDACType4    ,stringDEPRECATEDMappingStrings4Win32Registry|System\CurrentControlSet\Services\Class\Info|DACTypeAdapterDescription4    stringDEPRECATEDMappingStringsWMIAdapterRAM A Zb  nu| uint32DEPRECATEDUnitsBytesMappingStringsWin32Registry|System\CurrentControlSet\Services\Class\Info|VideoMemoryAdapterType $4 +3  ? OstringDEPRECATEDMappingStringsWWin32Registry|HARDWARE\Description\System\DisplayController\0\IdentifierBitsPerPixel (4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|BITSPIXELColorPlanes ,4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|PLANESColorTableEntries 04 `h  t uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|NUMCOLORSDeviceSpecificPens 44 %  1 Auint32DEPRECATEDMappingStringsIWin32API|Device Context Functions|GetDeviceCaps|NUMPENSDriverDatee84    datetimeDEPRECATEDMappingStringsWin32Registry|System\CurrentControlSet\Services\Class\AdapterDescription|DriverDateHorizontalResolution<4     uint32DEPRECATEDMappingStrings Win32API|Device Context Functions|GetDeviceCaps|HORZRESInfFilename@4 _ g   s  stringDEPRECATEDMappingStrings Win32Registry|System\CurrentControlSet\Services\Class|InfPathInfSectionD4    ,  < stringDEPRECATEDMappingStringsD Win32Registry|System\CurrentControlSet\Services\Class|InfSectionInstalledDisplayDriversH4      stringDEPRECATEDMappingStrings Win32Registry|System\CurrentControlSet\Services\Class\Defaule|drvMonitorManufacturerL4     stringDEPRECATEDMappingStrings WMIMonitorTypeP4 ' /   ;  K stringDEPRECATEDMappingStringsS Win32Registry|HARDWARE\Description\System\MonitorPeripheral\0|IdentifierNameTL      )stringDEPRECATEDMaxLenMappingStrings1WMIPixelsPerXLogicalInchX4    uint32DEPRECATEDMappingStringsWin32API|Device Context Functions|GetDeviceCaps|LOGPIXELSXPixelsPerYLogicalInch\4 PX  d tuint32DEPRECATEDMappingStrings|Win32API|Device Context Functions|GetDeviceCaps|LOGPIXELSYRefreshRate`4    +uint32DEPRECATEDMappingStrings3Win32API|Device Context Functions|GetDeviceCaps|VREFRESHScanModed4    stringDEPRECATEDMappingStringsWin32Registry|System\CurrentControlSet\Services|Device0|DefaultSettings.InterlacedScreenHeighthA    uint32DEPRECATEDUnitsMillimetersMappingStringsWin32API|Device Context Functions|GetDeviceCaps|VERTSIZEScreenWidthlA lt   uint32DEPRECATEDUnitsMillimetersMappingStringsWin32API|Device Context Functions|GetDeviceCaps|HORZSIZESystemPaletteEntriesp4 >F  R buint32DEPRECATEDMappingStringsjWin32API|Device Context Functions|GetDeviceCaps|SIZEPALETTEVerticalResolutiont4    !uint32DEPRECATEDMappingStrings)Win32API|Device Context Functions|GetDeviceCaps|VERTRES ev\?kCIM_Setting A  ' /5]x/x&6 2E`n + b < N l|8P%UUUQUWin32_WMISettingSingletonWBEMCORELocaleUUID{A83EF166-CA8D-11d2-B33D-00104BCC4B4A}ASPScriptDefaultNamespace@4    stringMappingStringsWin32Registry|Software\Microsoft\WBEM\scripting|Default NamespaceASPScriptEnabled >4 q  z booleanMappingStringsWin32Registry|Software\Microsoft\WBEM\scripting|Enable for ASPAutorecoverMofs )  " 2stringMappingStrings:Win32Registry|Software\Microsoft\WBEM\CIMOM|Autorecover MOFsAutoStartWin9X4    uint32MappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|AutostartWin9XBackupInterval6A    uint32UnitsMinutesMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|Backup Interval ThresholdBackupLastTimee:4 N  X hdatetimeMappingStringspWin32API|Time Functions|GetTimeZoneInformationBuildVersion)   stringMappingStringsWin32Registry|Software\Microsoft\WBEM|BuildDatabaseDirectory .) |  stringMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|Repository DirectoryDatabaseMaxSize 26 3 ;BM ]uint32UnitsKilobytesMappingStringseWin32Registry|Software\Microsoft\WBEM\CIMOM|Max DB SizeEnableAnonWin9xConnections  4    booleanMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|EnableAnonConnectionsEnableEvents D4    booleanMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|EnableEventsEnableStartupHeapPreallocation ^4 m  v booleanMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|EnableStartupHeapPreallocationHighThresholdOnClientObjectsFA G   O V j  z uint32UnitsObjects per secondMappingStrings Win32Registry|Software\Microsoft\WBEM\CIMOM|High Threshold On Client ObjectsHighThresholdOnEventsRA 6   > E X  h uint32UnitsEvents per secondMappingStringsp Win32Registry|Software\Microsoft\WBEM\CIMOM|High Threshold On EventsInstallationDirectory )     stringMappingStrings$ Win32Registry|Software\Microsoft\WBEM|Installation DirectoryLastStartupHeapPreallocation`6     uint32UnitsBytesMappingStrings Win32Registry|Software\Microsoft\WBEM\CIMOM|LastStartupHeapPreallocationLoggingDirectory *4     stringMappingStrings Win32Registry|Software\Microsoft\WBEM\CIMOM|Logging DirectoryLoggingLevel &4 ?   G  W uint32MappingStrings_ Win32Registry|Software\Microsoft\WBEM\CIMOM|LoggingLowThresholdOnClientObjectsJA   # 3uint32UnitsObjects per secondMappingStrings;Win32Registry|Software\Microsoft\WBEM\CIMOM|Low Threshold On Client ObjectsLowThresholdOnEventsVA    uint32UnitsEvents per secondMappingStrings'Win32Registry|Software\Microsoft\WBEM\CIMOM|Low Threshold On EventsMaxLogFileSize "A    uint32UnitsBytesMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|Log File Max SizeMaxWaitOnClientObjectsNA    uint32UnitsMillisecondsMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|Max Wait On EventsMaxWaitOnEventsZA t  | uint32UnitsMillisecondsMappingStringsWin32Registry|Software\Microsoft\WBEM\CIMOM|Max Wait On EventsMofSelfInstallDirectory) 9 A QstringMappingStringsYWin32Registry|Software\Microsoft\WBEM|MOF Self-Install Directory\\root\cimv2 orH G$CIM_StatisticalInformation) ! )/ Wk7iz6<co}UUCIM_DeviceErrorCountsAbstractLocaleUUID{117FDB8C-D025-11d2-85F5-0000F8102E5F}CriticalErrorCount$)   uint64MappingStringsMIF.DMTF|Operational State|003.7DeviceCreationClassNameA L T` stringPropagatedCIM_LogicalDevice.CreationClassNameMaxLenDeviceIDA   @stringPropagatedCIM_LogicalDevice.DeviceIDMaxLenIndeterminateErrorCount a uint64MajorErrorCount ,)   uint64MappingStringsMIF.DMTF|Operational State|003.8MinorErrorCount 4 . uint64Name@A   stringMaxLenOverrideNameSystemCreationClassName A  'R [stringPropagatedCIM_LogicalDevice.SystemCreationClassNameCIM_KeyMaxLenSystemNameA   stringPropagatedCIM_LogicalDevice.SystemNameCIM_KeyMaxLenWarningCount <) F N ^uint64MappingStringsfMIF.DMTF|Operational State|003.9at.9ResetCounterBLD117ROOT\CIMV2  *__PARAMETERSabstractSelectedCounteruint16 ;IN ;b ID) b uint16 __pBLD117ROOT\CIMV2 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __")  $*Rk4U_CIM_StorageErrorAbstractLocaleUUID{71312AB6-DB31-11d2-85FC-0000F8102E5F}DeviceCreationClassNameA   STRINGMaxLenPropagatedCIM_StorageExtent.CreationClassNameDeviceIDA T  \@dpSTRINGMaxLenPropagatedCIM_StorageExtent.DeviceIDEndingAddress  UINT64StartingAddress'   UINT64SystemCreationClassNameA   STRINGMaxLenPropagatedCIM_StorageExtent.SystemCreationClassNameSystemNameA %  -5ASTRINGMaxLenPropagatedCIM_StorageExtent.SystemName )  %+Sf<DU+CIM_SupportAccessAbstractLocaleUUID{80321714-DB31-11d2-85FC-0000F8102E5F}CommunicationInfo)   STRINGMappingStringsMIF.DMTF|FRU|002.11MIF.DMTF|FRU|002.12CommunicationMode6 B J Zz UINT16MappingStringsbMIF.DMTF|Support|001.5ValueMap12345678Description)   STRINGMappingStrings$MIF.DMTF|Support|001.3Locale 6   @STRINGMappingStringsMIF.DMTF|Support|001.2MaxLenSupportAccessId4   #STRINGMaxLen ati N !I V _ oWin32_ActionCheckLocaleUUID{0D51A84E-DB32-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStringswMicrosoft.MSIActionf'   ref:CIM_ActionCheckf'   ref:CIM_Check i N  H U ^ nWin32_CheckCheckLocaleUUID{2C6811D2-DB32-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStringsvMicrosoft.MSICheckf'   ref:CIM_ActionLocationf'   ref:CIM_Check  A   -7 ?Emz eWin32_ClientApplicationSettingAssociationCIMWin32LocaleUUID{0F73ED5E-8ED9-11d2-B340-00105A1F8569}Applicationf4    ref:Win32_DCOMApplicationMappingStringsWMI|Win32_DCOMApplicationClientf4 T  f vref:CIM_DataFileMappingStrings~CIM|CIM_DataFile r0 A  )3 ;AiueWin32_ComClassAutoEmulatorAssociationCIMWin32LocaleUUID{0F73ED5D-8ED9-11d2-B340-00105A1F8569}NewVersionf4    ref:Win32_ClassicCOMClassMappingStringsWMI|Win32_ClassicCOMClassOldVersionf4 S  n ~ref:Win32_ClassicCOMClassMappingStringsWMI|Win32_ClassicCOMClass , A  %/ 7=eq eWin32_ComClassEmulatorAssociationCIMWin32LocaleUUID{0F73ED5C-8ED9-11d2-B340-00105A1F8569}NewVersionf4    ref:Win32_ClassicCOMClassMappingStringsWMI|Win32_ClassicCOMClassOldVersionf4 O  j zref:Win32_ClassicCOMClassMappingStringsWMI|Win32_ClassicCOMClass 0 A  (2 :@hreWin32_ImplementedCategoryAssociationCIMWin32LocaleUUID{0F73ED5B-8ED9-11d2-B340-00105A1F8569}Categoryf4    ref:Win32_ComponentCategoryMappingStringsWMI|Win32_ComponentCategoryComponentf4 S  n ~ref:Win32_ClassicCOMClassMappingStringsWMI|Win32_ClassicCOMClass , ,Win32_ManagedSystemElementResource$C '-U ^ nsWin32_SoftwareElementResourceLocaleUUID{322CE0F0-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStringsvMicrosoft.MSIElementf4   ref:Win32_SoftwareElementOverrideElementSettingf4 I `j ref:Win32_MSIResourceOverrideSetting ti 8$Win32_MethodParameterClass)  (.VcRhu.0<mKRw " UUU Win32_ProcessStartupAbstractLocaleUUID{8502C4DB-5FBB-11D2-AAC1-006008C78BC7}CreateFlags6    uint32MappingStringsWin32API|Process and Thread Functions|CreateProcess|dwCreationFlagsBitMap8;>ADGJN0123491026EnvironmentVariables )   stringMappingStringsWin32Registry|HKEY_CURRENT_USER\EnvironmentErrorMode 2) . 6 Fuint16MappingStringsNWin32API|Error Functions|SetErrorModeFillAttribute ,)   uint32MappingStringsWin32API|Process and Thread Structures|STARTUPINFO|dwFillAttributePriorityClass6 r z  uint32MappingStringsWin32API|Process and Thread Structures|JOBOBJECT_BASIC_LIMIT_INFORMATION|PriorityClassValueMap")32641282561638432768ShowWindow 0) s { uint16MappingStringsWin32API|Process and Thread Structures|STARTUPINFO|wShowWindowTitle)   )stringMappingStrings1Win32API|Process and Thread Structures|STARTUPINFO|lpTitleWinstationDesktop )   stringMappingStringsWin32API|Process and Thread Structures|STARTUPINFO|lpDesktopX) O W guint32MappingStringsoWin32API|Process and Thread Structures|STARTUPINFO|dwXXCountChars $)   uint32MappingStrings Win32API|Process and Thread Structures|STARTUPINFO|XCountCharsXSize)   uint32MappingStringsWin32API|Process and Thread Structures|STARTUPINFO|dwXSizeY)  ' 7uint32MappingStrings?Win32API|Process and Thread Structures|STARTUPINFO|dwYYCountChars ()   uint32MappingStringsWin32API|Process and Thread Structures|STARTUPINFO|YCountCharsYSize ) Y  a  q uint32MappingStringsy Win32API|Process and Thread Structures|STARTUPINFO|dwYSize  A  ( 06^kUWin32_PnPDeviceAssociationCIMWin32LocaleUUID{FE28FD96-C875-11d2-B352-00104BC97924}SameElementf4    ref:CIM_LogicalDeviceMappingStringsCIM|CIM_LogicalDeviceSystemElementf4 D  Y iref:Win32_PnPEntityMappingStringsqWMI|Win32_PnPEntity MIM N "J W ` p#Win32_ProductCheckLocaleUUID{63ECB33C-DB33-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStringsxMicrosoft.MSICheckf'   ref:CIM_CheckProductf'   ref:Win32_Product  N %M Z c s1Win32_ProductResourceLocaleUUID{6EBF1FC0-DB33-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStrings{Microsoft.MSIProductf'   ref:Win32_ProductResourcef'   ref:Win32_MSIResource i A  $. 6<dp U Win32_ProtocolBindingAssociationCIMWin32LocaleUUID{8502C509-5FBB-11D2-AAC1-006008C78BC7}Antecedentf4    ref:Win32_NetworkProtocolMappingStringsWMI|Win32_NetworkProtocolDependentf) B Z jref:Win32_SystemDriverMappingStringsrWMI|Win32_SystemDriverDevicef4    ref:Win32_NetworkAdapterMappingStringsWMI|Win32_NetworkAdapter  N# +1Y f o Win32_ServiceSpecificationServiceLocaleUUID{ED2ED490-DB33-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStringsMicrosoft.MSICheckf4    ref:Win32_ServiceSpecificationOverrideSettingElementf4 ] pz ref:Win32_ServiceOverrideElement  A "J W a q Win32_SettingCheckLocaleUUID{FCD0E156-DB31-11d2-85FC-0000F8102E5F}AssociationAbstractMappingStringsyMicrosoft.MSICheckf  ref:CIM_CheckSettingf  ref:CIM_Setting i Win32_SettingCheckC /F NT| EWin32_ODBCDataSourceAttributeMappingStrings7Microsoft.MSILocaleUUID{0E5ACD14-DB33-11d2-85FC-0000F8102E5F}MSIProvCheckf@'   ref:Win32_ODBCDataSourceSpecificationSettingf@' &  ref:Win32_ODBCSourceAttribute buea Win32_SettingCheckC +B JPx 7Win32_ODBCDriverAttributeMappingStrings3Microsoft.MSILocaleUUID{2B306494-DB33-11d2-85FC-0000F8102E5F}MSIProvCheckf@'   ref:Win32_ODBCDriverSpecificationSettingf@'   ref:Win32_ODBCAttribute bu Win32_SettingCheckC !8 @Fn w~Win32_PatchFileMappingStrings)Microsoft.MSILocaleUUID{A51D806C-DB32-11d2-85FC-0000F8102E5F}MSIProvCheckf@'   ref:Win32_FileSpecificationSettingf@'   ref:Win32_Patch at A  %/ 7=elewWin32_ShareToDirectoryAssociationCIMWin32LocaleUUID{8502C511-5FBB-11D2-AAC1-006008C78BC7}Sharef4    ref:Win32_ShareMappingStringsWMI|Win32_ShareSharedElementf4 9  L \ref:CIM_DirectoryMappingStringsdCIM|CIM_Directory ( C !I Yp yu+Win32_ShortcutSAPLocaleUUID{08145BE0-DB34-11d2-85FC-0000F8102E5F}MappingStringsaMicrosoft.MSIMSIProvActionf'   ref:Win32_ShortcutActionElementf'   ref:Win32_CommandLineAccess  C %+S \ l)Win32_SoftwareFeatureActionLocaleUUID{3F3B81D4-DB34-11d2-85FC-0000F8102E5F}MSIProvMappingStringstMicrosoft.MSIActionf'   ref:CIM_ActionElementf'   ref:Win32_SoftwareFeature  N $*R _ h x3Win32_SoftwareFeatureCheckLocaleUUID{5016E228-DB34-11d2-85FC-0000F8102E5F}AssociationMSIProvMappingStringsMicrosoft.MSICheckf'   ref:CIM_CheckElementf'   ref:Win32_SoftwareFeature I__ExtendedStatus)%   6J<Win32_PrivilegesStatusDescriptionThe Win32_PrivilegesStatus class reports information about privileges required to complete an operation. It may be returned when an operation failed, or when a partially populated instance has been returned.AMENDMENTLOCALEPrivilegesNotHeld  IQ^stringDescriptionThe PrivilegesNotHeld property indicates required access privileges missing in order to complete an operation. The types ofaccess privileges can be found under the Windows NT Privileges. Example: SE_SHUTDOWN_NAMEPrivilegesRequired  v~stringDescriptionThe PrivilegesRequired property indicates all privileges required to perform an operation. This includes values from the PrivilegesNotHeld property. Example: SE_SHUTDOWN_NAME s __ExtrinsicEvent))= H P[rUWin32_PowerManagementEventDescriptionThe Win32_PowerManagementEvent class represents power management events resulting from power state changes. These state changes are associated with either the Advanced Power Management(APM) or the Advanced Configuration and Power Interface(ACPI) system management protocols.AMENDMENTLOCALEEventType+  uint16DescriptionThe EventType property indicates the type of change in the system power state.Values+@U`Entering SuspendResume from SuspendPower Status ChangeOEM EventResume AutomaticOEMEventCode uint16DescriptionThe OEMEventCode property indicates the system power state defined by the original equipment manufacturer (OEM) when the EventType property of this class is set to "OEM Event", otherwise, this property is set to NULL. OEM events are generated when an APM BIOS signals an APM OEM event. OEM event codes are in the range 0x0200h - 0x02FFh. EM k )     $ - UU CIM_ActionDescription A CIM_Action is an operation that is part of a process to either create a software element in its next state or to eliminate the software element in the current state. AMENDMENTLOCALEActionID)  -stringDescriptionThe ActionID property is a unique identifier assigned to a particular action for a software element. Description stringDescriptionA description of the object.Direction+ EMZY auint16DescriptionThe Direction property indicates whether a particular CIM_Action object is part of a sequence of actions to transition the current software element to its next state, such as "Install" or to remove the current software element, such as "Uninstall".ValuesmvInstallUninstallName stringDescriptionName is used to identify this software elementSoftwareElementID  7?LstringDescription The SoftwareElementID is an identifier for this software element.SoftwareElementState+ : Buint16Description The SoftwareElementState indicates the state of a software element ValuesVbo{DeployableInstallableExecutableRunningTargetOperatingSystem+ J Ruint16DescriptionThe TargetOperatingSystem indicates the target operating system of the owning software element.Values:>GNU^dky $*3:AJU_gnt{   UnknownOtherMACOSATTUNIXDGUXDECNTDigital UnixOpenVMSHPUXAIXMVSOS400OS/2JavaVMMSDOSWIN3xWIN95WIN98WINNTWINCENCR3000NetWareOSFDC/OSReliant UNIXSCO UnixWareSCO OpenServerSequentIRIXSolarisSunOSU6000ASERIESTandemNSKTandemNTBS2000LINUXLynxXENIXVM/ESAInteractive UNIXBSDUNIXFreeBSDNetBSDGNU HurdOS9MACH KernelInfernoQNXEPOCIxWorksVxWorksMiNTBeOSHP MPENextStepPalmPilotRhapsodyVersion Y a n stringDescriptionVersion should be in the form .. or .<Invoke&Description The invoke method is to take a particular action. The details of how the method performs the action is implementation specific. The results of the method are based on the return value. - A 0 (zero) is returned if the condition is satisfied. - A 1 (one) is returned if the method is not supported. - Any other value indicates the condition is not satisfied. wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __stCIM_Action )"  CIM_DirectoryActionDescription The CIM_DirectoryAction is an abstract class that is used for directories to be managed. Creation of directories is handled by CIM_CreateDirectoryAction and removal is handled by CIM_RemoveDirectoryAction. AMENDMENTLOCALE ha#CIM_CreateDirectoryAction)'0 ; CWin32_CreateFolderActionDescriptionThe CreateFolder action creates empty folders for components set to be installed locally. The removal of these folders is handled by the RemoveFolders action. When a folder is created (and didn't already exist), it is registered with the appropriate component id.AMENDMENTLOCALE (aCIM_DirectoryAction)(t  CIM_RemoveDirectoryActionDescription The CIM_RemoveDirectoryAction removes directories for software elements. AMENDMENTLOCALEMustBeEmpty  booleanDescriptionIndicates if the directory must be empty. 4%CIM_Action )!  (5CIM_ExecuteProgramDescription The CIM_ExecuteProgram causes files to be executed on the system where the software element is installed. AMENDMENTLOCALECommandLine STRINGDescriptionA string that can be invoked on a system command line.ProgramPath  aivSTRINGDescriptionThe path to the program. FL0CIM_Action )  CIM_FileActionDescription The CIM_FileAction allows the author to locate files that already exist on the users machine, and move or copy those files to a new location.AMENDMENTLOCALE r 'CIM_FileAction)!  HU0CIM_CopyFileActionDescription The CIM_CopyFileAction specifies files that exist on a computer system, and to move or copy those files to a new location. The to/from information for the copy is specified using either the CIM_ToDirectorySpecification/CIM_FromDirectorySpecification or the CIM_ToDirectoryAction/CIM_FromDirectoryAction associations. The first set is used when the source and/or the target are to exist before any actions are taken. The second set is used when the source and/or target are created as a part of a previous action. In the latter case, the action to create the directory must occur prior to the CIM_CopyFileAction object. AMENDMENTLOCALEDeleteAfterCopy " booleanDescriptionIndicates whether to delete the source file after the copy operation.Destination  stringDescriptionThe fully qualified destination filename.Source  stringDescriptionThe fully qualified source filename. 'CIM_CopyFileAction)( * 2Win32_DuplicateFileActionDescriptionThe DuplicateFileAction allows the author to make one or more duplicate copies of files installed by the InstallFiles executable action, either to a different directory than the original file, or to the same directory, but with a different name.AMENDMENTLOCALE a oT8!CIM_FileAction)#O Z bhCIM_RemoveFileActionDescriptionThe CIM_RemoveFileAction uninstalls files.AMENDMENTLOCALEFile stringDescriptionThe file name. P3!CIM_RemoveFileAction)%  Win32_RemoveFileActionDescriptionThe RemoveFiles action uninstalls files previously installed by the InstallFiles action. Each of these files is 'gated' by a link to an entry in the Component class; only those files whose components are resolved to the iisAbsent Action state, or the iisSource Action state IF the component is currently installed locally, will be removed. The RemoveFiles action can also remove specific author-specified files that weren't installed by the InstallFiles action. Each of these files is 'gated' by a link to an entry in the Component class; those files whose components are resolved to any 'active' Action state (i.e. not in the 'off', or NULL, state) will be removed (if the file exists in the specified directory, of course). This implies that removal of files will be attempted when the gating component is first installed, during a reinstall, and again when the gating component is removed.AMENDMENTLOCALE rsX:CIM_FileAction)#  Win32_MoveFileActionDescriptionThe MoveFiles action allows the author to locate files that already exist on the user's machine, and move or copy those files to a new location.AMENDMENTLOCALE chst0CIM_Action )&y  "",U0CIM_ModifySettingActionDescriptionThis class specifies the information to be used to modify a particular setting file for a specific entry with a specific value. The value specified is created as a new entry or appends to, replaces, removes from, or deletes the specified entry. All additions are assumed to be case sensitive. Removes are assumed to be case insensitive.AMENDMENTLOCALEActionType+  UINT16DescriptionType of action to be performed on the specified setting entry. Create - Creates the specified entry. Delete - Deletes the specified entry. Append - Append to the end of the specified entry. Remove - Remove the value from the specified entry.ValuesCreateDeleteAppendRemoveEntryName  NVcSTRINGDescriptionName of entry to be modified.EntryValue  STRINGDescriptionThis is the value to be used to add, append, or replace to the specified setting.FileName $ X`mSTRINGDescriptionFile name of setting file entry to be modified.SectionKey ( STRINGDescriptionThis is the key of the section of the setting entry to be modified. e CIM_Action )$e p xWin32_BindImageActionDescriptionThe BindImage action binds each executable that needs to be bound to the DLLs imported by it by computing the virtual address of each function that is imported from all DLLs. The computed virtual address is then saved in the importing image's Import Address Table (IAT). The action works on each file installed locally.AMENDMENTLOCALE wy CIM_Action )$a l tWin32_ClassInfoActionDescriptionThe RegisterClassInfo action manages the registration of COM class information with the system. In the Advertise mode the action registers all COM classes for which the corresponding feature is enabled. Else the action registers COM classes for which the corresponding feature is currently selected to be installed.AMENDMENTLOCALE is$!CIM_Action )(  Win32_ExtensionInfoActionDescriptionThe ExtensionInfoAction manages the registration of extension related information with the system. The action registers the extension servers for which the corresponding feature is currently selected to be uninstalled.AMENDMENTLOCALEMIME IQ^stringDescriptionThe MIME type associated with this extension. es,CIM_Action )#  Win32_FontInfoActionDescriptionThe RegisterFonts action registers installed fonts with the system. It maps the Font.FontTitle to the path of the font file installed. The RegisterFonts action is triggered when the Component to which the Font.File_ belongs is selected for install. This implies that fonts can be made private, shared or system by making the Components to which they belong so.AMENDMENTLOCALE heCIM_Action )#q | Win32_MIMEInfoActionDescriptionThe RegisterMIMEInfo action registers the MIME related registry information with the system. In the Advertise mode the action registers all MIME info for servers for which the corresponding feature is enabled. Else the action registers MIME info for servers for which the corresponding feature is currently selected to be installed.AMENDMENTLOCALE is,lx,LL,$$x,||x t$T0 ,CIM_Action )+  Win32_PublishComponentActionDescriptionThe PublishComponents action manages the advertisement of the components that may be faulted in by other products with the system. In the Advertise mode the action publishes the all components for which the corresponding feature is enabled. Else the action publishes components for which the corresponding feature is currently selected to be installed.AMENDMENTLOCALE isie0T0<Win32_RegistryAction,|L-p,LLt $T0L4@!#CIM_Action )#a l t~Win32_RegistryActionDescriptionThe WriteRegistryValues action sets up registry information that the application desires in the system Registry. The registry information is gated by the Component class. A registry value is written to the system registry if the corresponding component has been set to be installed either locally or run from source.AMENDMENTLOCALERegistry stringDescriptionThe registry value name. If the Value column is null, then the following strings in the Name column have special significance. + The key is to be created, if absent upon the installation of the component. - The key is to be deleted, if present, with all its values and subkeys upon the uninstallation of the component. * The key is to be created, if absent upon the installation of the component AND the key is to be deleted, if present, with all its values and subkeys upon the uninstallation of the component.Root    sint16Values/BVi|HKEY_CURRENT_USERHKEY_LOCAL_MACHINEHKEY_CLASSES_ROOTHKEY_CURRENT_USERHKEY_LOCAL_MACHINEHKEY_USERS S_VMS0T08<Win32_RemoveIniAction,t,tt$T0t\CIM_Action )$N Y aWin32_RemoveIniActionDescriptionThe RemoveIniValues action deletes .INI file information that the application desires to delete from .INI files. The deletion of the information is gated by the Component class. A .INI value is deleted if the corresponding component has been set to be installed either locally or run from source.AMENDMENTLOCALE le0T0DWin32_SelfRegModuleAction,xHD,HH $T0H80CIM_Action )(  Win32_SelfRegModuleActionDescriptionThe SelfRegModules action processes all the modules in the SelfReg to register the modules, if installed.AMENDMENTLOCALE to0T0,<Win32_ShortcutActionnd,h8]8,hhdd$T0hPx\)CIM_Action )#  [c1;UWin32_ShortcutActionDescriptionThe CreateShortcuts action manages the creation of shortcuts. In the Advertise mode, the action creates shortcuts to the key files of components of features that are enabled. Advertised shortcuts are those for which the Target property is the feature of the component and the directory of the shortcut is one of the Shell folders or below one. Advertised shortcuts are created with a Microsoft installer technology Descriptor as the target. Non-advertised shortcuts are those for which the Target column in the Shortcut class is a property or the directory of the shortcut is not one of the Shell folders or below one. Advertised shortcuts are created with a Microsoft installer technology Descriptor as the target. In the non-advertise mode (normal install) the action creates shortcuts to the key files of components of features that are selected for install as well as non-advertised shortcuts whose component is selected for install.AMENDMENTLOCALEArguments  -stringDescriptionThe command-line arguments for the shortcut.HotKey  uint16DescriptionThe hotkey for the shortcut. It has the virtual-key code for the key in the low-order byte, and the modifier flags in the high-order byte. Shortcut " go|stringDescriptionThe name of the shortcut to be created.ShowCmd + t |uint16DescriptionThe Show Command specifies the view state of the application window and is similar to the ShowWindow Windows function.ValuesSW_SHOWNORMALSW_SHOWMAXIMIZEDSW_SHOWMINNOACTIVE 0T0@Win32_TypeLibraryAction,7l,$T0P4#CIM_Action )&  @GWin32_TypeLibraryActionDescriptionThe RegisterTypeLibraries action registers type libraries with the system. The action works on each file referenced which is triggered to be installed.AMENDMENTLOCALELanguage uint16DescriptionThe language of the type library.LibID  s{stringDescriptionThe GUID that identifies the library. tr0T08CIM_ActionSequenceny,48$T0@# )!   elCIM_ActionSequenceDescription The CIM_ActionSequence association is used to define a series of operations that either transitions the software element, referenced by the CIM_SoftwareElementActions association, to its next state or removes the software element from its current environment. The CIM_Action classes participating in this association must have the same value for the Direction property since they are either part of a sequence to transition a software element into its next state or to uninstall a software element. The next-state actions and uninstall actions associated with a particular software element must be a continuous sequence. Since the CIM_ActionSequence is an association the loops on the CIM_Action class with roles for the 'prior' action and 'next' action in a sequence, the need for a continuous sequence implies: (1)Within the set of next-state or uninstall actions, there is one and only one action that does not have an instance of the CIM_ActionSequence association referencing it in the 'next' role. This is the first action in the sequence. (2) Within the set of next-state or uninstall actions, there is one and only one action that does not have an instance of the CIM_ActionSequence association referencing it in the "prior" role. This is the last action in the sequence. (3) All other actions within the set of next-state and uninstall actions must participate in two instances of the CIM_ActionSequence association, one in a prior role and one in the next role.AMENDMENTLOCALENextf 6FSref:CIM_ActionDescriptionThe next action.Priorf ref:CIM_ActionDescriptionThe prior action. 8CIM_ActionSequence0T00CIM_ActsAsSpare,d4ll$T04hK )   6=CIM_ActsAsSpareDescriptionThe CIM_ActsAsSpare association indicates which elements can spare or replace the other aggregated elements. The fact that a spare can operate in "hot standby" mode is specified on an element by element basis.AMENDMENTLOCALEGroupf 8LYref:CIM_SpareGroupDescriptionThe Group reference represents the CIM_SpareGroup.HotStandby  BOOLEANDescriptionHotStandby property is a boolean indicating that the spare is operating as a hot standby.Sparef iref:CIM_ManagedSystemElementDescriptionA managed system element acting as a spare and participating in the spare group. n0T0t/p=T=,THq4Win32_BaseService@Win32_DependentService_,<,O$@ (T  $,T0fxgYgT0CIM_ActsAsSpareLWin32_ApplicationCommandLine$T0L,CIM_Card&HCIM_StorageRedundancyGroup_(%Spare8ܷEDM_Ma(T00(Drn,Mb0?hM0T0 (-,4T0 v0T04CIM_AdjacentSlots,`0D2,$T00pS) . 9 AWxUCIM_AdjacentSlotsDescriptionCIM_AdjacentSlots describes the layout of slots on a hosting board or adapter card. Information like the distance between the slots and whether they are 'shared' (if one is populated, then the other slot can not be used), is conveyed as properties of the association.AMENDMENTLOCALEDistanceBetweenSlots real32DescriptionThe distance, in inches, between adjacent slots.SharedSlots    booleanDescriptionSlots can be located in close proximity on hostingboards or other cards, such that if one of these slots is populated by an adapter card, the other slot must be left empty. This relationship is indicated by the SharedSlots boolean set to TRUE.SlotAf AO\ref:CIM_SlotDescriptionOne of the adjacent slots.SlotBf ref:CIM_SlotDescriptionThe 'other' adjacent slot.  t8H`O400V=0a=0  8ص\ms_409:CIM_,Z@CIM_CardOnCardM_Slot,xr/4_0CIM_CardInSlotO  $T0h0@0T001 4$CIM_Check,`0,|1$T00p2) ~  8C!.p UU CIM_CheckDescription A check is a condition or characteristic that is expected to be true in an environment defined or scoped by an instance of a CIM_ComputerSystem. The checks associated with a particular software element are organized into one of two groups using the Phase property of the CIM_SoftwareElementChecks association. Conditions that are expected to be satisfied when a software element is in a particular environment are known as in-state conditions. Conditions that need to be satisfied in order to transition the current software element to its next state are known as next-state conditions A CIM_ComputerSystem object represents the environment in which CIM_SoftwareElement are already installed or in which CIM_SoftwareElement will be installed. For the case in which a software element is already installed, the CIM_InstalledSoftwareElement association is used to identify the CIM_ComputerSystem object that represents the "environment". When a software elements is being distributed and installed on a different computer system, the CIM_ComputerSystem object for the targeted system is the environment.AMENDMENTLOCALECheckID)  stringDescriptionAn identifier used in conjunction with other keys to uniquely identify the checkCheckMode  oxbooleanDescription The CheckMode property is used to indicate whether the condition is expected to exist or not exist in the environment. When the value is True, the condition is expected to exist (e.g., a file is expected to be on a system) so invoke() is expected to return True. When the value is False, the condition is not expect to exist (e.g., a file is not to be on a system) so invoke is expected to return false Description ZbostringDescription A description of the objects.Name stringDescriptionThe name used to identify this software elementSoftwareElementID  FN[stringDescription This is an identifier for this software element.SoftwareElementState+ &  . uint16Description The software element state of a software element ValuesB N [ g DeployableInstallableExecutableRunningTargetOperatingSystem+      uint16Description The target operating system of the this software element.Values:    % + 2 @ I O T Y ` f n u |     & . 5 ; B J \ e n v UnknownOtherMACOSATTUNIXDGUXDECNTDigital UnixOpenVMSHPUXAIXMVSOS400OS/2JavaVMMSDOSWIN3xWIN95WIN98WINNTWINCENCR3000NetWareOSFDC/OSReliant UNIXSCO UnixWareSCO OpenServerSequentIRIXSolarisSunOSU6000ASERIESTandemNSKTandemNTBS2000LINUXLynxXENIXVM/ESAInteractive UNIXBSDUNIXFreeBSDNetBSDGNU HurdOS9MACH KernelInfernoQNXEPOCIxWorksVxWorksMiNTBeOSHP MPENextStepPalmPilotRhapsodyVersion  ( 5 stringDescriptionVersion should be in the form .. or .vRInvoke&Description The invoke method is to evaluate a particular check. The details of how the method evaluates a particular check in a CIM context is described by the non-abstract CIM_Check sub classes. The results of the method are based on the return value. - A 0 (zero) is returned if the condition is satisfied. - A 1 (one) is returned if the method is not supported. - Any other value indicates the condition is not satisfied. wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __0T0L107HCIM_DirectorySpecificationP,007`$T00p1ܤ#CIM_Check ))  (7Wf(CIM_DirectorySpecificationDescription The CIM_DirectorySpecification class captures the major directory structure of a software element. This class is used to organize the files of a software element into manageable units that can be relocated on a computer system. AMENDMENTLOCALEDirectoryPath  ckxstringDescriptionThe DirectoryPath property is used to capture the name of a directory. The value supplied by an application provider is actually a default or recommended path name. The value can be changed for a particular environment.DirectoryType+  uint16Description The DirectoryType property characterizes the type of directory being described. Values\t2Oi !Product base directoryProduct executable directoryProduct library directoryProduct configuration directoryProduct include directoryProduct working directoryProduct log directoryShared base directoryShared executable directoryShared library directoryShared include directorySystem base directorySystem executable directorySystem library directorySystem configuration directorySystem include directorySystem log directoryOther ry0T070LWin32_DirectorySpecification. ,h787L` 1?87$T087 8dE#$CIM_DirectorySpecification)+  Win32_DirectorySpecificationDescriptionThis class represents the directory layout for the product. Each instance of the class represents a directory in both the source image and the destination image. Directory resolution is performed during the CostFinalize action and is done as follows: Root destination directories: Root directories entries are those with a null Directory_Parent value or a Directory_Parent value identical to the Directory value. The value in the Directory property is interpreted as the name of a property defining the location of the destination directory. If the property is defined, the destination directory is resolved to the property's value. If the property is undefined, the ROOTDRIVE property is used instead to resolve the path. Root source directorires: The value of the DefaultDir column for root entries is interpreted as the name of a property defining the source location of this directory. This property must be defined or an error will occur. Non-root destination directories: The Directory value for a non-root directory is also interpreted as the name of a property defining the location of the destination. If the property is defined, the destination directory is resolved to the property's value. If the property is not defined, the destination directory is resolved to a sub-directory beneath the resolved destination directory for the Directory_Parent entry. The DefaultDir value defines the name of the sub-directory. Non-root source directories: The source directory for a non-root directory is resolved to a sub-directory of the resolved source directory for the Directory_Parent entry. Again, the DefaultDir value defines the name of the sub-directory.AMENDMENTLOCALE y. 0T0p@08CIM_DiskSpaceCheck),??h70D,8,T0<z$T0?@0%CIM_Check )!  &:CIM_DiskSpaceCheckDescriptionCIM_DiskSpaceCheck checks the amount of disk space the needs to be available on the system. The amount is specified in the AvailableDiskSpace property. The details of this checks are compared with the value of the AvailableSpace property of the CIM_FileSystem object associated with the CIM_ComputerSystem object that describes the environment. When the value of AvailableSpace property is greater than or equal to the value specified in AvailableDiskSpace, the condition is satisfied. AMENDMENTLOCALEAvailableDiskSpace fn{UINT64DescriptionThe available disk space. 0T0\D0N<CIM_FileSpecification,CC?N$T0CD t 2CIM_Check )$1 < DNBS(.UCIM_FileSpecificationDescription A CIM_FileSpecification identifies a file that is either to be on or off the system. The file is to be located in the directory identified by the CIM_DirectorySpecificationFile associations. When the invoke() method is used, it is expected that it will use the combination of information provided to check for the file existence. Therefore, any of the properties with a NULL value are not checked. So, if only the Name and the MD5 properties have values, they are the only ones consider by the invoke() method. AMENDMENTLOCALECheckSum  zuint32Description The Checksum property is a checksum calculated as the 16-bit sum of the first 32 bytes of the file.CRC1 " (0=uint32Description The CRC1 property is the CRC value calculated using the middle 512K bytes.CRC2 & uint32Description The CRC2 is the CRC value for the middle 512K bytes with a offset modulo 3 to the start of the file of zero.CreateTimeStampe datetimeDescriptionThe creation date and time of the file. MD5Checksum * stringDescription The MD5 algorithm is a well-known algorithm for computing a 128-bit checksum for any file or object. The likelihood of two different files producing the same MD5 checksum is very small (about 1 in 2^64), and as such, the MD5 checksum of a file can be used to construct a reliable content identifier that is very likely to uniquely identify the file. The reverse is also true. If two files have the same MD5 checksum, it is very likely that the files are identical. For purposes of MOF specification of the MD5 property, the MD5 algorithm always generates a 32 character string. For example: The string abcdefghijklmnopqrstuvwxyz generates the string c3fcd3d76192e4007dfb496cca67e13b. See http://www. rsa.com/pub/rfc1321.txt for details on the implementation of the MD5 algorithm.Name@ ZbostringDescription Either the name of the file or the name of the file with a directory prefix. t0T0NC@Win32_FileSpecification,@NN` 0D@VlV$T0NN:CIM_FileSpecification)&  yWWin32_FileSpecificationDescriptionEach instance of this class represents a source file with it's various attributes, ordered by a unique, non-localized identifier. For uncompressed files, the File property is ignored, and the FileName column is used for both the source and destination file name. You must set the 'Uncompressed' bit of the Attributes column for any file that is not compressed in a cabinet.AMENDMENTLOCALEAttributes2 uint16DescriptionInteger containing bit flags representing file attributes (with the decimal value of each bit position in parentheses). See the remarks below for more information: Bit 0: Read Only (1) Bit 1: Hidden (2) Bit 2: System (4) Bit 8: Split (256) - the file is split between two or more compression cabinets Bit 9: Vital (512) - this file is vital for the proper operation of the component to which it belongs Bit 12: Permanent (4096) - the file will not be removed on uninstall Bit 13: Uncompressed (8192) - the file is uncompressed on the source media Bit 14: Patch (16384) (reserved for future use) Bit 15: PatchSourceIgnore (32768) - the file can be ignored during a patch upgrade if it is run-from-sourceLanguage . #+8stringDescriptionList of decimal language Ids, comma-separated if more than one.Sequence4 uint16DescriptionSequence with respect to the media images; order must track cabinet order. 0T0VCHWin32_IniFileSpecification,UUgNY  V8NUl0 I$T0UV2CIM_FileSpecification)) ! )Win32_IniFileSpecificationDescriptionThis class contains the .INI information that the application needs to set in an .INI file. The .INI file information is written out when the corresponding component has been selected to be installed, either locally or run from source.AMENDMENTLOCALE co0T0HY00CIM_MemoryCheck,XX@V]$T0XlY%CIM_Check )A L T`CIM_MemoryCheckDescriptionCIM_MemoryCheck specifies a condition for the minimum amount of memory that needs to be available on a system. The amount is specified in the MemorySize property. The details of this checks are compared with the value of the FreePhysicalMemory property of the CIM_OperatingSystem object referenced by an CIM_InstalledOS association for the CIM_ComputerSystem object that describes the environment. When the value of FreePhysicalMemory property is greater than or equal to the value specified in MemorySize, the condition is satisfied. AMENDMENTLOCALEMemorySize UINT64DescriptionThe amount of memory that needs to exist on a computer system for a software element to executing properly. er0T0]08CIM_OSVersionCheck,H]]Ye$T0]]`C%CIM_Check )!   CIM_OSVersionCheckDescription The CIM_OSVersionCheck class specifies the versions of the OS that can support this software element. This check can be for a specific, minimum, maximum or a range of releases of an OS. To specify a specific version the minimum and maximum versions must be the same. To specify a minimum, the minimum version needs only be specified. To specify a maximum version, the maximum version needs only be specified. To specify a range both minimum and maximum version need to be specified. The type of operating system is specified in the TargetOperatingSystem property of the owning software element. The details of this checks are compared with the corresponding details found in a CIM_OperatingSystem object referenced by CIM_InstalledOS association for the CIM_ComputerSystem object that describes the environment. As long as there is at least one CIM_OperatingSystem that satisfies the details of the condition, the check is satisfied. In other words, all the operating systems on the relevant computer system do not need to satisfy the condition. There needs to be at least one. Also, note the OSType property of the CIM_OperatingSystem class must match the type of the TargetOperatingSystem property. AMENDMENTLOCALEMaximumVersion 7?LSTRINGDescription Maximum version of required operating system. The value is encoded as .. or .MinimumVersion   -STRINGDescription Minimum version of required operating system. The value is encoded as .. or . mi0T0e04CIM_SettingCheck,`e0e0@]j$T00eem0CIM_Check )  <H@LUCIM_SettingCheckDescription This class specifies information needed to check a particular setting file for a specific entry that contains a value that is equal to, or contains, the value specified. All compares are assumed to be case insensitive.AMENDMENTLOCALECheckType+ U]j UINT16DescriptionThis specifies the way the setting value should be compared.ValuesMatchesContainsEntryName  STRINGDescriptionName of the entry to be checkedEntryValue  t|STRINGDescriptionValue to be checked that is associated with the named entry.FileName $ STRINGDescriptionFile name of the setting file to be checked.SectionKey ( xSTRINGDescriptionKey of section containing the settings to be checked. onv0T0k0PCIM_SoftwareElementVersionCheck,jpj@ev$T0pj@k .CIM_Check )!.  3 U$ CIM_SoftwareElementVersionCheckDescription The CIM_SoftwareElementVersionCheck class specifies a type of software element that must exist in the environment. This check can be for a specific, minimum, maximum or a range of versions. To specify a specific version the lower and upper versions must be the same. To specify a minimum the lower version needs only be specified. To specify a maximum version the upper version needs only be specified. To specify a range both upper and lower version need to be specified. The details of this checks are compared with the corresponding details found in a CIM_SoftwareElement object referenced by an CIM_InstalledSoftwareElement association for the CIM_ComputerSystem object. As long as there is at least one CIM_SoftwareElement that satisfies the details of the condition, the check is satisfied. In other words, all the software elements on the relevant computer system do not need to satisfy the condition. There needs to be at least one.AMENDMENTLOCALELowerSoftwareElementVersion <DQSTRINGDescription The minimum version of a software elements being checked.SoftwareElementName  STRINGDescription The name of the software element being checked. SoftwareElementStateDesired "+ lt UINT16Description The state of the software element being checked.ValuesDeployableInstallableExecutableRunningTargetOperatingSystemDesired $+ U]j UINT16Description The target operating system of the software element being checked.Values: ")07@INUcq   $ 1 : ? E N W ] c k u UnknownOtherMACOSATTUNIXDGUXDECNTDigital UnixOpenVMSHPUXAIXMVSOS400OS/2JavaVMMSDOSWIN3xWIN95WIN98WINNTWINCENCR3000NetWareOSFDC/OSReliant UNIXSCO UnixWareSCO OpenServerSequentIRIXSolarisSunOSU6000ASERIESTandemNSKTandemNTBS2000LINUXLynxXENIXVM/ESAInteractive UNIXBSDUNIXFreeBSDNetBSDGNU HurdOS9MACH KernelInfernoQNXEPOCIxWorksVxWorksMiNTBeOSHP MPENextStepPalmPilotRhapsodyUpperSoftwareElementVersion &   STRINGDescription The maximum version of a software elements being checked. Th0T0v08CIM_SwapSpaceCheck,Xv(v,Hj{$T0(vv%CIM_Check )!/ : BQCIM_SwapSpaceCheckDescription The CIM_SwapSpaceCheck class specifies the amount of swap space that needs to be available on the system. The amount is specified in the SwapSpaceSize property. The details of this checks are compared with the corresponding details found in a CIM_OperatingSystem object referenced by CIM_InstalledOS association for the CIM_ComputerSystem object describing the environment. When the value of TotalSwapSpaceSize property is greater than or equal to the value specified in SwapSpacesize, the condition is satisfied. AMENDMENTLOCALESwapSpaceSize }UINT64Description The SwapSpaceSize property specifies the minimum number of Kilobytes of swap space that needs to be available on the target system. ap0T0<{0LCIM_VersionCompatibilityCheck,zzv$T0z`{P2#CIM_Check ),  CIM_VersionCompatibilityCheckDescription The CIM_VersionCompatibilityCheck class specifies whether it is permissible to create the next state of a software element. AMENDMENTLOCALEAllowDownVersion  BOOLEANDescription The AllowDownVersion property indicates that this software element can transition to its next state even if a higher or latter version of the software element already exists in the environment.AllowMultipleVersions  &3BOOLEANDescription The AllowMultipleVersions option controls the ability to configure multiple versions of a product on a system.Reinstall  BOOLEANDescription The Reinstall property indicates that this software element can transition to its next state even if a software element of the same version already exists in the environment. o0T0<00Win32_Condition,q{4$T0`T5CIM_Check )  Win32_ConditionDescriptionThe Condition class can be used to modify the selection state of any entry in the Feature class, based on a conditional expression. If Condition evaluates to True, the corresponding Level value in the Feature class will be set to the value specified in the Condition class's Level column. Using this mechanism, any feature can be permanently disabled (by setting the Level to 0), set to be always installed (by setting the Level to 1), or set to a different install priority (by setting Level to an intermediate value). The Level may be set based upon any conditional statement, such as a test for platform, operating system, a particular property setting, etc.AMENDMENTLOCALE m,s r0T0D@0PWin32_EnvironmentSpecifications ,`p $,00,??܄܄,CC,XX`܄4,]]`,0e0e44,pjpj`,(v(v8,zz,@@dECIM_Check ) -  Win32_EnvironmentSpecificationDescriptionInstances of this class contain information about any environment variables that may need to be registered for their associated products installation.AMENDMENTLOCALE hetip0T0d0<Win32_LaunchCondition,Ї4l,@$T0`CCIM_Check )$  Win32_LaunchConditionDescriptionThe LaunchCondition class is used by the LaunchConditions action. It contains a list of conditions, all of which must be satisfied for the action to succeed.AMENDMENTLOCALE e n0T0Ċ0TWin32_ODBCDataSourceSpecification, ,8Č$T04CIM_Check )#0  Win32_ODBCDataSourceSpecificationDescriptionThis class specifies any Data Sources (DSNs) that need to be registered as part of an installation.AMENDMENTLOCALE re al0T00LWin32_ODBCDriverSpecification,LlĎ,$T0,CIM_Check ),  Win32_ODBCDriverSpecificationDescriptionThis class represents any ODBC drivers that are to be installed as part of a particular product.AMENDMENTLOCALE alel0T00TWin32_ODBCTranslatorSpecification,p@@,@@Č$T0@@<CIM_Check )#0  Win32_ODBCTranslatorSpecificationDescriptionInstances of this class represent any ODBC Translators that are included as part of a products installation.AMENDMENTLOCALE edpt0T0H0DWin32_ProgIDSpecification,|pĎ,||Č($T0|l,CIM_Check )(  Win32_ProgIDSpecificationDescriptionInstances of this class represent and ProgIDs that need to be registered durring a given installation.AMENDMENTLOCALE gi0T0T04Win32_ReserveCost,ȒLX,$T0xhICIM_Check )   Win32_ReserveCostDescriptionThis optional class allows the author to 'reserve' a specified amount of disk space in any directory, depending on the installation state of a component. Reserving cost in this way could be useful for authors who want to ensure that a minimum amount of disk space will be available after the installation is completed. For example, this disk space might be reserved for user documents, or for application files (such as index files) that are created only after the application is launched following installation. The ReserveCost class also allows custom actions to specify an approximate cost for any files, registry entries, or other items, that the custom action might install.AMENDMENTLOCALE t ex0T00HWin32_ServiceSpecification f,<^,(($T0ԗ0CIM_Check ))  Win32_ServiceSpecificationDescriptionInstances of this class represent the services that are to be installed along with an associated package.AMENDMENTLOCALE ll0T0ܙ0PWin32_SoftwareElementConditioner,4X̛,$T0`BCIM_Check ) -  Win32_SoftwareElementConditionDescriptionInstances of this class represent conditional checks that must be evaluated to TRUE before their associated Win32_SoftwareElement can be installed.AMENDMENTLOCALE inp0T0<CIM_CompatibleProduct,`|$T0`xZ )$  gpCIM_CompatibleProductDescriptionCIM_CompatibleProduct is an association between products that can indicate a wide variety of information. For example, it can indicate that the two referenced products interoperate, that they can be installed together, that one can be the physical container for the other, etc. The string property, CompatibilityDescription, defines how the products interoperate or are compatible, any limitations regarding interoperability or installation, ...AMENDMENTLOCALECompatibilityDescription <DQSTRINGDescriptionCompatibilityDescription is a free-form string defining how the two referenced products interoperate or are compatible, any limitations to compatibility, etc.CompatibleProductf 0ANref:CIM_ProductDescriptionThe compatible product.Productf ref:CIM_ProductDescriptionThe product for which compatible offerings are defined. L<CIM_CompatibleProduct4T0x<(`  @8,Vp,D^CIM_$T0<0T0,@CIM_ProductFRU$Dbz@CIM_FRUIncludesProduct2  (`p0T0x,CIM_Component,lG̛L$T04  )y  )CIM_ComponentDescriptionA generic association to establish 'part of' relationships between managed system elements.AMENDMENTLOCALEGroupComponentf ref:CIM_ManagedSystemElementDescriptionThe parent element in the associationPartComponentf Usref:CIM_ManagedSystemElementDescriptionThe child element in the association rnV0T0(T0T(^$T030T038X<NdisMaximumFrameSize4p ular che0CIM_DependencyO<CIM_SystemComponentt0T0@CIM_CollectionOfSensors, ܦI$T0ܦD% CIM_Component)&   /CIM_CollectionOfSensorsDescriptionThe CIM_CollectionOfSensors association indicates the binary sensors that make up the multi-state sensor.AMENDMENTLOCALEGroupComponentf@ ref:CIM_MultiStateSensorDescriptionThe multi-state sensor.PartComponentf@ [q~ref:CIM_BinarySensorDescriptionA binary sensor that is part of the multi-state sensor. omb$T0ثT'4T0ثe ,#<CIM_PackageTempSensor@Win32_TemperatureProbel $T0 (0T0|+L, \@CIM_CollectionOfSensors0T0p<CIM_TemperatureSensor,ث,lD(H0T0HH؀4CIM_CurrentSensor,Ԭ`W$T0#lz,$0T0| 4CIM_NumericSensor0T0,CIM_Container,d4LX,0I0ItKt,T00IK 0$T048 CIM_Component)  ?CIM_ContainerDescriptionThe CIM_Container association represents the relationship between a contained and a containing physical element. A containing object must be a physical package.AMENDMENTLOCALEGroupComponentf@  &3ref:CIM_PhysicalPackageDescriptionThe physical package that contains other physical elements, including other packages.LocationWithinContainer stringDescriptionA free-form string representing the positioning of the physical element within the physical package. This string could supplement or be used in place of instantiating the CIM_Location object.PartComponentf@ ref:CIM_PhysicalElementDescriptionThe physical element which is contained in the package. ean$CIM_Rack,T?8Լ,ؠl$T0t )*c n v ujCIM_ProductPhysicalElementsDescriptionIndicates the physical elements that make up a product.AMENDMENTLOCALEComponentf ref:CIM_PhysicalElementDescriptionThe physical element which is a part of the product.Productf >O\ref:CIM_ProductDescriptionThe product. <CIM_PackageInChassisMHCIM_ProductSoftwareFeatures8CIM_ProductSupportn0tD$G4CIM_PackageAlarmT8CIM_PackageCooling0T040CIM_CardOnCard,($T0ķCIM_Container)  juPCIM_CardOnCardDescriptionCards may be plugged into motherboards/baseboards, are daughtercards of an adapter, or support special card-like modules. These relationships are described by the CIM_CardOnCard association.AMENDMENTLOCALEGroupComponentf@ ,:Gref:CIM_CardDescriptionThe card that hosts another card.MountOrSlotDescription  stringDescriptionA string describing and identifying how the card is mounted on or plugged into the 'other' card. slot information could be included in this field and may be sufficient for certain management purposes. If so, this avoids creating instantiations of connector/slot objects just to model the relationship of cards to hosting boards or other adapters. On the other hand, if slot and connector information is available, this field could be used to provide more detailed mounting or slot insertion data.PartComponentf@  ref:CIM_CardDescriptionThe card that is plugged into or otherwise mounted on another card. te$T0|0T0th(CIM_Chassis,ԼT$T0Լԇ  Խ@lp,S,Ľ`?4CIM_MemoryOnCardT<T0tpCardEn0T0l44CIM_ChassisInRack,X  484X$T0CIM_Container)  ' /8L\uLCIM_ChassisInRackDescriptionRacks, as simple enclosures, contain chassis that provide the physical components realizing processing nodes, storage devices, UPSs, etc. The CIM_ChassisInRack association makes explicit the 'containing' relationship between the rack and the chassis.AMENDMENTLOCALEBottomU  dlyuint16DescriptionAn integer indicating the lowest or 'bottom' U in which the chassis is mounted. A 'U' is a standard unit of measure for the height of a rack or rack-mountable component. It is equal to 1.75 inches or 4.445 cm.GroupComponentf@ ref:CIM_RackDescriptionThe rack that contains the chassis.PartComponentf@ !ref:CIM_ChassisDescriptionThe chassis which is mounted in the rack. moDWin32_PhysicalMemoryArray n"CIM_Product )*  Win32_ComputerSystemProductDescriptionThe Win32_ComputerSystemProduct class represents a product. This includes software and hardware used on this computer system.AMENDMENTLOCALEUUID StringDescriptionThe UUID property contains the Universally Unique Identifier (UUID) for this product. A UUID is a 128-bit identifier that is guaranteed to be different from other generated UUIDs. If a UUID is not available, a UUID of all zeros is used. IDHCIM_ProductPhysicalElementsHCIM_ProductPhysicalElements0T0V0T04@CIM_ConnectorOnPackage,d4m0$T04r CIM_Container)%  CIM_ConnectorOnPackageDescriptionPhysical packages contain connectors as well as other physical elements. The CIM_ConnectorOnPackage association makes explicit the containment relationship between connectors and packages.AMENDMENTLOCALEGroupComponentf@ 2KXref:CIM_PhysicalPackageDescriptionThe physical package that has a connector.PartComponentf@ ref:CIM_PhysicalConnectorDescriptionThe physical connector. p2_< )%  HPCIM_ProductParentChildDescriptionThe CIM_ProductParentChild association defines a parent child hierarchy among products. For example, a product may come bundled with other products. AMENDMENTLOCALEChildf !ref:CIM_ProductDescriptionThe child product in the association.Parentf |ref:CIM_ProductDescriptionThe parent product in the association. ,CIM_Container4CIM_PackageInSlot<CIM_PackageTempSensor8CIM_ProductSupport  8,NPUTER\ROOT\CIMV2<CIM_ToDirectoryAction0T04<CIM_PackagedComponent,X`Wp$T0X CIM_Container)$  xCIM_PackagedComponentDescriptionA component is typically contained by a physical package, such as a chassis or card. The CIM_PackagedComponent association makes this relationship explicit. In the first sentence, the word, 'typically', is used. This is because a component may be removed from, or not yet inserted into, its containing package (i.e., the Removable boolean property is TRUE). Therefore, a component may not always be associated with a container.AMENDMENTLOCALEGroupComponentf@  9Fref:CIM_PhysicalPackageDescriptionThe physical package that contains component(s).PartComponentf@ ref:CIM_PhysicalComponentDescriptionThe physical component which is contained in the package. in )Z e mre?CIM_ProductFRUDescriptionCIM_ProductFRU is an association between product and FRU that provides information regarding what product components have been or are being replaced. The association is one to many, conveying that a product can have many FRUs, and that a particular instance of a FRU is only applied to one (instance of a) product.AMENDMENTLOCALEFRUf ref:CIM_FRUDescriptionThe FRU.Productf ref:CIM_ProductDescriptionThe product to which the FRU is applied. l8CIM_ReplacementSet,pԺ($T0ԺL0T00T0X4CIM_MemoryOnCard,tDkD$T0DtU CIM_PackagedComponent)  HWCIM_MemoryOnCardDescriptionPhysical memory can be located on hosting boards, adapter cards, etc. This association explicitly defines this relationship of memory to cards.AMENDMENTLOCALEGroupComponentf@  ref:CIM_CardDescriptionThe card that includes or 'contains' memory.PartComponentf@ ref:CIM_PhysicalMemoryDescriptionThe physical memory which is located on the card. alinCIM_Card )  otWin32_BaseBoardDescriptionThe Win32_BaseBoard class represents a base board (also known as a motherboard or system board).AMENDMENTLOCALEConfigOptions b stringDescriptionThe ConfigOptions property contains strings that describe the configuration of the jumpers and switches located on the base board. Examples: JP2: 1-2 Cache Size is 256K, 2-3 Cache Size is 512K, SW1-1: Close to Disable On Board VideoProduct^  stringDescriptionThe Product property indicates the base board part number defined by the manufacturer.Tag@ ()  stringDescriptionThe Tag property uniquely identifies the base board of the system. Example: Base Board 0T0XLWin32_PhysicalMemoryLocationAn,PVD  d8DtecedentDependentf@$T0 CIM_PackagedComponent)+  gWin32_PhysicalMemoryLocationDescriptionThe Win32_PhysicalMemoryLocation class represents an association between an array of physical memory and its physical memory.AMENDMENTLOCALEGroupComponentf@) #0 ref:Win32_PhysicalMemoryArrayDescriptionThe GroupComponent reference represents the physical memory array that contains the physical memory.PartComponentf@)  ref:Win32_PhysicalMemoryDescriptionThe PartComponent reference represents the physical memory contained in the physical memory array. co0CIM_ProductFRU0CIM_ProductFRU0T0@CIM_ProductParentChild,P P$T0 @CIM_ProductParentChild0T0,,` =,@DWin32_MemoryArrayLocation )$z  6;CIM_ParticipatesInSetDescriptionCIM_ParticipatesInSet indicates which physical elements should be replaced together.AMENDMENTLOCALEElementf ref:CIM_PhysicalElementDescriptionThe physical element which should be replaced with other elements, as a set.Setf gref:CIM_ReplacementSetDescriptionThe CIM_ReplacementSet. ,p@ |0T0<CIM_ParticipatesInSet$T04xw0T0p4<CIM_PackageInChassis,$T0|_ CIM_Container)#  SbCIM_PackageInChassisDescriptionA chassis can contain other packages, such as other chassis and cards. The CIM_PackageInChassis association makes explicit this relationship.AMENDMENTLOCALEGroupComponentf@ ref:CIM_ChassisDescriptionThe chassis that contains other physical packages.PartComponentf@ ref:CIM_PhysicalPackageDescriptionThe physical package which is contained in the chassis. in,<CIM_ChassisInRack4CIM_ChassisInRack(CIM_Dockeds  88PUTER\ROOT\CIM<CIM_PackageInChassissl0T00(T0̙ag0T0Լ<Win32_SystemEnclosure,,4$T0ď0T0  `0T0DCIM_DirectoryContainsFile,@D$$T0H* CIM_Component)(  0?CIM_DirectoryContainsFileDescriptionThe CIM_DirectoryContainsFile class represents an association between a directory and files contained within that directory.AMENDMENTLOCALEGroupComponentf@)   ref:CIM_DirectoryDescriptionThe directory.PartComponentf@) v ref:CIM_DataFileDescriptionFiles contained within the directory. PDCIM_DirectoryContainsFile,l<x$T0<H,\ܢ 0T0ZLD$y~u<RegistryEventProvider,`H"#\v  (8iPG\ms_409:CIM_@Win32_WMIElementSetting8`MXM_@Win32_SystemDriver$CIM_Mount0T0(0Win32_DirectoryDNdisNotifyAdapterArrival,T d!!8D"(CIM_ExportE  p88(T[yContainsFil<0T0P0CIM_FileStorage,T^h$T0t  CIM_Component)z   CIM_FileStorageDescriptionA link between the file system and the logical file(s) addressed through this file system.AMENDMENTLOCALEGroupComponentf@ ref:CIM_FileSystemDescriptionThe file system.PartComponentf@ 7LYref:CIM_LogicalFileDescriptionThe logical file stored in the context of the file system. s$h&jѿPWDMClassesOfDriverMS_WmiInternalC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]$(UMSWmi_MofDataC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208,<O3U,(x#@D0CIM_FileStorage8t^MCOMPUTER\ROOT$T0^x0p!8NdisHardwareStatus$Hr $T0t0  8\XWdwDpL<^^7<^xcalFile,|0T0t(,tH,^t0T0<CIM_LinkHasConnector,,gP$$T0xY CIM_Component)#  o~CIM_LinkHasConnectorDescriptionCables and links utilize physical connectors to actually 'connect' physical elements. This association explicitly defines this relationship of connectors for CIM_PhysicalLink.AMENDMENTLOCALEGroupComponentf@ #9Fref:CIM_PhysicalLinkDescriptionThe physical link that has a connector.PartComponentf@ ref:CIM_PhysicalConnectorDescriptionThe physical connector. 8\8CIM_ElementsLinked0    )4?CIM_SettingAMENDMENTLOCALECaption U]jstringDescriptionA short textual description (one-line string) of the CIM_Setting object.Description stringDescriptionA textual description of the CIM_Setting object.SettingID ksstringDescriptionThe identifier by which the CIM_Setting object is known. ))  Win32_MethodParameterClassDescriptionThe Win32_MethodParameter class is a base class forimplementation of method parameters derived from this class.AMENDMENTLOCALE t configu0T0X\8CIM_PhysicalPackage,h0T0XCIM_OperatingSystemSoftwareFeaturem ,\h $T0\4`C CIM_Component)$1  :ICIM_OperatingSystemSoftwareFeatureDescriptionIndicates the software features that make up the operating system. The software features can be part of different products.AMENDMENTLOCALEGroupComponentf@ #ref:CIM_OperatingSystemDescriptionThe operating system.PartComponentf@ uref:CIM_SoftwareFeatureDescriptionThe software features that make up the operating system. tLCIM_InstalledSoftwareElementsX; MSPowerabstract Po<MSPower_DeviceEnable\,80ts`ss$0tD0s!DMSPower_DeviceWakeEnableaؼ FV9CIM_RedundancyComponentDescriptionThe CIM_RedundancyComponent class associates a redundancy group composed of managed system elements and indicates that these elements, taken together, provide redundancy. All elements aggregated in a redundancy group should be instantiations of the same object class.AMENDMENTLOCALEGroupComponentf@ ref:CIM_RedundancyGroupDescriptionThe CIM_RedundancyComponent association indicates that 'this set of fans' or 'these physical extents' participate in a single redundancy group. .v@CIM_RedundancyComponent0T0(@CIM_ExtraCapacityGroupE,($Ga4`$T0 J0T0(0CIM_SpareGroup0,h  8M_Re$T0w80=OEMCOMPUTER\ROXWin32_LoadOrderGroupServiceMembers0T0L0,LPT'$T0Z (x0T0  TCIM_AggregateRedundancyComponent) ,` 0 0)\)$T00  !P2 !CIM_RedundancyComponent)"/w  !CIM_AggregateRedundancyComponentDescriptionDescribes the aggregate physical extent in a storage redundancy group.AMENDMENTLOCALEGroupComponentf@ ref:CIM_StorageRedundancyGroupDescriptionThe storage redundancy group.PartComponentf@ Mgtref:CIM_AggregatePExtentDescriptionThe aggregate physical extent participating in the redundancy group. dapE)CIM_Service )  CIM_BootServiceDescriptionCIM_BootService represents the functionality provided by a device, software or via a network to load an operating system on a unitary computer system.AMENDMENTLOCALE ty4$$y,<0yDD- @RegistryTreeChangeEvent$  d%  %8 )IMV2\ms_409:CIM_ &LCIM_ClusterServiceAccessBySAP0T0&/8'DWin32_ApplicationService,&X&\,T'$T0X&'("(,LkT&0CIM_ConnectedTo<CIM_LinkHasConnector$//PCIM_PExtentRedundancyComponent:  t(<(-nentct(0T0) PCIM_PExtentRedundancyComponent,((4P ,1  |)80 (ription The invoke method is t$T0()H) !CIM_RedundancyComponent) -z  $CIM_PExtentRedundancyComponentDescriptionDescribes the physical extents participating in a storage redundancy group.AMENDMENTLOCALEGroupComponentf@ ref:CIM_StorageRedundancyGroupDescriptionThe storage redundancy group.PartComponentf@ Phuref:CIM_PhysicalExtentDescriptionThe physical extent participating in the redundancy group. daeci<CIM_ClusteringService, ,;$70T0$90HCIM_BIOSFeatureBIOSElements,8d8$R̵,1@A$T0d8H98 -CIM_SoftwareFeatureSoftwareElements%)*i t |CIM_BIOSFeatureBIOSElementsDescriptionA link between BIOS feature and its aggregated BIOS elements.AMENDMENTLOCALEGroupComponentf@ ref:CIM_BIOSFeatureDescriptionThe BIOS feature.PartComponentf@ (=Jref:CIM_BIOSElementDescriptionThe BIOS element that implements the capabilities described by BIOS feature. IOHCIM_BIOSFeatureBIOSElements,8587DG\;$T0P<XA7$Win32_SystemMemoryResource)(  Win32_DeviceMemoryAddressDescriptionThe Win32_DeviceMemoryAddress class represents a device memory address on a Win32 system. Example: ScsiPort0 device memory address.AMENDMENTLOCALEMemoryType 0+   stringDescriptionThe MemoryType property indicates the characteristics of the memory resource on the Win32 system. Example: ReadWrite.ValuesReadWriteReadOnlyWriteOnlyPrefetchableStartingAddress@ ) #+8 uint64DescriptionThe StartingAddress property contains the starting address of memory mapped I/O. The hardware resource identifier property should be set to this value to construct the mapped I/O resource key. rt0T0XA0\CIM_VideoBIOSFeatureVideoBIOSElements,x@H@Ix8I   A8d8H@)$ $T0H@|AlN -CIM_SoftwareFeatureSoftwareElements%)'4  CIM_VideoBIOSFeatureVideoBIOSElementsDescriptionA link between video BIOS feature and its aggregated video BIOS elements.AMENDMENTLOCALEGroupComponentf@ ref:CIM_VideoBIOSFeatureDescriptionThe video BIOS feature.PartComponentf@ Icpref:CIM_VideoBIOSElementDescriptionThe video BIOS element that implements the capabilities described by video BIOS feature. IOpalh&jѿIWDMClassesOfDriverMSPowerC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]#\CIM_VideoBIOSFeatureVideoBIOSElements|N MSPower N  $1n|MSPower_DeviceEnableWMIProvWMIDescriptionThe control sets whether the device should dynamically power on and off while the system is working.guid827c0a6f-feb0-11d0-bd26-00aa00b7b32alocaleMS\0x409Active   booleanEnable 4 Zc  booleanWmiDataIdInstanceName'   string ow,&0T0G <Win32_SoftwareFeature$T0DGȹ0T0H3ĕ(CIM_System_,HG5H,GG4m>d$T0GH8=, D|TD|h @ |H0T0Q8CIM_SystemComponent,`I0I@Q$KI%,ܦܦJ,44I@JI@J,JlJ,JJ@JJ,lJJ,\\JJJJ,  JK,ttlJtJHK,  KtK,00HKHKD% CIM_Component)"  -CIM_SystemComponentDescriptionA special association to establish 'part of' relationships between a system and managed system elements.AMENDMENTLOCALEGroupComponentf@ ref:CIM_SystemDescriptionThe parent system in the associationPartComponentf@ Ywref:CIM_ManagedSystemElementDescriptionThe child element that is a component of a system {,h&jѿXWDMClassesOfDriverMSWmi_PnPInstanceNamesC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]MS_SmBiosC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208nh&jѿKWDMClassesOfDriverMS_SmBiosC:\WINDOWS\SYSTEM\wmicore.dll[MofResource], tHdQQO,6OOd,(H74CIM_SystemDeviceTMSWmi_PnPInstanceNamesC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]2934820242135982080ԖO0T0 R0I\CIM_ApplicationSystemSoftwareFeature,hQ8Q4,BIlY $T08Q0R CIM_SystemComponent)&3   'CIM_ApplicationSystemSoftwareFeatureDescription The CIM_ApplicationSystemSoftwareFeature associations identifies the software features that make up a particular application system. The software features can be part of different products. AMENDMENTLOCALEGroupComponentf@ E`mref:CIM_ApplicationSystemDescriptionThe parent system in the associationPartComponentf@ ref:CIM_SoftwareFeatureDescriptionThe child element that is a component of a system olU<LVS"$WnSystem,ؠd\CIM_ApplicationSystemSoftwareFeatureEr#h&jѿOWDMClassesOfDriverMSWmi_MofDataC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]MSWmi_ProviderInfoC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208$( < WU3nSystem,A x0T0LXGp8CIM_ComputerSystemt  X8WW$T0WpX X XHYah nH|Hgm@X0T0Y0IaHCIM_ComputerSystemResource,$YX*Qa,DD,T0D$T0XZ$ CIM_SystemComponent))}  CIM_ComputerSystemResourceDescriptionAn association between a computer system and the system resources available on it.AMENDMENTLOCALEGroupComponentf@ ref:CIM_ComputerSystemDescriptionThe computer system.PartComponentf@ BZgref:CIM_SystemResourceDescriptionA system resource of the computer system. utT\HCIM_ComputerSystemMappedIO0T0\]Pkd_HWin32_SystemMemoryResourceE,\\x!k8_\$T0\]D&3CIM_MemoryMappedIO))  Win32_SystemMemoryResourceDescriptionThe Win32_SystemMemoryResource class represents a system memory resource on a Win32 system.AMENDMENTLOCALE Wie0T0_\DWin32_DeviceMemoryAddress,^^] `8`$T0^l<0T0X`\8Win32_PortResource,__\8_`p  c(T0_d8H@Win32_AllocatedResource$tL <@@ `t`0T0aX<CIM_ComputerSystemDMA,Pa aglYg(h$T0 aav $CIM_ComputerSystemResource)$t  CIM_ComputerSystemDMADescriptionAn association between a computer system and the DMA channels available on it.AMENDMENTLOCALEPartComponentf@ ref:CIM_DMADescriptionA DMA channel of the computer system. ipnt8^_c8\ age.<CIM_ComputerSystemDMA8$fPkomputerSystem$T0$f%|dh CIM_LogicalElement)~  Win32_COMClassDescriptionThe Win32_COMClass class represents the properties of a Component Object Model (COM) component.AMENDMENTLOCALE of,\T\P"T$T0fq0T0Xdk(j CIM_IRQ,Tf$fj0  dfM_DMA,T0xrr0T0f4Win32_DMAChanneltf[H0T0hX<CIM_ComputerSystemIRQ,ggam  Hh8 ag|ms $T0ghg $CIM_ComputerSystemResource)$l w CIM_ComputerSystemIRQDescriptionAn association between a computer system and the IRQs available on it.AMENDMENTLOCALEPartComponentf@ ref:CIM_IRQDescriptionAn IRQ of the computer system. #Dj<CIM_ComputerSystemIRQ0T0,k$f4Win32_IRQResource,jjtfkj$T0j-0T0k@]8\8CIM_MemoryMappedIOp,kPkj]$T0Pk43l nLWin32_COMApplicationSettings8$lPs0T03p0Win32_COMClassM,ll`,llĹ0T0 nXHCIM_ComputerSystemMappedIO,m|malYgt$T0|mDn $CIM_ComputerSystemResource))  )CIM_ComputerSystemMappedIODescriptionAn association between a computer system and the memory mapped I/O ports available on it.AMENDMENTLOCALEPartComponentf@ ref:CIM_MemoryMappedIODescriptionA memory mapped I/O port of the computer system. em0T0p4Win32_Environment,,po `q$T0o<0T0`q3|(CIM_Thread,ppD`p,pp(&|d$T0p8CcWin32_COMApplication)$v  1Win32_DCOMApplicationDescriptionThe Win32_DCOMApplication class represents the properties of a DCOM application.AMENDMENTLOCALEAppID)  stringDescriptionThe AppID property is a Globally Unique Identifier (GUID) for the DCOM application. on`Win32_ClassicCOMApplicationClassess0T0HtX<Win32_SystemResources,ssHl m|$T0slt $CIM_ComputerSystemResource)$  pWin32_SystemResourcesDescriptionThe Win32_SystemResources class represents an association between a system resource and the computer system it resides on.AMENDMENTLOCALEGroupComponentf@) ! ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the the computer system where the resource is located.PartComponentf@)  ref:CIM_SystemResourceDescriptionThe PartComponent reference represents the the resource (such as I/O services, memory resources) available on the computer system. esXWin32_SoftwareElementActionSystemti,4twl6F3dw,++XxXx,11,xL0 $anWMIBinaryMofResourceHighDateTime' Y  uint32LowDateTime'   uint32Name'   string 4System,Win32_Desktop8Win32_SystemSetting,0z0zz0Thz@f$T0{ay, Q__InstanceProviderRegistration\\.\root\default:__Win32Provider.Name="RegProv"{0T0H|0I<CIM_HostedFileSystem,{{t?ht$T0{l|$ CIM_SystemComponent)#~  CIM_HostedFileSystemDescriptionA link between the computer system and the file system(s) hosted on this computer system.AMENDMENTLOCALEGroupComponentf@ ref:CIM_ComputerSystemDescriptionThe computer system.PartComponentf@ CWdref:CIM_FileSystemDescriptionThe file system owned by the computer system. utoWin32_Account)   NWin32_GroupDescriptionThe Win32_Group class represents data about a group account. A group account allows access privileges to be changed for a list of users. Example: Marketing2.AMENDMENTLOCALEDomain@  stringDescriptionThe Domain property indicates the name of the Windows domain to which the group account belongs. Example: NA-SALESName@  stringDescriptionThe Name property indicates the name of the Win32 group account on the domain specified by the Domain member of this class. th0T00I0CIM_InstalledOS,c|$T0@ CIM_SystemComponent)   JCIM_InstalledOSDescriptionA link between the computer system and the operating system(s) installed or loaded on it. An operating system is 'installed' on a computer system, when placed on one of its storage extents - for example, copied to a disk drive or downloaded to memory. Using this definition, an operating system is 'installed' on a NetPC when downloaded via the network.AMENDMENTLOCALEGroupComponentf@ ref:CIM_ComputerSystemDescriptionThe computer system.PartComponentf@ F_lref:CIM_OperatingSystemDescriptionThe operating system installed on the computer system.PrimaryOS  booleanDescriptionBoolean indicating that the operating system is the default OS for the computer system. ut293482024213598208C:\WINDOWS\SYSTEM\wmicore.dll[MofResource]tah&jѿBWMIBinaryMofResourceC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]$(MS_WmiInternalC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208,L( H80T0HWin32_SystemOperatingSystem,tD8D$T0D(  CIM_InstalledOS)*  {Win32_SystemOperatingSystemDescriptionThe Win32_SystemOperatingSystem class represents an association between a computer system and its operating system.AMENDMENTLOCALEGroupComponentf@)   ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the properties of the computer system upon which the operating system is installed.PartComponentf@)   ref:Win32_OperatingSystemDescriptionThe PartComponent reference represents the properties of the operating system running on this computer system. atLWin32_ComputerSystemProcessor$y`,`Z8Win32_PrinterShare83atingSystem$T0̍  8,W<PcIMV2$CIM_Chipt,$dfg@$T0df{0T0dfȔ @CIM_PhysicalMemoryver\, /P,HL$g$T0 0T0X30Win32_SharezH@Win32_SystemPartitions2`Win32_SystemLogicalMemoryConfiguration0T000ID4CIM_SystemDevice{,А$T0TP3 CIM_SystemComponent)  +:CIM_SystemDeviceDescriptionLogical devices may be aggregated by a system. This relationship is made explicit by the CIM_SystemDevice association. AMENDMENTLOCALEGroupComponentf@ ref:CIM_SystemDescriptionThe parent system in the association.PartComponentf@ f}ref:CIM_LogicalDeviceDescriptionThe logical device that is a component of a system. ofMSSmBios_RawSMBiosTablesC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208,4OOt!0GeP,@JH$,CIM_Battery,CIM_FanZ[4NU PVc8W$T0y Rv'h&jѿSWDMClassesOfDriverMSWmi_PnPDeviceIdC:\WINDOWS\SYSTEM\wmicore.dll[MofResource],pN33Q$(xF,CIM_DataFile$T00@Win32_PrinterController(T0%#0T0`8Win32_SystemDevices,]$$T0 CIM_SystemDevice)"  nWin32_SystemDevicesDescriptionThe Win32_SystemDevices class represents an association between a computer system and a logical device installed on that system.AMENDMENTLOCALEGroupComponentf@) % ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the properties of the computer system where the logical device exists.PartComponentf@)  ref:CIM_LogicalDeviceDescriptionThe PartComponent reference represents the properties of a logical device that exists on the computer system. e @Win32_NetworkConnection,|$T0,<,``$#onU, <P$T0@0  87IMV2\ms_409:Win3Ĺ4CIM_ControlledByT4CIM_SCSIInterface@ !PR@T0$pO0T04LWin32_ComputerSystemProcessor,p$T0pX8 Win32_SystemDevices),  Win32_ComputerSystemProcessorDescriptionThe Win32_ComputerSystemProcessor class represents an association between a computer system and a processor running on that system.AMENDMENTLOCALEGroupComponentf@ 'ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the Win32_ComputerSystem containing the properties of the computer system on which the processor is running.PartComponentf@  ref:Win32_ProcessorDescriptionThe PartComponent reference represents the Win32_Processor containing the properties of a processor which is running the computer system. er8Win32_PageFileUsage,(|(,T0dns l,YY`O'__CIMOMIdentification1.50.1164.0004$$0 Ĥ0MS_WmiInternalo,8tP$0! 7F0T0Ĺ<4Win32_SystemBIOS3,̭LWin32_SystemBootConfiguration8Win32_SystemDesktop8@@@0T08@Win32_SystemPartitions,tD  8pD$T0D\4 Win32_SystemDevices)%  Win32_SystemPartitionsDescriptionThe Win32_SystemPartitions class represents an association between a computer system and a disk partition on that system.AMENDMENTLOCALEGroupComponentf@  ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the Win32_ComputerSystem containing the properties of the computer system where the disk partition is located.PartComponentf@ ref:Win32_DiskPartitionDescriptionThe PartComponent reference represents the Win32_DiskPartition containing the properties of a disk partition that exists on the computer system. ieh\\.\Root\WMI:__Win32Provider.Name="WMIProv"u, M__InstanceProviderRegistration\\.\Root\WMI:__Win32Provider.Name="WMIProv"8WDMClassesOfDriver,(?P0<WMIBinaryMofResourcey8h$T04Win32_SystemUsers@T03emUsers<Win32_SystemProcesses$p j,,,\̭`̭,tt\, T0T0Ȯ0I4Win32_SystemBIOS,h8$x$$T08hK CIM_SystemComponent)  + 3C Win32_SystemBIOSDescriptionThe Win32_SystemBIOS class represents an association between a computer system (including data such as startup properties, time zones, boot configurations, or administrative passwords) and a system BIOS (services, languages, system management properties).AMENDMENTLOCALEGroupComponentf@) z ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the Win32_ComputerSystem containing the BIOS of the association.PartComponentf@) Qan ref:Win32_BIOSDescriptionThe PartComponent reference represents Win32_BIOS contained in the computer system of this association. as, TDWin32_SystemProgramGroups<Win32_SystemTimeZone=o__EventProviderRegistration%select * from WMIEvent\\.\Root\WMI:__Win32Provider.Name="WMIEventProv"h\\.\Root\WMI:__Win32Provider.Name="WMIProv"tbK__MethodProviderRegistration\\.\Root\WMI:__Win32Provider.Name="WMIProv"i8\DWin32_SystemDevicesBIOS0T0<LWin32_DCOMApplicationSetting:<$X 0T0P0IHWin32_SystemLoadOrderGroups,ܵ ]$T0t CIM_SystemComponent)*  ~GWin32_SystemLoadOrderGroupsDescriptionThe Win32_SystemLoadOrderGroups class represents an association between a computer system and a load order group.AMENDMENTLOCALEGroupComponentf@)  ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the computer system where the load order group exists.PartComponentf@)  ref:Win32_LoadOrderGroupDescriptionThe PartComponent reference represents a load order group existing on the computer system. uteHWin32_SystemOperatingSystem0T""s(T0  Pd#, $`Win32_LoadOrderGroupServiceDependenciesXWin32_LoadOrderGroupServiceMembersd0Ȣl{4T0= )XD,$46T(T0 G0T0(3(T0,4$`8Win32_NetworkClient,<T03|0T0Ƚ0IPWin32_SystemNetworkConnections,L$H$T0 CIM_SystemComponent) -  eWin32_SystemNetworkConnectionsDescriptionThe Win32_SystemNetworkConnections class represents an association between a network connection and the computer system on which it resides.AMENDMENTLOCALEGroupComponentf@) /< ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the the computer system connected to the network.PartComponentf@)  ref:Win32_NetworkConnectionDescriptionThe PartComponent reference represents the the network connection (to this computer system). teI lJ__ClassProviderRegistration\\.\Root\WMI:__Win32Provider.Name="WMIProv"Rselect * from meta_classtselect * from meta_class4$__SystemSecurity((@@PWin32_SystemNetworkConnectionsLWin32_PageFileElementSettings,HD!4T0($Account,CC0T0p3(Z,4(,L<Win32_NetworkProtocol$T0Y0T03<u0T0t0I<Win32_SystemProcesses, *P$T0 CIM_SystemComponent)$  :Win32_SystemProcessesDescriptionThe Win32_SystemProcesses class represents an association between a computer system and a process running on that system.AMENDMENTLOCALEGroupComponentf@)   ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the computer system upon which the process is running.PartComponentf@)  ref:Win32_ProcessDescriptionThe PartComponent reference represents the process running on the computer system. ut,0vdhO'__CIMOMIdentification1.50.1164.0004X,ȮȮ((,Thh4,ȽȽ,ttl,||40 !(И 4Win32_SystemUsers,H0x4H4YHHWin32_SystemResourcesocess,q\<Win32_SystemServicesM,LL,`0T0|0I<Win32_SystemServices,H$T0$ CIM_SystemComponent)#  Win32_SystemServicesDescriptionThe Win32_SystemServices class represents an association between a computer system and a service program that exists on the system.AMENDMENTLOCALEGroupComponentf@) ) ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the Win32_ComputerSystem containing the properties of the computer system on which the service exists.PartComponentf@)  ref:Win32_ServiceDescriptionThe PartComponent reference represents theWin32_Service containing the service that exists on the computer system. ut,  ,$x$ddd$!̌e ,4CHWin32_WMIElementSetting$l8Xx,HtHt4d,88hB MS_WmiInternalabstract er,z0T00IHCIM_ErrorCountersForDevice3 ,765DWin32_SystemSystemDriverm$,44hz0T0Y0IDWin32_SystemSystemDriver,tDtP|$< ,8Q8Q4,XX``,{{4,4`,,88,<,h,<,hYhY CIM_SystemComponent)'  kWin32_SystemSystemDriverDescriptionThe Win32_SystemSystemDriver class represents an association between a computer system and a system driver running on that computer system.AMENDMENTLOCALEGroupComponentf@) (5 ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the properties of the computer system upon which the driver is running.PartComponentf@)  ref:Win32_SystemDriverDescriptionThe PartComponent reference represents the system driver running on the computer system. ut))u  CIM_SoftwareElementActionsDescription This association is used to identify the actions for a software element. AMENDMENTLOCALE l6$T0l6$CIM_SoftwareElementActions)*  Win32_SoftwareElementActionDescriptionThis association relates an MSI software element with an action that access the element.AMENDMENTLOCALE M0T03pDCIM_SoftwareElementChecks (0T0D3(DWin32_ProgramGroupOrItemrhCIM_LogicalElement)!  $CIM_SystemResourceDescriptionThe CIM_SystemResource class is an entity managed by BIOS and/or an operating system which is available for use by software and/or logical devices. Examples of Resources in the x86 environment are IRQs, DMA channels and memory mapped I/O.AMENDMENTLOCALE re,t_!$t8`pessesܡ  PR<CIM_AllocatedResource$ @s,``d,44d(,88,MSWmi_MofData$ ,IJIJ0T03zT8CIM_SystemResource,k,ȢXH4qh\\.\Root\WMI:__Win32Provider.Name="WMIProv"8\T`V2\ms_409:Win3$",(460T0z`gԘ CIM_DMA,R8,((,(( T,  @(,`$xxx CIM_SystemComponent)  o~*Win32_SystemUsersDescriptionThe Win32_SystemUsers class represents an association between a computer system and a user account on that system.AMENDMENTLOCALEGroupComponentf@)  ref:Win32_ComputerSystemDescriptionThe GroupComponent reference represents the computer system containing the user account.PartComponentf@)  ref:Win32_UserAccountDescriptionThe PartComponent reference represents the user account on the computer system. ut4Win32_UserDesktop   sHWin32_COMApplicationClasses,|,tK CIM_Component)*  DWin32_COMApplicationClassesDescriptionThe Win32_COMApplicationClasses class represents an association between a COM component and the COM application where it resides.AMENDMENTLOCALEGroupComponentf@) !. ref:Win32_COMApplicationDescriptionThe GroupComponent reference represents the COM application containing the COM component.PartComponentf@)  ref:Win32_COMClassDescriptionThe Win32_COMClass represents the COM component grouped under the COM application. ,U<$__SystemSecurityHWin32_COMApplicationClasses\\.\root\default:__Win32Provider.Name="RegistryEventProvider"B__EventProviderRegistration%select * from RegistryEvent\\.\root\default:__Win32Provider.Name="RegistryEventProvider"xfO__MethodProviderRegistration\\.\root\default:__Win32Provider.Name="RegProv"np\\.\root\default:__Win32Provider.Name="RegProv"(StdRegProv0T0 l<Win32_ClassicCOMClass$T0hjD\<Win32_LoadOrderGroup,`p@,pp$T0p {ktL0T0 XWin32_ClassicCOMApplicationClasses,PWHP$T0PD %Win32_COMApplicationClasses)$1  ^Win32_ClassicCOMApplicationClassesDescriptionThe Win32_ClassicCOMApplicationClasses class represents an association between a DCOM application and a COM component grouped under it.AMENDMENTLOCALEGroupComponentf@  $1ref:Win32_DCOMApplicationDescriptionThe GroupComponent reference represents a DCOM application containing or using the COM component.PartComponentf@ ref:Win32_ClassicCOMClassDescriptionThe PartComponent reference represents the COM component existing in or used by the DCOM application. ap<z p\ ication8H\(T0||X0XWin32_ClassicCOMApplicationClasses3$T0x4T03LWin32_ClassicCOMClassSettings0T0  (  |8l оxs_409:Win3<4m\0T0<(T0 8%wn,; \ 60T0L3@Win32_ComponentCategory,`{*9B__Win32Provider{fe9af5c0-d3b6-11ce-a5b6-00aa00680c3f}RegProvdLWin32_ClassicCOMClassSettings  0Des0T0,0Win32_GroupUser,t,ttt4$T0tP CIM_Component)  \k+Win32_GroupUserDescriptionThe Win32_GroupUser class represents an association between a group and an account that is a member of that group.AMENDMENTLOCALEGroupComponentf@)   ref:Win32_GroupDescriptionThe GroupComponent reference represents a group that the account is a member of.PartComponentf@)  ref:Win32_AccountDescriptionThe PartComponent reference represents a user or system account that is a part of a group of accounts. x(T0 op,a0Win32_GroupUser<Win32_COMApplicationU,,4m$T04lL-CIM_LogicalElement)#  Win32_COMApplicationDescriptionThe Win32_COMApplication class represents a COM application. In this context, a COM application is a logical grouping of COM classes.AMENDMENTLOCALE caPWin32_COMApplicationClassesoup,( a0T0P8Win32_SystemAccount  8n32_$T0i0T0$PP4Win32_UserAccount<0T0`XWin32_LoadOrderGroupServiceMembers,8 ,  $T0 CIM_Component)$1E P XhUd@Win32_LoadOrderGroupServiceMembersDescriptionThe Win32_LoadOrderGroupServiceMembers class represents an association between a load order group and a base service. Note: Win32_SystemDriver objects are members of that load order group. Not all services are members of groups, and not all groups have services within them.AMENDMENTLOCALEGroupComponentf@)  ref:Win32_LoadOrderGroupDescriptionThe GroupComponent reference represents the Win32_LoadOrderGroup containing the load order group properties associated with the base service.PartComponentf@)  ref:Win32_BaseServiceDescriptionThe PartComponent reference represents the Win32_BaseService containing the base service that is a member of a load order group id8pк=p\CIM_LogicalElement)"Q \ drGMWin32_NetworkClientDescriptionThe Win32_NetworkClient class represents a network client on a Win32 system. Any computer system on the network with a client relationship to the system is a descendent (or member) of this class. Example: A computer running Windows 2000 workstation or Windows 98 that is part of a Windows 2000 domain.AMENDMENTLOCALEManufacturer stringDescriptionThe Manufacturer property indicates the name of the manufacturer of the network client running on the Win32 system. Example: Microsoft CorporationName@ )  stringDescriptionThe Name property identifies the network name of thenetwork client running on a Win32 system. Example: Microsoft Windows Network g $T0LlHWin32_ProgramGroupContentso0T0\0 hs0T0 PWin32_LogicalDiskRootDirectoryd,0  Цl,  4$T0    CIM_Component) -  Win32_LogicalDiskRootDirectoryDescriptionThe Win32_LogicalDiskRootDirectory class represents an association between a logical disk and its directory structure.AMENDMENTLOCALEGroupComponentf@) # ref:Win32_LogicalDiskDescriptionThe GroupComponent reference represents the properties of the logical disk in the Win32_LogicalDiskRootDirectory association.PartComponentf@)   ref:Win32_DirectoryDescriptionThe PartComponent reference represents the properties of the file directory structure in the Win32_LogicalDiskRootDirectory association. 84 n32_0l`)̞ZDWin32_OperatingSystemQFEHWin32_SystemOperatingSystem8  LogicalDiskRootD,CIM_Process(9F__Win32Provider{72967901-68EC-11d0-B729-00AA0062CBB7}RegPropProv0y\?  h8 0%oV2\ms_409:Win3<Win32_OperatingSystem   (DlDisk,|8(OMPUTER\ROOT\C8Win32_SubDirectorys8ĎLl,~($#H" y,PPXWin32_LogicalProgramGroupDirectory3  l0))|0T0@Win32_MemoryDeviceArray,d4 l,444 $T04  CIM_Component)&  bWin32_MemoryDeviceArrayDescriptionThe Win32_MemoryDeviceArray class represents an association between a memory device and the memory array in which it resides.AMENDMENTLOCALEGroupComponentf@) # ref:Win32_MemoryArrayDescriptionThe GroupComponent reference represents the memory array part of the Win32_MemoryDeviceArray association.PartComponentf@)  ref:Win32_MemoryDeviceDescriptionThe PartComponent reference represents a memory device part of the Win32_MemoryDeviceArray association.  0T0 Array,Win32_PatchH,p@Win32_MemoryDeviceArray,L,CIM_Display  8MemoryDevicemp(TWin32_MemoryDeviceLocation  P8IMV2\ms_409:Win3$T0ܮPWin32_PhysicalMemoryLocationay,<) )6(*8\MCOMPUTER\ROOT\C0CIM_UserDevicey0|LWin32_PhysicalMemoryLocationi  |HWin32_MemoryDeviceLocation_  D0T0ش0T0HWin32_ProgramGroupContents,$$,%%$T0H* CIM_Component))  Win32_ProgramGroupContentsDescriptionThe Win32_ProgramGroupContents class represents an association between a program group order and an individual program group or item contained in it.AMENDMENTLOCALEGroupComponentf@) 9F ref:Win32_LogicalProgramGroupDescriptionThe GroupComponent reference represents the Win32_LogicalProgramGroup that contains the logical program group for this association.PartComponentf@) /< ref:Win32_ProgramGroupOrItemDescriptionThe PartComponent reference represents the Win32_ProgramGroupOrItem containing a start menu group or item for this association hu$y<t,tL""  t(XWin32_LogicalProgramGroupDirectoryg ) u  em CIM_StorageDefectDescriptionThe CIM_StorageDefect aggregation collects the storage errors for a storage extent.AMENDMENTLOCALEErrorf ref:CIM_StorageErrorDescriptionCIM_StorageError references the Error object, defining the starting and ending addresses that are 'mapped out' of the storage extent.Extentf ref:CIM_StorageExtentDescriptionThe Extent reference defines the storage extent on which the errors occurred. DWin32_SystemProgramGroups0T0#zLWin32_LogicalProgramGroupItem  #8"em`#$T0"a#dw,$y~,@$\)\)\)0T00%8Win32_SubDirectory,$p$l*,p$p$$T0p$T%  CIM_Component)!  Win32_SubDirectoryDescriptionThe Win32_Subdirectory class represents an association between a directory (folder) and one of its subdirectories (subfolders).AMENDMENTLOCALEGroupComponentf@)  ref:Win32_DirectoryDescriptionThe GroupComponent reference represents the Win32_Directory that contains the properties of the parent directory (folder) in this association.PartComponentf@)   ref:Win32_DirectoryDescriptionThe PartComponent reference represents the Win32_Directory that contains the subdirectory (subfolder) part of the association. 8L4s(8 PWin32_LogicalDiskRootDirectoryc$T08,<\v,pp"0T0*3D8CIM_OperatingSystem(T0)hP0T0*4CIM_Configuration,t*D*$$0$T0D**x[ ) 4 ? GPgmUCIM_ConfigurationDescriptionThe Configuration object allows the grouping of sets of parameters (defined in CIM_Setting objects) and dependencies for one or more managed system elements. The Configuration object represents a certain behavior, or a desired functional state for the managed system elements. The desired functional state is typically driven by external requirements such as time or location. For example, to connect to a mail system from 'home', a dependency on a modem exists, but a dependency on a network adapter exists at 'work'. Settings for the pertinent logical devices (in this example, POTS modem and network adapter) can be defined and aggregated by CIM_Configuration. Therefore, two 'Connect to Mail' configurations may be defined grouping the relevant dependencies and CIM_Setting objects.AMENDMENTLOCALECaption |STRINGDescriptionA short textual description (one-line string) of the CIM_Configuration object.Description "/STRINGDescriptionA textual description of the CIM_Configuration object.Name)  STRINGDescriptionThe label by which the CIM_Configuration object is known. 0T005H0CIM_Dependency,0p0*4$T0p0 1Ԡ< )k v ~$/uCIM_DependencyDescriptionA generic association to establish dependency relationships between objects.AMENDMENTLOCALEAntecedentf ref:CIM_ManagedSystemElementDescriptionAntecedent represents the independent object in this association.Dependentf [yref:CIM_ManagedSystemElementDescriptionDependent represents the object dependent on the Antecedent. 8p3ԲOT\CDCIM_ElementConfiguration0T0y8CIM_LogicalElemente,43yȄ0T0 5p0p:<CIM_AllocatedResource,4l4H0D:1P$T0l4D58 CIM_Dependency)$  $uCIM_AllocatedResourceDescriptionAn association between logical devices and system resources, indicating that the resource is assigned to the device.AMENDMENTLOCALEAntecedentf@  ref:CIM_SystemResourceDescriptionThe resource.Dependentf@ Pgtref:CIM_LogicalDeviceDescriptionThe logical device to which the resource is assigned. Wt\\.\Root\WMI:__Win32Provider.Name="WMIEventProv"u  80MCOMPUTER\ROOT\C8T $ $!!>p"T| 8`p$AT8U>p U__PropertyProviderRegistration\\.\root\default:__Win32Provider.Name="RegPropProv",\T`PT8L`OEMCOMPUTER\ROOT$`d@\=__ExtrinsicEvent WMIEvent $p"$H >e<Win32_SystemResources$yT8% @$__SystemSecurity$A0T0Bp08CIM_AssociatedAlarm,AAD:$I,,T0,Ƚd$T0ABlM CIM_Dependency)"  ]huCIM_AssociatedAlarmDescriptionLogical devices may have one or more alarm devices associated with them, in order to indicate problem situations. This relationship is indicated by the CIM_AssociatedAlarm dependency. AMENDMENTLOCALEAntecedentf@ '<Iref:CIM_AlarmDeviceDescriptionThe alarm device. Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device that is alarmed. <Win32_ProtocolBinding<Win32_ProtocolBindingHWin32_ProtocolBindingEE   F8BxIMV2\ms_409:CIM_Gi4CIM_BinarySensorT,F4[8xw<NdisMaximumLookahead$@ ,WWHQ4CIM_PackageAlarmT  G<GAlarmG0T0LcpcDCIM_InfraredControlleryrh0T0PIp0,P<CIM_AssociatedBattery,HH+s,BP$T0HtI CIM_Dependency)$   *uCIM_AssociatedBatteryDescriptionA logical device may use or require one or more batteries. This relationship is described by the CIM_AssociatedBattery dependency. It is also possible to model the individual batteries that comprise a UPS, using this association.AMENDMENTLOCALEAntecedentf@ Vgtref:CIM_BatteryDescriptionThe battery.Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device needing or associated with the battery tN<CIM_AssociatedBattery0T0`S(H0$SpL /c UL  L8PIHPIMV2\ms_409:CIM_<T0SL8`pbMCOMPUTER\ROOT\C0CIM_CacheMemory,ffe0T0Td,Win32_BatteryU@Win32_AssociatedBattery  w4CIM_Controller@Win32_PrinterController  \D 0T0HPH@Win32_AssociatedBattery,OO!T'$IVO$T0OlP CIM_AssociatedBattery)&  fqu&Win32_AssociatedBatteryDescriptionThe Win32_AssociatedBattery represents an association between a logical device and the battery it is using.AMENDMENTLOCALEAntecedentf@)  ref:CIM_BatteryDescriptionThe Antecedent reference represents the properties of a battery used with the logical device.Dependentf@)  ref:CIM_LogicalDeviceDescriptionThe Dependent reference represents the properties of a logical device using the battery. t<Win32_InfraredDevice$T0pLLX0T0DCIM_ManagementControllerr aHCIM_ComputerSystemResource_4WMIEventResource ,(NM(*PVM$T0M8E0T0M<Win32_PortableBatteryļPN4CIM_ControlledByT,U090%0T0Vp0<CIM_AssociatedCooling,dV4VP]$T04VVu CIM_Dependency)$  $uCIM_AssociatedCoolingDescriptionMany devices, such as processors or power supplies, require their own cooling devices. This association indicates where fans or other cooling devices are specific to a device, versus providing enclosure or cabinet cooling.AMENDMENTLOCALEAntecedentf@ Pgtref:CIM_CoolingDeviceDescriptionThe cooling device.Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device being cooled. <Win32_ProtocolBinding,YX   @EZ  hZ8VLIMV2\ms_409:CIM_$\  ,T00PbT,T0bmZ<T0v  wZ<CIM_PackagedComponentf,({|)-8CIM_PackageCoolingC  D\<[oling[<Win32_PrinterSetting "8NyH\0T0]p0@d<CIM_AssociatedMemoryth,D]]VdVd$T0]]P4 CIM_Dependency)#  U`uCIM_AssociatedMemoryDescriptionLogical devices may have memory installed on them or otherwise associated with them - such as cache memory. This is made explicit in this association.AMENDMENTLOCALEAntecedentf@ #ref:CIM_MemoryDescriptionMemory installed on or associated with a device.Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device. b(fmory,T0wHCIM_AssociatedMemory``  `8]\dIMV2\ms_409:CIM_<jjp`0T0a,dlaLZ0T0[,<`,xrHr\eHsLCIM_AssociatedProcessorMemory  dM((rpb,XH(HL $T0(H W(pLc0T0\d]kLCIM_AssociatedProcessorMemory,cc]kc$T0cd8 CIM_AssociatedMemory),q | WCIM_AssociatedProcessorMemoryDescriptionAssociates the processor and system memory, or a processor's cache.AMENDMENTLOCALEBusSpeed uint32DescriptionSpeed of the bus, in MHertz, between the processor and memory. Dependentf@ GZgref:CIM_ProcessorDescriptionThe processor that accesses the memory or uses the cache. ry0T0bn4Win32_CacheMemorykCIM_Memory )%Q \ dqCIM_NonVolatileStorageDescriptionCapabilities and management of NV storage.AMENDMENTLOCALEIsWriteable # booleanDescriptionIndicating that the NV storage is writable. 8)PjPCIM_PExtentRedundancyComponentoHCIM_PSExtentBasedOnPExtent  4j8|iiljsor8CIM_RealizesPExtent0T0,TCIM_ProtectedSpaceExtentj0T0kcPWin32_AssociatedProcessorMemory,Xk(kds(k$T0(kl 'CIM_AssociatedProcessorMemory)!.  epuWin32_AssociatedProcessorMemoryDescriptionThe Win32_AssociatedProcessorMemory class represents an association between a processor and its cache memory.AMENDMENTLOCALEAntecedentf@)   ref:Win32_CacheMemoryDescriptionThe Antecedent reference represents cache memory available to the processor.Dependentf@)  ref:Win32_ProcessorDescriptionThe Dependent reference represents the processor that is using the cache memory. s staLo4T0 p,y,|PWin32_AssociatedProcessorMemory8CIM_BIOSLoadedInNV28CIM_VolatileStorage0T0n(o$$ 4l!CI0T0(q`i8CIM_PhysicalExtenti,ppg`d0a$T0p܅Lqhq$ (iy,(|0T0r,0s@CIM_NonVolatileStoraged  r0P!@NdisMediaSupportedLC<8bnqOMPUTER\ROOT\C$T0q8gsoXbe0T0sp0z<CIM_AssociatedSensor,s`s]zkz$T0`stlP CIM_Dependency)#  ALuCIM_AssociatedSensorDescriptionMany devices include sensors or have sensors installed nearby, in order to measure critical input and output properties. This association indicates that relationship.AMENDMENTLOCALEAntecedentf@ '4ref:CIM_SensorDescriptionThe sensor.Dependentf@ xref:CIM_LogicalDeviceDescriptionThe logical device for which information is measured by the sensor. v<CIM_AssociatedSensor$T04[ w)CIM_LogicalDiskBasedOnPartition!)+  Win32_LogicalDiskToPartitionDescriptionThe Win32_LogicalDiskToPartition class represents an association between a logical disk drive and the disk partition it resides on.AMENDMENTLOCALEAntecedentf@) , ref:Win32_DiskPartitionDescriptionThe Antecedent reference represents the Win32_DiskPartition containing the properties of a disk partition where the logical disk resides.Dependentf@)  ref:Win32_LogicalDiskDescriptionThe Dependent reference represents the Win32_LogicalDisk containing the properties of a logical disk that resides on a physical disk partition. is8MSWmi_ProviderInfo MSPowerLWin32_LogicalDiskToPartition088PcalDiskToPartiti 0T0 3(T0ܢ&PWin32_LogicalDiskRootDirectoryD  , 0b0bp$о  "$T0,V8CIM_MonitorSetting_0T0̜0!@NdisMediaInUse +0T00b `(CIM_Memory3,\,\8 `0T0ԦPPCIM_LogicalDiskBasedOnVolumeSet,Хt$  8XХvlGr$T0Х4CIM_BasedOn )!.  CIM_LogicalDiskBasedOnVolumeSetDescriptionLogical disks can be based on a volume set. This relationship is made explicit in this association.AMENDMENTLOCALEAntecedentf@ ref:CIM_VolumeSetDescriptionThe volume set.Dependentf@ F[href:CIM_LogicalDiskDescriptionThe logical disk which is built on the volume set. h HPCIM_LogicalDiskBasedOnVolumeSet0T0,8Win32_SMBIOSMemoryE,ȩ$T00T04Win32_MemoryArray,P\o $T0P <  \8t4DWin32_MemoryArrayLocation@Win32_MemoryDeviceArray  T8iskBasedOnVolume0T0x8Win32_MemoryDevice,  @8PM_LogicalDiskBas4T0`0T0PPHCIM_PSExtentBasedOnPExtents,ܭPܵP̵$T0t`ACIM_BasedOn ))   +CIM_PSExtentBasedOnPExtentDescriptionProtected space extents are based on a physical extent. This relationship is made explicit in this association.AMENDMENTLOCALEAntecedentf@  ref:CIM_PhysicalExtentDescriptionThe physical extent.Dependentf@ Wuref:CIM_ProtectedSpaceExtentDescriptionThe protected space extent which is built on the physical extent. bur  8D-Win32_DiskPartHHCIM_PSExtentBasedOnPExtente@"=CIM_UserDevice) |  CIM_DisplayDescriptionThe CIM_Display class is a superclass for grouping the miscellaneous display devices that exist.AMENDMENTLOCALE O8CIM_DesktopMonitort8вd,/|/`L,T0|/&2_Te0T0 ,,CIM_VolumeSet,ȳ0a$T0(DԦ00T0H,<|$T0|0T0|D`0T0p08CIM_BIOSLoadedInNV,d$,$T0ddGCIM_Dependency)!q |  .UCIM_BIOSLoadedInNVDescriptionA link between BIOS element and non-volatile storage where the BIOS is loaded.AMENDMENTLOCALEAntecedentf@ ref:CIM_NonVolatileStorageDescriptionThe non-volatile storage.Dependentf@ 7LYref:CIM_BIOSElementDescriptionThe BIOS stored in the non-volatile extent.EndingAddress UINT64DescriptionThe ending address where the BIOS is located in non-volatile storage.StartingAddress ZboUINT64DescriptionThe starting address where the BIOS is located in non-volatile storage. HCIM_BIOSFeatureBIOSElements8CIM_BIOSLoadedInNV  <84OEMCOMPU8$T08\,ȮP;<CIM_VideoBIOSFeatureT4Win32_SystemBIOS:0T0xD%<CIM_VideoBIOSElement,;   @8HP 8!4OEMCOMPUTE$T0@XA(, P0T0,< 3( ;erride0T0HP8(Win32_BIOS_8h8|$R80T0Xp04CIM_BootOSFromFS,ȽTX̵$T0Ƚ| CIM_Dependency)  !-u*CIM_BootOSFromFSDescriptionA link between the operating system and the file system(s) from which this operating system is loaded. The association is many-to-many since a distributed OS could depend on several file systems in order to correctly and completely load.AMENDMENTLOCALEAntecedentf@ Ymzref:CIM_FileSystemDescriptionThe file system from which the operating system is loaded.Dependentf@ ref:CIM_OperatingSystemDescriptionThe operating system. D  T8D XHs_409:CIM_ 4CIM_BootOSFromFSC0CIM_InstalledOS  ,8dt\\OEXCIM_OperatingSystemSoftwareFeatureS,CIM_OSProcess,CIM_RunningOS0T08)) 0T0p0DCIM_ComputerSystemPackage,d,$$T0d( CIM_Dependency)(  !-uACIM_ComputerSystemPackageDescriptionSimilar to the way that logical devices are 'Realized' by physical elements, unitary computer systems are realized in one or more physical packages. The CIM_ComputerSystemPackage association explicitly defines this relationship.AMENDMENTLOCALEAntecedentf@ Yrref:CIM_PhysicalPackageDescriptionThe physical package(s) that realize a unitary computer system.Dependentf@ #ref:CIM_UnitaryComputerSystemDescriptionThe unitary computer system. )!r } Win32_SettingCheckDescriptionThis association relates an MSI check with any setting information it requires.AMENDMENTLOCALE ZmZ, #=8pxLص, ,Win32_ManagedSystemElementResource$),  Win32_SoftwareElementResourceDescriptionThis association relates an MSI feature with an action used to register and/or publish the featureAMENDMENTLOCALE g8Win32_SettingCheck$T0(  Z,65\/6@CIM_ConnectorOnPackage284p[(|Pa$T0l0T0Bp0l0CIM_ConnectedTo,@$tL1,l4l4,AAtt,HH,4V4VP$,]]P,`s`s$|$|,PPP,dd|,ȽȽ,ddXBXB CIM_Dependency)  S^uCIM_ConnectedToDescriptionThe CIM_ConnectedTo association indicates that two or more physical connectors are connected together.AMENDMENTLOCALEAntecedentf@ ref:CIM_PhysicalConnectorDescriptionThe Antecedent represents a physical connector that serves as one end of the connection.Dependentf@ ref:CIM_PhysicalConnectorDescriptionThe Dependent represents another physical connector that serves as the other end of the connection. s  8BV2\ms_409:CIM_@CIM_ConnectorOnPackage\  <''DdToX0T00CIM_SlotInSlotUU,؟F$d$T0h CIM_ConnectedTo)> I Q]yuCIM_SlotInSlotDescriptionSlots are special types of connectors into which adapter cards are typically inserted. The CIM_SlotInSlot relationship represents the ability of a special adapter to extend the existing slot structure to enable otherwise incompatible cards to be plugged into a frame or hosting board. The adapter effectively creates a new slot and can be thought of (conceptually) as a slot in a slot. This enables cards that would otherwise be physically and/or electrically incompatible with the existing slots to be supported, by interfacing to the slot provided by the adapter. This has many practical uses. For example, networking boards are very expensive. As new hardware becomes available, chassis and even card configurations change. To protect the investment of their customers, networking vendors will manufacture special adapters that enable old cards to fit into new chassis or HostingBoards and/or new cards to fit into old. This is done using a special adapter that fits over one or more existing slots and presents a new slot into which the card can plug.AMENDMENTLOCALEAntecedentf@ ref:CIM_SlotDescriptionThe Antecedent reference represents the existing slot(s) of the hosting board, or frame that are being adapted to accommodate a card that would otherwise not be physically and/or electrically compatible with it.Dependentf@ ref:CIM_SlotDescriptionThe new slot provided by the adapter board. daXCIM_ProductSoftwareFeaturess4CIM_AdjacentSlots8D  08P$l0T0 4Win32_SystemSlotn$hh0T0p0DCIM_DeviceAccessedByFileD, @,7XBH$T0(  CIM_Dependency)'  uCIM_DeviceAccessedByFileDescriptionSpecifies the logical device that is associated with, and accessed using the referenced CIM_DeviceFile.AMENDMENTLOCALEAntecedentf@ ref:CIM_DeviceFileDescriptionThe device file.Dependentf@ E\iref:CIM_LogicalDeviceDescriptionThe device that is accessed using the device file. 0`),$P 8DCIM_DeviceAccessedByFile8NdisNotifyVcRemoval$$ 0L`)p̞0T005TL,8d+TL$T0890T0,@@؟,h |$T00,0D 0Win32_ProcessorD#  ly878^ *h?409:CIM_8CIM_SoftwareFeature,`>  8,  l{XH$T0 ?,\8,8/T0\,<CIM_HostedBootService  ,t4 <CIM_HostedAccessPoint  @@D?.`... /n?0T0\Ap0PCIM_DeviceServiceImplementation,@@ J7J,@@7@J$T0@A<  CIM_Dependency)!.  )4uCIM_DeviceServiceImplementationDescriptionAn association between a service and how it is implemented. The cardinality of this association is many-to-many. A service may be provided by more than one logical device, operating in conjunction. And, any device may provide more than one service. When multiple devices are associated with a single service, it is assumed that these elements operate in conjunction to provide the service. If different implementations of a service exist, each of these implementations would result in individual instantiations of the service object. These individual instantiations would then have associations to the unique implementations.AMENDMENTLOCALEAntecedentf@ ref:CIM_LogicalDeviceDescriptionThe logical device.Dependentf@ `q~ref:CIM_ServiceDescriptionThe service implemented using the logical device. E  E8$}M_DeviceServiceI., O}.h&jѿZWDMClassesOfDriverMSSmBios_RawSMBiosTablesC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]( F  PG8\Au *@1G409:CIM_@CIM_ServiceAccessBySAPDCIM_ServiceSAPDependencyT\CIM_ServiceServiceDependencyentation, QH8CIM_SystemComponent$(CPL4CIM_HostedService  XI8GG HIx77mentatio,0T0lJp08CIM_DeviceSoftwareex,IIxAR,II 0AS$T0IJCIM_Dependency)!  NYuU1CIM_DeviceSoftwareDescriptionThe CIM_DeviceSoftware relationship identifies any software that is associated with a device - such as drivers, configuration or application software, or firmware.AMENDMENTLOCALEAntecedentf@ *7ref:CIM_SoftwareElementDescriptionThe software element.Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device that requires or uses the software.Purpose+ #+8 UINT16DescriptionAn enumerated integer to indicate the role this software plays in regards to its associated device. For example, this software could be instrumentation (value=5) or firmware (6).Values$,DZkUnknownOtherDriverConfiguration SoftwareApplication SoftwareInstrumentationFirmwarePurposeDescription  STRINGDescriptionA free-form string to provide more information for the Purpose property, e.g. "Application Software". $4$dO!!8X1lJ3gTER\ROOT\ChH8CIM_DeviceSoftware0T0'D%t0CIM_BIOSElement , (8,CIM_RunningOS,rxrlGkLCIM_InstalledSoftwareElement08PHQQЋl4reXCIM_SoftwareFeatureSoftwareElements,xPHP8%, $?T0T0,Sp0(CIM_Docked,R|RJ8W,|R|R@JdW$T0|RPSb CIM_Dependency)    uCIM_DockedDescriptionA laptop, a type of chassis, may be docked in another type of chassis, a docking station. This is the relationship represented by the CIM_Docked association. Because this is such a typical relationship, it is explicitly described.AMENDMENTLOCALEAntecedentf@ L]jref:CIM_ChassisDescriptionThe docking station.Dependentf@ ref:CIM_ChassisDescriptionThe laptop that is 'docked'. LCIM_ProductProductDependency0$T0 LCIM_ProductProductDependencyM0T00 0T0Wp08CIM_ElementsLinked,WV R],VVS ^S ^$T0VW  CIM_Dependency)!  uCIM_ElementsLinkedDescriptionThe CIM_ElementsLinked association indicates which physical elements are cabled together by a physical link.AMENDMENTLOCALEAntecedentf@ ref:CIM_PhysicalLinkDescriptionThe physical link.Dependentf@ Hanref:CIM_PhysicalElementDescriptionThe physical element that is linked. e@Win32_ShareToDirectoryr  LZ8WIMV2\ms_409:CIM_8iedpe,Z@Win32_ShareToDirectory  [8ZPUTER\ROOT\CIMV2@Win32_ShareToDirectory0T08@[$8]$<CIM_LinkHasConnectorM  \4T0c][0T0(\8L[MCOMPUTER\ROOT\C P<YhX[\0T08^p0`e<CIM_HostedAccessPoint,]t]b4e8W4e,t]t]dWm$T0t]\^tV CIM_Dependency)$  [fuCIM_HostedAccessPointDescriptionCIM_HostedAccessPoint is an association between a service access point and the system on which it is provided. The cardinality of this association is 1-to-many and is weak with respect to the system. Each system may host many service access points. Heuristic: If the implementation of the service access point is modeled, it must be implemented by a device or software feature that is part of the system hosting the service access point.AMENDMENTLOCALEAntecedentf@ )9Fref:CIM_SystemDescriptionThe hosting system.Dependentf@ ref:CIM_ServiceAccessPointDescriptionThe SAP(s) that are hosted on this system. D1"Win32_ProgramGroupOrItem),  FWin32_LogicalProgramGroupItemDescriptionThe Win32_LogicalProgramGroupItem class represents an element contained by a Win32_ProgramGroup, that is not itself another Win32_ProgramGroup.AMENDMENTLOCALEName@ )  " stringDescriptionThe inherited Name property serves as key of a Win32_LogicalProgramGroupItem instance within a computer system. Program Groups are implemented as file folders in Win32. Full path names should be provided. Example: f:\WINNT\Profiles\a-kevhu.000\ Start Menu\Programs\Accessories\WordPad.Lnk pl MdmProv0T0|et]4CIM_HostedBootSAP,ed|]Tmd$T0de8 CIM_HostedAccessPoint)   &uCIM_HostedBootSAPDescriptionCIM_HostedBootSAP defines the hosting unitary computer system for a CIM_BootSAP. Since this relationship is subclassed from CIM_HostedAccessPoint, it inherits the scoping/naming scheme defined for CIM_ServiceAccessPoint - where an access point is weak to its hosting system. In this case, CIM_BootSAP must be weak to its hosting CIM_UnitaryComputerSystem.AMENDMENTLOCALEAntecedentf@ ref:CIM_UnitaryComputerSystemDescriptionThe unitary computer system.Dependentf@ Rcpref:CIM_BootSAPDescriptionThe Boot SAP hosted on the unitary computer system. pu0T0i(T0hX" DCIM_ComputerSystemPackage  i80i40iD0Lj $MS_SmBios,ii"l`s$ipj\= MS_SmBiosabstract mB_0si!DMSSmBios_RawSMBiosTablesI4 0T0 lxr<Win32_ComputerSystemt,kXkaQ8Xk$T0Xk0l@MSWmi_PnPInstanceNamesC,Ll`pt j(`pD 0T0mp0DCIM_HostedJobDestination,ml4e,u,lldW ^Xu$T0lm@" CIM_Dependency)'  ,7uCIM_HostedJobDestinationDescriptionAn association between a job destination and a system on which it resides. The cardinality of this association is 1-to-many. A system may host many job queues. Job destinations are weak with respect to their hosting system. Heuristic: A job destination is hosted on the system where the logical devices, software features or services that implement/provide the job destination are located.AMENDMENTLOCALEAntecedentf@  ref:CIM_SystemDescriptionThe hosting system.Dependentf@ c{ref:CIM_JobDestinationDescriptionThe job destination hosted on the system. CCIM_DMA )  ZWin32_DMAChannelDescriptionThe Win32_DMAChannel class represents a direct memory access (DMA) channel on a Win32 computer system. DMA is a method of moving data from a device to memory (or vice versa) without the help of the microprocessor. The system board uses a DMA controller to handle a fixed number of channels, each of which can be used by one (and only one) device at a time.AMENDMENTLOCALEPort: uint32DescriptionThe Port property specifies the DMA port used by the host bus adapter. This is meaningful for MCA-type buses. Example: 12 e.MSPowerC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]293482024213598208,t0T0up0}4CIM_HostedService,ttTmTm|,ttm$T0tu CIM_Dependency) e p xuZCIM_HostedServiceDescriptionCIM_HostedService is an association between a service and the system on which the functionality resides. The cardinality of this association is 1-to-many. A system may host many services. services are weak with respect to their hosting system. Heuristic: A service is hosted on the system where the logical devices or software features that implement the service are located. The model does not represent services hosted across multiple systems. This is modeled as an application system that acts as an aggregation point for services, that are each located on a single host.AMENDMENTLOCALEAntecedentf@ ref:CIM_SystemDescriptionThe hosting system.Dependentf@ *7ref:CIM_ServiceDescriptionThe service hosted on the system. ty h+CIM_System )$  CIM_ApplicationSystemDescription The CIM_ApplicationSystem class is used to represent an application or a software system that supports a particular business function and that can be managed as an independent units. Such a system can be decomposed into its functional components using the CIM_SoftwareFeature class. The software features for a particular application or software system are located using the CIM_ApplicationSystemSoftwareFeature association. AMENDMENTLOCALE r 0NetworkAddresst,|h H0T0$}t<CIM_HostedBootService,|p|,upp|$T0p|H}0 CIM_HostedService)$  &1wCIM_HostedBootServiceDescriptionCIM_HostedBootService defines the hosting system for a boot service. Since this relationship is subclassed from CIM_HostedService, it inherits the scoping/naming scheme defined for service - where a service is weak to its hosting system.AMENDMENTLOCALEDependentf@ ]rref:CIM_BootServiceDescriptionThe boot service hosted on the system. ho whhJCIM_LogicalElement)&  39Win32_ComponentCategoryDescriptionThe Win32_ComponentCategory class represents a component category. Component categories are groups of COM classes with a defined functionality set shared between them. A client using these interfaces queries the registry for the category title and unique identifier called a CategoryID, which is created from a globally unique identifier (GUID).AMENDMENTLOCALECategoryId)  stringDescriptionThe CategoryId property indicates a GUID for this component category.Name@  emzstringDescriptionThe Name property indicates a descriptive name of this component category. ndv ("0T0ȃp0@CIM_JobDestinationJobs,0|,XuЊXuЊ$T0, CIM_Dependency)%   +uCIM_JobDestinationJobsDescriptionAn association describing where a job is submitted for processing, i.e. to which job destination.AMENDMENTLOCALEAntecedentf@ ref:CIM_JobDestinationDescriptionThe job destination, possibly a queue.Dependentf@ Wdqref:CIM_JobDescriptionThe job that is in the job queue/Destination. 0H( CIMDCIM_HostedJobDestinationD@CIM_JobDestinationJobs  08І $j,``, 5 5h,BBh,PIPI8HPHP4CIM_HostedService$(@ 0T083 h4CIM_LogicalDevice,؈L+$T0|\Љ,tt ,<0<0$x ,00h ,!0T0p0X4CIM_MediaPresentio,p@p,,@@ $T0@ \> CIM_Dependency)  8CuCIM_MediaPresentDescriptionWhere a storage extent must be accessed through a media access device, this relationship is described by the CIM_MediaPresent association.AMENDMENTLOCALEAntecedentf@ ref:CIM_MediaAccessDeviceDescriptionThe media access device.Dependentf@ oref:CIM_StorageExtentDescriptionThe storage extent accessed using the media access device. rO,0, ,h8jp,X\$T0D80T0Ȑ4CIM_DiskPartition,4| $T0T}VCIM_StorageExtent)  CIM_DiskPartitionDescriptionCapabilities and management of the storage extent partition. Partitions may be based on other storage extents or directly realized from a physical media.AMENDMENTLOCALE Ep  8 ,ntot<  8CIM_ResidesOnExtent0T0T$ l 0T0t@PWin32_DiskDriveToDiskPartitionr ,ܑl$T0 CIM_MediaPresent) -  uWin32_DiskDriveToDiskPartitionDescriptionThe Win32_DiskDriveToDiskPartition class represents an association between a disk drive and a partition existing on it.AMENDMENTLOCALEAntecedentf@)  ref:Win32_DiskDriveDescriptionThe Antecedent reference represents the Win32_DiskDrive containing the properties of the disk drive where the partition exists.Dependentf@)  ref:Win32_DiskPartitionDescriptionThe Dependent reference represents the Win32_DiskPartition containing the properties of a disk partition residing on the disk drive. e  ԕ88`tskDriveĖPWin32_DiskDriveToDiskPartitionLWin32_LogicalDiskToPartition:  8(xt@Win32_SystemPartitions20T0$0CIM_LogicalDisk,\ ؕ 8$T0\ l`CVCIM_StorageExtent)  CIM_LogicalDiskDescriptionThe CIM_LogicalDisk class represents a data source that resolves to a local actual storage deviceAMENDMENTLOCALE 0T0Lp08CIM_MemoryWithMedia,,`,mЊ$T0plN CIM_Dependency)"  ozuCIM_MemoryWithMediaDescriptionCIM_MemoryWithMedia indicates that memory is associated with a physical media and its cartridge. The memory provides media identification and also stores user-specific data. AMENDMENTLOCALEAntecedentf@ 5Bref:CIM_PhysicalMemoryDescriptionThe memory associated with physical media. Dependentf@ ref:CIM_PhysicalMediaDescriptionThe physical media. 0CIM_CardInSlot0Win32_BaseBoardH$T0H0T0X4CIM_PhysicalFrame,ȝ,  H@p,\@  8L,\ms_409:CIM_,4%%\8%,$ 8,y%s8|`PUTER\ROOT\C0T0,BL$T0,5(8CIM_PackageInSlotDLCIM_RealizesAggregatePExtent0  p$CIM_Slot0T0p0$CIM_Mount,< x ,   L$T0 ܡ(  CIM_Dependency)   2=uCIM_MountDescriptionAn association between a network file system and a remote directory. The directory must be exported by a local file system in order to be mount-able.AMENDMENTLOCALEAntecedentf@  ref:CIM_DirectoryDescriptionThe directory mounted.Dependentf@ ivref:CIM_NFSDescriptionThe network file system. ~CIM_Directory)  Win32_DirectoryDescriptionThe Win32_Directory class represents a directory entry on a Win32 computer system. Directory is a type of file that logically groups data files 'contained' in it and provides path information for the grouped files. Example: C:\TEMP.AMENDMENTLOCALE )CIM_Service )'  Win32_ApplicationServiceDescriptionThe Win32_ApplicationService class represents any installed or advertised components or applications available on the system. Instances of this class include all properly installed and instrumented executables.AMENDMENTLOCALE va0T0xp04CIM_PackageAlarmhe,]`,  $T0 CIM_Dependency)I T \huCIM_PackageAlarmDescriptionOften, an alarm device is installed as part of a package, not to indicate issues with any particular logical device or physical component, but with the package's environment in general, its security state or its overall health. This relationship is described by the CIM_PackageAlarm association. AMENDMENTLOCALEAntecedentf@ ref:CIM_AlarmDeviceDescriptionThe alarm device for the package. Dependentf@ *7ref:CIM_PhysicalPackageDescriptionThe physical package whose health, security, environment, etc. is alarmed. D% )$  GNCIM_RelatedStatisticsDescriptionCIM_RelatedStatistics is an association that defines hierarchies and/or dependencies of related CIM_StatisticalInformation classes.AMENDMENTLOCALERelatedStatsf #ref:CIM_StatisticalInformationDescriptionThe related statistics or metrics.Statsf zref:CIM_StatisticalInformationDescriptionThe statistic information/object. 8E8UfOEMCOMPUTE0T04(Y8]0T0Lp08CIM_PackageCooling a, ,L$T0p CIM_Dependency)!   *u/CIM_PackageCoolingDescriptionOften, a cooling device is installed in a package such as a chassis or a rack, not for a specific device, but to assist in the cooling of the package in general. This relationship is described by the CIM_PackageCooling association.AMENDMENTLOCALEAntecedentf@ Vmzref:CIM_CoolingDeviceDescriptionThe cooling device for the package.Dependentf@ ref:CIM_PhysicalPackageDescriptionThe physical package whose environment is cooled. mo )!Y d lue@CIM_ProductSupportDescriptionCIM_ProductSupport is an association between product and support Access that conveys how support is obtained for the product. This is a many-to-many relationship, implying that various types of support are available for a product, and that the same support object can provide assistance for multiple products.AMENDMENTLOCALEProductf ref:CIM_ProductDescriptionThe product.Supportf &ref:CIM_SupportAccessDescriptionSupport for the product. 8ngor0T0صp04CIM_PackageInSlot,LDh,L0 $T0 CIM_Dependency) ; F NZuOCIM_PackageInSlotDescriptionComplex networking devices often are chassis-based. These chassis allow for enhancement and/or augmentation of their base functionality by accepting additional chassis devices, similar to accepting functionality in the form of adding cards. This association models this capability.AMENDMENTLOCALEAntecedentf@ ref:CIM_SlotDescriptionThe slot into which the physical package is inserted.Dependentf@ (5ref:CIM_PhysicalPackageDescriptionThe package in the slot. <CIM_RelatedStatistics0T0><CIM_DeviceErrorCounts,D0$T0  0T0\( 0CIM_Statistics,й $T0й  H 4CIM_Statisticscs4T00T00CIM_CardInSlot ,8$T0ԻP4 CIM_PackageInSlot)  YduCIM_CardInSlotDescriptionSlots are special types of connectors into which adapter cards are inserted. This relationship of a card in a slot is made explicit using the CIM_CardInSlot association.AMENDMENTLOCALEAntecedentf@ !.ref:CIM_SlotDescriptionThe slot into which the card is inserted.Dependentf@ ref:CIM_CardDescriptionThe card in the slot. i )*  wCIM_ProductSoftwareFeaturesDescription The CIM_ProductSoftwareFeatures association identifies the software features for a particular product. AMENDMENTLOCALEComponentf ref:CIM_SoftwareFeatureDescriptionThe component.Productf K\iref:CIM_ProductDescriptionThe product. _0T0p0T0p0<CIM_PackageTempSensor,tD h,DD0$T0D, CIM_Dependency)$  %1uACIM_PackageTempSensorDescriptionOften, a temperature sensor is installed in a package such as a chassis or a rack, not to measure any particular device, but the package's environment in general. This relationship is described by the CIM_PackageTempSensor association.AMENDMENTLOCALEAntecedentf@ ]xref:CIM_TemperatureSensorDescriptionThe temperature sensor for the package.Dependentf@  ref:CIM_PhysicalPackageDescriptionThe physical package whose environment is monitored.  D<CIM_ProductSupportor, DCIM_ComputerSystemPackage0T0,<CIM_ToDirectoryAction$T0 <0T0<CIM_RelatedStatistics,l $sor, h0T0Xܜ,p0($T0pXs THCIM_ProductSoftwareFeatures(T0,0T0\p0<CIM_ProcessExecutable,|@%,$T0CIM_Dependency)$  HUk,UFCIM_ProcessExecutableDescriptionA link between a process and a data file indicating that the file participates in the execution of the process.AMENDMENTLOCALEAntecedentf@)   ref:CIM_DataFileDescriptionThe data file participating in the execution of the process.BaseAddress uint64DescriptionBaseAddress represents the base address of the module in the address space of the associated process.Dependentf@) ?P] ref:CIM_ProcessDescriptionThe process.GlobalProcessCount uint32DescriptionGlobalProcessCount is the current number of processes that have the file loaded in memory.ModuleInstance X`muint32DescriptionModuleInstance represents the Win32 instance handle.ProcessCount  uint32DescriptionProcessCount represents the reference count of the file in the associated process. I$y~(4RegPropProvp,,CIM_OSProcess0T038CIM_RedundancyGroup,X(h$T0(|q(t0T083+(T0{4CIM_ProcessThread0T08ܢL,Win32_Process,$T0P/\,t0T0<p0,CIM_Realizesck,4\,0$T0`H) CIM_Dependency)  JUuCIM_RealizesDescriptionCIM_Realizes is the association that defines the mapping between a logical device and the physical component that implements the device.AMENDMENTLOCALEAntecedentf@  ref:CIM_PhysicalElementDescriptionThe physical component that implements the device.Dependentf@ ref:CIM_LogicalDeviceDescriptionThe logical device. (,CIM_Container8CIM_ElementCapacity  H8 eDee9:CID,h80T0Le<CIM_PhysicalComponent|$T0p((fizes\,T0,00T0LCIM_RealizesAggregatePExtentn,$T0|] CIM_Realizes)+  ZeuCIM_RealizesAggregatePExtentDescriptionCIM_AggregatePExtent is realized on a physical media. This relationship is made explicit by the CIM_RealizesAggregatePExtent association.AMENDMENTLOCALEAntecedentf@ %ref:CIM_PhysicalMediaDescriptionThe physical media on which the extent is realized.Dependentf@ ref:CIM_AggregatePExtentDescriptionThe CIM_AggregatePExtent that is located on the media. onGȠ8CIM_MemoryWithMedia0CIM_SlotInSlot\,h؟\0T08Win32_PortConnector,$h  8R\ROOT\CIMV2\ms_$T0dM0T004CIM_PhysicalLink,4`\0DCIM_RealizesDiskPartition8CIM_RealizesPExtent0T0(<CIM_PhysicalConnector  8ROOT\CIMV2\m$T0+ 0T0,DCIM_RealizesDiskPartition,d4\  84l\p\\OE$T04PCIM_Realizes)(  $0BSU`CIM_RealizesDiskPartitionDescriptionDisk partitions can be realized on a physical media. This relationship is made explicit by the CIM_RealizesDiskPartition association. In addition, the starting address of the disk partition on the physical media is specified here.AMENDMENTLOCALEAntecedentf@ \sref:CIM_PhysicalMediaDescriptionThe physical media on which the extent is realized.Dependentf@ ref:CIM_DiskPartitionDescriptionThe disk partition that is located on the media.StartingAddress uint64DescriptionThe starting address on the physical media where the disk partition begins. Ending address of the partition is determined using the NumberOfBlocks and BlockSize properties of the disk partition object. it\? CIM_Statistics))  5<CIM_ErrorCountersForDeviceDescriptionCIM_ErrorCountersForDevice relates the CIM_DeviceErrorCounts class to the logical device to which it applies. AMENDMENTLOCALEElementf@ ref:CIM_LogicalDeviceDescriptionThe device to which the error counters apply. Statsf@ href:CIM_DeviceErrorCountsDescriptionThe statistical object in this case, the error counter class. $yD-`B__ExtrinsicEventRegistryEvent e@y$D- 0T08CIM_RealizesPExtent,l$T0l$CIM_Realizes)"  #7HU_CIM_RealizesPExtentDescriptionPhysical extents are realized on a physical media. This relationship is made explicit by the CIM_RealizesPExtent association. In addition, the starting address of the physical extent on the physical media is specified here.AMENDMENTLOCALEAntecedentf@ Ofsref:CIM_PhysicalMediaDescriptionThe physical media on which the extent is realized.Dependentf@ ref:CIM_PhysicalExtentDescriptionThe physical extent that is located on the media.StartingAddress t|uint64DescriptionThe starting address on the physical media where the physical extent begins. Ending address of the physicalextent is determined using the NumberOfBlocks and BlockSize properties of the CIM_PhysicalExtent object. xt$T0\4HWin32_SoftwareFeatureAction$T0[)*  Win32_SoftwareFeatureActionDescriptionThis association relates an MSI feature with an action used to register and/or publish the featureAMENDMENTLOCALE 0T0 -HWin32_SoftwareFeatureCheck_8[0T0DWin32_MemoryArrayLocation,\d$T0\  CIM_Realizes)(  uqWin32_MemoryArrayLocationDescriptionThe Win32_MemoryArrayLocation class represents an association between a logical memory array and the physical memory array upon which it exists.AMENDMENTLOCALEAntecedentf@) /< ref:Win32_PhysicalMemoryArrayDescriptionThe Antecedent reference represents the physical memory array that implements the logical memory array.Dependentf@)   ref:Win32_MemoryArrayDescriptionThe Dependent reference indicates the logical memory array implemented by the physical memory array. meob@" )*  HZCIM_PhysicalElementLocationDescriptionCIM_PhysicalElementLocation associates a physical element with a CIM_Location object for inventory or replacement purposes.AMENDMENTLOCALEElementf ref:CIM_PhysicalElementDescriptionThe physical element whose location is specified.PhysicalLocationf ref:CIM_LocationDescriptionThe physical element's location.   |8IMV2\ms_409:Win3<CIM_ParticipatesInSet,h 0Win32_PnPDevice,880Win32_PnPDevice(T0 0T0HWin32_MemoryDeviceLocation,4-$T0 CIM_Realizes))  u?Win32_MemoryDeviceLocationDescriptionThe Win32_MemoryDeviceLocation class represents an association between a memory device and the physical memory on which it exists.AMENDMENTLOCALEAntecedentf@) * ref:Win32_PhysicalMemoryDescriptionThe Antecedent reference represents the physical memory containing the memory device.Dependentf@)  ref:Win32_MemoryDeviceDescriptionThe Dependent reference represents the memory device existing in the physical memory. si<CIM_ParticipatesInSet0T0TtT(CIM_Setting,$T0x$,tDY$T0D 0T0|\Щ<CIM_PhysicalCapacityn, \$T0$8a8MCOMPUTER\ROOT\C0T0D4CIM_PhysicalMedia,,@  8|/dfOEMCOMPUTE$T08y~D- 0T0p08CIM_ResidesOnExtent,\d,\\@JO$T0\@ CIM_Dependency)"t  uCIM_ResidesOnExtentDescriptionAn association between a file system and the storage extent where it is located.AMENDMENTLOCALEAntecedentf@ ref:CIM_StorageExtentDescriptionThe storage extent.Dependentf@ /CPref:CIM_FileSystemDescriptionThe file system that is located on the storage extent. $T0X4x  8 TTCIM_AggregateRedundancyComponentLCIM_RealizesAggregatePExtentT  8\xtentt0T0<CIM_AggregatePSExtent( 0T0Hp0,CIM_RunningOS,,$T0l CIM_Dependency)% 0 8DuHCIM_RunningOSDescriptionCIM_RunningOS indicates the currently executing operating system. At most one operating system can execute at any time on a computer system. 'At most one' is specified, since the computer system may not be currently booted, or its operating system may be unknown.AMENDMENTLOCALEAntecedentf@ pref:CIM_OperatingSystemDescriptionThe operating system currently running on the computer system.Dependentf@  %2ref:CIM_ComputerSystemDescriptionThe computer system. C\dU6WDMClassesOfDriverClassName ' T  stringDriver'   stringHighDateTime'   uint32LowDateTime' .  uint32 80tROOT\CIMV2\ms_40$OO!ؼ0T0p0<CIM_SAPSAPDependency,PmL ,PPx x $T0P8|_ CIM_Dependency)#  NYuCIM_SAPSAPDependencyDescriptionCIM_SAPSAPDependency is an association between a service access point and another service access point indicating that the latter is required in order for the former service access point to utilize or connect with its service. For example, to print at a network printer, local print access points must utilize underlying network-related SAPs, or protocol endpoints, in order to send the print request.AMENDMENTLOCALEAntecedentf@ *ref:CIM_ServiceAccessPointDescriptionThe required service access point.Dependentf@ ref:CIM_ServiceAccessPointDescriptionThe service access point that is dependent on an underlying SAP. <Win32_SoftwareElement, 8!w >mT PWin32_InstalledSoftwareElementA8T0>3@8|5H 0T0 p0@CIM_ServiceAccessBySAP,  T0D,  *$T0   CIM_Dependency)%  &unCIM_ServiceAccessBySAPDescriptionCIM_ServiceAccessBySAP is an association that identifies the access points for a service. For example, a printer may be accessed by NetWare, Macintosh or Windows service accesspoints, potentially hosted on different systems.AMENDMENTLOCALEAntecedentf@ Rcpref:CIM_ServiceDescriptionThe service. Dependentf@ ref:CIM_ServiceAccessPointDescriptionAn access point for a service. Access points are dependent in this relationship since they have no function without a corresponding service. co" CIM_ServiceAccessPoint) T _ gCIM_BootSAPDescriptionA representation of the access points of a boot service.AMENDMENTLOCALE $T0`" CIM_ServiceAccessPoint) ` k sCIM_ClusteringSAPDescriptionA representation of the access points of a clustering service.AMENDMENTLOCALE M_(T08! 0T0 HCIM_BootServiceAccessBySAP,T$L |$T0$ CIM_ServiceAccessBySAP))  uCIM_BootServiceAccessBySAPDescriptionCIM_BootServiceAccessBySAP is the relationship between a boot service and its access points.AMENDMENTLOCALEAntecedentf@ ref:CIM_BootServiceDescriptionThe boot service.Dependentf@ >O\ref:CIM_BootSAPDescriptionAn access point for the boot service. bo8NetworkShortAddress MdmProv  8|eIMV2\ms_409:CIM_, xti<CIM_HostedBootSAPtrHCIM_BootServiceAccessBySAP_8`|/rviceAccessByS DCIM_HostedJobDestinationH4CIM_HostedBootSAP  8pheAccessBySAP$6 0H`)h>d!0T0Ԝ`4CIM_ClusteringSAP<`H\,/8`0T0 LCIM_ClusterServiceAccessBySAP,0L!  8$!Dependent de$T0$< CIM_ServiceAccessBySAP),  *uCIM_ClusterServiceAccessBySAPDescriptionCIM_ClusterServiceAccessBySAP is the relationship between a clustering service and its access points.AMENDMENTLOCALEAntecedentf@ ref:CIM_ClusteringServiceDescriptionThe clustering service.Dependentf@ Vmzref:CIM_ClusteringSAPDescriptionAn access point for the clustering service. rig|LCIM_ClusterServiceAccessBySAP0T0dԜ$@Win32_CommandLineAccess,%$T00' CIM_ServiceAccessPoint)&  Win32_CommandLineAccessDescriptionThe Win32_CommandLineAccess class represents the command line interface to a service or application. The name of the access point is always the full command line text.AMENDMENTLOCALECommandLine  #0stringDescriptionThe value of the Commandline property provides the string used to start the service. 0("  8$9CIM_ClusterServi\CIM_VideoBIOSFeatureVideoBIOSElements0T0!D%0Win32_DriverVXD,   $T0 |0T0D%8 Dd50T0(" LWin32_ApplicationCommandLine,!!&|*$T0!L"q CIM_ServiceAccessBySAP)+  S^uWin32_ApplicationCommandLineDescription The ApplicationCommandLine association allows one to to identify connection between an application and it's command line access point.AMENDMENTLOCALEAntecedentf@)  )6 ref:Win32_ApplicationServiceDescriptionReferences the application.Dependentf@)  ref:Win32_CommandLineAccessDescriptionreferences the commandline used to access the antecedent. e $LWin32_ApplicationCommandLine0T03PO8CIM_SoftwareElement,t%D%8$R$T&%,,ХХ(&,//%XH%T&,))4q(&&,ܢܢ&T&&,&&,((&>&',ԜԜ&0',88'\''\','0'',\'LF$T0HP'*CCIM_SoftwareElement)  MCIM_BIOSElementDescriptionCIM_BIOSElement represents the low-level software that is loaded into non-volatile storage and used to bring up and configure a computer system.AMENDMENTLOCALEPrimaryBIOS < booleanDescriptionIf true, this is the primary BIOS of the computer system. a 0T0*p0DCIM_ServiceSAPDependency,T*$*e!0,$*$*0T0\9l0@Win32_DependentService,880?8$T089$ &CIM_ServiceServiceDependency)%  uWin32_DependentServiceDescriptionThe Win32_DependentService class represents an association between two interdependent base services.AMENDMENTLOCALEAntecedentf@)  ref:Win32_BaseServiceDescriptionThe Antecedent reference represents the Win32_BaseService containing the base service relied upon by the Dependent property of this class.Dependentf@)  ref:Win32_BaseServiceDescriptionThe Dependent reference represents the Win32_BaseService containing a base service that is dependent on the Antecedent property of this class. opDWin32_LogicalProgramGroup  =8`\9hV2\ms_409:Win3L>$DM<XWin32_SystemLoadOrderGroupsCaption`Win32_LoadOrderGroupServiceDependencies  8D0T0h?p0\CIM_SoftwareFeatureSAPImplementationu,>>>G9G,>>1G1G$T0>?} CIM_Dependency)&3   uCIM_SoftwareFeatureSAPImplementationDescription An association between a service access point and how it is implemented in software. The cardinality of this association is many-to-many. A SAP may be provided by more than one software feature, operating in conjunction. And, any software feature may provide more than one service access point. a When many software features are associated with single SAP, it is assumed that these elements operate in conjunction to provide the access point. If different implementations of a SAP exist, each of these implementations would result in individual instantiations of the service access point object. These individual instantiations would then have associations to the unique implementations. AMENDMENTLOCALEAntecedentf@ AZgref:CIM_SoftwareFeatureDescriptionThe antecedent software feature.Dependentf@ ref:CIM_ServiceAccessPointDescriptionThe dependent service access point.  )(  ;Win32_ImplementedCategoryDescriptionThe Win32_ImplementedCategory class represents an association between a component category and the COM classusing its interfaces.AMENDMENTLOCALECategoryf)  )ref:Win32_ComponentCategoryDescriptionThe Category reference represents the component category being used by the COM class.Componentf)  ref:Win32_ClassicCOMClassDescriptionThe Component reference represents the COM class using the associated category. n0T0Gp0dCIM_SoftwareFeatureServiceImplementation,(GF?O,FFstringRootPath ostring p\\.\root\default:__Win32Provider.Name="RegProv"DHWin32_ProgramGroupContents_  u8" uirectory*9P__Win32Provider{fa77a74e-e109-11d0-ad6e-00c04fd8fdff}RegistryEventProviderc$y0T0dwp0\Win32_LogicalProgramGroupItemDataFile,vv|)0\od,vvo$T0vw(  CIM_Dependency)'4  uWin32_LogicalProgramGroupItemDataFileDescriptionThe Win32_LogicalProgramGroupItemDataFile class represents an association between the program group items of the start menu and the files in which they are stored.AMENDMENTLOCALEAntecedentf@) /R_ ref:Win32_LogicalProgramGroupItemDescriptionThe Antecedent reference represents the Win32_LogicalProgramGroupItem that represents program groupings in the start menu.Dependentf@) /< ref:CIM_DataFileDescriptionThe Dependent reference represents the CIM_DataFile class associated with the program group. z\Win32_LogicalProgramGroupItemDataFileDWin32_QuickFixEngineering,(GCIM_PhysicalComponent)    CIM_ChipDescriptionThe CIM_Chip class represents any type of integrated circuit hardware, including ASICs, processors, memory chips, etc.AMENDMENTLOCALEFormFactor@+ v ~uint16DescriptionThe implementation form factor for the chip.For example, values such as SIMM (7), TSOP (9) or PGA (10) can be specified.Values UnknownOtherSIPDIPZIPSOJProprietarySIMMDIMMTSOPPGARIMMSODIMM 7)$y$m$#H" RegProv0T0p0DWin32_OperatingSystemQFE, ~ w,,~~8w܎8wX$T0~\? CIM_Dependency)'  uWin32_OperatingSystemQFEDescriptionThe Win32_OperatingSystemQFE class represents an association between an operating system and product updates applied as represented in Win32_QuickFixEngineering.AMENDMENTLOCALEAntecedentf@)  ;H ref:Win32_OperatingSystemDescriptionThe Win32_OperatingSystem antecedent reference represents the Win32_OperatingSystem effected by the product update in this association.Dependentf@) 2? ref:Win32_QuickFixEngineeringDescriptionThe Win32_QuickFixEngineering dependent reference represents the Win32_QuickFixEngineering applied to the operating system in this association. RegistryEventEN%uRegistryKeyChangeEventHive =stringKeyPath mstring taDRegistryValueChangeEvent4$eeing,T0\+.#3DWin32_OperatingSystemQFE,ЏX-P,$T0|$T0xLh))  Win32_SoftwareFeatureCheckDescriptionThis association relates an MSI feature with any condition or locational information that a feature may require.AMENDMENTLOCALE neering,-`-xLp0T0|30Win32_Registryp<  l{, 0T0p0@Win32_PrinterDriverDll, d,܎$T0t CIM_Dependency)%  ^iuWin32_PrinterDriverDllDescriptionThe Win32_PrinterDriverDll class represents the association between a local printer and its driver file.AMENDMENTLOCALEAntecedentf@)  ref:CIM_DataFileDescriptionThe CIM_DataFile antecedent reference represents the driver file for this Win32 printer.Dependentf@)  ref:Win32_PrinterDescriptionThe Win32_Printer dependent reference represents the Win32_Printer. <CIM_ProcessExecutable8]@__8DܽterDrive$ h]XWin32_SoftwareElementCheck_ManagedSystemElemDCIM_DirectoryContainsFile  t$T00T0t0Win32_PageFileD,̌<^XWin32_SerialPortConfigurationlarmDescri0T0t0Win32_CodecFile8`,0T0p08Win32_PrinterShares ,xH,", ,HHXLXL$T0H, CIM_Dependency)!  uWin32_PrinterShareDescriptionThe Win32_PrinterShare class represents an association between a local printer and the share that represents it as it is viewed over a network.AMENDMENTLOCALEAntecedentf@) ( ref:Win32_PrinterDescriptionThe Win32_Printer antecedent reference indicates the Win32_Printer representing the local printer shared in this association.Dependentf@)  ref:Win32_ShareDescriptionThe Win32_Share dependent referenceindicates the Win32_Share representing the network share of the printer in this association. 8<pMCOMPUTER\ROOT\C0T0<Win32_PhysicalMemory0x?@`e,4,ȎhH$T0 ȓ  8LP4CIM_MemoryOnCard38CIM_MemoryWithMedia  @$xare,||\hz0T0y08CIM_PhysicalElement( T0T0xp0HWin32_SystemDriverPNPEntity,ؕT,܎$T0 CIM_Dependency)*  ulWin32_SystemDriverPNPEntityDescriptionThe Win32_SystemDriverPNPEntity class represents an association between a Plug and Play device on the Win32 computer system and the driver that supports the Plug and Play device.AMENDMENTLOCALEAntecedentf@) 4IV ref:Win32_PNPEntityDescriptionThe Antecedent reference represents the Plug and Play device controlled by the driver.Dependentf@)  ref:Win32_SystemDriverDescriptionThe Dependent reference represents the driver that supports the Plug and Play device. ,WMIEventProv,@p">>   8YxV2\ms_409:Win3 ,T0Ԝc,,,!!,x,xHWin32_SystemDriverPNPEntity>}.h&jѿZWDMClassesOfDriverMSPower_DeviceWakeEnableC:\WINDOWS\SYSTEM\wmicore.dll[MofResource]DWin32_SystemSystemDriverm  @<|Eܛityܛ4Win32_SystemUsers$T0 40T0`30-@CIM_ServiceAccessPointv0Ԝ/0T0 <CIM_DependencyContext,t  $T0t0j )$  CIM_DependencyContextDescriptionThis relationship associates a CIM_Dependency with one or more CIM_Configuration objects. For example, a computer system's dependencies could change based on the site/network to which the system is attached.AMENDMENTLOCALEContextf =Taref:CIM_ConfigurationDescriptionThe configuration object that aggregates the dependency.Dependencyf ref:CIM_DependencyDescriptionAn aggregated dependency. th  D<CIM_DependencyContextd<CIM_DependencyContext0T0LPCIM_DirectorySpecificationFile,С1x T$T0plP ) -  uCIM_DirectorySpecificationFileDescriptionThe CIM_DirectorySpecificationFile association identifies the directory that contains the file being specified by referencing the CIM_DirectorySpecification class. AMENDMENTLOCALEDirectorySpecificationf *JWref:CIM_DirectorySpecificationDescriptionThe directory specification.FileSpecificationf ref:CIM_FileSpecificationDescriptionThe file specification.  VLpWPCIM_DirectorySpecificationFilePCIM_DirectorySpecificationFile0T08CIM_ElementCapacity,h(P ԭ$T0, )"2 = EO2;ECIM_ElementCapacityDescriptionCIM_ElementCapacity associates a CIM_PhysicalCapacity object with one or more physical elements. It serves to associate a description of min/max hardware requirements or capabilities (stored as a kind of CIM_PhysicalCapacity), with the physical elements being described.AMENDMENTLOCALECapacityf {ref:CIM_PhysicalCapacityDescriptionCIM_PhysicalCapacity describes the minimum and maximum requirements and ability to support different types of hardware for a physical element.Elementf gref:CIM_PhysicalElementDescriptionThe physical element being described. 98CIM_ElementCapacity8CIM_MemoryCapacity,$\P$$T0\0T0PHCIM_PhysicalElementLocation,ܪ\$T0PHCIM_PhysicalElementLocationHCIM_PhysicalElementLocation0T0a(CIM_Product,l<$a$T0< ,̡`4T0Ь0T0DCIM_ElementConfigurationef,`T$T0`$ )'   -nCIM_ElementConfigurationDescriptionThis association relates a CIM_Configuration object to one or more managed system elements. The CIM_Configuration object represents a certain behavior, or a desired functional state for the associated CIM_ManagedSystemElement.AMENDMENTLOCALEConfigurationf Yp}ref:CIM_ConfigurationDescriptionThe CIM_Configuration object that groups the settings and dependencies associated with the managed system element.Elementf &DQref:CIM_ManagedSystemElementDescriptionThe managed system element. sso  ,8 Cd (3) or must not be startedܱ0CIM_ActsAsSpare,CIM_Component$ \3DCIM_ElementConfiguration  d8 E8CIM_ElementSettingC@CIM_RedundancyComponent$0T0̳غ8CIM_ElementSetting,h8ԭ8Wԭ$T08   '0fo%CIM_ElementSettingAMENDMENTLOCALEElementf \zref:CIM_ManagedSystemElementDescriptionThe Element reference represents the role of the CIM_ManagedSystemElement object of the CIM_ElementSetting association. Role: The associated managed system element provides the element that implements the element setting.Settingf ref:CIM_SettingDescriptionThe CIM_Setting reference represents the role of the CIM_Setting object of the CIM_ElementSetting association. Role: The associated setting provides the setting that implements the element setting. on<Win32_ProcessStartupM,ܶT4-0T0<Win32_PnPDevicetting,T0V$d`ؠHCIM_ElementSettingܷ  D8̳  C\ms_409:CIM_ )$1  Win32_ManagedSystemElementResourceDescriptionThis association relates an MSI feature with an action used to register and/or publish the featureAMENDMENTLOCALE ng,(H<Win32_DeviceSettingsM  44T00T088CIM_MonitorSetting,tD $T0DH+ CIM_ElementSetting)!  %CIM_MonitorSettingDescriptionCIM_MonitorSetting associates the monitor resolution with the desktop monitor to which it applies.AMENDMENTLOCALEElementf@)  ref:CIM_DesktopMonitorDescriptionThe desktop monitor.Settingf@) Sn{ ref:CIM_MonitorResolutionDescriptionThe monitor resolution associated with the desktop monitor. ,Ŀ,PWin32_ClientApplicationSettingPWin32_ClientApplicationSetting0T0оHWin32_ComClassAutoEmulator,\,m`$T0,, |DP+X8CIM_MonitorSetting4Win32_CheckCheck20T0DPWin32_ClientApplicationSetting$T0Ŀ,CIM_Directory,D,T0  )$T0H,$`$T0-,T0(0T0LCIM_VideoControllerResolution0T0 84CIM_VideoSetting_,h86P+ 8D80 l7>$T08D\> CIM_ElementSetting)  %.%CIM_VideoSettingDescriptionThe CIM_VideoSetting class associates the CIM_VideoControllerResolution setting object with the controller to which it applies.AMENDMENTLOCALEElementf@ ref:CIM_VideoControllerDescriptionThe video controller.Settingf@ Z}ref:CIM_VideoControllerResolutionDescriptionThe video controller resolution associated with the controller. $T000)  Win32_ActionCheckDescriptionThis association relates an MSI action with any locational information it requires. This location is in the form of a file and/or directory specification.AMENDMENTLOCALE 0T0X8Win32_CheckCheckon,T0ĵ|$T0D$$   8 8IMV2\ms_409:CIM_8,LCIM_ToDirectorySpecificationeLCIM_ToDirectorySpecificationC8\CIMV2\ms_409:CI0T04Win32_ActionCheck<`0\,olution,Ƚt8Win32_VideoSettings  4T0X o0T0888Win32_VideoSettings,?L$T0\4 CIM_VideoSetting)"  %Win32_VideoSettingsDescriptionThe WIn32_VideoSettings class represents an association between a video controller and video settings that can be applied to it.AMENDMENTLOCALEElementf@)  ref:Win32_VideoControllerDescriptionThe Element reference represents the Win32_VideoController containing the properties of the video controller that a video setting can be used on.Settingf@) " ref:CIM_VideoControllerResolutionDescriptionThe Setting reference represents a CIM_VideoControllerResolution containing settings that can be applied to the video controller. vi44CIM_VideoSettingl8C#@Win32_BootConfiguration$T0T|T6 )  V]CIM_StatisticsDescriptionCIM_Statistics is an association that relates managed system elements to the statistical group(s) that apply to them.AMENDMENTLOCALEElementf ref:CIM_ManagedSystemElementDescriptionThe CIM_ManagedSystemElement for which statistical or metric data is defined.Statsf ref:CIM_StatisticalInformationDescriptionThe statistical information/object. 4CIM_StorageError$T0Px0T0\CIM_ToDirectorySpecification@0T0x8LWin32_ClassicCOMClassSettings,$T0 CIM_ElementSetting),  %TWin32_ClassicCOMClassSettingsDescriptionThe Win32_ClassicCOMClassSettings class represents an association between a COM class and the settings used to configure instances of the COM class.AMENDMENTLOCALEElementf@) 0= ref:Win32_ClassicCOMClassDescriptionThe Element reference represents the COM class where the settings are applied.Settingf@)  ref:Win32_ClassicCOMClassSettingDescriptionThe Setting reference represents configuration settings associated with the COM class.  Win32_MSIResource)#  ?Win32_ServiceControlDescriptionInstances of this class represent instrctions for controlling both installed and uninstalled services.AMENDMENTLOCALE alTWin32_NetworkAdapterConfiguration, P0T0d4CIM_StorageDefect,P 04 44CIM_StorageDefect, 4$$T0,4p  p8Q|<CIM_ToDirectoryActionl4CIM_StorageDefect,P,m  80IMV2\ms_409:Win3$T0P(0T08LWin32_COMApplicationSettingses,`08L$T00 CIM_ElementSetting)+  z%LWin32_COMApplicationSettingsDescriptionThe Win32_COMApplicationSettings class represents an association between a DCOM application and its configuration settings.AMENDMENTLOCALEElementf@) # ref:Win32_DCOMApplicationDescriptionThe Element reference represents the DCOM application where the settings are applied.Settingf@)  ref:Win32_DCOMApplicationSettingDescriptionThe Setting reference represents the configuration settings associated with the DCOM application. LWin32_COMApplicationSettingsD& Win32_MSIResource)   ?Win32_PatchDescriptionInstances of this class represent individual patches that are to be applied to a particular file and whose source reside at a specified location.AMENDMENTLOCALE if Win32_MSIResource)! ! ?)Win32_PatchPackageDescriptionThe PatchPackage class describes all patch packages that have been applied to this product. For each patch package, the unique identifier for the patch is provided along with information about the media image the on which the patch is located.AMENDMENTLOCALE tcP3 Win32_MSIResource)  ?Win32_PropertyDescriptionThis table contains the property names and values for all defined properties in the installation. Properties with Null values are not present in the table.AMENDMENTLOCALE t $T0  0T0 8<Win32_DeviceSettingsE,8_|$T0D CIM_ElementSetting)#  %3Win32_DeviceSettingsDescriptionThe Win32_DeviceSettings class represents an association between a logical device and a setting that can be applied to it.AMENDMENTLOCALEElementf@)   ref:CIM_LogicalDeviceDescriptionThe Element reference represents properties of the logical device on which the settings can be applied.Settingf@)  ref:CIM_SettingDescriptionThe Setting reference represents settings that can be applied to the logical device. 0T0d`LWin32_MethodParameterClasss,T00 =@Win32_ComClassEmulator@Win32_ComClassEmulatorE0T0lDWin32_ImplementedCategoryDWin32_ImplementedCategory0T0\,Win32_Fan0?0T0<(8Win32_SystemSettingHWin32_ComClassAutoEmulator$0T0HWin32_NetworkAdapterSetting,`0 $T00 Win32_DeviceSettings)*  %PWin32_NetworkAdapterSettingDescriptionThe Win32_NetworkAdapterSetting class represents an association between a network adapter and its configuration settings.AMENDMENTLOCALEElementf@ ref:Win32_NetworkAdapterDescriptionThe Element reference represents the properties of anetwork adapter that is using a particular network adapter setting.Settingf@ ref:Win32_NetworkAdapterConfigurationDescriptionThe Setting reference represents the configuration settings used on the network adapter. nCILWin32_OSRecoveryConfiguration,@,$T0`0T0X<Win32_PageFileSetting,L ,D $T0x |<  h@+huration,HWin32_NetworkAdapterSetting,  ,  dd,,TT,DD,@,l,||@,ll,  , ) )50T0p0d,n,dȢ0T0DWin32_NetworkLoginProfile,Dd50T08<Win32_PrinterSettingpo,xHD  80Hpref:CIM_Service$T0H\ Win32_DeviceSettings)#  V_%,Win32_PrinterSettingDescriptionThe Win32_PrinterSetting class represents an association between a printer and its configuration settings.AMENDMENTLOCALEElementf@ ref:Win32_PrinterDescriptionThe Element reference represents the printer that can be configured with the Settings member.Settingf@ ref:Win32_PrinterConfigurationDescriptionThe Setting reference represents the printer configuration settings that can be applied to the associated printer. so 0T0 HCIM_StatisticalInformationg,L,1 $T0̻$0CIM_Statisticser,PPl<Win32_PrinterSetting,X%,%%HH$T0%:&0T0HWin32_SoftwareElementChecki$T0  DX3interConfiguration,z`T0T0%8Win32_ProgramGroupe,@@  0T0p@Win32_SerialPortSetting,p$T0 Win32_DeviceSettings)&  ~%_Win32_SerialPortSettingDescriptionThe Win32_SerialPortSetting class represents an association between a serial port and its configuration settings.AMENDMENTLOCALEElementf@ ref:Win32_SerialPortDescriptionThe Element reference represents the Win32_SerialPort containing the properties of a serial port on the computer system.Settingf@ ref:Win32_SerialPortConfigurationDescriptionThe Setting reference represents the Win32_SerialPortConfiguration containing a configuration setting for the serial port. t$T0p`0T0`0Win32_TimeZone\,,H5$T0e18 )(   dmCIM_SoftwareElementChecksDescription Since software elements in a ready to run state cannot transition into another state, the value of the phase property is restricted to in-state for CIM_SoftwareElement objects in a ready to run state. AMENDMENTLOCALECheckf <KXref:CIM_CheckDescriptionThe check.Elementf ref:CIM_SoftwareElementDescriptionThe element.Phase+  " uint16Description The Phase property indicates whether the referenced check is an in-state check or a next-state check.ValuesIn-StateNext-State o,(30T08LWin32_PageFileElementSetting,4HjDl $T0  CIM_ElementSetting)+  %zWin32_PageFileElementSettingDescriptionThe Win32_PageFileElementSetting class represents an association between the initial settings of a page file and the state of those setting during normal use.AMENDMENTLOCALEElementf@) 7D ref:Win32_PageFileUsageDescriptionThe Element reference represents the properties of a page file while the Win32 system is in use.Settingf@)  ref:Win32_PageFileSettingDescriptionThe Setting reference represents the initial settings of a page file when the Win32 system is starting up. \8T0D йage,\lwLWin32_PageFileElementSetting8 #CIM_SoftwareElementChecks))  ?Win32_SoftwareElementCheckDescriptionThis association relates an MSI element with any condition or locational information that a feature may require.AMENDMENTLOCALE AMHCIM_ErrorCountersForDevice$T0L,D D   D HCIM_ErrorCountersForDeviceeld,d4e?P0T0 |HWin32_PrinterConfigurationn,h 8 @(,8 8 4,$T08 , 88\\\OEMCOM   8ظ2_PageFileElemen,00T0 88Win32_SystemSetting,4  Px$T0   CIM_ElementSetting)"  ~%HWin32_SystemSettingDescriptionThe Win32_SystemSetting class represents an association between a computer system and a general setting on that system.AMENDMENTLOCALEElementf@)  ref:Win32_ComputerSystemDescriptionThe Element reference represents the properties of a computer system where this setting can be applied.Settingf@)  ref:CIM_SettingDescriptionThe Setting reference represents the properties of the setting that can be applied to the computer system. DWin32_ImplementedCategoryXWin32_ManagedSystemElementResource, /$T0|0T0LWin32_SoftwareElementResource,04-g,ԥԥz <CIM_MonitorResolution$T0D 0T0 LWin32_SystemBootConfiguration,,l 0$T0 Win32_SystemSetting),  hq%Win32_SystemBootConfigurationDescriptionThe Win32_SystemBootConfiguration class represents an association between a computer system and its boot configuration.AMENDMENTLOCALEElementf@ ref:Win32_ComputerSystemDescriptionThe Element reference represents the computer system using the boot configuration.Settingf@ ref:Win32_BootConfigurationDescriptionThe Setting reference represents a boot configuration for the computer system. c,`0`Lqp$T000T0lDCIM_SupportAccesseDefect0T0  dn,ffLfXLf|LWin32_SystemBootConfiguration CIM_Setting )  ?Win32_COMSettingDescriptionThe Win32_COMSetting class represents the settings associated with a COM component or COM application.AMENDMENTLOCALE AMf0T0LWin32_ClassicCOMClassSettingo xn, fe|_0T0\4Win32_COMSettingt$T00T0 8Win32_SystemDesktop,xx!  P8 `*h0ceServiceImplementat$T0 Win32_SystemSetting)"  aj%Win32_SystemDesktopDescriptionThe Win32_SystemDesktop class represents an association between a computer system and its desktop configuration.AMENDMENTLOCALEElementf@ ref:Win32_ComputerSystemDescriptionThe Element reference represents the computer system where the desktop configuration exists.Settingf@ ref:Win32_DesktopDescriptionThe Setting reference represents a desktop configuration existing on the computer system. c,\,T>$T0,(T0 _\&p,<x&|)T8Win32_SystemDesktop4Win32_UserDesktop4T0&h  87IMV2\ms_409:Win3$T0=0T0| )<Win32_ServiceControl3 p,@@0T0 HWin32_DisplayConfiguration, dXd$T07<T0лX 0T0! `Win32_SystemLogicalMemoryConfiguration,! *$T0 ! Win32_SystemSetting)(5t  %~Win32_SystemLogicalMemoryConfigurationDescriptionThe Win32_SystemLogicalMemoryConfiguration class represents an association between a logical memory configuration and the computer system on which it exists. This class has been deprecated because the properties existing in the Win32_LogicalMemoryConfiguration class are now a part of the Win32_OperatingSystem class.AMENDMENTLOCALEElementf@ ref:Win32_ComputerSystemDescriptionThe Element reference represents the Win32_ComputerSystem containing the properties of the computer system where the logical memory configuration resides.Settingf@ ref:Win32_LogicalMemoryConfigurationDescriptionThe Setting reference represents the Win32_LogicalMemoryConfiguration containing the logical memory configuration that exists on the computer system. c,\(4(*4  $&8X,()=calMemoryC,lT>(&`Win32_SystemLogicalMemoryConfiguration8 CIM_Setting )  ?Win32_MSIResourceDescriptionThis abstract class represents any resources that are used by the MSI installer durring the course of an installation, patch or upgradeAMENDMENTLOCALE AM&$T0);0T0L )f",x&0T0)X(@Win32_MSIResourcetion,#"[$T0 ) '0T0t( ),Win32_Binaryr8))%)0T0+ DWin32_SystemProgramGroups,*`*x!0$T0`*$+ Win32_SystemSetting)(  ir%Win32_SystemProgramGroupsDescriptionThe Win32_SystemProgramGroups class represents an association between a computer system and a logical program group.AMENDMENTLOCALEElementf@  ref:Win32_ComputerSystemDescriptionThe Element reference represents the computer system containing the logical program group.Settingf@ ref:Win32_LogicalProgramGroupDescriptionThe Setting reference represents a logical program group on the computer system. cD%)  Win32_CheckCheckDescriptionThis association relates an MSI action with any locational information it requires. This location is in the form of a file and/or directory specification.AMENDMENTLOCALELocationf)  ,ref:CIM_CheckDescriptionThis Association relates MSI actions with any locational information that that action may require. This is provided in the form of file and/or directory specifcations. _,4s""(0T01 <Win32_SystemTimeZone,0h0*7$T0h0$1y Win32_SystemSetting)#  T]%Win32_SystemTimeZoneDescriptionThe Win32_SystemTimeZone class represents an association between a computer system and a time zone.AMENDMENTLOCALEElementf@ ref:Win32_ComputerSystemDescriptionThe Element reference represents the computer system keeping track of the system time zone.Settingf@ ref:Win32_TimeZoneDescriptionThe Setting reference represents the time zone properties tracked by the computer system. cnen,,w$T0#DCIM_SoftwareElementChecksDCIM_SoftwareElementChecks,=X%T><Win32_SystemTimeZone,66545$T060T0$64Win32_WMISetting\,5h5B,h5h55$T0h5L7$T0 F@T0 FmeZoneE,l;|d0T0D5DWin32_VideoConfigurationo =Y4P (0T0> 57$G$T0>`? CIM_ElementSetting)&  %Win32_WMIElementSettingDescriptionThe Win32_WMIElementSetting class represents an association between a service running in the Win32 system, and the WMI settings it can use.AMENDMENTLOCALEElementf@) & ref:Win32_ServiceDescriptionThe Element reference in the Win32_WMIElementSetting association, represents the Win32 service using or surfacing WMI properties.Settingf@)   ref:Win32_WMISettingDescriptionThe Setting reference in the Win32_WMIElementSetting association, represents the WMI settings available to the Win32 service. 0T0C8CIM_SettingContext,B|B5F$T0|B4C|] )!  CIM_SettingContextDescriptionThis relationship associates a setting with one or more configuration objects. For example, a network adapter's settings could change based on the site/network to which its hosting computer system is attached.AMENDMENTLOCALEContextf <S`ref:CIM_ConfigurationDescriptionThe configuration object that aggregates the setting.Settingf ref:CIM_SettingDescriptionAn aggregated setting. 8CIM_SettingContext8CIM_SettingContext0T0H6HCIM_SoftwareElementActionsE4PF F%3Bw4F0T0PG(CIM_Exportpe,FF?M$T0FtG )   1H)CIM_ExportDescriptionAn association between a local file system and its directories indicating that the specified directories are available for NFS mount.AMENDMENTLOCALEDirectoryf  ref:CIM_DirectoryDescriptionThe directory exported for NFS mount.ExportedDirectoryName t|STRINGDescriptionName under which the directory is exported.LocalFSf ref:CIM_LocalFileSystemDescriptionThe local file system.  CIM_RedundancyGroup)%   /ICIM_ExtraCapacityGroupDescriptionA class derived from redundancy group indicating that the aggregated elements have more capacity or capability than is needed. An example of this type of redundancy is the installation of N+1 power supplies or fans in a system.AMENDMENTLOCALEMinNumberNeeded [cpUINT32DescriptionMinNumberNeeded indicates the smallest number of elements that must be operational in order to have redundancy. For example, in an N+1 redundancy relationship, the MinNumberNeeded property should be set equal to N. F<Win32_SystemServicesx$ 80T0N@CIM_FromDirectoryAction,MhM$GR$T0hM(N )&  {CIM_FromDirectoryActionDescriptionThe CIM_FromDirectoryAction association identifies the source directory for the file action. When this association is used, the assumption is that the source directory was created by a previous action. This association cannot exist with a CIM_FromDirectorySpecification association since a file action can only involve a single source directory. AMENDMENTLOCALEFileNamef ref:CIM_FileActionDescriptionThe file name.SourceDirectoryf >Wdref:CIM_DirectoryActionDescriptionThe source directory. _UV@CIM_FromDirectoryActionP@CIM_FromDirectoryAction0T0RPCIM_FromDirectorySpecification,,T0D%h'$T080p8CIM_LogicalElement)   GRCJ8C!WUCIM_JobDescriptionCIM_Job is a logical element representing a unit of work for a system, such as a print job. A job is distinct from a process in that a job can be scheduled.AMENDMENTLOCALEElapsedTimee  datetimeDescriptionLength of time that the job has been executingJobStatus ( ~stringDescriptionA free form string representing the job's status.Notify stringDescriptionUser to be notified upon job completion or failureOwner v~stringDescriptionUser that submitted the jobPriority  uint32DescriptionPriority indicates the urgency or importance of execution of a job.StartTimee $ oydatetimeDescriptionTime that the job was begunTimeSubmittede , datetimeDescriptionTime that the job was submittedUntilTimee 0 MWddatetimeDescriptionTime after which the job is invalid or should be stopped ptȃ@CIM_JobDestinationJobswh0T0ܰ80Win32_PrintJoble,d4 L$T04fCIM_Job )5 @  HR2Bnv5C+7   WUU} Win32_PrintJobDescriptionThe Win32_PrintJob class represents a print job generated by a Win32 application. Any unit of work generated by the Print command of an application running on a Win32 system is a descendent (or member) of this class. Example: A print document created by an Office 97 applicationAMENDMENTLOCALEDataType 4 ~stringDescriptionThe DataType property indicates the format of the data for this print job. This instructs the printer driver to eithertranslate the data (generic text, PostScript, or PCL) before printing, or to print in a raw format (for graphics and pictures). Example: TEXTDocument8 stringDescriptionThe Document property specifies the name of the print job. The user sees this name when viewing documents waiting to be printed. Example: Microsoft Word - Review.docDriverName< stringDescriptionThe DriverName property indicates the name of the printer driver used for the print job.HostPrintQueue@ nvstringDescriptionThe HostPrintQueue property contains the name of the computer on which the print job was created.JobIdD !.uint32DescriptionThe JobId property indicates the identifier number of the job. It is used by other methods as a handle to a single job spooling to the printer.Name@ )  stringDescriptionThe Name property contains the name of the printer to which the print job is being spooled.Notify@ stringDescriptionUser to be notified upon job completion or failure. This property is restricted to 16 characters under Windows 9x platforms.PagesPrintedH owuint32DescriptionThe PagesPrinted property specifies the number of pages that have been printed. This value may be zero if the print job does not contain page delimiting information.ParametersL ckxstringDescriptionThe Parameters property indicates optional parameters to send to the print processor. See the PrintProcessor member for more information.PrintProcessorP ? G T stringDescriptionThe PrintProcessor property indicates the print processor service used to process the print job. A printer processor works in conjunction with the printer driver to provide additional translation of printer data for the printer, and can also be used to provide special options such as a title page for the job.SizeT   uint32DescriptionThe Size property indicates the size of the print job.StatusMaskX+ P X e  uint32DescriptionThe StatusMask property specifies a bitmap of the possible statuses relating to this print job.BitValues    ( 2 ; E N W e | PausedErrorDeletingSpoolingPrintingOfflinePaperoutPrintedDeletedBlocked_DevQUser_Intervention_ReqRestartTotalPages\   uint32DescriptionThe TotalPages property specifies the number of pages required to complete the job. This value may be zero if the print job does not contain page-delimiting information. th0T088Win32_ScheduledJob,L  l84ystem. If it is not possible or $T00;MCIM_Job )!  < C $ / # 2 W b W_Win32_ScheduledJobDescriptionThe Win32_ScheduledJob class represents a job scheduled using the Windows NT schedule service. This class is only instrumented on Windows NT 3.51 and later. Each job scheduled against the schedule service is stored persistently (the scheduler will know to start the job even after a reboot) and is executed at the specified time and day of the week and/or month. If the computer is not active or if the scheduled service is not running at the specified job time the schedule service will run the specified job on the next day at the specified time. Scheduled jobs are scheduled with respect to Universal Coordinated Time (UTC), i.e. with bias offset from GMT. This means that a job can be specified using any time zone specification. The Win32_ScheduledJob class will return the local time with UTC offset when enumerating an object and convert to local time when creating new jobs. For example a job specified to run on a computer in Boston at 10:30 pm Monday PST time will be scheduled to run locally at 1:30am Tuesday EST. It should be noted that a client must take into account whether daylight savings time is in operation on the local computer and if so subtract a bias of 60 minutes from the UTC offset.AMENDMENTLOCALECommand8 ,4AstringDescriptionThe Command property contains the name of the command, batch program, or binary file (along with command line arguments) that the schedule service will use to invoke the job. Example: defrag /q /fDaysOfMonthD+ MUb uint32DescriptionThe DaysOfMonth property indicates the days of the month when the job is scheduled to run.BitValuesILORUX[^adhlptx|12345678910111213141516171819202122232425262728293031DaysOfWeek@+  p {uint32DescriptionThe DaysOfWeek property indicates the days of the week when the job is scheduled to run.BitValuesMondayTuesdayWednesdayThursdayFridaySaturdaySundayInteractWithDesktop >  % 2 booleanDescriptionThe InteractWithDesktop property allows the specified job to be interactive (meaning a user can give input to a scheduled job while it is executing). Values TRUE or FALSE. If TRUE, then the job will be interactive. If FALSE, then the job will not be interactive.JobId 4) z   uint32DescriptionThe JobId property indicates the identifier number of the job. It is used by methods as a handle to a single job being scheduled on this computer.JobStatus@ (+ h p }   stringDescriptionThe JobStatus property indicates whether a scheduled service executed successfully the last time this job was supposed to run.Values  SuccessFailureRunRepeatedly < ^ g t booleanDescriptionThe RunRepeatedly property indicates whether the scheduled job should run repeatedly on the days that the job is scheduled. Values: TRUE or FALSE. If TRUE, then the job is run repeatedly. If FALSE, then the job is run once.StartTimee@ $   datetimeDescriptionThe StartTime property represents the UTC time to run the job, in the form of YYYYMMDDHHMMSS.MMMMMM(+-)OOO, where YYYYMMDD must be replaced by ********. The replacement is necessary because the scheduling service only allows jobs to be configured on a day of the month, day of the week, or run once. A job cannot be run on a specific date. Example: ********123000.000000-420 which implies 12:30 pm PST with daylight savings time in effect.b t b#ateCreate&DescriptionThe Create function submits a job to the operating system for execution at a specified future time and date. This function requires that the schedule service be started at the computer towhich the job is submitted. BLD117ROOT\CIMV2\ms_409  * ?- T U __PARAMETERSabstractCommandstring 3In 3Z The Command parameter contains the name of the command, batch program, or binary file (along with command line parameters) that the schedule service will use to invoke the job. Example: defrag /q /fDescription) 3Z PID6 Z PstringeStartTimedatetimee Ine * The StartTime parameter represents the UTC time to run the job. This is of the form YYYYMMDDHHMMSS.MMMMMM(+-)OOO, where YYYYMMDD must be replaced by ********. Example: ********123000.000000-420 which implies 12:30 pm PST with daylight savings time in effect.Descriptione) * ]XIDe6 * ]Xdatetime RunRepeatedlyboolean  In  < The RunRepeatedly parameter indicates whether the scheduled job should run repeatedly on the days that the job is scheduled. Values: TRUE or FALSE. If TRUE, then the job is run repeatedly according to the DaysOfWeek and DaysOfMonth parameter. If no value is supplied the parameter defaults to FALSE.Description ) < jID 6 $< jboolean DaysOfWeekuint32  KIn  Kr The DaysOfWeek parameter indicates the days of the week when the job is scheduled to run, and is used only when the RunRepeatedly parameter is TRUE.Description ) Kr 6MondayTuesdayWednesdayThursdayFridaySaturdaySundayBitValues 6 Kr 6 zID C ~r 6 z)uint32DaysOfMonthuint32 In  The DaysOfMonth parameter indicates the days of the month when the job is scheduled to run, and is used only when the RunRepeatedly parameter is TRUE.Description)  V Y \ _ b e h k n q u y } 12345678910111213141516171819202122232425262728293031BitValues6    IDC m     uint32 InteractWithDesktopboolean   In    The InteractWithDesktop parameter indicates whether the specified job should be interactive (meaning a user can give input to the scheduled job while it is executing). Values TRUE or FALSE. If TRUE, then the job will be interactive. The default value of this parameter is FALSE.Description )    ID 6   P boolean __ __ __ __ __ __BLD117ROOT\CIMV2\ms_409 L  *Y"__PARAMETERSabstractJobIduint32 1Out 1X The JobId parameter indicates the identifier number of the job. This parameter is a handle to the job being scheduled on this computer.Description) 1X ID6 X Uuint32ReturnValueuint32 uint32out  __ __ __ __DeleteDescriptionThe Delete method deletes a scheduled job.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __0T0x3p8CIM_JobDestination(3,p  $T0lN"CIM_LogicalElement)!F Q YlFRWCIM_JobDestinationDescriptionCIM_JobDestination is a logical element representing where a job is submitted for processing. It can refer to a queue that contains zero or more jobs, such as a print queue containing print jobs. job destinations are hosted on systems, similar to the way that services are hosted on systems.AMENDMENTLOCALECreationClassName)  STRINGDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.SystemCreationClassName)  STRINGDescriptionThe scoping system's creation class name.SystemName)  STRINGDescriptionThe scoping system's name. $  D8mȃlementSetting association. Role:(:CIM_LogicalElement)    7ADQWUUCIM_LogicalDeviceDescriptionAn abstraction or emulation of a hardware entity, that may or may not be realized in physical hardware. Any characteristics of logical devices that are used to manage its operation or configuration are contained in, or associated with, the CIM_LogicalDevice object. Examples of the operational properties for a printer would be paper sizes supported, or detected errors. Examples of the configuration properties of a sensor device would be threshold settings. Various configurations could exist for a logical device. These configurations could be contained in CIM_Setting objects and associated with the logical device.AMENDMENTLOCALEAvailability+ A Iuint16DescriptionThe availability and status of the device. For example, the Availability property indicates that the device is running and has full power (value=3), or is in a warning (4), test (5), degraded (10) or power save state (values 13-15 and 17). Regarding the power saving states, these are defined as follows: Value 13 ("Power Save - Unknown") indicates that the device is known to be in a power save mode, but its exact status in this mode is unknown; 14 ("Power Save - Low Power Mode") indicates that the device is in a power save state but still functioning, and may exhibit degraded performance; 15 ("Power Save - Standby") describes that the device is not functioning but could be brought to full power 'quickly'; and value 17 ("Power Save - Warning") indicates that the device is in a warning state, though also in a power save mode.Values4QgtOtherUnknownRunning/Full PowerWarningIn TestNot ApplicablePower OffOff LineOff DutyDegradedNot InstalledInstall ErrorPower Save - UnknownPower Save - Low Power ModePower Save - StandbyPower CyclePower Save - WarningConfigManagerErrorCode+ ' /uint32DescriptionIndicates the Win32 Configuration Manager error code.Values, C D _ t '  = ZDt0This device is working properly.This device is not configured correctly.Windows cannot load the driver for this device.The driver for this device might be corrupted, or your system may be running low on memory or other resources.This device is not working properly. One of its drivers or your registry might be corrupted.The driver for this device needs a resource that Windows cannot manage.The boot configuration for this device conflicts with other devices.Cannot filter.The driver loader for the device is missing.This device is not working properly because the controlling firmware is reporting the resources for the device incorrectly.This device cannot start.This device failed.This device cannot find enough free resources that it can use.Windows cannot verify this device's resources.This device cannot work properly until you restart your computer.This device is not working properly because there is probably a re-enumeration problem.Windows cannot identify all the resources this device uses.This device is asking for an unknown resource type.Reinstall the drivers for this device.Your registry might be corrupted.System failure: Try changing the driver for this device. If that does not work, see your hardware documentation.Windows is removing this device.This device is disabled.System failure: Try changing the driver for this device. If that doesn't work, see your hardware documentation.This device is not present, is not working properly, or does not have all its drivers installed.Windows is still setting up this device.Windows is still setting up this device.This device does not have valid log configuration.The drivers for this device are not installed.This device is disabled because the firmware of the device did not give it the required resources.This device is using an Interrupt Request (IRQ) resource that another device is using.This device is not working properly because Windows cannot load the drivers required for this device.ConfigManagerUserConfig  booleanDescriptionIndicates whether the device is using a user-defined configuration.DeviceID mustringDescriptionDeviceID is an address or other identifying information to uniquely name the logical device.ErrorCleared 4 #0booleanDescriptionErrorCleared is a boolean property indicating that the error reported in LastErrorCode property is now cleared.ErrorDescription0 stringDescriptionErrorDescription is a free-form string supplying more information about the error recorded in LastErrorCode property, and information on any corrective actions that may be taken.LastErrorCode , uint32DescriptionLastErrorCode captures the last error code reported by the logical device.PNPDeviceID $ }stringDescriptionIndicates the Win32 Plug and Play device ID of the logical device. Example: *PNP030bPowerManagementCapabilities + ?GT uint16DescriptionIndicates the specific power-related capabilities of the logical device. The array values, 0="Unknown", 1="Not Supported" and 2="Disabled" are self-explanatory. The value, 3="Enabled" indicates that the power management features are currently enabled but the exact feature set is unknown or the information is unavailable. "Power Saving Modes Entered Automatically" (4) describes that a device can change its power state based on usage or other criteria. "Power State Settable" (5) indicates that the SetPowerState method is supported. "Power Cycling Supported" (6) indicates that the SetPowerState method can be invoked with the PowerState input variable set to 5 ("Power Cycle"). "Timed Power On Supported" (7) indicates that the SetPowerState method can be invoked with the PowerState input variable set to 5 ("Power Cycle") and the Time parameter set to a specific date and time, or interval, for power-on.Values(2;e{UnknownNot SupportedDisabledEnabledPower Saving Modes Entered AutomaticallyPower State SettablePower Cycling SupportedTimed Power On SupportedPowerManagementSupported (  booleanDescriptionIndicates that the device can be power managed - i.e. can be put into suspend mode, etc. This boolean does not indicate that power management features are currently enabled, only that the logical device is capable of power management.StatusInfo *+ ;CPQ Yuint16DescriptionStatusInfo is a string indicating whether the logical device is in an enabled (value = 3), disabled (value = 4) or some other (1) or unknown (2) state. If this property does not apply to the logical device, the value, 5 ("Not Applicable"), should be used.ValuesqxOtherUnknownEnabledDisabledNot Applicabled Lnab( SetPowerState -DescriptionSetPowerState defines the desired power state for a logical device and when a device should be put into that state. The desired power state is specified by setting the PowerState parameter to one of the following integer values: 1="Full Power", 2="Power Save - Low Power Mode", 3="Power Save - Standby", 4="Power Save - Other", 5="Power Cycle" or 6="Power Off". The Time parameter (for all state changes, except 5, "Power Cycle") indicates when the power state should be set, either as a regular date-time value or as an interval value (where the interval begins when the method invocation is received). When the PowerState parameter is equal to 5, "Power Cycle", the Time parameter indicates when the device should power on again. Power off is immediate. SetPowerState should return 0 if successful, 1 if the specified PowerState and Time request is not supported, and some other value if any other error occurred.BLD117ROOT\CIMV2\ms_409 5 *A__PARAMETERSabstractPowerStateuint16 6IN 6] ID) ] uint16eTimedatetimee INe  IDe) x =datetime __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ResetDescriptionRequests a reset of the logical device. The return value should be 0 if the request was successfully executed, 1 if the request is not supported and some other value if an error occurred.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __,VV,]],ss,x,$$\,p'p'0,//\,77,\A\A ,lJlJ\ 8 ,<<  d ,(P(P8  8  ,XWXWd  ,``d    ,  h  h <CIM_AllocatedResource8CIM_AssociatedAlarm8##%"(#h#<CIM_AssociatedBattery<CIM_AssociatedCooling<CIM_AssociatedMemory<CIM_AssociatedSensorDCIM_DeviceAccessedByFile4CIM_SystemDevice@Win32_AssociatedBattery8Win32_SystemDevices<CIM_DeviceConnection$&$h,!!%,$,$,P!P!X$$X$,!!,$$,!!$4%X$$,8"8"$$,t"t"$%$%,""$4%,""$%%`%,(#(#4%%,h#h#`%!`%!,&8CIM_SerialInterface,%%$)%&HWin32_1394ControllerDevice,H&H&&'DWin32_IDEControllerDevice,&&&t'&t'HWin32_SCSIControllerDeviceal,,','''DWin32_USBControllerDevice,'''(t'X(HCIM_DeviceSAPImplementation,(('(PCIM_DeviceServiceImplementation,((X(8)X(8)8CIM_DeviceSoftwareaW,))(),CIM_Realizesbi,d)d)'|*8))@Win32_AllocatedResource,)))|*TWin32_CIMLogicalDeviceCIMDataFile,(*(*)*)*0Win32_DeviceBus,**@+|*@+<Win32_DeviceSettingst ,++*0T0+XF0CIM_AlarmDevice,+l+|Q $T0l+,5ACIM_LogicalDevice)  !*sCIM_AlarmDeviceDescriptionAn alarm device is a type of device that emits audible or visible indications related to a problem situation. AMENDMENTLOCALEAudibleAlarm 6 booleanDescriptionBoolean indicating that the alarm is audible. Urgency:+ ckx uint16DescriptionUrgency is an enumerated value that indicates the relative frequency at which the alarm flashes and/or emits audible tones. Values'.=LZdUnknownOtherNot SupportedInformationalNon-CriticalCriticalUnrecoverableVisibleAlarm 8 booleanDescriptionBoolean indicating that the alarm is visible. Bmal SetUrgency*DescriptionSetUrgency is a method for defining the desired urgency level for the alarm. Its input parameter, RequestedUrgency, is specified using the Values list of CIM_AlarmDevice's Urgency property. SetUrgency returns 0 if the request is successfully implemented, 1 if the specified urgency level is not supported, and some other value if any other error occurred.BLD117ROOT\CIMV2\ms_409  *__PARAMETERSabstractRequestedUrgencyuint16 <IN <c ID) c uint16 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __DF$T0dT5kCIM_LogicalDevice)    ,7RbJ\zf w UUUCIM_BatteryDescriptionCapabilities and management of the battery logical device. This class applies to both batteries in laptop systems and other internal/external batteries, such as used in, or as UPSs.AMENDMENTLOCALEBatteryStatus6+ ,4Ab juint16DescriptionDescription of the battery's charge status. Values such as "Fully Charged" (value=3) or "Partially Charged" (11) can be specified. The value, 10, is not valid in the CIM Schema since in DMI it represents that no battery is installed. In this case, this object should not be instantiated.Values OtherUnknownFully ChargedLowCriticalChargingCharging and HighCharging and LowCharging and CriticalUndefinedPartially ChargedChemistryB+ px uint16DescriptionAn enumeration that describes the battery's chemistry.Values*7AOtherUnknownLead AcidNickel CadmiumNickel Metal HydrideLithium-ionZinc airLithium PolymerDesignCapacityD uint32DescriptionThe design capacity of the battery in Milliwatt-Hours. If this property is not supported, enter 0.DesignVoltageL BJWuint64DescriptionThe design voltage of the battery in Millivolts. If this attribute is not supported, enter 0.EstimatedChargeRemaining@ uint16DescriptionAn estimate of the percentage of full charge remaining.EstimatedRunTime< uint32DescriptionEstimatedRunTime is an estimate in minutes of the time to battery charge depletion under the present load conditions if the utility power is off, or lost and remains off, or a Laptop is disconnected from a power source.ExpectedLife\ uint32DescriptionIndicates the battery's expected lifetime in minutes, assuming that the battery is fully charged. This property represents the total expected life of the battery, not its current remaining life, which is indicated by the EstimatedRunTime property. FullChargeCapacityH   uint32DescriptionThe full charge capacity of the battery in Milliwatt-Hours. Comparison of this value to the DesignCapacity property determines when the battery requires replacement. A battery's end of life is typically when the FullChargeCapacity property falls below 80% of the DesignCapacity property. If this property is not supported, enter 0.MaxRechargeTime`   uint32DescriptionMaxRechargeTime indicates the maximum time, in minutes, to fully charge the battery. This property represents the time to recharge a fully depleted battery, not the current remaining charging time, which is indicated in the TimeToFullCharge property. SmartBatteryVersionT   stringDescriptionThe Smart Battery Data Specification version number supported by this battery. If the battery does not support this function, the value should be left blank.TimeOnBattery8   uint32DescriptionTimeOnBattery indicates the elapsed time in seconds since the computer system's UPS last switched to battery power, or the time since the system or UPS was last restarted, whichever is less. Zero shall be returned if the battery is 'on line'.TimeToFullChargeX ,4Auint32DescriptionThe remaining time to charge the battery fully in minutes at the current charging rate and usage. oF<tCIM_Battery )  `u?Win32_BatteryDescriptionThe Win32_Battery class represents a battery connected to the computer system. This could be either an Uninterruptible Power Supply (UPS), or a laptop battery. Example: Uninterruptible Power Supply (UPS).AMENDMENTLOCALEBatteryRechargeTimeh >FSuint32DescriptionThe BatteryRechargeTime property indicates the time required to fully charge the battery.DeviceID@)  stringDescriptionThe DeviceID property contains a string identifying the battery. Example: Internal BatteryExpectedBatteryLifed uint32DescriptionThe ExpectedBatteryLife property indicates the amount of time it takes to completely drain the battery after it has been fully charged. in4Win32_Battery)$  (_Win32_PortableBatteryDescriptionThe Win32_PortableBattery class contains the properties related to a portable battery, such as one used for a notebook computer.AMENDMENTLOCALECapacityMultiplier"z uint16DescriptionThe CapacityMultiplier property contains the multiplication factor of the Design Capacity value to ensure that the milliwatt hour value does not overflow for Smart Battery Data Specification (SBDS) implementations.Locationl %2stringDescriptionThe Location property indicates the physical location of the battery. This property is filled by the computer manufacturer. Example: In the back, on the left-hand sideManufactureDatep  -stringDescriptionThe ManufactureDate property identifies the date when the battery was manufactured.Manufacturer t stringDescriptionThe Manufacturer property indicates the manufacturer of the battery.MaxBatteryError!x T\iuint16DescriptionThe MaxBatteryError property indicates the difference between the highest estimated amount of energy left in the battery and the current amount reported by the battery. ptdevx[ECIM_LogicalDevice)  CIM_ControllerDescriptionCIM_Controller is a superclass for grouping the miscellaneous controlling-related devices that exist. Examples of controllers are SCSI controllers, USB controllers, serial controllers, ...AMENDMENTLOCALEMaxNumberControlled6 /7Duint32DescriptionMaximum number of directly addressable entities supportable by this controller. A value of zero should be used if the number is unknown.ProtocolSupported:+ "/t |uint16DescriptionThe protocol used by the controller to access 'controlled' devices.Values/<CLRW\gz#9LS_dkr|',27<CIOafOtherUnknownEISAISAPCIATA/ATAPIFlexible Diskette1496SCSI Parallel InterfaceSCSI Fibre Channel ProtocolSCSI Serial Bus ProtocolSCSI Serial Bus Protocol-2 (1394)SCSI Serial Storage ArchitectureVESAPCMCIAUniversal Serial BusParallel ProtocolESCONDiagnosticI2CPowerHIPPIMultiBusVMEIPIIEEE-488RS232IEEE 802.3 10BASE5IEEE 802.3 10BASE2IEEE 802.3 1BASE5IEEE 802.3 10BROAD36IEEE 802.3 100BASEVGIEEE 802.5 Token-RingANSI X3T9.5 FDDIMCAESDIIDECMDST506DSSIQIC2Enhanced ATA/IDEAGPTWIRP (two-way infrared)FIR (fast infrared)SIR (serial infrared)IrBusTimeOfLastResete< datetimeDescriptionThe TimeOfLastReset property indicates the date and time this controller was last reset. This could mean the controller was powered down, or reinitialized. tiA,ECIM_Controller)%` k sCIM_InfraredControllerDescriptionCapabilities and management of an CIM_InfraredController.AMENDMENTLOCALE eI CIM_InfraredController)#  bpWin32_InfraredDeviceDescriptionThe Win32_InfraredDevice class represents the capabilities and management of an infrared device.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the infrared device with other devices on the system.Manufacturer@ stringDescriptionThe Manufacturer property indicates the name of the manufacturer of the infrared device . Example: Acme iuihKECIM_Controller)'  CIM_ManagementControllerDescriptionCapabilities and management of a management controller. An I2C microcontroller is a type of management controller.AMENDMENTLOCALE lhLPCIM_Controller)%f q yCIM_ParallelControllerDescriptionCapabilities and management of the parallel port logical deviceAMENDMENTLOCALECapabilities @+ $ ,uint16DescriptionAn integer enumeration indicating the capabilities of the parallel controllerValues T]dvUnknownOtherXT/AT CompatiblePS/2 CompatibleECPEPPPC-98PC-98-HiresoPC-H98CapabilityDescriptions D stringDescriptionAn array of free-form strings providing more detailed explanations for any of the parallel controller features indicated in the Capabilities array. Note, each entry of this array is related to the entry in the Capabilities array that is located at the same index.DMASupport H HQ^booleanDescriptionSet to true if the parallel port supports DMA. t0T0a(M8Win32_ParallelPort, EMZstringDescriptionA free form string indicating the algorithm or tool used by the device to support compression. If it is not possible or not desired to describe the compression scheme (perhaps because it is not known), recommend using the following words: "Unknown" to represent that it is not known whether the device supports compression capabilities or not, "Compressed" to represent that the device supports compression capabilities but either its compression scheme is not known or not disclosed, and "Not Compressed" to represent that the devices does not support compression capabilities.DefaultBlockSizeN uint64DescriptionDefault block size, in bytes, for this device.ErrorMethodologyB _gtstringDescriptionErrorMethodology is a free-form string describing the type of error detection and correction supported by this device.MaxBlockSizeV &.;uint64DescriptionMaximum block size, in bytes, for media accessed by this device.MaxMediaSizeF uint64DescriptionMaximum size, in Kbytes, of media supported by this device.MinBlockSize^ C K X uint64DescriptionMinimum block size, in bytes, for media accessed by this device.NeedsCleaning j   booleanDescriptionBoolean indicating that the media access device needs cleaning. Whether manual or automatic cleaning is possible is indicated in the Capabilities array property. NumberOfMediaSupportedf   uint32DescriptionWhen the media access device supports multiple individual media, this property defines the maximum number which can be supported or inserted. isCIM_MediaAccessDevice)  #CIM_CDROMDriveDescriptionThe CIM_CDROMDrive class represents a CD-ROM drive on the system. Note: The name of the drive does not correspond to the logical drive letter assigned to device, which is the name of the logical storage device dependent on this drive.AMENDMENTLOCALE ive0T084Win32_CDROMDrivech,`0|x $T008CIM_CDROMDrive)  *:5F0>9 F   < K %hn_UUUUqWin32_CDROMDriveDescriptionThe Win32_CDROMDrive class represents a CD-ROM drive on a Win32 computer system. Note: The name of the drive does not correspond to the logical drive letter assigned to device.AMENDMENTLOCALEDeviceID@) ,4A stringDescriptionThe DeviceID property contains a string to uniquelyidentify this CD-ROM drive.Drivel stringDescriptionThe Drive property indicates the drive letter of the CD ROM drive. Example: d:\DriveIntegrity & fo|booleanDescriptionThe DriveIntegrity property indicates whether files can be accurately read from the CD device. This is achieved by reading a block of data twice and comparing the data against itself.FileSystemFlagsp rzuint16DescriptionThe FileSystemFlags property is deprecated in favor of FileSystemFlagsExFileSystemFlagsExr+ %2 &uint32DescriptionThe FileSystemFlagsEx property indicates the file system flags associated with the Win32 CD-ROM drive. This parameter can be any combination of flags. FS_FILE_COMPRESSION and FS_VOL_IS_COMPRESSED are mutually exclusive. Example: 0.BitValuesby0F[pCASE_SENSITIVE_SEARCHCASE_PRESERVED_NAMESUNICODE_ON_DISKPERSISTENT_ACLSFILE_COMPRESSIONVOLUME_QUOTASSUPPORTS_SPARSE_FILESSUPPORTS_REPARSE_POINTSSUPPORTS_REMOTE_STORAGESUPPORTS_LONG_NAMESVOLUME_IS_COMPRESSEDSUPPORTS_OBJECT_IDSSUPPORTS_ENCRYPTIONSUPPORTS_NAMED_STREAMSIdv stringDescriptionThe Id property indicates the driver letter uniquely identifying this CD-ROM drive. Example: d:\ Manufacturerz jrstringDescriptionThe Manufacturer property indicates the manufacturer of the Win32 CD-ROM drive. Example: PLEXTORMaximumComponentLength~ %-:uint32DescriptionThe MaximumComponentLength property indicates the maximum length of a filename component supported by the Win32 CD-ROM drive. A filename component the portion of a filename between backslashes. The value can be used to indicate that long names are supported by the specified file system. For example, for a FAT file system supporting long names, the function stores the value 255, rather than the previous 8.3 indicator. Long names can also be supported on systems that use the NTFS file system. Example: 255.MediaLoaded ' r {  booleanDescriptionThe MediaLoaded property indicates whether a CD-ROM is in the drive. Values: TRUE or FALSE. If TRUE, the CD is in the drive.MediaType + J R _  stringDescriptionThe MediaType property indicates the type of media used or accessed by this device. In this class, the value will always be "CD-ROM".Values  # 4 Random AccessSupports WritingRemovable MediaCD-ROMRevisionLevel! w   stringDescriptionThe RevisionLevel property indicates the firmware revision level of the Win32 CD-ROM drive.SCSIBus(  & 3 uint32DescriptionThe SCSIBus property indicates the SCSI bus number for the disk drive. Example: 0SCSILogicalUnit)   uint16DescriptionThe SCSILogicalUnit property indicates the SCSI logical unit number (LUN) of the disk drive. The LUN is used to designate which SCSI controller is being accessed in a system with more than one controller being used. The SCSI device ID is similar, but is the designation for multiple devices on one controller. Example: 0SCSIPort* QYfuint16DescriptionThe SCSIPort property indicates the SCSI port number of the disk drive. Example: 1SCSITargetId"  uint16DescriptionThe SCSITargetId property indicates the SCSI ID number of the Win32 CD-ROM drive. Example: 0.Size+ uint64DescriptionThe Size property indicates the size of the disk drive.TransferRate% "*7Real64DescriptionThe TransferRate property indicates the CD-ROM drive's transfer rate. A value of -1 indicates that the rate could not be determined. This could potentially happen, for example, if the CD is not in the drive.VolumeName# @HUstringDescriptionThe VolumeName property indicates the volume name of the Win32 CD-ROM drive.VolumeSerialNumber$ stringDescriptionThe VolumeSerialNumber property indicates the volume serial number of the media in the CD-ROM drive. Example: A8C3-D032 vi0T0 T,CIM_DiskDrive,L  l   88 (-<0L?is unknown or th$T0  sCIM_MediaAccessDevice)  CIM_DiskDriveDescriptionThe CIM_DiskDrive class represents a physical disk drive as seen by the operating system. The features of the drive seen through this object correspond to the logical and management characteristics of the drive and, in some cases may not reflect the actual physical characteristics of the device. Any interface to a physical drive is a member of this class. Any object based on another logical device would not be a member of this class. Example: IDE Fixed Disk.AMENDMENTLOCALE e 0T0 '0Win32_DiskDrive,< x h($T0 XCIM_DiskDrive)+ 6 >N CPU`X_  | 7 A { C I L\r.A_UUUUWin32_DiskDriveDescriptionThe Win32_DiskDrive class represents a physical disk drive as seen by a computer running the Win32 operating system. Any interface to a Win32 physical disk drive is a descendent (or member) of this class. The features of the disk drive seen through this object correspond to the logical and management characteristics of the drive. In some cases, this may not reflect the actual physical characteristics of the device. Any object based on another logical device would not be a member of this class. Example: IDE Fixed Disk.AMENDMENTLOCALEBytesPerSectorl zuint32DescriptionThe BytesPerSector property indicates the number of bytes in each sector for the physical disk drive. Example: 512DeviceID@) DLY stringDescriptionThe DeviceID property contains a string uniquely identifying the disk drive with other devices on the system.Index# uint32DescriptionThe Index property indicates the physical drive number of the given drive. This member is filled by Get Drive Map Info. A value of 0xFF indicates that the given drive does not map to a physical drive. Example: 1InterfaceTypep !)6stringDescriptionThe InterfaceType property indicates the interface type of physical disk drive. Example: SCSIManufacturer$ stringDescriptionThe Manufacturer property indicates the name of the disk drive manufacturer. Example: SeagateMediaLoaded % |booleanDescriptionThe MediaLoaded property determines whether the media for a disk drive is loaded. For fixed disk drives, this property will always be TRUE Values: TRUE or FALSE. If TRUE, the media is loaded.MediaType&+  stringDescriptionThe MediaType property is the type of media used or accessed by this device. Example: Removable mediaValues->ORemovable mediaFixed hard diskUnknownModel' stringDescriptionThe Model property indicates the manufacturer's model number of the disk drive. Example: ST32171WPartitionst ; C P uint32DescriptionThe Partitions property indicates the number of partitions on this physical disk drive that are recognized by the operating system. Example: 2SCSIBus(   * uint32DescriptionThe SCSIBus property indicates the SCSI bus number of the disk drive. Example: 0SCSILogicalUnit)   uint16DescriptionThe SCSILogicalUnit property indicates the SCSI logical unit number (LUN) of the disk drive. Example: 0SCSIPort* m u  uint16DescriptionThe SCSIPort property indicates the SCSI port number of the disk drive. Example: 0SCSITargetId+   % uint16DescriptionThe SCSITargetId property indicates the SCSI ID number of the disk drive. Example: 0SectorsPerTrackx   uint32DescriptionThe SectorsPerTrack property indicates the number of sectors in each track for this physical disk drive. Example: 63Size, u }  uint64DescriptionThe Size property indicates the size of the disk drive. It is calculated by multiplying the total number of cylinders, tracks in each cylinder, sectors in each track, and bytes in each sector.TotalCylinders| uint64DescriptionThe TotalCylinders property indicates the total number of cylinders on the physical disk drive. Note: the value for this property is obtained through extended functions of BIOS interrupt 13h. The value may be inaccurate if the drive uses a translation scheme to support high capacity disk sizes. Consult the manufacturer for accurate drive specifications. Example: 657TotalHeads GO\uint32DescriptionThe TotalHeads property indicates the total number of heads on the disk drive. Note: the value for this property is obtained through extended functions of BIOS interrupt 13h. The value may be inaccurate if the drive uses a translation scheme to support high capacity disk sizes. Consult the manufacturer for accurate drive specifications.TotalSectors  uint64DescriptionThe TotalSectors property indicates the total number of sectors on the physical disk drive. Note: the value for this property is obtained through extended functions of BIOS interrupt 13h. The value may be inaccurate if the drive uses a translation scheme to support high capacity disk sizes. Consult the manufacturer for accurate drive specifications. Example: 2649024TotalTracks! uint64DescriptionThe TotalTracks property indicates the total number of tracks on the physical disk drive. Note: the value for this property is obtained through extended functions of BIOS interrupt 13h. The value may be inaccurate if the drive uses a translation scheme to support high capacity disk sizes. Consult the manufacturer for accurate drive specifications. Example: 42048TracksPerCylinder" muuint32DescriptionThe TracksPerCylinder property indicates the number of tracks in each cylinder on the physical disk drive. Note: the value for this property is obtained through extended functions of BIOS interrupt 13h. The value may be inaccurate if the drive uses a translation scheme to support high capacity disk sizes. Consult the manufacturer for accurate drive specifications. Example: 64 t'PWin32_DiskDriveToDiskPartitione 0T0(*4CIM_DisketteDrive,4(( ?l*$T0((tWsCIM_MediaAccessDevice) t  CIM_DisketteDriveDescriptionCapabilities and management of a diskette drive, a subtype of media access device.AMENDMENTLOCALE 0T0*(4Win32_FloppyDrive,\*,*h(h.,*$T0,**wCIM_DisketteDrive) n y M[Win32_FloppyDriveDescriptionThe Win32_FloppyDrive class manages the capabilities of a floppy disk drive.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the floppy disk drive from other devices on the system.Manufacturerl stringDescriptionThe Manufacturer property indicates the name of the floppy disk drive manufacturer. Example: Acme n 0T0.@CIM_MagnetoOpticalDrive,(.-*0$T0-.esCIM_MediaAccessDevice)&  CIM_MagnetoOpticalDriveDescriptionCapabilities and management of a magneto-optical drive, a subtype of media access device.AMENDMENTLOCALE ogi0T004,CIM_TapeDrive,l0<08$h.x4$T0<000{CIM_MediaAccessDevice)  _*CIM_TapeDriveDescriptionThe CIM_TapeDrive class represents a tape drive on the system. Tape drives are primarily distinguished by the fact that they can only be accessed sequentially.AMENDMENTLOCALEEOTWarningZoneSizel %uint32DescriptionThe EOTWarningZoneSize property indicates the zone size for the End Of Tape (EOT) warning.MaxPartitionCountp uint32DescriptionThe MaxPartitionCount property indicates the maximum part count for the tape drive. nt0T04<00Win32_TapeDrive,H440?4$T044h L CIM_TapeDrive)   +8EP!UU Win32_TapeDriveDescriptionThe Win32_TapeDrive class represents a tape drive on a Win32 computer. Tape drives are primarily distinguished by the fact that they can be accessed only sequentially.AMENDMENTLOCALECompressiont )uint32DescriptionThe Compression property specifies whether hardware data compression is enabled or disabled. Values: 1 (true) or 0 (false). If true, hardware data compression is enabled.DeviceID@) + stringDescriptionThe DeviceID property contains a string uniquely identifying the tape drive with other devices on the system.ECCx uint32DescriptionThe ECC property specifies whether the device supports hardware error correction. Values: 1 (true) or 0 (false). If true, hardware error correction is supported.FeaturesHigh| uint32DescriptionThe FeaturesHigh property specifies the high-order 32 bits of the device features flag.FeaturesLow dlyuint32DescriptionThe FeaturesLow property specifies the low-order 32 bits of the device features flag.Id" stringDescriptionThe Id property indicates the manufacturer's identifying name of the Win32 CD ROM drive. Example: PLEXTOR CD-ROM PX-12CS 1.01Manufacturer# stringDescriptionThe Manufacturer property indicates the manufacturer of the Win32 CD-ROM drive. Example: PLEXTORMediaType  |stringDescriptionThe MediaType property specifies the media type used by (or accessed by) this device. In this case, it is set to "Tape Drive".ReportSetMarks! MUbuint32DescriptionThe ReportSetMarks property specifies whether setmark reporting is enabled. Setmark reporting makes use of a specialized recorded element that does not contain user data. This recorded element is used to provide a segmentation scheme. This segmentation scheme is hierarchically superior to filemarks. Setmarks provide faster positioning on high-capacity tapes. Values: 1 (true) or 0 (false). If true, setmark reporting is enabled. ze0T0?,CIM_WORMDrive,|?L?x4A$T0L??lPsCIM_MediaAccessDevice)m x CIM_WORMDriveDescriptionCapabilities and management of a WORM drive, a subtype of media access device.AMENDMENTLOCALE 0T0AH8CIM_NetworkAdapter, ,AdA`?H$T0dAB( VCIM_LogicalDevice)!  dn&U2CIM_NetworkAdapterDescriptionCIM_NetworkAdapter is a superclass for grouping the numerous types of network adapters in use.AMENDMENTLOCALEAutoSense N booleanDescriptionA boolean indicating whether the network adapter is capable of automatically determining the speed of the attached/network media.MaxSpeedF uint64DescriptionThe maximum speed, in bits per second, for the network adapter.NetworkAddresses : .6CstringDescriptionAn array of strings indicating the network addresses for an adapter.PermanentAddress6 stringDescriptionPermanentAddress defines the network address hard coded into an adapter. This 'hard coded' address may be changed via firmware upgrade or software configuration. If so, this field should be updated when the change is made. PermanentAddress should be left blank if no 'hard coded' address exists for the network adapter.Speed> RZguint64DescriptionAn estimate of the current bandwidth in bits per second. For endpoints which vary in bandwidth or for those where no accurate estimation can be made, this property should contain the nominal bandwidth. band0T0HdAU<Win32_NetworkAdapteru,tHDHAUDH$T0DHIU zCIM_NetworkAdapter)#s ~  z:E5AShbo %  WU Win32_NetworkAdapterDescriptionThe Win32_NetworkAdapter class represents a network adapter on a Win32 system.AMENDMENTLOCALEAdapterTypeT+  stringDescriptionThe AdapterType property reflects the network medium in use. This property may not be applicable to all types of network adapters listed within this class. Windows NT only.Values7Bdl|Ethernet 802.3Token Ring 802.5Fiber Distributed Data Interface (FDDI)Wide Area Network (WAN)LocalTalkEthernet using DIX header formatARCNETARCNET (878.2)ATMWirelessInfrared WirelessBpcCoWan1394DeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the network adapter from other devices on the system.Indexf uint32DescriptionThe Index property indicates the network adapter's index number, which is stored in the system registry. Example: 0.Installed d qzbooleanDescriptionThe Installed property determines whether the network adapter is installed in the system. Values: TRUE or FALSE. A value of TRUE indicates the network adapter is installed.MACAddressX mustringDescriptionThe MACAddress property indicates the media access control address for this network adapter. A MAC address is a unique 48-bit number assigned to the network adapter by the manufacturer. It uniquely identifies this network adapter and is used for mapping TCP/IP network communications.Manufacturer` stringDescriptionThe Manufacturer property indicates the name of the network adapter's manufacturer. Example: 3COM.MaxNumberControlledj uint32DescriptionThe MaxNumberControlled property indicates the maximum number of directly addressable ports supported by this network adapter. A value of zero should be used if the number is unknown.ProductNameP stringDescriptionThe ProductName property indicates the product name of the network adapter. Example: Fast EtherLink XLServiceName\ Q Y f stringDescriptionThe ServiceName property indicates the service name of the network adapter. This name is usually shorter that the full product name. Example: Elnkii.TimeOfLastReseten ; E R datetimeDescriptionThe TimeOfLastReset property indicates when the network adapter was last reset. iZlHWin32_NetworkAdapterSetting0T0V0g,CIM_PotsModem,UUHg$T0U,Vx[iCIM_LogicalDevice)] h p|{Tednk}[nt 4 `|UUUUCIM_PotsModemDescriptionCapabilities and management of the dial-up modem logical deviceAMENDMENTLOCALEAnswerMode6+  uint16DescriptionAnswer mode defines the current auto-answer/call-back setting for the modem.Values<ELVerUnknownOtherDisabledManual AnswerAuto AnswerAuto Answer with Call-BackCompressionInfo8+ + 3uint16DescriptionDescribes the data compression characteristics of the modem.ValuesKT[krUnknownOtherNo CompressionMNP 5V.42bisCountriesSupported : stringDescriptionCountriesSupported is an array (bag) that contains a set of strings defining the countries/regions in which the modem can operate.CountrySelected> stringDescriptionCountrySelected is a string value defining the country/region for which the modem is currently programmed. When multiple countries/regions are supported, this property defines which one is currently selected for use.CurrentPasswords B stringDescriptionCurrentPasswords is an array (bag) containing the currently defined passwords for the modem. This array may be left blank for security reasons.DialTypeF+ = Euint16DescriptionDialType is an integer indicating whether tone (value=1) or pulse dialing (value=2) is used. "Unknown" (0) can also be defined.ValuesU^dUnknownTonePulseErrorControlInfoH+   uint16DescriptionDescribes the error correction characteristics of the modem.Values)29NUUnknownOtherNo Error CorrectionMNP 4LAPMInactivityTimeoutJ uint32DescriptionInactivityTimeout defines the time limit (in seconds) for automatic disconnection of the phone line, if no data is exchanged. A value of 0 indicates that this feature is present but not enabled.MaxBaudRateToPhoneN uint32DescriptionDefines the maximum settable communication speed for accessing the phone system.MaxBaudRateToSerialPortR ` h u uint32DescriptionDefines the maximum settable communication speed to the COM port for an external modem. Enter 0 if not applicable.MaxNumberOfPasswordsV + 3 @ uint16DescriptionMaxNumberOfPasswords specifies the number of passwords definable in the modem itself. If this feature is not supported, enter 0.ModulationSchemeX+   " Q  Y uint16DescriptionDescribes the modulation scheme of the modem.Values UnknownOtherNot SupportedBell 103Bell 212AV.22bisV.32V.32bisV.turboV.FCV.34V.34bisRingsBeforeAnswerZ 6 = J uint8DescriptionNumber of rings before the modem answers an incoming call.SpeakerVolumeInfo[+    uint16DescriptionDescribes the volume level of the audible tones from the modem. For example, high, medium or low volume can be reported (values 3, 4 or 5, respectively).Values UnknownOtherNot SupportedHighMediumLowSupportsCallback ] ,booleanDescriptionIndication of whether the modem supports call-backSupportsSynchronousConnect _ booleanDescriptionBoolean indicating that synchronous, as well as asynchronous, communication is supported. Sy0T0LgU0Win32_POTSModem,ff `U`f$T0fpg̒\+=+ CIM_PotsModem)  ,fp%et)> es[ g [ g  GX!(]kXi.>0<bt  !!s""E#W#$&$$$%&&&''UUUUUUUUUUh(Win32_POTSModemDescriptionThe Win32_POTSModem class represents the services and characteristics of a Plain Old Telephone Service (POTS) modem on a Win32 system.AMENDMENTLOCALEAttachedTo a stringDescriptionThe AttachedTo property indicates the port to which the POTS modem is attached. Example: COM1.BlindOff!e stringDescriptionThe BlindOff property contains the command string used to detect a dial tone before dialing. Example: X4.BlindOn"i QYfstringDescriptionThe BlindOn property contains the command string used to dial whether or not there is a dial tone. Example: X3.CompatibilityFlags#m ,stringDescriptionThe CompatibilityFlags property lists all modem connection protocols with which this modem device is compatible.CompressionOff$q stringDescriptionThe CompressionOff property contains the command string used to disable hardware data compression. Example: S46=136.CompressionOn%u stringDescriptionThe CompressionOn property contains the command string used to enable hardware data compression. Example: S46=138.ConfigurationDialog&y jrstringDescriptionThe ConfigurationDialog property contains the modem initialization string. This property is comprised of command strings from other members of this class.DCB '} LS`uint8DescriptionThe Device Control Block (DCB) property contains the control settings for a serial communications device, in this case, the modem device.Default (  '4uint8DescriptionThe Default property indicates whether this POTS modem is the default modem on the Win32 computer system.DeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying this POTS modem from other devices on the system.DeviceLoader) stringDescriptionThe DeviceLoader property indicates the name of the device loader for the modem. A device loader loads and manages device drivers and enumerators for a given device.DeviceType*+    stringDescriptionThe DeviceType property indicates the physical type of the modem.Values $ 4 D R Null ModemInternal ModemExternal ModemPCMCIA ModemUnknownDriverDatee+   datetimeDescriptionThe DriverDate property indicates the date of the modem driver.ErrorControlForced, + 3 @ stringDescriptionThe ErrorControlForced property contains the command string used to enable error correction control when establishing a connection. This increases the reliability of the connection. Example: +Q5S36=4S48=7.ErrorControlOff- L T a stringDescriptionThe ErrorControlOff property contains the command string used to disable error control. Example: +Q6S36=3S48=128.ErrorControlOn.   % stringDescriptionThe ErrorControlOn property contains the command string used to enable error control. Example: +Q5S36=7S48=7.FlowControlHard/   stringDescriptionThe FlowControlHard property contains the command string used to enable hardware flow control. Flow control consists of signals sent between computers that verify that both computers are ready to transmit or receive data. Example: &K1.FlowControlOff1 $stringDescriptionThe FlowControlOff property contains the command string used to disable flow control. Flow control consists of signals sent between computers that verify that both computers are ready to transmit or receive data. Example: &K0.FlowControlSoft0 EMZstringDescriptionThe FlowControlSoft property contains the command string used to enable software flow control. Flow control consists of signals sent between computers that verify that both computers are ready to transmit or receive data. Example: &K2.InactivityScale2 stringDescriptionThe InactivityScale property is a multiplier used with the InactivityTimeout property to calculate the timeout period of a connection.Index3 T\iuint32DescriptionThe Index property indicates the index number for this POTS modem. Example: 0Model4 stringDescriptionThe Model property indicates the model of this POTS modem. Example: Sportster 56K External.ModemInfPath5 stringDescriptionThe ModemInfPath property indicates the path to this modem's .inf file. This file contains initialization information for the modem and its driver. Example: C:\WINNT\INF.ModemInfSection6 stringDescriptionThe ModemInfSection property indicates the name of the section in the modem's .inf file that contains information about the modem.ModulationBell7 jrstringDescriptionThe ModulationBell property contains the command string used to instruct the modem to use Bell modulations for 300 and 1200 bps. Example: B1.ModulationCCITT8 KS`stringDescriptionThe ModulationCCITT property contains the command string used to instruct the modem to use CCITT modulations for 300 and 1200 bps. Example: B0.PortSubClass9 +3@stringDescriptionThe PortSubClass property contains the string definingthe port used for this modem.Prefix: stringDescriptionThe Prefix property indicates the dialing prefix used to access an outside line.Properties ; ho|uint8DescriptionThe Properties property is a string array that lists all the properties (and their values) for this modem.ProviderName< "*7stringDescriptionThe ProviderName property indicates the network path to the computer that provides the modem services.Pulse= stringDescriptionThe Pulse property contains the command string used to instruct the modem to use pulse mode for dialing. Pulse dialing is necessary for phone lines that are unable to handle tone dialing. Example: P.Reset> stringDescriptionThe Reset property contains the command string used to reset the modem for the next call. Example: AT&F.ResponsesKeyName? stringDescriptionThe ResponsesKeyName property contains the response this modem might report to the operating system during the connection process. The first two characters specify the type of response. The second two characters specify information about the connection being made. The second two characters are used only for Negotiation Progress or Connect response codes. The next eight characters specify the modem-to-modem line speed negotiated in bits per second (bps). The characters represent a 32-bit integer doubleword format (byte and word reversed). The last eight characters indicate that the modem is changing to a different port or Data Terminal Equipment (DTE) speed. Usually this field is not used because modems make connections at a "locked" port speed regardless of the modem-to-modem or Data Communications Equipment (DCE) speed.SpeakerModeDial@ 4<IstringDescriptionThe SpeakerModeDial property contains the command string used to turn the modem speaker on after dialing a number, and turning the speaker off when a connection has been established. Example: M1.SpeakerModeOffA J R _ stringDescriptionThe SpeakerModeOff property contains the command string used to turn the modem speaker off. Example: M0.SpeakerModeOnB ! !!stringDescriptionThe SpeakerModeOn property contains the command string used to turn the modem speaker on. Example: M2.SpeakerModeSetupC !!!stringDescriptionThe SpeakerModeSetup property contains the command string used to instruct the modem to turn the speaker on (until a connection is established). Example: M3.SpeakerVolumeHighD """stringDescriptionThe SpeakerVolumeHigh property contains the command string used to set the modem speaker to the highest volume. Example: L3.SpeakerVolumeLowE ###stringDescriptionThe SpeakerVolumeLow property contains the command string used to set the modem speaker to the lowest volume. Example: L1.SpeakerVolumeMedF R$Z$g$stringDescriptionThe SpeakerVolumeMed property contains the command string used to set the modem speaker to a medium volume. Example: L2.StringFormatG+ (%0%=%% %stringDescriptionThe StringFormat property describes the type of characters used for text passed through the modem.Values%%%ASCII string formatDBCS string formatUNICODE string formatTerminatorH 1&9&F&stringDescriptionThe Terminator property contains the string that marks the end of a command string. Example: ToneI &&&stringDescriptionThe Tone property contains the command string that instructs the modem to use tone mode for dialing. The phone line must support tone dialing. Example: T.VoiceSwitchFeatureJ  '''stringDescriptionThe VoiceSwitchFeature property contains the command strings used to activate the voice capabilities of a voice modem. Example: AT+V. ucfun gCIM_LogicalDevice)_ j  rZt*CZs(@ h ~ UUU CIM_PowerSupplyDescriptionCapabilities and management of the power supply logical device.AMENDMENTLOCALEActiveInputVoltage6+ o wuint16DescriptionActiveInputVoltage indicates which input voltage range is currently in use. Range 1, 2 or both can be specified using the values 3, 4 or 5, respectively.ValuesOtherUnknownRange 1Range 2BothIsSwitchingSupply 8  booleanDescriptionBoolean indicating that the power supply is a switching (vs. linear) supply.Range1InputFrequencyHigh: uint32DescriptionThe frequency (in Hertz) at the high end of this powersupply's input frequency range 1. A value of zero implies DC.Range1InputFrequencyLow> owuint32DescriptionThe frequency (in Hertz) at the low end of this powersupply's input frequency range 1. A value of zero implies DC.Range1InputVoltageHighB <DQuint32DescriptionThe high voltage of input voltage range 1 for this power supply, in Millivolts. A value of 0 denotes 'unknown'.Range1InputVoltageLowF  uint32DescriptionThe low voltage of input voltage range 1 for this power supply, in Millivolts. A value of 0 denotes 'unknown'.Range2InputFrequencyHighJ uint32DescriptionThe frequency (in Hertz) at the high end of this powersupply's input frequency range 2. A value of zero implies DC.Range2InputFrequencyLowN uint32DescriptionThe frequency (in Hertz) at the low end of this powersupply's input frequency range 2. A value of zero implies DC.Range2InputVoltageHighR ltuint32DescriptionThe high voltage of input voltage range 2 for this power supply, in Millivolts. A value of 0 denotes 'unknown'.Range2InputVoltageLowV 5=Juint32DescriptionThe low voltage of input voltage range 2 for this power supply, in Millivolts. A value of 0 denotes 'unknown'.TotalOutputPowerZ   uint32DescriptionRepresents the total output power of the power supply in Milliwatts. 0 denotes 'unknown'.TypeOfRangeSwitching^+   l  t uint16DescriptionTypeOfRangeSwitching describes the kind of input voltage range switching implemented in this power supply. For example, Autoswitch can be specified (value=4).Values OtherUnknownManualAutoswitchWide RangeNot Applicable d tCIM_PowerSupply) -  mu !G^ U CIM_UninterruptiblePowerSupplyDescriptionCapabilities and management of an uninterruptible power supply. The properties of the UPS device indicate when incoming power is trimmed or boosted, and the aggregated information of the batteries, generators, etc. that comprise the device. These individual components (for example, multiple batteries) can also be independently modeled and associated with the UPS.AMENDMENTLOCALEEstimatedChargeRemainingj  uint16DescriptionAn estimate of the percentage of full charge remaining for a UPS (that uses battery technology).EstimatedRunTimef uint32DescriptionEstimatedRunTime is an estimate in minutes of the time to battery, generator, ... depletion under the present load conditions if the utility power is off, or lost and remains off.Range1InputVoltageHigh@B uint32DescriptionIf the voltage (in Millivolts) rises above the value specified by Range1InputVoltageHigh property, the UPS will compensate by trimming the voltage. A value of 0 indicates that the voltage at which trimming occurs is 'unknown'.Range1InputVoltageLow@F  uint32DescriptionIf the voltage (in Millivolts) drops below the value specified by Range1InputVoltageLow property, the UPS will compensate by boosting the voltage using its power source(s). A value of 0 indicates that the voltage at which boosting occurs is 'unknown'.Range2InputVoltageHigh@R MUbuint32DescriptionIf the voltage (in Millivolts) rises above the value specified by Range2InputVoltageHigh property, the UPS will compensate by trimming the voltage. A value of 0 indicates that the voltage at which trimming occurs is 'unknown'.Range2InputVoltageLow@V uint32DescriptionIf the voltage (in Millivolts) drops below the value specified by Range2InputVoltageLow property, the UPS will compensate by boosting the voltage using its power source(s). A value of 0 indicates that the voltage at which boosting occurs is 'unknown'.RemainingCapacityStatus`+  L  T uint16DescriptionThe indication of the capacity remaining in the UPS' batteries, generator, ... A value of "Normal" (2) indicates that the remaining estimated minutes of run-time is greater than the UPS' defined 'low power' state (typically two minutes). A value of "Low" (3) indicates that the remaining estimated minutes of run-time is less than or equal to the UPS' defined 'low power' state. A value of "Depleted" (4) indicates that the UPS will be unable to sustain the present load when and if the utility power is lost (including the possibility that the utility power is currently absent).Valuesh q y ~ UnknownNormalLowDepletedTimeOnBackupb   uint32DescriptionTimeOnBackup indicates the elapsed time in seconds since the UPS last switched to battery power, generator, ... Or, the time since the UPS was last restarted, whichever is less. Zero shall be returned if the UPS is 'on line'. e 0T0tTWin32_UninterruptiblePowerSupply$,ج|$T0جx \ (CIM_UninterruptiblePowerSupply )"/    bunl u UU Win32_UninterruptiblePowerSupplyDescriptionThe Win32_UninterruptiblePowerSupply class represents the capabilities and management capacity of an uninterruptible power supply (UPS). The properties of the UPS device indicate when incoming power is trimmed or boosted, and the aggregated information of the batteries, generators, etc. that comprise the device. These individual components (for example, multiple batteries) can also be independently modeled and associated with the UPS.AMENDMENTLOCALEBatteryInstalled l 8ANbooleanDescriptionThe BatteryInstalled property determines whether a battery is installed on the device. Values: TRUE or FALSE. If TRUE, a battery is installed.CanTurnOffRemotely !n '4booleanDescriptionThe CanTurnOffRemotely property determines whether the power supply can be turned off remotely. Values: TRUE or FALSE. If TRUE, the power supply can be turned off remotely.CommandFile"p #0stringDescriptionThe CommandFile property specifies the name of a command file to execute immediately before shutting down.DeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying this UPS device with other devices on the system.FirstMessageDelay#t uint32DescriptionThe FirstMessageDelay property specifies the length of time between initial power failure and the first message sent to users. If power is restored within the FirstMessageDelay time, no message is sent, although the event is logged.LowBatterySignal $x booleanDescriptionThe LowBatterySignal property determines whether the power supply has a low battery signal. Values: TRUE or FALSE. If TRUE, the power supply has a low battery signal.MessageInterval%z uint32DescriptionThe MessageInterval property specifies the length of time between messages sent to users to inform the users of power failure.PowerFailSignal &~ booleanDescriptionThe PowerFailSignal property determines whether the power supply has a power failure signal. Values: TRUE or FALSE. If TRUE, the power supply has a power failure signal.UPSPort'   stringDescriptionThe UPSPort property specifies the name of the serial port to which the UPS is connected. Example: COM1: ai0T0l(CIM_Printer,T$\@$T0$̹ XCIM_LogicalDevice) V a iwQe. / UU CIM_PrinterDescriptionCapabilities and management of the printer logical device.AMENDMENTLOCALECapabilities 6+ j ruint16DescriptionAn array of integers indicating printer capabilities. Information such as "Duplex Printing" (value=3) or "Transparency Printing" (7) is specified in this property.ValuesUnknownOtherColor PrintingDuplex PrintingCopiesCollationStaplingTransparency PrintingCapabilityDescriptions F ?GTstringDescriptionAn array of free-form strings providing more detailed explanations for any of the printer features indicated in the Capabilities array. Note, each entry of this array is related to the entry in the Capabilities array that is located at the same index.DetectedErrorStateL+  uint16DescriptionPrinter error information.Values %0:EOZbk~UnknownOtherNo ErrorLow PaperNo PaperLow TonerNo TonerDoor OpenJammedOfflineService RequestedOutput Bin FullHorizontalResolution: uint32DescriptionPrinter's horizontal resolution in Pixels per InchLanguagesSupported >+ go| uint16DescriptionAn array indicating the print languages natively supported.Values.}!).4;AGO\bgp{OtherUnknownPCLHPGLPJLPSPSPrinterIPDSPPDSEscapePEpsonDDIFInterpressISO6429Line DataMODCAREGISSCSSPDLTEK4014PDSIGPCodeVDSCDSEWPSLN03CCITTQUICCPAPDecPPLSimple TextNPAPDOCimPressPinwriterNPDLNEC201PLAutomaticPagesLIPSTIFFDiagnosticCaPSLEXCLLCDSXESPaperSizesSupported B+ #0k suint16DescriptionAn integer array indicating the types of paper supported.Values;c l s v y |    * = A E I M Q U Y ] a h l p t x |    UnknownOtherABCDELetterLegalNA-10x13-EnvelopeNA-9x12-EnvelopeNA-Number-10-EnvelopeNA-7x9-EnvelopeNA-9x11-EnvelopeNA-10x14-EnvelopeNA-Number-9-EnvelopeNA-6x9-EnvelopeNA-10x15-EnvelopeA0A1A2A3A4A5A6A7A8A9A10B0B1B2B3B4B5B6B7B8B9B10C0C1C2C3C4C5C6C7C8ISO-DesignatedJIS B0JIS B1JIS B2JIS B3JIS B4JIS B5JIS B6JIS B7JIS B8JIS B9JIS B10PrinterStatusJ+ h p } :  B uint16DescriptionStatus information for a printer, beyond that specified in the logical device Availability property. Values include "Idle" (3) and an indication that the device is currently printing (4).ValuesZ a j p z OtherUnknownIdlePrintingWarmupVerticalResolutionN   uint32DescriptionPrinter's vertical resolution in Pixels per Inch re0T0$$,Win32_Printer,|@%$T0\?CIM_Printer )  "9u* 4 3 F ? M t9H#/hsUUUUWin32_PrinterDescriptionThe Win32_Printer class represents a device connected to a Win32 computer system that is capable of reproducing a visual image on a medium.AMENDMENTLOCALEAttributesR+  G Ruint32DescriptionThe Attributes property indicates the attributes of the Win32 printing device. These attributes are represented through a combination of flags. Attributes of the printer include: Queued - Print jobs are buffered and queued. Direct - Specifies that the document should be sent directly to the printer. This is used if print job are not being properly queued. Default - The printer is the default printer on the computer. Shared - Available as a shared network resource. Network - Attached to the network. Hidden - Hidden from some users on the network. Local - Directly connected to this computer. EnableDevQ - Enable the queue on the printer if available. KeepPrintedJobs - Specifies that the spooler should not delete documents after they are printed. DoCompleteFirst - Start jobs that are finished spooling first. WorkOffline - Queue print jobs when printer is not available. EnableBIDI - Enable bi-directional printing. RawOnly - Allow only raw data type jobs to be spooled. Published - Indicates whether the printer is published in the network directory service. BitValuesQueuedDirectDefaultSharedNetworkHiddenLocalEnableDevQKeepPrintedJobsDoCompleteFirstWorkOfflineEnableBIDIRawOnlyPublishedAveragePagesPerMinute% emzuint32DescriptionThe AveragePagesPerMinute property specifies the rate (average number of pages per minute) that the printer is capable of sustaining.DefaultPriority$ >FSuint32DescriptionThe DefaultPriority property specifies the default priority value assigned to each print job.DeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the printer with other devices on the system.DriverNameV stringDescriptionThe DriverName property specifies the name of the Win32 printer driver. Example: Windows NT Fax DriverLocationZ ` h u stringDescriptionThe Location property specifies the physical location of the printer. Example: Bldg. 38, Room 1164PortNameb   $ stringDescriptionThe PortName property identifies the ports that can be used to transmit data to the printer. If a printer is connected to more than one port, the names of each port are separated by commas. Under Windows 95, only one port can be specified. Example: LPT1:, LPT2:, LPT3:PrinterPaperNames ^ r z  stringDescriptionThe PrinterPaperNames property indicates the list of paper sizes supported by the printer. The printer-specified names are used to represent supported paper sizes. Example: B5 (JIS).PrinterStatej+     uint32DescriptionThe PrinterState property specifies a values indicating one of the possible states relating to this printer.Valuesy %5ALVa}PausedErrorPending DeletionPaper JamPaper OutManual FeedPaper ProblemOfflineIO ActiveBusyPrintingOutput Bin FullNot AvailableWaitingProcessingInitializationWarming UpToner LowNo TonerPage PuntUser Intervention RequiredOut of MemoryDoor OpenServer_UnknownPower SavePrintJobDataTypef stringDescriptionThe PrintJobDataType property indicates the data type of the print job pending on the Win32 printing device.PrintProcessor& stringDescriptionThe PrintProcessor property specifies the name of the print spooler that handles print jobs. Example: SPOOLSS.DLL.SeparatorFilen t|stringDescriptionThe SeparatorFile property specifies the name of the file used to create a separator page. This page is used to separate print jobs sent to the printer.ServerName r [cpstringDescriptionThe ServerName property identifies the server that controls the printer. If this string is NULL, the printer is controlled locally. ShareName!v -5BstringDescriptionThe ShareName property indicates the share name of the Win32 printing device. Example: \\PRINTSERVER1\PRINTER2SpoolEnabled ' booleanDescriptionThe SpoolEnabled property shows whether spooling is enabled for this printer. Values:TRUE or FALSE.StartTimee"z datetimeDescriptionThe StartTime property specifies the earliest time the printer can print a job (if the printer has been limited to print only at certain times). This value is expressed as time elapsed since 12:00 AM GMT (Greenwich mean time).UntilTimee#~ datetimeDescriptionThe UntilTime property specifies the latest time the printer can print a job (if the printer has been limited to print only at certain times). This value is expressed as time elapsed since 12:00 AM GMT (Greenwich mean time). l8$ _CIM_LogicalDevice)Z e  m{al.=y0 : UU CIM_ProcessorDescriptionCapabilities and management of the processor logical device.AMENDMENTLOCALEAddressWidth6 uint16DescriptionProcessor address width in bits.CurrentClockSpeed8 %2uint32DescriptionThe current speed (in MHz) of this processor.DataWidth< uint16DescriptionProcessor data width in bitsFamily>+  !~ uint16DescriptionThe processor family type. For example, values include "Pentium MMX" (14) and "68040" (96).Values7fmv| *5;CK\jx"4BQW]cinyOtherUnknown80868028680386804868087802878038780487Pentium FamilyPentium ProPentium IIPentium MMXCeleronPentium II XeonPentium IIIM1 FamilyM2 FamilyK5 FamilyK6 FamilyK6-2K6-IIIAthlonPower PC FamilyPower PC 601Power PC 603Power PC 603+Power PC 604Alpha FamilyMIPS FamilySPARC Family6804068xxx Family68000680106802068030Hobbit FamilyWeitekPA-RISC FamilyV30 FamilyPentium III XeonAS400 FamilyIBM390 Familyi860i960SH-3SH-4ARMStrongARM6x86MediaGXMIIWinChipLoadPercentageD uint16DescriptionLoading of this processor, averaged over the last minute, in Percent.MaxClockSpeedF iq~uint32DescriptionThe maximum speed (in MHz) of this processor.OtherFamilyDescription@ stringDescriptionA string describing the processor family type. Used when the family property is set to 1 ("Other"). This string should be set to NULL when the family property is any value other than 1.RoleJ stringDescriptionA free form string describing the role of the processor - for example, "Central Processor"' or "Math Processor"SteppingP stringDescriptionStepping is a free-form string indicating the revision level of the processor within the processor family.UniqueIdT f n { stringDescriptionA globally unique identifier for the processor. This identifier may only be unique within a processor family.UpgradeMethodN+ 3 ; H  uint16DescriptionMethod by which this processor can be upgraded, if upgrades are supported. This property is an integer enumeration.Values  % = C O W _ o w OtherUnknownDaughter BoardZIF SocketReplacement/Piggy BackNoneLIF SocketSlot 1Slot 2370 Pin SocketSlot ASlot M CIM_Processor)   *`j$. } Udq{ajLYUUUGWin32_ProcessorDescriptionThe Win32_Processor class represents a device that is capable of interpreting a sequence of machine instructions on a Win32 computer system. On a multiprocessor machine, there will exist one instance of this class for each processor.AMENDMENTLOCALEArchitectureh+ ckx uint16DescriptionThe Architecture property specifies the processor architecture used by this platform. Valuesx86MIPSAlphaPowerPCCpuStatus"n+ KS` uint16DescriptionThe CpuStatus property specifies the current status of the processor. Changes in status arise from processor usage, not the physical condition of the processor.Values.7DiUnknownCPU EnabledCPU Disabled by User via BIOS SetupCPU Disabled By BIOS (POST Error)CPU is IdleReservedReservedOtherCurrentVoltage#p uint16DescriptionThe CurrentVoltage specifies the voltage of the processor. Bits 0-6 of the field contain the processor's current voltage times 10. This value is only set when SMBIOS designates a voltage value. For specific values, see VoltageCaps. Example: field value for a processor voltage of 1.8 volts would be 92h = 80h + (1.8 x 10) = 80h + 18 = 80h + 12h.DeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the processor with other devices on the system.ExtClock$r Zbouint32DescriptionThe ExtClock property specifies the external clock frequency. If the frequency is unknown this property is set to null.L2CacheSize` !)6uint32DescriptionThe L2CacheSize property specifies the size of the processor's Level 2 cache. A Level 2 cache is an external memory area that has a faster access times than the main RAM memory.L2CacheSpeedd #+8uint32DescriptionThe L2CacheSpeed property specifies the clockspeed of the processor's Level 2 cache. A Level 2 cache is an external memory area that has a faster access times than the main RAM memory.Level j % - : uint16DescriptionThe Level property further defines the processor type. The value depends on the architecture of the processor.LoadPercentage@D   uint16DescriptionThe LoadPercentage property specifies each processor's load capacity averaged over the last second. The term 'processor loading' refers to the total computing burden each processor carries at one time.Manufacturer\   stringDescriptionThe Manufacturer property specifies the name of the processor's manufacturer. Example: GenuineSiliconProcessorId%v   stringDescriptionThe ProcessorId property contains processor-specific information that describes the processor's features. For x86 class CPUs, the field's format depends on the processor's support of the CPUID instruction. If the instruction is supported, the ProcessorId property contains two DWORD-formatted values. The first (offsets 08h-0Bh) is the EAX value returned by a CPUID instruction with input EAX set to 1. The second (offsets 0Ch-0Fh) is the EDX value returned by that instruction. Only the first two bytes of the ProcessorID property are significant (all others are set to 0) and contain (in WORD-format) the contents of the DX register at CPU reset.ProcessorType&z+  uint16DescriptionThe ProcessorType property specifies the processor's primary function.Values%.AQ`OtherUnknownCentral ProcessorMath ProcessorDSP ProcessorVideo ProcessorRevision!l uint16DescriptionThe Revision property specifies the system's architecture-dependent revision level. The meaning of this value depends on the architecture of the processor. It contains the same values as the "Version" member, but in a numerical format.SocketDesignation'| stringDescriptionThe SocketDesignation property contains the type of chip socket used on the circuit. Example: J202VersionX stringDescriptionThe Version property specifies an architecture-dependent processor revision number. Note: This member is not used in Windows 95. Example: Model 2, Stepping 12.VoltageCaps(+  *uint32DescriptionThe VoltageCaps property specifies the voltage capabilities of the processor. Bits 0-3 of the field represent specific voltages that the processor socket can accept. All other bits should be set to zero. The socket is configurable if multiple bits are being set. For a range of voltages see CurrentVoltage. If the property is NULL, then the voltage capabilities are unknown.BitValues:=B53.32.9 orPPWin32_AssociatedProcessorMemoryLWin32_ComputerSystemProcessor  p8 )4u0T0(CIM_Scanner,"x$P|,dd|,LP,|,|,,,,$$X,l+l+,,dAdAX,UU,$$:CIM_LogicalDevice) V a iCIM_ScannerDescriptionCapabilities and management of the scanner logical device.AMENDMENTLOCALE 0T0Fv(CIM_Sensor,P F,  L$T0  :CIM_LogicalDevice)   CIM_SensorDescriptionThe CIM_Sensor class represents a hardware device capable of measuring the characteristics of some physical property - for example, the temperature or voltage characteristics of a unitary computersystem.AMENDMENTLOCALE cesGCIM_Sensor )K V ^nmVlU<CIM_BinarySensorDescriptionA binary sensor provides a boolean output.AMENDMENTLOCALECurrentReading 6 BOOLEANDescriptionThe current value indicated by the sensor.ExpectedReading 8 "/BOOLEANDescriptionExpectedReading indicates the 'normal' value for the sensor.InterpretationOfFalse: STRINGDescriptionInterpretationOfFalse is a string indicating what a 'False' value from the binary sensor means. This information could be displayed to a user.InterpretationOfTrue> STRINGDescriptionInterpretationOfTrue is a string indicating what a 'True' value from the Binary sensor means. This information could be displayed to a user. GCIM_Sensor )! % -?CCIM_DiscreteSensorDescriptionA discrete sensor has a set of legal string values, that it can report. These values are enumerated in the sensor's PossibleValues property. A discrete sensor will always have a 'current reading' that corresponds to one of the enumerated values.AMENDMENTLOCALEAcceptableValues 6 ksSTRINGDescriptionThe AcceptableValues property details which of the strings in the PossibleValues property are considered 'acceptable' (i.e., 'not an error').CurrentReading: KS`STRINGDescriptionThe current value indicated by the sensor.PossibleValues > STRINGDescriptionThe PossibleValues property enumerates the string outputs that can be output by the discrete sensor. bL0:CIM_Sensor )#  CIM_MultiStateSensorDescriptionA multi-state sensor is a multi-member set of binary sensors, each binary sensor reporting a boolean result.AMENDMENTLOCALE k|CIM_Sensor ) e p x +2$?1>DO   +UUUUCIM_NumericSensorDescriptionA numeric sensor reports a numeric value for the measured property.AMENDMENTLOCALEAccuracyV sint32DescriptionIndicates the accuracy of the sensor for the measured property. Its value is recorded as plus/minus hundredths of a percent. Accuracy, along with resolution and tolerance, is used to calculate the actual value of the measured physical property. Accuracy may vary depending on whether the device is linear over its dynamic range.CurrentReading6 IQ^sint32DescriptionThe current value indicated by the sensor.IsLinear Z booleanDescriptionIndicates that the sensor is linear over its dynamic range.LowerThresholdCriticald W_lsint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions.LowerThresholdFatall ^fssint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions.LowerThresholdNonCritical\ kssint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions.MaxReadableF jrsint32DescriptionMaxReadable indicates the largest value of the measured property that can be read by the numeric sensor.MinReadableJ "*7sint32DescriptionMinReadable indicates the smallest value of the measured property that can be read by the numeric sensor.NominalReading: sint32DescriptionNominalReading indicates the 'normal' or expected value for the numeric sensor.NormalMax> {sint32DescriptionNormalMax provides guidance for the user as to the normal maximum range for the numeric sensor.NormalMinB ( 0 = sint32DescriptionNormalMin provides guidance for the user as to the normal minimum range for the numeric sensor.ResolutionN   uint32DescriptionResolution indicates the ability of the sensor to resolve differences in the measured property. This value may vary depending on whether the device is linear over its dynamic range.ToleranceR   sint32DescriptionIndicates the tolerance of the sensor for the measured property. Tolerance, along with resolution and accuracy, is used to calculate the actual value of the measured physical property. Tolerance may vary depending on whether the device is linear over its dynamic range.UpperThresholdCriticalh C K X sint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions.UpperThresholdFatalp J R _ sint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions.UpperThresholdNonCritical` W_lsint32DescriptionThe sensor's threshold values specify the ranges (min and max values) for determining whether the sensor is operating under normal, non-critical, critical or fatal conditions. tU|CIM_NumericSensor) m x CIM_CurrentSensorDescriptionRedefines Units qualifier for numeric sensor, specific to a current sensor.AMENDMENTLOCALE pre0|CIM_CurrentSensor)!  4Win32_CurrentProbeDescriptionThe Win32_CurrentProbe class represents the properties of a current monitoring sensor (ammeter).AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string identifying the current probe. Manc|CIM_NumericSensor)${  CIM_TemperatureSensorDescriptionRedefines the Units qualifier for a numeric sensor, specific to a temperature sensor.AMENDMENTLOCALE IH)|CIM_TemperatureSensor)%  HWin32_TemperatureProbeDescriptionThe Win32_TemperatureProbe class represents the properties of a temperature sensor (electronic thermometer).AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string identifying the temperature probe. 4CIM_VoltageSensor,+<d $T0<+LytU|CIM_NumericSensor) m x CIM_VoltageSensorDescriptionRedefines Units qualifier for numeric sensor, specific to a voltage sensor.AMENDMENTLOCALE ed,VCIM_LogicalDevice)  xUCIM_StorageExtentDescriptionStorage extent describes the capabilities and management of the various media that exist to store data and allow data retrieval.AMENDMENTLOCALEAccess6+   uint16DescriptionThe Access property describes whether the media is readable (value=1), writable (value=2), or both (value=3). "Unknown" (0) can also be defined.ValuesUnknownReadableWritableRead/Write SupportedBlockSize8 #+8uint64DescriptionSize in bytes of the blocks which form this storage extent. If unknown or if a block concept is not valid (for example, for aggregate extents, memory or logical disks), enter a 1.ErrorMethodology@ +3@stringDescriptionErrorMethodology is a free-form string describing the type of error detection and correction supported by this storage extent.NumberOfBlocksD uint64DescriptionTotal number of consecutive blocks, each block the size of the value contained in the BlockSize property, which form this storage extent. Total size of the storage extent can be calculated by multiplying the value of the BlockSize property by the value of this property. If the value of BlockSize is 1, this property is the total size of the storage extent.PurposeL stringDescriptionA free form string describing the media and/or its use. rts@#VCIM_StorageExtent)# ( 0@lCIM_AggregatePExtentDescriptionThe CIM_AggregatePExtent class provides summary information about the addressable logical blocks which are in the same storage redundancy group and reside on the same physical media. This is an alternative grouping for physical extents, when only summary information is needed or when automatic configuration is used. Automatic configuration can result in thousands of physical extents being defined. There is no value in modeling the individual extents. So, the CIM_AggregatePExtent object was defined.AMENDMENTLOCALENumberOfBlocks@D ltuint64DescriptionTotal number of blocks (including the check data blocks) contained in this aggregate physical extent. The block size (an inherited property) should be set to the same value as for the media access device associated with this extent. alH,VCIM_StorageExtent)$j u }CIM_AggregatePSExtentDescriptionCIM_AggregatePSExtent defines the number of addressable logical blocks on a single storage device, excluding any logical blocks mapped as check data. These logical blocks are contained within a single volume set (if volume sets are defined). This is an alternative grouping for CIM_ProtectedSpaceExtent, when only summary information is needed or when automatic configuration is used. Automatic configuration can result in thousands of CIM_ProtectedSpaceExtent being defined. There is no value in modeling the individual extents. So, the CIM_AggregatePSExtent object was defined.AMENDMENTLOCALE c |CIM_DiskPartition)"   FM%5WU Win32_DiskPartitionDescriptionThe Win32_DiskPartition class represents the capabilities and management capacity of a partitioned area of a physical disk on a Win32 system. Example: Disk #0, Partition #1.AMENDMENTLOCALEBootPartition P (5booleanDescriptionThe BootPartition property determines whether the partition is the active partition. The operating system uses the active partition when booting from a hard disk. Values: TRUE or FALSE. If TRUE, the partition is active.DeviceID@) S[h stringDescriptionThe DeviceID property contains a string that uniquely identifies the disk drive and partition from the rest of the systemDiskIndexR "/uint32DescriptionThe DiskIndex property indicates the index number of the disk containing this partition. Example: 0.HiddenSectorsV uint32DescriptionThe HiddenSectors property indicates the number of hidden sectors in the partition. Example: 63IndexZ yuint32DescriptionThe Index property indicates the index number of the partition. Example: 1RewritePartition ^ !.booleanDescriptionThe RewritePartition property specifies whether the partition information has changed. When you change a partition (with IOCTL_DISK_SET_DRIVE_LAYOUT), the system uses this property member to determine which partitions have changed and need their information rewritten. Values: TRUE or FALSE. If TRUE, the partition needs to be rewritten.Size` uint64DescriptionThe Size property indicates the total size (in bytes) of the partition. Example: 1059045376StartingOffseth aivuint64DescriptionThe StartingOffset property indicates the starting offset (in bytes) of the partition. Example: 32256Typep+ $1i qstringDescriptionThe Type property indicates the type of the partition.Values  * F L R k Unused12-bit FATXenix Type 1Xenix Type 216-bit FATExtended PartitionMS-DOS V4 HugeInstallable File SystemPowerPC Reference PlatformUNIXNTFSWin95 w/Extended Int 13Extended w/Extended Int 13Logical Disk ManagerUnknown d, xCIM_LogicalDisk)   amXc) 7 R ^ WUWin32_LogicalDiskDescriptionThe Win32_LogicalDisk class represents a data source that resolves to an actual local storage device on a Win32 system.AMENDMENTLOCALECompressed P booleanDescriptionThe Compressed property indicates whether the logical volume exists as a single compressed entity, such as a DoubleSpace volume. If file based compression is supported (such as on NTFS), this property will be FALSE.DeviceID@) * stringDescriptionThe DeviceID property contains a string uniquely identifying the logical disk from other devices on the system.DriveTypeR+  uint32DescriptionThe DriveType property contains a numeric value corresponding to the type of disk drive this logical disk represents. Please refer to the Platform SDK documentation for additional values. Example: A CD-ROM drive would return 5.Values .:IWUnknownNo Root DirectoryRemovable DiskLocal DiskNetwork DriveCompact DiscRAM DiskFileSystemV stringDescriptionThe FileSystem property indicates the file system on the logical disk. Example: NTFSMaximumComponentLengthZ HP]uint32DescriptionThe MaximumComponentLength property contains the maximum length of a filename component supported by the Win32 drive. A filename component is that portion of a filename between backslashes. The value can be used to indicate that long names are supported by the specified file system. For example, for a FAT file system supporting long names, the function stores the value 255, rather than the previous 8.3 indicator. Long names can also be supported on systems that use the NTFS file system. Example: 255MediaTypel+  uint32DescriptionThe MediaType property indicates the type of media currently present in the logical drive. This value will be one of the values of the MEDIA_TYPE enumeration defined in winioctl.h. Note: The value may not be exact for removable drives if currently there is no media in the drive.Values9 L a v  A X m  Format is unknown5-Inch Floppy Disk3-Inch Floppy Disk3-Inch Floppy Disk3-Inch Floppy Disk3-Inch Floppy Disk5-Inch Floppy Disk5-Inch Floppy Disk5-Inch Floppy Disk5-Inch Floppy Disk5-Inch Floppy DiskRemovable media other than floppyFixed hard disk media3-Inch Floppy Disk3-Inch Floppy Disk5-Inch Floppy Disk5-Inch Floppy Disk3-Inch Floppy Disk3-Inch Floppy Disk5-Inch Floppy Disk3-Inch Floppy Disk3-Inch Floppy Disk8-Inch Floppy DiskProviderName^ c k x stringDescriptionThe ProviderName property indicates the network path name to the logical device.SupportsFileBasedCompression b   * booleanDescriptionThe SupportsFileBasedCompression property indicates whether the logical disk partition supports file based compression, such as is the case with NTFS. This property is FALSE, when the Compressed property is TRUE. Values: TRUE or FALSE. If TRUE, the logical disk supports file based compression.VolumeNamed   stringDescriptionThe VolumeName property indicates the volume name of the logical disk. Constraints: Maximum 32 charactersVolumeSerialNumberh JR_stringDescriptionThe VolumeSerialNumber property indicates the volume serial number of the logical disk. Constraints: Maximum 11 characters Example: A8C3-D032 ts8 `IN @!CIM_StorageExtent) Y d lESQ\' 2 {~WUUCIM_MemoryDescriptionCapabilities and management of memory-related logical devices.AMENDMENTLOCALEAdditionalErrorData " uint8DescriptionAn array of octets holding additional error information. An example is ECC Syndrome or the return of the check bits if a CRC-based error methodology is used. In the latter case, if a single bit error is recognized and the CRC algorithm is known, it is possible to determine the exact bit that failed. This type of data (ECC Syndrome, Check Bit or Parity Bit data, or other vendor supplied information) is included in this field. If the ErrorInfo property is equal to 3, "OK", then the AdditionalErrorData property has no meaning.CorrectableError f )booleanDescriptionBoolean indicating that the most recent error was correctable. If the ErrorInfo property is equal to 3, "OK", then this property has no meaning.EndingAddressX  uint64DescriptionThe ending address, referenced by an application or operating system and mapped by a memory controller, for this memory object. The ending address is specified in KBytes.ErrorAccessl+  uint16DescriptionAn integer enumeration indicating the memory access operation that caused the last error. The type of error is described by the ErrorInfo property. If the ErrorInfo property is equal to 3, "OK", then this property has no meaning.Values )/6OtherUnknownReadWritePartial WriteErrorAddressx uint64DescriptionSpecifies the address of the last memory error. The type of error is described by the ErrorInfo property. If the ErrorInfo property is equal to 3, "OK", then this property has no meaning.ErrorData r uint8DescriptionData captured during the last erroneous memory access. The data occupies the first n octets of the array necessary to hold the number of bits specified by the ErrorTransferSize property. If ErrorTransferSize is 0, then this property has no meaning.ErrorDataOrderv+   uint16DescriptionThe ordering for data stored in the ErrorData property. "Least Significant Byte First" (value=1) or "Most Significant Byte First" (2) can be specified. If ErrorTransferSize is 0, then this property has no meaning.Values UnknownLeast Significant Byte FirstMost Significant Byte FirstErrorInfo`+ k s    uint16DescriptionAn integer enumeration describing the type of error that occurred most recently. For example, single (value=6) or double bit errors (7) can be specified using this property. The values, 12-14, are undefined in the CIM Schema since in DMI, they mix the semantics of the type of error and whether it was correctable or not. The latter is indicated in the property, CorrectableError.ValuesC J S W a o OtherUnknownOKBad ReadParity ErrorSingle-Bit ErrorDouble-Bit ErrorMulti-Bit ErrorNibble ErrorChecksum ErrorCRC ErrorUndefinedUndefinedUndefinedErrorMethodology@@ , 4 A stringDescriptionErrorMethodology for CIM_Memory is a string property that indicates whether parity or CRC algorithms, ECC or other mechanisms are used. Details on the algorithm can also be supplied.ErrorResolution! 6>Kuint64DescriptionSpecifies the range, in bytes, to which the last error can be resolved. For example, if error addresses are resolved to bit 11 (i.e., on a typical page basis), then errors can be resolved to 4K boundaries and this property is set to 4000. If the ErrorInfo property is equal to 3, "OK", then this property has no meaning.ErrorTimeeh datetimeDescriptionThe time that the last memory error occurred. The type of error is described by the ErrorInfo property. If the ErrorInfo property is equal to 3, "OK", then this property has no meaning.ErrorTransferSizen uint32DescriptionThe size of the data transfer in bits that caused the last error. 0 indicates no error. If the ErrorInfo property is equal to 3, "OK", then this property should be set to 0.OtherErrorDescriptionb stringDescriptionFree form string providing more information if the ErrorType property is set to 1, "Other". If not set to 1, this string has no meaning.StartingAddressP uint64DescriptionThe beginning address, referenced by an application or operating system and mapped by a memory controller, for this memory object. The starting address is specified in KBytes.SystemLevelAddress  booleanDescriptionBoolean indicating whether the address information in the property, ErrorAddress, is a system-level address (TRUE) or a physical address (FALSE). If the ErrorInfo property is equal to 3, "OK", then this property has no meaning. nmet| _ CIM_Memory )L W _n  EO"5U CIM_CacheMemoryDescriptionCapabilities and management of cache memory.AMENDMENTLOCALEAssociativity*+ 1 9uint16DescriptionAn integer enumeration defining the system cache associativity. For example, 6 indicates a fully associative cache.ValuesU\etOtherUnknownDirect Mapped2-way Set-Associative4-way Set-AssociativeFully AssociativeCacheType%+  uint16DescriptionDefines whether this is for instruction caching (value=3), data caching (value=4) or both (value=5, "Unified"). Also, "Other" (1) and "Unknown" (2) can be defined.ValuesOtherUnknownInstructionDataUnifiedFlushTimer) 7?Luint32DescriptionMaximum amount of time, in seconds, dirty lines or buckets may remain in the cache before they are flushed. A value of zero indicated that a cache flush is not controlled by a flushing timer.Level#+ MUb uint16DescriptionDefines whether this is the primary (value=3), secondary (value=4) or tertiary (value=5) cache. Also, "Other" (1) and "Unknown" (2) can be defined.Values'0;OtherUnknownPrimarySecondaryTertiaryLineSize& {uint32DescriptionSize, in bytes, of a single cache bucket or line.ReadPolicy(+  uint16DescriptionPolicy that shall be employed by the cache for handling read requests. For example, "Read", "Read-Ahead" or both can be specified using the values, 3, 4 or 5, respectively.Values OtherUnknownReadRead-AheadRead and Read-AheadReplacementPolicy'+ nv uint16DescriptionAn integer enumeration describing the algorithm to determine which cache lines or buckets should be re-used.Values )D_yOtherUnknownLeast Recently Used (LRU)First In First Out (FIFO)Last In First Out (LIFO)Least Frequently Used (LFU)Most Frequently Used (MFU)WritePolicy$+    uint16DescriptionDefines whether this is write-back (value=3) or write-through (value=4) cache, or this information "Varies with Address" (5). Also, "Other" (1) and "Unknown" (2) can be defined.Values OtherUnknownWrite BackWrite ThroughVaries with Address d } CIM_CacheMemory)  +hrSe'1UWin32_CacheMemoryDescriptionThe Win32_CacheMemory class represents cache memory (internal and external) on a computer system.AMENDMENTLOCALECacheSpeed1 uint32DescriptionThe CacheSpeed property specifies the speed of the cache.CurrentSRAM /+ dly uint16DescriptionThe CurrentSRAM property indicates the types of Static Random Access Memory (SRAM) that being used for the cache memory.Values"+6=MZOtherUnknownNon-BurstBurstPipeline BurstSynchronousAsynchronousDeviceID@)  stringDescriptionThe DeviceID property contains a string that uniquely identifies the cache represented by an instance of Win32_CacheMemory. Example: Cache Memory 1ErrorCorrectType0+  uint16DescriptionThe ErrorCorrectType property indicates the error correction method used by the cache memory.Values:DKTZbrReservedOtherUnknownNoneParitySingle-bit ECCMulti-bit ECCInstalledSize- uint32DescriptionThe InstalledSize property indicates the current size of the installed cache memory.Location++ jr uint16DescriptionThe Location property indicates the physical location of the cache memory.ValuesInternalExternalReservedUnknownMaxCacheSize, HP]uint32DescriptionThe MaxCacheSize property indicates the maximum cache size installable to this particular cache memory.SupportedSRAM .+ # uint16DescriptionThe SupportedSRAM property indicates the supported types of Static Random Access Memory (SRAM) that can be used for the cache memory.ValuesOtherUnknownNon-BurstBurstPipeline BurstSynchronousAsynchronous MCIM_Memory )"T _ grCIM_VolatileStorageDescriptionCapabilities and management of volatile storage.AMENDMENTLOCALECacheable # booleanDescriptionIndicates whether this memory can be cached or not.CacheType$+ -5B> Fuint16DescriptionAn enumeration indicating the cache type that is compatible with this memory. For example, 4 indicates write-through cache. If the Cacheable property is set to false, then this property does not have meaning and should be set to 5, "Not Applicable".Values^enzOtherUnknownWrite-BackWrite-ThroughNot Applicable enCIM_StorageExtent)!A L TtW CIM_PhysicalExtentDescriptionThe CIM_PhysicalExtent class defines the consecutive addressable block addresses on a single physical storage device, that are treated as a single storage extent. An alternate possibility, if automatic configuration is used, is to instantiate or extend the CIM_AggregatePExtent class.AMENDMENTLOCALEUnitsBeforeCheckDataInterleaveP uint64DescriptionNumber of bytes of user data to skip before starting the check data interleave.UnitsOfCheckDataX DLYuint64DescriptionNumber of bytes to be reserved for check data.UnitsOfUserData` uint64DescriptionNumber of bytes to be reserved for user data. D'^CIM_StorageExtent)'  hCIM_ProtectedSpaceExtentDescriptionCIM_ProtectedSpaceExtent define addressable logical block addresses, treated as a single storage extent, located on a single physical extent. Protected space extents exclude any logical blocks mapped as check data and contain user data stripe depth mapping information. An alternate possibility, if automatic configuration is used, is to instantiate or extend the CIM_AggregatePSExtent class.AMENDMENTLOCALEUserDataStripeDepthP UINT64DescriptionNumber of bytes which form the stripe size for this protected space extent. o dfCIM_StorageExtent)  CIM_VolumeSetDescriptionCIM_VolumeSet represents a contiguous range of logical blocks presented to the operating environment for reading and writing user data. Volume sets shall not overlap one another. They are based on one or more physical extents, protected space extents, or aggregate extents (all of the same type). These based on associations should be instantiated or subclassed as needed.AMENDMENTLOCALEPSExtentInterleaveDepthP UINT64DescriptionNumber of protected space extents to stripe as a collective set. This property shall be zero except when the volume set is based on protected space extents.PSExtentStripeLengthX UINT64DescriptionNumber of protected space extents which form a user data stripe. This property shall be zero except when the volume set is based on protected space extents. ntCIM_StorageExtent)!^ i q)7 b r 8 J duZe3F%< WUU~Win32_SMBIOSMemoryDescriptionThe Win32_SMBIOSMemory class represents the properties of a computer system's memory as seen through the System Management BIOS (SMBIOS) interface. The SMBIOS interface does not distinguish between non-volatile, volatile, and flash memories. As such, the CIM_Memory class is the parent class of all types of memory.AMENDMENTLOCALEAdditionalErrorData " uint8DescriptionThe AdditionalErrorData property contains additional error information. An example is ECC Syndrome, or the return of the check bits if a CRC-based ErrorMethodology is used. In the latter case, if a single bit error is recognized and the CRC algorithm is known, it is possible to determine the exact bit that failed. This type of data (ECC Syndrome, Check Bit, Parity Bit data, or other vendor-supplied information) is included in this field. This property is used only when the ErrorInfo property is not equal to 3.CorrectableError f  booleanDescriptionCorrectableError property indicates whether the most recent error was correctable. This property is not used if ErrorInfo is set to 3. Values: TRUE or FALSE. If TRUE, the error is correctable.EndingAddressX %2uint64DescriptionThe EndingAddress property specifies the ending address referenced by an application or operating system. This memory address is mapped by a memory controller for this memory object.ErrorAccessl+ 08E uint16DescriptionThe ErrorAccess property indicates the memory access operation that caused the last error. This property is valid only when ErrorInfo is not set to 3.Values OtherUnknownReadWritePartial WriteErrorAddressx ckxuint64DescriptionThe ErrorAddress property specifies the address of the last memory error. This property is used only when ErrorInfo is not set to 3.ErrorData r 5<Iuint8DescriptionThe ErrorData property contains data captured from the last memory access with an error. The data occupies the first n octets of the array necessary to hold the number of bits specified by the ErrorTransferSize property. If ErrorTransferSize is 0, then this property is not used.ErrorDataOrderv+   W  _ uint16DescriptionThe ErrorDataOrder property indicates the ordering for data stored in the ErrorData property. This property is used only when ErrorTransferSize is 0.Valueso x UnknownLeast Significant Byte FirstMost Significant Byte FirstErrorInfo`+   (  0 uint16DescriptionThe ErrorInfo property contains an integer enumeration describing the type of error that occurred most recently. The values, 12-14 are not used with this property. These values indicate whether an error is correctable but this information is found in the CorrectableError property.Valuesl s |  # OtherUnknownOKBad ReadParity ErrorSingle-Bit ErrorDouble-Bit ErrorMulti-Bit ErrorNibble ErrorChecksum ErrorCRC ErrorCorrected single-bit errorCorrected errorUncorrectable errorErrorMethodology@@+    stringDescriptionThe ErrorMethodology property specifies the types of error checking used by the memory hardware.Values")28@P_OtherUnknownNoneParitySingle-bit ECCMulti-bit ECCCRCErrorResolution! uint64DescriptionThe ErrorResolution property specifies the amount of data actually determined to cause the error. This property is unused when the ErrorInfo property is set to 3.ErrorTimeeh datetimeDescriptionThe ErrorTime property contains the time that the last memory error occurred. This property is valid only when ErrorInfo is not set to 3.ErrorTransferSizen rzuint32DescriptionThe ErrorTransferSize property specifies the size of the data (containing the last error) being transferred. This property is set to 0 if there is no error.OtherErrorDescriptionb hp}stringDescriptionThe OtherErrorDescription property provides more information when the ErrorInfo property is set to 1.StartingAddressP !)6uint64DescriptionThe StartingAddress property specifies the beginning address referenced by an application or the operating system. This memory address is mapped by a memory controller for this memory object.SystemLevelAddress  7@MbooleanDescriptionThe SystemLevelAddress property indicates whether the address information in the ErrorAddress property is a system-level address (TRUE) or a physical address (FALSE). This property is used only when ErrorInfo is not set to 3. Values: TRUE or FALSE. If TRUE, ErrorAddress contains a system-level address. ipTWin32_SMBIOSMemory)  fxQWin32_MemoryArrayDescriptionThe Win32_MemoryArray class represents the properties of the computer system memory array and mapped addresses.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string that uniquely identifies the memory array. Example: Memory Array 1ErrorGranularity#+ ) 1uint16DescriptionThe ErrorGranularity identifies the level where the error can be resolved. Example: Device level.ValuesEHKN1234 Win32_SMBIOSMemory)!  Win32_MemoryDeviceDescriptionThe Win32_MemoryDevice class represents the properties of a computer system's memory device along with it's associated mapped addresses.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string that uniquely identifies the memory device. Example: Memory Device 1ErrorGranularity#+ N Vuint16DescriptionThe ErrorGranularity property identifies the level where the error can be resolved. Example: Device level.ValuesjqzOtherUnknownDevice levelMemory partition level s vdG=CIM_LogicalDevice)   CIM_UserDeviceDescriptionUser devices are logical devices that allow a computer system's users to input, view or hear data. The CIM_UserDevice class is a superclass from which other classes, such as CIM_Keyboard or CIM_DesktopMonitor, descend.AMENDMENTLOCALEIsLocked 6 BKXbooleanDescriptionAn indication of whether the device is locked, preventing user input or output. AxpTLCIM_Display )!k v ~WCIM_DesktopMonitorDescriptionCapabilities and management of the desktop monitor (CRT) logical device.AMENDMENTLOCALEBandwidth: uint32DescriptionMonitor's bandwidth in MegaHertz. If unknown, enter 0.DisplayType8+ HP] uint16DescriptionThe type of desktop monitor or CRT. For example, multiscan color or monochrome monitors (values 2 or 3, respectively) can be indicated in this property.Values$+<RiUnknownOtherMultiscan ColorMultiscan MonochromeFixed Frequency ColorFixed Frequency MonochromeScreenHeight> uint32DescriptionThe logical height of the display in screen coordinates.ScreenWidthB GO\uint32DescriptionThe logical width of the display in screen coordinates. P3]CIM_DesktopMonitor)#  l"/WTWin32_DesktopMonitorDescriptionThe Win32_DesktopMonitor class represents the type of monitor or display device attached to the computer system.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string that uniquely identifies a desktop monitor. Example: DesktopMonitor1MonitorManufacturerF stringDescriptionThe MonitorManufacturer property indicates the name of the monitor manufacturer. Example: NECMonitorTypeJ [cpstringDescriptionThe MonitorType property indicates the type of monitor. Example: NEC 5FGpPixelsPerXLogicalInchN uint32DescriptionThe PixelsPerXLogicalInch property indicates the resolution along the X axis (horizontal direction) of the monitor.PixelsPerYLogicalInchR uint32DescriptionThe PixelsPerYLogicalInch property indicates the resolution along the Y axis (vertical direction) of the monitor. som8ؙur system may be running low on \?NCIM_Display )[ f n{P]mwXgWnCIM_FlatPanelDescriptionCapabilities and management of the flat panel logical device.AMENDMENTLOCALEDisplayTypeB+   uint16DescriptionAn integer enumeration describing the type of flat panel display.Values <EL`sUnknownOtherPassive Matrix LCDActive Matrix LCDCholesteric LCDField Emission DisplayElectro Luminescent DisplayGas PlasmaLEDHorizontalResolution8  !uint32DescriptionFlat panel's horizontal resolution in Pixels.LightSourceD+  'uint16DescriptionA description of the display illumination type. For example, backlit (value=2) or reflective (4) can be specified.Values?HOXaUnknownOtherBacklitEdgelitReflectiveScanMode@+  uint16DescriptionA Flat panel's scan mode indicating either single (value=2) or dual scan (3).Values09@MUnknownOtherSingle ScanDual ScanSupportsColor F booleanDescriptionBoolean indicating whether the flat panel supports color display.VerticalResolution< ,4Auint32DescriptionFlat panel's vertical resolution in Pixels. e0T0T4,CIM_Keyboard,48| b r 8 J $T0x0CCIM_UserDevice)X c ksjCIM_KeyboardDescriptionCapabilities and management of the keyboard logical device.AMENDMENTLOCALELayout8 stringDescriptionA free-form string indicating the layout of the keyboardPassword<+ 19F uint16DescriptionAn integer indicating whether a hardware-level password is enabled at the keyboard (value=4), preventing local input. Other values are: "Disabled" (3), "Not Implemented" (5), "Other" (1) and "Unknown" (2).Values6=FPYOtherUnknownDisabledEnabledNot Implemented va 0T0P0Win32_Keyboarde ,xm $T0tCCIM_Keyboard)  ZWin32_KeyboardDescriptionThe Win32_Keyboard class represents a keyboard installed on a Win32 system. Example: A Microsoft Natural(R) keyboardAMENDMENTLOCALEDeviceID@)  stringDescriptionDeviceID is an address or other identifying information to uniquely name the logical device. les r0T0 8CIM_PointingDevicefo,0U$T0DGCIM_UserDevice)!, 7 ?Ko}o{WCIM_PointingDeviceDescriptionThe CIM_PointingDevice class represents a device used to point to regions on the display. Membership criteria: Any device used to manipulate a pointer or point to regions on a visual display is a member of this class. Example: A mouse, stylus, touch pad, or tablet.AMENDMENTLOCALEHandedness8+ Y auint16DescriptionInteger indicating whether the pointing device is configured for right (value=2) or left handed operation (value=3). Also, the values, "Unknown" (0) and "Not Applicable" (1), can be defined.Valuesu~UnknownNot ApplicableRight Handed OperationLeft Handed OperationNumberOfButtons: uint8DescriptionThe NumberOfButtons property indicates the number of buttons on the pointing device. Example: 2PointingType;+  uint16DescriptionThe type of the pointing device.Values )0<IVaOtherUnknownMouseTrack BallTrack PointGlide PointTouch PadTouch ScreenResolution= uint32DescriptionThe Resolution property indicates the tracking resolution. Example: 0 ck0T0<Win32_PointingDevice,P | $T0 0  kCIM_PointingDevice)#T _  gq1ByJX e l WU Win32_PointingDeviceDescriptionThe Win32_PointingDevice class represents an input device used to point to and select regions on the display of a Win32 computer system. Any device used to manipulate a pointer, or point to the display on a Win32 computer system is a member of this class. Example: A mouse, touch pad, or stylus/tablet.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains a string uniquely identifying the pointing device with other devices on the system.DeviceInterface]+ { uint16DescriptionThe DeviceInterface property indicates the type of interface used for the pointing device.Values $+4<BLT_xOtherUnknownSerialPS/2InfraredHP-HILBus mouseADB (Apple Desktop Bus)Bus mouse DB-9Bus mouse micro-DINUSBDoubleSpeedThresholdU uint32DescriptionThe DoubleSpeedThreshold property contains one of two acceleration values. The sensitivity of the pointing device doubles (toggles from the first to the second value) when the pointing device moves a distance greater than this threshold value.HardwareTypeA (0=stringDescriptionThe HardwareType property indicates the type of hardware type used for the Win32 pointing device. Example: MICROSOFT PS2 MOUSEInfFileNameE  stringDescriptionThe InfFileName property indicates the name of the .inf file for the Win32 pointing device. Example: ab.infInfSectionI stringDescriptionThe InfSection property indicates the section of the .inf file that holds configuration information for the Win32 pointing device.Manufacturer_ stringDescriptionThe Manufacturer property specifies the name of the processor's manufacturer. Example: GenuineSiliconQuadSpeedThresholdY @HUuint32DescriptionThe QuadSpeedThreshold property contains the one of two acceleration threshold values. The system doubles the speed of the pointer movement when the pointer device moves a distance greater than this value. Since this speed increase occurs after the DoubleSpeedThreshold has been met, pointer effectively moves at four times it original speedSampleRateM   uint32DescriptionThe SampleRate property indicates the rate at which the pointing device is polled for input information.SynchQ   uint32DescriptionThe Synch property specifies the length of time after which the next interrupt is assumed to indicate the start of a new device packet (partial packets are discarded). In the event that an interrupt is lost, this allows the pointing device driver to synchronize its internalrepresentation of the packet state with the hardware state. ss0T0c$Win32_Bus,X(M,((|Lf$T0( CCIM_LogicalDevice)   |<Win32_BusDescriptionThe Win32_Bus class represents a physical bus as seen by a Win32 operating system. Any instance of a Win32 bus is a descendent (or member) of this class. Example: USB Bus.AMENDMENTLOCALEBusNum6  !uint32DescriptionThe BusNum property indicates the logical number assigned to the physical bus. Example: 1BusType:+ z uint32DescriptionThe BusType property indicates the type of the physical bus. This value will be one of the values in the INTERFACE_TYPE enumeration defined in bus.h. Example: PCIBusValues #/6?I]q~UndefinedInternalISAEISAMicroChannelTurboChannelPCI BusVME BusNuBusPCMCIA BusC BusMPI BusMPSA BusInternal ProcessorInternal Power BusPNP ISA BusPNP BusMaximum Interface TypeDeviceID@)  stringDescriptionThe DeviceID property contains a unique name that identifies the bus. rf`GCIM_LogicalDevice)&  "p.Win32_MotherboardDeviceDescriptionThe Win32_MotherboardDevice class represents a device that contains the central components of the Win32 computer system. Example: A single piece of hardware containing a processor, bus, memory, and basic system interfacesAMENDMENTLOCALEDeviceID@) Yan stringDescriptionThe DeviceID property contains a string that uniquely identifies this motherboard.PrimaryBusType6 stringDescriptionThe PrimaryBusType property indicates the primary bus type of the motherboard. Example: PCIRevisionNumber: stringDescriptionThe RevisionNumber property indicates the revision number of the motherboard. Example: 00SecondaryBusType> ZbostringDescriptionThe SecondaryBusType property indicates the secondary bus type of the motherboard. Example: ISA sTGCIM_LogicalDevice)  M[Win32_PnPEntityDescriptionThe Win32_PnPEntity class represents the properties of a Plug and Play device. Plug and Play entities are shown as entries in the Device Manager located in the Control Panel.AMENDMENTLOCALEClassGuid>  -stringDescriptionThe ClassGuid property contains the Globally Unique Identifier (GUID) that uniquely identifies this Plug and Play device.DeviceID@)  stringDescriptionThe DeviceID property contains a string identifying the Plug and Play device.Manufacturer6 stringDescriptionThe Manufacturer property contains the name of the manufacturer of the Plug and Play device. Example: AcmeService: =ERstringDescriptionThe Service property contains the name of the service that supports this Plug and Play device. See also: Win32_SystemDriverPNPEntity class. Example: atapi DeHWin32_SystemDriverPNPEntity8dhe system bus.0T04Win32_SoundDevice,$T0ICIM_LogicalDevice)  ETn{U3Win32_SoundDeviceDescriptionThe Win32_SoundDevice class represents the properties of a sound device on a Win32 computer system.AMENDMENTLOCALEDeviceID@)  stringDescriptionThe DeviceID property contains information that uniquely identifies the sound device.DMABufferSize6 uint16DescriptionThe DMABufferSize property indicates the size of the Direct Memory Access buffer. Example: 4Manufacturer8 -5BstringDescriptionThe Manufacturer property names the manufacturer of the sound device. Example: Creative LabsMPU401Address< uint32DescriptionThe MPU401Address property indicates the starting I/O address assigned to the MPU-401 port of the sound device. Example: 300ProductName@ stringDescriptionThe ProductName property indicates the product name of the sound device. Example: Creative Labs SoundBlaster AWE64PNP us 0T0t3ؔ0CIM_LogicalFile,@4h.]$T0|E~CIM_LogicalElement)  MVI ^  A X  " % * r"0[cWUUUUUCIM_LogicalFileDescriptionThe CIM_LogicalFile class represents a named collection of data (this can be executable code) located in a file system on a storage extent.AMENDMENTLOCALEAccessMaskr+   uint32DescriptionThe AccessMask property is a bit array representing the access rights to the given file or directory held by the user or group on whose behalf the instance is returned. This property is only supported under Windows NT and Windows 2000. On Windows 98 and on Windows NT/2000 FAT volumes, FULL_ACCESS is returned, indicating no security has been set on the object.BitValues9w(3@FILE_READ_DATA (file) or FILE_LIST_DIRECTORY (directory)FILE_WRITE_DATA (file) or FILE_ADD_FILE (directory)FILE_APPEND_DATA (file) or FILE_ADD_SUBDIRECTORY (directory)FILE_READ_EAFILE_WRITE_EAFILE_EXECUTE (file) or FILE_TRAVERSE (directory)FILE_DELETE_CHILD (directory)FILE_READ_ATTRIBUTESFILE_WRITE_ATTRIBUTESDELETEREAD_CONTROLWRITE_DACWRITE_OWNERSYNCHRONIZEArchive  booleanDescriptionThe Archive property is a boolean value indicating that the file should be archived.Compressed & &/<booleanDescriptionThe Compressed property is a boolean value indicating that the file is compressed.CompressionMethodZ stringDescriptionThe CompressionMethod property is a free form string indicating the algorithm or tool used to compress the logical file. If it is not possible (or not desired) to describe the compression scheme (perhaps because it is not known), use the following words: "Unknown" to represent that it is not known whether the logical file is compressed or not, "Compressed" to represent that the file is compressed but either its compression scheme is not known or not disclosed, and "Not Compressed" to represent that the logical file is not compressed.CreationClassName ( @HUstringDescriptionThe CreationClassName property is a string indicating the name of this class.CreationDatee , datetimeDescriptionThe CreationDate property is a datetime value indicating the file's creation date.CSCreationClassName   stringDescriptionThe CSCreationClassName property is a string indicating the class of the computer system.CSName" . 6 C stringDescriptionThe CSName property is a string indicating the name of the computer system.Driveb   stringDescriptionThe Drive property is a string representing the drive letter (including colon) of the file. Example: c:EightDotThreeFileNameV   stringDescriptionThe EightDotThreeFileName property is a string representing the DOS-compatible file name for this file. Example: c:\progra~1Encrypted 0 N W d booleanDescriptionThe Encrypted property is a boolean value indicating that the file is encrypted.EncryptionMethod^   stringDescriptionThe EncryptionMethod property is a free form string indicating the algorithm or tool used to encrypt the logical file. If it is not possible (or not desired) to describe the encryption scheme (perhaps for security reasons), use the following words: "Unknown" to represent that it is not known whether the logical file is encrypted or not, "Encrypted" to represent that the file is encrypted but either its encryption scheme is not known or not disclosed, and "Not Encrypted" to represent that the logical file is not encrypted.Extensionn QYfstringDescriptionThe Extension property is a string representing the file's extension (without the dot). Example: txt, mof, mdb.FileNamej  "stringDescriptionThe FileName property is a string representing the filename (without extension) of the file. Example: autoexecFileSizeD uint64DescriptionThe FileSize property represents the size of the file (in bytes).FileTypeR V^kstringDescriptionThe FileType property is a string descriptor representing the file type (indicated by the Extension property).FSCreationClassName 2 $1stringDescriptionThe FSCreationClassName property is a string indicating the class of the file system.FSName6 stringDescriptionThe FSName property is string indicating the name of the file system.Hidden N LUbbooleanDescriptionThe Hidden property is a boolean value indicating if the file is hidden.InUseCount uint64DescriptionThe InUseCount property is an integer indicating the number of 'file opens' that are currently active against the file.LastAccessede: datetimeDescriptionThe LastAccessed property is a datetime value indicating the time the file was last accessed.LastModifiede> \fsdatetimeDescriptionThe LastModified property is a datetime value indicating the time the file was last modified.Name@ ) $ stringDescriptionThe Name property is a string representing the inherited name that serves as a key of a logical file instance within a file system. Full path names should be provided. Example: c:\winnt\system\win.iniPathf  (5stringDescriptionThe Path property is a string representing the path of the file. This includes leading and trailing backslashes. Example: \windows\system\Readable B  booleanDescriptionThe Readable property is a boolean value indicating if the file can be read.System P booleanDescriptionThe system property is a boolean value indicating if the file is a system file.Writeable L -6CbooleanDescriptionThe Writeable property is a boolean value indicating if the file can be written.$ aean#the> MxU"$\&d&**G,Q,00:2F26678H8=CHINh_qdydisxx|  KȮTakeOwnerShip-:e mDescriptionThe TakeOwnerShip method obtains ownership of the logical file specified in the object path . If the logical file is actually a directory, then TakeOwnerShip will act recursively, taking ownership of all the files and sub-directories the directory contains. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values -AVi}SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ChangeSecurityPermissions\iO  W DescriptionThe ChangeSecurityPermissions method changes the security permissions for the logical file specified in the object path. If the logical file is actually a directory, then ChangeSecurityPermissions will act recursively, changing the security permissions of all the files and sub-directories the directory contains. ChangeSecurityPermissions returns an integer value of 0 if the permissions were changed, and any other number to indicate an error. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values  + @ S g { SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterBLD117ROOT\CIMV2\ms_409 j  *&%__PARAMETERSabstract SecurityDescriptorobject  >In  >e The SecurityDescriptor input parameter specifies the security informationDescription ) >e ID 6 je "object:Win32_SecurityDescriptorOptionuint32 In  The Option input parameter specifies the actual security privilege to be modified. Change_Owner_Security_Information - Change the owner of the logical file. Change_Group_Security_Information - Change the group of the logical file. Change_Dacl_Security_Information - Change the Access Control List of the logical file. Change_Sacl_Security_Information - Change the System Access Control List of the logical file.Description)  5WChange_Owner_Security_InformationChange_Group_Security_InformationChange_Dacl_Security_InformationChange_Sacl_Security_InformationBitValues6  y IDC  y uint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Copye mDescriptionThe Copy method copies the logical file or directory specified in the object path to the location specified by the input parameter. Copy returns an integer value of 0 if the file was successfully copied, and any other number to indicate an error. A copy is not supported if overwriting an existing logical file is required. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values -AVi}SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterUBLD117ROOT\CIMV2\ms_409  *g__PARAMETERSabstractFileNamestring 4In 4[ The FileName input parameter is a string representing the fully qualified name of the copy of the file (or directory). Example: c:\temp\newdirectoryDescription) 4[ ID6 [ cstring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Rename! !DescriptionThe Rename method renames the logical file (or directory) specified in the object path. Rename returns an integer value of 0 if the file was successfully renamed, and any other number to indicate an error. A rename is not supported if the destination is on another drive or overwriting an existing logical file is required It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values V!_!n!!!!!!!""."B"SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterBLD117ROOT\CIMV2\ms_409 7 *__PARAMETERSabstractFileNamestring 4In 4[ The FileName input parameter is a string representing the new name for the logical file (or directory). The FileName input parameter must be a fully qualified path name. Example: c:\temp\newfile.txt.Description) 4[ RID6 [ Rstring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Delete&&) )DescriptionThe Delete method will delete the logical file (or directory) specified in the object path. Delete returns an integer value of 0 if the file was successfully deleted, and any other number to indicate an error. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values ))))**3*Q*e*z****SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Compresso,|,|/ /DescriptionThe Compress method compresses the logical file (or directory) specified in the object path. Compress returns an integer value of 0 if the file was successfully compressed, and any other number to indicate an error. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values /////0&0D0X0m0000SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Uncompressd2q2y5 5DescriptionThe Uncompress method uncompresses the logical file (or directory) specified in the object path. Uncompress returns an integer value of 0 if the file was successfully decompressed, and any other number to indicate an error. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values 55555 6#6A6U6j6}666SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __TakeOwnerShipExf8s8E< M<DescriptionThe TakeOwnerShipEx method obtains ownership of the logical file specified in the object path. If the logical file is actually a directory, then this method will act recursively, taking ownership of all the files and sub-directories the directory contains. TakeOwnerShipEx returns an integer value of 0 on success, and any other number to indicate an error. TakeOwnerShipEx is an extended version of the TakeOwnerShip method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values <<<<<<< =!=6=I=]=q=SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterWBLD117ROOT\CIMV2\ms_409  ~*f__PARAMETERSabstractStartFileNamestring 9In 9` The StartFileName input parameter is a string that names the child file/directory to use as a starting point for TakeOwnerShipEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description) 9` ID6 ` bstring Recursiveboolean  In   The Recursive input parameter is a boolean that indicates whether the change of ownership will be applied recursively to files and directories within the directory specified by the CIM_LogicalFile instance.Note for file instances the Recursive input parameter is ignored.Description )  6%ID 6  6%zboolean __ __ __BLD117ROOT\CIMV2\ms_409   1*[__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where TakeOwnerShipEx method failed. StopFileName parameter will be null if the method succeeds.Description) 8_ JID6 _ JstringReturnValueuint32 $uint32out $, __ __ __ __ChangeSecurityPermissionsEx-I:I|M MDescriptionThe ChangeSecurityPermissionsEx method changes the security permissions for the logical file specified in the object path. If the logical file is actually a directory, then this method will act recursively, changing the security permissions of all the files and sub-directories the directory contains. ChangeSecurityPermissionsEx returns an integer value of 0 if the permissions were changed, and any other number to indicate an error. The ChangeSecurityPermissionsEx methodis an extended version of the ChangeSecurityPermissions method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values MMMMMN&NDNXNmNNNNSuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterBLD117ROOT\CIMV2\ms_409 X  *'9U __PARAMETERSabstract SecurityDescriptorobject  >in  >e The SecurityDescriptor input parameter specifies the security information.Description ) >e ID 6 ke #object:Win32_SecurityDescriptorOptionuint32 In  The Option input parameter specifies the actual security permission to be modified. Change_Owner_Security_Information - Change the owner of the logical file. Change_Group_Security_Information - Change the group of the logical file. Change_Dacl_Security_Information - Change the Access Control List of the logical file. Change_Sacl_Security_Information - Change the System Access Control List of the logical file.Description)  7YChange_Owner_Security_InformationChange_Group_Security_InformationChange_Dacl_Security_InformationChange_Sacl_Security_InformationBitValues6  { IDC  { uint32StartFileNamestring HIn Ho The StartFileName input parameter is a string representing the child file/directory to use as a starting point for ChangeSecurityPermissionsEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description) Ho ;ID6 o ;string  Recursiveboolean   In    The Recursive input parameter is a boolean that indicates whether the security permissions will be applied recursively to files and directories within the directory specified by the CIM_LogicalFile instance.Note for file instances the Recursive input parameter is ignored.Description  )  T BID  6   T B boolean __ __ __ __ __ __BLD117ROOT\CIMV2\ms_409   ,*V__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where ChangeSecurityPermissionsEx failed. StopFileName will be null if the method succeeds.Description) 8_ EID6 _ EstringReturnValueuint32 uint32out ' __ __ __ __CopyExddIh QhDescriptionThe CopyEx method copies the logical file or directory specified in the object path to the location specified by the FileName parameter. CopyEx returns an integer value of 0 if the file was successfully copied, and any other number to indicate an error. A copy is not supported if overwriting an existing logical file is required. CopyEx is an extended version of the Copy method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values hhhhhhhi%i:iMiaiuiSuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameter BLD117ROOT\CIMV2\ms_409 8  *hWO__PARAMETERSabstractFileNamestring 4In 4[ The FileName input parameter is a string representing the fully qualified name of the copy of the file (or directory). Example: c:\temp\newdirectory.Description) 4[ ID6 [ dstringStartFileNamestring In  The StartFileName input parameter is a string that names the child file/directory to use as a starting point for CopyEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description)  *ID6 = *string Recursiveboolean  bIn  b The Recursive input parameter is a boolean that indicates whether the copy will be applied recursively to files and directories within the directory specified by the CIM_LogicalFile instance.Note for file instances the Recursive input parameter is ignored.Description ) b ID 6 F boolean __ __ __ __BLD117ROOT\CIMV2\ms_409    *J__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where CopyEx failed. This string parameter will be null if the method succeeds.Description) 8_ 9ID6 _ 9}stringReturnValueuint32 uint32out  __ __ __ __DeleteEx.x;xo{ w{DescriptionThe DeleteEx method will delete the logical file (or directory) specified in the object path. DeleteEx returns an integer value of 0 if the file was successfully deleted, and any other number to indicate an error. DeleteEx is an extended version of the Delete method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values {{{{{||7|K|`|s|||SuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterWBLD117ROOT\CIMV2\ms_409  *___PARAMETERSabstractStartFileNamestring 9In 9` The StartFileName input parameter is a string that names the child file/directory to use as a starting point for DeleteEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description) 9` ID6 ` [string __BLD117ROOT\CIMV2\ms_409    *J__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where DeleteEx failed. This string parameter will be null if DeleteEx succeeds.Description) 8_ 9ID6 _ 9}stringReturnValueuint32 uint32out  __ __ __ __CompressEx$1o wDescriptionThe CompressEx method compresses the logical file (or directory) specified in the object path. CompressEx returns an integer value of 0 if the file was successfully compressed, and any other number to indicate an error. CompressEx is an extended version of the Compress method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values Lj܈7K`sSuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterMBLD117ROOT\CIMV2\ms_409  q*a__PARAMETERSabstractStartFileNamestring 9In 9` The StartFileName input parameter is a string that names the child file/directory to use as a starting point for CompressEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description) 9` ID6 ` ]string Recursiveboolean  In   The Recursive input parameter is a boolean that indicates whether the compression will be applied recursively to files and directories within the directory specified by the CIM_LogicalFile instance.Note for file instances the Recursive input parameter is ignored.Description )  ) ID 6  ) mboolean __ __ __BLD117ROOT\CIMV2\ms_409   *|E__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where CompressEx failed. StopFileName will be null if the method succeeds.Description) 8_ 4ID6 _ 4xstringReturnValueuint32 uint32out  __ __ __ __UncompressExi qDescriptionThe UncompressEx method uncompresses the logical file (or directory) specified in the object path. UncompressEx returns an integer value of 0 if the file was successfully decompressed, and any other number to indicate an error. UncompressEx is an extended version of the Uncompress method. It returns one of the following integer values: 0 - The request was successful. 2 - Access was denied. 8 - An unspecified failure occurred. 9 - The name specified was invalid. 10 - The object specified already exists. 11 - The file system is not NTFS. 12 - The platform is not Windows NT or Windows 2000. 13 - The drive is not the same. 14 - The directory is not empty. 15 - There has been a sharing violation. 16 - The start file specified was invalid. 17 - A privilege required for the operation is not held. 21 - A parameter specified is invalid. Values ֘1EZmSuccessAccess DeniedUnspecified failureInvalid objectObject already existsFile system not NTFSPlatform not NT/Windows 2000Drive not the sameDirectory not emptySharing violationInvalid start filePrivilege not heldInvalid parameterQBLD117ROOT\CIMV2\ms_409  u*c__PARAMETERSabstractStartFileNamestring 9In 9` The StartFileName input parameter is a string that names the child file/directory to use as a starting point for UncompressEx.The StartFileName property typically, is the StopFileName parameter specifying the file or directory at which anerror occurred from the previous method call. If this parameter is NULL, the operation is performed on the file ordirectory specified in the ExecMethod call.Description) 9` ID6 ` _string Recursiveboolean  In   The Recursive input parameter is a boolean that indicates whether the decompression will be applied recursively to files and directories within the directory specified by the CIM_LogicalFile instance.Note for file instances the Recursive input parameter is ignored.Description )  -"ID 6  -"qboolean __ __ __BLD117ROOT\CIMV2\ms_409   *~G__PARAMETERSabstractStopFileNamestring 8Out 8_ The StopFileName output parameter is a string representing the name of the file/directory where UncompressEx failed. StopFileName will be null if the method succeeds.Description) 8_ 6ID6 _ 6zstringReturnValueuint32 uint32out  __ __ __ __GetEffectivePermissionDescriptionThe GetEffectivePermission method determines whether the caller has the aggregated permissions specified by the Permission argument not only on the file object, but on the share the file or directory resides on (if it is on a share).>BLD117ROOT\CIMV2\ms_409  *N__PARAMETERSabstractPermissionsuint32 7In 7^ The Permissions input parameter is a bit array of the permissions that the caller wishes to inquire about.Description) 7^ x%3BtFILE_READ_DATA (file) or FILE_LIST_DIRECTORY (directory)FILE_WRITE_DATA (file) or FILE_ADD_FILE (directory)FILE_APPEND_DATA (file) or FILE_ADD_SUBDIRECTORY (directory)FILE_READ_EAFILE_WRITE_EAFILE_EXECUTE (file) or FILE_TRAVERSE (directory)FILE_DELETE_CHILD (directory)FILE_READ_ATTRIBUTESFILE_WRITE_ATTRIBUTESDELETEREAD_CONTROLWRITE_DACWRITE_OWNERSYNCHRONIZEBitValues6 7^  <IDC ^  <Juint32 __yBLD117ROOT\CIMV2\ms_409 ( *m__PARAMETERSabstract ReturnValueboolean  _booleanout  _h __ __PCIM_LogicalFile)z  #CIM_DataFileDescriptionCIM_DataFile is a type of logical file that is a named collection of data or executable code.AMENDMENTLOCALEManufacturer z stringDescriptionManufacturer string from version resource if one is present.Versionv OWdstringDescriptionVersion string from version resource if one is present. odlCIM_DataFile)  Win32_CodecFileDescriptionThe Win32_CodecFile class represents the audio or video codec installed on the computer system. Codecs convert one media format type to another, typically a compressed format to an uncompressed format. The name "codec" is derived from a combination of "compress" and "decompress." For example, a codec can convert a compressed format such as MS-ADPCM to an uncompressed format such as PCM, which most audio hardware can play directly.AMENDMENTLOCALEDescription@ '4stringDescriptionThe Description property indicates the full name of the codec driver. This string is intended to be displayed in large (descriptive) spaces. Example: Microsoft PCM Converter.Group!~+ $,9 stringDescriptionThe Group property indicates the type of codec represented by this class.ValuesAudioVideo nametCIM_DataFile)  jw WWin32_PageFileDescriptionThe Win32_PageFile class represents the file used for handling virtual memory file swapping on a Win32 system. Example: C:\PAGEFILE.SYSAMENDMENTLOCALEFreeSpace!~ uint32DescriptionThe FreeSpace property indicates the space available in the paging file. The operating system can enlarge the paging file as necessary up to the limit imposed by the user. This member shows the difference between the size of current committed memory and the current size of the paging file - it does not show the largest possible size of the paging file.InitialSize" uint32DescriptionThe InitialSize property indicates the initial size of the page file.MaximumSize# 8@Muint32DescriptionThe MaximumSize property indicates the maximum size of the page file as set by the user. The operating system will not allow the page file to exceed this limit.Name@  "*7stringDescriptionThe Name property indicates the name of the page file. Example: C:\PAGEFILE.SYS sce@"CIM_DataFile)!  ;Win32_ShortcutFileDescriptionThe Win32_ShortcutFile class represent files that are shortcuts to other files, directories, and commands.AMENDMENTLOCALETarget!~ stringDescriptionThe Target property indicates the name of the object that this is a shortcut to. stH+~CIM_LogicalFile)C N VCIM_DeviceFileDescriptionA device file is a special type of logical file that represents a device. This convention is useful for some operating systems that manage devices using a byte stream I/O model. The logical device that is associated with this file is specified using the CIM_DeviceAccessedByFile relationship.AMENDMENTLOCALE ad~CIM_LogicalFile)  CIM_DirectoryDescriptionDirectory is a type of file that logically groups data files 'contained' in it, and provides path information for the grouped files.AMENDMENTLOCALE inCIM_LogicalElement)"  'nBQ/E  ~ # 2 6L)= #;DWUUUUSCIM_OperatingSystemDescriptionAn operating system is software/firmware that makes a computer system's hardware usable, and implements and/or manages the resources, file systems, processes, user interfaces, services, ... available on the computer system.AMENDMENTLOCALECurrentTimeZone < S[hsint16DescriptionCurrentTimeZone indicates the number of minutes the operating system is offset from Greenwich Mean Time. Either the number is positive, negative or zero.Distributed  <ERbooleanDescriptionBoolean indicating whether the operating system is distributed across several computer system nodes. If so, these nodes should be grouped as a cluster.FreePhysicalMemory +3@uint64DescriptionNumber of kilobytes of physical memory currently unused and availableFreeSpaceInPagingFilesF uint64DescriptionThe total number of kilobytes that can be mapped into the operating system's paging files without causing any other pages to be swapped out.FreeVirtualMemory uint64DescriptionNumber of kilobytes of virtual memory currently unused and available. For example, this may be calculated by adding the amount of free RAM to the amount of free paging space (i.e., adding the properties, FreePhysicalMemory and FreeSpaceInPagingFiles).LastBootUpTimeeN datetimeDescriptionTime when the operating system was last bootedLocalDateTimee 8 }datetimeDescriptionOperating system's notion of the local date and time of day.MaxNumberOfProcessesR )uint32DescriptionMaximum number of process contexts the operating system can support. If there is no fixed maximum, the value should be 0. On systems that have a fixed maximum, this object can help diagnose failures that occur when the maximum is reached. If unknown, enter -1.MaxProcessMemorySize& qyuint64DescriptionMaximum number of kilobytes of memory that can be allocated to a process. For operating systems with no virtual memory, this value is typically equal to the total amount of physical memory minus memory used by the BIOS and OS. For some operating systems, this value may be infinity - in which case, 0 should be entered. In other cases, this value could be a constant - for example, 2G or 4G.Name@ ) L T a  stringDescriptionThe inherited Name property serves as key of an operating system instance within a computer system.NumberOfLicensedUsersV    uint32DescriptionNumber of user licenses for the operating system. If unlimited, enter 0. If unknown, enter -1.NumberOfProcessesZ   uint32DescriptionNumber of process contexts currently loaded or running on the operating system.NumberOfUsers^ ^ f s uint32DescriptionNumber of user sessions for which the operating system is currently storing state informationOSType .+   ( \  d uint16DescriptionA integer indicating the type of operating system.Values:PY`gpv}-6<ELS\gqy !,UnknownOtherMACOSATTUNIXDGUXDECNTDigital UnixOpenVMSHPUXAIXMVSOS400OS/2JavaVMMSDOSWIN3xWIN95WIN98WINNTWINCENCR3000NetWareOSFDC/OSReliant UNIXSCO UnixWareSCO OpenServerSequentIRIXSolarisSunOSU6000ASERIESTandemNSKTandemNTBS2000LINUXLynxXENIXVM/ESAInteractive UNIXBSDUNIXFreeBSDNetBSDGNU HurdOS9MACH KernelInfernoQNXEPOCIxWorksVxWorksMiNTBeOSHP MPENextStepPalmPilotRhapsodyOtherTypeDescription 0 xstringDescriptionA string describing the manufacturer and operating system type - used when the operating system property, OSType, is set to 1 ("Other"). The format of the string inserted in OtherTypeDescription should be similar in format to the Values strings defined for OSType. OtherTypeDescription should be set to NULL when OSType is any value other than 1.SizeStoredInPagingFiles> /7Duint64DescriptionThe total number of kilobytes that can be stored in the operating system's paging files. Note that this number does not represent the actual physical size of the paging file on disk. 0 indicates that there are no paging files.TotalSwapSpaceSizeb iq~uint64DescriptionTotal swap space in kilobytes. This value may be NULL (unspecified) if swap space is not distinguished from page files. However, some operating systems distinguish these concepts. For example, in UNIX, whole processes can be 'swapped out' when the free page list falls and remains below a specified amount.TotalVirtualMemorySizej  uint64DescriptionNumber of kilobytes of virtual memory. For example, this may be calculated by adding the amount of total RAM to the amount of paging space (i.e., adding the amount of memory in/aggregated by the computer system to the property, SizeStoredInPagingFiles.TotalVisibleMemorySizer OWduint64DescriptionThe total amount of physical memory available to the operating system. This value does not necessarily indicate the true amount of physical memory, but what is reported to the operating system as available to itVersion 4 pxstringDescriptionA string describing the operating system's version number. The format of the version information is as follows: .. or ...onstringDescriptionThe CountryCode property indicates the code for the country/regionused by the operating system. Values are based on international phone dialing prefixes (also referred to as IBM country/region codes). The CountryCode string can use up to six characters to define the country/region code value. Example: 1 for the United States)CSDVersion stringDescriptionThe CSDVersion property contains a null-terminated string, that indicates the latest Service Pack installed on the computer system. If no Service Pack is installed, the string is NULL. For computer systems running Windows 95, this property contains a null-terminated string that provides arbitrary additional information about the operating system. Example: Service Pack 3.Debug  ~  booleanDescriptionThe Debug property indicates whether the operating system is a checked (debug) build. Checked builds provide error checking, argument verification, and system debugging code. Additional code in a checked binary generates a kernel debugger error message and breaks into the debugger. This helps immediately determine the cause and location of the error. Performance suffers in the checked build due to the additional code that is executed. Values: TRUE or FALSE, A value of TRUE indicates the debugging version of User.exe is installed.Description@   stringDescriptionThe Description property provides a description of the Windows operating system. Some user interfaces (those that allow editing of this description) limit its length to 48 characters.ForegroundApplicationBoost+     uint8DescriptionThe ForegroundApplicationBoost property indicates the increase in priority given to the foreground application. On computer systems running Windows NT 4.0 and Windows 2000, application boost is implemented by giving an application more execution time slices (quantum lengths). A ForegroundApplicationBoost value of 0 indicates the system boosts the quantum length by 6; if 1, then 12; and if 2 then 18. On Windows NT 3.51 and earlier, application boost is implemented by increasing the scheduling priority. For these systems, the scheduling priority is increased by the value of this property. The default value is 2.ValuesNoneMinimumMaximumLocale  stringDescriptionThe Locale property indicates the language identifier used by the operating system. A language identifier is a standard international numeric abbreviation for a country or region. Each language has a unique language identifier (LANGID), a 16-bit value that consists of a primary language identifier and a secondary language identifier.Manufacturer! stringDescriptionThe Manufacturer property indicates the name of the operating system manufacturer. For Win32 systems this value will be Microsoft Corporation.Organization" mustringDescriptionThe Organization property indicates the the registered user's (of the operating system) company name. Example: Microsoft Corporation.OSLanguage# AIVuint32DescriptionThe OSLanguage property indicates which language version of the operating system is installed. Example: 0x0807 (German, Switzerland)OSProductSuite$+ %-: uint32DescriptionThe OSProductSuite property identifies installed and licensed system product additions to the operating system.BitValues)ERSmall BusinessEnterpriseBackOfficeCommunication ServerTerminal ServerSmall Business(Restricted)Embedded NTData CenterPlusProductID% stringDescriptionThe PlusProductID property contains the product identification number for the Windows Plus! operating system enhancement software (if installed).PlusVersionNumber& stringDescriptionThe PlusVersionNumber property contains the version number of the Windows Plus! operating system enhancement software (if installed).Primary ' R[hbooleanDescriptionThe Primary property determines whether this is the primary operating system. Values: TRUE or FALSE. A value of TRUE indicates this is the primary operating system.QuantumLength(+ V]j2 :uint8DescriptionThe QuantumLength property defines the number of clock ticks per quantum. A quantum is a unit of execution time that the scheduler is allowed to give to an application before switching to other applications. When a thread runs one quantum, the kernel preempts it and moves it to the end of a queue for applications with equal priorities. The actual length of a thread's quantum varies across different Windows platforms. For Windows NT/Windows 2000 only.ValuesJS]UnknownOne tickTwo ticksQuantumType)+ h puint8DescriptionThe QuantumType property specifies either fixed or variable length quantums. Windows NT 4.0 Workstation/Windows 2000 defaults to variable length quantums where the foreground application has a longer quantum than the background applications. Windows NT Server defaults to fixed-length quantums. A quantum is a unit of execution time that the scheduler is allowed to give to an application before switching to another application. When a thread runs one quantum, the kernel preempts it and moves it to the end of a queue for applications with equal priorities. The actual length of a thread's quantum varies across different Windows platforms. For Windows NT/Windows 2000 only.ValuesUnknownFixedVariableRegisteredUser* stringDescriptionThe RegisteredUser property indicates the name of the registered user of the operating system. Example: Jane DoeSerialNumber+ stringDescriptionThe SerialNumber property indicatesthe operating system product serial identification number. Example:10497-OEM-0031416-71674.ServicePackMajorVersion, qyuint16DescriptionThe ServicePackMajorVersion property indicates the major version number of the service pack installed on the computer system. If no service pack has been installed, the value is zero. ServicePackMajorVersion is valid for computers running Windows 2000 and later (NULL otherwise).ServicePackMinorVersion-   uint16DescriptionThe ServicePackMinorVersion property indicates the minor version number of the service pack installed on the computer system. If no service pack has been installed, the value is zero. ServicePackMinorVersion is valid for computers running Windows 2000 and later (NULL otherwise).SystemDevice. L"T"a"stringDescriptionThe SystemDevice property indicates the physical disk partition the operating system is installed on.SystemDirectory/ # ##stringDescriptionThe SystemDirectory property indicates the system directory of the operating system. Example: C:\WINDOWS\SYSTEM32Version@ 4 ###stringDescriptionThe Version property indicates the version number of the operating system. Example: 4.0WindowsDirectory0 n$v$$stringDescriptionThe WindowsDirectory property indicates the Windows directory of the operating system. Example: C:\WINDOWS e tinN 0X0# ~ Reboot&DescriptionThe Reboot method shuts down the computer system, then restarts it. On computers running Windows NT/2000, the calling process must have the SE_SHUTDOWN_NAME privilege.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ShutdownivDescriptionThe Shutdown method unloads programs and DLLs to the point where it is safe to turn off the computer. All file buffers are flushed to disk, and all running processes are stopped. On computer systems running Windows NT/2000, the calling process must have the SE_SHUTDOWN_NAME privilege.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Win32Shutdown4ADescriptionThe Win32Shutdown method provides the full set of shutdown options supported by Win32 operating systems.TBLD117ROOT\CIMV2\ms_409   *CX__PARAMETERSabstractFlagssint32 1in 1X The Flags parameter contains a set of flags to shut the computer down. The setting this parameter to 0 is the command to logoff.Description) 1X akszShutdownRebootForcePower OffBitValues6 1X  MIDC )X  Msint32Reservedsint32 Min Mt The Reserved parameter provides a way to extend Win32Shutdown. Presently, the Reserved parameter is ignored.Description) Mt ID6 t Tsint32 __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __w8  BCIM_LogicalElement)   r-7 FVWU=CIM_ProcessDescriptionThe CIM_Process class is derived from CIM_LogicalElement. It is intended to represent a program in execution, running under an operating system, hence it is weak to operating system. Processes are also known as tasks.AMENDMENTLOCALECreationDatee BLYdatetimeDescriptionTime that the process began executingExecutionState (+ _ guint16DescriptionIndicates the current operating condition of the process. Values include ready (2), running (3), and blocked (4), among others.ValuesUnknownOtherReadyRunningBlockedSuspended BlockedSuspended ReadyHandle) ( stringDescriptionA string used to identify the process. A process ID is a process handle.KernelModeTime uint64DescriptionTime in kernel mode, in milliseconds. If this information is not available, a value of 0 should be used.Priority$ ckxuint32DescriptionPriority indicates the urgency or importance of execution of a process. If a priority is not defined for a process, a value of 0 should be used.TerminationDatee * GQ^datetimeDescriptionTime that the process was stopped or terminatedUserModeTime . uint64DescriptionTime in user mode, in milliseconds. If this information is not available, a value of 0 should be used.WorkingSetSize 6 uint64DescriptionThe amount of memory in bytes that a process needs to execute efficiently, for an operating system that uses page-based memory management. If an insufficient amount of memory is available (< working set size), thrashing will occur. If this information is not known, NULL or 0 should be entered. If this data is provided, it could be monitored to understand a process' changing memory requirements as execution proceeds. a,BCIM_Process )M X `p)6&; } E V UiYk%0-El(CP?SWUUUUUWin32_ProcessDescriptionThe Win32_Process class represents a sequence of events on a Win32 system. Any sequence consisting of the interaction of one or more processors or interpreters, some executable code, and a set of inputs, is a descendent (or member) of this class. Example: A client application running on a Win32 system.AMENDMENTLOCALEExecutablePath > stringDescriptionThe ExecutablePath property indicates the path to the executable file of the process. Example: C:\WINDOWS\EXPLORER.EXEHandleCountv bjwuint32DescriptionThe HandleCount property specifies the total number of handles currently open by this process. This number is the sum of the handles currently open by each thread in this process. A handle is used to examine or modify the system resources. Each handle has an entry in an internally maintained table. These entries contain the addresses of the resources and the means to identify the resource type.MaximumWorkingSetSizeB IQ^uint32DescriptionThe MaximumWorkingSetSize property indicates the maximum working set size of the process. The working set of a process is the set of memory pages currently visible to the process in physical RAM. These pages are resident and available for an application to use without triggering a page fault. Example: 1413120.MinimumWorkingSetSizeF uint32DescriptionThe MinimumWorkingSetSize property indicates the minimum working set size of the process. The working set of a process is the set of memory pages currently visible to the process in physical RAM. These pages are resident and available for an application to use without triggering a page fault. Example: 20480.OtherOperationCount# go|uint64DescriptionThe OtherOperationCount property specifies the number of I/O operations performed, other than read and write operations.OtherTransferCount& 6>Kuint64DescriptionThe OtherTransferCount property specifies the amount of data transferred during operations other than read and write operations.PageFaultsJ   uint32DescriptionThe PageFaults property indicates the number of page faults generated by the process. Example: 10PageFileUsageN   uint32DescriptionThe PageFileUsage property indicates the amountof page file space currently being used by the process. Example: 102435ParentProcessIdz   uint32DescriptionThe ParentProcessId property specifies the unique identifier of the process that created this process. Process identifier numbers are reused, so they only identify a process for the lifetime of that process. It is possible that the process identified by ParentProcessId has terminated, so ParentProcessId may not refer to an running process. It is also possible that ParentProcessId incorrectly refers to a process which re-used that process identifier. The CreationDate property can be used to determine whether the specified parent was created after this process was created.PeakPageFileUsageR  ! . uint32DescriptionThe PeakPageFileUsage property indicates the maximum amount of page file space used during the life of the process. Example: 102367PeakVirtualSize  uint64DescriptionThe PeakVirtualSize property specifies the maximum virtual address space the process has used at any one time. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. However, virtual space is finite, and by using too much, the process might limit its ability to load libraries.PeakWorkingSetSizeV uint32DescriptionThe PeakWorkingSetSize property indicates the peak working set size of the process. Example: 1413120Priority@$ FN[uint32DescriptionThe Priority property indicates the scheduling priority of the process within the operating system. The higher the value, the higher priority the process receives. Priority values can range from 0 (lowest priority) to 31 (highest priority). Example: 7.PrivatePageCount uint64DescriptionThe PrivatePageCount property specifies the current number of pages allocated that are accessible only to this process ProcessIdZ \dquint32DescriptionThe ProcessId property contains the global process identifier that can be used to identify a process. The value is valid from the creation of the process until the process is terminated.QuotaNonPagedPoolUsage^ qyuint32DescriptionThe QuotaNonPagedPoolUsage property indicates the quota amount of non-paged pool usage for the process. Example: 15QuotaPagedPoolUsageb <DQuint32DescriptionThe QuotaPagedPoolUsage property indicates the quota amount of paged pool usage for the process. Example: 22QuotaPeakNonPagedPoolUsagef uint32DescriptionThe QuotaPeakNonPagedPoolUsage property indicates the peak quota amount of non-paged pool usage for the process. Example: 31QuotaPeakPagedPoolUsagej uint32DescriptionThe QuotaPeakPagedPoolUsage property indicates the peak quota amount of paged pool usage for the process. Example: 31ReadOperationCount! uint64DescriptionThe ReadOperationCount property specifies the number of read operations performed.ReadTransferCount$ T\iuint64DescriptionThe ReadTransferCount property specifies the amount of data read.SessionId~ uint32DescriptionThe SessionId property specifies the unique identifier that is generated by the operating system when the session is created. A session spans a period of time from log in to log out on a particular system.ThreadCountr uint32DescriptionThe ThreadCount property specifies the number of active threads in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. This property is for computers running Windows NT only.VirtualSize  |uint64DescriptionThe VirtualSize property specifies the current size in bytes of the virtual address space the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite, and by using too much, the process can limit its ability to load libraries.WindowsVersionn 'stringDescriptionThe WindowsVersion property indicates the version of Windows in which the process is running. Example: 4.0WriteOperationCount" uint64DescriptionThe WriteOperationCount property specifies the number of write operations performed.WriteTransferCount% uint64DescriptionThe WriteTransferCount property specifies the amount of data written.@"er bnt6lFJrit,!Create&DescriptionThe Create method creates a new process. It returns an integer value of 0 if the process was successfully created, and any other number to indicate an error. BLD117ROOT\CIMV2\ms_409  *__PARAMETERSabstractCommandLinestring 7In 7^ The CommandLine parameter specifies the command line to execute. The system adds a null character to the command line, trimming the string if necessary, to indicate which file was actually used. Description) 7^ RID6 ^ RstringCurrentDirectorystring  In  1 The CurrentDirectory parameter specifies the current drive and directory for the child process. The string requires that the current directory resolves to a known path. A user can specify an absolute path or a path relative to the current working directory. If this parameter is NULL, the new process will have the same path as the calling process. This option is provided primarily for shells that must start an application and specify the application's initial drive and working directory.Description)  1 L_ID6 1 L_string ProcessStartupInformationobject   In   4 The ProcessStartupInformation parameter represents the startup configuration of a Win32 process. It includes information about displaying the window, characteristics of a console application, and handling errors.Description )  4 8bID 6 4 8b|object:Win32_ProcessStartup __ __ __ __!BLD117ROOT\CIMV2\ms_409   *:d__PARAMETERSabstractProcessIduint32 5Out 5\ The ProcessId parameter returns a global process identifier that can be used to identify a process. The value is valid from the time the process is created until the time the process is terminated. Description) 5\ SID6 \ Suint32ReturnValueuint32 -uint32out -5 __ __ __ __TerminateDescriptionThe Terminate method terminates a process and all of its threads. It returns an integer value of 0 if the process was successfully terminated, and any other number to indicate an error.1BLD117ROOT\CIMV2\ms_409  *G__PARAMETERSabstractReasonuint32 2In 2Y The Reason parameter specifies the exit code for the process and for all threads terminated as a result of this call. Description) 2Y ID6 Y Cuint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetOwner}DescriptionThe GetOwner method retrieves the user name and domain name under which the process is running. It returns an integer value of 0 if successful, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409   tm *6__PARAMETERSabstractUserstring 0Out 0W The User parameter returns the user name of the owner of this process.Description) 0W ID6 ZW stringDomainstring |Out | The Domain parameter returns the domain name under which this process is running.Description) | %ID6  %istringReturnValueuint32 uint32out  __ __ __ __GetOwnerSid=JDescriptionThe GetOwnerSid method retrieves the security identifier (SID) for the owner of this process.#BLD117ROOT\CIMV2\ms_409   z*__PARAMETERSabstractSidstring /Out /V The Sid property returns the security identifier descriptor for this process.Description) /V ID6 `V stringReturnValueuint32 uint32out  __ __ __ __ui8CIM_LogicalElement)"; F NaCIM_RedundancyGroupDescriptionA class derived from CIM_LogicalElement that is a special collection of managed system elements. This collection indicates that the aggregated components together provide redundancy. All elements aggregated in a redundancy group should be instantiations of the same object class.AMENDMENTLOCALECreationClassName)  STRINGDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.RedundancyStatus+  . 6UINT16DescriptionRedundancyStatus provides information on the state of the redundancy group. "Fully Redundant" (value=2) means that all of the configured redundancy is still available; "Degraded Redundancy" (3) means that some failures have been experienced but some reduced amount of redundancy is still available; "Redundancy Lost" (4) means that a sufficient number of failures have been experienced such that no redundancy is available and the next failure experienced will cause overall failure. Also, the values, "Other" (1) and "Unknown" (0), are defined.ValuesNW^oUnknownOtherFully RedundantDegraded RedundancyRedundancy Lost nsCIM_RedundancyGroup)   CIM_SpareGroupDescriptionA class derived from redundancy group indicating that one or more of the aggregated elements act as spares for the others. An example is the use of redundant NICs in a computer system - where one NIC is primary and the other is spare.AMENDMENTLOCALE dum<CIM_RedundancyGroup))  CIM_StorageRedundancyGroupDescriptionA class derived from redundancy group containing mass storage-related redundancy information. Storage redundancy groups are used to protect user data. They are made up of one or more physical extents, or one or more aggregate physical extents. Storage redundancy groups may overlap. However, the underlying extents within the overlap should not contain any check data.AMENDMENTLOCALETypeOfAlgorithm+ > FUINT16DescriptionThe TypeOfAlgorithm specifies the algorithm used for data redundancy and reconstruction. For example, "P+Q" (value=5) or "P+S" (7) may be specified. The value, 0, is not valid in the CIM Schema since in DMI it represents that no redundancy exists. In this case, the object should not be instantiated.Valuesju|UndefinedOtherUnknownCopyXORP+QSP+S ntI +)CIM_LogicalElement) 4 ? GZbmlWxCIM_ServiceDescriptionA logical element that contains the information necessary to represent and manage the functionality provided by a device and/or software feature. A service is a general-purpose object to configure and manage the implementation of functionality. It is not the functionality itself.AMENDMENTLOCALECreationClassName stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.Name@ )  stringDescriptionThe Name property uniquely identifies the service and provides an indication of the functionality that is managed. This functionality is described in more detail in the object's Description property. Started  booleanDescriptionStarted is a boolean indicating whether the service has been started (TRUE), or stopped (FALSE).StartMode+ E MstringDescriptionStartMode is a string value indicating whether the service is automatically started by a operating system, or only started upon request.ValuesYdAutomaticManualSystemCreationClassName stringDescriptionThe type name of the system that hosts this serviceSystemName " 3;HstringDescriptionThe name of the system that hosts this serviceBriT  thStartService,DescriptionThe StartService method places the service in the started state. It returns an integer value of 0 if the service was successfully started, 1 if the request is not supported and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __StopServiceDescriptionThe StopService method places the service in the stopped state. It returns an integer value of 0 if the service was successfully stopped, 1 if the request is not supported and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __r, l _)CIM_Service )$  CIM_ClusteringServiceDescriptionThe CIM_ClusteringService class represents the functionality provided by a cluster. For example, failover functionality may be modeled as a service of a failover cluster.AMENDMENTLOCALEro by 4^le,iFAddNode'DescriptionAddNode brings a new computer system into a cluster. The node to be added is specified as a parameter to the method. The return value should be 0 if the computer system is successfully added, 1 if the method is not supported and any other number if an error occurred.BLD117ROOT\CIMV2\ms_409 Z *__PARAMETERSabstractfCSreff .INf .R IDf) R ref:CIM_ComputerSystem __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EvictNodezDescriptionEvictNode removes a computer system from a cluster. The node to be evicted is specified as a parameter to the method. The return value should be 0 if the computer system is successfully evicted, 1 if the method is not supported and any other number if an error occurred.BLD117ROOT\CIMV2\ms_409 Z *__PARAMETERSabstractfCSreff .INf .R IDf) R ref:CIM_ComputerSystem __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __t*VCIM_Service )    j{'5 AN_UUWin32_BaseServiceDescriptionThe Win32_BaseService class represents executable objects that are installed in a registry database maintained by the Service Control Manager. The executable file associated with a service can be started at boot time by a boot program or by the system. It can also be started on-demand by the Service Control Manager. Any service or process that is not owned by a specific user, and that provides an interface to some functionality supported by the computer system, is a descendent (or member) of this class. Example: The dynamic host configuration protocol (DHCP) client service on a Windows NT/Windows 2000 computer system.AMENDMENTLOCALEAcceptPause & booleanDescriptionThe AcceptPause property indicates whether the service can be paused. Values: TRUE or FALSE. A value of TRUE indicates the service can be paused.AcceptStop ( booleanDescriptionThe AcceptStop property indicates whether the service can be stopped. Values: TRUE or FALSE. A value of TRUE indicates the service can be stopped.DesktopInteract * booleanDescriptionThe DesktopInteract property indicates whether the service can create or communicate with windows on the desktop. Values: TRUE or FALSE. A value of TRUE indicates the service can create or communicate with windows on the desktop.DisplayName , stringDescriptionThe DisplayName property indicates the display name of the service. This string has a maximum length of 256 characters. The name is case-preserved in the Service Control Manager. DisplayName comparisons are always case-insensitive. Constraints: Accepts the same value as the Name property. Example: Atdisk.ErrorControl0+ nv  stringDescriptionIf this service fails to start during startup, the ErrorControl property specifies the severity of the error. The value indicates the action taken by the startup program if failure occurs. All errors are logged by the computer system. The computer system does not notify the user of "Ignore" errors. With "Normal" errorsthe user is notified. With "Severe" errors, the system is restarted with the last-known-good configuration. Finally, on"Critical" errors the system attempts to restart with a good configuration.Values IgnoreNormalSevereCriticalUnknownExitCodeH    uint32DescriptionThe ExitCode property specifies a Win32 error code defining any problems encountered in starting or stopping the service. This property is set to ERROR_SERVICE_SPECIFIC_ERROR (1066) when the error is unique to the service represented by this class, and information about the error is available in the ServiceSpecificExitCode member. The service sets this value to NO_ERROR when running, and again upon normal termination.PathName4    stringDescriptionThe PathName property contains the fully qualified path to the service binary file that implements the service. Example: \SystemRoot\System32\drivers\afd.sysServiceSpecificExitCodeL   uint32DescriptionThe ServiceSpecificExitCode property specifies a service-specific error code for errors that occur while the service is either starting or stopping. The exit codes are defined by the service represented by this class. This value is only set when the ExitCodeproperty value is ERROR_SERVICE_SPECIFIC_ERROR, 1066.ServiceType8+  stringDescriptionThe ServiceType property supplies the type of service provided to calling processes.Values)=FYfuKernel DriverFile System DriverAdapterRecognizer DriverOwn ProcessShare ProcessInteractive ProcessStartMode@+ G OstringDescriptionThe StartMode property indicates the start mode of the Win32 base service. "Boot" specifies a device driver started by the operating system loader. This value is valid only for driver services. "System" specifies a device driver started by the IoInitSystem function. This value is valid only for driver services. "Automatic" specifies a service to be started automatically by the service control manager during system startup. "Manual" specifies a service to be started by the service control manager when a process calls the StartService function. "Disabled" specifies a service that can no longer be started.Valuesgmu{BootSystemAutoManualDisabledStartName< stringDescriptionThe StartName property indicates the account name under which the service runs. Depending on the service type, the account name may be in the form of "DomainName\Username".The service process will be logged using one of these two forms when it runs. If the account belongs to the built-in domain, ".\Username" can be specified. If NULL is specified, the service will be logged on as the LocalSystem account. For kernel or system level drivers, StartName contains the driver object name (that is, \FileSystem\Rdr or \Driver\Xns) which the input and output (I/O) system uses to load the device driver. Additionally, if NULL is specified, the driver runs with a default object name created by the I/O system based on the service name. Example: DWDOM\Admin.State@+  !f nstringDescriptionThe State property indicates the current state of the base service.ValuesStoppedStart PendingStop PendingRunningContinue PendingPause PendingPausedUnknownTagIdD &.;uint32DescriptionThe TagId property specifies a unique tag value for this service in the group. A value of 0 indicates that the service has not been assigned a tag. A tag can be used for ordering service startup within a load order group by specifying a tag order vector in the registry located at: HKEY_LOCAL_MACHINE\System\CurrentControlSet\Control\GroupOrderList. Tags are only evaluated for Kernel Driver and File System Driver start type services that have "Boot" or "System" start modes.: e eva ; verH ? C er  Nhat]cgem"x\^!^P`;LDVѧ٧è>StartService,9 DescriptionThe StartService method attempts to place the service into its startup state. It returns one of the following integer values: 0 - The request was accepted. 1 - The request is not supported. 2 - The user did not have the necessary access. 3 - The service cannot be stopped because other services that are running are dependent on it. 4 - The requested control code is not valid, or it is unacceptable to the service. 5 - The requested control code cannot be sent to the service because the state of the service (Win32_BaseService:State) is equal to 0, 1, or 2. 6 - The service has not been started. 7 - The service did not respond to the start request in a timely fashion. 8 - Unknown failure when starting the service. 9 - The directory path to the service executable was not found. 10 - The service is already running. 11 - The database to add a new service is locked. 12 - A dependency for which this service relies on has been removed from the system. 13 - The service failed to find the service needed from a dependent service. 14 - The service has been disabled from the system. 15 - The service does not have the correct authentication to run on the system. 16 - This service is being removed from the system. 17 - There is no execution thread for the service. 18 - There are circular dependencies when starting the service. 19 - There is a service running under the same name. 20 - There are invalid characters in the name of the service. 21 - Invalid parameters have been passed to the service. 22 - The account which this service is to run under is either invalid or lacks the permissions to run the service. 23 - The service exists in the database of services available from the system. 24 - The service is currently paused in the system. Values(9Ib{ ' > S m SuccessNot SupportedAccess DeniedDependent Services RunningInvalid Service ControlService Cannot Accept ControlService Not ActiveService Request TimeoutUnknown FailurePath Not FoundService Already RunningService Database LockedService Dependency DeletedService Dependency FailureService DisabledService Logon FailedService Marked For DeletionService No ThreadStatus Circular DependencyStatus Duplicate NameStatus Invalid NameStatus Invalid ParameterStatus Invalid Service AccountStatus Service ExistsService Already PausedwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __StopServiceY f DescriptionThe StopService method places the service in the stopped state. It returns an integer value of 0 if the service was successfully stopped, 1 if the request is not supported, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __PauseService  DescriptionThe PauseService method attempts to place the service in the paused state. It returns an integer value of 0 if the PauseService request was accepted, 1 if the request is not supported, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ResumeServicen{DescriptionThe ResumeService method attempts to place the service in the resumed state. It returns an integer value of 0 if the ResumeService request was accepted, 1 if the request is not supported, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __InterrogateServiceDescriptionThe InterrogateService method requests that the service update its state to the service manager. It returns an integer value of 0 if the InterrogateService request was accepted, 1 if the request is not supported, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __UserControlServiceDescriptionThe UserControlService method attempts to send a user-defined control code to a service. It returns an integer value of 0 if the UserControlService request was accepted, 1 if the request is not supported, and any other number to indicate an error.:BLD117ROOT\CIMV2\ms_409  *J__PARAMETERSabstractControlCodeuint8 7In 7] The ControlCode parameter specifies defined values(from 128 to 255) that provide control commands specific to a user.Description) 7] ID6 ] Fuint8 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __CreateDescriptionThe Create method creates a new service. It returns an integer value of 0 if the service was successfully created, 1 if the request is not supported, and any other number to indicate an error. The Win32_LoadOrderGroup parameter represents a grouping of system services defining execution dependencies. The services must be initiated in the order specified by the Load Order Group, as the services are dependent on each other. These dependent services require the presence of the antecedent services in order to function correctly.?BLD117ROOT\CIMV2\ms_409 ?+ -d z*(I]!a- 9UUU!__PARAMETERSabstractNamestring 0In 0W The Name parameter passes the name of the service to install to the Create method. The maximum string length is 256 characters. The service control manager database preserves the case of the characters, but service name comparisons are always case insensitive. Forward-slashes (/) and double back-slashes (\) are invalid service name characters.Description) 0W ID6 lW $stringDisplayNamestring In  The DisplayName parameter passes the display name of the service. This string has a maximum length of 256 characters. The name is case-preserved in the service control manager. DisplayName comparisons are always case-insensitive. Constraints: Accepts the same value as the Name parameter. Example: Atdisk.Description)  ID6  `stringPathNamestring In  The PathName parameter passes the fully qualified path to the executable file that implements the service. Example: \SystemRoot\System32\drivers\afd.sysDescription)  !ID6 G !string ServiceTypeuint8  nIn  n The ServiceType parameter passes the type of services provided to processes that call them.Description ) n Kernel DriverFile System DriverAdapterRecognizer DriverOwn ProcessShare ProcessBitValues 6 n  cID C ~  c)uint8 ErrorControluint8  In   If the Create method fails to start, the ErrorControl parameter passes the severity of the error. The value indicates the action taken by the startup program if failure occurs. All errors are logged by the system. The system does not notify the user of "Ignore" errors. With "Normal" errors the user is notified. With "Severe" errors, the system is restarted with the last-known-good configuration. Finally, on "Critical" errors, the system attempts to restart with a good configuration.Description )  : B J R IgnoreNormalSevereCriticalValues 6  \  & ID C   \  & uint8StartModestring ! In ! H  The StartMode parameter passes the start mode of the Win32 base service. "Boot" specifies a device driver started by the operating system loader. This value is valid only for driver services. "System" specifies a device driver started by the IoInitSystem function. This value is valid only for driver services. "Automatic" specifies a service to be started automatically by the service control manager during system startup. "Manual" specifies a service to be started by the service control manager when a process calls the StartService function. "Disabled" specifies a service that can no longer be started.Description) ! H  v 4@NZhBoot StartSystem StartAuto StartDemand StartDisabledValues6 ! H  v r IDC H v r string DesktopInteractboolean  >In  >f The DesktopInteract parameter passes the value that indicates whether the service can create or communicate with windows on the desktop. Values: TRUE or FALSE. A value of TRUE indicates the service can create or communicate with windows on the desktop.Description ) >f ID 6 f booleanStartNamestring DIn Dk The StartName parameter passes the account name the service runs under. Depending on the service type, the account name may be in the form of "DomainName\Username".The service process will be logged using one of these two forms when it runs. If the account belongs to the built-in domain, ".\Username" can be specified. If NULL is specified, the service will be logged on as the LocalSystem account. For a kernel or system-level drivers, StartName contains the driver object name (that is, \FileSystem\Rdr or \Driver\Xns) which the input and output (I/O) system uses to load the device driver. If NULL is specified, the driver runs with a default object name created by the I/O system based on the service name. Example: DWDOM\Admin.Description) Dk yID6 k ystringStartPasswordstring .In .U The StartPassword parameter passes the password to the account name specified by the StartName parameter. Specify NULL if you are not changing the password. Specify an empty string if the service has no password. Description) .U ZID6 U Zstring LoadOrderGroupstring  In  7 The LoadOrderGroup parameter passes the group name associated with the new service. Load order groups are contained in the registry, and determine the sequence in which services are loaded into the operating system. If the pointer is NULL or if it points to an empty string, the service does not belong to a group. Dependencies between groups should be listed in the LoadOrderGroupDependencies parameter. Services in the load-ordering group list are started first, followed by services in groups not in the load-ordering group list, followed by services that do not belong to a group. The registry has a list of load ordering groups located at: HKEY_LOCAL_MACHINE\System\CurrentControlSet\Control\ServiceGroupOrder.Description ) 7 2eID 6 7 2ev string LoadOrderGroupDependenciesstring  In   The LoadOrderGroupDependencies parameter passes a list of load ordering groups that must start before this service. The array is doubly null-terminated. If the pointer is NULL or if it points to an empty string, the service has no dependencies. Group names must be prefixed by the SC_GROUP_IDENTIFIER (defined in the WINSVC.H file) character to differentiate it from a service name, because services and service groups share the same name space. Dependency on a group means that this service can run if at least one member of the group is running after an attempt to start all members of the group.Description )  IID 6 / I string $ServiceDependenciesstring $ ^In $ ^ The ServiceDependencies parameter passes a list containing names of services that must start before this service starts. The array is doubly null-terminated. If the pointer is NULL, or if it points to an empty string, the service has no dependencies. Dependency on a service means that this service can only run if the service it depends on is running.Description $) ^ !ID $6 ! !Y! string __ __ __ __ __ __ __ __ __ __ __ __ __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Change2^?^DescriptionThe Change method modifies a service. It returns an integer value of 0 if the service was successfully modified, 1 if the request is not supported and any other number to indicate an error. The Win32_LoadOrderGroup parameter represents a grouping of system services defining execution dependencies. The services must be initiated in the order specified by the Load Order Group as the services are dependent on each other. These dependent services require the presence of the antecedent services in order to function correctly.l;BLD117ROOT\CIMV2\ms_409 ;' * Dc <g%  { yZUUq__PARAMETERSabstractDisplayNamestring 7In 7^ The DisplayName parameter passes the display name of the service. This string has a maximum length of 256 characters. The name is case-preserved in the service control manager. DisplayName comparisons are always case-insensitive. Constraints: Accepts the same value as the Name parameter. Example: Atdisk Description) 7^ ID6 M^ stringPathNamestring qIn q The PathName parameter passes the fully qualified path of the service binary file that implements the service. Example: \SystemRoot\System32\drivers\afd.sysDescription) q dID6  dstringServiceTypeuint8 In = The ServiceType parameter passes the type of service provided to processes calling the service.Description) = k,;OXkxKernel DriverFile System DriverAdapterRecognizer DriverOwn ProcessShare ProcessBitValues6 = k IDC += k uint8 ErrorControluint8  RIn  Rx If this service fails to start during startup, the ErrorControl parameter passes the severity of the error. The value indicates the action taken by the startup program if failure occurs. All errors are logged by the system. The system does not notify the user of "Ignore" errors. With "Normal" errors the user is notified. With "Severe" errors, the system is restarted with the last-known-good configuration. Finally, on "Critical" errors, the system attempts to restart with a good configuration.Description ) Rx  IgnoreNormalSevereCriticalValues 6 Rx   ID C  x   _ uint8 StartModestring   In    The StartMode property indicates the start mode of the Win32 base service. "Boot" specifies a device driver started by the operating system loader. This value is valid only for driver services. "System" specifies a device driver started by the IoInitSystem function. This value is valid only for driver services. "Automatic" specifies a service to be started automatically by the service control manager during system startup. "Manual" specifies a service to be started by the service control manager when a process calls the StartService function. "Disabled" specifies a service that can no longer be started.Description )   -    ! Boot StartSystem StartAuto StartDemand StartDisabledValues 6   - +  ID C  - +  w string DesktopInteractboolean   In    The DesktopInteract parameter passes the value that indicates whether the service can create or communicate with windows on the desktop. Values: TRUE or FALSE. A value of TRUE indicates the service can create or communicate with windows on the desktop.Description )   KMID 6  KMbooleanStartNamestring In $ The StartName property indicates the account name the service runs under. Depending on the service type, the account name may be in the form of "DomainName\Username", The service process will be logged using one of these two forms when it runs. If the account belongs to the built-in domain, ".\Username" can be specified. If NULL is specified, the service will be logged on as the LocalSystem account. For kernel or system-level drivers, StartName contains the driver object name (that is, \FileSystem\Rdr or \Driver\Xns) that the input and output (I/O) system uses to load the device driver. If NULL is specified, the driver runs with a default object name created by the I/O system based on the service name. Example: DWDOM\Admin.Description) $ 1RID6 $ 1RustringStartPasswordstring In   The StartPassword parameter passes the password to the account name specified by the StartName parameter. Specify NULL if you are not changing the password. Specify an empty string if the service has no password. Description)   ;ID6   ;VstringLoadOrderGroupstring In  The LoadOrderGroup parameter passes the group name that it is associated with. Load order groups are contained in the system registry, and determine the sequence in which services are loaded into the operating system. If the pointer is NULL, or if it points to an empty string, the service does not belong to a group. Dependencies between groups should be listed in the LoadOrderGroupDependencies parameter. Services in the load-ordering group list are started first, followed by services in groups not in the load-ordering group list, followed by services that do not belong to a group. The system registry has a list of load ordering groups located at: HKEY_LOCAL_MACHINE\System\CurrentControlSet\Control\ServiceGroupOrder.Description)  ID6  8string LoadOrderGroupDependenciesstring  In   The LoadOrderGroupDependencies parameter passes a list of load ordering groups that must start before this service starts. The array is doubly null-terminated. If the pointer is NULL, or if it points to an empty string, the service has no dependencies. Group names must be prefixed by the SC_GROUP_IDENTIFIER (defined in the WINSVC.H file) character to differentiate them from service names because services and service groups share the same name space. Dependency on a group means that this service can run if at least one member of the group is running after an attempt to start all members of the group.Description )  k ID 6  k  string ServiceDependenciesstring  &In  &M The ServiceDependencies parameter passes a list containing names of services that must start before this service starts. The array is doubly null-terminated. If the pointer is NULL, or if it points to an empty string, the service has no dependencies. Dependency on a service means that this service can run only if the service it depends on is running.Description ) &M {ID 6 iM {! string __ __ __ __ __ __ __ __ __ __ __ __ __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ChangeStartMode]jDescriptionThe ChangeStartMode method modifies the StartMode of a service. It returns an integer value of 0 if the service was successfully modified, 1 if the request is not supported, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409  */__PARAMETERSabstractStartModestring 5In 5\ The StartMode parameter passes the start mode of the Win32 base service. "Boot" specifies a device driver started by the operating system loader. This value is valid only for driver services. "System" specifies a device driver started by the IoInitSystem function. This value is valid only for driver services. "Automatic" specifies a service to be started automatically by the service control manager during system startup. "Manual" specifies a service to be started by the service control manager when a process calls the StartService function. "Disabled" specifies a service that can no longer be started.Description) 5\ HTbn|Boot StartSystem StartAuto StartDemand StartDisabledValues6 5\  0IDC '\  0string __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __DeleteDescriptionThe Delete method deletes an existing service. It returns an integer value of 0 if the service was successfully deleted, 1 if the request is not supported, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __P3cWin32_BaseService)  S^__Win32_ServiceDescriptionThe Win32_Service class represents a service on a Win32 computer system. A service application conforms to the interface rules of the Service Control Manager (SCM) and can be started by a user automatically at system boot through the Services control panel utility, or by an application that uses the service functions included in the Win32 API. Services can execute even when no user is logged on to the system.AMENDMENTLOCALECheckPointP  uint32DescriptionThe CheckPoint property specifies a value that the service increments periodically to report its progress during a lengthy start, stop, pause, or continue operation. For example, the service should increment this value as it completes each step of its initialization when it is starting up. The user interface program that invoked the operation on the service uses this value to track the progress of the service during a lengthy operation. This value is not valid and should be zero when the service does not have a start, stop, pause, or continue operation pending.ProcessIdX uint32DescriptionThe ProcessId property specifies the process identifier of the service. Example: 324WaitHintT +3@uint32DescriptionThe WaitHint property specifies the estimated time required (in milliseconds) for a pending start, stop, pause, or continue operation. After the specified amount of time has elapsed, the service makes its next call to the SetServiceStatus function with either an incremented CheckPoint value or a change in CurrentState. If the amount of time specified by WaitHint passes, and CheckPoint has not been incremented, or the CurrentState has not changed, the service control manager or service control program assumes that an error has occurred. geP2VWin32_BaseService)!p { Win32_SystemDriverDescriptionThe Win32_SystemDriver class represents the system driver for a base service.AMENDMENTLOCALE ms"CIM_LogicalElement)%  .4WpWECIM_ServiceAccessPointDescriptionCIM_ServiceAccessPoint represents the ability to utilize or invoke a service. Access points represent that a service is made available to other entities for use.AMENDMENTLOCALECreationClassName #0stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.Name@ ) ks stringDescriptionThe Name property uniquely identifies the service access point and provides an indication of the functionality that is managed. This functionality is described in more detail in the object's Description property.SystemCreationClassName stringDescriptionThe scoping system's creation class name.SystemName )stringDescriptionThe scoping system's name. on@CIM_LogicalElement)"\ g  o|}k|BH ( ; 3 I WUUCIM_SoftwareElementDescription The CIM_SoftwareElement class is used to decompose a CIM_SoftwareFeature object into a set of individually manageable or deployable parts for a particular platform. A software element's platform is uniquely identified by its underlying hardware architecture and operating system (for example Sun Solaris on Sun Sparc or Windows NT on Intel). As such, to understand the details of how the functionality of a particular software feature is provided on a particular platform, the CIM_SoftwareElement objects referenced by CIM_SoftwareFeatureSoftwareElement associations are organized in disjoint sets based on the TargetOperatingSystem property. A CIM_SoftwareElement object captures the management details of a part or component in one of four states characterized by the SoftwareElementState property. AMENDMENTLOCALEBuildNumber ( stringDescriptionThe internal identifier for this compilation of this software element.CodeSet 0 :BOstringDescriptionThe code set used by this software element. IdentificationCode4 stringDescription The value of this property is the manufacturer's identifier for this software element. Often this will be a stock keeping unit (SKU) or a part number.LanguageEdition8 stringDescriptionThe value of this property identifies the language edition of this software element. The language codes defined in ISO 639 should be used. Where the software element represents multi-lingual or international version of a product, the string multilingual should be used.Manufacturer $ stringDescriptionManufacturer of this software elementName@ )  stringDescriptionThe name used to identify this software elementOtherTargetOS  stringDescription The OtherTargetOS property records the manufacturer and operating system type for a software element when the TargetOperatingSystem property has a value of 1 ("Other"). Therefore, when the TargetOperatingSystem property has a value of "Other", the OtherTargetOS property must have a non-null value. For all other values of TargetOperatingSystem, the OtherTargetOS property is to be NULL. SerialNumber ,   stringDescriptionThe assigned serial number of this software element.SoftwareElementID) r  z  stringDescription This is an identifier for this software element and is designed to be used in conjunction with other keys to create a unique representation of this CIM_SoftwareElementSoftwareElementState6    h puint16Description The SoftwareElementState is defined in this model to identify various states of a software elements life cycle. - A software element in the deployable state describes the details necessary to successful distribute it and the details (conditions and actions) required to create a software element in the installable state (i.e., the next state). - A software element in the installable state describes the details necessary to successfully install it and the details (conditions and actions required to create a software element in the executable state (i.e., the next state). - A software element in the executable state describes the details necessary to successfully start it and the details (conditions and actions required to create a software element in the running state (i.e., the next state). - A software element in the running state describes the details necessary to monitor and operate on a start element.ValuesDeployableInstallableExecutableRunningTargetOperatingSystem6   " uint16DescriptionThe TargetOperatingSystem property allows the provider to specify the operating system environment. The value of this property does not ensure binary executable. Two other pieces of information are needed. First, the version of the OS needs to be specified using the OS version check. The second piece of information is the architecture the OS runs on. The combination of these constructs allows the provider to clearly identify the level of OS required for a particular software element.Values:  )/6DMSX]djry  *29?FN`irzUnknownOtherMACOSATTUNIXDGUXDECNTDigital UnixOpenVMSHPUXAIXMVSOS400OS/2JavaVMMSDOSWIN3xWIN95WIN98WINNTWINCENCR3000NetWareOSFDC/OSReliant UNIXSCO UnixWareSCO OpenServerSequentIRIXSolarisSunOSU6000ASERIESTandemNSKTandemNTBS2000LINUXLynxXENIXVM/ESAInteractive UNIXBSDUNIXFreeBSDNetBSDGNU HurdOS9MACH KernelInfernoQNXEPOCIxWorksVxWorksMiNTBeOSHP MPENextStepPalmPilotRhapsodyVersion) / 7DstringDescriptionVersion should be in the form .. or .  + 5 B datetimeDescriptionThe ReleaseDate property indicates the release date of the Win32 BIOS in the Coordinated Universal Time (UTC) format of YYYYMMDDHHMMSS.MMMMMM(+-)OOO.SMBIOSBIOSVersionV  - stringDescriptionThe SMBIOSBIOSVersion property contains the BIOS version as reported by SMBIOS.SMBIOSMajorVersionR   uint16DescriptionThe SMBIOSMajorVersion property contains the major SMBIOS version number. This property will be NULL if SMBIOS not found.SMBIOSMinorVersionT   uint16DescriptionThe SMBIOSMinorVersion property contains the minor SMBIOS Version number. This property will be NULL if SMBIOS not found.SMBIOSPresent P Y b o booleanDescriptionThe SMBIOSPresent property indicates whether the SMBIOS is available on this computer system. Values: TRUE or FALSE. If TRUE, SMBIOS is on this computer.Version@ ?GTstringDescriptionThe Version property contains the version of the BIOS. This string is created by the BIOS manufacturer. is<CCIM_SoftwareElement)#  wCIM_VideoBIOSElementDescriptionCIM_VideoBIOSElement represents the low-level software that is loaded into non-volatile storage and used to bring up, configure and access a computer system's video controller and display.AMENDMENTLOCALEIsShadowed < ,5BBOOLEANDescriptionIf true, indicates that the video BIOS is shadowed. o ecihLVCIM_SoftwareElement)? J R[Lc Uk Win32_DriverVXDDescriptionThe Win32_DriverVXD class represents a virtual device driver on a Win32 computer system. A virtual device is a program that manages a system resource (such as a hardware device or installed software) so that more than one application can use the resource at the same time. Windows uses virtual devices to allow multitasking for Windows-based applications. The virtual devices work in conjunction with Windows to process interrupts, and carry out I/O operations for a given application without disrupting the execution of other applications. Most virtual devices manage a hardware device and many also manage or replace corresponding software such as ROM BIOS routines. A virtual device can contain the device-specific code needed to carry out actions on the device or it can rely on the other software to carry out these operations. In all cases, the virtual device keeps track of the state of the device for each application and ensures that the device is in the correct state whenever an application continues execution. Some virtual devices manage only installed software, such as an MS-DOS device driver or a Terminate and Stay Resident (TSR) program. Such virtual devices often contain code that either emulates the software or ensures that the software uses data that applies only to the currently running application. Virtual devices are sometimes used to improve the performance of installed software; the Intel-compatible microprocessors can execute the 32-bit code of a virtual device more efficiently than the 16-bit code of an MS-DOS device driver or TSR.AMENDMENTLOCALEControl< stringDescriptionThe Control property indicates the offset address to the driver's control procedures. The virtual machine manager calls this procedure to send control messages to the virtual device system. The system control messages direct the virtual device to carry out actions. An example of an action is initializing itself; another is notifying the virtual device of changes to virtual machines (such as a virtual machine is being created).DeviceDescriptorBlock@ stringDescriptionThe DeviceDescriptorBlock property indicates the offset address to the device descriptor block (DDB) structure. The DDB contains information that the operating system uses to execute the procedures of the driver, including its location in the interrupt list, and other data to run and communicate with this VXD.PM_APID   & stringDescriptionThe PM_API indicates the offset address to the protected mode application programming interface for this VXD. These functions can give applications direct access to the features of the VXD.ServiceTableSizeH $ , 9 uint32DescriptionThe ServiceTableSize property indicates the number of installed services and device driver services provided by the operating system. Example: 1024V86_APIL   stringDescriptionThe V86_API indicates the offset to the application programming interface for use under virtual 8086 mode. These functions can give applications direct access to the features of the VXD.Version@    stringDescriptionThe Version property indicates the version of the VXD driver. Example: 3,51 ur4CCIM_SoftwareElement)$  oWin32_SoftwareElementDescriptionSoftwareFeatures and SoftwareElements: A 'SoftwareFeature' is a distinct subset of a Product, consisting of one or more 'SoftwareElements'. Each SoftwareElement is defined in a Win32_SoftwareElement instance, and the association between a feature and its SoftwareFeature(s) is defined in the Win32_SoftwareFeatureSoftwareElement Association. Any component can be 'shared' between two or more SoftwareFeatures. If two or more features reference the same component, that component will be selected for installation if any of these features are selected (see the 'RunFromSource Column' notes below for more information about shared components).AMENDMENTLOCALEInstallState<  sint16values%/BQX`gNot UsedBad ConfigurationSource AbsentErrorAbsentLocalSource ta 'CIM_LogicalElement)"  \d+4W CIM_SoftwareFeatureDescription The CIM_SoftwareFeature class defines a particular function or capability of a product or application system. This class in intended to capture the level of granularity that is meaningful to a consumer or user of a product rather than the units that reflect how the product is built or packaged. The latter detailed is captured using a CIM_SoftwareElement class. When a software feature can exist on multiple platforms or operating systems (for example, a client component of a three tiered client/server applications might run on Solaris, Windows NT, and Windows 95), a software feature is a collection of all the software elements for these different platforms. In this case, the users of the model must be aware of this situation since typically they will be interested in a sub-collection of the software elements required for a particular platform. Software features are always defined in the context of a CIM_Product class using the CIM_ProductSoftwareFeatures association since features are delivered through products. Optionally, software features from one or more products can be organized into application systems using the CIM_ApplicationSystemSoftwareFeature association. AMENDMENTLOCALEIdentifyingNumber) : BOstringDescriptionProduct identification such as a serial number on software or a die number on a hardware chipName@ )  stringDescriptionThe Name property defines the label by which the object is known to the world outside the data processing system. This label is a human-readable name that uniquely identifies the element in the context of the element's namespace.ProductName) + 3@stringDescriptionCommonly used product nameVendor stringDescriptionThe name of the product's supplier. Corresponds to the Vendor property in the product object in the DMTF Solution Exchange Standard.Version ) k sstringDescriptionProduct version information. Corresponds to the Version property in the product object in the DMTF Solution Exchange Standard. p8/CIM_SoftwareFeature)   CIM_BIOSFeatureDescriptionCIM_BIOSFeature represents the capabilities of the low-level software that is used to bring up and configure a computer system.AMENDMENTLOCALECharacteristicDescriptions $ STRINGDescriptionAn array of free-form strings providing more detailed explanations for any of the BIOS features indicated in the Characteristics array. Note, each entry of this array is related to the entry in the Characteristics array that is located at the same index.Characteristics (+ Yan UINT16DescriptionAn array of integers that specify the features supported by the BIOS. For example, one can specify that PnP capabilities are provided (value=9) or that infrared devices are supported (21). The value, 3, is not valid in the CIM schema since in DMI it represents that no BIOS features are supported. In this case, this object should not be instantiated.Values?FOZgt 2FS\`fkzOtherUnknownUndefinedISA SupportMCA SupportEISA SupportPCI SupportPCMCIA SupportPnP SupportAPM SupportUpgradeable BIOSBIOS Shadowing AllowedVL VESA SupportESCD SupportLS-120 SupportACPI SupportI2O Boot SupportUSB Legacy SupportAGP SupportPC CardIR1394I2CSmart BatteryPC-98 Sa/CIM_SoftwareFeature)#  CTCIM_VideoBIOSFeatureDescriptionCIM_VideoBIOSFeature represents the capabilities of the low-level software that is used to bring up, configure and use a computer system's video controller and display.AMENDMENTLOCALECharacteristicDescriptions $ (0=STRINGDescriptionAn array of free-form strings providing more detailed explanations for any of the video BIOS features indicated in the Characteristics array. Note, each entry of this array is related to the entry in the Characteristics array that is located at the same index.Characteristics (+  UINT16DescriptionAn array of integers that specify the features supported by the video BIOS. For example, one could indicate support for VESA power management (value=6) or video BIOS shadowing (8). The value, 3, is not valid in the CIM schema since in DMI it represents that no BIOS features are supported. In this case, the object should not be instantiated.Values +2;F[{OtherUnknownUndefinedStandard Video BIOSVESA BIOS Extensions SupportedVESA Power Management SupportedVESA Display Data Channel SupportedVideo BIOS Shadowing AllowedVideo BIOS Upgradeable A he /CIM_SoftwareFeature)$  :FW Win32_SoftwareFeatureDescriptionSoftwareFeatures and SoftwareElements: A 'SoftwareFeature' is a distinct subset of a Product, consisting of one or more 'SoftwareElements'. Each SoftwareElement is defined in a Win32_SoftwareElement instance, and the association between a feature and its SoftwareFeature(s) is defined in the Win32_SoftwareFeatureSoftwareElement Association. Any component can be 'shared' between two or more SoftwareFeatures. If two or more features reference the same component, that component will be selected for installation if any of these features are selected (see the 'RunFromSource Column' notes below for more information about shared components).AMENDMENTLOCALEAccesses & uint16DescriptionNumber of times this SoftwareFeature has been usedAttributes $ rzuint16DescriptionRemote execution option, one of irsEnum: ifrsFavorLocal = 0: Install components locally, if possible ifrsFavorSource = 1: Install components to run from the source CD/Server, if possible ifrsFollowParent = 2: Follow the remote execution option of the parent featureLastUsee ( datetimeDescriptionLast time this SoftwareFeature was used retUs g Reinstall)DescriptionThis method will reinstall the associated instance of Win32_SoftwareFeature using the specified reinstallation mode.bBLD117ROOT\CIMV2\ms_409  *D__PARAMETERSabstractReinstallModeuint16 9in 9` Specifies the reinstall modeDescription) 9`  );MXdq{FileMissingFileOlderVersionFileEqualVersionFileExactFileVerifyFileReplaceUserDataMachineDataShortcutPackagevalues6 9`  IDC <`  uint16 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ConfigureDescriptionThis method will configure the associated instance of Win32_SoftwareFeature to the specified install state.MBLD117ROOT\CIMV2\ms_409  *___PARAMETERSabstractInstallStateuint16 8in 8_ DefaultAdvertiseLocalAbsentSourcevalues) 8_  ID6 W_  uint16__ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ is+CIM_LogicalElement) . 9 ATT`.elWCIM_SystemDescriptionA logical element that aggregates an enumerable set of managed system elements. The aggregation operates as an functional whole. Within any particular subclass of CIM_System, there is a well-defined list of CIM_ManagedSystemElement classes whose instances must be aggregated.AMENDMENTLOCALECreationClassName stringDescriptionThe CreationClassName property indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.Name@ )  stringDescriptionThe inherited Name property serves as key of a CIM_System instance in an enterprise environment.NameFormat stringDescriptionThe CIM_System object and its derivatives are top level objects of CIM. They provide the scope for numerous components. Having unique system keys is required. A heuristic can be defined in individual system subclasses to attempt to always generate the same system name key. The NameFormat property identifies how the system name was generated, using the subclass' heuristic.PrimaryOwnerContact ZbostringDescriptionA string that provides information on how the primary system owner can be reached (e.g. phone number, email address, ...).PrimaryOwnerName  )1>stringDescriptionThe name of the primary system owner.Roles $ stringDescriptionA collection of strings that specify the roles this system plays in the IT-environment. cixY+CIM_System )!d o wCIM_ComputerSystemDescriptionA class derived from CIM_System that is a special collection of CIM_ManagedSystemElement instances. This collection provides compute capabilities and serves as aggregation point to associate one or more of the following elements: file system, operating system, processor and memory (volatile and/or non-volatile storage).AMENDMENTLOCALENameFormat@+ A IstringDescriptionThe CIM_ComputerSystem object and its derivatives are Top Level Objects of CIM. They provide the scope for numerous components. Having unique CIM_System keys is required. A heuristic is defined to create the CIM_ComputerSystem name to attempt to always generate the same name, independent of discovery protocol. This prevents inventory and management problems where the same asset or entity is discovered multiple times, but can not be resolved to a single object. Use of the heuristic is optional, but recommended. The NameFormat property identifies how the computer system name is generated, using a heuristic. The heuristic is outlined, in detail, in the CIM V2 Common Model specification. It assumes that the documented rules are traversed in order, to determine and assign a name. The NameFormat values list defines the precedence order for assigning the computer system name. Several rules do map to the same Value. Note that the CIM_ComputerSystem Name calculated using the heuristic is the system's key value. Other names can be assigned and used for the CIM_ComputerSystem, that better suit the business, using Aliases.ValuesIPDialHIDNWAHWAX25ISDNIPXDCCICDE.164SNAOID/OSIOther >CIM_ComputerSystem)(  jG X _U1CIM_UnitaryComputerSystemDescriptionA class derived from CIM_ComputerSystem that represents a desktop, mobile, network PC, server or other type of a single node computer system.AMENDMENTLOCALEInitialLoadInfo ( stringDescriptionThis object contains the data needed to find either the initial load device (its key) or the boot service to request the operating system to start up.LastLoadInfo , stringDescriptionThe array entry of the InitialLoadInfo property, that holds the data corresponding to booting the currently loaded operating system.PowerManagementCapabilities 2+  uint16DescriptionIndicates the specific power-related capabilities of a computer system and its associated running operating system. The values, 0="Unknown", 1="Not Supported", and 2="Disabled" are self-explanatory. The value, 3="Enabled" indicates that the power management features are currently enabled but the exact feature set is unknown or the information is unavailable. "Power Saving Modes Entered Automatically" (4) describes that a system can change its power state based on usage or other criteria. "Power State Settable" (5) indicates that the SetPowerState method is supported. "Power Cycling Supported" (6) indicates that the SetPowerState method can be invoked with the PowerState parameter set to 5 ("Power Cycle"). "Timed Power On Supported" (7) indicates that the SetPowerState method can be invoked with the PowerState parameter set to 5 ("Power Cycle") and the Time parameter set to a specific date and time, or interval, for power-on.Values!7PUnknownNot SupportedDisabledEnabledPower Saving Modes Entered AutomaticallyPower State SettablePower Cycling SupportedTimed Power On SupportedPowerManagementSupported 0 booleanDescriptionBoolean indicating that the computer system, with its running operating system, support power management. This boolean does not indicate that power management features are currently enabled, only that the system is capable of power management.PowerState6+     uint16DescriptionIndicates the current power state of the computer system and its associated operating system. Regarding the power saving states, these are defined as follows: Value 4 (Unknown) indicates that the system is known to be in a power save mode, but its exact status in this mode is unknown; 2 (Low Power Mode) indicates that the system is in a power save state but still functioning, and may exhibit degraded performance; 3 (Standby) describes that the system is not functioning but could be brought to full power 'quickly'; and value 7 (Warning) indicates that the computerSystem is in a warning state, though also in a power save mode.Values   & 1 UnknownFull PowerPower Save - Low Power ModePower Save - StandbyPower Save - UnknownPower CyclePower OffPower Save - WarningResetCapability8+    uint16DescriptionIf enabled (value = 4), the unitary computer system can be reset via hardware (e.g. the power and reset buttons). If disabled (value = 3), hardware reset is not allowed. In addition to Enabled and Disabled, other values for the property are also defined - "Not Implemented" (5), "Other" (1) and "Unknown" (2).Values   OtherUnknownDisabledEnabledNot ImplementedneNotejSetPowerState -DescriptionSetPowerState method defines the desired power state of a computer system and its running operating system, and when the system should be put into that state. The PowerState parameter is specified as one of the valid integer values defined for the property, PowerState. The Time parameter (for all state changes but 5, "Power Cycle") indicates when the power state should be set, either as a regular date-time value or as an interval value (where the interval begins when the method invocation is received). When the PowerState parameter is equal to 5, "Power Cycle", the Time parameter indicates when the system should power on again. power off is immediate. SetPowerState should return 0 if successful, 1 if the specified power state and time requests are not supported, and some other value if any other error occurred.BLD117ROOT\CIMV2\ms_409 5 *A__PARAMETERSabstractPowerStateuint16 6IN 6] ID) ] uint16eTimedatetimee INe  IDe) x =datetime __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __((#CIM_UnitaryComputerSystem)#  #4as9F n P X $7,<J-'8ney2| ""#*###$$UUUUUUUU%Win32_ComputerSystemDescriptionThe Win32_ComputerSystem class represents a computer system operating in a Win32 environment.AMENDMENTLOCALEAdminPasswordStatus++ s {uint16DescriptionThe AdminPasswordStatus property identifies the system-wide hardware security settings for Administrator Password Status.ValuesDisabledEnabledNot ImplementedUnknownAutomaticResetBootOption :  booleanDescriptionThe AutomaticResetBootOption property determines whether the automatic reset boot option is enabled. Values: TRUE or FALSE. If TRUE, the automatic reset boot option is enabled.AutomaticResetCapability < 'booleanDescriptionThe AutomaticResetCapability property determines whether the automatic reset is enabled. This capability is available on Windows NT but not on Windows 95. Values: TRUE or FALSE. If TRUE, the automatic reset is enabled.BootOptionOnLimit$u+ OWd uint16DescriptionBoot Option on Limit. Identifies the system action to be taken when the Reset Limit is reached.ValuesReservedOperating systemSystem utilitiesDo not rebootBootOptionOnWatchDog%w+ mu uint16DescriptionThe BootOptionOnWatchDog Property indicates the type of re-boot action to be taken after the time on the watchdog timer has elapsed.Values$.@RReservedOperating systemSystem utilitiesDo not rebootBootROMSupported > booleanDescriptionThe BootROMSupported property determines whether a boot ROM is supported. Values: TRUE or FALSE. If TRUE, a boot ROM is supported.BootupState@+ > FstringDescriptionThe BootupState property specifies how the system was started. Fail-safe boot (also called SafeBoot) bypasses the user's startup files. Constraints: Must have a value.ValuesVcsNormal bootFail-safe bootFail-safe with network bootChassisBootupState-+ ;  C uint16DescriptionThe ChassisBootupState property indicates the enclosure's bootup state.Values_ f o u ~ OtherUnknownSafeWarningCriticalNon-recoverableCurrentTimeZoneD   sint16DescriptionThe CurrentTimeZone property indicates the amount of time the unitary computer system is offset from Coordinated Universal Time.DaylightInEffect 0   booleanDescriptionThe DaylightInEffect property specifies if the daylight savings mode is on. Values: TRUE or FALSE. If TRUE, daylight savings is in effect.DomainF   stringDescriptionThe Domain property indicates the name of the domain to which the computer belongs.DomainRole!m+ 3 ; H \  d uint16DescriptionThe DomainRole property indicates the role this computer plays within its assigned domain-workgroup. The domain-workgroup is a collection of computers on the same network. For example, the DomainRole property may show this computer is a "Member Workstation" (value of [1]).Values Standalone WorkstationMember WorkstationStandalone ServerMember ServerBackup Domain ControllerPrimary Domain ControllerFrontPanelResetStatus,+ S[h uint16DescriptionThe FrontPanelResetStatus property identifies the hardware security settings for the reset button on the machine.Values DisabledEnabledNot ImplementedUnknownInfraredSupported J clybooleanDescriptionThe InfraredSupported property determines whether an infrared (IR) port exists on the computer system. Values: TRUE or FALSE. If TRUE, an IR port exists.KeyboardPasswordStatus*+ emz uint16DescriptionThe KeyboardPasswordStatus property identifies the system-wide hardware security settings for Keyboard Password Status.Values"3DisabledEnabledNot ImplementedUnknownManufacturerL v~stringDescriptionThe Manufacturer property indicates the name of the computer manufacturer. Example: AcmeModelP  -stringDescriptionThe Model property indicates the product name of the computer given by the manufacturer. Constraints: Must have a valueNetworkServerModeEnabled T booleanDescriptionThe NetworkServerModeEnabled property determines whether Network Server Mode is enabled. Values: TRUE or FALSE. If TRUE, Network Server Mode is enabled.NumberOfProcessors1 uint32DescriptionThe NumberOfProcessors property indicates the number of processors currently available on the system. This is the number of processors whose status is "enabled" - versus simply the number of processors for the computer system. The former can be determined by enumerating the number of processor instances associated with the computer system object, using the Win32_ComputerSystemProcessor association.OEMLogoBitmap V uint8DescriptionThe OEMLogoBitmap array holds the data for a bitmap created by the OEM.OEMStringArray #q YanstringDescriptionThis structure contains free form strings defined by the OEM. Examples of this are: Part Numbers for Reference Documents for the system, contact information for the manufacturer, etc.PauseAfterReset(} dlysint64DescriptionThe PauseAfterReset property identifies the time delay before the reboot is initiated. It is used after a system power cycle, system reset (local or remote), and automatic system reset. A value of -1 indicates that the pause value is unknownPowerOnPasswordStatus)+ K Suint16DescriptionThe PowerOnPasswordStatus property identifies the system-wide hardware security settings for Power On Password Status.ValuesgqzDisabledEnabledNot ImplementedUnknownPowerSupplyState.+ _ guint16DescriptionThe PowerSupplyState identifies the state of the enclosure's power supply (or supplies) when last booted.ValuesOtherUnknownSafeWarningCriticalNon-recoverableResetCount&y  sint16DescriptionThe ResetCount property indicates the number of automatic resets since the last intentional reset. A value of -1 indicates that the count is unknown.ResetLimit'{ sint16DescriptionThe ResetLimit property indicates the number of consecutive time the system reset will be attempted. A value of -1 indicates that the limit is unknownSupportContactDescription Z stringDescriptionThe SupportContactDescription property is an array that indicates the support contact information for the Win32 computer system.SystemStartupDelay^ uint16DescriptionThe SystemStartupDelay property indicates the time to delay before starting the operating systemSystemStartupOptions ` ^fsstringDescriptionThe SystemStartupOptions property array indicates the options for starting up the Win32 computer system. Constraints: Must have a valueSystemStartupSettingd >ERuint8DescriptionThe SystemStartupSetting property indicates the index of the default start profile. This value is 'calculated' so that it usually returns zero (0) because at write-time, the profile string is physically moved to the top of the list. (This is how Windows NT determines which value is the default.)SystemTypee+   J! R!stringDescriptionThe SystemType property indicates the type of system running on the Win32 computer. Constraints: Must have a valueValues ~!!!!!!!!!!X86-based PCMIPS-based PCAlpha-based PCPower PCSH-x PCStrongARM PC64-bit Intel PC64-bit Alpha PCUnknownX86-Nec98 PCThermalState/+ L"T"a"" "uint16DescriptionThe ThermalState property identifies the enclosure's thermal state when last booted.Values"""""#OtherUnknownSafeWarningCriticalNon-recoverableTotalPhysicalMemory2 V#^#k#uint64DescriptionThe TotalPhysicalMemory property indicates the total size of physical memory. Example: 67108864UserName i $ $$stringDescriptionThe UserName property indicates the name of the currently-logged-on user. Constraints: Must have a value. Example: johnsmithWakeUpType"o+ $$$A% I%uint16DescriptionThe WakeUpType property indicates the event that caused the system to power up.Values q%{%%%%%%%%ReservedOtherUnknownAPM TimerModem RingLAN RemotePower SwitchPCI PME#AC Power Restored ro ?CIM_SystemResource) . 9  AN( \qT`V c WUU CIM_DMADescriptionIntel architecture DMAAMENDMENTLOCALEAddressSize , zuint16DescriptionAn integer indicating the DMA channel address size in bits. Permissible values are 8, 16, 32 or 64 bits. If unknown, enter 0.Availability $+ U]j uint16DescriptionThe Availability property indicates the availability of the DMA.ValuesOtherUnknownAvailableIn Use/Not AvailableIn Use and Available/ShareableBurstMode & T]jbooleanDescriptionIndicate whether the DMA channel supports burst modeByteMode2+  uint16DescriptionIndicates whether DMA may execute in 'count by byte' mode (value=4) or not (value=3). Also, "Other" (1) and "Unknown" (2) may be defined.ValuesOtherUnknownNot execute in 'count by byte' modeExecute in 'count by byte' modeChannelTiming6+ >FS uint16DescriptionDMA channel timing. For example, "Type A" (value =4) or "Type F" (6) could be specified.ValuesOtherUnknownISA CompatibleType AType BType FCreationClassName IQ^stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.CSCreationClassName stringDescriptionThe scoping computer system's creation class name.CSName "/stringDescriptionThe scoping computer system's name.DMAChannel )  uint32DescriptionA part of the object's key value, the DMA channel number.MaxTransferSize . $,9uint32DescriptionThe maximum number of bytes that can be transferred by this DMA channel. If unknown, enter 0.TransferWidths ( uint16DescriptionAn array indicating all the transfer widths (in bits) supported by this DMA channel. If unknown, enter 0.TypeCTiming8+   J  R uint16DescriptionIndicates whether C type (burst) timing is supported (value=5) or not (value=4). Also, "Other" (1), "Unknown" (2) and "ISA Compatible" (3) are defined.Valuesj q z OtherUnknownISA CompatibleNot SupportedSupportedWordMode4+    uint16DescriptionIndicates whether DMA may execute in 'count by word' mode (value=4) or not (value=3). Also, "Other" (1) and "Unknown" (2) may be defined.Values OtherUnknownNot execute in 'count by word' modeExecute in 'count by word' mode ,0CIM_SystemResource) N Y aoH[AIEP&WUDCIM_IRQDescriptionThe CIM_IRQ class represents an Intel architecture IRQAMENDMENTLOCALEAvailability $+  uint16DescriptionAvailability of the IRQ.Values(OtherUnknownAvailableIn Use/Not AvailableIn Use and Available/ShareableCreationClassName stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.CSCreationClassName stringDescriptionCSCreationClassName contains the scoping computer system's creation class name.CSName u}stringDescriptionCSName contains the scoping computer system's name.IRQNumber )   uint32DescriptionA part of the object's key value, IRQ Number.Shareable * |booleanDescriptionBoolean indicating whether the IRQ can be sharedTriggerLevel (+    uint16DescriptionIRQ trigger level indicating whether the interrupt is triggered by the hardware signal going high (value=4) or low (value=3). Also, "Other" (1) and "Unknown" (2) may be defined.Values OtherUnknownActive LowActive HighTriggerType &+ _gt  uint16DescriptionIRQ trigger type indicating whether edge (value=4) or level triggered (value=3) interrupts occur. Also, "Other" (1) and "Unknown" (2) may be defined.Values'.7>OtherUnknownLevelEdge "erD&6CIM_IRQ )   '1Win32_IRQResourceDescriptionThe Win32_IRQResource class represents an interrupt request line (IRQ) number on a Win32 computer system. An interrupt request is a signal sent to the CPU by a device or program for time critical events. IRQ can be hardware or software based.AMENDMENTLOCALEHardware 0 ]fsbooleanDescriptionThe Hardware property indicates whether the interrupt is hardware or software based. A hardware IRQ is a physical wire from the peripheral to the programmable interrupt controller (PIC) chip through which the CPU can be notified of time critical events. Some IRQ lines are reserved for standard devices such as the keyboard, floppy disk drives, and the system clock. A software interrupt allows applications to get the attention of the processor. Values: TRUE or FALSE. A value of TRUE indicates the interrupt is hardware based.Vector , uint32DescriptionThe Vector property indicates the vector of the Win32 IRQ resource. A vector contains the memory address to the function that will execute once the interrupt request is acknowledged by the CPU. y _S03CIM_SystemResource)!G R Zm?GJ[W^CIM_MemoryMappedIODescriptionIntel architecture memory mapped I/OAMENDMENTLOCALECreationClassName stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.CSCreationClassName stringDescriptionThe scoping computer system's creation class name property.CSName s{stringDescriptionThe scoping computer system's name.EndingAddress ( uint64DescriptionThe EndingAddress property contains the ending address of memory mapped I/OStartingAddress  uint64DescriptionThe StartingAddress property contains the starting address of memory mapped I/O. The hardware resource identifier property should be set to this value to construct the mapped I/O resource key. enP25$Win32_SystemMemoryResource)!r } l}Win32_PortResourceDescriptionThe Win32_PortResource class represents an I/O port on a Win32 computer system.AMENDMENTLOCALEAlias 0 booleanDescriptionThe Alias property indicates whether this instance represents the base port address or one of the ranges with an alias. A base port address is a predetermined port address dedicated to a specific service or device. A port alias address is one that a device responds to as if it were the actual address of an I/O port. Values: TRUE or FALSE. A value of TRUE indicates this instance represents an aliased address.StartingAddress@ )  uint64DescriptionThe StartingAddress property contains the starting address of memory mapped I/O. The hardware resource identifier property should be set to this value to construct the mapped I/O resource key. rtg CIM_SystemResource)  ;EWWin32_EnvironmentDescriptionThe Win32_Environment class represents an environment or system environment setting on a Win32 computer system.AMENDMENTLOCALEName@ )  stringDescriptionThe Name property contains a character string specifying the name of a Win32 environment variable. By specifying the name of a variable that does not yet exist, an application can create a new environment variable. Example: Path.SystemVariable  #0booleanDescriptionThe SystemVariable property indicates whether the variable is a system variable. A system variable is set by the operating system, and is independent from user environment settings. Values: TRUE or FALSE. A value of TRUE indicates the variable is a system variable.UserName) | stringDescriptionThe UserName property indicates the owner of the environment setting. It is set to "" for settings that are specific to the Win32 system (as opposed to a specific user) and "" for default user settings. Example: Jsmith.VariableValue stringDescriptionThe VariableValue property contains the placeholder variable of a Win32 environment variable. Information like the file system directory can change from machine to machine. The operating system substitutes placeholders for these. Example: %SystemRoot%. Thd r OCIM_LogicalElement)    ,bj#+9HWUUi CIM_ThreadDescriptionThreads represent the ability to execute units of a process or task in parallel. A process can have many threads, each of which is weak to the process.AMENDMENTLOCALECreationClassName ,  stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allow all instances of this class and its subclasses to be uniquely identified.CSCreationClassName X`mstringDescriptionThe scoping computer system's creation class name.CSName stringDescriptionThe scoping computer system's name.ExecutionState8+ X`m uint16DescriptionIndicates the current operating condition of the thread. Values include ready (2), running (3), and blocked (4), among others.Values%,5>QUnknownOtherReadyRunningBlockedSuspended BlockedSuspended ReadyHandle 0)  stringDescriptionA string used to identify the thread.KernelModeTimeB !.uint64DescriptionTime in kernel mode, in milliseconds. If this information is not available, a value of 0 should be used.OSCreationClassName stringDescriptionThe scoping operating system's creation class name.OSName  W_lstringDescriptionThe scoping operating system's name.Priority 4 uint32DescriptionPriority indicates the urgency or importance of execution of a thread. A thread may have a different priority than its owning process. If this information is not available for a thread, a value of 0 should be used.ProcessCreationClassName $ stringDescriptionThe scoping process' CreationClassName.ProcessHandle ()  stringDescriptionThe scoping process' Handle.UserModeTime:  uint64DescriptionTime in user mode, in milliseconds. If this information is not available, a value of 0 should be used. thH)hCIM_Thread )R ] er!KY  W/Win32_ThreadDescriptionThe Win32_Thread class represents a thread of execution.While a process must have one thread of execution, the process can create other threads to execute tasks in parallel. Threads share the process environment, thus multiple threads under the same process use less memory than the same number of processes.AMENDMENTLOCALEElapsedTimeJ uint64DescriptionThe ElapsedTime property indicates the total execution time given to this thread since its creation.Handle@ 0 MUbstringDescriptionThe Handle property represents a handle to a thread. The handle has full access rights by default. With the correct security access, the handle can be used in any function that accepts a thread handle. Depending on the inheritance flag specified when it is created, this handle can be inherited by child processes.Priority@ 4 uint32DescriptionThe Priority property indicates the dynamic priority of the thread. Each thread has a dynamic priority that the scheduler uses to determine which thread to execute. Initially, a thread's dynamic priority is the same as its base priority. The system can raise and lower the dynamic priority, to ensure that it is responsive (guaranteeing that no threads are starved for processor time). The system does not boost the priority of threads with a base priority level between 16 and 31. Only threads with a base priority between 0 and 15 receive dynamic priority boosts. Higher numbers indicate higher priorities.PriorityBaseR uint32DescriptionThe PriorityBase property indicates the current base priority of a thread. The operating system may raise the thread's dynamic priority above the base priority if the thread is handling user input, or lower it toward the base priority if the thread becomes compute-bound. The PriorityBase propertycan have a value between 0 and 31ProcessHandle@ ( !)6stringDescriptionThe ProcessHandle property indicates the process that created the thread. The contents of this property can be used by Win32 API elements.StartAddressV   uint32DescriptionThe StartAddress property indicates the starting address of the thread. Because any application with appropriate access to the thread can change the thread's context, this value may only be an approximation of the thread's starting address.ThreadStateZ+ I Q ^ r  z uint32DescriptionThe ThreadState property indicates the current execution state for the thread. A thread can have one of eight values: Initialized (recognized by the microkernel), Ready (prepared to run on next available processor), Running (executing), Standby (about to run, only one thread may be in this state at a time), Terminated (finished executing), Waiting (not ready for the processor, when ready, it will be rescheduled), Transition (thread is waiting for resources other than the processor), and Unknown (the thread state is unknown).Values InitializedReadyRunningStandbyTerminatedWaitingTransitionUnknownThreadWaitReason^+ 9 A N  uint32DescriptionThe ThreadWaitReason property indicates why the thread is waiting. The value is only valid if the ThreadState member is set to Waiting. Values of 0 or 7 denote that the thread is waiting for the Executive, 1 or 8 for a Free Page, 2 or 9 for a Page In, 3 or 10 for a Pool Allocation, 4 or 11 for an Execution Delay, 5 or 12 for a Suspended condition, 6 or 13 for a User Request, 14 for an Event Pair High, 15 for an Event Pair Low, 16 for an Local Procedure Call (LPC) Receive, 17 for an LPC Reply, 18 for Virtual Memory, 19 for a Page Out. 20 and higher are not assigned. Event Pairs allow communication with protected subsystems (see Context Switches).Values=HRZjz&ExecutiveFreePagePageInPoolAllocationExecutionDelayFreePagePageInExecutiveFreePagePageInPoolAllocationExecutionDelayFreePagePageInEventPairHighEventPairLowLPCReceiveLPCReplyVirtualMemoryPageOutUnknown ec z CIM_LogicalElement)A L T\ WWin32_AccountDescriptionThe Win32_Account class contains information about user accounts and group accounts known to the Win32 system. User or group names recognized by a Windows NT domain are descendents (or members) of this class. The Win32_Account class is not included in a default hardware inventory operation.AMENDMENTLOCALEDomain)  stringDescriptionThe Domain property indicates the name of the Windows domain to which a group or user belongs. Example: NA-SALESName@ ) W_l stringDescriptionThe Name property indicates the name of the Win32 system account on the domain specified by the Domain member of this class.SID #0stringDescriptionThe SID property contains the security identifier (SID) for this account. a SID is a string value of variable length used to identify a trustee. Each account has a unique SID issued by an authority (such as a Windows domain), stored in a security database. When a user logs on, the system retrieves the user's SID from the database and places it in the user's access token. The system uses the SID in the user's access token to identify the user in all subsequent interactions with Windows security. When a SID has been used as the unique identifier for a user or group, it cannot be used again to identify another user or group.SIDType+  "uint8DescriptionThe SIDType property contains enumerated values that specify the type of security identifier (SID). SIDTypes include: SidTypeUser - Indicates a user SID. SidTypeGroup - Indicates a group SID. SidTypeDomain - Indicates a domain SID. SidTypeAlias - Indicates an alias SID. SidTypeWellKnownGroup - Indicates a SID for a well-known group. SidTypeDeletedAccount - Indicates a SID for a deleted account. SidTypeInvalid - Indicates an invalid SID. SidTypeUnknown - Indicates an unknown SID type. SidTypeComputer - Indicates a SID for a computer. Values JWetSidTypeUserSidTypeGroupSidTypeDomainSidTypeAliasSidTypeWellKnownGroupSidTypeDeletedAccountSidTypeInvalidSidTypeUnknownSidTypeComputer ccxYWin32_Account)"? J RZWin32_SystemAccountDescriptionThe Win32_SystemAccount class represents a system account. The system account is used by the operating system and by services that run under Windows NT. There are many services and processes within NT that need the capability to logon internally (for example during a Windows NT installation). The system account was designed for that purpose; it is an internal account, does not show up in User Manager, cannot be added to any groups, and cannot have user rights assigned to it. On the other hand, the system account does show up on an NTFS volume in File Manager in the Permissions portion of the Security menu. By default, the system account is granted full control to all files on an NTFS volume. Here the system account has the same functional privileges as the administrator account.AMENDMENTLOCALEDomain@ stringDescriptionThe Domain property indicates the name of the Windows domain to which the system account belongs. Example: NA-SALESName@  BJWstringDescriptionThe Name property indicates the name of the Win32 system account on the domain specified by the Domain member of this class. he 3Win32_Account) z   =Gw_e3G1 B # 5 U Win32_UserAccountDescriptionThe Win32_UserAccount class contains information about a user account on a Win32 system.AMENDMENTLOCALEAccountType+  uint32DescriptionThe AccountType property contains flags describing the characteristics of Win32 user account: UF_TEMP_DUPLICATE_ACCOUNT - Local user account for users whose primary account is in another domain. This account provides user access to this domain, but not to any domain that trusts this domain. UF_NORMAL_ACCOUNT - default account type that representing a typical user. UF_INTERDOMAIN_TRUST_ACCOUNT - account is for a system domain that trusts other domains. UF_WORKSTATION_TRUST_ACCOUNT - This is a computer account for a Windows NT/Windows 2000 machine that is a member of this domain. UF_SERVER_TRUST_ACCOUNT - account is for a system backup domain controller that is a member of this domain. BitValues 'Temporary duplicate accountNormal accountInterdomain trust accountWorkstation trust accountServer trust accountDisabled ! s|booleanDescriptionThe Disabled property determines whether the Win32 user account is disabled. Values: TRUE or FALSE. If TRUE, the user account is disabled.Domain@ IQ^stringDescriptionThe Domain property indicates the name of the Windows domain to which the user account belongs. Example: NA-SALESFullName # stringDescriptionThe FullName property indicates the full name of the local user. Example: Thomas WilliamsLockout ' booleanDescriptionThe Lockout property determines whether the user account is locked out of the Win32 system. Values: TRUE or FALSE. If TRUE, the user account is locked out.Name@  stringDescriptionThe Name property indicates the name of the Win32 user account on the domain specified by the Domain member of this class. Example: thomaswPasswordChangeable ) s|booleanDescriptionThe PasswordChangeable property determines whether the password on the Win32 user account can be changed. Values: TRUE or FALSE. If TRUE, the password can be changed.PasswordExpires + n w  booleanDescriptionThe PasswordExpires property determines whether the password on the Win32 user account will expire. Values: TRUE or FALSE. If TRUE, the password will expire.PasswordRequired - a j w booleanDescriptionThe PasswordRequired property determines whether a password is required on the Win32 user account. Values: TRUE or FALSE. If TRUE, a password is required. iCIM_LogicalElement)#r } fl Win32_LoadOrderGroupDescriptionThe Win32_LoadOrderGroup class represents a group of system services that define execution dependencies. The services must be initiated in the order specified by the Load Order Group, as the services are dependent on each other. These dependent services require the presence of the antecedent services in order to function correctly.AMENDMENTLOCALEDriverEnabled  booleanDescriptionThe DriverEnabled property indicates whether this load order group can include drivers along with system services. Values: TRUE or FALSE. If TRUE, the load order group can includedrivers.GroupOrder uint32DescriptionThe GroupOrder property indicates the sequence in which this group of services will be loaded onto the operating system. Example: 2Name@ )  stringDescriptionThe Name property indicates the name of the load order group. Example: Primary disk thDGCIM_LogicalElement)&   IZcsV\z 4 @ WUUWin32_NetworkConnectionDescriptionThe Win32_NetworkConnection class represents an active network connection in a Win32 environment.AMENDMENTLOCALEAccessMask>+  uint32DescriptionThe AccessMask property is a bit array representing the access rights as set remotely on the network share held by the user or group on whose behalf the instance is returned. This property is only supported under Windows NT and Windows 2000. BitValues1k-LbyFILE_READ_DATA (file) or FILE_LIST_DIRECTORY (directory)FILE_WRITE_DATA (file) or FILE_ADD_FILE (directory)FILE_APPEND_DATA (file) or FILE_ADD_SUBDIRECTORY (directory)FILE_READ_EAFILE_WRITE_EAFILE_EXECUTE (file) or FILE_TRAVERSE (directory)FILE_DELETE_CHILD (directory)FILE_READ_ATTRIBUTESFILE_WRITE_ATTRIBUTESDELETEREAD_CONTROLWRITE_DACWRITE_OWNERSYNCHRONIZEComment stringDescriptionThe Comment property contains a comment supplied by the network provider.ConnectionState+  stringDescriptionThe ConnectionState property indicates the current state of the network connection.Values!,3;IUConnectedErrorPausedDisconnectedConnectingReconnectingConnectionType+ G OstringDescriptionThe ConnectionType property indicates the persistence type of the connection used for connecting to the network. Example: Permanent.Values[oCurrent ConnectionPersistent ConnectionDisplayType + h pstringDescriptionThe DisplayType property indicates how the network object should be displayed in a network browsing user interface. Example: Generic.ValuesDomainGenericServerShareLocalName $ stringDescriptionThe LocalName property indicates the local name of the connected network device. Example: c:\public.Name@ )  stringDescriptionThe Name property indicates the name of the current network connection. It is the combination of the value in the RemoteName property and the value in the LocalName property. Example: \\NTRELEASE (c:\public).Persistent (   booleanDescriptionThe Persistent property determines whether this connection will be reconnected automatically by the operating system on the next logon. Values: TRUE or FALSE. A value of TRUE indicates the network connection will be automatically connected.ProviderName *   stringDescriptionThe ProviderName property contains the name of the provider that owns the resource. This property can be NULL if the provider name is unknown.RemoteName .   stringDescriptionThe RemoteName property contains the remote network resource name for a network resource. For a current or persistent connection, RemoteName contains the network name associated with the name of the value in the LocalName property. The name in RemoteName must follow the network provider's naming conventions. Example: \\NTRELEASE.RemotePath 2 l t  stringDescriptionThe RemotePath property contains the full path to the network resource. Example: \\infosrv1\publicResourceType6+ ,4A stringDescriptionThe ResourceType property identifies the type of resource to enumerate or connect to.ValuesDiskPrintAnyUserName:  stringDescriptionThe UserName property contains the user name or the default user name used to establish a network connection. Example: SYSTEM. ed$  DCIM_LogicalElement)$  $^ o QgQgo2O{WUUUWin32_NetworkProtocolDescriptionThe Win32_NetworkProtocol class represents a protocol and its network characteristics on a Win32 computer system.AMENDMENTLOCALEConnectionlessService  booleanDescriptionThe ConnectionlessService property indicates whether the protocol supports connectionless service. A connectionless (datagram) service describes a communications protocol or transport in which data packets are routed independently of each other and may follow different routes and arrive in a different order from that in which they were sent. Conversely, a connection-oriented service provides a virtual circuit through which data packets are received in the same order they were transmitted. If the connection between machines fails, the application is notified. Values: TRUE or FALSE. A value of TRUE indicates the protocol uses aconnectionless service.GuaranteesDelivery  booleanDescriptionThe GuaranteesDelivery property indicates whether the protocol guarantees that all data sent will reach the intended destination. If this flag is FALSE, there is no such guarantee. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports guaranteed delivery of data packets.GuaranteesSequencing  PYfbooleanDescriptionThe GuaranteesSequencing property indicates whether the protocol guarantees that data will arrive in the order in which it was sent. Note that this characteristic does not guarantee delivery of the data, only its order. Values: TRUE or FALSE. A value of TRUE indicates the order of data sent is guaranteed.MaximumAddressSize uint32DescriptionThe MaximumAddressSize property indicates the maximum length of a socket address supported by the protocol. Socket addresses may be items like URLs (www.microsoft.com) or IP addresses (130.215.24.1).MaximumMessageSize  uint32DescriptionThe MaximumMessageSize property indicates the maximum message size supported by the protocol. This is the maximum size of a message that can be sent from or received by the host. For protocols that do not support message framing, the actual maximum size of a message that can be sent to a given address may be less than this value. There are two special values defined for this property: 0 - The protocol is stream-oriented; the concept of message size is not relevant. 1 - The maximum outbound (send) message size is dependent on the underlying network MTU (maximum sized transmission unit) and hence cannot be known until after a socket is bound. Applications should use getsockopt to retrieve the value of SO_MAX_MSG_SIZE after the socket has been bound to a local address. 0xFFFFFFFF - There is no specified maximum message size defined. MessageOriented "   booleanDescriptionThe MessageOriented property indicates whether the protocol is message-oriented. A message-oriented protocol uses packets of data to transfer information. Conversely, stream-oriented protocols transfer data as a continuous stream of bytes. Values: TRUE or FALSE. A value of TRUE indicates the protocol is message oriented.MinimumAddressSize $ 5 = J uint32DescriptionThe MinimumAddressSize property specifies the minimum length of a socket address supported by the protocol. Name@ )    stringDescriptionThe Name property contains the name for the protocol. Example: TCP/IPPseudoStreamOriented ( booleanDescriptionThe PseudoStreamOriented property indicates whether the protocol is a message-oriented protocol that can receive variable-length data packets or streamed data for all receive operations. This optional capability is useful when an application does not want the protocol to frame messages, and requires stream-oriented characteristics. Values: TRUE or FALSE. A value of TRUE indicates the protocol is pseudo stream-oriented.SupportsBroadcasting * booleanDescriptionThe SupportsBroadcasting property indicates whether the protocol supports a mechanism for broadcasting messages across the network. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports broadcasting.SupportsConnectData , booleanDescriptionThe SupportsConnectData property indicates whether the protocol allows data to be connected across the network. Values: TRUE or FALSE. A value of TRUE indicates the protocol allows data to be connected.SupportsDisconnectData . booleanDescriptionThe SupportsDisconnectData property indicates whether the protocol allows data to be disconnected across the network. Values: TRUE or FALSE. A value of TRUE indicates the protocol allows data to be disconnected.SupportsEncryption 0 +booleanDescriptionThe SupportsEncryption property indicates whether the protocol supports data encryption. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports data encryption.SupportsExpeditedData 2  )6booleanDescriptionThe SupportsExpeditedData property indicates whether the protocol supports expedited data (also known as urgent data) across the network. Expedited data can bypass flow control and receive priority over normal data packets. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports expedited data.SupportsFragmentation 4 booleanDescriptionThe SupportsFragmentation property indicates whether the protocol supports transmitting the data in fragments. Physical network Maximum Transfer Unit (MTU) is hidden from applications. Each media type has a maximum frame size that cannot be exceeded. The link layer is responsible for discovering the MTU and reporting it to the protocols being used. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports transmitting the data in fragments.SupportsGracefulClosing 6 booleanDescriptionThe SupportsGracefulClosing property indicates whether the protocol supports two-phase close operations - also known as graceful close operations. If not, the protocol supports only abortive close operations. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports graceful closing of network connections.SupportsGuaranteedBandwidth 8 {booleanDescriptionThe SupportsGuaranteedBandwidth property indicates whether the protocol has a mechanism to establish and maintain a guaranteed bandwidth. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports a guaranteed bandwidth.SupportsMulticasting : booleanDescriptionThe SupportsMulticasting property indicates whether the protocol supports multicasting. Values: TRUE or FALSE. A value of TRUE indicates the protocol supports multicasting.SupportsQualityofService < booleanDescriptionThe SupportsQualityofService property indicates whether the protocol is capable of Quality of Service (QOS) support via the underlying layered service provider or transport carrier. QOS is a collection of components that enable differentiation and preferential treatment for subsets of data transmitted over the network. QOS loosely means subsets of data get higher priority or guaranteed service when traversing a network. Values:TRUE or FALSE. A value of TRUE indicates the protocol supports QOS. E."CIM_LogicalElement)"  ,-3WYWin32_PageFileUsageDescriptionThe Win32_PageFileUsage class represents the file used for handling virtual memory file swapping on a Win32 system. Information contained within objects instantiated from this class specify the runtime state of the page file. AMENDMENTLOCALEAllocatedBaseSize X`muint32DescriptionThe AllocatedBaseSize property indicates the actual amount of disk space allocated for use with this page file. This value corresponds to the range established in Win32_PageFileSetting under the InitialSize and MaximumSize properties, set at system startup. Example: 178MBCurrentUsage uint32DescriptionThe CurrentUsage property indicates the amount of disk space currently used by the page file.Name@ ) jr stringDescriptionThe Name property indicates the name of the page file. Example: C:\PAGEFILE.SYSPeakUsage uint32DescriptionThe PeakUsage property indicates the highest use page file. Pee p@$"Win32_ProgramGroupOrItem)(  Win32_LogicalProgramGroupDescriptionThe Win32_LogicalProgramGroup class represents a program group in a Win32 system. Example: Accessories or Startup.AMENDMENTLOCALEGroupName stringDescriptionThe GroupName property indicates the name of the Win32 program group. Program groups are implemented as file folders in Win32. Example: Accessories\System ToolsName@ )  stringDescriptionThe Name property indicates the user assigned name followed by the group name. Program groups are implemented as file folders in Win32. Example: All Users:Accessories\System ToolsUserName stringDescriptionThe UserName property indicates the users who can access the Win32 program group. Program groups are implemented as file folders in Win32. Example: All Users up/CIM_LogicalElement)(  DNWWin32_QuickFixEngineeringDescriptionThe Win32_QuickFixEngineering class represents system-wide Quick Fix Engineering (QFE) or updates that have been applied to the current operating system.AMENDMENTLOCALECSName  stringDescriptionThe CSName property contains the local name of the computer system. The value for this member comes from the CIM_ComputerSystem class.FixComments  stringDescriptionThe FixComments property contains additional comments relating to the update.HotFixID)  stringDescriptionThe HotFixID property specifies the unique identifier associated with a particular QFE.InstalledBy $ ,4AstringDescriptionThe InstalledBy property identifies who installed the update. If this value is unknown, the property will be empty.InstalledOn ( stringDescriptionThe InstalledOn property provides the date and time when the update was installed. If this value is unknown, the property will be empty.ServicePackInEffect)  stringDescriptionThe ServicePackInEffect property specifies what servicepack was in effect when the update was applied. If no service pack has been applied, the property takes on the value SP0. If it can not be determined what service pack was in effect, this property will be NULL. ed"CIM_LogicalElement)r } 4A7=:HWKWin32_RegistryDescriptionThe Win32_Registry class represents the system registry on a Win32 computer system.AMENDMENTLOCALECurrentSize uint32DescriptionThe CurrentSize property indicates the current physical size of the Win32 registry. Example 10.MaximumSize muuint32DescriptionThe MaximumSize property indicates the maximum size of the Win32 registry. If the system is successful in using the ProposedSize member, MaximumSize should contain the same value.Name@ ) t| stringDescriptionThe Name property indicates the name of the Win32 Registry. Maximum length is 256 characters. Example: Microsoft Windows NT Workstation|C:\WINNT40|\Device\Harddisk0\partition1ProposedSize t|uint32DescriptionThe ProposedSize property indicates the proposed size of the Win32 registry. It is the only registry setting that can be modified, and its proposal is attempted the next time the system boots. s o/P )CIM_LogicalElement)   .<w}WWin32_ShareDescriptionThe Win32_Share class represents a shared resource on a Win32 system. This may be a disk drive, printer, interprocess communication, or other shareable device. Example: C:\PUBLIC.AMENDMENTLOCALEAccessMask "+ '/< uint32DescriptionThe AccessMask property contains the access rights to the share, held by the user or group on whose behalf the instance is returned. This property is only supported under Windows NT and Windows 2000.BitValuesLap !FILE_LIST_DIRECTORYFILE_ADD_FILEFILE_ADD_SUBDIRECTORYFILE_READ_EAFILE_WRITE_EAFILE_TRAVERSEFILE_DELETE_CHILDFILE_READ_ATTRIBUTESFILE_WRITE_ATTRIBUTESDELETEREAD_CONTROLWRITE_DACWRITE_OWNERSYNCHRONIZEAllowMaximum  hq~booleanDescriptionThe AllowMaximum property indicates whether the number of concurrent users for this resource has been limited. Values: TRUE or FALSE. A value of TRUE indicates the number of concurrent users of this resource has not been limited and the value in the MaximumAllowed property is ignored.MaximumAllowed uint32DescriptionThe MaximumAllowed property indicates the limit on the maximum number of users allowed to use this resource concurrently. The value is only valid if the AllowMaximum member set to FALSE Example: 10.Name@ )   stringDescriptionThe Name property indicates the alias given to a path set up as a share on a Win32 system. Example: public.Path stringDescriptionThe Path property indicates the local path of the Win32 share. Example: C:\Program FilesType+ W_l  uint32DescriptionThe Type property specifies the type of resource being shared. Types include disk drives, print queues, interprocess communications (IPC), and general devices.Values9ERZ_qDisk DrivePrint QueueDeviceIPCDisk Drive AdminPrint Queue AdminDevice AdminIPC AdminI&DrdmirDe %!""v$z$%Create&DescriptionThe Create method initiates sharing for a server resource. Only members of the Administrators or Account Operators local group or those with Communication, Print, or Server operator group membership can successfully execute Create. The Print operator can add only printer queues. The Communication operator can add only communication device queues.oBLD117ROOT\CIMV2\ms_409  4 ne *(U __PARAMETERSabstractPathstring 0In 0W The Path parameter indicates the local path of the Win32 share. Example: C:\Program FilesDescription) 0W ID6 lW $stringNamestring In  The Name parameter passes the alias to a path set up as a share on a Win32 system. Example: public.Description)  FID6  FstringTypeuint32 In  The Type parameter passes the type of resource being shared. Types includes disk drives, print queues, interprocess communications (IPC), and general devices.Description)  GO[hpuDisk DrivePrint QueueDeviceIPCDisk Drive AdminPrint Queue AdminDevice AdminIPC AdminValues6  G +IDC T G +uint32 MaximumAlloweduint32  ~In  ~ The MaximumAllowed parameter passes the limit on the maximum number of users allowed to concurrently use this resource. Example: 10.Description ) ~ ZID 6  Zuint32Descriptionstring  In  4 The Description parameter passes an optional comment to describe the resource being shared.Description)  4 bID6 K4 bstringPasswordstring oIn o The Password parameter passes the password (when the server is running with share-level security) for the shared resource. If the server is running with user-level security, this parameter is ignored.Description) o ID6    string Accessobject  < In  < c  The Access parameter passes the security descriptor for user level permissions. A security descriptor contains information about the permission, owner, and access capabilities of the resource.Description ) < c  S  ID 6  c S  object:Win32_SecurityDescriptor __ __ __ __ __ __ __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetShareInfoDescriptionThe SetShareInfo method sets the parameters of a shared resource. Only members of the Administrators or Account Operators local group or those with Communication, Print, or Server operator group membership can successfully execute SetShareInfo. The print operator can set only printer queues. The Communication operator can set only communication device queues.BLD117ROOT\CIMV2\ms_409   !*^__PARAMETERSabstractMaximumAlloweduint32 :In :a The MaximumAllowed parameter passes the limit on the maximum number of users allowed to use this resource concurrently. Example: 10.Description) :a ID6 a Zuint32Descriptionstring In  The Description parameter passes an optional comment to describe the resource being shared.Description)  {ID6  {string Accessobject  )In  )P The Access parameter passes the security descriptor for user level permissions. A security descriptor contains information about the permission, owner, and access capabilities of the resource.Description ) )P @~ID 6 P @~object:Win32_SecurityDescriptor __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Delete""DescriptionThe Delete method deletes a share name from a server's list of shared resources, disconnecting connections to the shared resource. Only members of the Administrators or Account Operators local group or those with Communication, Print, or Server operator group membership can successfully execute the method. The Print operator can delete only printer queues. The Communication operator can delete only communication-device queues.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __f@dF>"CIM_ManagedSystemElement)"    -C!   WUXCIM_PhysicalElementDescriptionSubclasses of CIM_PhysicalElement define any component of a system that has a distinct physical identity. Instances of this class can be defined in terms of labels that can be physically attached to the object. All processes, files, and logical devices are considered not to be physical elements. For example, it is not possible to attach a label to a modem. It is only possible to attach a label to the card that implements the modem. The same card could also implement a LAN adapter. These are tangible managed system elements (usually actual hardware items) that have a physical manifestation of some sort. A managed system element is not necessarily a discrete component. For example, it is possible for a single card (which is a type of physical element) to host more than one logical device. The card would be represented by a single physical element associated with multiple logical devices.AMENDMENTLOCALECreationClassName stringDescriptionCreationClassName indicates the name of the class or the subclass used in the creation of an instance. When used with the other key properties of this class, this property allows all instances of this class and its subclasses to be uniquely identified.Manufacturer FN[stringDescriptionThe name of the organization responsible for producing the physical element.Model stringDescriptionThe name by which the physical element is generally known.OtherIdentifyingInfo 4 owstringDescriptionOtherIdentifyingInfo captures additional data, beyond asset tag information, that could be used to identify a physical element. One example is bar code data associated with an element that also has an asset tag. Note that if only bar code data is available and is unique/able to be used as an element key, this property would be NULL and the bar code data used as the class key, in the tag property.PartNumber 0 MUbstringDescriptionThe part number assigned by the organization responsible for producing or manufacturing the physical element.PoweredOn 8    booleanDescriptionBoolean indicating that the physical element is powered on (TRUE), or is currently off (FALSE).SerialNumber $   stringDescriptionA manufacturer-allocated number used to identify the physicalelement.SKU  F N [ stringDescriptionThe stock keeping unit number for this physical element.Tag (   stringDescriptionAn arbitrary string that uniquely identifies the physicalelement and serves as the element's key. The Tag property can contain information such as asset tag or serial number data. The key for CIM_PhysicalElement is placed very high in the object hierarchy in order to independently identify the hardware/entity, regardless of physical placement in or on cabinets, adapters, etc. For example, a removable component that can be hot swapped, may be taken from its containing (scoping) package and be temporarily unused. The object still continues to exist - and may even be inserted into a different scoping container. Therefore, the key for physicalelement is an arbitrary string and is defined independently of any placement or location-oriented hierarchy.Version ,  stringDescriptionA string indicating the version of the physical element. vnoECIM_PhysicalElement)$  Va[h CIM_PhysicalComponentDescriptionThe CIM_PhysicalComponent class represents any low-level or basic component within a package. Any physical element that is not a link, connector, or package is a descendent (or member) of this class. For example, the UART chipset on an internal modem card would be a subclass (if additional properties or associations are defined) or an instance of CIM_PhysicalComponent.AMENDMENTLOCALEHotSwappable > booleanDescriptionA physical component can be hot swapped if it is possible to replace the element with a physically different but equivalent one while the containing package has power applied to it (i.e., is 'on'). For example, a fan component may be designed to be hot swapped. All components that can be hot swapped are inherently removable and replaceable .Removable : booleanDescriptionA physical component is removable if it is designed to be taken in and out of the physical container in which it is normally found, without impairing the function of the overall packaging. A component can still be removable if power must be 'off' in order to perform the removal. If power can be 'on' and the component removed, then the element is removable and can be hot swapped. For example, an upgradeable processor chip is removable.Replaceable < booleanDescriptionA physical component is replaceable if it is possible to replace (FRU or upgrade) the element with a physically different one. For example, some computer systems allow the main processor chip to be upgraded to one of a higher clock rating. In this case, the processor is said to be replaceable . All removable components are inherently replaceable . t g gCIM_Chip )!  oy9EP\UpCIM_PhysicalMemoryDescriptionCIM_PhysicalMemory is a subclass of CIM_Chip, representing low level memory devices - SIMMS, DIMMs, raw memory chips, etc.AMENDMENTLOCALEBankLabelT stringDescriptionA string identifying the physically labeled bank where the memory is located - for example, 'Bank 0' or 'Bank A'.CapacityL uint64DescriptionThe total capacity of this physical memory, in bytes.DataWidthF (0=uint16DescriptionData width of the physical memory, in bits. A data width of 0 and a total width of 8 would indicate that the memory is solely used to provide error correction bits.InterleavePosition\ #+8uint32DescriptionThe position of this physical memory in an interleave. 0 indicates non-interleaved. 1 indicates the first position, 2 the second position and so on. For example, in a 2:1 interleave, a value of '1' would indicate that the memory is in the 'even' position.MemoryTypeB+ ~ uint16DescriptionThe type of physical memory.Values 1=BIOUZ_fnv}UnknownOtherDRAMSynchronous DRAMCache DRAMEDOEDRAMVRAMSRAMRAMROMFlashEEPROMFEPROMEPROMCDRAM3DRAMSDRAMSGRAMPositionInRowX uint32DescriptionSpecifies the position of the physical memory in a 'row'. For example, if it takes two 8-bit memory devices to form a 16-bit row, then a value of '2'means that this memory is the second device. 0 is an invalid value for this property.SpeedH uint32DescriptionThe speed of the physical memory, in nanoseconds.TotalWidthD uint16DescriptionTotal width, in bits, of the physical memory, including check or error correction bits. If there are no error correction bits, the value in this property should match that specified for the DataWidth property. t1 D%pCIM_PhysicalMemory)#  ;Win32_PhysicalMemoryDescriptionThe Win32_PhysicalMemory class represents a physical memory device located on a computer system as available to the operating system.AMENDMENTLOCALEDeviceLocator`  stringDescriptionThe DeviceLocator property indicates the label of the socket or circuit board that holds this memory. Example: SIMM 3InterleaveDataDepthf uint16DescriptionThe InterleaveDataDepth property indicates the maximum number of consecutive rows of data that are accessed in a single interleaved transfer from the memory device. If the value is 0, then the memory is not interleaved.Tag@ ()  stringDescriptionThe Tag property contains a string that uniquely identifies the physical memory device represented by an instance of Win32_PhysicalMemory. Example: Physical Memory 1TypeDetaild+  m xuint16DescriptionThe TypeDetail property indicates the type of physical memory represented by Win32_PhysicalMemory.BitValues  !-ReservedOtherUnknownFast-pagedStatic columnPseudo-staticRAMBUSSynchronousCMOSEDOWindow DRAMCache DRAMNon-volatile eD XCIM_PhysicalComponent)    m/_ CIM_PhysicalMediaDescriptionThe CIM_PhysicalMedia class represents any type of documentation or storage medium, such as tapes, CD ROMs, etc. This class is typically used to locate and manage removable media (versus media sealed with the media access device, as a single package, as is the case with hard disks). However, 'sealed' media can also be modeled using this class, where the media would then be associated with the physical package using the CIM_PackagedComponent relationship.AMENDMENTLOCALECapacity@ 5=Juint64DescriptionThe size of the media, in bytes. This property is not applicable to "Hard Copy" (documentation) or cleaner media.CleanerMedia P  booleanDescriptionBoolean indicating that the physical media is used for cleaning purposes and not data storage.MediaDescriptionJ stringDescriptionAdditional detail related to the MediaType enumeration. For example, if value 3 ("QIC Cartridge") is specified, this property could indicate whether the tape is wide or 1/4 inch, whether it is pre-formatted, whether it is Travan compatible, etc.MediaTypeH+  uint16DescriptionSpecifies the type of the physical media, as an enumerated integer. The MediaDescription property is used to provide more explicit definition of the media type, whether it is pre-formatted, compatibility features, etc.Values x /?ISa|UnknownOtherTape CartridgeQIC CartridgeAIT CartridgeDTF CartridgeDAT Cartridge8mm Tape Cartridge19mm Tape CartridgeDLT CartridgeHalf-Inch Magnetic Tape CartridgeCartridge DiskJAZ DiskZIP DiskSyQuest DiskWinchester Removable DiskCD-ROMCD-ROM/XACD-ICD RecordableWORMMagneto-OpticalDVDDVD+RWDVD-RAMDVD-ROMDVD-VideoDivxFloppy/DisketteHard DiskMemory CardHard CopyWriteProtectOn N [dqbooleanDescriptionBoolean specifying whether the media is currently write protected by some kind of physical mechanism, such as a protect tab on a floppy diskette. theICIM_PhysicalComponent)"  Xdhq\a_Win32_OnBoardDeviceDescriptionThe Win32_OnBoardDevice class represents common adapter devices built into the motherboard (system board).AMENDMENTLOCALEDescription@ stringDescriptionThe Description property describes the on-board device and is filled by the manufacturer of the device.DeviceType@+  uint16DescriptionThe DeviceType property indicates the type of device being represented.Values#*3:KUaOtherUnknownVideoSCSI ControllerEthernetToken RingSoundEnabled B booleanDescriptionThe Enabled property indicates whether or not the on-board device is available for use. Values: TRUE or FALSE. A value of TRUE indicates the device is enabled for use.Tag@ ()  stringDescriptionThe Tag property uniquely identifies the on-board device connected to the system. Example: On Board Device 1  GCIM_PhysicalElement)$r } 6ECIM_PhysicalConnectorDescriptionThe CIM_PhysicalConnector class represents any physical element that is used to connect to other elements. Any object that can be used to connect and transmit signals or power between two or more physical elements is a descendant (or member) of this class. For example, slots and D-shell connectors are types of physical connectors.AMENDMENTLOCALEConnectorPinout: stringDescriptionA free-form string describing the pin configuration and signal usage of a physical connector.ConnectorType >+ ~ uint16DescriptionAn array of integers defining the type of physical connector. An array is specified to allow the description of 'combinations' of connector information. For example, one array entry could specify RS-232 (value=25), another DB-25 (value=23) and a third entry define the connector as "Male" (value=2).ValuesL $0Qq#H`z )9>DJU`oty &.:AM^wUnknownOtherMaleFemaleShieldedUnshieldedSCSI (A) High-Density (50 pins)SCSI (A) Low-Density (50 pins)SCSI (P) High-Density (68 pins)SCSI SCA-I (80 pins)SCSI SCA-II (80 pins)SCSI Fibre Channel (DB-9, Copper)SCSI Fibre Channel (Fibre)SCSI Fibre Channel SCA-II (40 pins)SCSI Fibre Channel SCA-II (20 pins)SCSI Fibre Channel BNCATA 3-1/2 Inch (40 pins)ATA 2-1/2 Inch (44 pins)ATA-2ATA-3ATA/66DB-9DB-15DB-25DB-36RS-232CRS-422RS-423RS-485RS-449V.35X.21IEEE-488AUIUTP Category 3UTP Category 4UTP Category 5BNCRJ11RJ45Fiber MICApple AUIApple GeoPortPCIISAEISAVESAPCMCIAPCMCIA Type IPCMCIA Type IIPCMCIA Type IIIZV PortCardBusUSBIEEE 1394HIPPIHSSDC (6 pins)GBICDINMini-DINMicro-DINPS/2InfraredHP-HILAccess.busNuBusCentronicsMini-CentronicsMini-Centronics Type-14Mini-Centronics Type-20Mini-Centronics Type-26Bus MouseADBAGPVME BusVME64 us iCIM_PhysicalConnector)    (7lzNV9Maq^mWU CIM_SlotDescriptionThe CIM_Slot class represents connectors into which circuit boards or adapter cards can be inserted. Any 16-, 32-, or 64-bit expansion slot on a card or hosting board is a descendant (or member) of this class. PCI or PCMCIA Type III slots are examples.AMENDMENTLOCALEHeightAllowedD ckxreal32DescriptionMaximum height of an adapter card that can be inserted into the slot, in inches.LengthAllowedH  real32DescriptionMaximum length of an adapter card that can be inserted into the slot, in inches.MaxDataWidthL+  "uint16DescriptionMaximum bus width of adapter cards that can be inserted into this slot, in bits.Values:=AEI8163264128Number` uint16DescriptionThe Number property indicates the physical slot number, which can be used as an index into a system slot table, whether or not that slot is physically occupied.PurposeDescription\ ystringDescriptionA free-form string describing that this slot is physically unique and may hold special types of hardware. This property only has meaning when the corresponding boolean property, SpecialPurpose, is set to TRUE.SpecialPurpose Z booleanDescriptionBoolean indicating that this slot is physically unique and may hold special types of hardware, e.g. a graphics processor slot. If set to TRUE, then the property, PurposeDescription property (a string), should specify the nature of the uniqueness or purpose of the slot.SupportsHotPlug B booleanDescriptionBoolean indicating whether the slot supports hot-plug of adapter cards.ThermalRatingV uint32DescriptionMaximum thermal dissipation of the slot in Milliwatts.VccMixedVoltageSupport N+ 7?L uint16DescriptionAn array of enumerated integers indicating the Vcc voltage supported by this slot.ValuesUnknownOther3.3V5VVppMixedVoltageSupport R+ ' / <  uint16DescriptionAn array of enumerated integers indicating the Vpp voltage supported by this slot.Values UnknownOther3.3V5V12V < was4  tCIM_Slot )  R`MXv ~ u Z _ " Win32_SystemSlotDescriptionThe Win32_SystemSlot class represents physical connection points including ports, motherboard slots and peripherals, and proprietary connections points.AMENDMENTLOCALEConnectorType`>+ ) uint16DescriptionThe ConnectorType property indicates the physical attributes of the connector used by this slot. Example: 2 25 (Male RS-232)ValuesS'3Tt&Kc} ,<AGMXcrw|)1=DPaz9DKUnknownOtherMaleFemaleShieldedUnshieldedSCSI (A) High-Density (50 pins)SCSI (A) Low-Density (50 pins)SCSI (P) High-Density (68 pins)SCSI SCA-I (80 pins)SCSI SCA-II (80 pins)SCSI Fibre Channel (DB-9, Copper)SCSI Fibre Channel (Fibre)SCSI Fibre Channel SCA-II (40 pins)SCSI Fibre Channel SCA-II (20 pins)SCSI Fibre Channel BNCATA 3-1/2 Inch (40 pins)ATA 2-1/2 Inch (44 pins)ATA-2ATA-3ATA/66DB-9DB-15DB-25DB-36RS-232CRS-422RS-423RS-485RS-449V.35X.21IEEE-488AUIUTP Category 3UTP Category 4UTP Category 5BNCRJ11RJ45Fiber MICApple AUIApple GeoPortPCIISAEISAVESAPCMCIAPCMCIA Type IPCMCIA Type IIPCMCIA Type IIIZV PortCardBusUSBIEEE 1394HIPPIHSSDC (6 pins)GBICDINMini-DINMicro-DINPS/2InfraredHP-HILAccess.busNuBusCentronicsMini-CentronicsMini-Centronics Type-14Mini-Centronics Type-20Mini-Centronics Type-26Bus MouseADBAGPVME BusVME64ProprietaryProprietary Processor Card SlotProprietary Memory Card SlotProprietary I/O Riser SlotPCI-66MHZAGP2XAGP4XCurrentUsagef+  uint16DescriptionThe CurrentUsage property indicates whether the system slot is currently in use.Values *1:EReservedOtherUnknownAvailableIn usePMESignal h booleanDescriptionThe PMESignal property indicates whether the PCI bus Power Management Enabled signal is supported by this slot. PMESignal will be FALSE for non-PCI slots. If TRUE, then the Power Management Enabled signal is supported.Shared j   booleanDescriptionThe Shared property indicates whether the two or more slots shared a location on the base board such as a PCI/EISA shared slot. Values: TRUE or FALSE. If TRUE, the slot is shared.SlotDesignationb   stringDescriptionThe SlotDesignation property contains an SMBIOS string that identifies the system slot designation of the slot on the motherboard. Example: PCI-1Tag@ ()    stringDescriptionThe Tag property uniquely identifies the system slot represented by an instance of this class. Example: System Slot 1 t i QCIM_PhysicalConnector)"    Y ^ U+Win32_PortConnectorDescriptionThe Win32_PortConnector class represents physical connection ports, such as DB-25 pin male, Centronics, and PS/2.AMENDMENTLOCALEConnectorType`>+  uint16DescriptionThe ConnectorType property indicates the physical attributes of the connector used by this port. Example: 2 25 (Male RS-232)ValuesY 'Hh?Wq 05;ALWfkpv| %18DUn-8?FMZbmxUnknownOtherMaleFemaleShieldedUnshieldedSCSI (A) High-Density (50 pins)SCSI (A) Low-Density (50 pins)SCSI (P) High-Density (68 pins)SCSI SCA-I (80 pins)SCSI SCA-II (80 pins)SCSI Fibre Channel (DB-9, Copper)SCSI Fibre Channel (Fibre)SCSI Fibre Channel SCA-II (40 pins)SCSI Fibre Channel SCA-II (20 pins)SCSI Fibre Channel BNCATA 3-1/2 Inch (40 pins)ATA 2-1/2 Inch (44 pins)ATA-2ATA-3ATA/66DB-9DB-15DB-25DB-36RS-232CRS-422RS-423RS-485RS-449V.35X.21IEEE-488AUIUTP Category 3UTP Category 4UTP Category 5BNCRJ11RJ45Fiber MICApple AUIApple GeoPortPCIISAEISAVESAPCMCIAPCMCIA Type IPCMCIA Type IIPCMCIA Type IIIZV PortCardBusUSBIEEE 1394HIPPIHSSDC (6 pins)GBICDINMini-DINMicro-DINPS/2InfraredHP-HILAccess.busNuBusCentronicsMini-CentronicsMini-Centronics Type-14Mini-Centronics Type-20Mini-Centronics Type-26Bus MouseADBAGPVME BusVME64ProprietaryProprietary Processor Card SlotProprietary Memory Card SlotProprietary I/O Riser SlotPCI-66MHZAGP2XAGP4XPC-98PC-98HiresoPC-H98PC-98NotePC-98FullMini-JackExternalReferenceDesignatorF stringDescriptionThe ExternalReferenceDesignator property indicates the external reference designator of the port. External reference designators are identifiers that determine the type and use of the port. Example: COM1InternalReferenceDesignatorB  stringDescriptionThe InternalReferenceDesignator property indicates the internal reference designator of the port. Internal reference designators are specific to the manufacturer and identify the circuit board location or use of the port. Example: J101PortTypeJ+ < D Q  uint16DescriptionThe PortType property describes the function of the port. Example: USBValues"- 3 S g z  ( 3 C R ^ h m  $ 2 C NoneParallel Port XT/AT CompatibleParallel Port PS/2Parallel Port ECPParallel Port EPPParallel Port ECP/EPPSerial Port XT/AT CompatibleSerial Port 16450 CompatibleSerial Port 16550 CompatibleSerial Port 16550A CompatibleSCSI PortMIDI PortJoy Stick PortKeyboard PortMouse PortSSA SCSIUSBFireWire (IEEE P1394)PCMCIA Type IIPCMCIA Type IIPCMCIA Type IIICardbusAccess Bus PortSCSI IISCSI WidePC-98PC-98-HiresoPC-H98Video PortAudio PortModem PortNetwork Port8251 Compatible8251 FIFO CompatibleTag@ ()    stringDescriptionThe Tag property contains a string that uniquely identifies a port connection on the computer system. Example: Port Connector 1 ciaT5SCIM_PhysicalElement)7 B JRCNgCIM_PhysicalLinkDescriptionThe CIM_PhysicalLink class represents the cabling of physical elements together. For example, serial or Ethernet cables, and infrared Links would be subclasses (if additional properties or associations are defined) or instances of CIM_PhysicalLink. In many cases, the numerous physical cables within a physical package or network will not be modeled. However, where these cables or links are critical components, or are tagged assets of the company, these objects can be instantiated using this class or one of its descendent classes.AMENDMENTLOCALELengthB ~real64DescriptionThe current length of the physical link in feet. For some connections, especially wireless technologies, this property may not be applicable and should be left uninitialized.MaxLength: zreal64DescriptionThe maximum length of the physical link in feet.MediaTypeL+   uint16DescriptionThe MediaType property defines the particular type of media through which transmission signals pass. Common network media include twisted-pair (value=11 or 12), coaxial (7, 8 or 9) and fiber-optic cable (10).Values09@FLRX^n~UnknownOtherCat1Cat2Cat3Cat4Cat550-ohm Coaxial75-ohm Coaxial100-ohm CoaxialFiber-opticUTPSTPRibbon CableWired J booleanDescriptionBoolean indicating whether the physical link is an actual cable (TRUE) or a wireless connection (FALSE).  VCIM_PhysicalElement)"  @H! ( U CIM_PhysicalPackageDescriptionThe CIM_PhysicalPackage class represents physical elements that contain or host other components. Examples are a rack enclosure or an adapter card.AMENDMENTLOCALEDepthD real32DescriptionThe depth of the physical package in inches.Height@ t|real32DescriptionThe height of the physical package in inches.HotSwappable > booleanDescriptionA physical package can be hot swapped if it is possible to replace the element with a physically different but equivalent one while the containing package has power applied to it (i.e., is 'on'). For example, a disk drive package inserted using SCA connectors is removable and can be hot swapped. All packages that can be hot swapped are inherently removable and replaceable.Removable : booleanDescriptionA physical package is removable if it is designed to be taken in and out of the physical container in which it is normally found, without impairing the function of the overall packaging. A package can still be removable if power must be 'off' in order to perform the removal. If power can be 'on' and the package removed, then the element is removable and can be hot swapped. For example, an extra battery in a laptop is removable, as is a disk drive package inserted using SCA connectors. However, the latter can be hot swapped. A laptop's display is not removable, nor is a non-redundant power supply. Removing these components would impact the function of the overall packaging or is impossible due to the tight integration of the package.Replaceable < booleanDescriptionA physical package is replaceable if it is possible to replace (FRU or upgrade) the element with a physically different one. For example, some computer systems allow the main processor chip to be upgraded to one of a higher clock rating. In this case, the processor is said to be replaceable . Another example is a power supply package mounted on sliding rails. All removable packages are inherently replaceable .WeightL real32DescriptionThe weight of the physical package in pounds.WidthH T \ i real32DescriptionThe width of the physical package in inches.yspacEOIsCompatible,DescriptionThe IsCompatible method verifies whether the referenced physical element may be contained by or inserted into the physical package. The return value should be 0 if the request was successfully executed, 1 if the request is not supported and some other value if an error occurred.BLD117ROOT\CIMV2\ms_409  *__PARAMETERSabstractfElementToCheckreff :INf :^ IDf) ^ ref:CIM_PhysicalElement __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __d eCIM_PhysicalPackage)   F_q;G@U_CIM_CardDescriptionThe CIM_Card class represents a type of physical container that can be plugged into another card or hosting board, or is itself a hosting board/motherboard in a chassis. The CIM_Card class includes any package capable of carrying signals and providing a mounting point for physical components, such as chips, or other physical packages, such as other cards.AMENDMENTLOCALEHostingBoard P booleanDescriptionBoolean indicating that this card is a motherboard or, more generically, a baseboard in a chassis.RequirementsDescriptionZ stringDescriptionA free-form string describing the way(s) in which this card is physically unique from other cards. This property only has meaning when the corresponding boolean property, SpecialRequirements, is set to TRUE.RequiresDaughterBoard V booleanDescriptionBoolean indicating that at least one daughterboard or auxiliary card is required in order to function properly.SlotLayoutR s{stringDescriptionSlotLayout is a free-form string that describes the slot positioning, typical usage, restrictions, individual slot spacing or any other pertinent information for the slots on a card.SpecialRequirements X booleanDescriptionBoolean indicating that this card is physically unique from other cards of the same type and therefore requires a special slot. For example, a double-wide card requires two slots. Another example is where a certain card may be used for the same general function as other cards but requires a special slot (e.g., extra long), whereas the other cards can be placed in any available slot. If set to TRUE, then the corresponding property, RequirementsDescription, should specify the nature of the uniqueness or purpose of the card. t pCIM_PhysicalPackage)   #]j & _U CIM_PhysicalFrameDescriptionCIM_PhysicalFrame is a superclass of rack, chassis and other frame enclosures, as they are defined in extension classes. Properties like visible or audible alarm, and data related to security breaches are in this superclass.AMENDMENTLOCALEAudibleAlarm ^ OXebooleanDescriptionBoolean indicating whether the frame is equipped with an audible alarm.BreachDescriptiond stringDescriptionBreachDescription is a free-form string providing more information if the SecurityBreach property indicates that a breach or some other security-related event occurred.CableManagementStrategyP stringDescriptionCableManagementStrategy is a free-form string that contains information on how the various cables are connected and bundled for the frame. With many networking, storage-related and power cables, cable management can be a complex and challenging endeavor. This string property contains information to aid in assembly and service of the frame.LockPresent \ booleanDescriptionBoolean indicating whether the frame is protected with a lock.SecurityBreachb+ 5=JG Ouint16DescriptionSecurityBreach is an enumerated, integer-valued property indicating whether a physical breach of the frame was attempted but unsuccessful (value=4) or attempted and successful (5). Also, the values, "Unknown", "Other" or "No Breach", can be specified.ValuesgnwOtherUnknownNo BreachBreach AttemptedBreach SuccessfulServiceDescriptions X stringDescriptionAn array of free-form strings providing more detailed explanations for any of the entries in the ServicePhilosophy array. Note, each entry of this array is related to the entry in ServicePhilosophy that is located at the same index.ServicePhilosophy T+ 3;Hh  p uint16DescriptionServicePhilosophy is an enumerated, integer-valued array that indicates whether the frame is serviced from the top (value=2), front (3), back (4) or side (5), whether it has sliding trays (6) or removable sides (7), and/or whether the frame is moveable (8), for example, having rollers.Values  UnknownOtherService From TopService From FrontService From BackService From SideSliding TraysRemovable SidesMoveableVisibleAlarm ` R [ h booleanDescriptionBoolean indicating that the equipment includes a visible alarm. SCIM_PhysicalFrame)   Xseu_CIM_ChassisDescriptionThe CIM_Chassis class represents the physical elements that enclose other elements and provide definable functionality, such as a desktop, processing node, UPS, disk or tape storage, or a combination of these.AMENDMENTLOCALEChassisTypes !n+ GO\ uint16DescriptionAn enumerated, integer-valued array indicating the type of chassis.Values &;FRYcku#4HOtherUnknownDesktopLow Profile DesktopPizza BoxMini TowerTowerPortableLaptopNotebookHand HeldDocking StationAll in OneSub NotebookSpace-SavingLunch BoxMain System ChassisExpansion ChassisSubChassisBus Expansion ChassisPeripheral ChassisStorage ChassisRack Mount ChassisSealed-Case PCCurrentRequiredOrProducedj sint16DescriptionCurrent required by the chassis at 120V. If power is provided by the chassis (as in the case of a UPS), this property may indicate the amperage produced, as a negative number.HeatGeneration l uint16DescriptionAmount of heat generated by the chassis in BTU/hour.NumberOfPowerCordsh ,4Auint16DescriptionInteger indicating the number of power cords which must be connected to the chassis, for all the components to operate.TypeDescriptions "r  stringDescriptionAn array of free-form strings providing more information on the ChassisTypes array entries. Note, each entry of this array is related to the entry in ChassisTypes that is located at the same index. aT5CIM_Chassis )$  DWin32_SystemEnclosureDescriptionThe Win32_SystemEnclosure class represents the properties associated with a physical system enclosure.AMENDMENTLOCALESecurityStatus$z+ s {uint16DescriptionThe SecurityStatus property indicates the security setting for external input (such as a keyboard) to this computer.ValuesOtherUnknownNoneExternal interface locked outExternal interface enabledSMBIOSAssetTag#v  (5stringDescriptionThe SMBIOSAssetTag property indicates the asset tag number of the system enclosure.Tag@ ()  stringDescriptionThe Tag property is a string that uniquely identifies the system enclosure. Example: System Enclosure 1 ntvCIM_PhysicalFrame)     _CIM_RackDescriptionA rack is a physical frame that represents an enclosure in which chassis are placed. Typically a rack is nothing more than the enclosure, and all the functioning components are packaged in the chassis, loaded in the rack.AMENDMENTLOCALECountryDesignationj IQ^stringDescriptionDesignation of the country/region for which the rack is designed. Country/region code strings are as defined by ISO/IEC 3166. The rack type is specified in the TypeOfRack property.Height@@ HP]real32DescriptionThe height of the physical package in 'U's. A 'U' is a standard unit of measure for the height of a rack or rack-mountable component. It is equal to 1.75 inches or 4.445 cm.TypeOfRackh+ QYfN Vuint16DescriptionEnumeration indicating the type of rack.Information such as "Telco" rack (value=2) or standard 19 inch rack (1) can be specified. The country/region for which the rack is manufactured is defined in the CountryDesignation property.ValuesnwUnknownStandard 19 InchTelcoEquipment ShelfNon-Standard t$  cCIM_PhysicalPackage)(  &0"/!0!&_Win32_PhysicalMemoryArrayDescriptionThe Win32_PhysicalMemoryArray class represents details about the computer system's physical memory. This includes the number of memory devices, memory capacity available, and memory type (for example, system memory or video memory).AMENDMENTLOCALELocationP+ iq~ uint16DescriptionThe Location property indicates the physical location of the memory array.Values#,IZl}ReservedOtherUnknownSystem board or motherboardISA add-on cardEISA add-on cardPCI add-on cardMCA add-on cardPCMCIA add-on cardProprietary add-on cardNuBusPC-98/C20 add-on cardPC-98/C24 add-on cardPC-98/E add-on cardPC-98/Local bus add-on cardMaxCapacityV [cpuint32DescriptionThe MaxCapacity property indicates the maximum memory size (in bytes) installable for this particular memory array. If the size is unknown, the property is given a value of 0.MemoryDevicesZ \dquint16DescriptionThe MemoryDevices property indicates the number of physical slots or sockets available in this memory array.MemoryErrorCorrectionT+ /7D uint16DescriptionThe MemoryErrorCorrection property indicates the type of error correction used by the memory array.Values ReservedOtherUnknownNoneParitySingle-bit ECCMulti-bit ECCCRCTag@ () ]er stringDescriptionThe Tag property contains a string that uniquely identifies the physical memory array. Example: Physical Memory Array 1UseR+ )1> uint16DescriptionThe Use property indicates how the memory is used in the computer system.Values ReservedOtherUnknownSystem memoryVideo memoryFlash memoryNon-volatile RAMCache memory e  )#* 5 =F{CIM_PhysicalCapacityDescriptionCIM_PhysicalCapacity is an abstract class describing a physical element's minimum/maximum requirements and ability to support different types of hardware. For example, minimum and maximum memory requirements can be modeled as a subclass of CIM_PhysicalCapacity.AMENDMENTLOCALECaption rzstringDescriptionCaption is a short textual description (one-line string) of the CIM_PhysicalCapacity object.Description &3stringDescriptionThe Description property provides a textual description of the CIM_PhysicalCapacity object.Name stringDescriptionThe Name property defines the label by which the CIM_PhysicalCapacity object is known. When subclassed, the Name property can be overridden to be a Key property. at  CIM_PhysicalCapacity)!> I Qh }TCIM_MemoryCapacityDescriptionCIM_MemoryCapacity describes the type of memory that can be installed on a physical element and its minimum/maximum configurations. Information on what memory is currently 'installed', versus an element's min/max requirements, is located in instances of the CIM_PhysicalMemory class.AMENDMENTLOCALEMaximumMemoryCapacity uint64DescriptionMaximum amount of memory, in Kbytes, that can be supported by the associated physical element. MemoryType 6 Z bo uint16DescriptionThe type of memory. This is a part of the object key. Values correspond to the list of possible memory types in the CIM_PhysicalMemory class.ValuesV_fl~UnknownOtherDRAMSynchronous DRAMCache DRAMEDOEDRAMVRAMSRAMRAMROMFlashEEPROMFEPROMEPROMCDRAM3DRAMSDRAMSGRAMMinimumMemoryCapacity )1>uint64DescriptionMinimum amount of memory, in Kbytes, that is needed for the associated physical element to operate correctly. Name@)  stringDescriptionThe inherited Name property serves as a part of the CIM_MemoryCapacity object key. je@") * 5 =F<OjuUCIM_ProductDescriptionCIM_Product is a concrete class that is a collection of physical elements, software features and/or other products, acquired as a unit. Acquisition implies an agreement between supplier and consumer which may have implications to product licensing, support and warranty.AMENDMENTLOCALECaption rzstringDescriptionA short textual description (one-line string) for the Product.Description stringDescriptionA textual description of the product.IdentifyingNumber)  stringDescriptionProduct identification such as a serial number on software or a die number on a hardware chip.Name ) 8 @MstringDescriptionCommonly used product name.SKUNumber stringDescriptionProduct SKU (stock keeping unit) information.Vendor !.stringDescriptionThe name of the product's supplier. Corresponds to the vendor property in the product object in the DMTF Solution Exchange Standard.Version)   stringDescriptionProduct version information. Corresponds to the Version property in the product object in the DMTF Solution Exchange Standard. .,CIM_Product )  Win32_ProductDescriptionInstances of this class represent products as they are installed by MSI. A product generally correlates to a single installation package.AMENDMENTLOCALE-a e i 8AM P[!T #q%|% &)++t+x+,Install'DescriptionThis method Will install an associated Win32_Product using the installation package provided through PackageLocation and any command line options that are supplied.gBLD117ROOT\CIMV2\ms_409   gi* /__PARAMETERSabstractPackageLocationstring ;in ;b The path to the package that is to be installedDescription) ;b ID6 Mb stringOptionsstring pin p The command line options for the install. These should be in the form of property=settingDescription) p !ID6  !estring AllUsersboolean  in   Indicates whether the operation should be applied to the current user (FALSE) or all users on the machine (TRUE).Description )  'ID 6 & 'boolean __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __AdminDescriptionThis method will preform an administrative install of an associated Win32_Product using the installation package provided through PackageLocation and any command line options that are supplied.6BLD117ROOT\CIMV2\ms_409   *eQ__PARAMETERSabstractPackageLocationstring ;in ;b The path to the package that is to be adminedDescription) ;b ID6 Kb stringTargetLocationstring uin u The location for the administrative image to be installed at.Description) u ID6  MstringOptionsstring in  The command line options for the upgrade. These should be in the form of property=settingDescription)  i ID6  i string __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __AdvertiselyDescriptionThis method will advertise an associated Win32_Product using the installation package provided through PackageLocation and any command line options that are supplied.sBLD117ROOT\CIMV2\ms_409 "  ho* 5__PARAMETERSabstractPackageLocationstring ;in ;b The path to the package that is to be advertisedDescription) ;b ID6 Nb stringOptionsstring qin q The command line options for the advetisement. These should be in the form of property=settingDescription) q 'ID6  'kstring AllUsersboolean  in   Indicates whether the operation should be applied to the current user (FALSE) or all users on the machine (TRUE).Description )  -ID 6 , -boolean __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Reinstall/<DescriptionThis method will reinstall the associated instance of Win32_Product using the specified reinstallation mode.bBLD117ROOT\CIMV2\ms_409  *D__PARAMETERSabstractReinstallModeuint16 9in 9` Specifies the reinstall modeDescription) 9`  );MXdq{FileMissingFileOlderVersionFileEqualVersionFileExactFileVerifyFileReplaceUserDataMachineDataShortcutPackagevalues6 9`  IDC <`  uint16 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __UpgradeDescriptionThis method will upgrade the associated Win32_Product using the upgrade package provided through PackageLocation and any command line options that are supplied.BLD117ROOT\CIMV2\ms_409 M  ik* __PARAMETERSabstractPackageLocationstring ;in ;b The path to the package that contains the upgradeDescription) ;b ID6 Ob stringOptionsstring rin r The command line options for the upgrade. These should be in the form of property=settingDescription) r #ID6  #gstring __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Configure%%DescriptionThis method will configure the associated instance of Win32_Product to the specified install state and level.~BLD117ROOT\CIMV2\ms_409 - V'*s__PARAMETERSabstractInstallStateuint16 8in 8_ DefaultLocalSourcevalues) 8_  ID6 <_  uint16InstallLeveluint16 din d DefaultMinimumMaximumvalues) d  ID6 k  #uint16 __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __Uninstall"+/+DescriptionThis method will uninstall the associated instance of Win32_ProductwBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __b, )+ " *<+=CIM_ProductProductDependencyDescriptionCIM_ProductProductDependency is an association between two products, indicating that one must be installed, or must be absent, for the other to function. This is conceptually equivalent to the CIM_ServiceServiceDependency association.AMENDMENTLOCALEDependentProductf hyref:CIM_ProductDescriptionThe product that is dependent on another product.RequiredProductf ref:CIM_ProductDescriptionThe required product.TypeOfDependency+ v~D LUINT16DescriptionThe nature of the product dependency. This property describes that the associated product must be installed (value=2) or must be absent (value=3) in order for the product to function.Values`ipUnknownOtherProduct Must Be InstalledProduct Must Not Be Installed Q )!] h p}uACIM_ReplacementSetDescriptionThe CIM_ReplacementSet class aggregates physical elements that must be 'replaced' or 'FRUed' together. For example, when replacing a memory card, the component memory chips could be removed and replaced as well. Or, a set of memory chips may be specified to be replaced or upgraded together using this association.AMENDMENTLOCALEDescription stringDescriptionA free-form string specifying information related to the CIM_ReplacementSet. The purpose of the set or information related to how the component elements are replaced may be included in this property.Name)  stringDescriptionName is a free-form string defining a label for the CIM_ReplacementSet. It is the key for the object. D'%CIM_Setting )$ ' /En~*7&HS }UwCIM_MonitorResolutionDescriptionCIM_MonitorResolution describes the relationship between horizontal and vertical resolutions, refresh rate and scan mode for a desktop monitor. The actual resolutions, etc. that are in use, are the values specified in the video controller object.AMENDMENTLOCALEHorizontalResolution  qyuint32DescriptionMonitor's horizontal resolution in Pixels.MaxRefreshRate uint32DescriptionMonitor's maximum refresh rate in Hertz, when a range of rates is supported at the specified resolutions.MinRefreshRate uint32DescriptionMonitor's minimum refresh rate in Hertz, when a range of rates is supported at the specified resolutions.RefreshRate ckxuint32DescriptionMonitor's refresh rate in Hertz. If a range of rates is supported, use the MinRefreshRate and MaxRefreshRate properties, and set RefreshRate (this property) to 0.ScanMode + _gt uint16DescriptionInteger indicating whether the monitor operates in interlaced (value=5) or non-interlaced (4) mode.Values 2OtherUnknownNot SupportedNon-Interlaced OperationInterlaced OperationSettingID@)  stringDescriptionThe inherited SettingID serves as part of the key for a CIM_MonitorResolution instance.VerticalResolution 8@Muint32DescriptionMonitor's vertical resolution in Pixels. n P2-CIM_Setting ),  4D!. 8C}UrCIM_VideoControllerResolutionDescriptionCIM_VideoControllerResolution describes the various video modes that a video controller can support. Video modes are defined by the possible horizontal and vertical resolutions, refresh rate, scan mode and number of colors settings supported by a controller. The actual resolutions, etc. that are in use, are the values specified in the CIM_VideoController object.AMENDMENTLOCALEHorizontalResolution  uint32DescriptionController's horizontal resolution in Pixels.MaxRefreshRate pxuint32DescriptionMaximum refresh rate in Hertz, when a range of rates is supported at the specified resolutions.MinRefreshRate "*7uint32DescriptionMinimum refresh rate in Hertz, when a range of rates is supported at the specified resolutions.NumberOfColors " uint64DescriptionNumber of colors supported at the current resolutions.RefreshRate Zbouint32DescriptionRefresh rate in Hertz. If a range of rates is supported, use the MinRefreshRate and MaxRefreshRate properties, and set RefreshRate (this property) to 0.ScanMode + LTa uint16DescriptionInteger indicating whether the controller operates in interlaced (value=5) or non-interlaced (4) mode.Values"OtherUnknownNot SupportedNon-Interlaced OperationInterlaced OperationSettingID@) z stringDescriptionThe inherited SettingID serves as part of the key for a CIM_VideoControllerResolution instance.VerticalResolution 08Euint32DescriptionController's vertical resolution in Pixels. n tt'CIM_Setting )&~  [n;FrU)Win32_BootConfigurationDescriptionThe Win32_BootConfiguration class represents the boot configuration of a Win32 system.AMENDMENTLOCALEBootDirectory  stringDescriptionThe BootDirectory property indicates the path to the system files required for booting the system. Example: C:\Windows.ConfigurationPath stringDescriptionThe ConfigurationPath property indicates the path to the configuration files. This value may be similar to the value in the BootDirectory.LastDrive rzstringDescriptionThe LastDrive property indicates the last drive letter to which a physical drive is assigned. Example: E:Name) / 7DstringDescriptionThe Name property indicates the name of the boot configuration. It is an identifier for the boot configuration.ScratchDirectory stringDescriptionThe ScratchDirectory property indicates the directory where temporary files can reside during boot time.TempDirectory  stringDescriptionThe TempDirectory property indicates the directory where temporary files are stored. Example: C:\TEMP EiWin32_COMSetting)+  Ma?Q-:~Q`z9E 7 F ,:YsUUUUU2Win32_ClassicCOMClassSettingDescriptionThe Win32_ClassicCOMClassSetting class represents the settings of a COM component.AMENDMENTLOCALEAppID stringDescriptionThe AppID property contains a Globally Unique Identifier (GUID) for the COM application using this COM component.AutoConvertToClsidF stringDescriptionThe AutoConvertToClsid property contains the Globally Unique Identifier (GUID)of the COM class to which this COM component will automatically be converted.AutoTreatAsClsidJ }stringDescriptionThe AutoTreatAsClsid property contains a Globally Unique Identifier (GUID) for the COM component that will automatically emulate instances of this class.ComponentId ) q ystringDescriptionThe ComponentId property contains the Globally Unique Identifier (GUID) of this COM component.Control " $1booleanDescriptionThe Control property indicates whether this COM componentis an OLE control.DefaultIconN stringDescriptionThe DefaultIcon property contains the path to theexecutable file and the resource identifier of the default icon used by the class.InprocHandler> stringDescriptionThe InprocHandler property contains the full path to a 16-bit custom handler for the COM component.InprocHandler32B CKXstringDescriptionThe InprocHandler32 property contains the full path to a 32-bit custom handler for the COM component.InprocServer . stringDescriptionThe InprocServer property contains the full path to a 16-bit in-process server DLL for this COM component.InprocServer322 stringDescriptionThe InprocServer32 property contains the full path to a 32-bit in-process server DLL for this COM component.Insertable   qzbooleanDescriptionThe Insertable property indicates whether the COM component can be inserted into OLE container applications.JavaClass ( , 5 B booleanDescriptionThe JavaClass property indicates whether the COM componentis a Java component.LocalServer6   stringDescriptionThe LocalServer property contains the full path to a 16-bit local server application.LocalServer32: r z  stringDescriptionThe LocalServer32 property contains the full path to a 32-bit local server application.LongDisplayNameZ  % 2 stringDescriptionThe LongDisplayName property specifies the COM application's full name. It is used in areas such as the Results field of the OLE Paste Special dialog box.ProgId   stringDescriptionThe ProgId property contains a programmatic identifier associated with the COM component. The format of a ProgID is ... This identifier is not guaranteed to be unique.ShortDisplayNameV  " / stringDescriptionThe ShortDisplayName property specifies the COM application's short name (used in menus and pop-ups).ThreadingModel+    stringDescriptionThe ThreadingModel property specifies the threading model used by in-process COM classes, including: Apartment - components may be entered by one and only one thread. Common data held by these kinds of object servers must be protected against thread collisions since the object server supports multiple components. Each component can be entered simultaneously by different threads. Free - components place no restrictions on which threads or how many threads can enter the object. The object cannot contain thread-specific data and must protect its data from simultaneous access by multiple threads. Free-threaded components however, cannot be accessed by apartment threads directly, and calls to them are marshaled across from the client apartment. Both - components that can be used in either apartment-threaded or free-threaded modes. These components can be entered by multiple threads, protect their data from thread collisions, and do not contain thread-specific data. If this property is NULL, then no threading model is used. The component is created on the main thread of the client and calls from other threads are marshaled to this thread. Please refer to the Platform Software Development Kit for information on the various threading models.ValuesApartmentFreeBothToolBoxBitmap32^ GO\stringDescriptionThe ToolBoxBitmap32 property indicates the module name and resource ID for a small (16 x 16) bitmap used for the face of a toolbar or toolbox button. Used when the COM component is an OLE or ActiveX controlTreatAsClsid * fn{stringDescriptionThe TreatAsClsid property contains a Globally Unique Identifier (GUID), of a COM component that can emulate instances of this component.TypeLibraryId $ @HUstringDescriptionThe TypeLibraryId property contains a Globally Unique Identifier (GUID)for the Type-Library for this COM component.Version stringDescriptionThe Version property contains the version number of this COM class.VersionIndependentProgIdR stringDescriptionThe VersionIndependentProgId property contains a program identifier that is consistent for all versions of the same program. aa /Win32_COMSetting)+7 B  JQa l 3  + UU Win32_DCOMApplicationSettingDescriptionThe Win32_DCOMApplicationSetting class represents the settings of a DCOM application. It contains DCOM configuration options associated with the AppID key in the registry. These options are valid on the components logically grouped under the given application class.AMENDMENTLOCALEAppID )  stringDescriptionThe AppID property is a Globally Unique Identifier (GUID) for this DCOM application.AuthenticationLevel+ AIV+ 3uint32DescriptionThe AuthenticationLevel property specifies the minimum client authentication level required by this COM server. If NULL, the default values are used. Authentication levels include: None - no authentication is performed. Connect - authentication is performed only when the client establishes a relationship with the application. Call - authentication is performed only at the beginning of each call when the application receives the request. Packet - authentication is performed on all data received from the client. PacketIntegrity - all the data transferred between client and application is authenticated and verified. PacketPrivacy - The properties of the other authentication levels are used, and all data is encrypted.ValuesOU^dl}NoneConnectCallPacketPacketIntegrityPacketPrivacyCustomSurrogate  stringDescriptionThe CustomSurrogate property contains the name of the custom surrogate in which the in-process DCOM application is activated. If this value is NULL and the UseSurrogate key is TRUE, then the system provides a surrogate process.EnableAtStorageActivation    booleanDescriptionThe EnableAtStorageActivation property indicates whether the instance of the DCOM application retrieves the saved state of the application or begins from the state in which the application is first initialized.LocalService $ .6CstringDescriptionThe LocalService property contains the name for the services provided by the DCOM application.RemoteServerName stringDescriptionThe RemoteServerName property indicates the name of the remote server where the application is activated.RunAsUser   stringDescriptionThe RunAsUser property indicates whether the application is to be run under a specific user accounton activation.ServiceParameters ( _ g t stringDescriptionThe ServiceParameters property contains the command line parameters passed to the DCOM application. This is valid only if the application is written as a Win32 serviceUseSurrogate  W ` m booleanDescriptionThe UseSurrogate property specifies whether the DCOM application can be activated as an out-of-processserver by use of a surrogate executable. bX9LCIM_Setting )  QbZm$3q z  - ! `t,UUUU Win32_DesktopDescriptionThe Win32_Desktop class represents the common characteristics of a user's desktop. The properties of this class can be modified by the user to customize the desktop.AMENDMENTLOCALEBorderWidth  $uint32DescriptionThe BorderWidth property sets the width of the borders around all windows with adjustable borders. Example: 3.CoolSwitch  booleanDescriptionThe CoolSwitch property indicates whether fasttask switching is turned on. Fast task switching allows the user to switch between windows using the ALT+TAB keyboard combination.CursorBlinkRate uint32DescriptionThe CursorBlinkRate property indicates the length of time between successive cursor blinks. Example: 530.DragFullWindows  booleanDescriptionThe DragFullWindows property indicates whether the contents of a window are shown when a user moves the window. Values: TRUE or FALSE. A value of TRUE indicates the content of the window is displayed while the user moves the window.GridGranularity uint32DescriptionThe GridGranularity property indicates the spacing of the grid that windows are bound to on the desktop. This makes organizing windows easier. The spacing is usually fine enough that the user does not notice it. Example: 1.IconSpacing uint32DescriptionThe IconSpacing property specifies the spacing between icons. Example: 75IconTitleFaceName  stringDescriptionThe IconTitleFaceName property indicates the nameof the font used for the names of the icons. Example: MS San Serif.IconTitleSize $ _gtuint32DescriptionThe IconTitleSize property indicates the icon font size. Example: 9.IconTitleWrap (  booleanDescriptionThe IconTitleWrap property indicates whether the icon's title text wraps to the next line. Values: TRUE or FALSE. A value of TRUE indicates the title wraps to the next line.Name *)   stringDescriptionThe Name property indicates the name that identifies the current desktop profile. Example: MainProfPattern .   stringDescriptionThe Pattern property indicates the name of the pattern used as the background for the desktopScreenSaverActive 2 Y b o booleanDescriptionThe ScreenSaverActive property indicates whether the screen saver is active. Values: TRUE or FALSE. A value of TRUE indicates the screen saver is active.ScreenSaverExecutable4 M U b stringDescriptionThe ScreenSaverExecutable property indicates the name of the current screen saver executable file. Example: LOGON.SCR.ScreenSaverSecure 8  " / booleanDescriptionThe ScreenSaverSecure property determines whether the password is enabled for the screen saver. Values: TRUE or FALSE. If TRUE, the screen saver password is enabled.ScreenSaverTimeout:   , uint32DescriptionThe ScreenSaverTimeout property indicates the amount of time that passes before the screen saver starts.Wallpaper>   stringDescriptionThe Wallpaper property indicates the file name for the wallpaper design on the background of the desktop. Example: WINNT.BMPWallpaperStretched D booleanDescriptionThe WallpaperStretched property indicates whether the wallpaper is stretched to fill the entire screen. Microsoft Plus! must be installed before this option is available. Values: TRUE and FALSE. A value of TRUE indicates the wallpaper is stretched to fit the entire screen. If FALSE, the wallpaper retains its original dimensions on the desktop background.WallpaperTiled B XanbooleanDescriptionThe WallpaperTiled property indicates whether the wallpaper is tiled or centered. Values: TRUE or FALSE. A value of TRUE indicates the wallpaper is tiled. llrachI@CIM_Setting ))* 5  =I  ^ i [ g UUVWin32_DisplayConfigurationDescriptionThe Win32_DisplayConfiguration class represents configuration information for the display device on a Win32 system. This class is being deprecated in favor of the properties in Win32_VideoController, Win32_DesktopMonitor, and CIM_VideoControllerResolutionAMENDMENTLOCALEBitsPerPel  u}uint32DescriptionThe BitsPerPel property indicates the number of bits used to represent the color in this configuration (the bits per pixel). Example: 8.DeviceName) W _lstringDescriptionThe DeviceName property indicates the name of the display device.DisplayFlags uint32DescriptionThe DisplayFlags property indicates whether the display device is color (versus monochrome), and non-interlaced (versus interlaced). By masking its value with the DM_GRAYSCALE and DM_INTERLACED masks respectively, DisplayFlags indicates whether the display device is color (versus monochrome), and non-interlaced (versus interlaced). The DisplayFlags property contains two bits of information about the display.DisplayFrequency uint32DescriptionThe DisplayFrequency property indicates the display's vertical refresh rate. The refresh rate for a monitor is the number of times the screen is redrawn per second (frequency).DitherType+  uint32DescriptionThe DitherType property indicates the dither type of the display. This property can assume predefined values of 1 to 5, or driver-defined values from 6 to 256. Line art dithering is a special dithering method that produces well-defined borders between black, white, and gray scalings. It is not suitable for images that include continuous graduations in intensity and hue (such as scanned photographs).ValuesNo DitheringCoarse BrushFine BrushLine ArtGreyscaleDriverVersion  &.;stringDescriptionThe DriverVersion property indicates the release version of the display driver.ICMIntent $+ d  l uint32DescriptionThe ICMIntent (Image Color Matching Intent) property indicates the value of one of the three possible color matching methods (intents) that should be used by default. This property is used primarily for non-ICM applications. ICM applications establish intents by using the ICM functions. This property can assume predefined values of 1 to 3, or driver-defined values from 4 to 256.Values| SaturationContrastExact ColorICMMethod (+     uint32DescriptionThe ICMMethod (Image Color Matching Method) property indicates how ICM is handled. For a non-ICM application, this property indicates if ICM is enabled or disabled. For ICM applications, the system examines this member to determine which part of the computer system handles ICM support.Values4 > G V DisabledWindowsDevice DriverDeviceLogPixels ,   uint32DescriptionThe LogPixels property contains the number of pixels per logical inch. This property is valid only with devices that work with pixels (this excludes devices such as printers).PelsHeight 0   uint32DescriptionThe PelsHeight property indicates the height of the displayable surface.PelsWidth 4 )1>uint32DescriptionThe PelsWidth property indicates the width of the displayable surface.SpecificationVersion8 uint32DescriptionThe SpecificationVersion property indicates the version number of the initialization data for the Win32 display device. 2 oe<CIM_Setting )&30 ;  CQ*7pv  - K UU~Win32_DisplayControllerConfigurationDescriptionThe Win32_DisplayControllerConfiguration class represents the video adapter configuration information of a Win32 system. This class has been deprecated in favor of Win32_VideoController, Win32_DesktopMonitor, and CIM_VideoControllerResolution classesAMENDMENTLOCALEBitsPerPixel  }uint32DescriptionThe BitsPerPixel property indicates either the number of bits used to represent the color in this configuration, or the bits in each pixel. Example: 8ColorPlanes ckxuint32DescriptionThe ColorPlanes property indicates the current number ofcolor planes used in the display configuration. A color plane is another way to represent pixel colors. Instead of assigning a single RGB value to each pixel, color planes separate the graphic into each of the primary color components (red, green, blue), and store them in their own planes. This allows for greater color depths on 8- and 16-bit video systems. Present graphics systems have the bitwidth large enough to store color depth information; meaningonly one color plane is needed. Example: 1DeviceEntriesInAColorTable uint32DescriptionThe DeviceEntriesInAColorTable property indicates the number of color indexes in a color table of a display device. If the device has a color depth of no more than 8 bits per pixel. For devices with greater color depths, -1 is returned. Example: 256DeviceSpecificPens =ERuint32DescriptionThe DeviceSpecificPens property indicates the current number of device-specific pens. A value of 0xFFFFFFFF means the device does not support pens. Pens are logical properties that can be assigned by the display controller to display devices, and are used to draw lines, borders of polygons, and text. Example: 3HorizontalResolution uint32DescriptionThe HorizontalResolution property indicates the current number of pixels in the horizontal direction (X axis) of the display. Example: 1024Name )  stringDescriptionThe Name property contains the name of the adapter used in this configuration.RefreshRate $ K S ` sint32DescriptionThe RefreshRate property indicates the refresh rate of the video adapter. A value of 0 or 1 indicates a default rate is being used. A value of -1 indicates that an optimal rate is being used. Example: 72ReservedSystemPaletteEntries ( w   uint32DescriptionThe ReservedSystemPaletteEntries property indicates the current number of color index entries reserved for system use. This value is only valid for display settings that use an indexed palette. Indexed palettes are not used for color depths greater than 8 bits per pixel. If the color depth is more than 8 bits per pixel, this value is set to NULL. Example: 20SystemPaletteEntries , 8 @ M uint32DescriptionThe SystemPaletteEntries property indicates the current number of color index entries reserved for system use. This value is only valid for display settings that use an indexed palette . Indexed palettes are not used for color depths greater than 8 bits per pixel. If the color depth is more than 8 bits per pixel, this value is set to NULL. Example: 20VerticalResolution 0  uint32DescriptionThe VerticalResolution property indicates the current number of pixels in the vertical direction (Y axis) of the display. Example: 768VideoMode 4 stringDescriptionThe VideoMode property contains a user readable description of the current screen resolution and color setting of the display. Example: 1024 X 768 with 256 colors. w-pR"CIM_Setting )"/  MS/NcUWin32_LogicalMemoryConfigurationDescriptionThe Win32_LogicalMemoryConfiguration class represents the layout and availability of memory on a Win32 system. This class is being deprecated in favor of the Win32_OperatingSystem class.AMENDMENTLOCALEAvailableVirtualMemory CKXuint32DescriptionThe AvailableVirtualMemory property indicates the available (unreserved or uncommitted) amount of memory that a calling process can use. This property has been deprecated in favor of the FreeVirtualMemory property in CIM_OperatingSystem class.Name )  stringDescriptionThe Name property indicates that this class represents a logical memory configuration. Example: LogicalMemoryConfigurationTotalPageFileSpace [cpuint32DescriptionThe TotalPageFileSpace property indicates the total amount of memory that can be stored in the paging file. This property has been deprecated in favor of the SizeStoredInPagingFiles property in CIM_OperatingSystem class.TotalPhysicalMemory uint32DescriptionThe TotalPhysicalMemory property indicates the total amount of physical memory as available to the operating system. This property has been deprecated in favor of the TotalVisibleMemorySize property in CIM_OperatingSystem class.TotalVirtualMemory uint32DescriptionThe TotalVirtualMemory property indicates the total amount of memory available to a calling process. This property has been deprecated in favor of the TotalVirtualMemorySize property in CIM_OperatingSystem class. tiu.bCIM_Setting )#0  9 { z I V [w6!I!""$$%%y&&((((/+F+P,h,1.F.0002$222445566 8.8"949;;<=>>@@AACC GGJJMMNNOOZQuQRRSSUUuXXYYq[[\)\^^UUUUUUUUUUUUUU?_Win32_NetworkAdapterConfigurationDescriptionThe Win32_NetworkAdapterConfiguration class represents the attributes and behaviors of a network adapter. This class has been extended to include extra properties and methods that support the management of the TCP/IP and Internetworking Packet Exchange (IPX) protocols (and are independent of the network adapter). This class will be deprecated and is not guaranteed to be supported after the ratification of the Distributed Management Task Force (DMTF) CIM network specification. The schema for classes such as Win32 network adapters, protocols, or bindings, will be updated to conform to the DMTF CIM network specification.AMENDMENTLOCALEArpAlwaysSourceRoute L booleanDescriptionThe ArpAlwaysSourceRoute property indicates whether the Address Resolution Protocol (ARP) must always use source routing. If this property is TRUE, TCP/IP will transmit ARP queries with source routing enabled on Token Ring networks. By default, ARP first queries without source routing, and retries with source routing enabled if no reply was received. Source routing allows the routing of network packets across different types of networks. Default: FALSE.ArpUseEtherSNAP N ,booleanDescriptionThe ArpUseEtherSNAP property indicates whether Ethernet packets follow the IEEE 802.3 Sub-Network Access Protocol (SNAP) encoding. Setting this parameter to 1 will force TCP/IP to transmit Ethernet packets using 802.3 SNAP encoding. By default, the stack transmits packets in DIX Ethernet format. Windows NT/Windows 2000 systems are able to receive both formats. Default: FALSE.DatabasePathF stringDescriptionThe DatabasePath property indicates a valid Windows file path to standard Internet database files (HOSTS, LMHOSTS, NETWORKS, PROTOCOLS). The file path is used by the Windows Sockets interface. This property is only available on Windows NT/Windows 2000 systems.DeadGWDetectEnabled R ?HUbooleanDescriptionThe DeadGWDetectEnabled property indicates whether dead gateway detection occurs. Setting this parameter to TRUE causes TCP to perform Dead Gateway Detection. With this feature enabled, TCP will ask IP to change to a backup gateway if it retransmits a segment several times without receiving a response. Default: TRUE.DefaultIPGateway    stringDescriptionThe DefaultIPGateway property contains a list of IP addresses of default gateways used by the computer system. Example: 194.161.12.1 194.162.46.1DefaultTOSP   uint8DescriptionThe DefaultTOS property indicates the default Type Of Service (TOS) value set in the header of outgoing IP packets. RFC 791 defines the values. Default: 0, Valid Range: 0 - 255.DefaultTTLQ   uint8DescriptionThe DefaultTTL property indicates the default Time To Live (TTL) value set in the header of outgoing IP packets. The TTL specifies the number of routers an IP packet may pass through to reach its destination before being discarded. Each router decrements the TTL count of a packet by one as it passes through and discards the packets if the TTL is 0. Default: 32, Valid Range: 1 - 255.DHCPEnabled    booleanDescriptionThe DHCPEnabled property indicates whether the dynamic host configuration protocol (DHCP) server automatically assigns an IP address to the computer system when establishing a network connection. Values: TRUE or FALSE. If TRUE, DHCP is enabled.DHCPLeaseExpirese datetimeDescriptionThe DHCPLeaseExpires property indicates the expiration date and time for a leased IP address that was assigned to the computer by the dynamic host configuration protocol (DHCP) server. Example: 20521201000230.000000000DHCPLeaseObtainede  datetimeDescriptionThe DHCPLeaseObtained property indicates the date and time the lease was obtained for the IP address assigned to the computer by the dynamic host configuration protocol (DHCP) server. Example: 19521201000230.000000000DHCPServer *2?stringDescriptionThe DHCPServer property indicates the IP address of the dynamic host configuration protocol (DHCP) server. Example: 154.55.34DNSDomain.  stringDescriptionThe DNSDomain property indicates an organization name followed by a period and an extension that indicates the type of organization, such as microsoft.com. The name can be any combination of the letters A through Z, the numerals 0 through 9, and the hyphen (-), plus the period (.) character used as a separator. Example: microsoft.comDNSDomainSuffixSearchOrder 0 stringDescriptionThe DNSDomainSuffixSearchOrder property specifies the DNS domain suffixes to be appended to the end of host names during name resolution. When attempting to resolve a fully qualified domain name (FQDN) from a host only name, the system will first append the local domain name. If this is not successful, the system will use the domain suffix list to create additional FQDNs in the order listed and query DNS servers for each. Example: samples.microsoft.com example.microsoft.comDNSEnabledForWINSResolution 1 booleanDescriptionThe DNSEnabledForWINSResolution property indicates whether the Domain Name System (DNS) is enabled for name resolution over Windows Internet Naming Service (WINS) resolution. If the name cannot be resolved using DNS, the name request is forwarded to WINS for resolution.DNSHostName- @HUstringDescriptionThe DNSHostName property indicates the host name used to identify the local computer for authentication by some utilities. Other TCP/IP-based utilities can use this value to acquire the name of the local computer. Host names are stored on DNS servers in a table that maps names to IP addresses for use by DNS. The name can be any combination of the letters A through Z, the numerals 0 through 9, and the hyphen (-), plus the period (.) character used as a separator. By default, this value is the Microsoft networking computer name, but the network administrator can assign another host name without affecting the computer name. Example: corpdnsDNSServerSearchOrder / &3stringDescriptionThe DNSServerSearchOrder property indicates an ordered list of server IP addresses to be used in querying for DNS Servers.DomainDNSRegistrationEnabled @ booleanDescriptionThe DomainDNSRegistrationEnabled property specifies whether the IP addresses for this connection are registered in DNS under the domain name of this connection, in addition to registering under the computer's full DNS name. The domain name of this connection is either set via the method SetDNSDomain() or assigned by DHCP. The registered name is the host name of the computer with the domain name appended. Windows 2000 only.ForwardBufferMemoryX uint32DescriptionThe ForwardBufferMemory property indicates how much memory IP allocates to store packet data in the router packet queue. When this buffer space is filled, the router begins discarding packets at random from its queue. Packet queue data buffers are 256 bytes in length, so the value of this parameter should be a multiple of 256. Multiple buffers are chained together for larger packets. The IP header for a packet is stored separately. This parameter is ignored and no buffers are allocated if the IP router is not enabled. The buffer size can range from the network MTU to the a value smaller than 0xFFFFFFFF. Default: 74240 (fifty 1480-byte packets, rounded to a multiple of 256).FullDNSRegistrationEnabled >    booleanDescriptionThe FullDNSRegistrationEnabled property specifies whether the IP addresses for this connection are registered in DNS under the computer's full DNS name. The full DNS name of the computer is displayed on the Network Identification tab of the System Control Panel. Windows 2000 only.GatewayCostMetric   u!}!!uint16DescriptionThe GatewayCostMetric reflects an integer cost metric (ranging from 1 to 9999) to be used in calculating the fastest, most reliable, and/or least expensive routes. This argument has a one to one correspondence with the DefaultIPGateway. Windows 2000 only.IGMPLevel\+ """c$ k$uint8DescriptionThe IGMPLevel property indicates the extent to which the system supports IP multicast and participates in the Internet Group Management Protocol. At level 0, the system provides no multicast support. At level 1, the system may only send IP multicast packets. At level 2, the system may send IP multicast packets and fully participate in IGMP to receive multicast packets. Default: 2Values{$$$No MulticastIP MulticastIP & IGMP multicastIndex ") $ $$uint32DescriptionThe Index property specifies the index number of the Win32 network adapter configuration. The index number is used when there is more than one configuration available.IPAddress & %%%stringDescriptionThe IPAddress property contains a list of all of the IP addresses associated with the current network adapter. Example: 155.34.22.0IPConnectionMetricB &&&uint32DescriptionThe IPConnectionMetric indicates the cost of using the configured routes for this IP bound adapter and is the weighted value for those routes in the IP routing table. If there are multiple routes to a destination in the IP routing table, the route with the lowest metric is used. The default value is 1.Windows 2000 only.IPEnabled : H(Q(^(booleanDescriptionThe IPEnabled property indicates whether TCP/IP is bound and enabled on this network adapt.IPFilterSecurityEnabled ) ) ))booleanDescriptionThe IPFilterSecurityEnabled property indicates whether IP port security is enabled globally across all IP-bound network adapters. This property is used in conjunction with IPSecPermitTCPPorts, IPSecPermitUDPPorts, and IPSecPermitIPProtocols. A value of TRUE indicates that IP port security is enabled and that the security values associated with individual network adapters are in effect. A value of FALSE indicates IP filter security is disabled across all network adapters and allows all port and protocol traffic to flow unfiltered.IPPortSecurityEnabled (} r+{++booleanDescriptionThe IPPortSecurityEnabled property indicates whether IP port security is enabled globally across all IP-bound network adapters. This property has been deprecated in favor of IPFilterSecurityEnabled.IPSecPermitIPProtocols , ,,,stringDescriptionThe IPSecPermitIPProtocols property lists the protocols permitted to run over the IP. The list of protocols is defined using the EnableIPSec method. The list will either be empty or contain numeric values. A numeric value of zero indicates access permission is granted for all protocols. An empty string indicates that no protocols are permitted to run when IPFilterSecurityEnabled is TRUE.IPSecPermitTCPPorts * r.z..stringDescriptionThe IPSecPermitTCPPorts property lists the ports that will be granted access permission for TCP. The list of protocols is defined using the EnableIPSec method. The list will either be empty or contain numeric values. A numeric value of zero indicates access permission is granted for all ports. An empty string indicates that no ports are granted access permission when IPFilterSecurityEnabled is TRUE.IPSecPermitUDPPorts + \0d0q0stringDescriptionThe IPSecPermitUDPPorts property lists the ports that will be granted User Datagram Protocol (UDP) access permission. The list of protocols is defined using the EnableIPSec method. The list will either be empty or contain numeric values. A numeric value of zero indicates access permission is granted for all ports. An empty string indicates that no ports are granted access permission when IPFilterSecurityEnabled is TRUE.IPSubnet * P2X2e2stringDescriptionThe IPSubnet property contains a list of all the subnet masks associated with the current network adapter. Example: 255.255.0IPUseZeroBroadcast J $3-3:3booleanDescriptionThe IPUseZeroBroadcast property indicates whether IP zeros-broadcasts are used. If this parameter is set TRUE, then IP uses zeros-broadcasts (0.0.0.0), and the system uses ones-broadcasts (255.255.255.255). Computer systems generally use ones-broadcasts, but those derived from BSD implementations use zeros-broadcasts. Systems that do not use that same broadcasts will not interoperate on the same network. Default: FALSE.IPXAddress . 5#505stringDescriptionThe IPXAddress property indicates the Internetworking Packet Exchange (IPX) address of the network adapter. The IPX address identifies a computer system on a network using the IPX protocol.IPXEnabled < '606=6booleanDescriptionThe IPXEnabled property determines whether the or Internetwork Packet Exchange (IPX) protocol is bound and enabled for this adapter.IPXFrameType :+  7777 7uint32DescriptionThe IPXFrameType property represents an integer array of frame type identifiers. The values in this array correspond to the elements in the IPXNetworkNumber.Values777 88Ethernet IIEthernet 802.3Ethernet 802.2Ethernet SNAPAUTOIPXMediaType;+ g8o8|88 8uint32DescriptionThe IPXMediaType property represents an Internetworking Packet Exchange (IPX) media type identifier.Values8999EthernetToken ringFDDIARCNETIPXNetworkNumber 9 `9h9u9stringDescriptionThe IPXNetworkNumber property represents an array of characters that uniquely identifies a frame/network adapter combination on the computer system. The NetWare Link (NWLink) IPX/SPX-compatible transport in Windows 2000 and Windows NT 4.0 and greater uses two distinctly different types of network numbers. This number is sometimes referred to as the external network number. It must be unique for each network segment. The order in this string list will correspond item-for-item with the elements in the IPXFrameType property.IPXVirtualNetNumber8 ;;;stringDescriptionThe IPXVirtualNetNumber property uniquely identifies the computer system on the network. It is represented in the form of an eight-character hexadecimal digit. Windows NT/2000 uses the virtual network number (also known as an internal network number) for internal routing.KeepAliveInterval] -=5=B=uint32DescriptionThe KeepAliveInterval property indicates the interval separating Keep Alive Retransmissions until a response is received. Once a response is received, the delay until the next Keep Alive Transmission is again controlled by the value of KeepAliveTime. The connection will be aborted after the number of retransmissions specified by TcpMaxDataRetransmissions have gone unanswered. Default: 1000, Valid Range: 1 - 0xFFFFFFFF.KeepAliveTime a %?-?:?uint32DescriptionThe KeepAliveTime property indicates how often the TCP attempts to verify that an idle connection is still intact by sending a Keep Alive Packet. A remote system that is reachable will acknowledge the keep alive transmission. Keep Alive packets are not sent by default. This feature may be enabled in a connection by an application. Default: 7,200,000 (two hours)MACAddress 2 @@@stringDescriptionThe MACAddress property indicates the Media Access Control (MAC) address of the network adapter. A MAC address is assigned by the manufacturer to uniquely identify the network adapter. Example: 00:80:C7:8F:6C:96MTU!e ABBuint32DescriptionThe MTU property overrides the default Maximum Transmission Unit (MTU) for a network interface. The MTU is the maximum packet size (including the transport header) that the transport will transmit over the underlying network. The IP datagram can span multiple packets. The range of this value spans the minimum packet size (68) to the MTU supported by the underlying network.NumForwardPackets"i CCCuint32DescriptionThe NumForwardPackets property indicates the number of IP packet headers allocated for the router packet queue. When all headers are in use, the router will begin to discard packets from the queue at random. This value should be at least as large as the ForwardBufferMemory value divided by the maximum IP data size of the networks connected to the router. It should be no larger than the ForwardBufferMemory value divided by 256, since at least 256 bytes of forward buffer memory are used for each packet. The optimal number of forward packets for a given ForwardBufferMemory size depends on the type of traffic carried on the network. It will lie somewhere between these two values. If the router is not enabled, this parameter is ignored and no headers are allocated. Default: 50, Valid Range: 1 - 0xFFFFFFFE.PMTUBHDetectEnabled T KGTGaGbooleanDescriptionThe PMTUBHDetectEnabled property indicates whether detection of black hole routers occurs. Setting this parameter to TRUE causes TCP to try to detect black hole routers while discovering the path of the Maximum Transmission Unit. A black hole router does not return ICMP Destination Unreachable messages when it needs to fragment an IP datagram with the Don't Fragment bit set. TCP depends on receiving these messages to perform Path MTU Discovery. With this feature enabled, TCP will try to send segments without the Don't Fragment bit set if several retransmissions of a segment go unacknowledged. If the segment is acknowledged as a result, the MSS will be decreased and the Don't Fragment bit will be set in future packets on the connection. Enabling black hole detection increases the maximum number of retransmissions performed for a given segment. The default value of this property is FALSE.PMTUDiscoveryEnabled V (K1K>KbooleanDescriptionThe PMTUDiscoveryEnabled property indicates whether the Maximum Transmission Unit (MTU) path is discovered. Setting this parameter to TRUE causes TCP to attempt to discover the MTU (the largest packet size) over the path to a remote host. By discovering the MTU path and limiting TCP segments to this size, TCP can eliminate fragmentation at routers along the path that connect networks with different MTUs. Fragmentation adversely affects TCP throughput and network congestion. Setting this parameter to FALSE causes an MTU of 576 bytes to be used for all connections that are not to machines on the local subnet. Default: TRUE.ServiceName6 MMNstringDescriptionThe ServiceName property indicates the service name of the network adapter. This name is usually shorter than the full product name. Example: Elnkii.TcpipNetbiosOptions7+ NNNO Ouint32DescriptionThe TcpipNetbiosOptions property specifies a bitmap of the possible settings related to NetBIOS over TCP/IP. Windows 2000 only.BitValuesOOOEnableNetbiosViaDhcpEnableNetbiosDisableNetbiosTcpMaxConnectRetransmissions#m P!P.Puint32DescriptionThe TcpMaxConnectRetransmissions property indicates the number of times TCP will attempt to retransmit a Connect Request before terminating the connection. The initial retransmission timeout is 3 seconds. The retransmission timeout doubles for each attempt. Default: 3, Valid Range: 0 - 0xFFFFFFFF.TcpMaxDataRetransmissions$q QQQuint32DescriptionThe TcpMaxDataRetransmissions property indicates the number of times TCP will retransmit an individual data segment (non-connect segment) before terminating the connection. The retransmission timeout doubles with each successive retransmission on a connection. Default: 5, Valid Range: 0 - 0xFFFFFFFF.TcpNumConnections%u $S,S9Suint32DescriptionThe TcpNumConnections property indicates the maximum number of connections that TCP can have open simultaneously. Default: 0xFFFFFE, Valid Range: 0 - 0xFFFFFE.TcpUseRFC1122UrgentPointer &y "T+T8TbooleanDescriptionThe TcpUseRFC1122UrgentPointer property indicates whether TCP uses the RFC 1122 specification or the mode used by Berkeley Software Design (BSD) derived systems, for urgent data. The two mechanisms interpret the urgent pointer differently and are not interoperable. Windows 2000 and Windows NT version 3.51 and higher defaults to BSD mode. If TRUE, urgent data is sent in RFC 1122 mode. Default: FALSE.TcpWindowSize'{ VVVuint16DescriptionThe TcpWindowSize property contains the maximum TCP Receive Window size offered by the system. The Receive Window specifies the number of bytes a sender may transmit without receiving an acknowledgment. In general, larger receiving windows will improve performance over high delay and high bandwidth networks. For efficiency, the receiving window should be an even multiple of the TCP Maximum Segment Size (MSS). Default: Four times the maximum TCP data size or an even multiple of TCP data size rounded up to the nearest multiple of 8192. Ethernet networks default to 8760. Valid Range: 0 - 65535.WINSEnableLMHostsLookup 2 XXXbooleanDescriptionThe WINSEnableLMHostsLookup property indicates whether local lookup files are used. Lookup files will contain a map of IP addresses to host names. If they exist on the local system, they will be found in %SystemRoot%\system32\drivers\etc.WINSHostLookupFile5 ZZZstringDescriptionThe WINSHostLookupFile property contains a path to a WINS lookup file on the local system. This file will contain a map of IP addresses to host names. If the file specified in this property is found, it will be copied to the %SystemRoot%\system32\drivers\etc folder of the local system. Valid only if the WINSEnableLMHostsLookup property is TRUE.WINSPrimaryServer3 [[[stringDescriptionThe WINSPrimaryServer property indicates the IP address for the primary WINS server. WINSScopeID6 U\]\j\stringDescriptionThe WINSScopeID property provides a way to isolate a group of computer systems that communicate with each other only. The Scope ID is a character string value that is appended to the end of the NetBIOS name. It is used for all NetBIOS transactions over TCP/IP communications from that computer system. Computers configured with identical Scope IDs are able to communicate with this computer. TCP/IP clients with different Scope IDs disregard packets from computers with this Scope ID. Valid only when the EnableWINS method executes successfully.WINSSecondaryServer4 ^^^stringDescriptionThe WINSSecondaryServer property indicates the IP address for the secondary WINS server. )arS s ?CZ^x|  * $ fs !",m.{./24)45?899-;=4?O?I@BKLLMQRRSWxYYZ)fgg@h|lmnAoxzzzt{x{|}R͂~k|ڏ}&.G5ģ?N/ͭHY λI[J{FT|) `\]shC(,#5]" 5  7EnableDHCP*DescriptionThe EnableDHCP method enables the Dynamic Host Configuration Protocol (DHCP) for service with this network adapter. DHCP allows IP addresses to be dynamic allocated. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __RenewDHCPLeaseDescriptionThe RenewDHCPLease method renews the IP address on specific DHCP-enabled network adapters. The lease for the IP address assigned via a DHCP server has an expiration date that the client must renew if it intends to continue use of the assigned IP address. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __RenewDHCPLeaseAll DescriptionThe RenewDHCPLeaseAll method renews the IP addresses on all DHCP-enabled network adapters. The lease for the IP address assigned via a DHCP server has an expiration date that the client must renew if it intends to continue use of the assigned IP address. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ReleaseDHCPLease ' DescriptionThe ReleaseDHCPLease method releases the IP address bound to a specific DHCP enabled network adapter. WARNING: If DHCP is enabled on this local computer system, the option disables TCP/IP on this specific network adapter. Unless you have an alternate path to the target system; that is, another TCP/IP bound network adapter, all TCP/IP communications will be lost. wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __ReleaseDHCPLeaseAll; H DescriptionThe ReleaseDHCPLeaseAll method releases the IP addresses bound to all DHCP enabled network adapters. WARNING: If DHCP is enabled on this local computer system, the option will terminate all DHCP TCP/IP connections.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableStaticDescriptionThe EnableStatic method enables static TCP/IP addressing for the target network adapter. As a result, DHCP for this network adapter is disabled. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409   *G__PARAMETERSabstract IPAddressstring  5In  5\ The IPAddress parameter lists all of the static IP addresses for the current network adapter. Example: 155.34.22.0Description ) 5\ ID 6 \ Cstring SubnetMaskstring  In   The SubnetMask parameter contains the subnet masks that complement the values in the IPAddress parameter. Example: 255.255.0.0Description )  ID 6  string __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetGatewaysDescriptionThe SetGateways method is used to specify a list of gateways for routing packets destined for a different subnet than the one this adapter is connected to. A more specific route should not exist for this subnet. The method returns an integer value of 0 on successful completion and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 X  *w__PARAMETERSabstract DefaultIPGatewaystring  <In  <c The DefaultIPGateway is an input parameter to the SetGateways method. It contains a list of IP addresses to gateways where network packets should be routed.Description ) <c /ID 6 c /sstring GatewayCostMetricuint16  In   The GatewayCostMetric parameter assigns an value ranging from 1 to 9999, used to calculate fastest and most reliable routes. The values of this parameter correspondence with the values in the DefaultIPGateway[] parameter. The default value for a gateway is 1. This parameter is for Windows 2000 only.Description )  k=ID 6  k=uint16_ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableDNS!%!DescriptionThe EnableDNS method enables the Domain Name System (DNS) for service on this TCP/IP-bound network adapter. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. BLD117ROOT\CIMV2\ms_409  K*AyU__PARAMETERSabstractDNSHostNamestring 7In 7^ The DNSHostName parameter specifies the name of the DNS host to be enabled by this method. Example: corpdnsDescription) 7^ ID6 ^ =stringDNSDomainstring In  The DNSDomain parameter specifies the DNS's domain. This parameter is represented by an organization name followed by a period, then an extension that indicates the type of organization. Example: microsoft.comDescription)  ID6 _ string DNSServerSearchOrderstring  In   The DNSServerSearchOrder parameter specifies the list of server IP addresses to query for DNS servers.Description )  LID 6  Lstring  DNSDomainSuffixSearchOrderstring   In   5 The DNSDomainSuffixSearchOrder parameter specifies the DNS domain suffixes that is appended to the host names during name resolution. When attempting to resolve a fully qualified domain name (FQDN) from a host only name, the system appends the local domain name. If this is not successful, the system uses the domain suffix list to create additional FQDNs in the order listed, and queries DNS servers for each one.Description  ) 5 cID  6 5 cGstring __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSDomain..DescriptionThe SetDNSDomain method allows for the setting of the DNS domain. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. This is an instance dependent method call that applies on a per adapter basis. On Windows 2000 the setting applies to the targeted adapter. On NT4 this setting is global.BLD117ROOT\CIMV2\ms_409 K *__PARAMETERSabstractDNSDomainstring 5In 5\ The DNSDomain parameter indicates the domain the DNSis associated with and is represented by an organization name followed by a period and an extension that indicates the type of organization. Example: microsoft.com.Description) 5\ dID6 \ dstring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSServerSearchOrder:4G4DescriptionThe SetDNSServerSearchOrder method allows for the setting of the server search order as a array of elements. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. This is an instance dependent method call that applies on a per adapter basis. On Windows 2000 the setting applies to the targeted adapter. On NT4 this setting is global.mBLD117ROOT\CIMV2\ms_409  *g__PARAMETERSabstract DNSServerSearchOrderstring  @In  @g The DNSServerSearchOrder parameter indicates the list of server IP addresses to query for DNS Servers. Example:130.215.24.1 157.54.164.1Description ) @g ID 6 g cstring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDNSSuffixSearchOrder99DescriptionThe SetDNSSuffixSearchOrder method allows for the setting of the suffix search order as a array of elements. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. This is an instance independent method call that applies across all adapters. Windows NT only. BLD117ROOT\CIMV2\ms_409 7 *v__PARAMETERSabstract DNSDomainSuffixSearchOrderstring  FIn  Fm The DNSServerSearchOrder parameter indicates the list of server IP addresses suffixes to query for DNS Servers. Example:130.215.24.1 157.54.164.1Description ) Fm .ID 6 m .rstring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDynamicDNSRegistration`?m?DescriptionThe SetDynamicDNSRegistration method is used to indicate dynamic DNS registration of IP addresses for this IP bound adapter. The method returns 0 on success, and any other number to indicate an error.Windows 2000 only. BLD117ROOT\CIMV2\ms_409  _$*q__PARAMETERSabstract FullDNSRegistrationEnabledboolean  FIn  Fn The FullDNSRegistrationEnabled parameter specifies whether the IP addresses for this connection are registered in DNS under the computer's full DNS name. The full DNS name of the computer is displayed on the Network Identification tab of the System Control Panel. Windows 2000 only.Description ) Fn ID 6 Dn boolean DomainDNSRegistrationEnabledboolean  }In  } The DomainDNSRegistrationEnabled parameter specifies whether the IP addresses for this connection are registered in DNS under the domain name of this connection, in addition to registering under the computer's full DNS name. The domain name of this connection is either set via the method SetDNSDomain() or assigned by DHCP. The registered name is the host name of the computer with the domain name appended. This parameter has meaning only when FullDNSRegistrationEnabled is enabled. Default: FALSE. Windows 2000 only.Description ) } ID 6 h  boolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPConnectionMetricLLDescriptionThe SetIPConnectionMetric method is used to set the routing metric associated with this IP bound adapter. The method returns 0 on success, and any other number to indicate an error.Windows 2000 only.XBLD117ROOT\CIMV2\ms_409  *V__PARAMETERSabstractIPConnectionMetricuint32 >In >e The IPConnectionMetric parameter assigns an value ranging from 1 to 9999, and indicates the cost of using the configured routes for this IP bound adapter and is the weighted value for those routes in the IP routing table. If there are multiple routes to a destination in the IP routing table, the route with the lowest metric is used. The default value is 1. Windows 2000 only.Description) >e ID6 e Ruint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetWINSServerRRDescriptionThe SetWINSServer method sets the primary and secondary Windows Internet Naming Service (WINS) servers on this TCP/IP-bound network adapter. This method is applied independently of the network adapter. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409   *0__PARAMETERSabstractWINSPrimaryServerstring =In =d The WINSPrimaryServer parameter specifies the IP address of the primary WINS server.Description) =d ID6 td ,stringWINSSecondaryServerstring In  The WINSSecondaryServer parameter specifies the IP address of the secondary WINS server.Description)  RID6  Rstring __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableWINSYYDescriptionThe EnableWINS method enables Windows Internet Naming Service (WINS) settings specific to TCP/IP, but independent of the network adapter. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. BLD117ROOT\CIMV2\ms_409 9  *t"QU__PARAMETERSabstract DNSEnabledForWINSResolutionboolean  GIn  Go The DNSEnabledForWINSResolution parameter specifies whether the Domain Name System (DNS) is enabled for name resolution over WINS resolution.Description ) Go ,ID 6 o ,pboolean WINSEnableLMHostsLookupboolean  In   The WINSEnableLMHostsLookup parameter specifies whether local lookup files are used. Lookup files will contain mappings of IP addresses to host names.Description )  BID 6 f BbooleanWINSHostLookupFilestring In  The WINSEnableLMHostsLookup parameter specifies the lookup files containing mappings of IP addresses to host names. If available, the files will be found in %SystemRoot%\system32\drivers\etc.Description)  ID6 7 stringWINSScopeIDstring ^In ^ The WINSScopeID parameter specifies the Scope ID value that will be appended to the end of the computer's NetBIOS name. Systems using the same Scope ID can communicate with this computer.Description) ^ pID6  pstring __ __ __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpipNetbiosggDescriptionThe SetTcpipNetbios method is used to set the default operation of NetBIOS over TCP/IP. Windows 2000 only. 8BLD117ROOT\CIMV2\ms_409  *8__PARAMETERSabstractTcpipNetbiosOptionsuint32 ?In ?f The TcpipNetbiosOptions parameter specifies a bitmap of the possible settings related to NetBIOS over TCP/IP.Description) ?f Wm|EnableNetbiosViaDhcpEnableNetbiosDisableNetbiosBitValues6 ?f  GIDC 0f  Guint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableIPSecn"nDescriptionThe EnableIPSec method is used to enable IP security on this specific TCP/IP-enabled network adapter. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. Ports are secured only when the IPFilterSecurityEnabled property is TRUE. BLD117ROOT\CIMV2\ms_409 i  b*Fj__PARAMETERSabstract IPSecPermitTCPPortsstring  ?In  ?f The IPSecPermitTCPPorts parameter specifies the list of ports that should be granted access permission for TCP. A numeric value of zero indicates access permission is granted for all ports. An empty string indicates that no ports should be granted access permission.Description ) ?f ID 6 ,f string IPSecPermitUDPPortsstring  [In  [ The IPSecPermitUDPPorts parameter specifies the list of ports that should be granted access permission for UDP. A numeric value of zero indicates access permission is granted for all ports. An empty string indicates that no ports should be granted access permission.Description ) [ ID 6 H string IPSecPermitIPProtocolsstring  zIn  z The IPSecPermitIPProtocols parameter specifies the list of protocols permitted to run over the IP. A numeric value of zero indicates access permission is granted for all protocols. An empty string indicates that no protocols should be granted access permission.Description ) z ID 6 b string __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __DisableIPSeczzDescriptionThe DisableIPSec method is used to disable IP security on this TCP/IP-enabled network adapter. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPXVirtualNetworkNumber }-}DescriptionThe SetIPXVirtualNetworkNumber method is used to set the Internetworking Packet Exchange (IPX) virtual network number on the target computer system. Windows 2000 and Windows NT 3.51 or greater uses an internal network number for internal routing. The internal network number is also known as a virtual network number. It uniquely identifies the computer system on the network. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.9BLD117ROOT\CIMV2\ms_409  *5__PARAMETERSabstractIPXVirtualNetNumberstring ?In ?f The IPXVirtualNetNumber parameter specifies the virtual network number for this system.Description) ?f ID6 yf 1string __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPXFrameTypeNetworkPairsDescriptionThe SetIPXFrameTypeNetworkPairs method is used to set Internetworking Packet Exchange (IPX) network number/frame pairs for this network adapter. Windows 2000 and Windows NT 3.51 and higher use an IPX network number for routing purposes. It is assigned to each configured frame type/network adapter combination on your computer system. This number is sometimes referred to as the "external network number." It must be unique for each network segment. If the frame type is set to AUTO, the network number should to zero. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.nBLD117ROOT\CIMV2\ms_409   LF*__PARAMETERSabstract IPXNetworkNumberstring  <In  <c The IPXNetworkNumber parameter specifies an array of characters that uniquely identify an adapter on the computer system. The NetWare Link (NWLink) IPX/SPX-compatible transport in Windows 2000 and Windows NT 3.51 or higher, uses two different types of network numbers. This number is sometimes referred to as the External Network Number. It must be unique for each network segment. The values in this string list must have a corresponding value in the IPXFrameType parameter identifying the packet frame type used for this network.Description ) <c ID 6 2c string IPXFrameTypeuint32  ZIn  Z The IPXFrameType parameter specifies an integer array of frame type identifiers. The values in this array correspond to the elements in the IPXNetworkNumber parameter.Description ) Z XEthernet IIEthernet 802.3Ethernet 802.2Ethernet SNAPAUTOValues 6 Z X ID C  X Buint32 __ __ __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDatabasePathDescriptionThe SetDatabasePath method sets the path to the standard Internet database files (HOSTS, LMHOSTS, NETWORKS, PROTOCOLS). It is used by the Windows Sockets interface. The method returns an integer value of 0 on successful completion, and any other number to indicate an error. Default: %SystemRoot%\system32\drivers\etc.BLD117ROOT\CIMV2\ms_409 N *__PARAMETERSabstractDatabasePathstring 8In 8_ The DatabasePath parameter specifies a valid Windows 2000 and Windows NT 3.51 or higher file path to standard Internet database files (HOSTS, LMHOSTS, NETWORKS, PROTOCOLS) used by the Windows Sockets interface.Description) 8_ aID6 _ astring __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIPUseZeroBroadcast -DescriptionThe SetIPUseZeroBroadcast method is used to set IP zero broadcast usage. If this parameter is set to TRUE, then IP will use zeros-broadcasts (0.0.0.0) instead of ones-broadcasts (255.255.255.255). Most systems use ones-broadcasts, but systems derived from BSD implementations use zeros-broadcasts. Systems that use different broadcasts will not interoperate on the same network. Default: FALSE. The method returns an integer value of 0 on successful completion and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 8 *__PARAMETERSabstract IPUseZeroBroadcastboolean  >In  >f The IPUseZeroBroadcast parameter specifies the value indicating whether IP zero broadcast is used. Setting the parameter to TRUE indicates that IP zero broadcast is used.Description ) >f @ID 6 f @boolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetArpAlwaysSourceRouteXeDescriptionThe SetArpAlwaysSourceRoute method is used to set the transmission of ARP queries by the TCP/IP. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.RBLD117ROOT\CIMV2\ms_409  *M__PARAMETERSabstract ArpAlwaysSourceRouteboolean  @In  @h The ArpAlwaysSourceRoute parameter specifies a value that indicates if TCP/IP transmits ARP queries. Setting this parameter to TRUE will force TCP/IP to transmit ARP queries with source routing enabled on Token Ring networks. By default, the stack transmits ARP queries without source routing first, then retries with source routing enabled if no reply is received.Description ) @h ID 6 h Iboolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetArpUseEtherSNAP+8DescriptionThe SetArpUseEtherSNAP method is used to enable ethernet packets to use 802.3 SNAP encoding. By default, the stack transmits packets in Digital, Intel, Xerox(DIX) Ethernet format. It will always receive both formats. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.@BLD117ROOT\CIMV2\ms_409  *E__PARAMETERSabstract ArpUseEtherSNAPboolean  ;In  ;c The ArpUseEtherSNAP parameter enables (TRUE)TCP/IP to transmit Ethernet packets using 802.3 SNAP encoding.Description ) ;c ID 6 c Aboolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDefaultTOS_lDescriptionThe SetDefaultTOS method is used to set the default Type of Service (TOS) value in the header of outgoing IP packets. The method returns 0 on success, and any other number to indicate an error.ZBLD117ROOT\CIMV2\ms_409  *l__PARAMETERSabstractDefaultTOSuint8 6In 6\ The DefaultTOS parameter specifies the Type of Service (TOS) value put in the header of outgoing IP packets. See RFC 791 for a definition of the values.Description) 6\ $ID6 \ $huint8 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDefaultTTL(5DescriptionThe SetDefaultTTL method is used to set the default Time to Live (TTL) value in the header of outgoing IP packets. The TTL specifies the number of routers an IP packet may pass through to reach its destination before being discarded. Each router decrements the TTL count of a packet by one and discards the packets with a TTL of 0. Default: 32, Valid Range: 1 - 255%BLD117ROOT\CIMV2\ms_409  *7__PARAMETERSabstractDefaultTTLuint8 6In 6\ The DefaultTTL parameter specifies the Time to Live value set in the header of outgoing IP packets.Description) 6\ ID6 {\ 3uint8 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDeadGWDetectjwDescriptionThe SetDeadGWDetect method is used to enable Dead Gateway detection. Setting this parameter to TRUE causes TCP to perform Dead Gateway Detection. With this feature enabled, TCP asks IP to change to a backup gateway if it retransmits a segment several times without receiving a response. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 7 *__PARAMETERSabstract DeadGWDetectEnabledboolean  ?In  ?g The DeadGWDetectEnabled parameter specifies a value that can enable the TCP to perform dead gateway detection. If TRUE, the method will enable dead gateway detection.Description ) ?g =ID 6 g =boolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetPMTUBHDetect.;DescriptionThe SetPMTUBHDetect method is used to enable detection of Black Hole routers. Setting this parameter to TRUE causes TCP to try to detect Black Hole routers while doing Path MTU Discovery. A Black Hole router does not return the Internet Control Message Protocol (ICMP) Destination Unreachable messages when it needs to fragment an IP datagram with the Don't Fragment bit set. TCP depends on receiving these messages to perform Path MTU Discovery. With this feature enabled, TCP will try to send segments without the Don't Fragment bit set if several retransmissions of a segment go unacknowledged. If the segment is acknowledged as a result, the maximum segment size (MSS) will be decreased and the Don't Fragment bit will be set in future packets on the connection. Enabling black hole detection increases the maximum number of retransmissions performed for a given segment. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 c *__PARAMETERSabstract PMTUBHDetectEnabledboolean  ?In  ?g The PMTUBHDetectEnabled parameter specifies whether the detection of "Black Hole" routers is enabled. If TRUE, the method makes TCP attempt to discover "Black Hole" and route packets in different network paths.Description ) ?g iID 6 g iboolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetPMTUDiscoverylyDescriptionThe SetPMTUDiscovery method is used to enable Maximum Transmission Unit (MTU) discovery. Setting this parameter to TRUE causes TCP to attempt to discover the MTU (or largest packet size) over the path to a remote host. By discovering the Path MTU and limiting TCP segments to this size, TCP can eliminate fragmentation at routers along the path that connect networks with different MTUs. Fragmentation adversely affects TCP throughput and network congestion. Setting this parameter to FALSE causes an MTU of 576 bytes to be used for all connections that are not to machines on the local subnet. Default: TRUE. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 u *__PARAMETERSabstract PMTUDiscoveryEnabledboolean  @In  @h The PMTUDiscoveryEnabled parameter can enable TCP to attempt to discover the Maximum Transmission Unit (MTU) or largest packet size over the path to a remote host. If TRUE, the method makes TCP to attempt to discover the MTU.Description ) @h yID 6 h yboolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetForwardBufferMemoryDescriptionThe SetForwardBufferMemory method is used to specify how much memory IP allocates to store packet data in the router packet queue. When this buffer space is filled, the router begins discarding packets at random from its queue. Packet queue data buffers are 256 bytes in length, so the value of this parameter should be a multiple of 256. Multiple buffers are chained together for larger packets. The IP header for a packet is stored separately. This parameter is ignored and no buffers are allocated if the IP router is not enabled. The buffer size can range from the network MTU to the a value smaller than 0xFFFFFFFF. Default: 74240 (fifty 1480-byte packets, rounded to a multiple of 256).LBLD117ROOT\CIMV2\ms_409  *H__PARAMETERSabstractForwardBufferMemoryuint32 ?In ?f The ForwardBufferMemory parameter specifies the size of the router packet queue used to store packet data.Description) ?f ID6 f Duint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetIGMPLevelerDescriptionThe SetIGMPLevel method is used to set the extent to which the system supports IP multicasting and participates in the Internet Group Management Protocol. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409  *"__PARAMETERSabstractIGMPLeveluint8 5In 5[ The IGMPLevel parameter sets the level that the system supports IP multicast and participates in the Internet Group Management Protocol. At level 0, the system provides no multicast support. At level 1, the system may only send IP multicast packets. At level 2, the system may send IP multicast packets and fully participate in IGMP to receive multicast packets.Description) 5[ IWeNo MulticastIP MulticastIP & IGMP multicastValues6 5[ z 9IDC [ z 9uint8 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetKeepAliveInterval)6DescriptionThe SetKeepAliveInterval method is used to set the interval separating Keep Alive Retransmissions until a response is received. Once a response is received, the delay until the next Keep Alive Transmission is again controlled by the value of KeepAliveTime. The connection will be terminated after the number of retransmissions specified by TcpMaxDataRetransmissions have gone unanswered. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.dBLD117ROOT\CIMV2\ms_409  *d__PARAMETERSabstractKeepAliveIntervaluint32 =In =d The KeepAliveInterval parameter specifies the value for the interval separating Keep Alive Retransmissions until a response is received.Description) =d ID6 d `uint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetKeepAliveTime/<DescriptionThe SetKeepAliveTime method is used to set how often TCP attempts to verify that an idle connection is still available by sending a Keep Alive packet. If the remote system is still reachable and functioning, it will acknowledge the Keep Alive transmission. Keep Alive packets are not sent by default. This feature may be enabled in a connection by an application. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.EBLD117ROOT\CIMV2\ms_409  *M__PARAMETERSabstractKeepAliveTimeuint32 9In 9` The KeepAliveTime parameter specifies the interval the TCP waits to check that an idle connection is still available.Description) 9` ID6 ` Iuint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetMTUDescriptionThe SetMTU method is used to set the default Maximum Transmission Unit (MTU) for a network interface. The MTU is the maximum packet size (in bytes) that the transport will transmit over the underlying network. The size includes the transport header. Note that an IP datagram may span multiple packets. Values larger than the default for the underlying network will result in the transport using the network default MTU. Values smaller than 68 will result in the transport using an MTU of 68. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 1 *__PARAMETERSabstractMTUuint32 /In /V The MTU input parameter specifies the default Maximum Transmission Unit (MTU) for a network interface The range of this value spans the minimum packet size (68) to the MTU supported by the underlying network.Description) /V VID6 V Vuint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetNumForwardPacketsDescriptionThe SetNumForwardPackets method is used to set the number of IP packet headers allocated for the router packet queue. When all headers are in use, the router will begin to discard packets from the queue at random.BLD117ROOT\CIMV2\ms_409 U *__PARAMETERSabstractNumForwardPacketsuint32 =In =d The NumForwardPackets parameter specifies the number of IP packet headers allocated for the router packet queue. This should be at least as large as the value of the ForwardBufferMemory property divided by the maximum IP data size of the networks connected to the router. It should be no larger than the ForwardBufferMemory value divided by 256, since at least 256 bytes of forward buffer memory are required by each packet. The optimal number of forward packets for a given ForwardBufferMemory size depends on the type of traffic carried on the network, and will be somewhere between these two values. If the router is disabled, this parameter is ignored and no headers are allocated. Valid Range: 1 - 0xFFFFFFFE.Description) =d ^ID6 d ^uint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpMaxConnectRetransmissionsDescriptionThe SetTcpMaxConnectRetransmissions method is used to set the number of attempts TCP will retransmit a Connect Request before aborting. The initial retransmission timeout is 3 seconds and doubles for each attempt.BLD117ROOT\CIMV2\ms_409 K *__PARAMETERSabstractTcpMaxConnectRetransmissionsuint32 HIn Ho The TcpMaxConnectRetransmissions parameter specifies the number of attempts TCP will retransmit a connect request before aborting. Valid Range: 0 - 0xFFFFFFFF.Description) Ho >ID6 o >uint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpMaxDataRetransmissionsDescriptionThe SetTcpMaxDataRetransmissions method is used to set the number of times TCP will retransmit an individual data segment before aborting the connection. The retransmission timeout doubles with each successive retransmission on a connection.BLD117ROOT\CIMV2\ms_409 T *__PARAMETERSabstractTcpMaxDataRetransmissionsuint32 EIn El The TcpMaxDataRetransmissions parameter specifies the number of times TCP will retransmit an individual data segment before aborting the connection. Valid Range: 0 - 0xFFFFFFFF.Description) El MID6 l Muint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpNumConnections9FDescriptionThe SetTcpNumConnections method is used to set the maximum number of connections that TCP may have open simultaneously.iBLD117ROOT\CIMV2\ms_409  *i__PARAMETERSabstractTcpNumConnectionsuint32 =In =d The TcpNumConnections parameter specifies the maximum number of connections that TCP may have open simultaneously. Valid Range: 0 - 0xFFFFFE.Description) =d !ID6 d !euint32 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpUseRFC1122UrgentPointerDescriptionThe SetTcpUseRFC1122UrgentPointer method is used to specify whether TCP uses the RFC 1122 specification for urgent data, or the mode used by Berkeley Software Design (BSD) derived systems. The two mechanisms interpret the urgent pointer in the TCP header and the length of the urgent data differently. They are not interoperable. Windows 2000 and Windows NT version 3.51 or higher defaults to BSD mode. The method returns an integer value of 0 on successful completion, and any other number to indicate an error.BLD117ROOT\CIMV2\ms_409 m *__PARAMETERSabstract TcpUseRFC1122UrgentPointerboolean  FIn  Fn The TcpUseRFC1122UrgentPointer parameter specifies whether TCP uses the RFC 1122 specification or the mode used by BSD-derived systems, for urgent data. If TRUE, urgent data is sent in RFC 1122 mode.Description ) Fn eID 6 n eboolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetTcpWindowSizeFSDescriptionThe SetTcpWindowSize method is used to set the maximum TCP Receive Window size offered by the system. The Receive Window specifies the number of bytes a sender can transmit without receiving an acknowledgment. In general, larger receive windows improve performance over high delay and high bandwidth networks. For efficiency, the receive window should be an even multiple of the TCP Maximum Segment Size (MSS). The method returns an integer value of 0 on successful completion, and any other number to indicate an error.FBLD117ROOT\CIMV2\ms_409  *P__PARAMETERSabstractTcpWindowSizeuint16 9In 9` The TcpWindowSize parameter specifies the maximum TCP receive window size offered by the system. Valid Range: 0 - 65535.Description) 9` ID6 ` Luint16 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnableIPFilterSecF S DescriptionThe EnableIPFilterSec method is used to enable IP security globally across all IP-bound network adapters. With security enabled, the operational security characteristics for any single network adapter can be controlled using the network adapter specific EnableIPSec method. The EnableIPFilterSec method returns an integer value of 0 on successful completion, a 1 when a reboot is required, and any other value to indicate an error./BLD117ROOT\CIMV2\ms_409  *$q__PARAMETERSabstract IPFilterSecurityEnabledboolean  CIn  Ck The IPFilterSecurityEnabled parameter specifies whether IP security is enabled globally across all IP-bound network adapters. If the input parameter IPFilterSecurityEnabled is TRUE, security is enabled. If the input parameter IPFilterSecurityEnabled is FALSE, all port and protocol traffic are allowed to flow unfiltered.Description ) Ck ID 6 hk  boolean __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __++CIM_Setting )(  #3ru:C?IHWK_#/#/fs"@FRb !!#%#=$K$P%]%%&&&($(UUUUUUU)Win32_NetworkLoginProfileDescriptionThe Win32_NetworkLoginProfile class represents the network login information of a particular user on a Win32 system. This includes, but is not limited to, password status, access privileges, disk quotas, and login directory paths.AMENDMENTLOCALEAccountExpirese  _ivdatetimeDescriptionThe AccountExpires property specifies when the account will expire. This value is calculated from the number of seconds elapsed since 00:00:00, January 1, 1970, and is set in this format: yyyymmddhhmmss.mmmmmm sutc. Example: 20521201000230.000000 000AuthorizationFlags+ O Zuint32DescriptionThe AuthorizationFlags property contains a set of flags that specify the resources a user is authorized to use or modify.BitValuesnwPrinterCommunicationServerAccountsBadPasswordCount uint32DescriptionThe BadPasswordCount property indicates the number of times the user enters a bad password when logging on to a Win32 system. Example: 0CodePage uint32DescriptionThe CodePage property specifies the code page for the user's language of choice. A code page is the character set used.Comment owstringDescriptionThe Comment property contains a comment or description for this login profile.CountryCode   "uint32DescriptionThe CountryCode property specifies the country/region code for the user's language of choice.Flags $+    uint32DescriptionThe Flags property indicates the properties available to this network profile. Properties that can be set include: UF_SCRIPT - A logon script executed. This value must be set for LAN Manager 2.0 and Windows NT/Windows 2000. UF_ACCOUNTDISABLE - The user's account is disabled. UF_HOMEDIR_REQUIRED - A home directory is required. This value is ignored in Windows NT/Windows 2000. UF_PASSWD_NOTREQD - No password is required. UF_PASSWD_CANT_CHANGE - The user cannot change the password. UF_LOCKOUT - The account is currently locked out. For NetUserSetInfo, this value can be cleared to unlock a previously locked account. This value cannot be used to lock a previously unlocked account. UF_DONT_EXPIRE_PASSWD - For Windows NT/Windows 2000: password should never expire on the account. The following properties describe the account type. Only one value can be set: UF_NORMAL_ACCOUNT - Default account type that represents a typical user. UF_TEMP_DUPLICATE_ACCOUNT - An account for users whose primary account is in another domain. This account provides user access to this domain, but not to any domain that trusts this domain. The User Manager refers to this account type as a local user account. UF_WORKSTATION_TRUST_ACCOUNT - A computer account for a Windows NT/Windows 2000 workstation or a Windows NT/Windows 2000 server that is a member of this domain. UF_SERVER_TRUST_ACCOUNT - A computer account for a backup domain controller that is a member of this domain. UF_INTERDOMAIN_TRUST_ACCOUNT - A permit to trust account for a domain that trusts other domains.BitValues < G Z o !UF_SCRIPTUF_ACCOUNTDISABLEUF_HOMEDIR_REQUIREDUF_PASSWD_NOTREQDUF_PASSWD_CANT_CHANGEUF_LOCKOUTUF_DONT_EXPIRE_PASSWDUF_NORMAL_ACCOUNTUF_TEMP_DUPLICATE_ACCOUNTUF_WORKSTATION_TRUST_ACCOUNTUF_SERVER_TRUST_ACCOUNTUF_INTERDOMAIN_TRUST_ACCOUNTFullName ( u}stringDescriptionThe FullName property indicates the full name of the user belonging to the network login profile. This string can beempty if the user chooses not to associate a full name with a user name.HomeDirectory , stringDescriptionThe HomeDirectory property specifies the path to the home directory of the user. This string may be empty if the user chooses not to specify a home directory. Example: \HOMEDIRHomeDirectoryDrive 0 stringDescriptionThe HomeDirectoryDrive property specifies the drive letter assigned to the user's home directory for logon purposes. Example: C:LastLogoffe 4 [erdatetimeDescriptionThe LastLogoff property specifies the date and time the user last logged off the system. This value is calculated from the number of seconds elapsed since 00:00:00, January 1, 1970. A value of zero means that the last logoff time is unknown. The format of this value is yyyymmddhhmmss.mmmmmm sutc. Example: 19521201000230.000000 000LastLogone8 datetimeDescriptionThe LastLogon property indicates the date and time the user last logged on to the system. This value is calculated from the number of seconds elapsed since 00:00:00, January 1, 1970. The format of this value is yyyymmddhhmmss.mmmmmm sutc. Example: 19521201000230.000000 000LogonHours< [cpstringDescriptionThe LogonHours property specifies the times during the week when the user can log on. Each bit represents a unit of time specified by the UnitsPerWeek member. For instance, if the unit of time is hourly, the first bit (bit 0, word 0) is Sunday, 0:00 to 0:59; the second bit (bit 1, word 0) is Sunday, 1:00 to 1:59; and so on. If this member is set to NULL, then there is no time restriction. The time is set to GMT and must be adjusted for other time zones (for example, GMT minus 8 hours for PST).LogonServer@ stringDescriptionThe LogonServer property contains the name of the server to which logon requests are sent. Server names should be preceded by two backslashes (\\). A server name with an asterisk (\\*) indicates that the logon request can be handled by any logon server. A null string indicates that requests are sent to the domain controller. Example: \\MyServerMaximumStorageD NVcuint64DescriptionThe MaximumStorage property specifies the maximum amount of disk space available to the user. If MaximumStorage is set to USER_MAXSTORAGE_UNLIMITED the user is allowed to use all available disk space. Example: 10000000NameL) } stringDescriptionThe Name property specifies the name of the user account on a particular domain or machine. The number of characters in the name cannot exceed the value of UNLEN. Example: somedomain\johndoeNumberOfLogonsP uint32DescriptionThe NumberOfLogons property indicates the number of successful times the user tried to log on to this account. A value of 0xFFFFFFFF indicates that the value is unknown. This property is maintained separately on each backup domain controller (BDC) in the domain. To get an accurate value only the largest value from all BDCs should be used. Example: 4ParametersT =ERstringDescriptionThe Parameters property contains space set aside for use by applications. This string can be null, or it can have any number of characters before the terminating null character. Microsoft products use this member to store user configuration information. Do not modify this information because this value is specific to an application.PasswordAgeeX datetimeDescriptionThe PasswordAge property indicates the length of time a password has been in effect. This value is measured from the number of seconds elapsed since the password was last changed. Example: 00001201000230.000000 000PasswordExpirese\ datetimeDescriptionThe PasswordExpires property indicates the date and time when the password will expire. The value is set in this format: yyyymmddhhmmss.mmmmmm sutc Example: 19521201000230.000000 000PrimaryGroupId`   ( uint32DescriptionThe PrimaryGroupId property specifies the relative ID (RID) of the Primary Global Group for this user. The identifier verifies the primary group to which the user's profile belongs.Privilegesd+ %!-!:!! !uint32DescriptionThe privileges property specifies the level of privilege assigned to the usri3_name property.Values!!!GuestUserAdministratorProfileh " ""stringDescriptionThe Profile property specifies a directory path to the user's profile. This value can be a null string, a local absolute path, or a UNC path. A user profile contains settings that are customizable for each user such as the desktop colors. Example: C:\WinntScriptPathl Q#Y#f#stringDescriptionThe ScriptPath property indicates the directory path to the user's logon script. A logon script automatically executes a set of commands each time a user logs on to a system. Example: C:\win\profiles\ThomasStevenUnitsPerWeekp w$$$uint32DescriptionThe UnitsPerWeek property indicates the number of time units the week is divided into. It is used with the LogonHours property to limit user access to the computer. Example: 168 (hours per weekUserCommentt %%%stringDescriptionThe UserComment property contains a user defined comment or description for this profile.UserIdx -&5&B&uint32DescriptionThe UserId property specifies the relative ID (RID) of the user. The identifier verifies that the user exists and is unique to this domain.UserType|+ ''('z' 'stringDescriptionThe UserType property indicates the type of account the user has privileges to.Values''''' (Normal AccountDuplicate AccountWorkstation Trust AccountServer Trust AccountInterdomain Trust AccountUnknownWorkstations P(X(e(stringDescriptionThe Workstations property contains the names of workstations from which the user can log on. Up to eight workstations can be specified; the names must be separated by commas (,). A null string indicates no restrictions. To disable logons from all workstations to this account, set the UF_ACCOUNTDISABLE in the Flags property of this class. tyion #CIM_Setting ),    7G= O UE Win32_OSRecoveryConfigurationDescriptionThe Win32_OSRecoveryConfiguration class represents the types of information that will be gathered from memory when the operating system fails. This includes boot failures and system crashes.AMENDMENTLOCALEAutoReboot   7@MbooleanDescriptionThe AutoReboot property determines whether the system will automatically reboot during a recovery operation. Values: TRUE or FALSE. If TRUE, the system will automatically rebooted.DebugFilePath >FSstringDescriptionThe DebugFilePath property indicates the full path to the debug file. A debug file is created with the memory state of the machine after a machine failure. Example: C:\WinNT\Memory.dmpKernelDumpOnly  IR_booleanDescriptionThe KernelDumpOnly property indicates whether only kernel debug information will be written to the debug log file. Values TRUE or FALSE. If TRUE, then only the state of kernel is written to a file in the event of a system failure. If FALSE, the system will try to log the state of the memory and any devices that can provide information about the system when it failed.Name)  %stringDescriptionThe Name property contains an identifying name for this instance of the Win32_OSRecoveryConfiguration class.OverwriteExistingDebugFile  booleanDescriptionThe OverwriteExistingDebugFile property indicates whether a new log file will overwrite an existing one. Values: TRUE or FALSE. If TRUE, the existing debug file will be overwritten. If FALSE, a log file is not written if the filename already exists.SendAdminAlert  )2?booleanDescriptionThe SendAdminAlert property indicates whether or not an alert message will be sent to the system administrator in the event of an operating system failure. Values: TRUE or FALSE. If TRUE, the system will send an alert to the system administrator.WriteDebugInfo  s|booleanDescriptionThe WriteDebugInfo property indicates whether or not debugging information is to be written to a log file. Values: TRUE or FALSE. If TRUE, debug information is written to a file.WriteToSystemLog  {  booleanDescriptionThe WriteToSystemLog property indicates whether or not events will be written to a system log. Values: TRUE or FALSE. If TRUE, information will be written to a system log file. sctWCIM_Setting )$  !'Win32_PageFileSettingDescriptionThe Win32_PageFileSetting class represents the settings of a page file. Information contained within objects instantiated from this class specify the page file parameters used when the file is created at system startup. The properties in this class can be modified and deferred until startup. These settings are different from the run time state of a page file expressed through the associated class Win32_PageFileUsage.AMENDMENTLOCALEInitialSize +uint32DescriptionThe InitialSize property indicates the initial size of the page file. Example: 139MaximumSize uint32DescriptionThe MaximumSize property indicates the maximum size of the page file. Example: 178Name ) ^ fsstringDescriptionThe Name property indicates the path and file name of the page file. Example: C:\PAGEFILE.SYS : s%%CIM_Setting ))  dp - D P Xb@VwAM  ,!@!j"w">#K#UUUUUUU$Win32_PrinterConfigurationDescriptionThe Win32_PrinterConfiguration class defines the configuration for a printer device. This includes capabilities such as resolution, color, fonts, and orientation.AMENDMENTLOCALEBitsPerPel  !.uint32DescriptionThe BitsPerPel property contains the number of bits per pixel for the output device Win32 printer. This member is used by display drivers and not by printer drivers. Example: 8Collate  ,booleanDescriptionThe Collate property specifies whether to collate the pages that are printed. To collate is to print out the entire document before printing the next copy, as opposed to printing out each page of the document the required number times. This property is ignored unless the printer driver indicates support for collation. Values: TRUE or FALSE. If TRUE, the printer collates all documents.Color+ j ruint32DescriptionThe Color property indicates whether the document is to be printed in color or monochrome. Some color printers have the capability to print using true black instead of a combination of Yellow, Cyan, and Magenta. This usually creates darker and sharper text for documents. This option is only useful for color printers that support true black printing.Values~MonochromeColorCopies uint32DescriptionThe Copies property indicates the number of copies to be printed. The printer driver must support printing multi-page copies. Example: 2DeviceName stringDescriptionThe DeviceName property specifies the friendly name of the printer. This name is unique to the type of printer and may be truncated because of the limitations of the string from which it is derived. Example PCL/HP LaserJetDisplayFlags uint32DescriptionThe DisplayFlags property contains two bits of information about the display. This member communicates whether the display device is monochrome or colored, and interlaced or non-interlaced, by masking its value with the DM_GRAYSCALE and DM_INTERLACED masks respectively. Printer drivers do not use this property.DisplayFrequency " Y a n uint32DescriptionThe DisplayFrequency property indicates the refresh frequency of the display The refresh frequency for a monitor is the number of times the screen is redrawn per second. Printer drivers do not use this property.DitherType &+   1  9 uint32DescriptionThe DitherType property indicates the dither type of the printer. This member can assume predefined values of 1 to 5, or driver-defined values from 6 to 256. Line art dithering is a special dithering method that produces well defined borders between black, white, and gray scalings. It is not suitable for images that include continuous graduations in intensity and hue such as scanned photographs.ValuesQ _ m y No DitheringCoarse BrushFine BrushLine ArtGreyscaleDriverVersion *   uint32DescriptionThe DriverVersion property indicates the version number of the Win32 printer driver. The version numbers are created and maintained by the driver manufacturer.Duplex .   booleanDescriptionThe Duplex property indicates whether printing is done on one or both sides. Values: TRUE or FALSE. If TRUE, printing is done on both sides.FormName 0 stringDescriptionThe FormName property indicates the name of the form used for the print job. This property is used only on Windows NT/Windows 2000 systems. Example: LegalHorizontalResolutionx uint32DescriptionThe HorizontalResolution property indicates the print resolution along the X axis (width) of the print job. This value is only set when the PrintQuality property of this class is positive and is similar to the XResolution property.ICMIntent4+  uint32DescriptionThe ICMIntent (Image Color Matching Intent) property indicates the specific value of one of the three possible color matching methods (called intents) that should be used by default. ICM applications establish intents by using the ICM functions. This property can assume predefined values of 1 to 3, or driver-defined values from 4 to 256. Non-ICM applications can use this value to determine how the printer handles color printing jobs.ValuesSaturationContrastExact ColorICMMethod8+ 'M Uuint32DescriptionThe ICMMethod (Image Color Matching Method) property specifies how ICM is handled. For a non-ICM application, this property determines if ICM is enabled or disabled. For ICM applications, the system examines this property to determine which part of the computer system handles ICM support. Valuesis|DisabledWindowsDevice DriverDeviceLogPixels< uint32DescriptionThe LogPixels property contains the number of pixels per logical inch. This member is valid only with devices that work with pixels (this excludes devices such as printers).MediaType@+  uint32DescriptionThe MediaType property specifies the type of media being printed on. The property can be set to a predefined value or a driver-defined value greater than or equal to 256. For Windows 95 and later; Windows 2000.ValuesStandardTransparencyGlossyNameD) 1 9FstringDescriptionThe Name property indicates the name of the printer with which this configuration is associated.OrientationH+ N Vuint32DescriptionThe Orientation property indicates the printing orientation of the paper.ValuesblPortraitLandscapePaperLengthL uint32DescriptionThe PaperLength property indicates the length of the paper. Example: 2794PaperSizeP GO\stringDescriptionThe PaperSize property indicates the size of the paper. Example: A4 or LetterPaperWidthT uint32DescriptionThe PaperWidth property indicates the width of the paper. Example: 2159PelsHeightX yuint32DescriptionThe PelsHeight property indicates the height of the displayable surface. This property is not used for printers.PelsWidth\ 8@Muint32DescriptionThe PelsWidth property indicates the width of the displayable surface. This property is not used for printers.PrintQuality`+   uint32DescriptionThe PrintQuality property indicates one of four quality levels of the print job. If a positive value is specified, the quality is measured in dots per inch. Example: DraftValuesDraftLowMediumHighScaled 19Fuint32DescriptionThe Scale property specifies the factor by which the printed output is to be scaled. For example a scale of 75 reduces the print output to 3/4 its original height and width.SpecificationVersionh 8@Muint32DescriptionThe SpecificationVersion property indicates the version number of the initialization data for the device associated with the Win32 printer.TTOptionl+ %2  uint32DescriptionThe TTOption property specifies how TrueType(r) fonts should be printed. There are 3 possible values: Bitmap - Prints TrueType fonts as graphics. This is the default action for dot-matrix printers. Download - Downloads TrueType fonts as soft fonts. This is the default action for printers that use the Printer Control Language (PCL). Substitute - Substitutes device fonts for TrueType fonts. This is the default action for PostScript(r) printers.Values!! !BitmapDownloadSubstituteVerticalResolution | l!t!!uint32DescriptionThe VerticalResolution property indicates the print resolution along the Y axis (height) of the print job. This value is only set when the PrintQuality property of this class is positive, and is similar to the YResolution property.XResolutionp """uint32DescriptionThe XResolution property has been deprecated to theHorizontalResolution property. Please refer to the description of that property.YResolutiont w###uint32DescriptionThe YResolution property has been deprecated to theVerticalResolution property. Please refer to the description of that property. ofCIM_Setting )!   SWin32_ProgramGroupDescriptionThe Win32_ProgramGroup class represents a program group in a Win32 computer system. Examples are Accessories and Startup. This class has been deprecated in favor of the Win32_LogicalProgramGroup class.AMENDMENTLOCALEGroupName  6>KstringDescriptionThe GroupName property indicates the path name of the program group through the Win32 start menu. Example: Accessories\System Tools.Name)  #stringDescriptionThe Name property indicates the user name followedby the Win32 program group name. Example: All Users:Accessories\System ToolsUserName stringDescriptionThe UserName property indicates the users who can accessthe Win32 program group. Example: All Users xa%{%hCIM_Setting ),  }Sf U e Xo:S{OWfz!o~ ! !""UUUUUU#Win32_SerialPortConfigurationDescriptionThe Win32_SerialPortConfiguration class represents the settings for data transmission on a Win32 serial port. this includes configurations for establishing a connection and error checking.AMENDMENTLOCALEAbortReadWriteOnError   @IVbooleanDescriptionThe AbortReadWriteOnError property indicates whether read and write operations are terminated if an error occurs. Values: TRUE or FALSE. If TRUE, the driver terminates all read and write operations with an error status if an error occurs. The driver will not accept any further communications operations until the application acknowledges the error.BaudRate uint32DescriptionThe BaudRate property indicates the baud (bits per second) rate at which the communications device operates. Example: 9600BinaryModeEnabled  booleanDescriptionThe BinaryModeEnabled property indicates whether binary-mode data transfers are enabled for the serial port. Win32 systems only allow binary transfers through serial ports, so this value will always be TRUE.BitsPerByte uint32DescriptionThe BitsPerByte property indicates the number of bits transmitted and received for each byte of data for the Win32 serial port. The number may vary with control and error correction bits, such as parity bits. Example: 8ContinueXMitOnXOff  $booleanDescriptionThe ContinueXMitOnXOff property specifies whether data transmissions continue when the receiving buffer is close to full and an XoffChar character has been sent to the transmitter. Values: TRUE or FALSE. If TRUE, transmission continues after the input buffer has come within XoffLim bytes of being full and the driver has transmitted the XoffChar character to stop receiving bytes. If FALSE, transmission does not continue until the input buffer is within XonLim bytes of being empty and the driver has transmitted the XonChar character to resume reception.CTSOutflowControl  booleanDescriptionThe CTSOutflowControl property determines whether the Clear To Send (CTS) is checked before transmitting data. CTS signals that both devices on the serial connection are ready to transfer data. Values: TRUE or FALSE. If TRUE, data transmission is suspended until CTS signal is given.DiscardNULLBytes    booleanDescriptionThe DiscardNULLBytes property determines whether to discard NULL bytes (characters) when they are received. Values: TRUE or FALSE. If TRUE, NULL bytes are discarded.DSROutflowControl    booleanDescriptionThe DSROutflowControl property determines whether data outflow control is enabled when there is a Data Set Ready (DSR) condition. DSR signals that the connection has been established by the devices on the serial connection. Values: TRUE or FALSE. If TRUE, DSR data transmission is suspended until DSR signal is given.DSRSensitivity    booleanDescriptionThe DSRSensitivity property specifies whether the communications driver is sensitive to the state of the DSR signal. Values: TRUE or FALSE. If TRUE, the driver ignores any bytes received, unless the DSR modem input line is high.DTRFlowControlType "+   g ostringDescriptionThe DTRFlowControlType property specifies the use of the data-terminal-ready (DTR) flow control after a connection has been established. After a communication line has been established the DTR can be left in the following states: enabled, to show that the connection is still active; disabled, to ignore the DTR once received; or it can be used as a data flow control flag.ValuesEnableDisableHandshakeEOFCharacter & uint32DescriptionThe EOFCharacter property specifies the value of the character used to signal the end of data. . Example: ^ZErrorReplaceCharacter* uint32DescriptionThe ErrorReplaceCharacter property specifies the value of the character used to replace bytes received with a parity error. Example: ^CErrorReplacementEnabled . booleanDescriptionThe ErrorReplacementEnabled specifies whether bytes received with parity errors are replaced with the ErrorReplaceCharacter value. Characters with parity errors are only replaced if this member is TRUE and the parity is enabled.EventCharacter0 uint32DescriptionThe EventCharacter specifies the value of the control character that is used to signal an event, such as end of file. Example: ^eIsBusy 4 booleanDescriptionThe IsBusy property determines whether the serial port is busy. Values: TRUE or FALSE. If TRUE, the serial port is busy.Name6) P XestringDescriptionThe Name property indicates the name of the Win32 serial port. Example: COM1Parity:+  F NstringDescriptionThe Parity property specifies the method of parity checking to be used. Parity is used as an error checking technique where an extra parity bit is included with every unit of data. If even parity is used, the parity bit is used to make the total count of bits set an even number. The receiver can then verify the validity of the data by counting the bits that are set. Odd parity, sets the parity bit so that the count of bits set is an odd number. Mark parity always leaves the parity bit set to 1, while space parity always leaves the parity bit set to 0. Example: EvenValuesflqw}NoneOddEvenMarkSpaceParityCheckEnabled > booleanDescriptionThe ParityCheckEnabled property determines whether parity checking is enabled. Values: TRUE or FALSE. If TRUE, parity checking is enabled.RTSFlowControlType@+  stringDescriptionThe RTSFlowControlType property specifies the request-to-send (RTS) flow control. RTS is used to signal that data is available for transmission. Uses of this member include: Disable - RTS is ignored after the first RTS signal is received. Enable - RTS is left on for the data transfer session. Handshake - RTS is turned off if the transmission buffer is more than three-quarters full, and RTS is turned on when the buffer is less than one-half full. Toggle - RTS is turned on if there is any data buffered for transmission. ValuesEnableDisableHandshakeToggleStopBitsD+ ZboL TstringDescriptionThe StopBits specifies the number of stop bits to be used. StopBits separate each unit of data on an asynchronous serial connection. They are also sent continuously when no data is available for transmission. Example: 1Valuesdgl11.52XOffCharacterH uint32DescriptionThe XOffCharacter property specifies the value of the XOFF character for both transmission and reception. XOFF is a software control to stop the transmission of data (whereas RTS and CTS are hardware controls). XON resumes the transmission.XOffXMitThresholdL uint32DescriptionThe XOffXMitThreshold property specifies the maximum number of bytes allowed in the input buffer before the XOFF character is sent.XOnCharacterP uint32DescriptionThe XOnCharacter property specifies the value of the XON character for both transmission and reception. XON is a software control to resume the transmission of data (whereas RTS and CTS are hardware controls). XOFF stops the transmission.XOnXMitThresholdT    uint32DescriptionThe XOnXMitThreshold property specifies the minimum number of bytes allowed in the input buffer before the XON character is sent. This member works in conjunction with XOffXMitThreshold to regulate the rate at which data is transferred.XOnXOffInFlowControlX L!T!a!uint32DescriptionThe XOnXOffInFlowControl property specifies whether XON/XOFF flow control is used during reception. Values TRUE or FALSE. If TRUE the XOffCharacter is sent when the input buffer comes within XOffXMitThreshold bytes of being full, and the XOnCharacter is sent when the input buffer comes within XOnXMitThreshold bytes of being empty.XOnXOffOutFlowControl\ ""#uint32DescriptionThe XOnXOffOutFlowControl specifies whether XON/XOFF flow control is used during transmission. Values TRUE or FALSE. If TRUE, transmission stops when the XOffCharacter is received and starts again when the XonCharacter is received. ctCIM_Setting )#  dWin32_StartupCommandDescriptionThe Win32_StartupCommand class represents a command that runs automatically when a user logs onto the computer system.AMENDMENTLOCALECommand)  stringDescriptionThe Command property indicates the string representing the command line run by the startup command. Example: c:\winnt\notepad.exe myfile.txt.Location6  Z bstringDescriptionThe Location property indicates the path where the startup command resides on the disk file system.ValuesvStartupCommon StartupHKLM\SOFTWARE\Microsoft\Windows\CurrentVersion\RunHKLM\SOFTWARE\Microsoft\Windows\CurrentVersion\RunServicesName) < DQstringDescriptionThe Name property indicates the filename of the startup command. Example: FindFastUser )  stringDescriptionThe User property indicates the user name for whom this startup command will run. Example: mydomain\myname. m2_PtX`CIM_Setting )  =K[iOdXh\ k  4A0C;I.>4BUUUUUWin32_TimeZoneDescriptionThe Win32_TimeZone class represents the time zone information for a Win32 system. This includes changes needed for the transition to and from daylight savings time.AMENDMENTLOCALEBias  sint32DescriptionThe Bias property specifies the current bias for local time translation. The bias is the difference between Coordinated Universal Time (UTC) and local time. All translations between UTC and local time are based on the following formula: UTC = local time + bias. This member is required.DaylightBias wsint32DescriptionThe DaylightBias property specifies a bias value to be used during local time translations that occur during daylight time. This member is ignored if a value for the DaylightDay member is not supplied. The value of this member is added to the Bias member to form the bias used during daylight time. In most time zones, the value of this member is -60.DaylightDay &.;uint32DescriptionThe DaylightDay property specifies the day of the DaylightMonth when the transition from standard time to daylight savings time occurs on this operating system. Example: 15DaylightDayOfWeek+ 5<I uint8DescriptionThe DaylightDayOfWeek property specifies the day of the week when the transition from standard time to daylight savings time occurs on this operating system. Example: 1Values#+4?IQSundayMondayTuesdayWednesdayThursdayFridaySaturdayDaylightHour uint32DescriptionThe DaylightHour property specifies the hour of the day when the transition from standard time to daylight savings time occurs on this operating system. Example: 2DaylightMillisecond uint32DescriptionThe DaylightMillisecond property specifies the millisecond of the DaylightSecond when the transition from standard time to daylight savings time occurs on this operating system.DaylightMinute ! uint32DescriptionThe DaylightMinute property specifies the minute of the DaylightHour when the transition from standard time to daylight savings time occurs on this operating system. Example: 59DaylightMonth %+   _  g uint32DescriptionThe DaylightMonth property specifies the month when the transition from standard time to daylight savings time occurs on this operating system. Example: 1 = JanuaryValues JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecemberDaylightName ) 7 ? L stringDescriptionThe DaylightName property indicates the name of the time zone being represented when daylight savings time is in effect. Example: EDT = Eastern Daylight Time. DaylightSecond - ) 1 > uint32DescriptionThe DaylightSecond property specifies the second of of the DaylightMinute when the transition from standard time to daylight savings time occurs on this operating system. Example: 59DaylightYear 1 0 8 E uint32DescriptionThe DaylightYear property indicates the year when daylight saving time is in effect. This member is not required. Example: 1997StandardBias5 uint32DescriptionThe StandardBias property specifies a bias value to be used when daylight savings time is not in effect. This member is ignored if a value for the StandardDay member is not supplied. The value of this member is added to the Bias member to form the bias during standard time. Example: 0StandardDay9 muuint32DescriptionThe StandardDay property specifies the day of the StandardMonth when the transition from daylight savings time to standard time occurs on this operating system. Example: 31StandardDayOfWeek=+ |: Buint8DescriptionThe StandardDayOfWeek property specifies the day of the week when the transition from daylight savings time to standard time occurs on this operating system. Example: 1Valuesbjr{SundayMondayTuesdayWednesdayThursdayFridaySaturdayStandardHour> uint32DescriptionThe StandardHour property specifies the hour of the day when the transition from daylight savings time to standard time occurs on this operating system. Example: 11StandardMillisecondB uint32DescriptionThe StandardMillisecond property specifies the millisecond of the StandardSecond when the transition from daylight savings time to standard time occurs on this operating system.StandardMinuteF uint32DescriptionThe StandardMinute property specifies the minute of the StandardDay when the transition from daylight savings time to standard time occurs on this operating system. Example: 59StandardMonthJ+  uint32DescriptionThe StandardMonth property specifies the month when the transition from daylight savings time to standard time occurs on this operating system. Example: 12Values  '1JanuaryFebruaryMarchAprilMayJuneJulyAugustSeptemberOctoberNovemberDecemberStandardNameN)  stringDescriptionThe StandardName property indicates the name of the time zone being represented when standard time is in effect. Example: EST = Eastern Standard Time. StandardSecondR jruint32DescriptionThe StandardSecond property specifies the second of the StandardMinute when the transition from daylight savings time to standard time occurs on this operating system. Example: 59StandardYearV nvuint32DescriptionThe StandardYear property indicates the year when standard time is in effect. This member is not required. Example: 1997 ediCIM_Setting )' * 2Ii} ,q * s W m ;H i~,9{_vAN'1 '=UUUUUUWin32_VideoConfigurationDescriptionThe Win32_VideoConfiguration class represents a configuration of a video subsystem. This class has been deprecated in favor of the properties contained in the Win32_VideoController, Win32_DesktopMonitor, and CIM_VideoControllerResolution classesAMENDMENTLOCALEActualColorResolution  u}uint32DescriptionThe ActualColorResolution property indicates the current color depth of the video display.AdapterChipType #+8stringDescriptionThe AdapterChipType property contains the name of the adapter chip. Example: s3AdapterCompatibility)  stringDescriptionThe AdapterCompatibility property specifies the name of the manufacturer of the adapter. This name can be used to compare the compatibility of this device with the needs of the computer system.AdapterDACType stringDescriptionThe AdapterDACType property indicates the name of the digital-to-analog chip (DAC) used in the adapter.AdapterDescription stringDescriptionThe AdapterDescription property contains a description or descriptive name of the video adapter.AdapterRAM  X`muint32DescriptionThe AdapterRAM property indicates the memory size of the video adapter. Example: 16777216AdapterType $  stringDescriptionThe AdapterType property indicates the type of video adapter. Character Set: AlphanumericBitsPerPixel ( uint32DescriptionThe BitsPerPixel property indicates the actual number of bits per pixel representing the display. This may be scaled to the current video setting (represented by the ActualColorResolution property) of the user. Example: 8ColorPlanes , uint32DescriptionThe ColorPlanes property indicates the current number of color planes used in the video display. A color plane is another way to represent pixel colors; instead of assigning a single RGB value to each a pixel, color planes separate the graphic into each of the primary color components (red green blue), and store them in their own planes. This allows for greater color depths on 8 and 16 bit video systems. Present graphics systems have the bitwidth large enough to store color depth information, making only one color plane necessary. Example: 1ColorTableEntries 0 V ^ k uint32DescriptionThe ColorTableEntries property indicates the number of color indexes in a color table for a video display. This property is used if the device has a color depth of no more than 8 bits per pixel. For devices with greater color depths, -1 is returned. Example: 256DeviceSpecificPens 4   uint32DescriptionThe DeviceSpecificPens property indicates the current number of device-specific pens. A value of 0xFFFFFFFF means the device does not support pens. Pens are used to draw lines and theborders of polygonal objects. Example: 3DriverDatee8   datetimeDescriptionThe DriverDate property indicates the date and time the current video driver was installed.HorizontalResolution<   uint32DescriptionThe HorizontalResolution property indicates the current number of pixels in the horizontal direction (X axis) of the display. Example: 1024InfFilename@ t|stringDescriptionThe InfFilename property specifies the path to the .inf file of the video driver. Example: C:\WINNT\SYSTEM32\DRIVERSInfSectionD 7?LstringDescriptionThe InfSection property indicates the section of the .inf file where the Win32 video information resides.InstalledDisplayDriversH stringDescriptionThe InstalledDisplayDrivers property indicates the name of the installed video driver.MonitorManufacturerL stringDescriptionThe MonitorManufacturer property indicates the name of the manufacturer of the display device. Example: NECMonitorTypeP emzstringDescriptionThe MonitorType property indicates the model name of the display device. Example: NEC 5FGpNameT)  (stringDescriptionThe Name property contains an identifying name for the video configuration class.PixelsPerXLogicalInchX uint32DescriptionThe PixelsPerXLogicalInch property indicates the number of pixels per logical inch along the X axis (horizontal direction) of the display.PixelsPerYLogicalInch\ uint32DescriptionThe PixelsPerYLogicalInch property indicates the number of pixels per logical inch along the Y axis (vertical direction) of the display.RefreshRate` zuint32DescriptionThe RefreshRate property indicates the refresh rate of the video configuration. A value of 0 or 1 indicates a default rate is being used. Example: 72ScanModed+ jr stringDescriptionThe ScanMode property determines whether the display device is interlaced.ValuesNon InterlacedInterlacedScreenHeighth 5=Juint32DescriptionThe ScreenHeight property specifies the height of the physical screen.ScreenWidthl uint32DescriptionThe ScreenWidth property specifies the width of the physical screen. SystemPaletteEntriesp iq~uint32DescriptionThe SystemPaletteEntries property indicates the current number of color index entries reserved for system use. This value is only valid for display settings that use an indexed palette . Indexed palettes are not used for color depths greater than 8 bits per pixel. If the color depth is more than 8 bits per pixel, this value is set to NULL. Example: 20VerticalResolutiont !)6uint32DescriptionThe VerticalResolution property indicates the current number of pixels in the vertical direction (Y axis) of the display. Example: 768 laageL 0 kCIM_Setting )4 ? Gb(:^ol|q2B=N ) G rDZ[tUUUUUWin32_WMISettingDescriptionThe Win32_WMISetting class is a Singleton class that contains the operational parameters for the WMI service. Win32_WMISetting can only have one instance. This single instance always exists for each Win32 system, and cannot be deleted. Additional instances cannot be created.AMENDMENTLOCALEASPScriptDefaultNamespace@ stringDescriptionThe ASPScriptDefaultNamespace property contains the namespace used by calls from the script API if none is specified by the caller.ASPScriptEnabled > fo|booleanDescriptionThe ASPScriptEnabled property indicates whether WMI scripting can be used on Active Server Pages (ASP). This property is valid on Windows NT 4.0 systems only. For Windows 2000 systems, WMI scripting is always allowed on ASP.AutorecoverMofs  stringDescriptionThe AutoRecoverMofs property contains a list of fully qualified MOF file names used to initialize or recover the WMI repository. The list determines the order in which MOFs are compiled.AutoStartWin9X+ 0 8uint32DescriptionThe AutoStartWin9X property indicates the circumstances under which WMI will start on Win9X systems.ValuesHU`Don't startAutostartStart on rebootBackupInterval6 uint32DescriptionThe BackupInterval property specifies the length of time that will elapse between backups of the WMI database.BackupLastTimee: nxdatetimeDescriptionThe BackupLastTime property specifies the date and time the last backup was performed.BuildVersion ,stringDescriptionThe BuildVersion property contains version information for the currently installed WMI service.DatabaseDirectory . stringDescriptionThe DatabaseDirectory property specifies the directory path containing the WMI repository.DatabaseMaxSize 2 zuint32DescriptionThe DatabaseMaxSize property specifies the maximum size of the WMI repository.EnableAnonWin9xConnections   ' 0 = booleanDescriptionThe EnableAnonWin9xConnections indicates whether remote access without security checking is permitted. This property only applies to Windows 95 and Windows 98 systems.EnableEvents D  ) 6 booleanDescriptionThe EnableEvents property indicates whether the WMI event subsystem should be enabled. Values: TRUE or FALSE, If TRUE,then the event subsystem is enabled.EnableStartupHeapPreallocation ^  ' 4 booleanDescriptionThe EnableStartupHeapPreallocation property indicates whether WMI will start with a pre-allocated heap. Values: TRUE or FALSE. If TRUE, then a pre-allocated heap with the size of LastStartupHeapPreallocation is created when WMI is initialized.HighThresholdOnClientObjectsF s {  uint32DescriptionThe HighThresholdOnClientObjects property specifies the maximum rate provider created objects can be delivered to clients. To accommodate speed differentials between providers and clients, WMI holds objects in queues before delivering them to consumers.. WMI slows down the addition of new objects into the queue when the low threshold is reached. If this does not help, and high threshold (specified by this property) is reached, WMI will accept no more objects from providers and return WBEM_E_OUT_OF_MEMORY to the clients.HighThresholdOnEventsR uint32DescriptionThe HighThresholdOnEvents property specifies the maximum rate at which events are to be delivered to clients. To accommodate speed differentials between providers and clients, WMI queues events before delivering them to consumers.. WMI slows down the addition of new events into the queue when the low threshold is reached. If this does not help, and high threshold (specified by this property) is reached, WMI will accept no more events from providers and return WBEM_E_OUT_OF_MEMORY to the clients.InstallationDirectory  (0=stringDescriptionThe InstallationDirectory property contains the directory path where the WMI software has been installed. The default location is: \system32\wbem.LastStartupHeapPreallocation` #0uint32DescriptionThe LastStartupHeapPreallocation property specifies the size of the pre-allocated heap created by WMI during initialization.LoggingDirectory * stringDescriptionThe LoggingDirectory property specifies the directory path containing the location of the WMI system log files.LoggingLevel &+ = Euint32DescriptionThe LoggingLevel property indicates whether event logging is enabled and the verbosity level of logging used.ValuesUZiOffError loggingVerbose Error loggingLowThresholdOnClientObjectsJ uint32DescriptionThe LowThresholdOnClientObjects property specifies the rate at which WMI will start to slow the creation of new objects created for clients. To accommodate speed differentials between providers and clients, WMI holds objects in queues before delivering them to consumers.. If the rate of requests for objects grows out of control, WMI gradually slows down the creation of new objects to match the client's rate of use. This slowdown starts when the rate at which objects are being created exceeds the value of this property. The slowdown continues until equilibrium is achieved, or the high threshold is reached.LowThresholdOnEventsV uint32DescriptionThe LowThresholdOnEvents property specifies the rate at which WMI will start to slow the delivery of new events. to accommodate speed differentials between providers and clients, WMI queues events before delivering them to consumers. If the queue grows out of control, WMI slows down the delivery of events gradually to get them in line with the client's rate . This slowdown starts when the rate at which events are generated exceeds the value of the this property. The slowdown continues until either the equilibrium is achieved, or the high threshold is reached.MaxLogFileSize " $uint32DescriptionThe MaxLogFileSize property indicates the maximum size of the log files produced by the WMI service.MaxWaitOnClientObjectsN uint32DescriptionThe MaxWaitOnClientObjects property specifies the amount of time a newly created object waits to be used by the client before it is discarded and an error value is returned.MaxWaitOnEventsZ uint32DescriptionThe MaxWaitOnEvents property specifies the amount of time an event sent to a client is queued before being discarded.MofSelfInstallDirectory stringDescriptionThe MofSelfInstallDirectory property contains the directory path for applications that install MOF files to the CIM repository. WMI automatically compiles any MOF files placed in this directory and, depending on its success, moves the MOF to a subdirectory labeled "good" or "bad". If the "autorecover" pragma is included, the fully qualified file name is added to the AutorecoverMofs list used when WMI is initializing or recovering the repository. The list determines the order in which MOFs are compiled. OFT7 ))  q~CIM_StatisticalInformationDescriptionCIM_StatisticalInformation is a root class for any arbitrary collection of statistical data and/or metrics applicable to one or more managed system elements.AMENDMENTLOCALECaption %stringDescriptionA short textual description (one-line string) for the statistic or metric.Description stringDescriptionA textual description of the statistic or metric.Name $,9stringDescriptionThe Name property defines the label by which the statistic or metric is known. When subclassed, the property can be overridden to be a Key property. UX G$CIM_StatisticalInformation)$   azc|QbCO}UUCIM_DeviceErrorCountsDescriptionCIM_DeviceErrorCounts is a statistical class containing error-related counters for a logical device. The types of errors are as defined by CCITT (Rec X.733) and ISO (IEC 10164-4).AMENDMENTLOCALECriticalErrorCount$ ,4Auint64DescriptionCount of the critical errors. DeviceCreationClassName)  stringDescriptionThe scoping device's creation class name. DeviceID) 3 ;HstringDescriptionThe scoping device's ID. IndeterminateErrorCount uint64DescriptionCount of the indeterminate errors. MajorErrorCount , '4uint64DescriptionCount of the major errors. MinorErrorCount 4 uint64DescriptionCount of the minor errors. Name@)  stringDescriptionThe inherited Name property serves as part of the key for the CIM_DeviceErrorCounts instance. The object is scoped by the logical device to which the statistics apply. SystemCreationClassName   stringDescriptionThe scoping system's creation class name. SystemName {stringDescriptionThe scoping system's name. WarningCount < uint64DescriptionCount of the warnings. 8ar. ResetCounter,DescriptionMethod to reset the error and warning counters. The method takes one parameter as input an integer indicating which counter to reset. For this input parameter, 0 indicates all, 1 indicates a reset of the indeterminate error counter, 2 the critical error counter, 3 the major error counter, 4 the minor error counter and 5 the warning counter. The method returns 0 if successful, 1 if not supported, and any other value if an error occurred. A method is specified so that the logical device's instrumentation, which tabulates the errors and warnings, can also reset its internal processing and counters. BLD117ROOT\CIMV2\ms_409  *__PARAMETERSabstractSelectedCounteruint16 ;IN ;b ID) b uint16 __wBLD117ROOT\CIMV2\ms_409 & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __D")  | uUCIM_StorageErrorDescriptionCIM_StorageError defines blocks of media or memory space that are mapped 'out of use' due to errors. The Key of the class is the StartingAddress property of the bytes in error.AMENDMENTLOCALEDeviceCreationClassName) 4<I STRINGDescriptionThe scoping storage extent's creation class name.DeviceID)  STRINGDescriptionThe scoping storage extent's DeviceID.EndingAddress 5=JUINT64DescriptionThe ending address of the bytes in error.StartingAddress)  UINT64DescriptionThe starting address of the bytes in error.SystemCreationClassName) OWd STRINGDescriptionThe scoping system's creation class name.SystemName)  STRINGDescriptionThe scoping system's name. ) m x |,=UZCIM_SupportAccessDescriptionThe CIM_SupportAccess class defines how to obtain assistance for a product.AMENDMENTLOCALECommunicationInfo STRINGDescriptionCommunicationInfo provides the details of the communication mode. For example, if the communication mode is 'Phone', CommunicationInfo specifies the phone number to be called.CommunicationMode+  UINT16Descriptioncommunication mode defines the form of communication in order to obtain support. For example, phone communication (value=2), fax (3) or email (8) can be specified.ValuesOtherPhoneFaxBBSOnline ServiceWeb PageFTPE-mailDescription /7DSTRINGDescriptionA textual description of the type of support provided.Locale  STRINGDescriptionLocale defines the geographic region and/or language dialect to which this Support resource pertains.SupportAccessId) t| STRINGDescriptionSupportAccessID is an arbitrary, free form string defined by the product vendor or by the organization that deploys the product. This property, since it is a key, should be unique throughout the enterprise.  )$  #CIM_ToDirectoryActionDescriptionThe CIM_ToDirectoryAction association identifies the target directory for the file action. When this association is used, the assumption is that the target directory was created by a previous action. This association cannot exist with a CIM_ToDirectorySpecification association since a file action can only involve a single target directory. AMENDMENTLOCALEDestinationDirectoryf ref:CIM_DirectoryActionDescriptionThe destination directory.FileNamef Ogtref:CIM_CopyFileActionDescriptionThe name of the file.  )+v  CIM_ToDirectorySpecificationDescriptionThe CIM_ToDirectorySpecification association identifies the target directory for the file action. When this association is used, the assumption is that the target directory already existed. This association cannot exist with a CIM_ToDirectoryAction association since a file action can only involve a single target directory.AMENDMENTLOCALEDestinationDirectoryf ref:CIM_DirectorySpecificationDescriptionThe destination directory.FileNamef Jboref:CIM_CopyFileActionDescriptionThe file name.  ) -  sWin32_ClientApplicationSettingDescriptionThe Win32_ClientApplicationSetting class represents an association between an executable and a DCOM application that contains the DCOM configuration options for the executable.AMENDMENTLOCALEApplicationf) 6 Q^ref:Win32_DCOMApplicationDescriptionThe Application reference represents the DCOM application containing configuration options of the executable.Clientf)   +ref:CIM_DataFileDescriptionThe Client reference represents an executable that uses DCOM settings. 8 ))  Win32_ComClassAutoEmulatorDescriptionThe Win32_ComClassAutoEmulator class represents an association between a COM class and another COM class that it automatically emulates.AMENDMENTLOCALENewVersionf)   $1ref:Win32_ClassicCOMClassDescriptionThe NewVersion reference represents the COM component that can automatically emulate the associated COM component. This information is obtained through the AutoTreatAs registry entry.OldVersionf) - HUref:Win32_ClassicCOMClassDescriptionThe OldVersion reference represents the COM component that is automatically emulated by another component.  )%  nWin32_ComClassEmulatorDescriptionThe Win32_ComClassEmulator class represents an association between two versions of a COM class.AMENDMENTLOCALENewVersionf)  ref:Win32_ClassicCOMClassDescriptionThe NewVersion reference represents the COM component containing interfaces that emulate the older version of the component.OldVersionf)  ref:Win32_ClassicCOMClassDescriptionThe OldVersion reference represents the COM component with interfaces that can be emulated by the new version of the component. \4@48$Win32_MethodParameterClass)#+ 6 >K .  ""##%.%))++,-..f0s011UUU63Win32_ProcessStartupDescriptionThe Win32_ProcessStartup class represents the startup configuration of a Win32 process. The class is defined as a Method Type definition, which means that it is used only for passing information to a method (a procedure that provides access to an object's data).AMENDMENTLOCALECreateFlags+ 8  C uint32DescriptionThe CreateFlags property specifies additional values that control the priority class and the creation of the process. The following creation values can be specified in any combination, except as noted: Create_Default_Error_Mode - Newly created processes are given the system default error mode of the calling process instead of inheriting the error mode of the parent process. This flag is useful for multi-threaded shell applications that run with hard errors disabled. Create_New_Console - The new process has a new console, instead of inheriting the parent's console. This flag cannot be used with the Detached_Process flag. Create_New_Process_Group - The new process is the root process of a new process group. The process group includes all processes that are descendants of this root process. The process identifier of the new process group is the same as the process identifier (returned in the ProcessID property of the Win32_Process class). Process groups are used by the GenerateConsoleCtrlEvent function to enable sending a CTRL+C or CTRL+BREAK signal to a group of console processes. Create_Suspended - The primary thread of the new process is created in a suspended state and does not run until the ResumeThread function is called. Create_Unicode_Environment - The environment settings listed in the EnvironmentVariables property use Unicode characters. If clear, the environment block uses ANSI characters. Debug_Process - If this flag is set, the calling process is treated as a debugger, and the new process is a process being debugged. The system notifies the debugger of all debug events that occur in the process being debugged. On Windows 95 and Windows 98 systems, this flag is not valid if the new process is a 16-bit application. Debug_Only_This_Process - If not set and the calling process is being debugged, the new process becomes another process being debugged by the process of the calling debugger. If the calling process is not a process being debugged, no debugging related actions occur. Detached_Process - For console processes, the new process does not have access to the console of the parent process. This flag cannot be used if the Create_New_Console flag is set.BitValuesg v Debug_ProcessDebug_Only_This_ProcessCreate_SuspendedDetached_ProcessCreate_New_ConsoleCreate_New_Process_GroupCreate_Unicode_EnvironmentCreate_Default_Error_ModeEnvironmentVariables  Z b o stringDescriptionThe EnvironmentVariables property contains a list of settings for the configuration of a computer. Environment variables specify search paths for files, directories for temporary files, application-specific options, and other similar information. The system maintains a block of environment settings for each user and one for the computer. The system environment block represents environment variables for all users of the particular computer. A user's environment block represents the environment variables the system maintains for that particular user, including the set of system environment variables. By default, each process receives a copy of the environment block for its parent process. Typically, this is the environment block for the user who is logged on. A process can specify different environment blocks for its child processes.ErrorMode 2+ 1 <uint16DescriptionThe ErrorMode property controls how the operating system handles several types of serious errors. You can specify that the operating system handle these errors or that the application receives and handles them. On some non-x86 processors, misaligned memory references cause an alignment fault exception. The No_Alignment_Fault_Except flag lets you control whether the system automatically fixes such alignment faults or makes them visible to an application. On a MIPS platform, an application must explicitly call SetErrorMode with the No_Alignment_Fault_Except flag to have the operating system automatically fix alignment faults. The default setting is for the operating system to make alignment faults visible to an application. Since the x86 platform does not make alignment faults visible to an application, the No_Alignment_Fault_Except flag will not make the operating system raise an alignment fault error even if the flag is not set. The default state for ErrorMode is to set all flags to 0. Defined values for this flag are are: Fail_Critical_Errors - If this flag is set, the operating system does not display the critical-error-handler message box when such an error occurs. Instead, the operating system sends the error to the calling process. No_Alignment_Fault_Except - (RISC only) If this flag is set, the operating system automatically fixes memory alignment faults and makes them invisible to the application. It does this for the calling process and any descendant processes. This flag has no effect on x86 processors. No_GP_Fault_Error_Box - If this flag is set, the operating system does not display the general-protection-fault message box when such an error occurs. This flag should only be set by debugging applications that handle general protection (GP) faults themselves via an appropriate exception handler. No_Open_File_Error_Box - If this flag is set, the operating system does not display a message box when it fails to find a file. Instead, the error is returned to the calling process. Note, this flag is currently ignored.BitValuesPf}Fail_Critical_ErrorsNo_GP_Fault_Error_BoxNo_Alignment_Fault_ExceptNo_Open_File_Error_BoxFillAttribute ,+   uint32DescriptionThe FillAttribute property specifies the initial text and background colors if a new console window is created in a console application. These values are ignored in GUI applications.BitValues(>OaqForeground_BlueForeground_GreenForeground_RedForeground_IntensityBackground_BlueBackground_GreenBackground_RedBackground_IntensityPriorityClass+ ! !uint32DescriptionThe PriorityClass property controls the priority class of the new process (used to determine the scheduling priorities of the threads in the process). If the PriorityClass property is left null, the priority class defaults to Normal unless the priority class of the creating process is Idle or Below_Normal. In these cases, the child process receives the default priority class of the calling process. One of the following values can be specified: High - Indicates a process that performs time-critical tasks that must be executed immediately for it to run correctly. The threads of a high-priority class process preempt the threads of normal-priority or idle-priority class processes. An example is Windows Task List, which must respond quickly when called by the user, regardless of the load on the operating system. Use extreme care when using the high-priority class, because a high-priority class CPU-bound application can use nearly all available cycles. Only Realtime priority will preempt threads set to this level Idle - Indicates a process whose threads run only when the system is idle and are preempted by the threads of any process running in a higher priority class. An example is a screen saver. The idle priority class is inherited by child processes. Normal - Indicates a normal process with no special scheduling needs. Realtime - Indicates a process that has the highest possible priority. The threads of a real-time priority class process preempt the threads of all other processes, including operating system processes performing important tasks, and high priority threads. For example, a real-time process that executes for more than a very brief interval can cause disk caches not to flush or cause the mouse to be unresponsive. Above_Normal - (Windows 2000 and later) Indicates a process that has priority higher than Normal but lower than High. Below_Normal - (Windows 2000 and later): Indicates a process that has priority higher than Idle but lower than Normal.Values!!!!!!NormalIdleHighRealtimeAbove_NormalBelow_NormalShowWindow 0+ O"W"d"" "uint16DescriptionThe ShowWindow property specifies how the window is to be displayed to the user.Values ""##*#=#F#S#g#r#~##SW_HIDESW_NORMALSW_SHOWMINIMIZEDSW_SHOWMAXIMIZEDSW_SHOWNOACTIVATESW_SHOWSW_MINIMIZESW_SHOWMINNOACTIVESW_SHOWNASW_RESTORESW_SHOWDEFAULTSW_FORCEMINIMIZETitle ###stringDescriptionThe Title property used for console processes contains the string displayed in the title bar if a new console window is created. If NULL, the name of the executable file is used as the window title instead. This property must be NULL for GUI or console processes that do not create a new console window.WinstationDesktop  Z%b%o%stringDescription(For Windows NT only) The WinstationDesktop property specifies either the name of the desktop only or the name of both the desktop and window station for the process. A backslash in the string indicates that the string includes both desktop and window station names. If WinstationDesktop is NULL, the new process inherits the desktop and window station of its parent process. If WinstationDesktop is an empty string, the process does not inherit the desktop and window station of its parent process; instead, the system determines if a new desktop and window station need to be created. A window station is a secure object that contains a clipboard, a set of global atoms and a group of desktop objects. The interactive window station assigned to the logon session of the interactive user also contains the keyboard, mouse, and display device. A desktop is a secure object contained within a window station. A desktop has a logical display surface and contains windows, menus, and hooks. A window station can have multiple desktops. Only the desktops of the interactive window station can be visible and receive user input. X  ***uint32DescriptionThe X property specifies the x offset, in pixels, of the upper left corner of a window if a new window is created. The offsets are from the upper left corner of the screen. For GUI processes, the specified position is used the first time the new process calls CreateWindow to create an overlapped window if the x parameter of CreateWindow is CW_USEDEFAULT. Note, X and Y cannot be specified independently.XCountChars $ ++,uint32DescriptionThe XCountChars property, used for processes creating a console window, specifies the screen buffer width in character columns. These values are ignored in GUI processes. Note, XCountChars and YCountChars cannot be specified independently.XSize ,-4-A-uint32DescriptionThe XSize property specifies the width, in pixels, of the window if a new window is created. For GUI processes, this is used only the first time the new process calls CreateWindow to create an overlapped window if the nWidth parameter of CreateWindow is CW_USEDEFAULT. Note, XSize and YSize cannot be specified independently.Y ...uint32DescriptionThe Y property specifies the y offset, in pixels, of the upper left corner of a window if a new window is created. The offsets are from the upper left corner of the screen. For GUI processes, the specified position is used the first time the new process calls CreateWindow to create an overlapped window if the y parameter of CreateWindow is CW_USEDEFAULT. Note, X and Y cannot be specified independently.YCountChars ( 000uint32DescriptionThe YCountChars property, used for processes creating a console window, specifies the screen buffer height in character rows. These values are ignored in GUI processes. Note, XCountChars and YCountChars cannot be specified independently.YSize  111uint32DescriptionThe YSize property specifies the height, in pixels, of the window if a new window is created. For GUI processes, this is used only the first time the new process calls CreateWindow to create an overlapped window if the nWidth parameter of CreateWindow is CW_USEDEFAULT. Note, XSize and YSize cannot be specified independently.  )  Win32_PnPDeviceDescriptionThe Win32_PnPDevice represents an association between a device (known to Config Manager as a PnPEntity), and the function it performs. Its function is represented by a subclass of the logical device that describes its use. For example, a Win32_Keyboard or Win32_DiskDrive. Both referenced objects represent the same underlying system device - changes to resource allocation on the PnPEntity side will effect the associated Device.AMENDMENTLOCALESameElementf) % <Iref:CIM_LogicalDeviceDescriptionThe SameElement reference represents the logical device properties that are associated with the Plug and Play device.SystemElementf)  (ref:Win32_PnPEntityDescriptionThe SystemElement reference represents the the Plug and Play device associated with the logical device.  )$  wGWin32_ProtocolBindingDescriptionThe Win32_ProtocolBinding class represents an association among a system level driver, network protocol, and network adapter.AMENDMENTLOCALEAntecedentf)  !ref:Win32_NetworkProtocolDescriptionThe Antecedent reference represents the network protocol that is used with the system driver and on the network adapter.Dependentf ref:Win32_SystemDriverDescriptionThe Dependent reference represents the system driver that uses the network adapter through the network protocol of this class.Devicef)  ref:Win32_NetworkAdapterDescriptionThe Device reference represents the properties of the network adapter being used on the computer system. T )%  hWin32_ShareToDirectoryDescriptionThe Win32_ShareToDirectory class represents an association between a shared resource on the computer system and the directory to which it is mapped.AMENDMENTLOCALESharef)   *ref:Win32_ShareDescriptionThe Share reference represents the properties of a shared resource available through the directory.SharedElementf)  ref:CIM_DirectoryDescriptionThe SharedElement reference represents the properties of the directory that has been mapped to a shared resource. kJ  StdRegProvRegProvxk :=Hwz? '3bGT < '"6"e"j&R)b))/|0004777a=>>? CF FOFK:MRMMQnT~TT!Z[[[_bbbfiCreateKey% 2 implementedstaticBLD117ROOT\DEFAULT =  *C__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?string __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __DeleteKeyb o implementedstaticBLD117ROOT\DEFAULT =  *C__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?string __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __EnumKey  implementedstaticBLD117ROOT\DEFAULT =  *C__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?string __ __ __BLD117ROOT\DEFAULT   *H__PARAMETERSabstract sNamesstring  2out  2Y ID ) Y stringReturnValueuint32 uint32out  __ __ __ __ __EnumValuesM Z implementedstaticBLD117ROOT\DEFAULT =  *C__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?string __ __ __TBLD117ROOT\DEFAULT   *>__PARAMETERSabstract sNamesstring  2out  2Y ID ) Y string Typessint32  out    ID ) u  :sint32ReturnValueuint32 uint32out  __ __ __ __DeleteValuen { implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __SetDWORDValue' 4 implementedstaticqBLD117ROOT\DEFAULT % *CJ__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string uValueuint32  Rin  Ry ID ) y uint32 __ __ __ __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetDWORDValueP" ]" implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __BLD117ROOT\DEFAULT   *H__PARAMETERSabstractuValueuint32 2out 2Y ID) Y uint32ReturnValueuint32 uint32out  __ __ __ __ __SetStringValue|) ) implementedstaticqBLD117ROOT\DEFAULT % *CJy__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string sValuestring  Rhelloin  R ID )  string __ __ __ __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetStringValue0 0 implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __BLD117ROOT\DEFAULT   *H__PARAMETERSabstractsValuestring 2out 2Y ID) Y stringReturnValueuint32 uint32out  __ __ __ __ __SetMultiStringValue7 7 implementedstaticqBLD117ROOT\DEFAULT % *CJy__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string  sValuestring   Rhellotherein   R ID  )  string __ __ __ __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetMultiStringValue? ? implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __BLD117ROOT\DEFAULT   *H__PARAMETERSabstract sValuestring  2out  2Y ID ) Y stringReturnValueuint32 uint32out  __ __ __ __ __SetExpandedStringValue:F GF implementedstaticqBLD117ROOT\DEFAULT % *CJy__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string sValuestring  R%path%in  R ID )  string __ __ __ __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetExpandedStringValuelM yM implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __BLD117ROOT\DEFAULT   *H__PARAMETERSabstractsValuestring 2out 2Y ID) Y stringReturnValueuint32 uint32out  __ __ __ __ __SetBinaryValueT T implementedstaticpBLD117ROOT\DEFAULT $ *CJx__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string  uValueuint8   Rin   R~ ID  ) ~ uint8 __ __ __ __ __ __rBLD117ROOT\DEFAULT & *k__PARAMETERSabstractReturnValueuint32 ^uint32out ^f __ __GetBinaryValue[ [ implementedstaticBLD117ROOT\DEFAULT   *C8__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringsValueNamestring in  ID) 0 string __ __ __BLD117ROOT\DEFAULT   *F__PARAMETERSabstract uValueuint8  2out  2X ID ) X uint8ReturnValueuint32 uint32out  __ __ __ __ __CheckAccessb b implementedstaticBLD117ROOT\DEFAULT   *C7__PARAMETERSabstracthDefKeyuint32 3IN 3Z ID) Z uint32sSubKeyNamestring IN  ID) z ?stringuRequireduint32 in  ID) / uint32 __ __ __BLD117ROOT\DEFAULT  *"L__PARAMETERSabstract bGrantedboolean  4out  4\ ID ) \ booleanReturnValueuint32 uint32out  __ __ __ __ ____ExtendedStatus+% ':RWin32_PrivilegesStatusDescriptionThe PrivilegesStatus class reports information about privileges required to complete an operation. It may be returned when an operation failed, or when a partially populated instance has been returned.LocaleUUID{BE46D060-7A7C-11d2-BC85-00104B2CF71C}PrivilegesNotHeld ) q ystringDescriptionPrivilege(s) that are currently known to be required and are not held causing the operation to fail. Example: SE_SHUTDOWN_NAMEPrivilegesRequired ) Q YfstringDescriptionAll privileges that may be required to perform the operation whether currently held or not. This may be a subset or all of the priviliges named in the schema privilege qualifiers and a superset of the PrivilegesNotHeld array property. alMS_WmiInternalN  *Z`KY9BUMSWmi_MofDataWMIProvWMIDescriptionThis class supplies the binary mof informationguid{05901221-D566-11d1-B2F0-00A0C9062910}localeMS\0x409Active   booleanBinaryMofData 6 (/:E uint8WmiDataIdWmiSizeIsSizeInstanceName'   stringSize)  uint32WmiDataIdUnused1) &. uint32WmiDataIdUnused2 ) y uint32WmiDataIdUnused4)  uint32WmiDataId T7MS_WmiInternalN  "/"*4<o|,isUhMSWmi_ProviderInfoWMIProvWMIDescriptionThis class supplies additional information about a data provider. Querying this class with an instance name returned from another class query will return additional information about the instanceguid{C7BF35D0-AADB-11d1-BF4A-00A0C9062910}localeMS\0x409Active  f booleanDescription )  stringWmiDataIdFriendlyName)   stringWmiDataIdInstanceName' a  stringLocation)  stringWmiDataIdManufacturer)   stringWmiDataIdService) U] stringWmiDataId n  MS_WmiInternal[  !.io TaVMSWmi_PnPDeviceIdWMIProvWMIDescriptionThis class supplies the PnPDeviceId for a specific deviceguid{C7BF35D2-AADB-11d1-BF4A-00A0C9062910}GuidName1DATA_PROVIDER_PNPID_GUIDlocaleMS\0x409Active   booleanInstanceName' L  stringPnPDeviceId6  stringWmiDataIdDescriptionPnP Device Id for the device. This property is useful for mapping from the wmi namespace to the cimv2 namespace classes using the view provider foXMS_WmiInternal[ ! &33:/UHMSWmi_PnPInstanceNamesWMIProvWMIDescriptionThis class supplies the Instance names associated with a PnP Device Instance Idguid{C7BF35D3-AADB-11d1-BF4A-00A0C9062910}GuidName1DATA_PROVIDER_PNPID_INSTANCE_NAMES_GUIDlocaleMS\0x409Active  * booleanCount6 ~ uint32WmiDataIdDescriptionCount of instance names associated with this PnPIdInstanceName'   stringInstanceNameList  C  stringWmiDataIdWmiSizeIsCountDescriptionWmi Instance Names for the device. This property is useful for mapping from the wmi namespace to the cimv2 namespace classes using the view provider f( MS_SmBios N # (5HNv~'dj';UUAMSSmBios_RawSMBiosTablesWMIProvWMIDescriptionRaw SMBIOS Tablesguid{8F680850-A584-11d1-BF38-00A0C9062910}localeMS\0x409Active   booleanDmiRevision )  uint8WmiDataIdInstanceName' \  stringSize )  uint32WmiDataIdSMBiosData 6  ! uint8WmiDataIdWmiSizeIsSizeSmbiosMajorVersion) ry uint8WmiDataIdSmbiosMinorVersion )  uint8WmiDataIdUsed20CallingMethod ) -6 booleanWmiDataId  CLANetworkAddressWMIguid{B5BD98B7-0201-11d1-A50E-00A0C9062910}Address 6  uint8WmiDataIdMAX    HQINetworkShortAddressWMIguid{B5BD98B8-0201-11d1-A50E-00A0C9062910}Address 6  uint8WmiDataIdMAX }X:  ENENetworkLinkSpeedWMIguid{60fc6b57-0f66-11d1-96a7-00c04fc3358c}Inbound)  uint32WmiDataIdOutbound)  uint32WmiDataId e3L0 [  $*RZdp}N\NdisEnumerateAdapterWMIWMIProvguid{981f2d7f-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Enumerate AdapterActive   booleanDeviceName6   (5CstringDescriptionDevice name.WmiDataIdInstanceName'   string dG WMIEvent [  (.V^htWeNdisNotifyAdapterRemovalWMIWMIProvguid{981f2d80-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Notify Adapter RemovalActive   booleanDeviceName6 ) 1>LstringDescriptionDevice name.WmiDataIdInstanceName'   string dG WMIEvent [  (.V^htWeNdisNotifyAdapterArrivalWMIWMIProvguid{981f2d81-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Notify Adapter ArrivalActive   booleanDeviceName6 ) 1>LstringDescriptionDevice name.WmiDataIdInstanceName'   string T[  %MU_kxNdisEnumerateVcWMIWMIProvguid{981f2d82-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Enumerate VCActive   booleanInstanceName'    string guWMIEvent [  #)QYco|NdisNotifyVcRemovalWMIWMIProvguid{981f2d79-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Notify VC RemovalActive   booleanInstanceName'   string WMIEvent [  #)QYco|NdisNotifyVcArrivalWMIWMIProvguid{182f9e0c-b1f3-11d0-8dd7-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Notify VC ArrivalActive   booleanInstanceName'   string 4 [  "(PXbn{+NdisHardwareStatusWMIWMIProvguid{5ec10354-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Hardware StatusActive   booleanInstanceName'   stringNdisHardwareStatusC |  uuint32DescriptionCurrent hardware status of the underlying NIC.WmiEnum:W0=NdisHardwareStatusReady1=NdisHardwareStatusInitializing2=NdisHardwareStatusReset3=NdisHardwareStatusClosing4=NdisHardwarestatusNotReadyWmiDataId 8<[  "(PXbn{1UzNdisMediaSupportedWMIWMIProvguid{5ec10355-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Media Types SupportedActive   booleanInstanceName'   stringNdisMediaSupported  C  uint32DescriptionList of media types the NIC supports.WmiDataIdWmiSizeIsNumberElementsNumberElements6 8 @Mouint32DescriptionNumber of media types supported.WmiDataId dr <[  $LT^jw&U{NdisMediaInUseWMIWMIProvguid{5ec10356-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Media Types In UseActive   booleanInstanceName'   stringNdisMediaInUse  C w uint32DescriptionList of media types the NIC is currently supporting.WmiDataIdWmiSizeIsNumberElementsNumberElements6 < DQpuint32DescriptionNumber of media types in use.WmiDataId re [  $*RZdp}%;NdisMaximumLookaheadWMIWMIProvguid{5ec10357-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Maximum Lookahead SupportedActive   booleanInstanceName'   stringNdisMaximumLookahead6  uint32DescriptionThe maximum number of bytes the NIC can always provide as lookahead data.WmiDataId pri$  [  $*RZdp}2NdisMaximumFrameSizeWMIWMIProvguid{5ec10358-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Maximum Frame SizeActive   booleanInstanceName'   stringNdisMaximumFrameSize6 v ~uint32DescriptionThe maximum network packet size in bytes the NIC supports, not including a header.WmiDataId 0 !,NdisLinkSpeed, p < $p  \= [  #KS]iv NdisLinkSpeedWMIWMIProvguid{5ec10359-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Link SpeedActive   booleanInstanceName'   stringNdisLinkSpeed6 ` huuint32DescriptionThe maximum speed of the NIC (kbps).WmiDataId nkurn0 !@NdisTransmitBufferSpace, x P $x 8  [  '-U]gs";NdisTransmitBufferSpaceWMIWMIProvguid{5ec1035a-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Transmit Buffer SpaceActive   booleanInstanceName'   stringNdisTransmitBufferSpace6  uint32DescriptionThe amount of memory, in bytes, on the NIC available for buffering transmit data.WmiDataId 0| !@NdisReceiveBufferSpace{,  \! $  z [  &,T\fr 8NdisReceiveBufferSpaceWMIWMIProvguid{5ec1035b-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Receive Buffer SpaceActive   booleanInstanceName'   stringNdisReceiveBufferSpace6 | uint32DescriptionThe amount of memory on the NIC available for buffering receive data.WmiDataId ca0 !<NdisTransmitBlockSize,h 8 ! P  $8   [  %+S[eq~5NdisTransmitBlockSizeWMIWMIProvguid{5ec1035c-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Transmit Block SizeActive   booleanInstanceName'   stringNdisTransmitBlockSize6 y uint32DescriptionThe minimum number of bytes that a single net packet occupies in the transmit buffer space of the NIC.WmiDataId um0@ !<NdisReceiveBlockSizes, t $ d  [  $*RZdp}2NdisReceiveBlockSizeWMIWMIProvguid{5ec1035d-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Receive Block SizeActive   booleanInstanceName'   stringNdisReceiveBlockSize6 v ~uint32DescriptionThe amount of storage, in bytes, that a single packet occupies in the receive buffer space of the NIC.WmiDataId f @0 !,NdisVendorIDCo,H  H $   [  "JR\hu NdisVendorIDWMIWMIProvguid{5ec1035e-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Vendor IDActive   booleanInstanceName'   stringNdisVendorID6 ] eruint32DescriptionA three-byte IEEE-registered vendor code, followed by a single byte the vendor assigns to identify a particular NIC.WmiDataId te0 !<NdisVendorDescription, l 4! t  $l ( x[ [  %+S[eq~4NdisVendorDescriptionWMIWMIProvguid{5ec1035f-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Vendor DescriptionActive   booleanInstanceName'   stringNdisVendorDescription6 x stringDescriptionZero-terminated string describing the NIC.WmiDataId is0< !@NdisCurrentPacketFilter, T!,O d $ ` | [  '-U]gs";NdisCurrentPacketFilterWMIWMIProvguid{5ec10360-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Current Packet FilterActive   booleanInstanceName'   stringNdisCurrentPacketFilter6  uint32DescriptionCurrent packet types that will be received and indicated by the NIC.WmiDataId 0 !<NdisCurrentLookahead,(  $   [  $*RZdp}1NdisCurrentLookaheadWMIWMIProvguid{5ec10361-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Current LookaheadActive   booleanInstanceName'   stringNdisCurrentLookahead6 u }uint32DescriptionThe number of bytes of received packet data, excluding the header, that will be indicated to the protocol driver.WmiDataId ke0 !4NdisDriverVersion, p d $p $ lM [  !'OWamz(NdisDriverVersionWMIWMIProvguid{5ec10362-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Driver VersionActive   booleanInstanceName'    stringNdisDriverVersion6 l tuint16DescriptionThe NDIS version in use by the NIC driver.WmiDataId Ve0( !<NdisMaximumTotalSize, 4 P $ L  [  $*RZdp}#9NdisMaximumTotalSizeWMIWMIProvguid{5ec10363-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Maximum Packet Total SizeActive   booleanInstanceName'   stringNdisMaximumTotalSize6 } uint32DescriptionThe maximum total packet length, in bytes, the NIC supports, including the header.WmiDataId 0| !0NdisMacOptionsor, < $  k [  $LT^jwNdisMacOptionsWMIWMIProvguid{5ec10365-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS MAC OptionsActive   booleanInstanceName'   stringNdisMacOptions6 c kxuint32DescriptionA bitmask that defines optional properties of the underlying driver or its NIC.WmiDataId _0 !@NdisMediaConnectStatus3,X ( P 4 $(   [  &,T\fr 8)NdisMediaConnectStatusWMIWMIProvguid{5ec10366-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Media Connect StatusActive   booleanInstanceName'   stringNdisMediaConnectStatusC   uint32DescriptionThe connection status of the NIC on the network.WmiEnum0=NdisMediaStateConnected1=NdisMediaStateDisconnectedWmiDataId Id0` !@NdisMaximumSendPackets, $   [  &,T\fr 8NdisMaximumSendPacketsWMIWMIProvguid{5ec10367-a61a-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Maximum Send PacketsActive   booleanInstanceName'   stringNdisMaximumSendPackets6 | uint32DescriptionThe maximum number of send packets the MiniportSendPackets function can accept.WmiDataId 0 !@NdisVendorDriverVersion,T $ 4 $$  o [  '-U]gs$=NdisVendorDriverVersionWMIWMIProvguid{447956f9-a61b-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Vendor's Driver VersionActive   booleanInstanceName'   stringNdisVendorDriverVersion6  uint32DescriptionThe vendor-assigned version number of the NIC driver.WmiDataId er 0 !0NdisTransmitsOk, p $p  lN [  %MU_kx"NdisTransmitsOkWMIWMIProvguid{447956fa-a61b-11d0-8dd4-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionNDIS Transmits OKActive   booleanInstanceName'    stringNdisTransmitsOk6 f n{uint32DescriptionThe number of frames transmitted without errorsWmiDataId tr0 !0NdisReceivesOk,  FSuuint32DescriptionNumber of media types supported.WmiDataId ppe0X!!4NdisCoMediaInUse,!!8 !!$!|!@$[   &NV`ly,UNdisCoMediaInUseWMIWMIProvguid{791ad194-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Media Types In UseActive   booleanInstanceName'   stringNdisCoMediaInUse  C } uint32DescriptionList of media types the NIC is currently supporting.WmiDataIdWmiSizeIsNumberElementsNumberElements6 B JWvuint32DescriptionNumber of media types in use.WmiDataId 0H!!0NdisCoLinkSpeed,!! !t%!,!T!$!l!j [  %MU_kx"NdisCoLinkSpeedWMIWMIProvguid{791ad195-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Link SpeedActive   booleanInstanceName'    stringNdisCoLinkSpeed 6 f object:NetworkLinkSpeedDescriptionThe maximum inbound and outbound speeds of the NIC (kbps).WmiDataId 0!!0NdisCoVendorId,$!!)!d !!$!! [  $LT^jwNdisCoVendorIdWMIWMIProvguid{791ad196-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Vendor IDActive   booleanInstanceName'   stringNdisCoVendorID6 c kxuint32DescriptionA three-byte IEEE-registered vendor code, followed by a single byte the vendor assigns to identify a particular NIC.WmiDataId gl0!!@NdisCoVendorDescription,!P!2! T!!$P!!a [  '-U]gs!:NdisCoVendorDescriptionWMIWMIProvguid{791ad197-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Vendor DescriptionActive   booleanInstanceName'   stringNdisCoVendorDescription6 ~ stringDescriptionZero-terminated string describing the NIC.WmiDataId 0$!!8NdisCoDriverVersion,!!DD!!! "!$!H!tU [  #)QYco|.NdisCoDriverVersionWMIWMIProvguid{791ad198-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Driver VersionActive   booleanInstanceName'   stringNdisCoDriverVersion6 r zuint32DescriptionThe NDIS version in use by the NIC driver.WmiDataId Dr0L"!!4NdisCoMacOptionsC ,!!!!!t%!$!!p"!q [   &NV`ly%NdisCoMacOptionsWMIWMIProvguid{791ad19a-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS MAC OptionsActive   booleanInstanceName'    stringNdisCoMacOptions6 i q~uint32DescriptionA bitmask that defines optional properties of the underlying driver or its NIC.WmiDataId ui0%!!DNdisCoMediaConnectStatus,0%!%! "!,! "!)!$%!%! [  (.V^ht$>/NdisCoMediaConnectStatusWMIWMIProvguid{791ad19b-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Media Connect StatusActive   booleanInstanceName'   stringNdisCoMediaConnectStatusC   $uint32DescriptionThe connection status of the NIC on the network.WmiEnum0=NdisMediaStateConnected1=NdisMediaStateDisconnectedWmiDataId mi0H)!!DNdisCoVendorDriverVersion,(!(!t%!p,!$(!l)!u [   )/W_iu(CNdisCoVendorDriverVersionWMIWMIProvguid{791ad19c-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Vendor's Driver VersionActive   booleanInstanceName'    stringNdisCoVendorDriverVersion6  uint32DescriptionThe vendor-assigned version number of the NIC driver.WmiDataId ri0,!!@NdisCoMinimumLinkSpeed,0,!,!)!/!$,!,! [  &,T\fr 8NdisCoMinimumLinkSpeedWMIWMIProvguid{791ad19d-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Minimum Link SpeedActive   booleanInstanceName'   stringNdisCoMinimumLinkSpeed 6 | object:NetworkLinkSpeedDescriptionThe maximum inbound and outbound speeds of the NIC (kbps).WmiDataId 0/!!<NdisCoTransmitPdusOk,/!\/!X6!p,!2!$\/!0!|] [  $*RZdp}3NdisCoTransmitPdusOkWMIWMIProvguid{0a214805-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Transmits PDUs OKActive   booleanInstanceName'   stringNdisCoTransmitPdusOk6 w uint32DescriptionThe number of PDUs transmitted without errorsWmiDataId an0(3!!8NdisCoReceivePdusOk,2!2!9!/!/!X6!$2!L3! [  #)QYco|/NdisCoReceivePdusOkWMIWMIProvguid{0a214806-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Receive PDUs OKActive   booleanInstanceName'   stringNdisCoReceivePdusOk6 s {uint32DescriptionThe number of PDUs the NIC receives without errors and indicates to bound protocols.WmiDataId ui06!!@NdisCoTransmitPduErrors,6!5!2!9!$5!6!c [  '-U]gs";NdisCoTransmitPduErrorsWMIWMIProvguid{0a214807-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Transmit PDU ErrorsActive   booleanInstanceName'   stringNdisCoTransmitPduErrors6  uint32DescriptionThe number of PDUs a NIC fails to transmit.WmiDataId N09!!@NdisCoReceivePduErrors,X9!(9!p,!=!X6!=!$(9!9! [  &,T\fr 8NdisCoReceivePduErrorsWMIWMIProvguid{0a214808-e35c-11d0-9692-00c04fc3358c}localeMS\0x409WmiExpenseDescriptionCoNDIS Receive PDU ErrorsActive   booleanInstanceName'   stringNdisCoReceivePduErrors6 | uint32DescriptionThe number of PDUs a NIC receives but does not indicate to the protocols due to errors.WmiDataId 00=!!DNdisCoReceivePdusNoBuffer,"7":"y&h&jѿVWDMClassesOfDriverNdisCoMediaInUseC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]($(;"NdisCoLinkSpeedC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,4:":"X9"x<"x%h&jѿUWDMClassesOfDriverNdisCoLinkSpeedC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(<"NdisCoVendorIdC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,;";"D":">"w$h&jѿTWDMClassesOfDriverNdisCoVendorIdC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(D>"NdisCoVendorDescriptionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208t,P=",="I"""x<"?"-h&jѿ]WDMClassesOfDriverNdisCoVendorDescriptionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(?"NdisCoDriverVersionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,>">"8d">"LA"|)h&jѿYWDMClassesOfDriverNdisCoDriverVersionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(xA"NdisCoMacOptionsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,@"p@":"B"?"B"y&h&jѿVWDMClassesOfDriverNdisCoMacOptionsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(C"NdisCoMediaConnectStatusC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,(B"B"LA"D".h&jѿ^WDMClassesOfDriverNdisCoMediaConnectStatusC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(D"NdisCoVendorDriverVersionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,C"C"B"HF"/h&jѿ_WDMClassesOfDriverNdisCoVendorDriverVersionC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(tF"NdisCoMinimumLinkSpeedC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,E"`E"7"L"D"G",h&jѿ\WDMClassesOfDriverNdisCoMinimumLinkSpeedC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(H"NdisCoTransmitPdusOkC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,(G"G"HF"I"}*h&jѿZWDMClassesOfDriverNdisCoTransmitPdusOkC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]/$(I"NdisCoReceivePdusOkC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,H"H"HF",K"G",K"|)h&jѿYWDMClassesOfDriverNdisCoReceivePdusOkC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(XK"NdisCoTransmitPduErrorsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,dJ"@J"G"I"L"-h&jѿ]WDMClassesOfDriverNdisCoTransmitPduErrorsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(L"NdisCoReceivePduErrorsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208, L"K"|N",K"|N",h&jѿ\WDMClassesOfDriverNdisCoReceivePduErrorsC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(N"NdisCoReceivePdusNoBufferC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208,M"M"L"(P"/h&jѿ_WDMClassesOfDriverNdisCoReceivePdusNoBufferC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]$(TP"NdisAtmSupportedVcRatesC:\WINDOWS\System\ndiswmi.sys[NdisMofResource]293482024213598208/,`O"{*9B__Win32Provider{29E08F28-D8BC-4997-9D19-377F79DDF871}MdmProv$("h\\.\ROOT\WMI:__Win32Provider.Name="MdmProv",L"("u, M__InstanceProviderRegistration\\.\ROOT\WMI:__Win32Provider.Name="MdmProv"/0Ĭ"!,dh"stringOperation pstringParameterInfo  stringProviderName string S0""l"<__CIMOMIdentification,"h"""$"h"$"( __SystemClass "-T_a{[=k__CIMOMIdentificationsingletonSetupDate LstringSetupTime ~stringVersionCurrentlyRunning stringVersionUsedToCreateDB  stringWorkingDirectory 5stringThursday, April 12, 2001 GMT1:42:47 AM GMT1.50.1164.0004C:\WINDOWS\SYSTEM\WBEM 0"" "@__SecurityRelatedClass,|"L"""$"L" "hJ "__SecurityRelatedClassabstract ClUI0""L",__NTLMUser9X ,"t""0"t"$"t"<"o __SecurityRelatedClass@GntQ__NTLMUser9XAuthority 8stringFlags fsint32Mask  sint32Name stringType sint32. 0"\"l" t"8__IndicationRelated,"""""H"$"""xZ__SystemClass __IndicationRelatedabstract lagS0""" " __Event,(""##0""0#$"""pT__IndicationRelated  __Eventabstract 0"" ,__PARAMETERS,T"$"H""$"$""\@ __PARAMETERSabstract ET0""" #4__ExtrinsicEventer,\",""8 #"""$",""X<__Event __ExtrinsicEvent 0"L"" "D__NamespaceOperationEvent,"T""@"""  "8,"T""P"$# +1$"T"p"__Event ,%___NamespaceOperationEventTargetNamespace  Kobject:__Namespace 0""T" D__NamespaceCreationEventf,T"$""""$"$""x[#__NamespaceOperationEvent'__NamespaceCreationEvent o0"t"T" D__NamespaceDeletionEvent.,"|"""""  <"8$"|""2LocaleUUID{CC0F48D2-C$"|""x[#__NamespaceOperationEvent'__NamespaceDeletionEvent 0""T" L__NamespaceModificationEvent,@""""$""" #__NamespaceOperationEvent1'd__NamespaceModificationEventPreviousNamespace  Pobject:__Namespace 0"D"" "<__ClassOperationEvent,"""t"$""h"__Event $!K__ClassOperationEventTargetClass  Cobject D0""" <__ClassCreationEventvi,8""#H""""$"""pS__ClassOperationEvent#__ClassCreationEvent 0"@"" <__ClassDeletionEvent,"P"t"H"  "8"P""cedentf@) $"P"d"pS__ClassOperationEvent#__ClassDeletionEvent e0"t"" D__ClassModificationEventr,""""""$""" __ClassOperationEvent)'P__ClassModificationEventPreviousClass  Hobject tf0""" T"D__InstanceOperationEvent,"P"|##H"("$"P""__Event *%Q__InstanceOperationEventTargetInstance  Iobject 0"p"P" @__InstanceCreationEvent,"""|##$"""xY"__InstanceOperationEvent'__InstanceCreationEvent gic0"#P" @__InstanceDeletionEvent,<# #("#("#  #8" ##   ($" #$#xY"__InstanceOperationEvent'__InstanceDeletionEvent 0"@#P" H__InstanceModificationEvent,##|##$"#d# "__InstanceOperationEvent/'V__InstanceModificationEventPreviousInstance  Nobject 0"#" ,__TimerEventx,T#$###$"$## __Event AJq__TimerEventNumFirings 9uint32TimerId istring 0"#"4__AggregateEventte,##`#"##  P#8"### ###$"## __IndicationRelated"IY__AggregateEventNumberOfEvents Auint32Representative  xobject b0"$#" $#0__EventConsumer,### #$"#H# #dF __IndicationRelated 'Xe__EventConsumerabstractCreatorSID  Q uint8MachineName stringMaximumQueueSize uint32unitsbytes 000"4 #"#,__EventFilter,###H##8 #$"#X ##lO__IndicationRelatedLRU__EventFilterCreatorSID   E uint8Name | stringQuery stringQueryLanguage string -0"d #"D__FilterToConsumerBinding, # # #H#$" # #dG__IndicationRelated (2q} F___FilterToConsumerBindingAssociationConsumerf \ ref:__EventConsumerCreatorSID   uint8DeliverSynchronously   booleannot_nullFilterf 3 ref:__EventFilterMaintainSecurityContext   ~booleanSlowDownProviders   boolean l#d ##D__FilterToConsumerBinding#D__FilterToConsumerBinding0"t#" #4__EventGeneratorM_,##8 #|#$"##|]__IndicationRelated __EventGeneratorabstract at0"## #8__TimerInstructionX,D##""H#`##$"##__EventGenerator ,T]__TimerInstructionabstractSkipIfPassed  KbooleanTimerId  string as0"##H__AbsoluteTimerInstruction,##|##@#$"## 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