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File: [OMI] / omi / samples / Providers / Test_TorSwitchSchema / CIM_LogicalPort.h
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Revision: 1.1, Mon Apr 20 17:20:07 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 _CIM_LogicalPort_h
#define _CIM_LogicalPort_h
#include <MI.h>
#include "CIM_LogicalDevice.h"
#include "CIM_ConcreteJob.h"
/*
**==============================================================================
**
** CIM_LogicalPort [CIM_LogicalPort]
**
** Keys:
** SystemCreationClassName
** SystemName
** CreationClassName
** DeviceID
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort /* extends CIM_LogicalDevice */
{
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_EnabledLogicalElement properties */
MI_ConstUint16Field EnabledState;
MI_ConstStringField OtherEnabledState;
MI_ConstUint16Field RequestedState;
MI_ConstUint16Field EnabledDefault;
MI_ConstDatetimeField TimeOfLastStateChange;
MI_ConstUint16AField AvailableRequestedStates;
MI_ConstUint16Field TransitioningToState;
/* CIM_LogicalDevice properties */
/*KEY*/ MI_ConstStringField SystemCreationClassName;
/*KEY*/ MI_ConstStringField SystemName;
/*KEY*/ MI_ConstStringField CreationClassName;
/*KEY*/ MI_ConstStringField DeviceID;
MI_ConstBooleanField PowerManagementSupported;
MI_ConstUint16AField PowerManagementCapabilities;
MI_ConstUint16Field Availability;
MI_ConstUint16Field StatusInfo;
MI_ConstUint32Field LastErrorCode;
MI_ConstStringField ErrorDescription;
MI_ConstBooleanField ErrorCleared;
MI_ConstStringAField OtherIdentifyingInfo;
MI_ConstUint64Field PowerOnHours;
MI_ConstUint64Field TotalPowerOnHours;
MI_ConstStringAField IdentifyingDescriptions;
MI_ConstUint16AField AdditionalAvailability;
MI_ConstUint64Field MaxQuiesceTime;
/* CIM_LogicalPort properties */
MI_ConstUint64Field Speed;
MI_ConstUint64Field MaxSpeed;
MI_ConstUint64Field RequestedSpeed;
MI_ConstUint16Field UsageRestriction;
MI_ConstUint16Field PortType;
MI_ConstStringField OtherPortType;
}
CIM_LogicalPort;
typedef struct _CIM_LogicalPort_Ref
{
CIM_LogicalPort* value;
MI_Boolean exists;
MI_Uint8 flags;
}
CIM_LogicalPort_Ref;
typedef struct _CIM_LogicalPort_ConstRef
{
MI_CONST CIM_LogicalPort* value;
MI_Boolean exists;
MI_Uint8 flags;
}
CIM_LogicalPort_ConstRef;
typedef struct _CIM_LogicalPort_Array
{
struct _CIM_LogicalPort** data;
MI_Uint32 size;
}
CIM_LogicalPort_Array;
typedef struct _CIM_LogicalPort_ConstArray
{
struct _CIM_LogicalPort MI_CONST* MI_CONST* data;
MI_Uint32 size;
}
CIM_LogicalPort_ConstArray;
typedef struct _CIM_LogicalPort_ArrayRef
{
CIM_LogicalPort_Array value;
MI_Boolean exists;
MI_Uint8 flags;
}
CIM_LogicalPort_ArrayRef;
typedef struct _CIM_LogicalPort_ConstArrayRef
{
CIM_LogicalPort_ConstArray value;
MI_Boolean exists;
MI_Uint8 flags;
}
CIM_LogicalPort_ConstArrayRef;
MI_EXTERN_C MI_CONST MI_ClassDecl CIM_LogicalPort_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Construct(
_Out_ CIM_LogicalPort* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructInstance(context, &CIM_LogicalPort_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clone(
_In_ const CIM_LogicalPort* self,
_Outptr_ CIM_LogicalPort** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Boolean MI_CALL CIM_LogicalPort_IsA(
_In_ const MI_Instance* self)
{
MI_Boolean res = MI_FALSE;
return MI_Instance_IsA(self, &CIM_LogicalPort_rtti, &res) == MI_RESULT_OK && res;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Destruct(_Inout_ CIM_LogicalPort* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Delete(_Inout_ CIM_LogicalPort* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Post(
_In_ const CIM_LogicalPort* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_InstanceID(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_InstanceID(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_InstanceID(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Caption(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_Caption(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_Caption(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
1);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Description(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_Description(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_Description(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
2);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_ElementName(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_ElementName(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_ElementName(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
3);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_InstallDate(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_InstallDate(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->InstallDate, 0, sizeof(self->InstallDate));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Name(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_Name(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_Name(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
5);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_OperationalStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_OperationalStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_OperationalStatus(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
6);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_StatusDescriptions(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_StatusDescriptions(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_StatusDescriptions(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
7);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Status(
_Inout_ CIM_LogicalPort* 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_LogicalPort_SetPtr_Status(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_Status(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
8);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_HealthState(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_HealthState(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->HealthState, 0, sizeof(self->HealthState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_CommunicationStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_CommunicationStatus(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->CommunicationStatus, 0, sizeof(self->CommunicationStatus));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_DetailedStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_DetailedStatus(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->DetailedStatus, 0, sizeof(self->DetailedStatus));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_OperatingStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_OperatingStatus(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->OperatingStatus, 0, sizeof(self->OperatingStatus));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_PrimaryStatus(
_Inout_ CIM_LogicalPort* 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_LogicalPort_Clear_PrimaryStatus(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->PrimaryStatus, 0, sizeof(self->PrimaryStatus));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_EnabledState(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->EnabledState)->value = x;
((MI_Uint16Field*)&self->EnabledState)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_EnabledState(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->EnabledState, 0, sizeof(self->EnabledState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_OtherEnabledState(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
15,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_OtherEnabledState(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
15,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_OtherEnabledState(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
15);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_RequestedState(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->RequestedState)->value = x;
((MI_Uint16Field*)&self->RequestedState)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_RequestedState(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->RequestedState, 0, sizeof(self->RequestedState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_EnabledDefault(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->EnabledDefault)->value = x;
((MI_Uint16Field*)&self->EnabledDefault)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_EnabledDefault(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->EnabledDefault, 0, sizeof(self->EnabledDefault));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_TimeOfLastStateChange(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Datetime x)
{
((MI_DatetimeField*)&self->TimeOfLastStateChange)->value = x;
((MI_DatetimeField*)&self->TimeOfLastStateChange)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_TimeOfLastStateChange(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->TimeOfLastStateChange, 0, sizeof(self->TimeOfLastStateChange));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_AvailableRequestedStates(
_Inout_ CIM_LogicalPort* 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,
19,
(MI_Value*)&arr,
MI_UINT16A,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_AvailableRequestedStates(
_Inout_ CIM_LogicalPort* 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,
19,
(MI_Value*)&arr,
MI_UINT16A,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_AvailableRequestedStates(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
19);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_TransitioningToState(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->TransitioningToState)->value = x;
((MI_Uint16Field*)&self->TransitioningToState)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_TransitioningToState(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->TransitioningToState, 0, sizeof(self->TransitioningToState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_SystemCreationClassName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
21,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_SystemCreationClassName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
21,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_SystemCreationClassName(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
21);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_SystemName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
22,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_SystemName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
22,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_SystemName(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
22);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_CreationClassName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
23,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_CreationClassName(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
23,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_CreationClassName(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
23);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_DeviceID(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
24,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_DeviceID(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
24,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_DeviceID(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
24);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_PowerManagementSupported(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Boolean x)
{
((MI_BooleanField*)&self->PowerManagementSupported)->value = x;
((MI_BooleanField*)&self->PowerManagementSupported)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_PowerManagementSupported(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->PowerManagementSupported, 0, sizeof(self->PowerManagementSupported));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_PowerManagementCapabilities(
_Inout_ CIM_LogicalPort* 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,
26,
(MI_Value*)&arr,
MI_UINT16A,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_PowerManagementCapabilities(
_Inout_ CIM_LogicalPort* 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,
26,
(MI_Value*)&arr,
MI_UINT16A,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_PowerManagementCapabilities(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
26);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Availability(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->Availability)->value = x;
((MI_Uint16Field*)&self->Availability)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_Availability(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->Availability, 0, sizeof(self->Availability));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_StatusInfo(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->StatusInfo)->value = x;
((MI_Uint16Field*)&self->StatusInfo)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_StatusInfo(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->StatusInfo, 0, sizeof(self->StatusInfo));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_LastErrorCode(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->LastErrorCode)->value = x;
((MI_Uint32Field*)&self->LastErrorCode)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_LastErrorCode(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->LastErrorCode, 0, sizeof(self->LastErrorCode));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_ErrorDescription(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
30,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_ErrorDescription(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
30,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_ErrorDescription(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
30);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_ErrorCleared(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Boolean x)
{
((MI_BooleanField*)&self->ErrorCleared)->value = x;
((MI_BooleanField*)&self->ErrorCleared)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_ErrorCleared(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->ErrorCleared, 0, sizeof(self->ErrorCleared));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_OtherIdentifyingInfo(
_Inout_ CIM_LogicalPort* 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,
32,
(MI_Value*)&arr,
MI_STRINGA,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_OtherIdentifyingInfo(
_Inout_ CIM_LogicalPort* 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,
32,
(MI_Value*)&arr,
MI_STRINGA,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_OtherIdentifyingInfo(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
32);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_PowerOnHours(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->PowerOnHours)->value = x;
((MI_Uint64Field*)&self->PowerOnHours)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_PowerOnHours(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->PowerOnHours, 0, sizeof(self->PowerOnHours));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_TotalPowerOnHours(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->TotalPowerOnHours)->value = x;
((MI_Uint64Field*)&self->TotalPowerOnHours)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_TotalPowerOnHours(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->TotalPowerOnHours, 0, sizeof(self->TotalPowerOnHours));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_IdentifyingDescriptions(
_Inout_ CIM_LogicalPort* 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,
35,
(MI_Value*)&arr,
MI_STRINGA,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_IdentifyingDescriptions(
_Inout_ CIM_LogicalPort* 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,
35,
(MI_Value*)&arr,
MI_STRINGA,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_IdentifyingDescriptions(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
35);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_AdditionalAvailability(
_Inout_ CIM_LogicalPort* 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,
36,
(MI_Value*)&arr,
MI_UINT16A,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_AdditionalAvailability(
_Inout_ CIM_LogicalPort* 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,
36,
(MI_Value*)&arr,
MI_UINT16A,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_AdditionalAvailability(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
36);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_MaxQuiesceTime(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->MaxQuiesceTime)->value = x;
((MI_Uint64Field*)&self->MaxQuiesceTime)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_MaxQuiesceTime(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->MaxQuiesceTime, 0, sizeof(self->MaxQuiesceTime));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_Speed(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->Speed)->value = x;
((MI_Uint64Field*)&self->Speed)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_Speed(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->Speed, 0, sizeof(self->Speed));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_MaxSpeed(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->MaxSpeed)->value = x;
((MI_Uint64Field*)&self->MaxSpeed)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_MaxSpeed(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->MaxSpeed, 0, sizeof(self->MaxSpeed));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_RequestedSpeed(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint64 x)
{
((MI_Uint64Field*)&self->RequestedSpeed)->value = x;
((MI_Uint64Field*)&self->RequestedSpeed)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_RequestedSpeed(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->RequestedSpeed, 0, sizeof(self->RequestedSpeed));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_UsageRestriction(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->UsageRestriction)->value = x;
((MI_Uint16Field*)&self->UsageRestriction)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_UsageRestriction(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->UsageRestriction, 0, sizeof(self->UsageRestriction));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_PortType(
_Inout_ CIM_LogicalPort* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->PortType)->value = x;
((MI_Uint16Field*)&self->PortType)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_PortType(
_Inout_ CIM_LogicalPort* self)
{
memset((void*)&self->PortType, 0, sizeof(self->PortType));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Set_OtherPortType(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
43,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPtr_OtherPortType(
_Inout_ CIM_LogicalPort* self,
_In_z_ const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
43,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Clear_OtherPortType(
_Inout_ CIM_LogicalPort* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
43);
}
/*
**==============================================================================
**
** CIM_LogicalPort.RequestStateChange()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_RequestStateChange
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
/*IN*/ MI_ConstUint16Field RequestedState;
/*OUT*/ CIM_ConcreteJob_ConstRef Job;
/*IN*/ MI_ConstDatetimeField TimeoutPeriod;
}
CIM_LogicalPort_RequestStateChange;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_RequestStateChange_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Construct(
_Out_ CIM_LogicalPort_RequestStateChange* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_RequestStateChange_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Clone(
_In_ const CIM_LogicalPort_RequestStateChange* self,
_Outptr_ CIM_LogicalPort_RequestStateChange** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Destruct(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Delete(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Post(
_In_ const CIM_LogicalPort_RequestStateChange* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Set_MIReturn(
_Inout_ CIM_LogicalPort_RequestStateChange* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Clear_MIReturn(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Set_RequestedState(
_Inout_ CIM_LogicalPort_RequestStateChange* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->RequestedState)->value = x;
((MI_Uint16Field*)&self->RequestedState)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Clear_RequestedState(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
memset((void*)&self->RequestedState, 0, sizeof(self->RequestedState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Set_Job(
_Inout_ CIM_LogicalPort_RequestStateChange* self,
_In_ const CIM_ConcreteJob* x)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
2,
(MI_Value*)&x,
MI_REFERENCE,
0);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_SetPtr_Job(
_Inout_ CIM_LogicalPort_RequestStateChange* self,
_In_ const CIM_ConcreteJob* x)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
2,
(MI_Value*)&x,
MI_REFERENCE,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Clear_Job(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
2);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Set_TimeoutPeriod(
_Inout_ CIM_LogicalPort_RequestStateChange* self,
_In_ MI_Datetime x)
{
((MI_DatetimeField*)&self->TimeoutPeriod)->value = x;
((MI_DatetimeField*)&self->TimeoutPeriod)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RequestStateChange_Clear_TimeoutPeriod(
_Inout_ CIM_LogicalPort_RequestStateChange* self)
{
memset((void*)&self->TimeoutPeriod, 0, sizeof(self->TimeoutPeriod));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.SetPowerState()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_SetPowerState
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
/*IN*/ MI_ConstUint16Field PowerState;
/*IN*/ MI_ConstDatetimeField Time;
}
CIM_LogicalPort_SetPowerState;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_SetPowerState_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Construct(
_Out_ CIM_LogicalPort_SetPowerState* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_SetPowerState_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Clone(
_In_ const CIM_LogicalPort_SetPowerState* self,
_Outptr_ CIM_LogicalPort_SetPowerState** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Destruct(
_Inout_ CIM_LogicalPort_SetPowerState* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Delete(
_Inout_ CIM_LogicalPort_SetPowerState* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Post(
_In_ const CIM_LogicalPort_SetPowerState* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Set_MIReturn(
_Inout_ CIM_LogicalPort_SetPowerState* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Clear_MIReturn(
_Inout_ CIM_LogicalPort_SetPowerState* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Set_PowerState(
_Inout_ CIM_LogicalPort_SetPowerState* self,
_In_ MI_Uint16 x)
{
((MI_Uint16Field*)&self->PowerState)->value = x;
((MI_Uint16Field*)&self->PowerState)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Clear_PowerState(
_Inout_ CIM_LogicalPort_SetPowerState* self)
{
memset((void*)&self->PowerState, 0, sizeof(self->PowerState));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Set_Time(
_Inout_ CIM_LogicalPort_SetPowerState* self,
_In_ MI_Datetime x)
{
((MI_DatetimeField*)&self->Time)->value = x;
((MI_DatetimeField*)&self->Time)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SetPowerState_Clear_Time(
_Inout_ CIM_LogicalPort_SetPowerState* self)
{
memset((void*)&self->Time, 0, sizeof(self->Time));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.Reset()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_Reset
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
}
CIM_LogicalPort_Reset;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_Reset_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Construct(
_Out_ CIM_LogicalPort_Reset* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_Reset_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Clone(
_In_ const CIM_LogicalPort_Reset* self,
_Outptr_ CIM_LogicalPort_Reset** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Destruct(
_Inout_ CIM_LogicalPort_Reset* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Delete(
_Inout_ CIM_LogicalPort_Reset* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Post(
_In_ const CIM_LogicalPort_Reset* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Set_MIReturn(
_Inout_ CIM_LogicalPort_Reset* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_Reset_Clear_MIReturn(
_Inout_ CIM_LogicalPort_Reset* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.EnableDevice()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_EnableDevice
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
/*IN*/ MI_ConstBooleanField Enabled;
}
CIM_LogicalPort_EnableDevice;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_EnableDevice_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Construct(
_Out_ CIM_LogicalPort_EnableDevice* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_EnableDevice_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Clone(
_In_ const CIM_LogicalPort_EnableDevice* self,
_Outptr_ CIM_LogicalPort_EnableDevice** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Destruct(
_Inout_ CIM_LogicalPort_EnableDevice* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Delete(
_Inout_ CIM_LogicalPort_EnableDevice* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Post(
_In_ const CIM_LogicalPort_EnableDevice* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Set_MIReturn(
_Inout_ CIM_LogicalPort_EnableDevice* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Clear_MIReturn(
_Inout_ CIM_LogicalPort_EnableDevice* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Set_Enabled(
_Inout_ CIM_LogicalPort_EnableDevice* self,
_In_ MI_Boolean x)
{
((MI_BooleanField*)&self->Enabled)->value = x;
((MI_BooleanField*)&self->Enabled)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_EnableDevice_Clear_Enabled(
_Inout_ CIM_LogicalPort_EnableDevice* self)
{
memset((void*)&self->Enabled, 0, sizeof(self->Enabled));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.OnlineDevice()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_OnlineDevice
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
/*IN*/ MI_ConstBooleanField Online;
}
CIM_LogicalPort_OnlineDevice;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_OnlineDevice_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Construct(
_Out_ CIM_LogicalPort_OnlineDevice* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_OnlineDevice_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Clone(
_In_ const CIM_LogicalPort_OnlineDevice* self,
_Outptr_ CIM_LogicalPort_OnlineDevice** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Destruct(
_Inout_ CIM_LogicalPort_OnlineDevice* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Delete(
_Inout_ CIM_LogicalPort_OnlineDevice* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Post(
_In_ const CIM_LogicalPort_OnlineDevice* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Set_MIReturn(
_Inout_ CIM_LogicalPort_OnlineDevice* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Clear_MIReturn(
_Inout_ CIM_LogicalPort_OnlineDevice* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Set_Online(
_Inout_ CIM_LogicalPort_OnlineDevice* self,
_In_ MI_Boolean x)
{
((MI_BooleanField*)&self->Online)->value = x;
((MI_BooleanField*)&self->Online)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_OnlineDevice_Clear_Online(
_Inout_ CIM_LogicalPort_OnlineDevice* self)
{
memset((void*)&self->Online, 0, sizeof(self->Online));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.QuiesceDevice()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_QuiesceDevice
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
/*IN*/ MI_ConstBooleanField Quiesce;
}
CIM_LogicalPort_QuiesceDevice;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_QuiesceDevice_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Construct(
_Out_ CIM_LogicalPort_QuiesceDevice* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_QuiesceDevice_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Clone(
_In_ const CIM_LogicalPort_QuiesceDevice* self,
_Outptr_ CIM_LogicalPort_QuiesceDevice** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Destruct(
_Inout_ CIM_LogicalPort_QuiesceDevice* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Delete(
_Inout_ CIM_LogicalPort_QuiesceDevice* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Post(
_In_ const CIM_LogicalPort_QuiesceDevice* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Set_MIReturn(
_Inout_ CIM_LogicalPort_QuiesceDevice* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Clear_MIReturn(
_Inout_ CIM_LogicalPort_QuiesceDevice* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Set_Quiesce(
_Inout_ CIM_LogicalPort_QuiesceDevice* self,
_In_ MI_Boolean x)
{
((MI_BooleanField*)&self->Quiesce)->value = x;
((MI_BooleanField*)&self->Quiesce)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_QuiesceDevice_Clear_Quiesce(
_Inout_ CIM_LogicalPort_QuiesceDevice* self)
{
memset((void*)&self->Quiesce, 0, sizeof(self->Quiesce));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.SaveProperties()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_SaveProperties
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
}
CIM_LogicalPort_SaveProperties;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_SaveProperties_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Construct(
_Out_ CIM_LogicalPort_SaveProperties* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_SaveProperties_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Clone(
_In_ const CIM_LogicalPort_SaveProperties* self,
_Outptr_ CIM_LogicalPort_SaveProperties** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Destruct(
_Inout_ CIM_LogicalPort_SaveProperties* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Delete(
_Inout_ CIM_LogicalPort_SaveProperties* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Post(
_In_ const CIM_LogicalPort_SaveProperties* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Set_MIReturn(
_Inout_ CIM_LogicalPort_SaveProperties* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_SaveProperties_Clear_MIReturn(
_Inout_ CIM_LogicalPort_SaveProperties* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort.RestoreProperties()
**
**==============================================================================
*/
typedef struct _CIM_LogicalPort_RestoreProperties
{
MI_Instance __instance;
/*OUT*/ MI_ConstUint32Field MIReturn;
}
CIM_LogicalPort_RestoreProperties;
MI_EXTERN_C MI_CONST MI_MethodDecl CIM_LogicalPort_RestoreProperties_rtti;
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Construct(
_Out_ CIM_LogicalPort_RestoreProperties* self,
_In_ MI_Context* context)
{
return MI_Context_ConstructParameters(context, &CIM_LogicalPort_RestoreProperties_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Clone(
_In_ const CIM_LogicalPort_RestoreProperties* self,
_Outptr_ CIM_LogicalPort_RestoreProperties** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Destruct(
_Inout_ CIM_LogicalPort_RestoreProperties* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Delete(
_Inout_ CIM_LogicalPort_RestoreProperties* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Post(
_In_ const CIM_LogicalPort_RestoreProperties* self,
_In_ MI_Context* context)
{
return MI_Context_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Set_MIReturn(
_Inout_ CIM_LogicalPort_RestoreProperties* self,
_In_ MI_Uint32 x)
{
((MI_Uint32Field*)&self->MIReturn)->value = x;
((MI_Uint32Field*)&self->MIReturn)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL CIM_LogicalPort_RestoreProperties_Clear_MIReturn(
_Inout_ CIM_LogicalPort_RestoreProperties* self)
{
memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn));
return MI_RESULT_OK;
}
/*
**==============================================================================
**
** CIM_LogicalPort provider function prototypes
**
**==============================================================================
*/
/* The developer may optionally define this structure */
typedef struct _CIM_LogicalPort_Self CIM_LogicalPort_Self;
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Load(
_Outptr_result_maybenull_ CIM_LogicalPort_Self** self,
_In_opt_ MI_Module_Self* selfModule,
_In_ MI_Context* context);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Unload(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_EnumerateInstances(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_ const MI_PropertySet* propertySet,
_In_ MI_Boolean keysOnly,
_In_opt_ const MI_Filter* filter);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_GetInstance(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const MI_PropertySet* propertySet);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_CreateInstance(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_ const CIM_LogicalPort* newInstance);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_ModifyInstance(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_ const CIM_LogicalPort* modifiedInstance,
_In_opt_ const MI_PropertySet* propertySet);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_DeleteInstance(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_ const CIM_LogicalPort* instanceName);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_RequestStateChange(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_RequestStateChange* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_SetPowerState(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_SetPowerState* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_Reset(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_Reset* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_EnableDevice(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_EnableDevice* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_OnlineDevice(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_OnlineDevice* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_QuiesceDevice(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_QuiesceDevice* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_SaveProperties(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_SaveProperties* in);
MI_EXTERN_C void MI_CALL CIM_LogicalPort_Invoke_RestoreProperties(
_In_opt_ CIM_LogicalPort_Self* self,
_In_ MI_Context* context,
_In_opt_z_ const MI_Char* nameSpace,
_In_opt_z_ const MI_Char* className,
_In_opt_z_ const MI_Char* methodName,
_In_ const CIM_LogicalPort* instanceName,
_In_opt_ const CIM_LogicalPort_RestoreProperties* in);
#endif /* _CIM_LogicalPort_h */
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