/** * This file has no copyright assigned and is placed in the Public Domain. * This file is part of the mingw-w64 runtime package. * No warranty is given; refer to the file DISCLAIMER.PD within this package. */ #include #if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) #ifndef _MI_h #define _MI_h #include #include #include #pragma pack(push, 8) #if defined(MI_CHAR_TYPE) #if (MI_CHAR_TYPE != 1) && (MI_CHAR_TYPE != 2) #error "MI_CHAR_TYPE must be 1 or 2" #endif #else #define MI_CHAR_TYPE 2 #endif #if (MI_CHAR_TYPE == 2) #define MI_USE_WCHAR #endif #ifndef MI_CONST #define MI_CONST const #endif #define MI_MAJOR ((MI_Uint32)1) #define MI_MINOR ((MI_Uint32)0) #define MI_REVISON ((MI_Uint32)0) #define MI_MAKE_VERSION(MAJ, MIN, REV) ((MAJ << 16) | (MIN << 8) | REV) #define MI_VERSION MI_MAKE_VERSION(MI_MAJOR, MI_MINOR, MI_REVISON) #define MI_UNREFERENCED_PARAMETER(P) (P) #define MI_EXPORT __declspec(dllexport) #define MI_MAIN_CALL __cdecl #define MI_CALL __stdcall #ifdef _MANAGED_PURE #define MI_INLINE_CALL #else #define MI_INLINE_CALL MI_CALL #endif #define MI_INLINE static __inline #define MI_OFFSETOF(STRUCT,FIELD) (((ptrdiff_t)&(((STRUCT*)1)->FIELD))-1) #ifdef __cplusplus #define MI_EXTERN_C extern "C" #else #define MI_EXTERN_C extern #endif #define MI_COUNT(X) (sizeof(X)/sizeof(X[0])) #if (MI_CHAR_TYPE == 1) #define MI_T(STR) STR #else #define MI_T(STR) L##STR #endif #define MI_LL(X) X##i64 #define MI_ULL(X) X##ui64 typedef struct _MI_Server MI_Server; typedef struct _MI_Context MI_Context; typedef struct _MI_ClassDecl MI_ClassDecl; typedef struct _MI_Instance MI_Instance; typedef struct _MI_Filter MI_Filter; typedef struct _MI_PropertySet MI_PropertySet; typedef struct _MI_Qualifier MI_Qualifier; typedef struct _MI_Session MI_Session; typedef struct _MI_ServerFT MI_ServerFT; typedef struct _MI_ProviderFT MI_ProviderFT; typedef struct _MI_PropertySetFT MI_PropertySetFT; typedef struct _MI_InstanceFT MI_InstanceFT; typedef struct _MI_ContextFT MI_ContextFT; typedef struct _MI_FilterFT MI_FilterFT; typedef struct _MI_Class MI_Class; typedef struct _MI_InstanceExFT MI_InstanceExFT; typedef enum _MI_Result { MI_RESULT_OK = 0, MI_RESULT_FAILED = 1, MI_RESULT_ACCESS_DENIED = 2, MI_RESULT_INVALID_NAMESPACE = 3, MI_RESULT_INVALID_PARAMETER = 4, MI_RESULT_INVALID_CLASS = 5, MI_RESULT_NOT_FOUND = 6, MI_RESULT_NOT_SUPPORTED = 7, MI_RESULT_CLASS_HAS_CHILDREN = 8, MI_RESULT_CLASS_HAS_INSTANCES = 9, MI_RESULT_INVALID_SUPERCLASS = 10, MI_RESULT_ALREADY_EXISTS = 11, MI_RESULT_NO_SUCH_PROPERTY = 12, MI_RESULT_TYPE_MISMATCH = 13, MI_RESULT_QUERY_LANGUAGE_NOT_SUPPORTED = 14, MI_RESULT_INVALID_QUERY = 15, MI_RESULT_METHOD_NOT_AVAILABLE = 16, MI_RESULT_METHOD_NOT_FOUND = 17, MI_RESULT_NAMESPACE_NOT_EMPTY = 20, MI_RESULT_INVALID_ENUMERATION_CONTEXT = 21, MI_RESULT_INVALID_OPERATION_TIMEOUT = 22, MI_RESULT_PULL_HAS_BEEN_ABANDONED = 23, MI_RESULT_PULL_CANNOT_BE_ABANDONED = 24, MI_RESULT_FILTERED_ENUMERATION_NOT_SUPPORTED = 25, MI_RESULT_CONTINUATION_ON_ERROR_NOT_SUPPORTED = 26, MI_RESULT_SERVER_LIMITS_EXCEEDED = 27, MI_RESULT_SERVER_IS_SHUTTING_DOWN = 28 } MI_Result; typedef enum _MI_ErrorCategory { MI_ERRORCATEGORY_NOT_SPECIFIED = 0, MI_ERRORCATEGORY_OPEN_ERROR = 1, MI_ERRORCATEGORY_CLOS_EERROR = 2, MI_ERRORCATEGORY_DEVICE_ERROR = 3, MI_ERRORCATEGORY_DEADLOCK_DETECTED = 4, MI_ERRORCATEGORY_INVALID_ARGUMENT = 5, MI_ERRORCATEGORY_INVALID_DATA = 6, MI_ERRORCATEGORY_INVALID_OPERATION = 7, MI_ERRORCATEGORY_INVALID_RESULT = 8, MI_ERRORCATEGORY_INVALID_TYPE = 9, MI_ERRORCATEGORY_METADATA_ERROR = 10, MI_ERRORCATEGORY_NOT_IMPLEMENTED = 11, MI_ERRORCATEGORY_NOT_INSTALLED = 12, MI_ERRORCATEGORY_OBJECT_NOT_FOUND = 13, MI_ERRORCATEGORY_OPERATION_STOPPED = 14, MI_ERRORCATEGORY_OPERATION_TIMEOUT = 15, MI_ERRORCATEGORY_SYNTAX_ERROR = 16, MI_ERRORCATEGORY_PARSER_ERROR = 17, MI_ERRORCATEGORY_ACCESS_DENIED = 18, MI_ERRORCATEGORY_RESOURCE_BUSY = 19, MI_ERRORCATEGORY_RESOURCE_EXISTS = 20, MI_ERRORCATEGORY_RESOURCE_UNAVAILABLE = 21, MI_ERRORCATEGORY_READ_ERROR = 22, MI_ERRORCATEGORY_WRITE_ERROR = 23, MI_ERRORCATEGORY_FROM_STDERR = 24, MI_ERRORCATEGORY_SECURITY_ERROR = 25, MI_ERRORCATEGORY_PROTOCOL_ERROR = 26, MI_ERRORCATEGORY_CONNECTION_ERROR = 27, MI_ERRORCATEGORY_AUTHENTICATION_ERROR = 28, MI_ERRORCATEGORY_LIMITS_EXCEEDED = 29, MI_ERRORCATEGORY_QUOTA_EXCEEDED = 30, MI_ERRORCATEGORY_NOT_ENABLED = 31 } MI_ErrorCategory; typedef enum _MI_PromptType { MI_PROMPTTYPE_NORMAL, MI_PROMPTTYPE_CRITICAL } MI_PromptType; typedef enum _MI_CallbackMode { MI_CALLBACKMODE_REPORT, MI_CALLBACKMODE_INQUIRE, MI_CALLBACKMODE_IGNORE } MI_CallbackMode; typedef enum _MI_ProviderArchitecture { MI_PROVIDER_ARCHITECTURE_32BIT, MI_PROVIDER_ARCHITECTURE_64BIT } MI_ProviderArchitecture; #define MI_FLAG_CLASS (1 << 0) #define MI_FLAG_METHOD (1 << 1) #define MI_FLAG_PROPERTY (1 << 2) #define MI_FLAG_PARAMETER (1 << 3) #define MI_FLAG_ASSOCIATION (1 << 4) #define MI_FLAG_INDICATION (1 << 5) #define MI_FLAG_REFERENCE (1 << 6) #define MI_FLAG_ANY (1|2|4|8|16|32|64) #define MI_FLAG_ENABLEOVERRIDE (1 << 7) #define MI_FLAG_DISABLEOVERRIDE (1 << 8) #define MI_FLAG_RESTRICTED (1 << 9) #define MI_FLAG_TOSUBCLASS (1 << 10) #define MI_FLAG_TRANSLATABLE (1 << 11) #define MI_FLAG_KEY (1 << 12) #define MI_FLAG_IN (1 << 13) #define MI_FLAG_OUT (1 << 14) #define MI_FLAG_REQUIRED (1 << 15) #define MI_FLAG_STATIC (1 << 16) #define MI_FLAG_ABSTRACT (1 << 17) #define MI_FLAG_TERMINAL (1 << 18) #define MI_FLAG_EXPENSIVE (1 << 19) #define MI_FLAG_STREAM (1 << 20) #define MI_FLAG_READONLY (1 << 21) #define MI_FLAG_EXTENDED (1 << 12) #define MI_FLAG_NOT_MODIFIED (1 << 25) #define MI_FLAG_VERSION (1<<26|1<<27|1<<28) #define MI_FLAG_NULL (1 << 29) #define MI_FLAG_BORROW (1 << 30) #define MI_FLAG_ADOPT ((MI_Uint32)(1 << 31)) typedef enum _MI_Type { MI_BOOLEAN = 0, MI_UINT8 = 1, MI_SINT8 = 2, MI_UINT16 = 3, MI_SINT16 = 4, MI_UINT32 = 5, MI_SINT32 = 6, MI_UINT64 = 7, MI_SINT64 = 8, MI_REAL32 = 9, MI_REAL64 = 10, MI_CHAR16 = 11, MI_DATETIME = 12, MI_STRING = 13, MI_REFERENCE = 14, MI_INSTANCE = 15, MI_BOOLEANA = 16, MI_UINT8A = 17, MI_SINT8A = 18, MI_UINT16A = 19, MI_SINT16A = 20, MI_UINT32A = 21, MI_SINT32A = 22, MI_UINT64A = 23, MI_SINT64A = 24, MI_REAL32A = 25, MI_REAL64A = 26, MI_CHAR16A = 27, MI_DATETIMEA = 28, MI_STRINGA = 29, MI_REFERENCEA = 30, MI_INSTANCEA = 31, MI_ARRAY = 16 } MI_Type; typedef unsigned char MI_Boolean; typedef unsigned char MI_Uint8; typedef signed char MI_Sint8; typedef unsigned short MI_Uint16; typedef signed short MI_Sint16; typedef unsigned int MI_Uint32; typedef signed int MI_Sint32; typedef unsigned __int64 MI_Uint64; typedef signed __int64 MI_Sint64; typedef float MI_Real32; typedef double MI_Real64; typedef unsigned short MI_Char16; #if (MI_CHAR_TYPE == 1) typedef char MI_Char; #else typedef wchar_t MI_Char; #endif typedef MI_Char* MI_StringPtr; typedef const MI_Char* MI_ConstStringPtr; #define MI_TRUE ((MI_Boolean)1) #define MI_FALSE ((MI_Boolean)0) typedef struct _MI_Timestamp { MI_Uint32 year; MI_Uint32 month; MI_Uint32 day; MI_Uint32 hour; MI_Uint32 minute; MI_Uint32 second; MI_Uint32 microseconds; MI_Sint32 utc; } MI_Timestamp; typedef struct _MI_Interval { MI_Uint32 days; MI_Uint32 hours; MI_Uint32 minutes; MI_Uint32 seconds; MI_Uint32 microseconds; MI_Uint32 __padding1; MI_Uint32 __padding2; MI_Uint32 __padding3; } MI_Interval; typedef struct _MI_Datetime { MI_Uint32 isTimestamp; union { MI_Timestamp timestamp; MI_Interval interval; } u; } MI_Datetime; typedef struct _MI_BooleanA { MI_Boolean* data; MI_Uint32 size; } MI_BooleanA; typedef struct _MI_Uint8A { MI_Uint8* data; MI_Uint32 size; } MI_Uint8A; typedef struct _MI_Sint8A { MI_Sint8* data; MI_Uint32 size; } MI_Sint8A; typedef struct _MI_Uint16A { MI_Uint16* data; MI_Uint32 size; } MI_Uint16A; typedef struct _MI_Sint16A { MI_Sint16* data; MI_Uint32 size; } MI_Sint16A; typedef struct _MI_Uint32A { MI_Uint32* data; MI_Uint32 size; } MI_Uint32A; typedef struct _MI_Sint32A { MI_Sint32* data; MI_Uint32 size; } MI_Sint32A; typedef struct _MI_Uint64A { MI_Uint64* data; MI_Uint32 size; } MI_Uint64A; typedef struct _MI_Sint64A { MI_Sint64* data; MI_Uint32 size; } MI_Sint64A; typedef struct _MI_Real32A { MI_Real32* data; MI_Uint32 size; } MI_Real32A; typedef struct _MI_Real64A { MI_Real64* data; MI_Uint32 size; } MI_Real64A; typedef struct _MI_Char16A { MI_Char16* data; MI_Uint32 size; } MI_Char16A; typedef struct _MI_DatetimeA { MI_Datetime* data; MI_Uint32 size; } MI_DatetimeA; typedef struct _MI_StringA { MI_Char** data; MI_Uint32 size; } MI_StringA; typedef struct _MI_ReferenceA { struct _MI_Instance** data; MI_Uint32 size; } MI_ReferenceA; typedef struct _MI_InstanceA { MI_Instance** data; MI_Uint32 size; } MI_InstanceA; typedef struct _MI_Array { void* data; MI_Uint32 size; } MI_Array; typedef struct _MI_ConstBooleanA { MI_CONST MI_Boolean* data; MI_Uint32 size; } MI_ConstBooleanA; typedef struct _MI_ConstUint8A { MI_CONST MI_Uint8* data; MI_Uint32 size; } MI_ConstUint8A; typedef struct _MI_ConstSint8A { MI_CONST MI_Sint8* data; MI_Uint32 size; } MI_ConstSint8A; typedef struct _MI_ConstUint16A { MI_CONST MI_Uint16* data; MI_Uint32 size; } MI_ConstUint16A; typedef struct _MI_ConstSint16A { MI_CONST MI_Sint16* data; MI_Uint32 size; } MI_ConstSint16A; typedef struct _MI_ConstUint32A { MI_CONST MI_Uint32* data; MI_Uint32 size; } MI_ConstUint32A; typedef struct _MI_ConstSint32A { MI_CONST MI_Sint32* data; MI_Uint32 size; } MI_ConstSint32A; typedef struct _MI_ConstUint64A { MI_CONST MI_Uint64* data; MI_Uint32 size; } MI_ConstUint64A; typedef struct _MI_ConstSint64A { MI_CONST MI_Sint64* data; MI_Uint32 size; } MI_ConstSint64A; typedef struct _MI_ConstReal32A { MI_CONST MI_Real32* data; MI_Uint32 size; } MI_ConstReal32A; typedef struct _MI_ConstReal64A { MI_CONST MI_Real64* data; MI_Uint32 size; } MI_ConstReal64A; typedef struct _MI_ConstChar16A { MI_CONST MI_Char16* data; MI_Uint32 size; } MI_ConstChar16A; typedef struct _MI_ConstDatetimeA { MI_CONST MI_Datetime* data; MI_Uint32 size; } MI_ConstDatetimeA; typedef struct _MI_ConstStringA { MI_CONST MI_Char* MI_CONST* data; MI_Uint32 size; } MI_ConstStringA; typedef struct _MI_ConstReferenceA { MI_CONST MI_Instance* MI_CONST* data; MI_Uint32 size; } MI_ConstReferenceA; typedef struct _MI_ConstInstanceA { MI_CONST MI_Instance* MI_CONST* data; MI_Uint32 size; } MI_ConstInstanceA; typedef union _MI_Value { MI_Boolean boolean; MI_Uint8 uint8; MI_Sint8 sint8; MI_Uint16 uint16; MI_Sint16 sint16; MI_Uint32 uint32; MI_Sint32 sint32; MI_Uint64 uint64; MI_Sint64 sint64; MI_Real32 real32; MI_Real64 real64; MI_Char16 char16; MI_Datetime datetime; MI_Char* string; MI_Instance* instance; MI_Instance* reference; MI_BooleanA booleana; MI_Uint8A uint8a; MI_Sint8A sint8a; MI_Uint16A uint16a; MI_Sint16A sint16a; MI_Uint32A uint32a; MI_Sint32A sint32a; MI_Uint64A uint64a; MI_Sint64A sint64a; MI_Real32A real32a; MI_Real64A real64a; MI_Char16A char16a; MI_DatetimeA datetimea; MI_StringA stringa; MI_ReferenceA referencea; MI_InstanceA instancea; MI_Array array; } MI_Value; typedef struct _MI_BooleanField { MI_Boolean value; MI_Boolean exists; MI_Uint8 flags; } MI_BooleanField; typedef struct _MI_Sint8Field { MI_Sint8 value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint8Field; typedef struct _MI_Uint8Field { MI_Uint8 value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint8Field; typedef struct _MI_Sint16Field { MI_Sint16 value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint16Field; typedef struct _MI_Uint16Field { MI_Uint16 value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint16Field; typedef struct _MI_Sint32Field { MI_Sint32 value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint32Field; typedef struct _MI_Uint32Field { MI_Uint32 value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint32Field; typedef struct _MI_Sint64Field { MI_Sint64 value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint64Field; typedef struct _MI_Uint64Field { MI_Uint64 value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint64Field; typedef struct _MI_Real32Field { MI_Real32 value; MI_Boolean exists; MI_Uint8 flags; } MI_Real32Field; typedef struct _MI_Real64Field { MI_Real64 value; MI_Boolean exists; MI_Uint8 flags; } MI_Real64Field; typedef struct _MI_Char16Field { MI_Char16 value; MI_Boolean exists; MI_Uint8 flags; } MI_Char16Field; typedef struct _MI_DatetimeField { MI_Datetime value; MI_Boolean exists; MI_Uint8 flags; } MI_DatetimeField; typedef struct _MI_StringField { MI_Char* value; MI_Boolean exists; MI_Uint8 flags; } MI_StringField; typedef struct _MI_ReferenceField { MI_Instance* value; MI_Boolean exists; MI_Uint8 flags; } MI_ReferenceField; typedef struct _MI_InstanceField { MI_Instance* value; MI_Boolean exists; MI_Uint8 flags; } MI_InstanceField; typedef struct _MI_BooleanAField { MI_BooleanA value; MI_Boolean exists; MI_Uint8 flags; } MI_BooleanAField; typedef struct _MI_Uint8AField { MI_Uint8A value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint8AField; typedef struct _MI_Sint8AField { MI_Sint8A value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint8AField; typedef struct _MI_Uint16AField { MI_Uint16A value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint16AField; typedef struct _MI_Sint16AField { MI_Sint16A value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint16AField; typedef struct _MI_Uint32AField { MI_Uint32A value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint32AField; typedef struct _MI_Sint32AField { MI_Sint32A value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint32AField; typedef struct _MI_Uint64AField { MI_Uint64A value; MI_Boolean exists; MI_Uint8 flags; } MI_Uint64AField; typedef struct _MI_Sint64AField { MI_Sint64A value; MI_Boolean exists; MI_Uint8 flags; } MI_Sint64AField; typedef struct _MI_Real32AField { MI_Real32A value; MI_Boolean exists; MI_Uint8 flags; } MI_Real32AField; typedef struct _MI_Real64AField { MI_Real64A value; MI_Boolean exists; MI_Uint8 flags; } MI_Real64AField; typedef struct _MI_Char16AField { MI_Char16A value; MI_Boolean exists; MI_Uint8 flags; } MI_Char16AField; typedef struct _MI_DatetimeAField { MI_DatetimeA value; MI_Boolean exists; MI_Uint8 flags; } MI_DatetimeAField; typedef struct _MI_StringAField { MI_StringA value; MI_Boolean exists; MI_Uint8 flags; } MI_StringAField; typedef struct _MI_ReferenceAField { MI_ReferenceA value; MI_Boolean exists; MI_Uint8 flags; } MI_ReferenceAField; typedef struct _MI_InstanceAField { MI_InstanceA value; MI_Boolean exists; MI_Uint8 flags; } MI_InstanceAField; typedef struct _MI_ArrayField { MI_Array value; MI_Boolean exists; MI_Uint8 flags; } MI_ArrayField; typedef struct _MI_ConstBooleanField { MI_Boolean value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstBooleanField; typedef struct _MI_ConstSint8Field { MI_Sint8 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint8Field; typedef struct _MI_ConstUint8Field { MI_Uint8 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint8Field; typedef struct _MI_ConstSint16Field { MI_Sint16 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint16Field; typedef struct _MI_ConstUint16Field { MI_Uint16 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint16Field; typedef struct _MI_ConstSint32Field { MI_Sint32 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint32Field; typedef struct _MI_ConstUint32Field { MI_Uint32 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint32Field; typedef struct _MI_ConstSint64Field { MI_Sint64 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint64Field; typedef struct _MI_ConstUint64Field { MI_Uint64 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint64Field; typedef struct _MI_ConstReal32Field { MI_Real32 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReal32Field; typedef struct _MI_ConstReal64Field { MI_Real64 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReal64Field; typedef struct _MI_ConstChar16Field { MI_Char16 value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstChar16Field; typedef struct _MI_ConstDatetimeField { MI_Datetime value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstDatetimeField; typedef struct _MI_ConstStringField { MI_CONST MI_Char* value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstStringField; typedef struct _MI_ConstReferenceField { MI_CONST MI_Instance* value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReferenceField; typedef struct _MI_ConstInstanceField { MI_CONST MI_Instance* value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstInstanceField; typedef struct _MI_ConstBooleanAField { MI_ConstBooleanA value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstBooleanAField; typedef struct _MI_ConstUint8AField { MI_ConstUint8A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint8AField; typedef struct _MI_ConstSint8AField { MI_ConstSint8A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint8AField; typedef struct _MI_ConstUint16AField { MI_ConstUint16A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint16AField; typedef struct _MI_ConstSint16AField { MI_ConstSint16A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint16AField; typedef struct _MI_ConstUint32AField { MI_ConstUint32A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint32AField; typedef struct _MI_ConstSint32AField { MI_ConstSint32A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint32AField; typedef struct _MI_ConstUint64AField { MI_ConstUint64A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstUint64AField; typedef struct _MI_ConstSint64AField { MI_ConstSint64A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstSint64AField; typedef struct _MI_ConstReal32AField { MI_ConstReal32A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReal32AField; typedef struct _MI_ConstReal64AField { MI_ConstReal64A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReal64AField; typedef struct _MI_ConstChar16AField { MI_ConstChar16A value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstChar16AField; typedef struct _MI_ConstDatetimeAField { MI_ConstDatetimeA value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstDatetimeAField; typedef struct _MI_ConstStringAField { MI_ConstStringA value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstStringAField; typedef struct _MI_ConstReferenceAField { MI_ConstReferenceA value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstReferenceAField; typedef struct _MI_ConstInstanceAField { MI_ConstInstanceA value; MI_Boolean exists; MI_Uint8 flags; } MI_ConstInstanceAField; struct _MI_ServerFT { MI_Result (MI_CALL *GetVersion)(MI_Uint32* version); MI_Result (MI_CALL *GetSystemName)(const MI_Char** systemName); }; struct _MI_Server { const MI_ServerFT* serverFT; const MI_ContextFT* contextFT; const MI_InstanceFT* instanceFT; const MI_PropertySetFT* propertySetFT; const MI_FilterFT* filterFT; }; MI_Result MI_CALL MI_Server_GetVersion(MI_Uint32* version); MI_Result MI_CALL MI_Server_GetSystemName(const MI_Char** systemName); struct _MI_FilterFT { MI_Result (MI_CALL *Evaluate)(const MI_Filter* self, const MI_Instance* instance, MI_Boolean* result); MI_Result (MI_CALL *GetExpression)(const MI_Filter* self, const MI_Char** queryLang, const MI_Char** queryExpr); }; struct _MI_Filter { const MI_FilterFT* ft; ptrdiff_t reserved[3]; }; MI_INLINE MI_Result MI_INLINE_CALL MI_Filter_Evaluate(const MI_Filter* self, const MI_Instance* instance, MI_Boolean* result) { if (self && self->ft) { return self->ft->Evaluate(self, instance, result); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Filter_GetExpression(const MI_Filter* self, const MI_Char** queryLang, const MI_Char** queryExpr) { if (self && self->ft) { return self->ft->GetExpression(self, queryLang, queryExpr); } else { return MI_RESULT_INVALID_PARAMETER; } } struct _MI_PropertySetFT { MI_Result (MI_CALL *GetElementCount)(const MI_PropertySet* self, MI_Uint32* count); MI_Result (MI_CALL *ContainsElement)(const MI_PropertySet* self, const MI_Char* name, MI_Boolean* flag); MI_Result (MI_CALL *AddElement)(MI_PropertySet* self, const MI_Char* name); MI_Result (MI_CALL *GetElementAt)(const MI_PropertySet* self, MI_Uint32 index, const MI_Char** name); MI_Result (MI_CALL *Clear)(MI_PropertySet* self); MI_Result (MI_CALL *Destruct)(MI_PropertySet* self); MI_Result (MI_CALL *Delete)(MI_PropertySet* self); MI_Result (MI_CALL *Clone)(const MI_PropertySet* self, MI_PropertySet** newPropertySet); }; struct _MI_PropertySet { const MI_PropertySetFT* ft; ptrdiff_t reserved[3]; }; MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_GetElementCount(const MI_PropertySet* self, MI_Uint32* count) { if (self && self->ft) { return self->ft->GetElementCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_ContainsElement(const MI_PropertySet* self, const MI_Char* name, MI_Boolean* flag) { if (self && self->ft) { return self->ft->ContainsElement(self, name, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_AddElement(MI_PropertySet* self, const MI_Char* name) { if (self && self->ft) { return self->ft->AddElement(self, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_GetElementAt(const MI_PropertySet* self, MI_Uint32 index, const MI_Char** name) { if (self && self->ft) { return self->ft->GetElementAt(self, index, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_Clear(MI_PropertySet* self) { if (self && self->ft) { return self->ft->Clear(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_Destruct(MI_PropertySet* self) { if (self && self->ft) { return self->ft->Destruct(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_Delete(MI_PropertySet* self) { if (self && self->ft) { return self->ft->Delete(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_PropertySet_Clone(const MI_PropertySet* self, MI_PropertySet** newPropertySet) { if (self && self->ft) { return self->ft->Clone(self, newPropertySet); } else { return MI_RESULT_INVALID_PARAMETER; } } typedef struct _MI_ObjectDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; MI_Qualifier MI_CONST* MI_CONST* qualifiers; MI_Uint32 numQualifiers; struct _MI_PropertyDecl MI_CONST* MI_CONST* properties; MI_Uint32 numProperties; MI_Uint32 size; } MI_ObjectDecl; struct _MI_ClassDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; struct _MI_Qualifier MI_CONST* MI_CONST* qualifiers; MI_Uint32 numQualifiers; struct _MI_PropertyDecl MI_CONST* MI_CONST* properties; MI_Uint32 numProperties; MI_Uint32 size; MI_CONST MI_Char* superClass; MI_ClassDecl MI_CONST* superClassDecl; struct _MI_MethodDecl MI_CONST* MI_CONST* methods; MI_Uint32 numMethods; struct _MI_SchemaDecl MI_CONST* schema; MI_CONST MI_ProviderFT* providerFT; MI_Class *owningClass; }; typedef struct _MI_FeatureDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; MI_Qualifier MI_CONST* MI_CONST * qualifiers; MI_Uint32 numQualifiers; } MI_FeatureDecl; typedef struct _MI_ParameterDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; MI_Qualifier MI_CONST* MI_CONST* qualifiers; MI_Uint32 numQualifiers; MI_Uint32 type; MI_CONST MI_Char* className; MI_Uint32 subscript; MI_Uint32 offset; } MI_ParameterDecl; typedef struct _MI_PropertyDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; MI_Qualifier MI_CONST* MI_CONST* qualifiers; MI_Uint32 numQualifiers; MI_Uint32 type; MI_CONST MI_Char* className; MI_Uint32 subscript; MI_Uint32 offset; MI_CONST MI_Char* origin; MI_CONST MI_Char* propagator; MI_CONST void* value; } MI_PropertyDecl; typedef void (MI_CALL *MI_MethodDecl_Invoke)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Char* methodName, const MI_Instance* instanceName, const MI_Instance* parameters); typedef struct _MI_MethodDecl { MI_Uint32 flags; MI_Uint32 code; MI_CONST MI_Char* name; struct _MI_Qualifier MI_CONST* MI_CONST* qualifiers; MI_Uint32 numQualifiers; struct _MI_ParameterDecl MI_CONST* MI_CONST* parameters; MI_Uint32 numParameters; MI_Uint32 size; MI_Uint32 returnType; MI_CONST MI_Char* origin; MI_CONST MI_Char* propagator; struct _MI_SchemaDecl MI_CONST* schema; MI_MethodDecl_Invoke function; } MI_MethodDecl; typedef struct _MI_QualifierDecl { MI_CONST MI_Char* name; MI_Uint32 type; MI_Uint32 scope; MI_Uint32 flavor; MI_Uint32 subscript; MI_CONST void* value; } MI_QualifierDecl; struct _MI_Qualifier { MI_CONST MI_Char* name; MI_Uint32 type; MI_Uint32 flavor; MI_CONST void* value; }; typedef struct _MI_SchemaDecl { MI_QualifierDecl MI_CONST* MI_CONST* qualifierDecls; MI_Uint32 numQualifierDecls; MI_ClassDecl MI_CONST* MI_CONST* classDecls; MI_Uint32 numClassDecls; } MI_SchemaDecl; typedef struct _MI_Module_Self MI_Module_Self; typedef void (MI_CALL *MI_ProviderFT_Load)(void** self, MI_Module_Self* selfModule, MI_Context* context); typedef void (MI_CALL *MI_ProviderFT_Unload)(void* self, MI_Context* context); typedef void (MI_CALL *MI_ProviderFT_GetInstance)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* instanceName, const MI_PropertySet* propertySet); typedef void (MI_CALL *MI_ProviderFT_EnumerateInstances)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_PropertySet* propertySet, MI_Boolean keysOnly, const MI_Filter* filter); typedef void (MI_CALL *MI_ProviderFT_CreateInstance)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* newInstance); typedef void (MI_CALL *MI_ProviderFT_ModifyInstance)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* modifiedInstance, const MI_PropertySet* propertySet); typedef void (MI_CALL *MI_ProviderFT_DeleteInstance)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* instanceName); typedef void (MI_CALL *MI_ProviderFT_AssociatorInstances)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* instanceName, const MI_Char* resultClass, const MI_Char* role, const MI_Char* resultRole, const MI_PropertySet* propertySet, MI_Boolean keysOnly, const MI_Filter* filter); typedef void (MI_CALL *MI_ProviderFT_ReferenceInstances)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Instance* instanceName, const MI_Char* role, const MI_PropertySet* propertySet, MI_Boolean keysOnly, const MI_Filter* filter); typedef void (MI_CALL *MI_ProviderFT_EnableIndications)(void* self, MI_Context* indicationsContext, const MI_Char* nameSpace, const MI_Char* className); typedef void (MI_CALL *MI_ProviderFT_DisableIndications)(void* self, MI_Context* indicationsContext, const MI_Char* nameSpace, const MI_Char* className); typedef void (MI_CALL *MI_ProviderFT_Subscribe)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Filter* filter, const MI_Char* bookmark, MI_Uint64 subscriptionID, void** subscriptionSelf); typedef void (MI_CALL *MI_ProviderFT_Unsubscribe)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, MI_Uint64 subscriptionID, void* subscriptionSelf); typedef void (MI_CALL *MI_ProviderFT_Invoke)(void* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Char* methodName, const MI_Instance* instanceName, const MI_Instance* inputParameters); struct _MI_ProviderFT { MI_ProviderFT_Load Load; MI_ProviderFT_Unload Unload; MI_ProviderFT_GetInstance GetInstance; MI_ProviderFT_EnumerateInstances EnumerateInstances; MI_ProviderFT_CreateInstance CreateInstance; MI_ProviderFT_ModifyInstance ModifyInstance; MI_ProviderFT_DeleteInstance DeleteInstance; MI_ProviderFT_AssociatorInstances AssociatorInstances; MI_ProviderFT_ReferenceInstances ReferenceInstances; MI_ProviderFT_EnableIndications EnableIndications; MI_ProviderFT_DisableIndications DisableIndications; MI_ProviderFT_Subscribe Subscribe; MI_ProviderFT_Unsubscribe Unsubscribe; MI_ProviderFT_Invoke Invoke; }; #define MI_MODULE_FLAG_STANDARD_QUALIFIERS (1 << 0) #define MI_MODULE_FLAG_DESCRIPTIONS (1 << 1) #define MI_MODULE_FLAG_VALUES (1 << 2) #define MI_MODULE_FLAG_MAPPING_STRINGS (1 << 3) #define MI_MODULE_FLAG_BOOLEANS (1 << 4) #define MI_MODULE_FLAG_CPLUSPLUS (1 << 5) #define MI_MODULE_FLAG_LOCALIZED (1 << 6) #define MI_MODULE_FLAG_FILTER_SUPPORT (1 << 7) typedef void (MI_CALL *MI_Module_Load)(MI_Module_Self** self, MI_Context* context); typedef void (MI_CALL *MI_Module_Unload)(MI_Module_Self* self, MI_Context* context); typedef struct _MI_Module { MI_Uint32 version; MI_Uint32 generatorVersion; MI_Uint32 flags; MI_Uint32 charSize; MI_SchemaDecl* schemaDecl; MI_Module_Load Load; MI_Module_Unload Unload; const MI_ProviderFT* dynamicProviderFT; } MI_Module; struct _MI_InstanceFT { MI_Result (MI_CALL *Clone)(const MI_Instance* self, MI_Instance** newInstance); MI_Result (MI_CALL *Destruct)(MI_Instance* self); MI_Result (MI_CALL *Delete)(MI_Instance* self); MI_Result (MI_CALL *IsA)(const MI_Instance* self, const MI_ClassDecl* classDecl, MI_Boolean* flag); MI_Result (MI_CALL *GetClassName)(const MI_Instance* self, const MI_Char** className); MI_Result (MI_CALL *SetNameSpace)(MI_Instance* self, const MI_Char* nameSpace); MI_Result (MI_CALL *GetNameSpace)(const MI_Instance* self, const MI_Char** nameSpace); MI_Result (MI_CALL *GetElementCount)(const MI_Instance* self, MI_Uint32* count); MI_Result (MI_CALL *AddElement)(MI_Instance* self, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags); MI_Result (MI_CALL *SetElement)(MI_Instance* self, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags); MI_Result (MI_CALL *SetElementAt)(MI_Instance* self, MI_Uint32 index, const MI_Value* value, MI_Type type, MI_Uint32 flags); MI_Result (MI_CALL *GetElement)(const MI_Instance* self, const MI_Char* name, MI_Value* value, MI_Type* type, MI_Uint32* flags, MI_Uint32* index); MI_Result (MI_CALL *GetElementAt)(const MI_Instance* self, MI_Uint32 index, const MI_Char** name, MI_Value* value, MI_Type* type, MI_Uint32* flags); MI_Result (MI_CALL *ClearElement)(MI_Instance* self, const MI_Char* name); MI_Result (MI_CALL *ClearElementAt)(MI_Instance* self, MI_Uint32 index); MI_Result (MI_CALL *GetServerName)(const MI_Instance* self, const MI_Char** name); MI_Result (MI_CALL *SetServerName)(MI_Instance* self, const MI_Char* name); MI_Result (MI_CALL *GetClass)(const MI_Instance* self, MI_Class** instanceClass); }; struct _MI_InstanceExFT { MI_InstanceFT parent; MI_Result (MI_CALL *Normalize)(MI_Instance** self); }; struct _MI_Instance { const MI_InstanceFT* ft; const MI_ClassDecl* classDecl; const MI_Char* serverName; const MI_Char* nameSpace; ptrdiff_t reserved[4]; }; MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_Clone(const MI_Instance* self, MI_Instance** newInstance) { if (self && self->ft) { return self->ft->Clone(self, newInstance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_Destruct(MI_Instance* self) { if (self && self->ft) { return self->ft->Destruct(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_Delete(MI_Instance* self) { if (self && self->ft) { return self->ft->Delete(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_IsA(const MI_Instance* self, const MI_ClassDecl* classDecl, MI_Boolean* flag) { if (self && self->ft) { return self->ft->IsA(self, classDecl, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetClassName(const MI_Instance* self, const MI_Char** className) { if (self && self->ft) { return self->ft->GetClassName(self, className); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_SetNameSpace(MI_Instance* self, const MI_Char* nameSpace) { if (self && self->ft) { return self->ft->SetNameSpace(self, nameSpace); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetNameSpace(const MI_Instance* self, const MI_Char** nameSpace) { if (self && self->ft) { return self->ft->GetNameSpace(self, nameSpace); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetElementCount(const MI_Instance* self, MI_Uint32* count) { if (self && self->ft) { return self->ft->GetElementCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_AddElement(MI_Instance* self, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags) { if (self && self->ft) { return self->ft->AddElement(self, name, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_SetElementAt(MI_Instance* self, MI_Uint32 index, const MI_Value* value, MI_Type type, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetElementAt(self, index, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_SetElement(MI_Instance* self, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetElement(self, name, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetElement(const MI_Instance* self, const MI_Char* name, MI_Value* value, MI_Type* type, MI_Uint32* flags, MI_Uint32* index) { if (self && self->ft) { return self->ft->GetElement(self, name, value, type, flags, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetElementAt(const MI_Instance* self, MI_Uint32 index, const MI_Char** name, MI_Value* value, MI_Type* type, MI_Uint32* flags) { if (self && self->ft) { return self->ft->GetElementAt(self, index, name, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_ClearElement(MI_Instance* self, const MI_Char* name) { if (self && self->ft) { return self->ft->ClearElement(self, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_ClearElementAt(MI_Instance* self, MI_Uint32 index) { if (self && self->ft) { return self->ft->ClearElementAt(self, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetServerName(const MI_Instance* self, const MI_Char** name) { if (self && self->ft) { return self->ft->GetServerName(self, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_SetServerName(MI_Instance* self, const MI_Char* name) { if (self && self->ft) { return self->ft->SetServerName(self, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_GetClass(const MI_Instance* self, MI_Class** instanceClass) { if (self && self->ft) { return self->ft->GetClass(self, instanceClass); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Instance_Normalize(MI_Instance** self) { MI_Instance* inst = *self; if (inst && inst->ft) { if (inst->classDecl->flags & MI_FLAG_EXTENDED) { MI_InstanceExFT* ft = (MI_InstanceExFT*)inst->ft; return ft->Normalize(self); } else { return MI_RESULT_OK; } } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_MAX_LOCALE_SIZE 128 typedef enum _MI_LocaleType { MI_LOCALE_TYPE_REQUESTED_UI, MI_LOCALE_TYPE_REQUESTED_DATA, MI_LOCALE_TYPE_CLOSEST_UI, MI_LOCALE_TYPE_CLOSEST_DATA } MI_LocaleType; typedef enum _MI_CancellationReason { MI_REASON_NONE, MI_REASON_TIMEOUT, MI_REASON_SHUTDOWN, MI_REASON_SERVICESTOP } MI_CancellationReason; typedef void (MI_CALL *MI_CancelCallback)(MI_CancellationReason reason, void* callbackData); #define MI_WRITEMESSAGE_CHANNEL_WARNING 0 #define MI_WRITEMESSAGE_CHANNEL_VERBOSE 1 #define MI_WRITEMESSAGE_CHANNEL_DEBUG 2 #define MI_RESULT_TYPE_MI MI_T("MI") #define MI_RESULT_TYPE_HRESULT MI_T("HRESULT") #define MI_RESULT_TYPE_WIN32 MI_T("WIN32") #define MI_RESULT_TYPE_ERRNO MI_T("ERRNO") struct _MI_ContextFT { MI_Result (MI_CALL *PostResult)(MI_Context* context, MI_Result result); MI_Result (MI_CALL *PostInstance)(MI_Context* context, const MI_Instance* instance); MI_Result (MI_CALL *PostIndication)(MI_Context* context, const MI_Instance* indication, MI_Uint32 subscriptionIDCount, const MI_Char* bookmark); MI_Result (MI_CALL *ConstructInstance)(MI_Context* context, const MI_ClassDecl* classDecl, MI_Instance* instance); MI_Result (MI_CALL *ConstructParameters)(MI_Context* context, const MI_MethodDecl* methodDecl, MI_Instance* instance); MI_Result (MI_CALL *NewInstance)(MI_Context* context, const MI_ClassDecl* classDecl, MI_Instance** instance); MI_Result (MI_CALL *NewDynamicInstance)(MI_Context* context, const MI_Char* className, MI_Uint32 flags, MI_Instance** instance); MI_Result (MI_CALL *NewParameters)(MI_Context* context, const MI_MethodDecl* methodDecl, MI_Instance** instance); MI_Result (MI_CALL *Canceled)(const MI_Context* context, MI_Boolean* flag); MI_Result (MI_CALL *GetLocale)(const MI_Context* context, MI_LocaleType localeType, MI_Char locale[MI_MAX_LOCALE_SIZE]); MI_Result (MI_CALL *RegisterCancel)(MI_Context* context, MI_CancelCallback callback, void* callbackData); MI_Result (MI_CALL *RequestUnload)(MI_Context* context); MI_Result (MI_CALL *RefuseUnload)(MI_Context* context); MI_Result (MI_CALL *GetLocalSession)(const MI_Context* context, MI_Session* session); MI_Result (MI_CALL *SetStringOption)(MI_Context* context, const MI_Char* name, const MI_Char* value); MI_Result (MI_CALL *GetStringOption)(MI_Context* context, const MI_Char* name, const MI_Char** value); MI_Result (MI_CALL *GetNumberOption)(MI_Context* context, const MI_Char *name, MI_Uint32* value); MI_Result (MI_CALL *GetCustomOption)(MI_Context* context, const MI_Char* name, MI_Type* valueType, MI_Value* value); MI_Result (MI_CALL *GetCustomOptionCount)(MI_Context* context, MI_Uint32* count); MI_Result (MI_CALL *GetCustomOptionAt)(MI_Context* context, MI_Uint32 index, const MI_Char** name, MI_Type* valueType, MI_Value* value); MI_Result (MI_CALL *WriteMessage)(MI_Context* context, MI_Uint32 channel, const MI_Char* message); MI_Result (MI_CALL *WriteProgress)(MI_Context* context, const MI_Char* activity, const MI_Char* currentOperation, const MI_Char* statusDescription, MI_Uint32 percentComplete, MI_Uint32 secondsRemaining); MI_Result (MI_CALL *WriteStreamParameter)(MI_Context* context, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags); MI_Result (MI_CALL *WriteCimError)(MI_Context* context, const MI_Instance *error, MI_Boolean *flag); MI_Result (MI_CALL *PromptUser)(MI_Context* context, const MI_Char* message, MI_PromptType promptType, MI_Boolean* result ); MI_Result (MI_CALL *ShouldProcess)(MI_Context* context, const MI_Char* target, const MI_Char* action, MI_Boolean* result); MI_Result (MI_CALL *ShouldContinue)(MI_Context* context, const MI_Char* message, MI_Boolean* result); MI_Result (MI_CALL *PostError)(MI_Context* context, MI_Uint32 resultCode, const MI_Char* resultType, const MI_Char* errorMessage); MI_Result (MI_CALL *PostCimError)(MI_Context* context, const MI_Instance *error); MI_Result (MI_CALL *WriteError)(MI_Context* context, MI_Uint32 resultCode, const MI_Char* resultType, const MI_Char* errorMessage, MI_Boolean *flag); }; struct _MI_Context { const MI_ContextFT* ft; ptrdiff_t reserved[3]; }; MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PostResult(MI_Context* context, MI_Result result) { if (context && context->ft) { return context->ft->PostResult(context, result); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PostCimError(MI_Context* context, const MI_Instance *error) { if (context && context->ft) { return context->ft->PostCimError(context, error); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PostError(MI_Context* context, MI_Uint32 resultCode, const MI_Char* resultType, const MI_Char* errorMessage) { if (context && context->ft) { return context->ft->PostError(context, resultCode, resultType, errorMessage); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PostInstance(MI_Context* context, const MI_Instance* instance) { if (context && context->ft) { return context->ft->PostInstance(context, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PostIndication(MI_Context* context, const MI_Instance* indication, MI_Uint32 subscriptionIDCount, const MI_Char* bookmark) { if (context && context->ft) { return context->ft->PostIndication(context, indication, subscriptionIDCount, bookmark); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_ConstructInstance(MI_Context* context, const MI_ClassDecl* classDecl, MI_Instance* instance) { if (context && context->ft) { return context->ft->ConstructInstance(context, classDecl, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_ConstructParameters(MI_Context* context, const MI_MethodDecl* methodDecl, MI_Instance* instance) { if (context && context->ft) { return context->ft->ConstructParameters(context, methodDecl, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_NewInstance(MI_Context* context, const MI_ClassDecl* classDecl, MI_Instance** instance) { if (context && context->ft) { return context->ft->NewInstance(context, classDecl, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_NewDynamicInstance(MI_Context* context, const MI_Char* className, MI_Uint32 flags, MI_Instance** instance) { if (context && context->ft) { return context->ft->NewDynamicInstance(context, className, flags, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_NewParameters(MI_Context* context, const MI_MethodDecl* methodDecl, MI_Instance** instance) { if (context && context->ft) { return context->ft->NewParameters(context, methodDecl, instance); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_Canceled(const MI_Context* context, MI_Boolean* flag) { if (context && context->ft) { return context->ft->Canceled(context, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetLocale(const MI_Context* context, MI_LocaleType localeType, MI_Char locale[MI_MAX_LOCALE_SIZE]) { if (locale) { locale[0] = L'\0'; } if (context && context->ft) { return context->ft->GetLocale(context, localeType, locale); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_RegisterCancel(MI_Context* context, MI_CancelCallback callback, void* callbackData) { if (context && context->ft) { return context->ft->RegisterCancel(context, callback, callbackData); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_RequestUnload(MI_Context* context) { if (context && context->ft) { return context->ft->RequestUnload(context); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_RefuseUnload(MI_Context* context) { if (context && context->ft) { return context->ft->RefuseUnload(context); } else { return MI_RESULT_INVALID_PARAMETER; } }; MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetLocalSession(const MI_Context* context, MI_Session* session) { if (context && context->ft) { return context->ft->GetLocalSession(context, session); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_SetStringOption(MI_Context* context, const MI_Char* name, const MI_Char* value) { if (context && context->ft) { return context->ft->SetStringOption(context, name, value); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetStringOption(MI_Context* context, const MI_Char* name, const MI_Char** value) { if (context && context->ft) { return context->ft->GetStringOption(context, name, value); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetNumberOption(MI_Context* context, const MI_Char* name, MI_Uint32* value) { if (context && context->ft) { return context->ft->GetNumberOption(context, name, value); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetCustomOption(MI_Context* context, const MI_Char* name, MI_Type* valueType, MI_Value* value) { if (context && context->ft) { return context->ft->GetCustomOption(context, name, valueType,value); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetCustomOptionCount(MI_Context* context, MI_Uint32* count) { if (context && context->ft) { return context->ft->GetCustomOptionCount(context, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_GetCustomOptionAt(MI_Context* context, MI_Uint32 index, const MI_Char** name, MI_Type* valueType, MI_Value* value) { if (context && context->ft) { return context->ft->GetCustomOptionAt(context, index, name, valueType,value); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_ShouldProcess(MI_Context* context, const MI_Char *target, const MI_Char* action, MI_Boolean* flag) { if (context && context->ft) { return context->ft->ShouldProcess(context, target, action , flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_ShouldContinue(MI_Context* context, const MI_Char* message, MI_Boolean* flag) { if (context && context->ft) { return context->ft->ShouldContinue(context, message, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_PromptUser(MI_Context* context, const MI_Char* message, MI_PromptType promptType, MI_Boolean*flag ) { if (context && context->ft) { return context->ft->PromptUser(context, message, promptType, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteError(MI_Context* context, MI_Uint32 resultCode, const MI_Char* resultType, const MI_Char* errorMessage, MI_Boolean *flag) { if (context && context->ft) { return context->ft->WriteError(context, resultCode, resultType, errorMessage, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteCimError(MI_Context* context, const MI_Instance *error, MI_Boolean *flag) { if (context && context->ft) { return context->ft->WriteCimError(context, error, flag); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteMessage(MI_Context* context, MI_Uint32 channel, const MI_Char* message) { if (context && context->ft) { return context->ft->WriteMessage(context, channel, message); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteProgress(MI_Context* context, const MI_Char* activity, const MI_Char* currentOperation, const MI_Char* statusDescription, MI_Uint32 percentComplete, MI_Uint32 secondsRemaining) { if (context && context->ft) { return context->ft->WriteProgress(context, activity, currentOperation, statusDescription, percentComplete, secondsRemaining); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteStreamParameter(MI_Context* self, const MI_Char* name, const MI_Value* value, MI_Type type, MI_Uint32 flags) { if (self && self->ft) { return self->ft->WriteStreamParameter(self, name, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteWarning(MI_Context* context, const MI_Char* message) { if (context && context->ft) { return context->ft->WriteMessage(context, MI_WRITEMESSAGE_CHANNEL_WARNING, message); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteVerbose(MI_Context* context, const MI_Char* message) { if (context && context->ft) { return context->ft->WriteMessage(context, MI_WRITEMESSAGE_CHANNEL_VERBOSE, message); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Context_WriteDebug(MI_Context* context, const MI_Char* message) { if (context && context->ft) { return context->ft->WriteMessage(context, MI_WRITEMESSAGE_CHANNEL_DEBUG, message); } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_InstanceOf(inst) (&(inst)->__instance) # pragma pack(pop) #endif /* _MI_h */ #ifndef __MI_C_API_H #define __MI_C_API_H #ifndef MI_CALL_VERSION #define MI_CALL_VERSION 1 #endif #if (MI_CALL_VERSION > 1) #error "Unsupported version of MI_CALL_VERSION. This SDK only supports version 1." #endif #ifdef __cplusplus extern "C" { #endif typedef MI_Module* (MI_MAIN_CALL *MI_MainFunction)(MI_Server* server); typedef struct _MI_QualifierSet MI_QualifierSet; typedef struct _MI_QualifierSetFT { MI_Result (MI_CALL *GetQualifierCount)(const MI_QualifierSet *self, MI_Uint32 *count); MI_Result (MI_CALL *GetQualifierAt)(const MI_QualifierSet *self, MI_Uint32 index, const MI_Char **name, MI_Type *qualifierType, MI_Uint32 *qualifierFlags, MI_Value *qualifierValue); MI_Result (MI_CALL *GetQualifier)(const MI_QualifierSet *self, const MI_Char *name, MI_Type *qualifierType, MI_Uint32 *qualifierFlags, MI_Value *qualifierValue, MI_Uint32 *index); } MI_QualifierSetFT; struct _MI_QualifierSet { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_QualifierSetFT *ft; }; typedef struct _MI_ParameterSet MI_ParameterSet; typedef struct _MI_ParameterSetFT { MI_Result (MI_CALL *GetMethodReturnType)(const MI_ParameterSet *self, MI_Type *returnType, MI_QualifierSet *qualifierSet); MI_Result (MI_CALL *GetParameterCount)(const MI_ParameterSet *self, MI_Uint32 *count); MI_Result (MI_CALL *GetParameterAt)(const MI_ParameterSet *self, MI_Uint32 index, const MI_Char **name, MI_Type *parameterType, MI_Char **referenceClass, MI_QualifierSet *qualifierSet); MI_Result (MI_CALL *GetParameter)(const MI_ParameterSet *self, const MI_Char *name, MI_Type *parameterType, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32 *index); } MI_ParameterSetFT; struct _MI_ParameterSet { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_ParameterSetFT * ft; }; typedef struct _MI_ClassFT { MI_Result (MI_CALL *GetClassName)(const MI_Class* self, const MI_Char** className); MI_Result (MI_CALL *GetNameSpace)(const MI_Class* self, const MI_Char** nameSpace); MI_Result (MI_CALL *GetServerName)(const MI_Class* self, const MI_Char** serverName); MI_Result (MI_CALL *GetElementCount)(const MI_Class* self, MI_Uint32* count); MI_Result (MI_CALL *GetElement)(const MI_Class* self, const MI_Char* name, MI_Value* value, MI_Boolean* valueExists, MI_Type* type, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32* flags, MI_Uint32* index); MI_Result (MI_CALL *GetElementAt)(const MI_Class* self, MI_Uint32 index, const MI_Char** name, MI_Value* value, MI_Boolean* valueExists, MI_Type* type, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32* flags); MI_Result (MI_CALL *GetClassQualifierSet)(const MI_Class* self, MI_QualifierSet *qualifierSet); MI_Result (MI_CALL *GetMethodCount)(const MI_Class* self, MI_Uint32* count); MI_Result (MI_CALL *GetMethodAt)(const MI_Class *self, MI_Uint32 index, const MI_Char **name, MI_QualifierSet *qualifierSet, MI_ParameterSet *parameterSet); MI_Result (MI_CALL *GetMethod)(const MI_Class *self, const MI_Char *name, MI_QualifierSet *qualifierSet, MI_ParameterSet *parameterSet, MI_Uint32 *index); MI_Result (MI_CALL *GetParentClassName)(const MI_Class *self, const MI_Char **name); MI_Result (MI_CALL *GetParentClass)(const MI_Class *self, MI_Class **parentClass); MI_Result (MI_CALL *Delete)(MI_Class* self); MI_Result (MI_CALL *Clone)(const MI_Class* self, MI_Class** newClass); } MI_ClassFT; struct _MI_Class { const MI_ClassFT *ft; MI_CONST MI_ClassDecl *classDecl; MI_CONST MI_Char *namespaceName; MI_CONST MI_Char *serverName; ptrdiff_t reserved[4]; }; typedef struct _MI_Application MI_Application; typedef struct _MI_Session MI_Session; typedef struct _MI_Operation MI_Operation; typedef struct _MI_HostedProvider MI_HostedProvider; typedef struct _MI_DestinationOptions MI_DestinationOptions; typedef struct _MI_OperationOptions MI_OperationOptions; typedef enum _MI_OperationCallback_ResponseType { MI_OperationCallback_ResponseType_No, MI_OperationCallback_ResponseType_Yes, MI_OperationCallback_ResponseType_NoToAll, MI_OperationCallback_ResponseType_YesToAll } MI_OperationCallback_ResponseType; typedef void (MI_CALL *MI_OperationCallback_PromptUser)(MI_Operation *operation, void *callbackContext, const MI_Char *message, MI_PromptType promptType, MI_Result (MI_CALL * promptUserResult)(MI_Operation *operation, MI_OperationCallback_ResponseType response)); typedef void (MI_CALL *MI_OperationCallback_WriteError)(MI_Operation *operation, void *callbackContext, MI_Instance*instance, MI_Result (MI_CALL * writeErrorResult)(MI_Operation *operation, MI_OperationCallback_ResponseType response)); #define MI_WRITEMESSAGE_CHANNEL_WARNING 0 #define MI_WRITEMESSAGE_CHANNEL_VERBOSE 1 #define MI_WRITEMESSAGE_CHANNEL_DEBUG 2 typedef void (MI_CALL *MI_OperationCallback_WriteMessage)(MI_Operation *operation, void *callbackContext, MI_Uint32 channel, const MI_Char *message); typedef void (MI_CALL *MI_OperationCallback_WriteProgress)(MI_Operation *operation, void *callbackContext, const MI_Char *activity, const MI_Char *currentOperation, const MI_Char *statusDescription, MI_Uint32 percentageComplete, MI_Uint32 secondsRemaining); typedef void (MI_CALL *MI_OperationCallback_Instance)(MI_Operation *operation, void *callbackContext, const MI_Instance *instance, MI_Boolean moreResults, MI_Result resultCode, const MI_Char *errorString, const MI_Instance *errorDetails, MI_Result (MI_CALL * resultAcknowledgement)(MI_Operation *operation)); typedef void (MI_CALL *MI_OperationCallback_StreamedParameter)(MI_Operation *operation, void *callbackContext, const MI_Char *parameterName, MI_Type resultType, const MI_Value *result, MI_Result (MI_CALL * resultAcknowledgement)(MI_Operation *operation)); typedef void (MI_CALL *MI_OperationCallback_Indication)(MI_Operation *operation, void *callbackContext, const MI_Instance *instance, const MI_Char *bookmark, const MI_Char *machineID, MI_Boolean moreResults, MI_Result resultCode, const MI_Char *errorString, const MI_Instance *errorDetails, MI_Result (MI_CALL * resultAcknowledgement)(MI_Operation *operation)); typedef void (MI_CALL *MI_OperationCallback_Class)(MI_Operation *operation, void *callbackContext, const MI_Class *classResult, MI_Boolean moreResults, MI_Result resultCode, const MI_Char *errorString, const MI_Instance *errorDetails, MI_Result (MI_CALL * resultAcknowledgement)(MI_Operation *operation)); typedef struct _MI_OperationCallbacks { void *callbackContext; MI_OperationCallback_PromptUser promptUser; MI_OperationCallback_WriteError writeError; MI_OperationCallback_WriteMessage writeMessage; MI_OperationCallback_WriteProgress writeProgress; MI_OperationCallback_Instance instanceResult; MI_OperationCallback_Indication indicationResult; MI_OperationCallback_Class classResult; MI_OperationCallback_StreamedParameter streamedParameterResult; } MI_OperationCallbacks; #define MI_OPERATIONCALLBACKS_NULL {NULL} typedef struct _MI_SessionCallbacks { void *callbackContext; void (MI_CALL *writeMessage)(MI_Application *application, void *callbackContext, MI_Uint32 channel, const MI_Char * message); void (MI_CALL *writeError)(MI_Application *application, void *callbackContext, MI_Instance *instance); } MI_SessionCallbacks; #define MI_SESSIONCALLBACKS_NULL {NULL} #define MI_OPERATIONFLAGS_AUTOMATIC_ACK_RESULTS 0x0000 #define MI_OPERATIONFLAGS_MANUAL_ACK_RESULTS 0x0001 #define MI_OPERATIONFLAGS_NO_RTTI 0x0400 #define MI_OPERATIONFLAGS_BASIC_RTTI 0x0002 #define MI_OPERATIONFLAGS_STANDARD_RTTI 0x0800 #define MI_OPERATIONFLAGS_FULL_RTTI 0x0004 #define MI_OPERATIONFLAGS_DEFAULT_RTTI 0 #define MI_OPERATIONFLAGS_NON_LOCALIZED_QUALIFIERS 0x0000 #define MI_OPERATIONFLAGS_LOCALIZED_QUALIFIERS 0x0008 #define MI_OPERATIONFLAGS_NON_EXPENSIVE_PROPERTIES_ONLY 0x0040 #define MI_OPERATIONFLAGS_EXPENSIVE_PROPERTIES 0x0040 #define MI_OPERATIONFLAGS_POLYMORPHISM_DEEP 0x0000 #define MI_OPERATIONFLAGS_POLYMORPHISM_SHALLOW 0x0080 #define MI_OPERATIONFLAGS_POLYMORPHISM_DEEP_BASE_PROPS_ONLY 0x0180 #define MI_OPERATIONFLAGS_REPORT_OPERATION_STARTED 0x0200 #define MI_AUTH_TYPE_DEFAULT MI_T("Default") #define MI_AUTH_TYPE_NONE MI_T("None") #define MI_AUTH_TYPE_DIGEST MI_T("Digest") #define MI_AUTH_TYPE_NEGO_WITH_CREDS MI_T("NegoWithCreds") #define MI_AUTH_TYPE_NEGO_NO_CREDS MI_T("NegoNoCreds") #define MI_AUTH_TYPE_BASIC MI_T("Basic") #define MI_AUTH_TYPE_KERBEROS MI_T("Kerberos") #define MI_AUTH_TYPE_CLIENT_CERTS MI_T("ClientCerts") #define MI_AUTH_TYPE_NTLM MI_T("Ntlmdomain") #if (WINVER >= 0x600) #define MI_AUTH_TYPE_CREDSSP MI_T("CredSSP") #endif #define MI_AUTH_TYPE_ISSUER_CERT MI_T("IssuerCert") typedef struct _MI_UsernamePasswordCreds { const MI_Char *domain; const MI_Char *username; const MI_Char *password; } MI_UsernamePasswordCreds; typedef struct _MI_UserCredentials { const MI_Char *authenticationType; union { MI_UsernamePasswordCreds usernamePassword; const MI_Char *certificateThumbprint; } credentials; } MI_UserCredentials; typedef enum _MI_SubscriptionDeliveryType { MI_SubscriptionDeliveryType_Pull = 1, MI_SubscriptionDeliveryType_Push = 2 } MI_SubscriptionDeliveryType; typedef struct _MI_SubscriptionDeliveryOptions MI_SubscriptionDeliveryOptions; typedef struct _MI_SubscriptionDeliveryOptionsFT { MI_Result (MI_CALL *SetString)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, const MI_Char *value, MI_Uint32 flags); MI_Result (MI_CALL *SetNumber)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, MI_Uint32 value, MI_Uint32 flags); MI_Result (MI_CALL *SetDateTime)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, const MI_Datetime *value, MI_Uint32 flags); MI_Result (MI_CALL *SetInterval)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, const MI_Interval *value, MI_Uint32 flags); MI_Result (MI_CALL *AddCredentials)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, const MI_UserCredentials *credentials, MI_Uint32 flags); MI_Result (MI_CALL *Delete)(MI_SubscriptionDeliveryOptions* self); MI_Result (MI_CALL *GetString)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, const MI_Char **value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetNumber)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, MI_Uint32 *value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetDateTime)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, MI_Datetime *value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetInterval)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, MI_Interval *value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetOptionCount)(MI_SubscriptionDeliveryOptions *options, MI_Uint32 *count); MI_Result (MI_CALL *GetOptionAt)(MI_SubscriptionDeliveryOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags); MI_Result (MI_CALL *GetOption)(MI_SubscriptionDeliveryOptions *options, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetCredentialsCount)(MI_SubscriptionDeliveryOptions *options, MI_Uint32 *count); MI_Result (MI_CALL *GetCredentialsAt)(MI_SubscriptionDeliveryOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_UserCredentials *credentials, MI_Uint32 *flags); MI_Result (MI_CALL *GetCredentialsPasswordAt)(MI_SubscriptionDeliveryOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Char *password, MI_Uint32 bufferLength, MI_Uint32 *passwordLength, MI_Uint32 *flags); MI_Result (MI_CALL *Clone)(const MI_SubscriptionDeliveryOptions* self, MI_SubscriptionDeliveryOptions* newSubscriptionDeliveryOptions); } MI_SubscriptionDeliveryOptionsFT; typedef struct _MI_SubscriptionDeliveryOptions { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_SubscriptionDeliveryOptionsFT * ft; } MI_SubscriptionDeliveryOptions; #define MI_SUBSCRIPTIONDELIVERYOPTIONS_NULL { 0, 0, NULL } typedef struct _MI_Serializer MI_Serializer; typedef struct _MI_SerializerFT MI_SerializerFT; typedef struct _MI_Deserializer MI_Deserializer; typedef struct _MI_DeserializerFT MI_DeserializerFT; struct _MI_Serializer { MI_Uint64 reserved1; ptrdiff_t reserved2; }; struct _MI_Deserializer { MI_Uint64 reserved1; ptrdiff_t reserved2; }; struct _MI_SerializerFT { MI_Result (MI_CALL *Close)(MI_Serializer *serializer); MI_Result (MI_CALL *SerializeClass)(MI_Serializer *serializer, MI_Uint32 flags, const MI_Class *classObject, MI_Uint8 *clientBuffer, MI_Uint32 clientBufferLength, MI_Uint32 *clientBufferNeeded); MI_Result (MI_CALL *SerializeInstance)(MI_Serializer *serializer, MI_Uint32 flags, const MI_Instance *instanceObject, MI_Uint8 *clientBuffer, MI_Uint32 clientBufferLength, MI_Uint32 *clientBufferNeeded); }; typedef MI_Result (MI_CALL *MI_Deserializer_ClassObjectNeeded)(void *context, const MI_Char *serverName, const MI_Char *namespaceName, const MI_Char *className, MI_Class **requestedClassObject); struct _MI_DeserializerFT { MI_Result (MI_CALL *Close)(MI_Deserializer *deserializer); MI_Result (MI_CALL *DeserializeClass)(MI_Deserializer *deserializer, MI_Uint32 flags, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Class *parentClass, const MI_Char *serverName, const MI_Char *namespaceName, MI_Deserializer_ClassObjectNeeded classObjectNeeded, void *classObjectNeededContext, MI_Uint32 *serializedBufferRead, MI_Class **classObject, MI_Instance **cimErrorDetails); MI_Result (MI_CALL *Class_GetClassName)(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *className, MI_Uint32 *classNameLength, MI_Instance **cimErrorDetails); MI_Result (MI_CALL *Class_GetParentClassName)(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *parentClassName, MI_Uint32 *parentClassNameLength, MI_Instance **cimErrorDetails); MI_Result (MI_CALL *DeserializeInstance)(MI_Deserializer *deserializer, MI_Uint32 flags, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Class **classObjects, MI_Uint32 numberClassObjects, MI_Deserializer_ClassObjectNeeded classObjectNeeded, void *classObjectNeededContext, MI_Uint32 *serializedBufferRead, MI_Instance **instanceObject, MI_Instance **cimErrorDetails); MI_Result (MI_CALL *Instance_GetClassName)(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *className, MI_Uint32 *classNameLength, MI_Instance **cimErrorDetails); }; typedef struct _MI_ApplicationFT { MI_Result (MI_CALL *Close)(MI_Application *application); MI_Result (MI_CALL *NewSession)(MI_Application *application, const MI_Char *protocol, const MI_Char *destination, MI_DestinationOptions *options, MI_SessionCallbacks *callbacks, MI_Instance **extendedError, MI_Session *session); MI_Result (MI_CALL *NewHostedProvider)(MI_Application *application, const MI_Char *namespaceName, const MI_Char *providerName, MI_MainFunction mi_Main, MI_Instance **extendedError, MI_HostedProvider *provider); MI_Result (MI_CALL *NewInstance)(MI_Application *application, const MI_Char *className, const MI_ClassDecl *classRTTI, MI_Instance **instance); MI_Result (MI_CALL *NewDestinationOptions)(MI_Application *application, MI_DestinationOptions *options); MI_Result (MI_CALL *NewOperationOptions)(MI_Application *application, MI_Boolean customOptionsMustUnderstand, MI_OperationOptions *options); MI_Result (MI_CALL *NewSubscriptionDeliveryOptions)(MI_Application *application, MI_SubscriptionDeliveryType deliveryType, MI_SubscriptionDeliveryOptions *deliveryOptions); MI_Result (MI_CALL *NewSerializer)(MI_Application *application, MI_Uint32 flags, MI_Char *format, MI_Serializer *serializer); MI_Result (MI_CALL *NewDeserializer)(MI_Application *application, MI_Uint32 flags, MI_Char *format, MI_Deserializer *deserializer); MI_Result (MI_CALL *NewInstanceFromClass)(MI_Application *application, const MI_Char *className, const MI_Class *classObject, MI_Instance **instance); MI_Result (MI_CALL *NewClass)(MI_Application *application, const MI_ClassDecl* classDecl, const MI_Char *namespaceName, const MI_Char *serverName, MI_Class** classObject); } MI_ApplicationFT; typedef struct _MI_HostedProviderFT { MI_Result (MI_CALL *Close)(MI_HostedProvider *hostedProvider); MI_Result (MI_CALL *GetApplication)(MI_HostedProvider *hostedProvider, MI_Application *application); } MI_HostedProviderFT; typedef struct _MI_SessionFT { MI_Result (MI_CALL *Close)(MI_Session *session, void *completionContext, void (MI_CALL *completionCallback)(void *completionContext)); MI_Result (MI_CALL *GetApplication)(MI_Session *session, MI_Application *application); void (MI_CALL *GetInstance)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *ModifyInstance)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *CreateInstance)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *DeleteInstance)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *Invoke)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, const MI_Char *methodName, const MI_Instance *inboundInstance, const MI_Instance *inboundProperties, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *EnumerateInstances)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *QueryInstances)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *queryDialect, const MI_Char *queryExpression, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *AssociatorInstances)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *instanceKeys, const MI_Char *assocClass, const MI_Char *resultClass, const MI_Char *role, const MI_Char *resultRole, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *ReferenceInstances)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *instanceKeys, const MI_Char *resultClass, const MI_Char *role, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *Subscribe)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *queryDialect, const MI_Char *queryExpression, const MI_SubscriptionDeliveryOptions *deliverOptions, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *GetClass)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *EnumerateClasses)(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_Boolean classNamesOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation); void (MI_CALL *TestConnection)(MI_Session *session, MI_Uint32 flags, MI_OperationCallbacks *callbacks, MI_Operation *operation); } MI_SessionFT; typedef struct _MI_OperationFT { MI_Result (MI_CALL *Close)(MI_Operation *operation); MI_Result (MI_CALL *Cancel)(MI_Operation *operation, MI_CancellationReason reason); MI_Result (MI_CALL *GetSession)(MI_Operation *operation, MI_Session *session); MI_Result (MI_CALL *GetInstance)(MI_Operation *operation, const MI_Instance **instance, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails); MI_Result (MI_CALL *GetIndication)(MI_Operation *operation, const MI_Instance **instance, const MI_Char **bookmark, const MI_Char **machineID, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails); MI_Result (MI_CALL *GetClass)(MI_Operation *operation, const MI_Class **classResult, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails); } MI_OperationFT; typedef struct _MI_DestinationOptionsFT { void (MI_CALL *Delete)(MI_DestinationOptions *options); MI_Result (MI_CALL *SetString)(MI_DestinationOptions *options, const MI_Char *optionName, const MI_Char *value, MI_Uint32 flags); MI_Result (MI_CALL *SetNumber)(MI_DestinationOptions *options, const MI_Char *optionName, MI_Uint32 value, MI_Uint32 flags); MI_Result (MI_CALL *AddCredentials)(MI_DestinationOptions *options, const MI_Char *optionName, const MI_UserCredentials *credentials, MI_Uint32 flags); MI_Result (MI_CALL *GetString)(MI_DestinationOptions *options, const MI_Char *optionName, const MI_Char **value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetNumber)(MI_DestinationOptions *options, const MI_Char *optionName, MI_Uint32 *value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetOptionCount)(MI_DestinationOptions *options, MI_Uint32 *count); MI_Result (MI_CALL *GetOptionAt)(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags); MI_Result (MI_CALL *GetOption)(MI_DestinationOptions *options, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetCredentialsCount)(MI_DestinationOptions *options, MI_Uint32 *count); MI_Result (MI_CALL *GetCredentialsAt)(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_UserCredentials *credentials, MI_Uint32 *flags); MI_Result (MI_CALL *GetCredentialsPasswordAt)(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Char *password, MI_Uint32 bufferLength, MI_Uint32 *passwordLength, MI_Uint32 *flags); MI_Result (MI_CALL *Clone)(const MI_DestinationOptions* self, MI_DestinationOptions* newDestinationOptions); MI_Result (MI_CALL *SetInterval)(MI_DestinationOptions *options, const MI_Char *optionName, const MI_Interval *value, MI_Uint32 flags); MI_Result (MI_CALL *GetInterval)(MI_DestinationOptions *options, const MI_Char *optionName, MI_Interval *value, MI_Uint32 *index, MI_Uint32 *flags); } MI_DestinationOptionsFT; typedef struct _MI_OperationOptionsFT { void (MI_CALL *Delete)(MI_OperationOptions *options); MI_Result (MI_CALL *SetString)(MI_OperationOptions *options, const MI_Char *optionName, const MI_Char *value, MI_Uint32 flags); MI_Result (MI_CALL *SetNumber)(MI_OperationOptions *options, const MI_Char *optionName, MI_Uint32 value, MI_Uint32 flags); MI_Result (MI_CALL *SetCustomOption)(MI_OperationOptions *options, const MI_Char *optionName, MI_Type valueType, const MI_Value *value, MI_Boolean mustComply, MI_Uint32 flags); MI_Result (MI_CALL *GetString)(MI_OperationOptions *options, const MI_Char *optionName, const MI_Char **value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetNumber)(MI_OperationOptions *options, const MI_Char *optionName, MI_Uint32 *value, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetOptionCount)(MI_OperationOptions *options, MI_Uint32 *count); MI_Result (MI_CALL *GetOptionAt)(MI_OperationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags); MI_Result (MI_CALL *GetOption)(MI_OperationOptions *options, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags); MI_Result (MI_CALL *GetEnabledChannels)(MI_OperationOptions *options, const MI_Char *optionName, MI_Uint32 *channels, MI_Uint32 bufferLength, MI_Uint32 *channelCount, MI_Uint32 *flags); MI_Result (MI_CALL *Clone)(const MI_OperationOptions* self, MI_OperationOptions* newOperationOptions); MI_Result (MI_CALL *SetInterval)(MI_OperationOptions *options, const MI_Char *optionName, const MI_Interval *value, MI_Uint32 flags); MI_Result (MI_CALL *GetInterval)(MI_OperationOptions *options, const MI_Char *optionName, MI_Interval *value, MI_Uint32 *index, MI_Uint32 *flags); } MI_OperationOptionsFT; struct _MI_Application { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_ApplicationFT *ft; }; #define MI_APPLICATION_NULL { 0, 0, NULL } struct _MI_Session { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_SessionFT *ft; }; #define MI_SESSION_NULL { 0, 0, NULL } struct _MI_Operation { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_OperationFT *ft; }; #define MI_OPERATION_NULL { 0, 0, NULL } struct _MI_HostedProvider { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_HostedProviderFT *ft; }; #define MI_HOSTEDPROVIDER_NULL { 0, 0, NULL } struct _MI_DestinationOptions { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_DestinationOptionsFT *ft; }; #define MI_DESTINATIONOPTIONS_NULL { 0, 0, NULL } struct _MI_OperationOptions { MI_Uint64 reserved1; ptrdiff_t reserved2; const MI_OperationOptionsFT *ft; }; #define MI_OPERATIONOPTIONS_NULL { 0, 0, NULL } typedef struct _MI_UtilitiesFT { MI_ErrorCategory (MI_CALL *MapErrorToMiErrorCategory)(MI_Char *errorType, MI_Uint32 error); MI_Result (MI_CALL *CimErrorFromErrorCode)(MI_Uint32 error, const MI_Char *errorType, const MI_Char* errorMessage, MI_Instance **cimError); } MI_UtilitiesFT; typedef struct _MI_ClientFT_V1 { const MI_ApplicationFT *applicationFT; const MI_SessionFT *sessionFT; const MI_OperationFT *operationFT; const MI_HostedProviderFT *hostedProviderFT; const MI_SerializerFT *serializerFT; const MI_DeserializerFT *deserializerFT; const MI_SubscriptionDeliveryOptionsFT *subscribeDeliveryOptionsFT; const MI_DestinationOptionsFT *destinationOptionsFT; const MI_OperationOptionsFT *operationOptionsFT; const MI_UtilitiesFT *utilitiesFT; } MI_ClientFT_V1; #ifndef _MANAGED_PURE __declspec(dllimport) const MI_ClientFT_V1 *mi_clientFT_V1; #endif #if (MI_CALL_VERSION == 1) #define mi_clientFT mi_clientFT_V1 #endif MI_Result MI_MAIN_CALL MI_Application_InitializeV1(MI_Uint32 flags, const MI_Char *applicationID, MI_Instance **extendedError, MI_Application *application); #if MI_CALL_VERSION == 1 #define MI_Application_Initialize MI_Application_InitializeV1 #endif MI_INLINE MI_Result MI_Application_Close(MI_Application *application) { if (application && application->ft) { return application->ft->Close(application); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewInstance(MI_Application *application, const MI_Char *className, const MI_ClassDecl *classRTTI, MI_Instance **instance) { if (application && application->ft) { return application->ft->NewInstance(application, className, classRTTI, instance); } else { if (instance) { *instance = NULL; } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewInstanceFromClass(MI_Application *application, const MI_Char *className, const MI_Class *classObject, MI_Instance **instance) { if (application && application->ft) { return application->ft->NewInstanceFromClass(application, className, classObject, instance); } else { if (instance) { *instance = NULL; } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewClass(MI_Application *application, const MI_ClassDecl* classDecl, const MI_Char *namespaceName, const MI_Char *serverName, MI_Class** classObject) { if (application && application->ft) { return application->ft->NewClass(application, classDecl, namespaceName, serverName, classObject); } else { if (classObject) { *classObject = NULL; } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewParameterSet(MI_Application *application, const MI_ClassDecl *classRTTI, MI_Instance **instance) { if (application && application->ft) { return application->ft->NewInstance(application, MI_T("Parameters"), classRTTI, instance); } else { if (instance) { *instance = NULL; } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewDestinationOptions(MI_Application *application, MI_DestinationOptions *options) { if (application && application->ft) { return application->ft->NewDestinationOptions(application, options); } else { if (options) { memset(options, 0, sizeof(MI_DestinationOptions)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewOperationOptions(MI_Application *application, MI_Boolean mustUnderstand, MI_OperationOptions *options) { if (application && application->ft) { return application->ft->NewOperationOptions(application, mustUnderstand, options); } else { if (options) { memset(options, 0, sizeof(MI_OperationOptions)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewSubscriptionDeliveryOptions(MI_Application *application, MI_SubscriptionDeliveryType deliveryType, MI_SubscriptionDeliveryOptions *deliveryOptions) { if (application && application->ft) { return application->ft->NewSubscriptionDeliveryOptions(application, deliveryType, deliveryOptions); } else { if (deliveryOptions) { memset(deliveryOptions, 0, sizeof(MI_SubscriptionDeliveryOptions)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewSession(MI_Application *application, const MI_Char *protocol, const MI_Char *destination, MI_DestinationOptions *options, MI_SessionCallbacks *callbacks, MI_Instance **extendedError, MI_Session *session) { if (application && application->ft) { return application->ft->NewSession(application, protocol, destination, options, callbacks, extendedError, session); } else { if (session) { memset(session, 0, sizeof(MI_Session)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewHostedProvider(MI_Application *application, const MI_Char *namespaceName, const MI_Char *providerName, MI_MainFunction mi_Main, MI_Instance **extendedError, MI_HostedProvider *hostedProvider) { if (application && application->ft) { return application->ft->NewHostedProvider(application, namespaceName, providerName, mi_Main, extendedError, hostedProvider); } else { if (hostedProvider) { memset(hostedProvider, 0, sizeof(MI_HostedProvider)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewSerializer(MI_Application *application, MI_Uint32 flags, MI_Char *format, MI_Serializer *serializer) { if (application && application->ft) { return application->ft->NewSerializer(application, flags, format, serializer); } else { if (serializer) { memset(serializer, 0, sizeof(MI_Serializer)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Application_NewDeserializer(MI_Application *application, MI_Uint32 flags, MI_Char *format, MI_Deserializer *deserializer) { if (application && application->ft) { return application->ft->NewDeserializer(application, flags, format, deserializer); } else { if (deserializer) { memset(deserializer, 0, sizeof(MI_Deserializer)); } return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_HostedProvider_Close(MI_HostedProvider *hostedProvider) { if (hostedProvider && hostedProvider->ft) { return hostedProvider->ft->Close(hostedProvider); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_HostedProvider_GetApplication(MI_HostedProvider *hostedProvider, MI_Application *application) { if (hostedProvider && hostedProvider->ft) { return hostedProvider->ft->GetApplication(hostedProvider, application); } else if (application) { memset(application, 0, sizeof(MI_Application)); } return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Session_Close(MI_Session *session, void *completionContext, void (MI_CALL *completionCallback)(void *completionContext)) { if (session && session->ft) { return session->ft->Close(session, completionContext, completionCallback); } else if (completionCallback) { completionCallback(completionContext); return MI_RESULT_OK; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Session_GetApplication(MI_Session *session, MI_Application *application) { if (session && session->ft) { return session->ft->GetApplication(session, application); } if (application) { memset(application, 0, sizeof(MI_Application)); } return MI_RESULT_INVALID_PARAMETER; } MI_INLINE void MI_Session_GetInstance(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->GetInstance(session, flags, options, namespaceName, inboundInstance, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_ModifyInstance(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->ModifyInstance(session, flags, options, namespaceName, inboundInstance, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_CreateInstance(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->CreateInstance(session, flags, options, namespaceName, inboundInstance, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_DeleteInstance(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *inboundInstance, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->DeleteInstance(session, flags, options, namespaceName, inboundInstance, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_Invoke(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, const MI_Char *methodName, const MI_Instance *inboundInstance, const MI_Instance *inboundProperties, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->Invoke(session, flags, options, namespaceName, className, methodName, inboundInstance, inboundProperties, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_EnumerateInstances(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->EnumerateInstances(session, flags, options, namespaceName, className, keysOnly, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_QueryInstances(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *queryDialect, const MI_Char *queryExpression, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->QueryInstances(session, flags, options, namespaceName, queryDialect, queryExpression, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_AssociatorInstances(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *instanceKey, const MI_Char *assocClass, const MI_Char *resultClass, const MI_Char *role, const MI_Char *resultRole, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->AssociatorInstances(session, flags, options, namespaceName, instanceKey, assocClass, resultClass, role, resultRole, keysOnly, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_ReferenceInstances(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Instance *instanceKey, const MI_Char *resultClass, const MI_Char *role, MI_Boolean keysOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->ReferenceInstances(session, flags, options, namespaceName, instanceKey, resultClass, role, keysOnly, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_Subscribe(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *queryDialect, const MI_Char *queryExpression, const MI_SubscriptionDeliveryOptions *deliverOptions, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->Subscribe(session, flags, options, namespaceName, queryDialect, queryExpression, deliverOptions, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->indicationResult) { callbacks->indicationResult(NULL, callbacks->callbackContext, NULL, NULL, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_GetClass(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->GetClass(session, flags, options, namespaceName, className, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->classResult) { callbacks->classResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_EnumerateClasses(MI_Session *session, MI_Uint32 flags, MI_OperationOptions *options, const MI_Char *namespaceName, const MI_Char *className, MI_Boolean classNamesOnly, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->EnumerateClasses(session, flags, options, namespaceName, className, classNamesOnly, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->classResult) { callbacks->classResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE void MI_Session_TestConnection(MI_Session *session, MI_Uint32 flags, MI_OperationCallbacks *callbacks, MI_Operation *operation) { if (session && session->ft) { session->ft->TestConnection(session, flags, callbacks, operation); } else { if (operation) { memset(operation, 0, sizeof(*operation)); } if (callbacks && callbacks->instanceResult) { callbacks->instanceResult(NULL, callbacks->callbackContext, NULL, MI_FALSE, MI_RESULT_INVALID_PARAMETER, NULL, NULL, NULL); } } } MI_INLINE MI_Result MI_Operation_GetInstance(MI_Operation *operation, const MI_Instance **instance, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails) { if (operation && operation->ft) { return operation->ft->GetInstance(operation, instance, moreResults, result, errorMessage, completionDetails); } if (result) *result = MI_RESULT_INVALID_PARAMETER; if (moreResults) *moreResults = MI_FALSE; return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Operation_GetIndication(MI_Operation *operation, const MI_Instance **instance, const MI_Char **bookmark, const MI_Char **machineID, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails) { if (operation && operation->ft) { return operation->ft->GetIndication(operation, instance, bookmark, machineID, moreResults, result, errorMessage, completionDetails); } if (result) *result = MI_RESULT_INVALID_PARAMETER; if (moreResults) *moreResults = MI_FALSE; return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Operation_GetClass(MI_Operation *operation, const MI_Class **classResult, MI_Boolean *moreResults, MI_Result *result, const MI_Char **errorMessage, const MI_Instance **completionDetails) { if (operation && operation->ft) { return operation->ft->GetClass(operation, classResult, moreResults, result, errorMessage, completionDetails); } if (result) *result = MI_RESULT_INVALID_PARAMETER; if (moreResults) *moreResults = MI_FALSE; return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Operation_Close(MI_Operation *operation) { if (operation && operation->ft) { return operation->ft->Close(operation); } return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Operation_Cancel(MI_Operation *operation, MI_CancellationReason reason) { if (operation && operation->ft) { return operation->ft->Cancel(operation, reason); } return MI_RESULT_INVALID_PARAMETER; } MI_INLINE MI_Result MI_Operation_GetSession(MI_Operation *operation, MI_Session *session) { if (session) { memset(session, 0, sizeof(MI_Session)); } if (operation && operation->ft) { return operation->ft->GetSession(operation, session); } return MI_RESULT_INVALID_PARAMETER; } MI_INLINE void MI_DestinationOptions_Delete(MI_DestinationOptions *options) { if (options && options->ft) { options->ft->Delete(options); } } MI_INLINE MI_Result MI_DestinationOptions_SetTimeout(MI_DestinationOptions *options, const MI_Interval *timeout) { if (options && options->ft) { return options->ft->SetInterval(options, MI_T("__MI_DESTINATIONOPTIONS_TIMEOUT"), timeout, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetTimeout(MI_DestinationOptions *options, MI_Interval *timeout) { if (options && options->ft) { return options->ft->GetInterval(options, MI_T("__MI_DESTINATIONOPTIONS_TIMEOUT"), timeout, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetCertCACheck(MI_DestinationOptions *options, MI_Boolean check) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_CA_CHECK"), check, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCertCACheck(MI_DestinationOptions *options, MI_Boolean *check) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_CA_CHECK"), &value, 0, 0); if (result == MI_RESULT_OK) *check = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetCertCNCheck(MI_DestinationOptions *options, MI_Boolean check) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_CN_CHECK"), check, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCertCNCheck(MI_DestinationOptions *options, MI_Boolean *check) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_CN_CHECK"), &value, 0, 0); if (result == MI_RESULT_OK) *check = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetCertRevocationCheck(MI_DestinationOptions *options, MI_Boolean check) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_REVOCATION_CHECK"), check, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCertRevocationCheck(MI_DestinationOptions *options, MI_Boolean *check) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_CERT_REVOCATION_CHECK"), &value, 0, 0); if (result == MI_RESULT_OK) *check = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetPacketPrivacy(MI_DestinationOptions *options, MI_Boolean privacy) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_PRIVACY"), privacy, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetPacketPrivacy(MI_DestinationOptions *options, MI_Boolean *privacy) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_PRIVACY"), &value, 0, 0); if (result == MI_RESULT_OK) *privacy = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetPacketIntegrity(MI_DestinationOptions *options, MI_Boolean integrity) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_INTEGRITY"), integrity, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetPacketIntegrity(MI_DestinationOptions *options, MI_Boolean *integrity) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_INTEGRITY"), &value, 0, 0); if (result == MI_RESULT_OK) *integrity = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_DESTINATIONOPTIONS_PACKET_ENCODING_DEFAULT MI_T("default") #define MI_DESTINATIONOPTIONS_PACKET_ENCODING_UTF8 MI_T("UTF8") #define MI_DESTINATIONOPTIONS_PACKET_ENCODING_UTF16 MI_T("UTF16") MI_INLINE MI_Result MI_DestinationOptions_SetPacketEncoding(MI_DestinationOptions *options, const MI_Char *encoding) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_ENCODING"), encoding, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetPacketEncoding(MI_DestinationOptions *options, const MI_Char **encoding) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_PACKET_ENCODING"), encoding, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetDataLocale(MI_DestinationOptions *options, const MI_Char *locale) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_DATA_LOCALE"), locale, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetDataLocale(MI_DestinationOptions *options, const MI_Char **locale) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_DATA_LOCALE"), locale, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetUILocale(MI_DestinationOptions *options, const MI_Char *locale) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_UI_LOCALE"), locale, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetUILocale(MI_DestinationOptions *options, const MI_Char **locale) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_UI_LOCALE"), locale, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetMaxEnvelopeSize(MI_DestinationOptions *options, MI_Uint32 sizeInKB) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_MAX_ENVELOPE_SIZE"), sizeInKB, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetMaxEnvelopeSize(MI_DestinationOptions *options, MI_Uint32 *sizeInKB) { if (options && options->ft) { return options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_MAX_ENVELOPE_SIZE"), sizeInKB, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetEncodePortInSPN(MI_DestinationOptions *options, MI_Boolean encodePort) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_ENCODE_PORT_IN_SPN"), encodePort, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetEncodePortInSPN(MI_DestinationOptions *options, MI_Boolean *encodePort) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_ENCODE_PORT_IN_SPN"), &value, 0, 0); if (result == MI_RESULT_OK) *encodePort = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetHttpUrlPrefix(MI_DestinationOptions *options, const MI_Char *prefix) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_HTTP_URL_PREFIX"), prefix, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetHttpUrlPrefix(MI_DestinationOptions *options, const MI_Char **prefix) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_HTTP_URL_PREFIX"), prefix, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetDestinationPort(MI_DestinationOptions *options, MI_Uint32 port) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_DESTINATION_PORT"), port, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetDestinationPort(MI_DestinationOptions *options, MI_Uint32 *port) { if (options && options->ft) { return options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_DESTINATION_PORT"), port, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_DESTINATIONOPTIONS_TRANSPORT_HTTP MI_T("HTTP") #define MI_DESTINATIONOPTIONS_TRANPSORT_HTTPS MI_T("HTTPS") MI_INLINE MI_Result MI_DestinationOptions_SetTransport(MI_DestinationOptions *options, const MI_Char *transport) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_TRANSPORT"), transport, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetTransport(MI_DestinationOptions *options, const MI_Char **transport) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_TRANSPORT"), transport, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_DESTINATIONOPTIONS_PROXY_TYPE_IE MI_T("IE") #define MI_DESTINATIONOPTIONS_PROXY_TYPE_WINHTTP MI_T("WinHTTP") #define MI_DESTINATIONOPTIONS_PROXY_TYPE_AUTO MI_T("Auto") #define MI_DESTINATIONOPTIONS_PROXY_TYPE_NONE MI_T("None") MI_INLINE MI_Result MI_DestinationOptions_SetProxyType(MI_DestinationOptions *options, const MI_Char *proxyType) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_DESTINATIONOPTIONS_PROXY_TYPE"), proxyType, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetProxyType(MI_DestinationOptions *options, const MI_Char **proxyType) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_DESTINATIONOPTIONS_PROXY_TYPE"), proxyType, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_AddProxyCredentials(MI_DestinationOptions *options, const MI_UserCredentials *credentials) { if (options && options->ft) { return options->ft->AddCredentials(options, MI_T("__MI_DESTINATIONOPTIONS_PROXY_CREDENTIALS"), credentials, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_AddDestinationCredentials(MI_DestinationOptions *options, const MI_UserCredentials *credentials) { if (options && options->ft) { return options->ft->AddCredentials(options, MI_T("__MI_DESTINATIONOPTIONS_DESTINATION_CREDENTIALS"), credentials, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } typedef enum _MI_DestinationOptions_ImpersonationType { MI_DestinationOptions_ImpersonationType_Default = 0, MI_DestinationOptions_ImpersonationType_None = 1, MI_DestinationOptions_ImpersonationType_Identify = 2, MI_DestinationOptions_ImpersonationType_Impersonate = 3, MI_DestinationOptions_ImpersonationType_Delegate = 4 } MI_DestinationOptions_ImpersonationType; MI_INLINE MI_Result MI_DestinationOptions_SetImpersonationType(MI_DestinationOptions *options, MI_DestinationOptions_ImpersonationType impersonationType) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_IMPERSONATION_TYPE"), impersonationType, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetImpersonationType(MI_DestinationOptions *options, MI_DestinationOptions_ImpersonationType * impersonationType) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_DESTINATIONOPTIONS_IMPERSONATION_TYPE"), &value, 0, 0); if (result == MI_RESULT_OK) *impersonationType = (MI_DestinationOptions_ImpersonationType) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetString(MI_DestinationOptions *options, const MI_Char *optionName, const MI_Char *optionValue) { if (options && options->ft) { return options->ft->SetString(options, optionName, optionValue, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetString(MI_DestinationOptions *options, const MI_Char *optionName, const MI_Char **optionValue, MI_Uint32 *index) { if (options && options->ft) { return options->ft->GetString(options, optionName, optionValue, index, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_SetNumber(MI_DestinationOptions *options, const MI_Char *optionName, MI_Uint32 optionValue) { if (options && options->ft) { return options->ft->SetNumber(options, optionName, optionValue, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetNumber(MI_DestinationOptions *options, const MI_Char *optionName, MI_Uint32 *optionValue, MI_Uint32 *index) { if (options && options->ft) { return options->ft->GetNumber(options, optionName, optionValue, index, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetOptionCount(MI_DestinationOptions *options, MI_Uint32 *count) { if (options && options->ft) { return options->ft->GetOptionCount(options, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetOptionAt(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetOptionAt(options, index, optionName, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetOption(MI_DestinationOptions *options, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetOption(options, optionName, value, type, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCredentialsCount(MI_DestinationOptions *options, MI_Uint32 *count) { if (options && options->ft) { return options->ft->GetCredentialsCount(options, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCredentialsAt(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_UserCredentials *credentials, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetCredentialsAt(options, index, optionName, credentials, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_DestinationOptions_GetCredentialsPasswordAt(MI_DestinationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Char *password, MI_Uint32 bufferLength, MI_Uint32 *passwordLength, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetCredentialsPasswordAt(options, index, optionName, password, bufferLength, passwordLength, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_DestinationOptions_Clone(const MI_DestinationOptions* self, MI_DestinationOptions* newDestinationOptions) { if (self && self->ft) { return self->ft->Clone(self, newDestinationOptions); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE void MI_OperationOptions_Delete(MI_OperationOptions *options) { if (options && options->ft) { options->ft->Delete(options); } } MI_INLINE MI_Result MI_OperationOptions_SetWriteErrorMode(MI_OperationOptions *options, MI_CallbackMode mode) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_WRITEERRORMODE"), mode, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetWriteErrorMode(MI_OperationOptions *options, MI_CallbackMode *mode) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_WRITEERRORMODE"), &value, 0, 0); if (result == MI_RESULT_OK) *mode = (MI_CallbackMode) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetPromptUserMode(MI_OperationOptions *options, MI_CallbackMode mode) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODE"), mode, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetPromptUserMode(MI_OperationOptions *options, MI_CallbackMode *mode) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODE"), &value, 0, 0); if (result == MI_RESULT_OK) *mode = (MI_CallbackMode) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetPromptUserRegularMode(MI_OperationOptions *options, MI_CallbackMode mode, MI_Boolean ackValue) { if (options && options->ft) { MI_Result result = options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODE"), mode, 0); if( result == MI_RESULT_OK) return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODEREGULAR_ACKVALUE"), ackValue, 0); else return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetPromptUserRegularMode(MI_OperationOptions *options, MI_CallbackMode *mode, MI_Boolean *ackValue) { if (options && options->ft) { MI_Uint32 _mode; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODE"), &_mode, 0, 0); if( result == MI_RESULT_OK) { MI_Uint32 _ackValue; result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROMPTUSERMODEREGULAR_ACKVALUE"), &_ackValue, 0, 0); if( result == MI_RESULT_OK) { *mode = (MI_CallbackMode)_mode; *ackValue = (MI_Boolean) _ackValue; } } return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetProviderArchitecture(MI_OperationOptions *options, MI_ProviderArchitecture architecture, MI_Boolean mustComply) { if (options && options->ft) { MI_Result result = options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROVIDER_ARCHITECTURE"), architecture, 0); if(result == MI_RESULT_OK) return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_REQUIRED_ARCHITECTURE"), mustComply, 0); else return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetProviderArchitecture(MI_OperationOptions *options, MI_ProviderArchitecture *architecture, MI_Boolean *mustComply) { if (options && options->ft) { MI_Uint32 _architecture; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_PROVIDER_ARCHITECTURE"), &_architecture, 0, 0); if(result == MI_RESULT_OK) { MI_Uint32 _mustComply; result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_REQUIRED_ARCHITECTURE"), &_mustComply, 0, 0); if(result == MI_RESULT_OK) { *architecture = (MI_ProviderArchitecture)_architecture; *mustComply = (MI_Boolean)_mustComply; } } return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_EnableChannel(MI_OperationOptions *options, MI_Uint32 channel) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_CHANNEL"), channel, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_DisableChannel(MI_OperationOptions *options, MI_Uint32 channel) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_CHANNEL"), channel, 1); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetEnabledChannels(MI_OperationOptions *options, MI_Uint32 *channels, MI_Uint32 bufferLength, MI_Uint32 *channelCount, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetEnabledChannels(options, MI_T("__MI_OPERATIONOPTIONS_CHANNEL"), channels, bufferLength, channelCount, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetTimeout(MI_OperationOptions *options, const MI_Interval *timeout) { if (options && options->ft) { return options->ft->SetInterval(options, MI_T("__MI_OPERATIONOPTIONS_TIMEOUT"), timeout, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetTimeout(MI_OperationOptions *options, MI_Interval *timeout) { if (options && options->ft) { return options->ft->GetInterval(options, MI_T("__MI_OPERATIONOPTIONS_TIMEOUT"), timeout, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetResourceUriPrefix(MI_OperationOptions *options, const MI_Char *ruriPrefix) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_OPERATIONOPTIONS_RESOURCE_URI_PREFIX"), ruriPrefix, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetResourceUriPrefix(MI_OperationOptions *options, const MI_Char **ruriPrefix) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_OPERATIONOPTIONS_RESOURCE_URI_PREFIX"), ruriPrefix, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetResourceUri(MI_OperationOptions *options, const MI_Char *rUri) { if (options && options->ft) { return options->ft->SetString(options, MI_T("__MI_OPERATIONOPTIONS_RESOURCE_URI"), rUri, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetResourceUri(MI_OperationOptions *options, const MI_Char **rUri) { if (options && options->ft) { return options->ft->GetString(options, MI_T("__MI_OPERATIONOPTIONS_RESOURCE_URI"), rUri, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetUseMachineID(MI_OperationOptions *options, MI_Boolean machineID) { if (options && options->ft) { return options->ft->SetNumber(options, MI_T("__MI_OPERATIONOPTIONS_USE_MACHINE_ID"), machineID, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetUseMachineID(MI_OperationOptions *options, MI_Boolean *machineID) { if (options && options->ft) { MI_Uint32 value; MI_Result result = options->ft->GetNumber(options, MI_T("__MI_OPERATIONOPTIONS_USE_MACHINE_ID"), &value, 0, 0); if (result == MI_RESULT_OK) *machineID = (MI_Boolean) value; return result; } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetCustomOption(MI_OperationOptions *options, const MI_Char *optionName, MI_Type optionValueType, const MI_Value *optionValue, MI_Boolean mustComply) { if (options && options->ft) { return options->ft->SetCustomOption(options, optionName, optionValueType, optionValue, mustComply, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetOptionCount(MI_OperationOptions *options, MI_Uint32 *count) { if (options && options->ft) { return options->ft->GetOptionCount(options, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetOptionAt(MI_OperationOptions *options, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetOptionAt(options, index, optionName, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetString(MI_OperationOptions *options, const MI_Char *optionName, const MI_Char *value, MI_Uint32 flags) { if (options && options->ft) { return options->ft->SetString(options, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetString(MI_OperationOptions *options, const MI_Char *optionName, const MI_Char **value, MI_Uint32 *index, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetString(options, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_SetNumber(MI_OperationOptions *options, const MI_Char *optionName, MI_Uint32 value, MI_Uint32 flags) { if (options && options->ft) { return options->ft->SetNumber(options, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetNumber(MI_OperationOptions *options, const MI_Char *optionName, MI_Uint32 *value, MI_Uint32 *index, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetNumber(options, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_OperationOptions_GetOption(MI_OperationOptions *options, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags) { if (options && options->ft) { return options->ft->GetOption(options, optionName, value, type, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_OperationOptions_Clone(const MI_OperationOptions* self, MI_OperationOptions* newOperationOptions) { if (self && self->ft) { return self->ft->Clone(self, newOperationOptions); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetClassName(const MI_Class* self, const MI_Char** className) { if (self && self->ft) { return self->ft->GetClassName(self, className); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetNameSpace(const MI_Class* self, const MI_Char** nameSpace) { if (self && self->ft) { return self->ft->GetNameSpace(self, nameSpace); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetServerName(const MI_Class* self, const MI_Char** serverName) { if (self && self->ft) { return self->ft->GetServerName(self, serverName); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetElementCount(const MI_Class* self, MI_Uint32* count) { if (self && self->ft) { return self->ft->GetElementCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetElement(const MI_Class* self, const MI_Char* name, MI_Value* value, MI_Boolean* valueExists, MI_Type* type, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32* flags, MI_Uint32* index) { if (self && self->ft) { return self->ft->GetElement(self, name, value, valueExists, type, referenceClass, qualifierSet, flags, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetElementAt(const MI_Class* self, MI_Uint32 index, const MI_Char** name, MI_Value* value, MI_Boolean* valueExists, MI_Type* type, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32* flags) { if (self && self->ft) { return self->ft->GetElementAt(self, index, name, value, valueExists, type, referenceClass, qualifierSet, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetClassQualifierSet(const MI_Class* self, MI_QualifierSet *qualifierSet) { if (self && self->ft) { return self->ft->GetClassQualifierSet(self, qualifierSet); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetMethodCount(const MI_Class* self, MI_Uint32* count) { if (self && self->ft) { return self->ft->GetMethodCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetMethodAt(const MI_Class *self, MI_Uint32 index, const MI_Char **name, MI_QualifierSet *qualifierSet, MI_ParameterSet *parameterSet) { if (self && self->ft) { return self->ft->GetMethodAt(self, index, name, qualifierSet, parameterSet); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetMethod(const MI_Class *self, const MI_Char *name, MI_QualifierSet *qualifierSet, MI_ParameterSet *parameterSet, MI_Uint32 *index) { if (self && self->ft) { return self->ft->GetMethod(self, name, qualifierSet, parameterSet, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetParentClassName(const MI_Class *self, const MI_Char **name) { if (self && self->ft) { return self->ft->GetParentClassName(self, name); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_GetParentClass(const MI_Class *self, MI_Class **parentClass) { if (self && self->ft) { return self->ft->GetParentClass(self, parentClass); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_Class_Delete(MI_Class* self) { if (self && self->ft) { return self->ft->Delete(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_Class_Clone(const MI_Class* self, MI_Class** newClass) { if (self && self->ft) { return self->ft->Clone(self, newClass); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_ParameterSet_GetMethodReturnType(const MI_ParameterSet *self, MI_Type *returnType, MI_QualifierSet *qualifierSet) { if (self && self->ft) { return self->ft->GetMethodReturnType(self, returnType, qualifierSet); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_ParameterSet_GetParameterCount(const MI_ParameterSet *self, MI_Uint32 *count) { if (self && self->ft) { return self->ft->GetParameterCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_ParameterSet_GetParameterAt(const MI_ParameterSet *self, MI_Uint32 index, const MI_Char **name, MI_Type *parameterType, MI_Char **referenceClass, MI_QualifierSet *qualifierSet) { if (self && self->ft) { return self->ft->GetParameterAt(self, index, name, parameterType, referenceClass, qualifierSet); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_ParameterSet_GetParameter(const MI_ParameterSet *self, const MI_Char *name, MI_Type *parameterType, MI_Char **referenceClass, MI_QualifierSet *qualifierSet, MI_Uint32 *index) { if (self && self->ft) { return self->ft->GetParameter(self, name, parameterType, referenceClass, qualifierSet, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_QualifierSet_GetQualifierCount(const MI_QualifierSet *self, MI_Uint32 *count) { if (self && self->ft) { return self->ft->GetQualifierCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_QualifierSet_GetQualifierAt(const MI_QualifierSet *self, MI_Uint32 index, const MI_Char **name, MI_Type *qualifierType, MI_Uint32 *qualifierFlags, MI_Value *qualifierValue) { if (self && self->ft) { return self->ft->GetQualifierAt(self, index, name, qualifierType, qualifierFlags, qualifierValue); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_QualifierSet_GetQualifier(const MI_QualifierSet *self, const MI_Char *name, MI_Type *qualifierType, MI_Uint32 *qualifierFlags, MI_Value *qualifierValue, MI_Uint32 *index) { if (self && self->ft) { return self->ft->GetQualifier(self, name, qualifierType, qualifierFlags, qualifierValue, index); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetMaximumLatency(MI_SubscriptionDeliveryOptions *self, MI_Interval *value) { if (self && self->ft) { return self->ft->SetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_MAXIMUM_LATENCY"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetMaximumLatency(MI_SubscriptionDeliveryOptions *self, MI_Interval *value) { if (self && self->ft) { return self->ft->GetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_MAXIMUM_LATENCY"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetHeartbeatInterval(MI_SubscriptionDeliveryOptions *self, MI_Interval *value) { if (self && self->ft) { return self->ft->SetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_HEARTBEAT_INTERVAL"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetHeartbeatInterval(MI_SubscriptionDeliveryOptions *self, MI_Interval *value) { if (self && self->ft) { return self->ft->GetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_HEARTBEAT_INTERVAL"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetExpirationTime(MI_SubscriptionDeliveryOptions *self, MI_Datetime *value) { if (self && self->ft) { return self->ft->SetDateTime(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_EXPIRATION_TIME"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetExpirationTime(MI_SubscriptionDeliveryOptions *self, MI_Datetime *value) { if (self && self->ft) { return self->ft->GetDateTime(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_EXPIRATION_TIME"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_SUBSCRIBE_BOOKMARK_OLDEST L"MI_SUBSCRIBE_BOOKMARK_OLDEST" #define MI_SUBSCRIBE_BOOKMARK_NEWEST L"MI_SUBSCRIBE_BOOKMARK_NEWEST" MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetBookmark(MI_SubscriptionDeliveryOptions *self, const MI_Char *value) { if (self && self->ft) { return self->ft->SetString(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_BOOKMARK"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetBookmark(MI_SubscriptionDeliveryOptions *self, const MI_Char **value) { if (self && self->ft) { return self->ft->GetString(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_BOOKMARK"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetDeliveryDestination(MI_SubscriptionDeliveryOptions *self, const MI_Char *value) { if (self && self->ft) { return self->ft->SetString(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_DESTINATION"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetDeliveryDestination(MI_SubscriptionDeliveryOptions *self, const MI_Char **value) { if (self && self->ft) { return self->ft->GetString(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_DESTINATION"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetDeliveryPortNumber(MI_SubscriptionDeliveryOptions *self, MI_Uint32 value) { if (self && self->ft) { return self->ft->SetNumber(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_PORT_NUMBER"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetDeliveryPortNumber(MI_SubscriptionDeliveryOptions *self, MI_Uint32 *value) { if (self && self->ft) { return self->ft->GetNumber(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_PORT_NUMBER"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_AddDeliveryCredentials(MI_SubscriptionDeliveryOptions *self, const MI_UserCredentials *value) { if (self && self->ft) { return self->ft->AddCredentials(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_ADD_DELIVERY_CREDENTIALS"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetDeliveryRetryInterval(MI_SubscriptionDeliveryOptions *self, const MI_Interval *value) { if (self && self->ft) { return self->ft->SetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_RETRY_INTERVAL"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetDeliveryRetryInterval(MI_SubscriptionDeliveryOptions *self, MI_Interval *value) { if (self && self->ft) { return self->ft->GetInterval(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_RETRY_INTERVAL"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetDeliveryRetryAttempts(MI_SubscriptionDeliveryOptions *self, MI_Uint32 value) { if (self && self->ft) { return self->ft->SetNumber(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_RETRY_ATTEMPTS"), value, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetDeliveryRetryAttempts(MI_SubscriptionDeliveryOptions *self, MI_Uint32 *value) { if (self && self->ft) { return self->ft->GetNumber(self, MI_T("__MI_SUBSCRIPTIONDELIVERYOPTIONS_SET_DELIVERY_RETRY_ATTEMPTS"), value, 0, 0); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_Delete(MI_SubscriptionDeliveryOptions* self) { if (self && self->ft) { return self->ft->Delete(self); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetString(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, const MI_Char *value, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetString(self, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetNumber(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, MI_Uint32 value, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetNumber(self, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetDateTime(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, const MI_Datetime *value, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetDateTime(self, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_SetInterval(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, const MI_Interval *value, MI_Uint32 flags) { if (self && self->ft) { return self->ft->SetInterval(self, optionName, value, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetString(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, const MI_Char **value, MI_Uint32 *index, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetString(self, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetNumber(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, MI_Uint32 *value, MI_Uint32 *index, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetNumber(self, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetDateTime(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, MI_Datetime *value, MI_Uint32 *index, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetDateTime(self, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetInterval(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, MI_Interval *value, MI_Uint32 *index, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetInterval(self, optionName, value, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetOptionCount( MI_SubscriptionDeliveryOptions *self, MI_Uint32 *count) { if (self && self->ft) { return self->ft->GetOptionCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetOptionAt(MI_SubscriptionDeliveryOptions *self, MI_Uint32 index, const MI_Char **optionName, MI_Value *value, MI_Type *type, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetOptionAt(self, index, optionName, value, type, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetOption(MI_SubscriptionDeliveryOptions *self, const MI_Char *optionName, MI_Value *value, MI_Type *type, MI_Uint32 *index, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetOption(self, optionName, value, type, index, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetCredentialsCount(MI_SubscriptionDeliveryOptions *self, MI_Uint32 *count) { if (self && self->ft) { return self->ft->GetCredentialsCount(self, count); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetCredentialsAt(MI_SubscriptionDeliveryOptions *self, MI_Uint32 index, const MI_Char **optionName, MI_UserCredentials *credentials, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetCredentialsAt(self, index, optionName, credentials, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_SubscriptionDeliveryOptions_GetCredentialsPasswordAt(MI_SubscriptionDeliveryOptions *self, MI_Uint32 index, const MI_Char **optionName, MI_Char *password, MI_Uint32 bufferLength, MI_Uint32 *passwordLength, MI_Uint32 *flags) { if (self && self->ft) { return self->ft->GetCredentialsPasswordAt(self, index, optionName, password, bufferLength, passwordLength, flags); } else { return MI_RESULT_INVALID_PARAMETER; } } MI_INLINE MI_Result MI_INLINE_CALL MI_SubscriptionDeliveryOptions_Clone(const MI_SubscriptionDeliveryOptions* self, MI_SubscriptionDeliveryOptions* newSubscriptionDeliveryOptions) { if (self && self->ft) { return self->ft->Clone(self, newSubscriptionDeliveryOptions); } else { return MI_RESULT_INVALID_PARAMETER; } } #define MI_SERIALIZER_FLAGS_CLASS_DEEP 1 #define MI_SERIALIZER_FLAGS_INSTANCE_WITH_CLASS 1 MI_INLINE MI_Result MI_Serializer_Close(MI_Serializer *serializer) { return mi_clientFT->serializerFT->Close(serializer); } MI_INLINE MI_Result MI_Serializer_SerializeClass(MI_Serializer *serializer, MI_Uint32 flags, const MI_Class *classObject, MI_Uint8 *clientBuffer, MI_Uint32 clientBufferLength, MI_Uint32 *clientBufferNeeded) { return mi_clientFT->serializerFT->SerializeClass(serializer, flags, classObject, clientBuffer, clientBufferLength, clientBufferNeeded); } MI_INLINE MI_Result MI_Serializer_SerializeInstance(MI_Serializer *serializer, MI_Uint32 flags, const MI_Instance *instanceObject, MI_Uint8 *clientBuffer, MI_Uint32 clientBufferLength, MI_Uint32 *clientBufferNeeded) { return mi_clientFT->serializerFT->SerializeInstance(serializer, flags, instanceObject, clientBuffer, clientBufferLength, clientBufferNeeded); } MI_INLINE MI_Result MI_Deserializer_Close(MI_Deserializer *deserializer) { const MI_ClientFT_V1 *clientFT = mi_clientFT; const MI_DeserializerFT *deserializerFT = clientFT->deserializerFT; return deserializerFT->Close(deserializer); } MI_INLINE MI_Result MI_Deserializer_DeserializeClass(MI_Deserializer *deserializer, MI_Uint32 flags, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Class *parentClass, const MI_Char *serverName, const MI_Char *namespaceName, MI_Deserializer_ClassObjectNeeded classObjectNeeded, void *classObjectNeededContext, MI_Uint32 *serializedBufferRead, MI_Class **classObject, MI_Instance **cimErrorDetails) { return mi_clientFT->deserializerFT->DeserializeClass(deserializer, flags, serializedBuffer, serializedBufferLength, parentClass, serverName, namespaceName, classObjectNeeded, classObjectNeededContext, serializedBufferRead, classObject, cimErrorDetails); } MI_INLINE MI_Result MI_Deserializer_Class_GetClassName(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *className, MI_Uint32 *classNameLength, MI_Instance **cimErrorDetails) { return mi_clientFT->deserializerFT->Class_GetClassName(deserializer, serializedBuffer, serializedBufferLength, className, classNameLength, cimErrorDetails); } MI_INLINE MI_Result MI_Deserializer_Class_GetParentClassName(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *parentClassName, MI_Uint32 *parentClassNameLength, MI_Instance **cimErrorDetails) { return mi_clientFT->deserializerFT->Class_GetParentClassName(deserializer, serializedBuffer, serializedBufferLength, parentClassName, parentClassNameLength, cimErrorDetails); } MI_INLINE MI_Result MI_Deserializer_DeserializeInstance(MI_Deserializer *deserializer, MI_Uint32 flags, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Class **classObjects, MI_Uint32 numberClassObjects, MI_Deserializer_ClassObjectNeeded classObjectNeeded, void *classObjectNeededContext, MI_Uint32 *serializedBufferRead, MI_Instance **instanceObject, MI_Instance **cimErrorDetails) { return mi_clientFT->deserializerFT->DeserializeInstance(deserializer, flags, serializedBuffer, serializedBufferLength, classObjects, numberClassObjects, classObjectNeeded, classObjectNeededContext, serializedBufferRead, instanceObject, cimErrorDetails); } MI_INLINE MI_Result MI_Deserializer_Instance_GetClassName(MI_Deserializer *deserializer, MI_Uint8 *serializedBuffer, MI_Uint32 serializedBufferLength, MI_Char *className, MI_Uint32 *classNameLength, MI_Instance **cimErrorDetails) { return mi_clientFT->deserializerFT->Instance_GetClassName(deserializer, serializedBuffer, serializedBufferLength, className, classNameLength, cimErrorDetails); } MI_INLINE MI_ErrorCategory MI_Utilities_MapErrorToMiErrorCategory(MI_Char *errorType, MI_Uint32 error) { return mi_clientFT->utilitiesFT->MapErrorToMiErrorCategory(errorType, error); } MI_INLINE MI_Result MI_Utilities_CimErrorFromErrorCode(MI_Uint32 error, const MI_Char *errorType, const MI_Char* errorMessage, MI_Instance **cimError) { return mi_clientFT->utilitiesFT->CimErrorFromErrorCode(error, errorType, errorMessage, cimError); } #define MI_CancelationReason MI_CancellationReason #define _MI_CancelationReason _MI_CancellationReason #define MI_PostResult MI_Context_PostResult #define MI_PostCimError MI_Context_PostCimError #define MI_PostError MI_Context_PostError #define MI_PostInstance MI_Context_PostInstance #define MI_PostIndication MI_Context_PostIndication #define MI_ConstructInstance MI_Context_ConstructInstance #define MI_ConstructParameters MI_Context_ConstructParameters #define MI_NewInstance MI_Context_NewInstance #define MI_NewDynamicInstance MI_Context_NewDynamicInstance #define MI_NewParameters MI_Context_NewParameters #define MI_Canceled MI_Context_Canceled #define MI_GetLocale MI_Context_GetLocale #define MI_RegisterCancel MI_Context_RegisterCancel #define MI_RequestUnload MI_Context_RequestUnload #define MI_RefuseUnload MI_Context_RefuseUnload #define MI_GetLocalSession MI_Context_GetLocalSession #define MI_SetStringOption MI_Context_SetStringOption #define MI_GetStringOption MI_Context_GetStringOption #define MI_GetNumberOption MI_Context_GetNumberOption #define MI_GetCustomOption MI_Context_GetCustomOption #define MI_GetCustomOptionCount MI_Context_GetCustomOptionCount #define MI_GetCustomOptionAt MI_Context_GetCustomOptionAt #define MI_ShouldProcess MI_Context_ShouldProcess #define MI_ShouldContinue MI_Context_ShouldContinue #define MI_PromptUser MI_Context_PromptUser #define MI_WriteError MI_Context_WriteError #define MI_WriteCimError MI_Context_WriteCimError #define MI_WriteMessage MI_Context_WriteMessage #define MI_WriteProgress MI_Context_WriteProgress #define MI_WriteStreamParameter MI_Context_WriteStreamParameter #define MI_WriteWarning MI_Context_WriteWarning #define MI_WriteVerbose MI_Context_WriteVerbose #define MI_WriteDebug MI_Context_WriteDebug #define MI_SubscriptionDeliveryOptions__SetExpirationTime MI_SubscriptionDeliveryOptions_SetExpirationTime #define MI_SubscriptionDeliveryOptions__GetExpirationTime MI_SubscriptionDeliveryOptions_GetExpirationTime #ifdef __cplusplus } #endif #endif /* __MI_C_API_H */ #endif /* WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) */