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File: [OMI] / omi / samples / Providers / Test_Perf_WMIv2_SingleThread / Perf_Indication.h
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Revision: 1.1, Mon Apr 20 17:20:05 2015 UTC (9 years, 2 months ago) by krisbash Branch: MAIN CVS Tags: OMI_1_0_8_2, OMI_1_0_8_1, HEAD OMI 1.0.8-1 |
/* @migen@ */ /* **============================================================================== ** ** WARNING: THIS FILE WAS AUTOMATICALLY GENERATED. PLEASE DO NOT EDIT. ** **============================================================================== */ #ifndef _Perf_Indication_h #define _Perf_Indication_h #include <MI.h> #include "CIM_Indication.h" #include "Perf_Embedded.h" /* **============================================================================== ** ** Perf_Indication [Perf_Indication] ** ** Keys: ** v_uint64_key ** **============================================================================== */ typedef struct _Perf_Indication /* extends CIM_Indication */ { MI_Instance __instance; /* CIM_Indication properties */ MI_ConstStringField IndicationIdentifier; MI_ConstStringAField CorrelatedIndications; MI_ConstDatetimeField IndicationTime; MI_ConstUint16Field PerceivedSeverity; MI_ConstStringField OtherSeverity; MI_ConstStringField IndicationFilterName; MI_ConstStringField SequenceContext; MI_ConstSint64Field SequenceNumber; /* Perf_Indication properties */ MI_ConstSint8AField v_sint8; MI_ConstUint16Field v_uint16; MI_ConstSint32AField v_sint32; /*KEY*/ MI_ConstUint64Field v_uint64_key; MI_ConstStringAField v_string; MI_ConstBooleanField v_boolean; MI_ConstReal32AField v_real32; MI_ConstReal64Field v_real64; MI_ConstDatetimeAField v_datetime; MI_ConstChar16Field v_char16; Perf_Embedded_ConstRef v_embedded; } Perf_Indication; typedef struct _Perf_Indication_Ref { Perf_Indication* value; MI_Boolean exists; MI_Uint8 flags; } Perf_Indication_Ref; typedef struct _Perf_Indication_ConstRef { MI_CONST Perf_Indication* value; MI_Boolean exists; MI_Uint8 flags; } Perf_Indication_ConstRef; typedef struct _Perf_Indication_Array { struct _Perf_Indication** data; MI_Uint32 size; } Perf_Indication_Array; typedef struct _Perf_Indication_ConstArray { struct _Perf_Indication MI_CONST* MI_CONST* data; MI_Uint32 size; } Perf_Indication_ConstArray; typedef struct _Perf_Indication_ArrayRef { Perf_Indication_Array value; MI_Boolean exists; MI_Uint8 flags; } Perf_Indication_ArrayRef; typedef struct _Perf_Indication_ConstArrayRef { Perf_Indication_ConstArray value; MI_Boolean exists; MI_Uint8 flags; } Perf_Indication_ConstArrayRef; MI_EXTERN_C MI_CONST MI_ClassDecl Perf_Indication_rtti; MI_INLINE MI_Result MI_CALL Perf_Indication_Construct( _Inout_ Perf_Indication* self, _In_ MI_Context* context) { return MI_ConstructInstance(context, &Perf_Indication_rtti, (MI_Instance*)&self->__instance); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clone( _In_ const Perf_Indication* self, _Outptr_ Perf_Indication** newInstance) { return MI_Instance_Clone( &self->__instance, (MI_Instance**)newInstance); } MI_INLINE MI_Boolean MI_CALL Perf_Indication_IsA( _In_ const MI_Instance* self) { MI_Boolean res = MI_FALSE; return MI_Instance_IsA(self, &Perf_Indication_rtti, &res) == MI_RESULT_OK && res; } MI_INLINE MI_Result MI_CALL Perf_Indication_Destruct(_Inout_ Perf_Indication* self) { return MI_Instance_Destruct(&self->__instance); } MI_INLINE MI_Result MI_CALL Perf_Indication_Delete(_Inout_ Perf_Indication* self) { return MI_Instance_Delete(&self->__instance); } MI_INLINE MI_Result MI_CALL Perf_Indication_Post( _In_ const Perf_Indication* self, _In_ MI_Context* context, MI_Uint32 subscriptionIDCount, _In_z_ const MI_Char* bookmark) { return MI_PostIndication(context, &self->__instance, subscriptionIDCount, bookmark); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_IndicationIdentifier( _Inout_ Perf_Indication* 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 Perf_Indication_SetPtr_IndicationIdentifier( _Inout_ Perf_Indication* 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 Perf_Indication_Clear_IndicationIdentifier( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_CorrelatedIndications( _Inout_ Perf_Indication* 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, 1, (MI_Value*)&arr, MI_STRINGA, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_CorrelatedIndications( _Inout_ Perf_Indication* 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, 1, (MI_Value*)&arr, MI_STRINGA, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_CorrelatedIndications( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 1); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_IndicationTime( _Inout_ Perf_Indication* self, _In_ MI_Datetime x) { ((MI_DatetimeField*)&self->IndicationTime)->value = x; ((MI_DatetimeField*)&self->IndicationTime)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_IndicationTime( _Inout_ Perf_Indication* self) { memset((void*)&self->IndicationTime, 0, sizeof(self->IndicationTime)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_PerceivedSeverity( _Inout_ Perf_Indication* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->PerceivedSeverity)->value = x; ((MI_Uint16Field*)&self->PerceivedSeverity)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_PerceivedSeverity( _Inout_ Perf_Indication* self) { memset((void*)&self->PerceivedSeverity, 0, sizeof(self->PerceivedSeverity)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_OtherSeverity( _Inout_ Perf_Indication* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 4, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_OtherSeverity( _Inout_ Perf_Indication* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 4, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_OtherSeverity( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 4); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_IndicationFilterName( _Inout_ Perf_Indication* 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 Perf_Indication_SetPtr_IndicationFilterName( _Inout_ Perf_Indication* 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 Perf_Indication_Clear_IndicationFilterName( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 5); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_SequenceContext( _Inout_ Perf_Indication* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 6, (MI_Value*)&str, MI_STRING, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_SequenceContext( _Inout_ Perf_Indication* self, _In_z_ const MI_Char* str) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 6, (MI_Value*)&str, MI_STRING, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_SequenceContext( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 6); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_SequenceNumber( _Inout_ Perf_Indication* self, _In_ MI_Sint64 x) { ((MI_Sint64Field*)&self->SequenceNumber)->value = x; ((MI_Sint64Field*)&self->SequenceNumber)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_SequenceNumber( _Inout_ Perf_Indication* self) { memset((void*)&self->SequenceNumber, 0, sizeof(self->SequenceNumber)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_sint8( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Sint8* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 8, (MI_Value*)&arr, MI_SINT8A, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_sint8( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Sint8* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 8, (MI_Value*)&arr, MI_SINT8A, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_sint8( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 8); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_uint16( _Inout_ Perf_Indication* self, _In_ MI_Uint16 x) { ((MI_Uint16Field*)&self->v_uint16)->value = x; ((MI_Uint16Field*)&self->v_uint16)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_uint16( _Inout_ Perf_Indication* self) { memset((void*)&self->v_uint16, 0, sizeof(self->v_uint16)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_sint32( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Sint32* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 10, (MI_Value*)&arr, MI_SINT32A, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_sint32( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Sint32* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 10, (MI_Value*)&arr, MI_SINT32A, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_sint32( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 10); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_uint64_key( _Inout_ Perf_Indication* self, _In_ MI_Uint64 x) { ((MI_Uint64Field*)&self->v_uint64_key)->value = x; ((MI_Uint64Field*)&self->v_uint64_key)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_uint64_key( _Inout_ Perf_Indication* self) { memset((void*)&self->v_uint64_key, 0, sizeof(self->v_uint64_key)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_string( _Inout_ Perf_Indication* 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, 12, (MI_Value*)&arr, MI_STRINGA, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_string( _Inout_ Perf_Indication* 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, 12, (MI_Value*)&arr, MI_STRINGA, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_string( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 12); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_boolean( _Inout_ Perf_Indication* self, _In_ MI_Boolean x) { ((MI_BooleanField*)&self->v_boolean)->value = x; ((MI_BooleanField*)&self->v_boolean)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_boolean( _Inout_ Perf_Indication* self) { memset((void*)&self->v_boolean, 0, sizeof(self->v_boolean)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_real32( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Real32* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 14, (MI_Value*)&arr, MI_REAL32A, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_real32( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Real32* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 14, (MI_Value*)&arr, MI_REAL32A, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_real32( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 14); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_real64( _Inout_ Perf_Indication* self, _In_ MI_Real64 x) { ((MI_Real64Field*)&self->v_real64)->value = x; ((MI_Real64Field*)&self->v_real64)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_real64( _Inout_ Perf_Indication* self) { memset((void*)&self->v_real64, 0, sizeof(self->v_real64)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_datetime( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Datetime* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 16, (MI_Value*)&arr, MI_DATETIMEA, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_datetime( _Inout_ Perf_Indication* self, _In_reads_opt_(size) const MI_Datetime* data, _In_ MI_Uint32 size) { MI_Array arr; arr.data = (void*)data; arr.size = size; return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 16, (MI_Value*)&arr, MI_DATETIMEA, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_datetime( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 16); } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_char16( _Inout_ Perf_Indication* self, _In_ MI_Char16 x) { ((MI_Char16Field*)&self->v_char16)->value = x; ((MI_Char16Field*)&self->v_char16)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_char16( _Inout_ Perf_Indication* self) { memset((void*)&self->v_char16, 0, sizeof(self->v_char16)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Perf_Indication_Set_v_embedded( _Inout_ Perf_Indication* self, _In_ const Perf_Embedded* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 18, (MI_Value*)&x, MI_INSTANCE, 0); } MI_INLINE MI_Result MI_CALL Perf_Indication_SetPtr_v_embedded( _Inout_ Perf_Indication* self, _In_ const Perf_Embedded* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 18, (MI_Value*)&x, MI_INSTANCE, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Perf_Indication_Clear_v_embedded( _Inout_ Perf_Indication* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 18); } /* **============================================================================== ** ** Perf_Indication provider function prototypes ** **============================================================================== */ /* The developer may optionally define this structure */ typedef struct _Perf_Indication_Self Perf_Indication_Self; MI_EXTERN_C void MI_CALL Perf_Indication_Load( _Outptr_result_maybenull_ Perf_Indication_Self** self, _In_opt_ MI_Module_Self* selfModule, _In_ MI_Context* context); MI_EXTERN_C void MI_CALL Perf_Indication_Unload( _In_opt_ Perf_Indication_Self* self, _In_ MI_Context* context); MI_EXTERN_C void MI_CALL Perf_Indication_EnableIndications( _In_opt_ Perf_Indication_Self* self, _In_ MI_Context* indicationsContext, _In_opt_z_ const MI_Char* nameSpace, _In_opt_z_ const MI_Char* className); MI_EXTERN_C void MI_CALL Perf_Indication_DisableIndications( _In_opt_ Perf_Indication_Self* self, _In_ MI_Context* indicationsContext, _In_opt_z_ const MI_Char* nameSpace, _In_opt_z_ const MI_Char* className); MI_EXTERN_C void MI_CALL Perf_Indication_Subscribe( _In_opt_ Perf_Indication_Self* self, _In_ MI_Context* context, _In_opt_z_ const MI_Char* nameSpace, _In_opt_z_ const MI_Char* className, _In_opt_ const MI_Filter* filter, _In_opt_z_ const MI_Char* bookmark, _In_ MI_Uint64 subscriptionID, _Outptr_result_maybenull_ void** subscriptionSelf); MI_EXTERN_C void MI_CALL Perf_Indication_Unsubscribe( _In_opt_ Perf_Indication_Self* self, _In_ MI_Context* context, _In_opt_z_ const MI_Char* nameSpace, _In_opt_z_ const MI_Char* className, _In_ MI_Uint64 subscriptionID, _In_opt_ void* subscriptionSelf); #endif /* _Perf_Indication_h */
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