// // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF // ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO // THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A // PARTICULAR PURPOSE. // // Copyright (c) Microsoft Corporation. All rights reserved // /* **============================================================================== ** ** WARNING: THIS FILE WAS AUTOMATICALLY GENERATED. PLEASE DO NOT EDIT. ** **============================================================================== */ #ifndef _CIM_LogicalElement_h #define _CIM_LogicalElement_h #include #include "CIM_ManagedSystemElement.h" /* **============================================================================== ** ** CIM_LogicalElement [CIM_LogicalElement] ** ** Keys: ** **============================================================================== */ typedef struct _CIM_LogicalElement /* extends CIM_ManagedSystemElement */ { MI_Instance __instance; /* CIM_ManagedElement properties */ MI_ConstStringField InstanceID; MI_ConstStringField Caption; MI_ConstStringField Description; MI_ConstStringField ElementName; /* CIM_ManagedSystemElement properties */ MI_ConstDatetimeField InstallDate; MI_ConstStringField Name; MI_ConstUint16AField OperationalStatus; MI_ConstStringAField StatusDescriptions; MI_ConstStringField Status; MI_ConstUint16Field HealthState; MI_ConstUint16Field CommunicationStatus; MI_ConstUint16Field DetailedStatus; MI_ConstUint16Field OperatingStatus; MI_ConstUint16Field PrimaryStatus; /* CIM_LogicalElement properties */ } CIM_LogicalElement; typedef struct _CIM_LogicalElement_Ref { CIM_LogicalElement* value; MI_Boolean exists; MI_Uint8 flags; } CIM_LogicalElement_Ref; typedef struct _CIM_LogicalElement_ConstRef { MI_CONST CIM_LogicalElement* value; MI_Boolean exists; MI_Uint8 flags; } CIM_LogicalElement_ConstRef; typedef struct _CIM_LogicalElement_Array { struct _CIM_LogicalElement** data; MI_Uint32 size; } CIM_LogicalElement_Array; typedef struct _CIM_LogicalElement_ConstArray { struct _CIM_LogicalElement MI_CONST* MI_CONST* data; MI_Uint32 size; } CIM_LogicalElement_ConstArray; typedef struct _CIM_LogicalElement_ArrayRef { CIM_LogicalElement_Array value; MI_Boolean exists; MI_Uint8 flags; } CIM_LogicalElement_ArrayRef; typedef struct _CIM_LogicalElement_ConstArrayRef { CIM_LogicalElement_ConstArray value; MI_Boolean exists; MI_Uint8 flags; } CIM_LogicalElement_ConstArrayRef; MI_EXTERN_C MI_CONST MI_ClassDecl CIM_LogicalElement_rtti; MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Construct( _Out_ CIM_LogicalElement* self, _In_ MI_Context* context) { return MI_Context_ConstructInstance(context, &CIM_LogicalElement_rtti, (MI_Instance*)&self->__instance); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clone( _In_ const CIM_LogicalElement* self, _Outptr_ CIM_LogicalElement** newInstance) { return MI_Instance_Clone( &self->__instance, (MI_Instance**)newInstance); } MI_INLINE MI_Boolean MI_CALL CIM_LogicalElement_IsA( _In_ const MI_Instance* self) { MI_Boolean res = MI_FALSE; return MI_Instance_IsA(self, &CIM_LogicalElement_rtti, &res) == MI_RESULT_OK && res; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Destruct(_Inout_ CIM_LogicalElement* self) { return MI_Instance_Destruct(&self->__instance); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Delete(_Inout_ CIM_LogicalElement* self) { return MI_Instance_Delete(&self->__instance); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Post( _In_ const CIM_LogicalElement* self, _In_ MI_Context* context) { return MI_Context_PostInstance(context, &self->__instance); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_InstanceID( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 0, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_InstanceID( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 0, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_InstanceID( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_Caption( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 1, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_Caption( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 1, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_Caption( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 1); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_Description( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 2, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_Description( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 2, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_Description( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 2); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_ElementName( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 3, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_ElementName( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 3, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_ElementName( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 3); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_InstallDate( _Inout_ CIM_LogicalElement* self, _In_ MI_Datetime x) { ((MI_DatetimeField*)&self->InstallDate)->value = x; ((MI_DatetimeField*)&self->InstallDate)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_InstallDate( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->InstallDate, 0, sizeof(self->InstallDate)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_Name( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 5, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_Name( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 5, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_Name( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 5); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_OperationalStatus( _Inout_ CIM_LogicalElement* self, _In_reads_opt_(size) const MI_Uint16* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 6, (MI_Value*)&arr, MI_UINT16A, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_OperationalStatus( _Inout_ CIM_LogicalElement* self, _In_reads_opt_(size) const MI_Uint16* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 6, (MI_Value*)&arr, MI_UINT16A, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_OperationalStatus( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 6); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_StatusDescriptions( _Inout_ CIM_LogicalElement* self, _In_reads_opt_(size) const MI_Char** data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 7, (MI_Value*)&arr, MI_STRINGA, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_StatusDescriptions( _Inout_ CIM_LogicalElement* self, _In_reads_opt_(size) const MI_Char** data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 7, (MI_Value*)&arr, MI_STRINGA, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_StatusDescriptions( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 7); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_Status( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 8, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_SetPtr_Status( _Inout_ CIM_LogicalElement* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 8, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_Status( _Inout_ CIM_LogicalElement* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 8); } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_HealthState( _Inout_ CIM_LogicalElement* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->HealthState)->value = x; ((MI_Uint16Field*)&self->HealthState)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_HealthState( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->HealthState, 0, sizeof(self->HealthState)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_CommunicationStatus( _Inout_ CIM_LogicalElement* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->CommunicationStatus)->value = x; ((MI_Uint16Field*)&self->CommunicationStatus)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_CommunicationStatus( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->CommunicationStatus, 0, sizeof(self->CommunicationStatus)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_DetailedStatus( _Inout_ CIM_LogicalElement* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->DetailedStatus)->value = x; ((MI_Uint16Field*)&self->DetailedStatus)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_DetailedStatus( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->DetailedStatus, 0, sizeof(self->DetailedStatus)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_OperatingStatus( _Inout_ CIM_LogicalElement* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->OperatingStatus)->value = x; ((MI_Uint16Field*)&self->OperatingStatus)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_OperatingStatus( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->OperatingStatus, 0, sizeof(self->OperatingStatus)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Set_PrimaryStatus( _Inout_ CIM_LogicalElement* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->PrimaryStatus)->value = x; ((MI_Uint16Field*)&self->PrimaryStatus)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL CIM_LogicalElement_Clear_PrimaryStatus( _Inout_ CIM_LogicalElement* self) { memset((void*)&self->PrimaryStatus, 0, sizeof(self->PrimaryStatus)); return MI_RESULT_OK; } #endif /* _CIM_LogicalElement_h */