3 The definition of CFormPkg's member function
5 Copyright (c) 2004 - 2016, Intel Corporation. All rights reserved.<BR>
6 This program and the accompanying materials
7 are licensed and made available under the terms and conditions of the BSD License
8 which accompanies this distribution. The full text of the license may be found at
9 http://opensource.org/licenses/bsd-license.php
11 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
12 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
16 #ifndef _EFIIFRCLASS_H_
17 #define _EFIIFRCLASS_H_
22 #include "VfrUtilityLib.h"
24 #define NO_QST_REFED "no question refered"
32 * The functions below are used for flags setting
34 static inline BOOLEAN
_FLAGS_ZERO (
41 static inline VOID
_FLAG_CLEAR (
49 static inline UINT8
_FLAG_TEST_AND_CLEAR (
54 UINT8 Ret
= Flags
& Mask
;
59 static inline UINT8
_IS_EQUAL (
64 return Flags
== Value
;
68 * The definition of CIfrBin
75 struct SPendingAssign
{
76 CHAR8
*mKey
; // key ! unique
82 struct SPendingAssign
*mNext
;
84 SPendingAssign (IN CHAR8
*, IN VOID
*, IN UINT32
, IN UINT32
, IN CONST CHAR8
*);
87 VOID
SetAddrAndLen (IN VOID
*, IN UINT32
);
88 VOID
AssignValue (IN VOID
*, IN UINT32
);
89 CHAR8
* GetKey (VOID
);
96 struct SBufferNode
*mNext
;
100 BOOLEAN CompatibleMode
;
101 EFI_GUID
*OverrideClassGuid
;
102 } INPUT_INFO_TO_SYNTAX
;
107 SBufferNode
*mBufferNodeQueueHead
;
108 SBufferNode
*mBufferNodeQueueTail
;
109 SBufferNode
*mCurrBufferNode
;
111 SBufferNode
*mReadBufferNode
;
112 UINT32 mReadBufferOffset
;
116 VOID
_WRITE_PKG_LINE (IN
FILE *, IN UINT32
, IN CONST CHAR8
*, IN CHAR8
*, IN UINT32
);
117 VOID
_WRITE_PKG_END (IN
FILE *, IN UINT32
, IN CONST CHAR8
*, IN CHAR8
*, IN UINT32
);
118 SBufferNode
* GetBinBufferNodeForAddr (IN CHAR8
*);
119 SBufferNode
* CreateNewNode ();
120 SBufferNode
* GetNodeBefore (IN SBufferNode
*);
121 EFI_VFR_RETURN_CODE
InsertNodeBefore (IN SBufferNode
*, IN SBufferNode
*);
124 SPendingAssign
*PendingAssignList
;
127 CFormPkg (IN UINT32 BufferSize
= 4096);
130 CHAR8
* IfrBinBufferGet (IN UINT32
);
131 inline UINT32
GetPkgLength (VOID
);
134 UINT32
Read (IN CHAR8
*, IN UINT32
);
137 EFI_VFR_RETURN_CODE
BuildPkgHdr (OUT EFI_HII_PACKAGE_HEADER
**);
138 EFI_VFR_RETURN_CODE
BuildPkg (IN
FILE *, IN PACKAGE_DATA
*PkgData
= NULL
);
139 EFI_VFR_RETURN_CODE
BuildPkg (OUT PACKAGE_DATA
&);
140 EFI_VFR_RETURN_CODE
GenCFile (IN CHAR8
*, IN
FILE *, IN PACKAGE_DATA
*PkgData
= NULL
);
143 EFI_VFR_RETURN_CODE
AssignPending (IN CHAR8
*, IN VOID
*, IN UINT32
, IN UINT32
, IN CONST CHAR8
*Msg
= NULL
);
144 VOID
DoPendingAssign (IN CHAR8
*, IN VOID
*, IN UINT32
);
145 bool HavePendingUnassigned (VOID
);
146 VOID
PendingAssignPrintAll (VOID
);
147 EFI_VFR_RETURN_CODE
DeclarePendingQuestion (
148 IN CVfrVarDataTypeDB
&lCVfrVarDataTypeDB
,
149 IN CVfrDataStorage
&lCVfrDataStorage
,
150 IN CVfrQuestionDB
&lCVfrQuestionDB
,
151 IN EFI_GUID
*LocalFormSetGuid
,
153 OUT CHAR8
**InsertOpcodeAddr
155 EFI_VFR_RETURN_CODE
AdjustDynamicInsertOpcode (
156 IN CHAR8
*LastFormEndAddr
,
157 IN CHAR8
*InsertOpcodeAddr
,
158 IN BOOLEAN CreateOpcodeAfterParsingVfr
160 CHAR8
* GetBufAddrBaseOnOffset (
165 extern CFormPkg gCFormPkg
;
166 extern CVfrStringDB gCVfrStringDB
;
167 extern UINT32 gAdjustOpcodeOffset
;
168 extern BOOLEAN gNeedAdjustOpcode
;
182 #define EFI_IFR_RECORDINFO_IDX_INVALUD 0xFFFFFF
183 #define EFI_IFR_RECORDINFO_IDX_START 0x0
184 #define EFI_HII_MAX_SUPPORT_DEFAULT_TYPE 0x08
186 struct QuestionDefaultRecord
{
187 BOOLEAN mIsDefaultIdExist
[EFI_HII_MAX_SUPPORT_DEFAULT_TYPE
]; // Record the default id in mAllDefaultIdArray[EFI_HII_MAX_SUPPORT_DEFAULT_TYPE]
188 // whether exists in current question.
190 SIfrRecord
*mDefaultValueRecord
; // Point to the default value record in RecordList which has smallest default Id.
191 // (for checkbox it may be NULL, because the dedault value is always true when the flag is set.)
193 BOOLEAN mIsDefaultOpcode
; // whether the default value with smallest default id is given by default opcode.
194 // (for oneof and checkbox default info may be given by flag.)
196 UINT16 mDefaultNumber
; // The default number of this question.
199 class CIfrRecordInfoDB
{
203 SIfrRecord
*mIfrRecordListHead
;
204 SIfrRecord
*mIfrRecordListTail
;
205 UINT8 mAllDefaultTypeCount
;
206 UINT16 mAllDefaultIdArray
[EFI_HII_MAX_SUPPORT_DEFAULT_TYPE
];
208 SIfrRecord
* GetRecordInfoFromIdx (IN UINT32
);
209 BOOLEAN
CheckQuestionOpCode (IN UINT8
);
210 BOOLEAN
CheckIdOpCode (IN UINT8
);
211 EFI_QUESTION_ID
GetOpcodeQuestionId (IN EFI_IFR_OP_HEADER
*);
213 CIfrRecordInfoDB (VOID
);
214 ~CIfrRecordInfoDB (VOID
);
216 inline VOID
TurnOn (VOID
) {
220 inline VOID
TurnOff (VOID
) {
224 SIfrRecord
* GetRecordInfoFromOffset (IN UINT32
);
225 VOID
IfrAdjustOffsetForRecord (VOID
);
226 BOOLEAN
IfrAdjustDynamicOpcodeInRecords (IN BOOLEAN
);
228 UINT32
IfrRecordRegister (IN UINT32
, IN CHAR8
*, IN UINT8
, IN UINT32
);
229 VOID
IfrRecordInfoUpdate (IN UINT32
, IN UINT32
, IN CHAR8
*, IN UINT8
, IN UINT32
);
230 VOID
IfrRecordOutput (IN
FILE *, IN UINT32 LineNo
);
231 VOID
IfrRecordOutput (OUT PACKAGE_DATA
&);
232 EFI_VFR_RETURN_CODE
IfrRecordAdjust (VOID
);
233 VOID
IfrUpdateRecordInfoForDynamicOpcode (IN BOOLEAN
);
234 VOID
IfrCheckAddDefaultRecord (IN BOOLEAN
, IN BOOLEAN
);
235 VOID
IfrGetDefaultStoreInfo ();
236 VOID
IfrCreateDefaultRecord (IN UINT8 Size
,IN UINT16 DefaultId
,IN UINT8 Type
,IN UINT32 LineNo
,IN EFI_IFR_TYPE_VALUE Value
);
237 VOID
IfrCreateDefaultForQuestion (IN SIfrRecord
*, IN QuestionDefaultRecord
*);
238 VOID
IfrParseDefaulInfoInQuestion (IN SIfrRecord
*, OUT QuestionDefaultRecord
*);
239 VOID
IfrAddDefaultToBufferConfig (IN UINT16
, IN SIfrRecord
*,IN EFI_IFR_TYPE_VALUE
);
242 extern CIfrRecordInfoDB gCIfrRecordInfoDB
;
245 * The definition of CIfrObj
247 extern BOOLEAN gCreateOp
;
260 CIfrObj (IN UINT8 OpCode
, OUT CHAR8
**IfrObj
= NULL
, IN UINT8 ObjBinLen
= 0, IN BOOLEAN DelayEmit
= FALSE
);
261 virtual ~CIfrObj(VOID
);
263 VOID
_EMIT_PENDING_OBJ (VOID
);
265 inline VOID
SetLineNo (IN UINT32 LineNo
) {
269 inline CHAR8
* GetObjBinAddr (VOID
) {
273 inline UINT32
GetObjBinOffset (VOID
) {
277 inline UINT8
GetObjBinLen (VOID
) {
281 inline bool ExpendObjBin (IN UINT8 Size
) {
282 if ((mDelayEmit
== TRUE
) && ((mObjBinLen
+ Size
) > mObjBinLen
)) {
283 mObjBinLen
= mObjBinLen
+ Size
;
290 inline bool ShrinkObjBin (IN UINT8 Size
) {
291 if ((mDelayEmit
== TRUE
) && (mObjBinLen
> Size
)) {
301 * The definition of CIfrOpHeader
305 EFI_IFR_OP_HEADER
*mHeader
;
308 CIfrOpHeader (IN UINT8 OpCode
, IN VOID
*StartAddr
, IN UINT8 Length
= 0);
309 CIfrOpHeader (IN CIfrOpHeader
&);
311 VOID
IncLength (UINT8 Size
) {
312 if ((mHeader
->Length
+ Size
) > mHeader
->Length
) {
313 mHeader
->Length
= mHeader
->Length
+ Size
;
317 VOID
DecLength (UINT8 Size
) {
318 if (mHeader
->Length
>= Size
) {
319 mHeader
->Length
-= Size
;
324 return mHeader
->Length
;
328 return mHeader
->Scope
;
331 VOID
SetScope (IN UINT8 Scope
) {
332 mHeader
->Scope
= Scope
;
335 VOID
UpdateHeader (IN EFI_IFR_OP_HEADER
*Header
) {
340 return mHeader
->OpCode
;
344 extern UINT8 gScopeCount
;
347 * The definition of CIfrStatementHeader
349 class CIfrStatementHeader
{
351 EFI_IFR_STATEMENT_HEADER
*mHeader
;
354 CIfrStatementHeader (
355 IN EFI_IFR_STATEMENT_HEADER
*StartAddr
356 ) : mHeader ((EFI_IFR_STATEMENT_HEADER
*)StartAddr
) {
358 mHeader
->Help
= EFI_STRING_ID_INVALID
;
359 mHeader
->Prompt
= EFI_STRING_ID_INVALID
;
362 EFI_IFR_STATEMENT_HEADER
*GetStatementHeader () {
366 VOID
SetPrompt (IN EFI_STRING_ID Prompt
) {
367 mHeader
->Prompt
= Prompt
;
370 VOID
SetHelp (IN EFI_STRING_ID Help
) {
371 mHeader
->Help
= Help
;
376 * The definition of CIfrQuestionHeader
378 #define EFI_IFR_QUESTION_FLAG_DEFAULT 0
380 class CIfrQuestionHeader
: public CIfrStatementHeader
{
382 EFI_IFR_QUESTION_HEADER
*mHeader
;
384 EFI_IFR_STATEMENT_HEADER
* QH2SH (EFI_IFR_QUESTION_HEADER
*Qheader
) {
385 return &(Qheader
)->Header
;
389 EFI_QUESTION_ID
QUESTION_ID (VOID
) {
390 return mHeader
->QuestionId
;
393 EFI_VARSTORE_ID
VARSTORE_ID (VOID
) {
394 return mHeader
->VarStoreId
;
397 VOID
VARSTORE_INFO (OUT EFI_VARSTORE_INFO
*Info
) {
399 Info
->mVarStoreId
= mHeader
->VarStoreId
;
400 memmove (&Info
->mVarStoreId
, &mHeader
->VarStoreInfo
, sizeof (Info
->mVarStoreId
));
405 return mHeader
->Flags
;
410 IN EFI_IFR_QUESTION_HEADER
*StartAddr
,
411 IN UINT8 Flags
= EFI_IFR_QUESTION_FLAG_DEFAULT
412 ) : CIfrStatementHeader (QH2SH(StartAddr
)) {
414 mHeader
->QuestionId
= EFI_QUESTION_ID_INVALID
;
415 mHeader
->VarStoreId
= EFI_VARSTORE_ID_INVALID
;
416 mHeader
->VarStoreInfo
.VarName
= EFI_STRING_ID_INVALID
;
417 mHeader
->VarStoreInfo
.VarOffset
= EFI_VAROFFSET_INVALID
;
418 mHeader
->Flags
= Flags
;
421 VOID
SetQuestionId (IN EFI_QUESTION_ID QuestionId
) {
422 mHeader
->QuestionId
= QuestionId
;
425 VOID
SetVarStoreInfo (IN EFI_VARSTORE_INFO
*Info
) {
426 mHeader
->VarStoreId
= Info
->mVarStoreId
;
427 mHeader
->VarStoreInfo
.VarName
= Info
->mInfo
.mVarName
;
428 mHeader
->VarStoreInfo
.VarOffset
= Info
->mInfo
.mVarOffset
;
431 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 Flags
) {
432 if (_FLAG_TEST_AND_CLEAR (Flags
, EFI_IFR_FLAG_READ_ONLY
)) {
433 mHeader
->Flags
|= EFI_IFR_FLAG_READ_ONLY
;
436 _FLAG_CLEAR (Flags
, 0x02);
438 if (_FLAG_TEST_AND_CLEAR (Flags
, EFI_IFR_FLAG_CALLBACK
)) {
439 mHeader
->Flags
|= EFI_IFR_FLAG_CALLBACK
;
443 // ignore NVAccessFlag
445 _FLAG_CLEAR (Flags
, 0x08);
447 if (_FLAG_TEST_AND_CLEAR (Flags
, EFI_IFR_FLAG_RESET_REQUIRED
)) {
448 mHeader
->Flags
|= EFI_IFR_FLAG_RESET_REQUIRED
;
451 if (_FLAG_TEST_AND_CLEAR (Flags
, EFI_IFR_FLAG_RECONNECT_REQUIRED
)) {
452 mHeader
->Flags
|= EFI_IFR_FLAG_RECONNECT_REQUIRED
;
456 // Set LateCheck Flag to compatible for framework flag
457 // but it uses 0x20 as its flag, if in the future UEFI may take this flag
459 if (_FLAG_TEST_AND_CLEAR (Flags
, 0x20)) {
460 mHeader
->Flags
|= 0x20;
463 if (_FLAG_TEST_AND_CLEAR (Flags
, EFI_IFR_FLAG_OPTIONS_ONLY
)) {
464 mHeader
->Flags
|= EFI_IFR_FLAG_OPTIONS_ONLY
;
467 return _FLAGS_ZERO (Flags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
470 VOID
UpdateCIfrQuestionHeader (IN EFI_IFR_QUESTION_HEADER
*Header
) {
476 * The definition of CIfrMinMaxStepData
478 class CIfrMinMaxStepData
{
480 MINMAXSTEP_DATA
*mMinMaxStepData
;
485 CIfrMinMaxStepData (MINMAXSTEP_DATA
*DataAddr
, BOOLEAN NumericOpcode
=FALSE
) : mMinMaxStepData (DataAddr
) {
486 mMinMaxStepData
->u64
.MinValue
= 0;
487 mMinMaxStepData
->u64
.MaxValue
= 0;
488 mMinMaxStepData
->u64
.Step
= 0;
490 IsNumeric
= NumericOpcode
;
493 VOID
SetMinMaxStepData (IN UINT64 MinValue
, IN UINT64 MaxValue
, IN UINT64 Step
) {
495 mMinMaxStepData
->u64
.MinValue
= MinValue
;
496 mMinMaxStepData
->u64
.MaxValue
= MaxValue
;
499 if (MinValue
< mMinMaxStepData
->u64
.MinValue
) {
500 mMinMaxStepData
->u64
.MinValue
= MinValue
;
502 if (MaxValue
> mMinMaxStepData
->u64
.MaxValue
) {
503 mMinMaxStepData
->u64
.MaxValue
= MaxValue
;
506 mMinMaxStepData
->u64
.Step
= Step
;
509 VOID
SetMinMaxStepData (IN UINT32 MinValue
, IN UINT32 MaxValue
, IN UINT32 Step
) {
511 mMinMaxStepData
->u32
.MinValue
= MinValue
;
512 mMinMaxStepData
->u32
.MaxValue
= MaxValue
;
515 if (MinValue
< mMinMaxStepData
->u32
.MinValue
) {
516 mMinMaxStepData
->u32
.MinValue
= MinValue
;
518 if (MaxValue
> mMinMaxStepData
->u32
.MaxValue
) {
519 mMinMaxStepData
->u32
.MaxValue
= MaxValue
;
522 mMinMaxStepData
->u32
.Step
= Step
;
525 VOID
SetMinMaxStepData (IN UINT16 MinValue
, IN UINT16 MaxValue
, IN UINT16 Step
) {
527 mMinMaxStepData
->u16
.MinValue
= MinValue
;
528 mMinMaxStepData
->u16
.MaxValue
= MaxValue
;
531 if (MinValue
< mMinMaxStepData
->u16
.MinValue
) {
532 mMinMaxStepData
->u16
.MinValue
= MinValue
;
534 if (MaxValue
> mMinMaxStepData
->u16
.MaxValue
) {
535 mMinMaxStepData
->u16
.MaxValue
= MaxValue
;
538 mMinMaxStepData
->u16
.Step
= Step
;
541 VOID
SetMinMaxStepData (IN UINT8 MinValue
, IN UINT8 MaxValue
, IN UINT8 Step
) {
543 mMinMaxStepData
->u8
.MinValue
= MinValue
;
544 mMinMaxStepData
->u8
.MaxValue
= MaxValue
;
547 if (MinValue
< mMinMaxStepData
->u8
.MinValue
) {
548 mMinMaxStepData
->u8
.MinValue
= MinValue
;
550 if (MaxValue
> mMinMaxStepData
->u8
.MaxValue
) {
551 mMinMaxStepData
->u8
.MaxValue
= MaxValue
;
554 mMinMaxStepData
->u8
.Step
= Step
;
557 UINT64
GetMinData (UINT8 VarType
) {
560 case EFI_IFR_TYPE_NUM_SIZE_64
:
561 MinValue
= mMinMaxStepData
->u64
.MinValue
;
563 case EFI_IFR_TYPE_NUM_SIZE_32
:
564 MinValue
= (UINT64
) mMinMaxStepData
->u32
.MinValue
;
566 case EFI_IFR_TYPE_NUM_SIZE_16
:
567 MinValue
= (UINT64
) mMinMaxStepData
->u16
.MinValue
;
569 case EFI_IFR_TYPE_NUM_SIZE_8
:
570 MinValue
= (UINT64
) mMinMaxStepData
->u8
.MinValue
;
578 UINT64
GetMaxData (UINT8 VarType
) {
581 case EFI_IFR_TYPE_NUM_SIZE_64
:
582 MaxValue
= mMinMaxStepData
->u64
.MaxValue
;
584 case EFI_IFR_TYPE_NUM_SIZE_32
:
585 MaxValue
= (UINT64
) mMinMaxStepData
->u32
.MaxValue
;
587 case EFI_IFR_TYPE_NUM_SIZE_16
:
588 MaxValue
= (UINT64
) mMinMaxStepData
->u16
.MaxValue
;
590 case EFI_IFR_TYPE_NUM_SIZE_8
:
591 MaxValue
= (UINT64
) mMinMaxStepData
->u8
.MaxValue
;
599 UINT64
GetStepData (UINT8 VarType
) {
602 case EFI_IFR_TYPE_NUM_SIZE_64
:
603 MaxValue
= mMinMaxStepData
->u64
.Step
;
605 case EFI_IFR_TYPE_NUM_SIZE_32
:
606 MaxValue
= (UINT64
) mMinMaxStepData
->u32
.Step
;
608 case EFI_IFR_TYPE_NUM_SIZE_16
:
609 MaxValue
= (UINT64
) mMinMaxStepData
->u16
.Step
;
611 case EFI_IFR_TYPE_NUM_SIZE_8
:
612 MaxValue
= (UINT64
) mMinMaxStepData
->u8
.Step
;
620 BOOLEAN
IsNumericOpcode () {
624 VOID
UpdateCIfrMinMaxStepData (IN MINMAXSTEP_DATA
*MinMaxStepData
) {
625 mMinMaxStepData
= MinMaxStepData
;
629 static CIfrQuestionHeader
*gCurrentQuestion
= NULL
;
630 static CIfrMinMaxStepData
*gCurrentMinMaxData
= NULL
;
631 static BOOLEAN gIsOrderedList
= FALSE
;
632 static BOOLEAN gIsStringOp
= FALSE
;
635 * The definition of all of the UEFI IFR Objects
637 class CIfrFormSet
: public CIfrObj
, public CIfrOpHeader
{
639 EFI_IFR_FORM_SET
*mFormSet
;
640 EFI_GUID
*mClassGuid
;
643 CIfrFormSet (UINT8 Size
) : CIfrObj (EFI_IFR_FORM_SET_OP
, (CHAR8
**)&mFormSet
, Size
),
644 CIfrOpHeader (EFI_IFR_FORM_SET_OP
, &mFormSet
->Header
, Size
) {
645 mFormSet
->Help
= EFI_STRING_ID_INVALID
;
646 mFormSet
->FormSetTitle
= EFI_STRING_ID_INVALID
;
648 memset (&mFormSet
->Guid
, 0, sizeof (EFI_GUID
));
649 mClassGuid
= (EFI_GUID
*) (mFormSet
+ 1);
652 VOID
SetGuid (IN EFI_GUID
*Guid
) {
653 memmove (&mFormSet
->Guid
, Guid
, sizeof (EFI_GUID
));
656 VOID
SetFormSetTitle (IN EFI_STRING_ID FormSetTitle
) {
657 mFormSet
->FormSetTitle
= FormSetTitle
;
660 VOID
SetHelp (IN EFI_STRING_ID Help
) {
661 mFormSet
->Help
= Help
;
664 VOID
SetClassGuid (IN EFI_GUID
*Guid
) {
665 memmove (&(mClassGuid
[mFormSet
->Flags
++]), Guid
, sizeof (EFI_GUID
));
669 return mFormSet
->Flags
;
673 class CIfrEnd
: public CIfrObj
, public CIfrOpHeader
{
678 CIfrEnd () : CIfrObj (EFI_IFR_END_OP
, (CHAR8
**)&mEnd
),
679 CIfrOpHeader (EFI_IFR_END_OP
, &mEnd
->Header
) {}
682 class CIfrDefaultStore
: public CIfrObj
, public CIfrOpHeader
{
684 EFI_IFR_DEFAULTSTORE
*mDefaultStore
;
687 CIfrDefaultStore () : CIfrObj (EFI_IFR_DEFAULTSTORE_OP
, (CHAR8
**)&mDefaultStore
),
688 CIfrOpHeader (EFI_IFR_DEFAULTSTORE_OP
, &mDefaultStore
->Header
) {
689 mDefaultStore
->DefaultId
= EFI_VARSTORE_ID_INVALID
;
690 mDefaultStore
->DefaultName
= EFI_STRING_ID_INVALID
;
693 VOID
SetDefaultName (IN EFI_STRING_ID DefaultName
) {
694 mDefaultStore
->DefaultName
= DefaultName
;
697 VOID
SetDefaultId (IN UINT16 DefaultId
) {
698 mDefaultStore
->DefaultId
= DefaultId
;
702 #define EFI_FORM_ID_MAX 0xFFFF
703 #define EFI_FREE_FORM_ID_BITMAP_SIZE ((EFI_FORM_ID_MAX + 1) / EFI_BITS_PER_UINT32)
707 STATIC UINT32 FormIdBitMap
[EFI_FREE_FORM_ID_BITMAP_SIZE
];
709 STATIC BOOLEAN
ChekFormIdFree (IN EFI_FORM_ID FormId
) {
710 UINT32 Index
= (FormId
/ EFI_BITS_PER_UINT32
);
711 UINT32 Offset
= (FormId
% EFI_BITS_PER_UINT32
);
713 return (FormIdBitMap
[Index
] & (0x80000000 >> Offset
)) == 0;
716 STATIC VOID
MarkFormIdUsed (IN EFI_FORM_ID FormId
) {
717 UINT32 Index
= (FormId
/ EFI_BITS_PER_UINT32
);
718 UINT32 Offset
= (FormId
% EFI_BITS_PER_UINT32
);
720 FormIdBitMap
[Index
] |= (0x80000000 >> Offset
);
724 class CIfrForm
: public CIfrObj
, public CIfrOpHeader
{
729 CIfrForm () : CIfrObj (EFI_IFR_FORM_OP
, (CHAR8
**)&mForm
),
730 CIfrOpHeader (EFI_IFR_FORM_OP
, &mForm
->Header
) {
732 mForm
->FormTitle
= EFI_STRING_ID_INVALID
;
735 EFI_VFR_RETURN_CODE
SetFormId (IN EFI_FORM_ID FormId
) {
738 // FormId can't be 0.
740 return VFR_RETURN_INVALID_PARAMETER
;
742 if (CIfrFormId::ChekFormIdFree (FormId
) == FALSE
) {
743 return VFR_RETURN_FORMID_REDEFINED
;
745 mForm
->FormId
= FormId
;
746 CIfrFormId::MarkFormIdUsed (FormId
);
747 return VFR_RETURN_SUCCESS
;
750 VOID
SetFormTitle (IN EFI_STRING_ID FormTitle
) {
751 mForm
->FormTitle
= FormTitle
;
755 class CIfrFormMap
: public CIfrObj
, public CIfrOpHeader
{
757 EFI_IFR_FORM_MAP
*mFormMap
;
758 EFI_IFR_FORM_MAP_METHOD
*mMethodMap
;
761 CIfrFormMap () : CIfrObj (EFI_IFR_FORM_MAP_OP
, (CHAR8
**)&mFormMap
, sizeof (EFI_IFR_FORM_MAP
), TRUE
),
762 CIfrOpHeader (EFI_IFR_FORM_MAP_OP
, &mFormMap
->Header
) {
763 mFormMap
->FormId
= 0;
764 mMethodMap
= (EFI_IFR_FORM_MAP_METHOD
*) (mFormMap
+ 1);
767 EFI_VFR_RETURN_CODE
SetFormId (IN EFI_FORM_ID FormId
) {
770 // FormId can't be 0.
772 return VFR_RETURN_INVALID_PARAMETER
;
774 if (CIfrFormId::ChekFormIdFree (FormId
) == FALSE
) {
775 return VFR_RETURN_FORMID_REDEFINED
;
777 mFormMap
->FormId
= FormId
;
778 CIfrFormId::MarkFormIdUsed (FormId
);
779 return VFR_RETURN_SUCCESS
;
782 VOID
SetFormMapMethod (IN EFI_STRING_ID MethodTitle
, IN EFI_GUID
*MethodGuid
) {
783 if (ExpendObjBin (sizeof (EFI_IFR_FORM_MAP_METHOD
))) {
784 IncLength (sizeof (EFI_IFR_FORM_MAP_METHOD
));
786 mMethodMap
->MethodTitle
= MethodTitle
;
787 memmove (&(mMethodMap
->MethodIdentifier
), MethodGuid
, sizeof (EFI_GUID
));
793 class CIfrVarStore
: public CIfrObj
, public CIfrOpHeader
{
795 EFI_IFR_VARSTORE
*mVarStore
;
798 CIfrVarStore () : CIfrObj (EFI_IFR_VARSTORE_OP
, (CHAR8
**)&mVarStore
, sizeof (EFI_IFR_VARSTORE
), TRUE
),
799 CIfrOpHeader (EFI_IFR_VARSTORE_OP
, &mVarStore
->Header
) {
800 mVarStore
->VarStoreId
= EFI_VARSTORE_ID_INVALID
;
802 memset (&mVarStore
->Guid
, 0, sizeof (EFI_GUID
));
803 mVarStore
->Name
[0] = '\0';
806 VOID
SetGuid (IN EFI_GUID
*Guid
) {
807 memmove (&mVarStore
->Guid
, Guid
, sizeof (EFI_GUID
));
810 VOID
SetVarStoreId (IN EFI_VARSTORE_ID VarStoreId
) {
811 mVarStore
->VarStoreId
= VarStoreId
;
814 VOID
SetSize (IN UINT16 Size
) {
815 mVarStore
->Size
= Size
;
818 VOID
SetName (IN CHAR8
*Name
) {
822 Len
= (UINT8
) strlen (Name
);
824 if (ExpendObjBin (Len
) == TRUE
) {
826 strcpy ((CHAR8
*)(mVarStore
->Name
), Name
);
833 class CIfrVarStoreEfi
: public CIfrObj
, public CIfrOpHeader
{
835 EFI_IFR_VARSTORE_EFI
*mVarStoreEfi
;
838 CIfrVarStoreEfi () : CIfrObj (EFI_IFR_VARSTORE_EFI_OP
, (CHAR8
**)&mVarStoreEfi
, sizeof (EFI_IFR_VARSTORE_EFI
), TRUE
),
839 CIfrOpHeader (EFI_IFR_VARSTORE_EFI_OP
, &mVarStoreEfi
->Header
) {
840 mVarStoreEfi
->VarStoreId
= EFI_VAROFFSET_INVALID
;
841 mVarStoreEfi
->Size
= 0;
842 memset (&mVarStoreEfi
->Guid
, 0, sizeof (EFI_GUID
));
843 mVarStoreEfi
->Name
[0] = '\0';
846 VOID
SetGuid (IN EFI_GUID
*Guid
) {
847 memmove (&mVarStoreEfi
->Guid
, Guid
, sizeof (EFI_GUID
));
850 VOID
SetVarStoreId (IN UINT16 VarStoreId
) {
851 mVarStoreEfi
->VarStoreId
= VarStoreId
;
854 VOID
SetAttributes (IN UINT32 Attributes
) {
855 mVarStoreEfi
->Attributes
= Attributes
;
857 VOID
SetSize (IN UINT16 Size
) {
858 mVarStoreEfi
->Size
= Size
;
861 VOID
SetName (IN CHAR8
*Name
) {
865 Len
= (UINT8
) strlen (Name
);
867 if (ExpendObjBin (Len
) == TRUE
) {
869 strcpy ((CHAR8
*)(mVarStoreEfi
->Name
), Name
);
875 VOID
SetBinaryLength (IN UINT16 Size
) {
878 Len
= sizeof (EFI_IFR_VARSTORE_EFI
);
880 ExpendObjBin(Size
- Len
);
881 IncLength(Size
- Len
);
883 ShrinkObjBin(Len
- Size
);
884 DecLength(Len
- Size
);
889 class CIfrVarStoreNameValue
: public CIfrObj
, public CIfrOpHeader
{
891 EFI_IFR_VARSTORE_NAME_VALUE
*mVarStoreNameValue
;
894 CIfrVarStoreNameValue () : CIfrObj (EFI_IFR_VARSTORE_NAME_VALUE_OP
, (CHAR8
**)&mVarStoreNameValue
),
895 CIfrOpHeader (EFI_IFR_VARSTORE_NAME_VALUE_OP
, &mVarStoreNameValue
->Header
) {
896 mVarStoreNameValue
->VarStoreId
= EFI_VAROFFSET_INVALID
;
897 memset (&mVarStoreNameValue
->Guid
, 0, sizeof (EFI_GUID
));
900 VOID
SetGuid (IN EFI_GUID
*Guid
) {
901 memmove (&mVarStoreNameValue
->Guid
, Guid
, sizeof (EFI_GUID
));
904 VOID
SetVarStoreId (IN UINT16 VarStoreId
) {
905 mVarStoreNameValue
->VarStoreId
= VarStoreId
;
909 class CIfrImage
: public CIfrObj
, public CIfrOpHeader
{
911 EFI_IFR_IMAGE
*mImage
;
914 CIfrImage () : CIfrObj (EFI_IFR_IMAGE_OP
, (CHAR8
**)&mImage
),
915 CIfrOpHeader (EFI_IFR_IMAGE_OP
, &mImage
->Header
) {
916 mImage
->Id
= EFI_IMAGE_ID_INVALID
;
919 VOID
SetImageId (IN EFI_IMAGE_ID ImageId
) {
920 mImage
->Id
= ImageId
;
924 class CIfrModal
: public CIfrObj
, public CIfrOpHeader
{
926 EFI_IFR_MODAL_TAG
*mModal
;
929 CIfrModal () : CIfrObj (EFI_IFR_MODAL_TAG_OP
, (CHAR8
**)&mModal
),
930 CIfrOpHeader (EFI_IFR_MODAL_TAG_OP
, &mModal
->Header
) {
935 class CIfrLocked
: public CIfrObj
, public CIfrOpHeader
{
937 EFI_IFR_LOCKED
*mLocked
;
940 CIfrLocked () : CIfrObj (EFI_IFR_LOCKED_OP
, (CHAR8
**)&mLocked
),
941 CIfrOpHeader (EFI_IFR_LOCKED_OP
, &mLocked
->Header
) {}
944 class CIfrRule
: public CIfrObj
, public CIfrOpHeader
{
949 CIfrRule () : CIfrObj (EFI_IFR_RULE_OP
, (CHAR8
**)&mRule
),
950 mRule ((EFI_IFR_RULE
*)GetObjBinAddr()),
951 CIfrOpHeader (EFI_IFR_RULE_OP
, &mRule
->Header
) {
952 mRule
->RuleId
= EFI_RULE_ID_INVALID
;
955 VOID
SetRuleId (IN UINT8 RuleId
) {
956 mRule
->RuleId
= RuleId
;
960 static EFI_IFR_TYPE_VALUE gZeroEfiIfrTypeValue
= {0, };
962 class CIfrDefault
: public CIfrObj
, public CIfrOpHeader
{
964 EFI_IFR_DEFAULT
*mDefault
;
969 IN UINT16 DefaultId
= EFI_HII_DEFAULT_CLASS_STANDARD
,
970 IN UINT8 Type
= EFI_IFR_TYPE_OTHER
,
971 IN EFI_IFR_TYPE_VALUE Value
= gZeroEfiIfrTypeValue
972 ) : CIfrObj (EFI_IFR_DEFAULT_OP
, (CHAR8
**)&mDefault
, Size
),
973 CIfrOpHeader (EFI_IFR_DEFAULT_OP
, &mDefault
->Header
, Size
) {
974 mDefault
->Type
= Type
;
975 mDefault
->DefaultId
= DefaultId
;
976 memmove (&(mDefault
->Value
), &Value
, Size
- OFFSET_OF (EFI_IFR_DEFAULT
, Value
));
979 VOID
SetDefaultId (IN UINT16 DefaultId
) {
980 mDefault
->DefaultId
= DefaultId
;
983 VOID
SetType (IN UINT8 Type
) {
984 mDefault
->Type
= Type
;
987 VOID
SetValue (IN EFI_IFR_TYPE_VALUE Value
) {
988 memmove (&mDefault
->Value
, &Value
, mDefault
->Header
.Length
- OFFSET_OF (EFI_IFR_DEFAULT
, Value
));
992 class CIfrDefault2
: public CIfrObj
, public CIfrOpHeader
{
994 EFI_IFR_DEFAULT_2
*mDefault
;
998 IN UINT16 DefaultId
= EFI_HII_DEFAULT_CLASS_STANDARD
,
999 IN UINT8 Type
= EFI_IFR_TYPE_OTHER
1000 ) : CIfrObj (EFI_IFR_DEFAULT_OP
, (CHAR8
**)&mDefault
, sizeof (EFI_IFR_DEFAULT_2
)),
1001 CIfrOpHeader (EFI_IFR_DEFAULT_OP
, &mDefault
->Header
, sizeof (EFI_IFR_DEFAULT_2
)) {
1002 mDefault
->Type
= Type
;
1003 mDefault
->DefaultId
= DefaultId
;
1006 VOID
SetDefaultId (IN UINT16 DefaultId
) {
1007 mDefault
->DefaultId
= DefaultId
;
1010 VOID
SetType (IN UINT8 Type
) {
1011 mDefault
->Type
= Type
;
1015 class CIfrValue
: public CIfrObj
, public CIfrOpHeader
{
1017 EFI_IFR_VALUE
*mValue
;
1020 CIfrValue () : CIfrObj (EFI_IFR_VALUE_OP
, (CHAR8
**)&mValue
),
1021 CIfrOpHeader (EFI_IFR_VALUE_OP
, &mValue
->Header
) {}
1025 class CIfrRead
: public CIfrObj
, public CIfrOpHeader
{
1027 EFI_IFR_READ
*mRead
;
1030 CIfrRead () : CIfrObj (EFI_IFR_READ_OP
, (CHAR8
**)&mRead
),
1031 CIfrOpHeader (EFI_IFR_READ_OP
, &mRead
->Header
) {}
1035 class CIfrWrite
: public CIfrObj
, public CIfrOpHeader
{
1037 EFI_IFR_WRITE
*mWrite
;
1040 CIfrWrite () : CIfrObj (EFI_IFR_WRITE_OP
, (CHAR8
**)&mWrite
),
1041 CIfrOpHeader (EFI_IFR_WRITE_OP
, &mWrite
->Header
) {}
1045 class CIfrGet
: public CIfrObj
, public CIfrOpHeader
{
1052 ) : CIfrObj (EFI_IFR_GET_OP
, (CHAR8
**)&mGet
),
1053 CIfrOpHeader (EFI_IFR_GET_OP
, &mGet
->Header
) {
1057 VOID
SetVarInfo (IN EFI_VARSTORE_INFO
*Info
) {
1058 mGet
->VarStoreId
= Info
->mVarStoreId
;
1059 mGet
->VarStoreInfo
.VarName
= Info
->mInfo
.mVarName
;
1060 mGet
->VarStoreInfo
.VarOffset
= Info
->mInfo
.mVarOffset
;
1061 mGet
->VarStoreType
= Info
->mVarType
;
1065 class CIfrSet
: public CIfrObj
, public CIfrOpHeader
{
1072 ) : CIfrObj (EFI_IFR_SET_OP
, (CHAR8
**)&mSet
),
1073 CIfrOpHeader (EFI_IFR_SET_OP
, &mSet
->Header
) {
1077 VOID
SetVarInfo (IN EFI_VARSTORE_INFO
*Info
) {
1078 mSet
->VarStoreId
= Info
->mVarStoreId
;
1079 mSet
->VarStoreInfo
.VarName
= Info
->mInfo
.mVarName
;
1080 mSet
->VarStoreInfo
.VarOffset
= Info
->mInfo
.mVarOffset
;
1081 mSet
->VarStoreType
= Info
->mVarType
;
1085 class CIfrSubtitle
: public CIfrObj
, public CIfrOpHeader
, public CIfrStatementHeader
{
1087 EFI_IFR_SUBTITLE
*mSubtitle
;
1090 CIfrSubtitle () : CIfrObj (EFI_IFR_SUBTITLE_OP
, (CHAR8
**)&mSubtitle
),
1091 CIfrOpHeader (EFI_IFR_SUBTITLE_OP
, &mSubtitle
->Header
),
1092 CIfrStatementHeader (&mSubtitle
->Statement
) {
1093 mSubtitle
->Flags
= 0;
1096 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 LFlags
) {
1097 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_FLAGS_HORIZONTAL
)) {
1098 mSubtitle
->Flags
|= EFI_IFR_FLAGS_HORIZONTAL
;
1101 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1105 class CIfrText
: public CIfrObj
, public CIfrOpHeader
, public CIfrStatementHeader
{
1107 EFI_IFR_TEXT
*mText
;
1110 CIfrText () : CIfrObj (EFI_IFR_TEXT_OP
, (CHAR8
**)&mText
),
1111 CIfrOpHeader (EFI_IFR_TEXT_OP
, &mText
->Header
),
1112 CIfrStatementHeader (&mText
->Statement
) {
1113 mText
->TextTwo
= EFI_STRING_ID_INVALID
;
1116 VOID
SetTextTwo (IN EFI_STRING_ID StringId
) {
1117 mText
->TextTwo
= StringId
;
1121 class CIfrRef
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1126 CIfrRef () : CIfrObj (EFI_IFR_REF_OP
, (CHAR8
**)&mRef
),
1127 CIfrOpHeader (EFI_IFR_REF_OP
, &mRef
->Header
),
1128 CIfrQuestionHeader (&mRef
->Question
) {
1132 VOID
SetFormId (IN EFI_FORM_ID FormId
) {
1133 mRef
->FormId
= FormId
;
1137 class CIfrRef2
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1139 EFI_IFR_REF2
*mRef2
;
1142 CIfrRef2 () : CIfrObj (EFI_IFR_REF_OP
, (CHAR8
**)&mRef2
, sizeof (EFI_IFR_REF2
)),
1143 CIfrOpHeader (EFI_IFR_REF_OP
, &mRef2
->Header
, sizeof (EFI_IFR_REF2
)),
1144 CIfrQuestionHeader (&mRef2
->Question
) {
1146 mRef2
->QuestionId
= EFI_QUESTION_ID_INVALID
;
1149 VOID
SetFormId (IN EFI_FORM_ID FormId
) {
1150 mRef2
->FormId
= FormId
;
1153 VOID
SetQuestionId (IN EFI_QUESTION_ID QuestionId
) {
1154 mRef2
->QuestionId
= QuestionId
;
1158 class CIfrRef3
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1160 EFI_IFR_REF3
*mRef3
;
1163 CIfrRef3 () : CIfrObj (EFI_IFR_REF_OP
, (CHAR8
**)&mRef3
, sizeof(EFI_IFR_REF3
)),
1164 CIfrOpHeader (EFI_IFR_REF_OP
, &mRef3
->Header
, sizeof (EFI_IFR_REF3
)),
1165 CIfrQuestionHeader (&mRef3
->Question
) {
1167 mRef3
->QuestionId
= EFI_QUESTION_ID_INVALID
;
1168 memset (&mRef3
->FormSetId
, 0, sizeof (EFI_GUID
));
1171 VOID
SetFormId (IN EFI_FORM_ID FormId
) {
1172 mRef3
->FormId
= FormId
;
1175 VOID
SetQuestionId (IN EFI_QUESTION_ID QuestionId
) {
1176 mRef3
->QuestionId
= QuestionId
;
1179 VOID
SetFormSetId (IN EFI_GUID FormSetId
) {
1180 mRef3
->FormSetId
= FormSetId
;
1184 class CIfrRef4
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1186 EFI_IFR_REF4
*mRef4
;
1189 CIfrRef4 () : CIfrObj (EFI_IFR_REF_OP
, (CHAR8
**)&mRef4
, sizeof(EFI_IFR_REF4
)),
1190 CIfrOpHeader (EFI_IFR_REF_OP
, &mRef4
->Header
, sizeof(EFI_IFR_REF4
)),
1191 CIfrQuestionHeader (&mRef4
->Question
) {
1193 mRef4
->QuestionId
= EFI_QUESTION_ID_INVALID
;
1194 memset (&mRef4
->FormSetId
, 0, sizeof (EFI_GUID
));
1195 mRef4
->DevicePath
= EFI_STRING_ID_INVALID
;
1198 VOID
SetFormId (IN EFI_FORM_ID FormId
) {
1199 mRef4
->FormId
= FormId
;
1202 VOID
SetQuestionId (IN EFI_QUESTION_ID QuestionId
) {
1203 mRef4
->QuestionId
= QuestionId
;
1206 VOID
SetFormSetId (IN EFI_GUID FormSetId
) {
1207 mRef4
->FormSetId
= FormSetId
;
1210 VOID
SetDevicePath (IN EFI_STRING_ID DevicePath
) {
1211 mRef4
->DevicePath
= DevicePath
;
1215 class CIfrRef5
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1217 EFI_IFR_REF5
*mRef5
;
1220 CIfrRef5 () : CIfrObj (EFI_IFR_REF_OP
, (CHAR8
**)&mRef5
, sizeof (EFI_IFR_REF5
)),
1221 CIfrOpHeader (EFI_IFR_REF_OP
, &mRef5
->Header
, sizeof (EFI_IFR_REF5
)),
1222 CIfrQuestionHeader (&mRef5
->Question
) {
1226 class CIfrResetButton
: public CIfrObj
, public CIfrOpHeader
, public CIfrStatementHeader
{
1228 EFI_IFR_RESET_BUTTON
*mResetButton
;
1231 CIfrResetButton () : CIfrObj (EFI_IFR_RESET_BUTTON_OP
, (CHAR8
**)&mResetButton
),
1232 CIfrOpHeader (EFI_IFR_RESET_BUTTON_OP
, &mResetButton
->Header
),
1233 CIfrStatementHeader (&mResetButton
->Statement
) {
1234 mResetButton
->DefaultId
= EFI_HII_DEFAULT_CLASS_STANDARD
;
1237 VOID
SetDefaultId (IN UINT16 DefaultId
) {
1238 mResetButton
->DefaultId
= DefaultId
;
1242 class CIfrCheckBox
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1244 EFI_IFR_CHECKBOX
*mCheckBox
;
1247 CIfrCheckBox () : CIfrObj (EFI_IFR_CHECKBOX_OP
, (CHAR8
**)&mCheckBox
),
1248 CIfrOpHeader (EFI_IFR_CHECKBOX_OP
, &mCheckBox
->Header
),
1249 CIfrQuestionHeader (&mCheckBox
->Question
) {
1250 mCheckBox
->Flags
= 0;
1251 gCurrentQuestion
= this;
1255 gCurrentQuestion
= NULL
;
1258 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, UINT8 LFlags
) {
1259 EFI_VFR_RETURN_CODE Ret
;
1261 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1262 if (Ret
!= VFR_RETURN_SUCCESS
) {
1266 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_CHECKBOX_DEFAULT
)) {
1267 mCheckBox
->Flags
|= EFI_IFR_CHECKBOX_DEFAULT
;
1270 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_CHECKBOX_DEFAULT_MFG
)) {
1271 mCheckBox
->Flags
|= EFI_IFR_CHECKBOX_DEFAULT_MFG
;
1274 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1277 UINT8
GetFlags (VOID
) {
1278 return mCheckBox
->Flags
;
1282 class CIfrAction
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1284 EFI_IFR_ACTION
*mAction
;
1287 CIfrAction () : CIfrObj (EFI_IFR_ACTION_OP
, (CHAR8
**)&mAction
),
1288 CIfrOpHeader (EFI_IFR_ACTION_OP
, &mAction
->Header
),
1289 CIfrQuestionHeader (&mAction
->Question
) {
1290 mAction
->QuestionConfig
= EFI_STRING_ID_INVALID
;
1293 VOID
SetQuestionConfig (IN EFI_STRING_ID QuestionConfig
) {
1294 mAction
->QuestionConfig
= QuestionConfig
;
1298 class CIfrDate
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1300 EFI_IFR_DATE
*mDate
;
1303 CIfrDate () : CIfrObj (EFI_IFR_DATE_OP
, (CHAR8
**)&mDate
),
1304 CIfrOpHeader (EFI_IFR_DATE_OP
, &mDate
->Header
),
1305 CIfrQuestionHeader (&mDate
->Question
) {
1309 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
) {
1310 EFI_VFR_RETURN_CODE Ret
;
1312 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1313 if (Ret
!= VFR_RETURN_SUCCESS
) {
1317 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_QF_DATE_YEAR_SUPPRESS
)) {
1318 mDate
->Flags
|= EFI_QF_DATE_YEAR_SUPPRESS
;
1321 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_QF_DATE_MONTH_SUPPRESS
)) {
1322 mDate
->Flags
|= EFI_QF_DATE_MONTH_SUPPRESS
;
1325 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_QF_DATE_DAY_SUPPRESS
)) {
1326 mDate
->Flags
|= EFI_QF_DATE_DAY_SUPPRESS
;
1329 if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_DATE_STORAGE_NORMAL
)) {
1330 mDate
->Flags
|= QF_DATE_STORAGE_NORMAL
;
1331 } else if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_DATE_STORAGE_TIME
)) {
1332 mDate
->Flags
|= QF_DATE_STORAGE_TIME
;
1333 } else if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_DATE_STORAGE_WAKEUP
)) {
1334 mDate
->Flags
|= QF_DATE_STORAGE_WAKEUP
;
1337 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1341 class CIfrNumeric
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
, public CIfrMinMaxStepData
{
1343 EFI_IFR_NUMERIC
*mNumeric
;
1346 CIfrNumeric () : CIfrObj (EFI_IFR_NUMERIC_OP
, (CHAR8
**)&mNumeric
, sizeof (EFI_IFR_NUMERIC
), TRUE
),
1347 CIfrOpHeader (EFI_IFR_NUMERIC_OP
, &mNumeric
->Header
),
1348 CIfrQuestionHeader (&mNumeric
->Question
),
1349 CIfrMinMaxStepData (&mNumeric
->data
, TRUE
) {
1350 mNumeric
->Flags
= EFI_IFR_NUMERIC_SIZE_1
| EFI_IFR_DISPLAY_UINT_DEC
;
1351 gCurrentQuestion
= this;
1352 gCurrentMinMaxData
= this;
1356 gCurrentQuestion
= NULL
;
1357 gCurrentMinMaxData
= NULL
;
1360 VOID
ShrinkBinSize (IN UINT16 Size
) {
1362 // Update the buffer size which is truly be used later.
1368 // Allocate buffer in gCFormPkg.
1370 _EMIT_PENDING_OBJ();
1373 // Update the buffer pointer used by other class.
1375 mNumeric
= (EFI_IFR_NUMERIC
*) GetObjBinAddr();
1376 UpdateHeader (&mNumeric
->Header
);
1377 UpdateCIfrQuestionHeader(&mNumeric
->Question
);
1378 UpdateCIfrMinMaxStepData(&mNumeric
->data
);
1381 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
, BOOLEAN DisplaySettingsSpecified
= FALSE
) {
1382 EFI_VFR_RETURN_CODE Ret
;
1384 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1385 if (Ret
!= VFR_RETURN_SUCCESS
) {
1389 if (DisplaySettingsSpecified
== FALSE
) {
1390 mNumeric
->Flags
= LFlags
| EFI_IFR_DISPLAY_UINT_DEC
;
1392 mNumeric
->Flags
= LFlags
;
1394 return VFR_RETURN_SUCCESS
;
1397 UINT8
GetNumericFlags () {
1398 return mNumeric
->Flags
;
1402 class CIfrOneOf
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
, public CIfrMinMaxStepData
{
1404 EFI_IFR_ONE_OF
*mOneOf
;
1407 CIfrOneOf () : CIfrObj (EFI_IFR_ONE_OF_OP
, (CHAR8
**)&mOneOf
, sizeof (EFI_IFR_ONE_OF
), TRUE
),
1408 CIfrOpHeader (EFI_IFR_ONE_OF_OP
, &mOneOf
->Header
),
1409 CIfrQuestionHeader (&mOneOf
->Question
),
1410 CIfrMinMaxStepData (&mOneOf
->data
) {
1412 gCurrentQuestion
= this;
1413 gCurrentMinMaxData
= this;
1417 gCurrentQuestion
= NULL
;
1418 gCurrentMinMaxData
= NULL
;
1421 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
) {
1422 EFI_VFR_RETURN_CODE Ret
;
1424 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1425 if (Ret
!= VFR_RETURN_SUCCESS
) {
1429 if (LFlags
& EFI_IFR_DISPLAY
) {
1430 mOneOf
->Flags
= LFlags
;
1432 mOneOf
->Flags
= LFlags
| EFI_IFR_DISPLAY_UINT_DEC
;
1434 return VFR_RETURN_SUCCESS
;
1437 VOID
ShrinkBinSize (IN UINT16 Size
) {
1439 // Update the buffer size which is truly be used later.
1445 // Allocate buffer in gCFormPkg.
1447 _EMIT_PENDING_OBJ();
1450 // Update the buffer pointer used by other class.
1452 mOneOf
= (EFI_IFR_ONE_OF
*) GetObjBinAddr();
1453 UpdateHeader (&mOneOf
->Header
);
1454 UpdateCIfrQuestionHeader(&mOneOf
->Question
);
1455 UpdateCIfrMinMaxStepData(&mOneOf
->data
);
1459 class CIfrString
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1461 EFI_IFR_STRING
*mString
;
1464 CIfrString () : CIfrObj (EFI_IFR_STRING_OP
, (CHAR8
**)&mString
),
1465 CIfrOpHeader (EFI_IFR_STRING_OP
, &mString
->Header
),
1466 CIfrQuestionHeader (&mString
->Question
) {
1468 mString
->MinSize
= 0;
1469 mString
->MaxSize
= 0;
1470 gCurrentQuestion
= this;
1474 gCurrentQuestion
= NULL
;
1477 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
) {
1478 EFI_VFR_RETURN_CODE Ret
;
1480 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1481 if (Ret
!= VFR_RETURN_SUCCESS
) {
1485 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_STRING_MULTI_LINE
)) {
1486 mString
->Flags
|= EFI_IFR_STRING_MULTI_LINE
;
1489 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1492 VOID
SetMinSize (IN UINT8 Flags
) {
1493 mString
->MinSize
= Flags
;
1496 VOID
SetMaxSize (IN UINT8 MaxSize
) {
1497 mString
->MaxSize
= MaxSize
;
1501 class CIfrPassword
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1503 EFI_IFR_PASSWORD
*mPassword
;
1506 CIfrPassword () : CIfrObj (EFI_IFR_PASSWORD_OP
, (CHAR8
**)&mPassword
),
1507 CIfrOpHeader (EFI_IFR_PASSWORD_OP
, &mPassword
->Header
),
1508 CIfrQuestionHeader (&mPassword
->Question
) {
1509 mPassword
->MinSize
= 0;
1510 mPassword
->MaxSize
= 0;
1511 gCurrentQuestion
= this;
1515 gCurrentQuestion
= NULL
;
1518 VOID
SetMinSize (IN UINT16 MinSize
) {
1519 mPassword
->MinSize
= MinSize
;
1522 VOID
SetMaxSize (IN UINT16 MaxSize
) {
1523 mPassword
->MaxSize
= MaxSize
;
1527 class CIfrOrderedList
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1529 EFI_IFR_ORDERED_LIST
*mOrderedList
;
1532 CIfrOrderedList () : CIfrObj (EFI_IFR_ORDERED_LIST_OP
, (CHAR8
**)&mOrderedList
),
1533 CIfrOpHeader (EFI_IFR_ORDERED_LIST_OP
, &mOrderedList
->Header
),
1534 CIfrQuestionHeader (&mOrderedList
->Question
) {
1535 mOrderedList
->MaxContainers
= 0;
1536 mOrderedList
->Flags
= 0;
1537 gCurrentQuestion
= this;
1540 ~CIfrOrderedList () {
1541 gCurrentQuestion
= NULL
;
1544 VOID
SetMaxContainers (IN UINT8 MaxContainers
) {
1545 mOrderedList
->MaxContainers
= MaxContainers
;
1548 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
) {
1549 EFI_VFR_RETURN_CODE Ret
;
1551 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1552 if (Ret
!= VFR_RETURN_SUCCESS
) {
1556 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_UNIQUE_SET
)) {
1557 mOrderedList
->Flags
|= EFI_IFR_UNIQUE_SET
;
1560 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_NO_EMPTY_SET
)) {
1561 mOrderedList
->Flags
|= EFI_IFR_NO_EMPTY_SET
;
1564 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1568 class CIfrTime
: public CIfrObj
, public CIfrOpHeader
, public CIfrQuestionHeader
{
1570 EFI_IFR_TIME
*mTime
;
1573 CIfrTime () : CIfrObj (EFI_IFR_TIME_OP
, (CHAR8
**)&mTime
),
1574 CIfrOpHeader (EFI_IFR_TIME_OP
, &mTime
->Header
),
1575 CIfrQuestionHeader (&mTime
->Question
) {
1579 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 HFlags
, IN UINT8 LFlags
) {
1580 EFI_VFR_RETURN_CODE Ret
;
1582 Ret
= CIfrQuestionHeader::SetFlags (HFlags
);
1583 if (Ret
!= VFR_RETURN_SUCCESS
) {
1587 if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_HOUR_SUPPRESS
)) {
1588 mTime
->Flags
|= QF_TIME_HOUR_SUPPRESS
;
1591 if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_MINUTE_SUPPRESS
)) {
1592 mTime
->Flags
|= QF_TIME_MINUTE_SUPPRESS
;
1595 if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_SECOND_SUPPRESS
)) {
1596 mTime
->Flags
|= QF_TIME_SECOND_SUPPRESS
;
1599 if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_STORAGE_NORMAL
)) {
1600 mTime
->Flags
|= QF_TIME_STORAGE_NORMAL
;
1601 } else if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_STORAGE_TIME
)) {
1602 mTime
->Flags
|= QF_TIME_STORAGE_TIME
;
1603 } else if (_FLAG_TEST_AND_CLEAR (LFlags
, QF_TIME_STORAGE_WAKEUP
)) {
1604 mTime
->Flags
|= QF_TIME_STORAGE_WAKEUP
;
1607 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1611 class CIfrDisableIf
: public CIfrObj
, public CIfrOpHeader
{
1613 EFI_IFR_DISABLE_IF
*mDisableIf
;
1616 CIfrDisableIf () : CIfrObj (EFI_IFR_DISABLE_IF_OP
, (CHAR8
**)&mDisableIf
),
1617 mDisableIf ((EFI_IFR_DISABLE_IF
*) GetObjBinAddr()),
1618 CIfrOpHeader (EFI_IFR_DISABLE_IF_OP
, &mDisableIf
->Header
) {}
1621 class CIfrSuppressIf
: public CIfrObj
, public CIfrOpHeader
{
1623 EFI_IFR_SUPPRESS_IF
*mSuppressIf
;
1626 CIfrSuppressIf () : CIfrObj (EFI_IFR_SUPPRESS_IF_OP
, (CHAR8
**)&mSuppressIf
),
1627 CIfrOpHeader (EFI_IFR_SUPPRESS_IF_OP
, &mSuppressIf
->Header
) {}
1630 class CIfrGrayOutIf
: public CIfrObj
, public CIfrOpHeader
{
1632 EFI_IFR_GRAY_OUT_IF
*mGrayOutIf
;
1635 CIfrGrayOutIf () : CIfrObj (EFI_IFR_GRAY_OUT_IF_OP
, (CHAR8
**)&mGrayOutIf
),
1636 CIfrOpHeader (EFI_IFR_GRAY_OUT_IF_OP
, &mGrayOutIf
->Header
) {}
1639 class CIfrInconsistentIf
: public CIfrObj
, public CIfrOpHeader
{
1641 EFI_IFR_INCONSISTENT_IF
*mInconsistentIf
;
1644 CIfrInconsistentIf () : CIfrObj (EFI_IFR_INCONSISTENT_IF_OP
, (CHAR8
**)&mInconsistentIf
),
1645 CIfrOpHeader (EFI_IFR_INCONSISTENT_IF_OP
, &mInconsistentIf
->Header
) {
1646 mInconsistentIf
->Error
= EFI_STRING_ID_INVALID
;
1649 VOID
SetError (IN EFI_STRING_ID Error
) {
1650 mInconsistentIf
->Error
= Error
;
1654 class CIfrWarningIf
: public CIfrObj
, public CIfrOpHeader
{
1656 EFI_IFR_WARNING_IF
*mWarningIf
;
1659 CIfrWarningIf () : CIfrObj (EFI_IFR_WARNING_IF_OP
, (CHAR8
**)&mWarningIf
),
1660 CIfrOpHeader (EFI_IFR_WARNING_IF_OP
, &mWarningIf
->Header
) {
1661 mWarningIf
->Warning
= EFI_STRING_ID_INVALID
;
1662 mWarningIf
->TimeOut
= 0;
1665 VOID
SetWarning (IN EFI_STRING_ID Warning
) {
1666 mWarningIf
->Warning
= Warning
;
1669 VOID
SetTimeOut (IN UINT8 TimeOut
) {
1670 mWarningIf
->TimeOut
= TimeOut
;
1674 class CIfrNoSubmitIf
: public CIfrObj
, public CIfrOpHeader
{
1676 EFI_IFR_NO_SUBMIT_IF
*mNoSubmitIf
;
1679 CIfrNoSubmitIf () : CIfrObj (EFI_IFR_NO_SUBMIT_IF_OP
, (CHAR8
**)&mNoSubmitIf
),
1680 CIfrOpHeader (EFI_IFR_NO_SUBMIT_IF_OP
, &mNoSubmitIf
->Header
) {
1681 mNoSubmitIf
->Error
= EFI_STRING_ID_INVALID
;
1684 VOID
SetError (IN EFI_STRING_ID Error
) {
1685 mNoSubmitIf
->Error
= Error
;
1689 class CIfrRefresh
: public CIfrObj
, public CIfrOpHeader
{
1691 EFI_IFR_REFRESH
*mRefresh
;
1694 CIfrRefresh () : CIfrObj (EFI_IFR_REFRESH_OP
, (CHAR8
**)&mRefresh
),
1695 CIfrOpHeader (EFI_IFR_REFRESH_OP
, &mRefresh
->Header
) {
1696 mRefresh
->RefreshInterval
= 0;
1699 VOID
SetRefreshInterval (IN UINT8 RefreshInterval
) {
1700 mRefresh
->RefreshInterval
= RefreshInterval
;
1704 class CIfrRefreshId
: public CIfrObj
, public CIfrOpHeader
{
1706 EFI_IFR_REFRESH_ID
*mRefreshId
;
1709 CIfrRefreshId () : CIfrObj (EFI_IFR_REFRESH_ID_OP
, (CHAR8
**)&mRefreshId
),
1710 CIfrOpHeader (EFI_IFR_REFRESH_ID_OP
, &mRefreshId
->Header
) {
1711 memset (&mRefreshId
->RefreshEventGroupId
, 0, sizeof (EFI_GUID
));
1714 VOID
SetRefreshEventGroutId (IN EFI_GUID
*RefreshEventGroupId
) {
1715 memmove (&mRefreshId
->RefreshEventGroupId
, RefreshEventGroupId
, sizeof (EFI_GUID
));
1719 class CIfrVarStoreDevice
: public CIfrObj
, public CIfrOpHeader
{
1721 EFI_IFR_VARSTORE_DEVICE
*mVarStoreDevice
;
1724 CIfrVarStoreDevice () : CIfrObj (EFI_IFR_VARSTORE_DEVICE_OP
, (CHAR8
**)&mVarStoreDevice
),
1725 CIfrOpHeader (EFI_IFR_VARSTORE_DEVICE_OP
, &mVarStoreDevice
->Header
) {
1726 mVarStoreDevice
->DevicePath
= EFI_STRING_ID_INVALID
;
1729 VOID
SetDevicePath (IN EFI_STRING_ID DevicePath
) {
1730 mVarStoreDevice
->DevicePath
= DevicePath
;
1734 class CIfrOneOfOption
: public CIfrObj
, public CIfrOpHeader
{
1736 EFI_IFR_ONE_OF_OPTION
*mOneOfOption
;
1739 CIfrOneOfOption (UINT8 Size
) : CIfrObj (EFI_IFR_ONE_OF_OPTION_OP
, (CHAR8
**)&mOneOfOption
, Size
),
1740 CIfrOpHeader (EFI_IFR_ONE_OF_OPTION_OP
, &mOneOfOption
->Header
, Size
) {
1741 mOneOfOption
->Flags
= 0;
1742 mOneOfOption
->Option
= EFI_STRING_ID_INVALID
;
1743 mOneOfOption
->Type
= EFI_IFR_TYPE_OTHER
;
1744 memset (&mOneOfOption
->Value
, 0, Size
- OFFSET_OF (EFI_IFR_ONE_OF_OPTION
, Value
));
1747 VOID
SetOption (IN EFI_STRING_ID Option
) {
1748 mOneOfOption
->Option
= Option
;
1751 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 LFlags
) {
1752 mOneOfOption
->Flags
= 0;
1753 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_OPTION_DEFAULT
)) {
1754 mOneOfOption
->Flags
|= EFI_IFR_OPTION_DEFAULT
;
1757 if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_OPTION_DEFAULT_MFG
)) {
1758 mOneOfOption
->Flags
|= EFI_IFR_OPTION_DEFAULT_MFG
;
1761 if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_NUM_SIZE_8
)) {
1762 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_NUM_SIZE_8
);
1763 mOneOfOption
->Flags
|= EFI_IFR_TYPE_NUM_SIZE_8
;
1764 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_NUM_SIZE_16
)) {
1765 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_NUM_SIZE_16
);
1766 mOneOfOption
->Flags
|= EFI_IFR_TYPE_NUM_SIZE_16
;
1767 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_NUM_SIZE_32
)) {
1768 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_NUM_SIZE_32
);
1769 mOneOfOption
->Flags
|= EFI_IFR_TYPE_NUM_SIZE_32
;
1770 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_NUM_SIZE_64
)) {
1771 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_NUM_SIZE_64
);
1772 mOneOfOption
->Flags
|= EFI_IFR_TYPE_NUM_SIZE_64
;
1773 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_BOOLEAN
)) {
1774 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_BOOLEAN
);
1775 mOneOfOption
->Flags
|= EFI_IFR_TYPE_BOOLEAN
;
1776 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_TIME
)) {
1777 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_TIME
);
1778 mOneOfOption
->Flags
|= EFI_IFR_TYPE_TIME
;
1779 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_DATE
)) {
1780 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_DATE
);
1781 mOneOfOption
->Flags
|= EFI_IFR_TYPE_DATE
;
1782 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_STRING
)) {
1783 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_STRING
);
1784 mOneOfOption
->Flags
|= EFI_IFR_TYPE_STRING
;
1785 } else if (_IS_EQUAL (LFlags
, EFI_IFR_TYPE_OTHER
)) {
1786 _FLAG_CLEAR (LFlags
, EFI_IFR_TYPE_OTHER
);
1787 mOneOfOption
->Flags
|= EFI_IFR_TYPE_OTHER
;
1790 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;
1793 VOID
SetType (IN UINT8 Type
) {
1794 mOneOfOption
->Type
= Type
;
1797 VOID
SetValue (IN EFI_IFR_TYPE_VALUE Value
) {
1798 memmove (&mOneOfOption
->Value
, &Value
, mOneOfOption
->Header
.Length
- OFFSET_OF (EFI_IFR_ONE_OF_OPTION
, Value
));
1801 UINT8
GetFlags (VOID
) {
1802 return mOneOfOption
->Flags
;
1806 static EFI_GUID IfrTianoGuid
= EFI_IFR_TIANO_GUID
;
1807 static EFI_GUID IfrFrameworkGuid
= EFI_IFR_FRAMEWORK_GUID
;
1809 class CIfrClass
: public CIfrObj
, public CIfrOpHeader
{
1811 EFI_IFR_GUID_CLASS
*mClass
;
1814 CIfrClass () : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mClass
, sizeof (EFI_IFR_GUID_CLASS
)),
1815 CIfrOpHeader (EFI_IFR_GUID_OP
, &mClass
->Header
, sizeof (EFI_IFR_GUID_CLASS
)) {
1816 mClass
->ExtendOpCode
= EFI_IFR_EXTEND_OP_CLASS
;
1817 mClass
->Guid
= IfrTianoGuid
;
1818 mClass
->Class
= EFI_NON_DEVICE_CLASS
;
1821 VOID
SetClass (IN UINT16 Class
) {
1822 mClass
->Class
= Class
;
1826 class CIfrSubClass
: public CIfrObj
, public CIfrOpHeader
{
1828 EFI_IFR_GUID_SUBCLASS
*mSubClass
;
1831 CIfrSubClass () : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mSubClass
, sizeof (EFI_IFR_GUID_SUBCLASS
)),
1832 CIfrOpHeader (EFI_IFR_GUID_OP
, &mSubClass
->Header
, sizeof (EFI_IFR_GUID_SUBCLASS
)) {
1833 mSubClass
->ExtendOpCode
= EFI_IFR_EXTEND_OP_SUBCLASS
;
1834 mSubClass
->Guid
= IfrTianoGuid
;
1835 mSubClass
->SubClass
= EFI_SETUP_APPLICATION_SUBCLASS
;
1838 VOID
SetSubClass (IN UINT16 SubClass
) {
1839 mSubClass
->SubClass
= SubClass
;
1843 class CIfrLabel
: public CIfrObj
, public CIfrOpHeader
{
1845 EFI_IFR_GUID_LABEL
*mLabel
;
1848 CIfrLabel () : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mLabel
, sizeof (EFI_IFR_GUID_LABEL
)),
1849 CIfrOpHeader (EFI_IFR_GUID_OP
, &mLabel
->Header
, sizeof (EFI_IFR_GUID_LABEL
)) {
1850 mLabel
->ExtendOpCode
= EFI_IFR_EXTEND_OP_LABEL
;
1851 mLabel
->Guid
= IfrTianoGuid
;
1854 VOID
SetNumber (IN UINT16 Number
) {
1855 mLabel
->Number
= Number
;
1859 class CIfrBanner
: public CIfrObj
, public CIfrOpHeader
{
1861 EFI_IFR_GUID_BANNER
*mBanner
;
1864 CIfrBanner () : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mBanner
, sizeof (EFI_IFR_GUID_BANNER
)),
1865 CIfrOpHeader (EFI_IFR_GUID_OP
, &mBanner
->Header
, sizeof (EFI_IFR_GUID_BANNER
)) {
1866 mBanner
->ExtendOpCode
= EFI_IFR_EXTEND_OP_BANNER
;
1867 mBanner
->Guid
= IfrTianoGuid
;
1870 VOID
SetTitle (IN EFI_STRING_ID StringId
) {
1871 mBanner
->Title
= StringId
;
1874 VOID
SetLine (IN UINT16 Line
) {
1875 mBanner
->LineNumber
= Line
;
1878 VOID
SetAlign (IN UINT8 Align
) {
1879 mBanner
->Alignment
= Align
;
1883 class CIfrOptionKey
: public CIfrObj
, public CIfrOpHeader
{
1885 EFI_IFR_GUID_OPTIONKEY
*mOptionKey
;
1889 IN EFI_QUESTION_ID QuestionId
,
1890 IN EFI_IFR_TYPE_VALUE
&OptionValue
,
1891 IN EFI_QUESTION_ID KeyValue
1892 ) : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mOptionKey
, sizeof (EFI_IFR_GUID_OPTIONKEY
)),
1893 CIfrOpHeader (EFI_IFR_GUID_OP
, &mOptionKey
->Header
, sizeof (EFI_IFR_GUID_OPTIONKEY
)) {
1894 mOptionKey
->ExtendOpCode
= EFI_IFR_EXTEND_OP_OPTIONKEY
;
1895 mOptionKey
->Guid
= IfrFrameworkGuid
;
1896 mOptionKey
->QuestionId
= QuestionId
;
1897 mOptionKey
->OptionValue
= OptionValue
;
1898 mOptionKey
->KeyValue
= KeyValue
;
1902 class CIfrVarEqName
: public CIfrObj
, public CIfrOpHeader
{
1904 EFI_IFR_GUID_VAREQNAME
*mVarEqName
;
1908 IN EFI_QUESTION_ID QuestionId
,
1909 IN EFI_STRING_ID NameId
1910 ) : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mVarEqName
, sizeof (EFI_IFR_GUID_VAREQNAME
)),
1911 CIfrOpHeader (EFI_IFR_GUID_OP
, &mVarEqName
->Header
, sizeof (EFI_IFR_GUID_VAREQNAME
)) {
1912 mVarEqName
->ExtendOpCode
= EFI_IFR_EXTEND_OP_VAREQNAME
;
1913 mVarEqName
->Guid
= IfrFrameworkGuid
;
1914 mVarEqName
->QuestionId
= QuestionId
;
1915 mVarEqName
->NameId
= NameId
;
1919 class CIfrTimeout
: public CIfrObj
, public CIfrOpHeader
{
1921 EFI_IFR_GUID_TIMEOUT
*mTimeout
;
1924 CIfrTimeout (IN UINT16 Timeout
= 0) : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mTimeout
, sizeof (EFI_IFR_GUID_TIMEOUT
)),
1925 CIfrOpHeader (EFI_IFR_GUID_OP
, &mTimeout
->Header
, sizeof (EFI_IFR_GUID_TIMEOUT
)) {
1926 mTimeout
->ExtendOpCode
= EFI_IFR_EXTEND_OP_TIMEOUT
;
1927 mTimeout
->Guid
= IfrTianoGuid
;
1928 mTimeout
->TimeOut
= Timeout
;
1931 VOID
SetTimeout (IN UINT16 Timeout
) {
1932 mTimeout
->TimeOut
= Timeout
;
1936 class CIfrGuid
: public CIfrObj
, public CIfrOpHeader
{
1938 EFI_IFR_GUID
*mGuid
;
1941 CIfrGuid (UINT8 Size
) : CIfrObj (EFI_IFR_GUID_OP
, (CHAR8
**)&mGuid
, sizeof (EFI_IFR_GUID
)+Size
),
1942 CIfrOpHeader (EFI_IFR_GUID_OP
, &mGuid
->Header
, sizeof (EFI_IFR_GUID
)+Size
) {
1943 memset (&mGuid
->Guid
, 0, sizeof (EFI_GUID
));
1946 VOID
SetGuid (IN EFI_GUID
*Guid
) {
1947 memmove (&mGuid
->Guid
, Guid
, sizeof (EFI_GUID
));
1950 VOID
SetData (IN UINT8
* DataBuff
, IN UINT8 Size
) {
1951 memmove ((UINT8
*)mGuid
+ sizeof (EFI_IFR_GUID
), DataBuff
, Size
);
1955 class CIfrDup
: public CIfrObj
, public CIfrOpHeader
{
1962 ) : CIfrObj (EFI_IFR_DUP_OP
, (CHAR8
**)&mDup
),
1963 CIfrOpHeader (EFI_IFR_DUP_OP
, &mDup
->Header
) {
1968 class CIfrEqIdId
: public CIfrObj
, public CIfrOpHeader
{
1970 EFI_IFR_EQ_ID_ID
*mEqIdId
;
1975 ) : CIfrObj (EFI_IFR_EQ_ID_ID_OP
, (CHAR8
**)&mEqIdId
),
1976 CIfrOpHeader (EFI_IFR_EQ_ID_ID_OP
, &mEqIdId
->Header
) {
1978 mEqIdId
->QuestionId1
= EFI_QUESTION_ID_INVALID
;
1979 mEqIdId
->QuestionId2
= EFI_QUESTION_ID_INVALID
;
1982 VOID
SetQuestionId1 (
1983 IN EFI_QUESTION_ID QuestionId
,
1987 if (QuestionId
!= EFI_QUESTION_ID_INVALID
) {
1988 mEqIdId
->QuestionId1
= QuestionId
;
1990 gCFormPkg
.AssignPending (VarIdStr
, (VOID
*)(&mEqIdId
->QuestionId1
), sizeof (EFI_QUESTION_ID
), LineNo
, NO_QST_REFED
);
1994 VOID
SetQuestionId2 (
1995 IN EFI_QUESTION_ID QuestionId
,
1999 if (QuestionId
!= EFI_QUESTION_ID_INVALID
) {
2000 mEqIdId
->QuestionId2
= QuestionId
;
2002 gCFormPkg
.AssignPending (VarIdStr
, (VOID
*)(&mEqIdId
->QuestionId2
), sizeof (EFI_QUESTION_ID
), LineNo
, NO_QST_REFED
);
2007 class CIfrEqIdVal
: public CIfrObj
, public CIfrOpHeader
{
2009 EFI_IFR_EQ_ID_VAL
*mEqIdVal
;
2014 ) : CIfrObj (EFI_IFR_EQ_ID_VAL_OP
, (CHAR8
**)&mEqIdVal
),
2015 CIfrOpHeader (EFI_IFR_EQ_ID_VAL_OP
, &mEqIdVal
->Header
) {
2017 mEqIdVal
->QuestionId
= EFI_QUESTION_ID_INVALID
;
2020 VOID
SetQuestionId (
2021 IN EFI_QUESTION_ID QuestionId
,
2025 if (QuestionId
!= EFI_QUESTION_ID_INVALID
) {
2026 mEqIdVal
->QuestionId
= QuestionId
;
2028 gCFormPkg
.AssignPending (VarIdStr
, (VOID
*)(&mEqIdVal
->QuestionId
), sizeof (EFI_QUESTION_ID
), LineNo
, NO_QST_REFED
);
2032 VOID
SetValue (IN UINT16 Value
) {
2033 mEqIdVal
->Value
= Value
;
2037 class CIfrEqIdList
: public CIfrObj
, public CIfrOpHeader
{
2039 EFI_IFR_EQ_ID_VAL_LIST
*mEqIdVList
;
2044 ) : CIfrObj (EFI_IFR_EQ_ID_VAL_LIST_OP
, (CHAR8
**)&mEqIdVList
, sizeof (EFI_IFR_EQ_ID_VAL_LIST
), TRUE
),
2045 CIfrOpHeader (EFI_IFR_EQ_ID_VAL_LIST_OP
, &mEqIdVList
->Header
) {
2047 mEqIdVList
->QuestionId
= EFI_QUESTION_ID_INVALID
;
2048 mEqIdVList
->ListLength
= 0;
2049 mEqIdVList
->ValueList
[0] = 0;
2052 VOID
UpdateIfrBuffer (
2054 _EMIT_PENDING_OBJ();
2055 mEqIdVList
= (EFI_IFR_EQ_ID_VAL_LIST
*) GetObjBinAddr();
2056 UpdateHeader (&mEqIdVList
->Header
);
2059 VOID
SetQuestionId (
2060 IN EFI_QUESTION_ID QuestionId
,
2064 if (QuestionId
!= EFI_QUESTION_ID_INVALID
) {
2065 mEqIdVList
->QuestionId
= QuestionId
;
2067 gCFormPkg
.AssignPending (VarIdStr
, (VOID
*)(&mEqIdVList
->QuestionId
), sizeof (EFI_QUESTION_ID
), LineNo
, NO_QST_REFED
);
2071 VOID
SetListLength (IN UINT16 ListLength
) {
2072 mEqIdVList
->ListLength
= ListLength
;
2075 VOID
SetValueList (IN UINT16 Index
, IN UINT16 Value
) {
2077 mEqIdVList
->ValueList
[0] = Value
;
2081 if (ExpendObjBin (sizeof (UINT16
)) ==TRUE
) {
2082 IncLength (sizeof (UINT16
));
2083 mEqIdVList
->ValueList
[Index
] = Value
;
2088 class CIfrQuestionRef1
: public CIfrObj
, public CIfrOpHeader
{
2090 EFI_IFR_QUESTION_REF1
*mQuestionRef1
;
2095 ) : CIfrObj (EFI_IFR_QUESTION_REF1_OP
, (CHAR8
**)&mQuestionRef1
),
2096 CIfrOpHeader (EFI_IFR_QUESTION_REF1_OP
, &mQuestionRef1
->Header
) {
2098 mQuestionRef1
->QuestionId
= EFI_QUESTION_ID_INVALID
;
2101 VOID
SetQuestionId (
2102 IN EFI_QUESTION_ID QuestionId
,
2106 if (QuestionId
!= EFI_QUESTION_ID_INVALID
) {
2107 mQuestionRef1
->QuestionId
= QuestionId
;
2109 gCFormPkg
.AssignPending (VarIdStr
, (VOID
*)(&mQuestionRef1
->QuestionId
), sizeof (EFI_QUESTION_ID
), LineNo
, NO_QST_REFED
);
2114 class CIfrQuestionRef2
: public CIfrObj
, public CIfrOpHeader
{
2116 EFI_IFR_QUESTION_REF2
*mQuestionRef2
;
2121 ) : CIfrObj (EFI_IFR_QUESTION_REF2_OP
, (CHAR8
**)&mQuestionRef2
),
2122 CIfrOpHeader (EFI_IFR_QUESTION_REF2_OP
, &mQuestionRef2
->Header
) {
2127 class CIfrQuestionRef3
: public CIfrObj
, public CIfrOpHeader
{
2129 EFI_IFR_QUESTION_REF3
*mQuestionRef3
;
2134 ) : CIfrObj (EFI_IFR_QUESTION_REF3_OP
, (CHAR8
**)&mQuestionRef3
),
2135 CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP
, &mQuestionRef3
->Header
) {
2140 class CIfrQuestionRef3_2
: public CIfrObj
, public CIfrOpHeader
{
2142 EFI_IFR_QUESTION_REF3_2
*mQuestionRef3_2
;
2145 CIfrQuestionRef3_2 (
2147 ) : CIfrObj (EFI_IFR_QUESTION_REF3_OP
, (CHAR8
**)&mQuestionRef3_2
, sizeof (EFI_IFR_QUESTION_REF3_2
)),
2148 CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP
, &mQuestionRef3_2
->Header
, sizeof (EFI_IFR_QUESTION_REF3_2
)) {
2150 mQuestionRef3_2
->DevicePath
= EFI_STRING_ID_INVALID
;
2153 VOID
SetDevicePath (IN EFI_STRING_ID DevicePath
) {
2154 mQuestionRef3_2
->DevicePath
= DevicePath
;
2158 class CIfrQuestionRef3_3
: public CIfrObj
, public CIfrOpHeader
{
2160 EFI_IFR_QUESTION_REF3_3
*mQuestionRef3_3
;
2163 CIfrQuestionRef3_3 (
2165 ) : CIfrObj (EFI_IFR_QUESTION_REF3_OP
, (CHAR8
**)&mQuestionRef3_3
, sizeof (EFI_IFR_QUESTION_REF3_3
)),
2166 CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP
, &mQuestionRef3_3
->Header
, sizeof (EFI_IFR_QUESTION_REF3_3
)) {
2168 mQuestionRef3_3
->DevicePath
= EFI_STRING_ID_INVALID
;
2169 memset (&mQuestionRef3_3
->Guid
, 0, sizeof (EFI_GUID
));
2172 VOID
SetDevicePath (IN EFI_STRING_ID DevicePath
) {
2173 mQuestionRef3_3
->DevicePath
= DevicePath
;
2176 VOID
SetGuid (IN EFI_GUID
*Guid
) {
2177 mQuestionRef3_3
->Guid
= *Guid
;
2181 class CIfrRuleRef
: public CIfrObj
, public CIfrOpHeader
{
2183 EFI_IFR_RULE_REF
*mRuleRef
;
2188 ) : CIfrObj (EFI_IFR_RULE_REF_OP
, (CHAR8
**)&mRuleRef
),
2189 CIfrOpHeader (EFI_IFR_RULE_REF_OP
, &mRuleRef
->Header
) {
2191 mRuleRef
->RuleId
= EFI_RULE_ID_INVALID
;
2194 VOID
SetRuleId (IN UINT8 RuleId
) {
2195 mRuleRef
->RuleId
= RuleId
;
2199 class CIfrStringRef1
: public CIfrObj
, public CIfrOpHeader
{
2201 EFI_IFR_STRING_REF1
*mStringRef1
;
2206 ) : CIfrObj (EFI_IFR_STRING_REF1_OP
, (CHAR8
**)&mStringRef1
),
2207 CIfrOpHeader (EFI_IFR_STRING_REF1_OP
, &mStringRef1
->Header
) {
2209 mStringRef1
->StringId
= EFI_STRING_ID_INVALID
;
2212 VOID
SetStringId (IN EFI_STRING_ID StringId
) {
2213 mStringRef1
->StringId
= StringId
;
2217 class CIfrStringRef2
: public CIfrObj
, public CIfrOpHeader
{
2219 EFI_IFR_STRING_REF2
*mStringRef2
;
2224 ) : CIfrObj (EFI_IFR_STRING_REF2_OP
, (CHAR8
**)&mStringRef2
),
2225 CIfrOpHeader (EFI_IFR_STRING_REF2_OP
, &mStringRef2
->Header
) {
2230 class CIfrThis
: public CIfrObj
, public CIfrOpHeader
{
2232 EFI_IFR_THIS
*mThis
;
2237 ) : CIfrObj (EFI_IFR_THIS_OP
, (CHAR8
**)&mThis
),
2238 CIfrOpHeader (EFI_IFR_THIS_OP
, &mThis
->Header
) {
2243 class CIfrSecurity
: public CIfrObj
, public CIfrOpHeader
{
2245 EFI_IFR_SECURITY
*mSecurity
;
2250 ) : CIfrObj (EFI_IFR_SECURITY_OP
, (CHAR8
**)&mSecurity
),
2251 CIfrOpHeader (EFI_IFR_SECURITY_OP
, &mSecurity
->Header
) {
2253 memset (&mSecurity
->Permissions
, 0, sizeof (EFI_GUID
));
2256 VOID
SetPermissions (IN EFI_GUID
*Permissions
) {
2257 memmove (&mSecurity
->Permissions
, Permissions
, sizeof (EFI_GUID
));
2261 class CIfrUint8
: public CIfrObj
, public CIfrOpHeader
{
2263 EFI_IFR_UINT8
*mUint8
;
2268 ) : CIfrObj (EFI_IFR_UINT8_OP
, (CHAR8
**)&mUint8
),
2269 CIfrOpHeader (EFI_IFR_UINT8_OP
, &mUint8
->Header
) {
2273 VOID
SetValue (IN UINT8 Value
) {
2274 mUint8
->Value
= Value
;
2278 class CIfrUint16
: public CIfrObj
, public CIfrOpHeader
{
2280 EFI_IFR_UINT16
*mUint16
;
2285 ) : CIfrObj (EFI_IFR_UINT16_OP
, (CHAR8
**)&mUint16
),
2286 CIfrOpHeader (EFI_IFR_UINT16_OP
, &mUint16
->Header
) {
2290 VOID
SetValue (IN UINT16 Value
) {
2291 mUint16
->Value
= Value
;
2295 class CIfrUint32
: public CIfrObj
, public CIfrOpHeader
{
2297 EFI_IFR_UINT32
*mUint32
;
2302 ) : CIfrObj (EFI_IFR_UINT32_OP
, (CHAR8
**)&mUint32
),
2303 CIfrOpHeader (EFI_IFR_UINT32_OP
, &mUint32
->Header
) {
2307 VOID
SetValue (IN UINT32 Value
) {
2308 mUint32
->Value
= Value
;
2312 class CIfrUint64
: public CIfrObj
, public CIfrOpHeader
{
2314 EFI_IFR_UINT64
*mUint64
;
2319 ) : CIfrObj (EFI_IFR_UINT64_OP
, (CHAR8
**)&mUint64
),
2320 CIfrOpHeader (EFI_IFR_UINT64_OP
, &mUint64
->Header
) {
2324 VOID
SetValue (IN UINT64 Value
) {
2325 mUint64
->Value
= Value
;
2329 class CIfrTrue
: public CIfrObj
, public CIfrOpHeader
{
2331 EFI_IFR_TRUE
*mTrue
;
2336 ) : CIfrObj (EFI_IFR_TRUE_OP
, (CHAR8
**)&mTrue
),
2337 CIfrOpHeader (EFI_IFR_TRUE_OP
, &mTrue
->Header
) {
2342 class CIfrFalse
: public CIfrObj
, public CIfrOpHeader
{
2344 EFI_IFR_FALSE
*mFalse
;
2349 ) : CIfrObj (EFI_IFR_FALSE_OP
, (CHAR8
**)&mFalse
),
2350 CIfrOpHeader (EFI_IFR_FALSE_OP
, &mFalse
->Header
) {
2355 class CIfrOne
: public CIfrObj
, public CIfrOpHeader
{
2362 ) : CIfrObj (EFI_IFR_ONE_OP
, (CHAR8
**)&mOne
),
2363 CIfrOpHeader (EFI_IFR_ONE_OP
, &mOne
->Header
) {
2368 class CIfrOnes
: public CIfrObj
, public CIfrOpHeader
{
2370 EFI_IFR_ONES
*mOnes
;
2375 ) : CIfrObj (EFI_IFR_ONES_OP
, (CHAR8
**)&mOnes
),
2376 CIfrOpHeader (EFI_IFR_ONES_OP
, &mOnes
->Header
) {
2381 class CIfrZero
: public CIfrObj
, public CIfrOpHeader
{
2383 EFI_IFR_ZERO
*mZero
;
2388 ) : CIfrObj (EFI_IFR_ZERO_OP
, (CHAR8
**)&mZero
),
2389 CIfrOpHeader (EFI_IFR_ZERO_OP
, &mZero
->Header
) {
2394 class CIfrUndefined
: public CIfrObj
, public CIfrOpHeader
{
2396 EFI_IFR_UNDEFINED
*mUndefined
;
2401 ) : CIfrObj (EFI_IFR_UNDEFINED_OP
, (CHAR8
**)&mUndefined
),
2402 CIfrOpHeader (EFI_IFR_UNDEFINED_OP
, &mUndefined
->Header
) {
2407 class CIfrVersion
: public CIfrObj
, public CIfrOpHeader
{
2409 EFI_IFR_VERSION
*mVersion
;
2414 ) : CIfrObj (EFI_IFR_VERSION_OP
, (CHAR8
**)&mVersion
),
2415 CIfrOpHeader (EFI_IFR_VERSION_OP
, &mVersion
->Header
) {
2420 class CIfrLength
: public CIfrObj
, public CIfrOpHeader
{
2422 EFI_IFR_LENGTH
*mLength
;
2427 ) : CIfrObj (EFI_IFR_LENGTH_OP
, (CHAR8
**)&mLength
),
2428 CIfrOpHeader (EFI_IFR_LENGTH_OP
, &mLength
->Header
) {
2433 class CIfrNot
: public CIfrObj
, public CIfrOpHeader
{
2440 ) : CIfrObj (EFI_IFR_NOT_OP
, (CHAR8
**)&mNot
),
2441 CIfrOpHeader (EFI_IFR_NOT_OP
, &mNot
->Header
) {
2446 class CIfrBitWiseNot
: public CIfrObj
, public CIfrOpHeader
{
2448 EFI_IFR_BITWISE_NOT
*mBitWise
;
2453 ) : CIfrObj (EFI_IFR_BITWISE_NOT_OP
, (CHAR8
**)&mBitWise
),
2454 CIfrOpHeader (EFI_IFR_BITWISE_NOT_OP
, &mBitWise
->Header
) {
2459 class CIfrToBoolean
: public CIfrObj
, public CIfrOpHeader
{
2461 EFI_IFR_TO_BOOLEAN
*mToBoolean
;
2466 ) : CIfrObj (EFI_IFR_TO_BOOLEAN_OP
, (CHAR8
**)&mToBoolean
),
2467 CIfrOpHeader (EFI_IFR_TO_BOOLEAN_OP
, &mToBoolean
->Header
) {
2472 class CIfrToString
: public CIfrObj
, public CIfrOpHeader
{
2474 EFI_IFR_TO_STRING
*mToString
;
2479 ) : CIfrObj (EFI_IFR_TO_STRING_OP
, (CHAR8
**)&mToString
),
2480 CIfrOpHeader (EFI_IFR_TO_STRING_OP
, &mToString
->Header
) {
2484 VOID
SetFormat (IN UINT8 Format
) {
2485 mToString
->Format
= Format
;
2489 class CIfrToUint
: public CIfrObj
, public CIfrOpHeader
{
2491 EFI_IFR_TO_UINT
*mToUint
;
2496 ) : CIfrObj (EFI_IFR_TO_UINT_OP
, (CHAR8
**)&mToUint
),
2497 CIfrOpHeader (EFI_IFR_TO_UINT_OP
, &mToUint
->Header
) {
2502 class CIfrToUpper
: public CIfrObj
, public CIfrOpHeader
{
2504 EFI_IFR_TO_UPPER
*mToUpper
;
2509 ) : CIfrObj (EFI_IFR_TO_UPPER_OP
, (CHAR8
**)&mToUpper
),
2510 CIfrOpHeader (EFI_IFR_TO_UPPER_OP
, &mToUpper
->Header
) {
2515 class CIfrToLower
: public CIfrObj
, public CIfrOpHeader
{
2517 EFI_IFR_TO_LOWER
*mToLower
;
2522 ) : CIfrObj (EFI_IFR_TO_LOWER_OP
, (CHAR8
**)&mToLower
),
2523 CIfrOpHeader (EFI_IFR_TO_LOWER_OP
, &mToLower
->Header
) {
2528 class CIfrAdd
: public CIfrObj
, public CIfrOpHeader
{
2535 ) : CIfrObj (EFI_IFR_ADD_OP
, (CHAR8
**)&mAdd
),
2536 CIfrOpHeader (EFI_IFR_ADD_OP
, &mAdd
->Header
) {
2541 class CIfrBitWiseAnd
: public CIfrObj
, public CIfrOpHeader
{
2543 EFI_IFR_BITWISE_AND
*mBitWiseAnd
;
2548 ) : CIfrObj (EFI_IFR_BITWISE_AND_OP
, (CHAR8
**)&mBitWiseAnd
),
2549 CIfrOpHeader (EFI_IFR_BITWISE_AND_OP
, &mBitWiseAnd
->Header
) {
2554 class CIfrBitWiseOr
: public CIfrObj
, public CIfrOpHeader
{
2556 EFI_IFR_BITWISE_OR
*mBitWiseOr
;
2561 ) : CIfrObj (EFI_IFR_BITWISE_OR_OP
, (CHAR8
**)&mBitWiseOr
),
2562 CIfrOpHeader (EFI_IFR_BITWISE_OR_OP
, &mBitWiseOr
->Header
) {
2567 class CIfrAnd
: public CIfrObj
, public CIfrOpHeader
{
2574 ) : CIfrObj (EFI_IFR_AND_OP
, (CHAR8
**)&mAnd
),
2575 CIfrOpHeader (EFI_IFR_AND_OP
, &mAnd
->Header
) {
2580 class CIfrCatenate
: public CIfrObj
, public CIfrOpHeader
{
2582 EFI_IFR_CATENATE
*mCatenate
;
2587 ) : CIfrObj (EFI_IFR_CATENATE_OP
, (CHAR8
**)&mCatenate
),
2588 CIfrOpHeader (EFI_IFR_CATENATE_OP
, &mCatenate
->Header
) {
2593 class CIfrDivide
: public CIfrObj
, public CIfrOpHeader
{
2595 EFI_IFR_DIVIDE
*mDivide
;
2600 ) : CIfrObj (EFI_IFR_DIVIDE_OP
, (CHAR8
**)&mDivide
),
2601 CIfrOpHeader (EFI_IFR_DIVIDE_OP
, &mDivide
->Header
) {
2606 class CIfrEqual
: public CIfrObj
, public CIfrOpHeader
{
2608 EFI_IFR_EQUAL
*mEqual
;
2613 ) : CIfrObj (EFI_IFR_EQUAL_OP
, (CHAR8
**)&mEqual
),
2614 CIfrOpHeader (EFI_IFR_EQUAL_OP
, &mEqual
->Header
) {
2619 class CIfrGreaterEqual
: public CIfrObj
, public CIfrOpHeader
{
2621 EFI_IFR_GREATER_EQUAL
*mGreaterEqual
;
2626 ) : CIfrObj (EFI_IFR_GREATER_EQUAL_OP
, (CHAR8
**)&mGreaterEqual
),
2627 CIfrOpHeader (EFI_IFR_GREATER_EQUAL_OP
, &mGreaterEqual
->Header
) {
2632 class CIfrGreaterThan
: public CIfrObj
, public CIfrOpHeader
{
2634 EFI_IFR_GREATER_THAN
*mGreaterThan
;
2639 ) : CIfrObj (EFI_IFR_GREATER_THAN_OP
, (CHAR8
**)&mGreaterThan
),
2640 CIfrOpHeader (EFI_IFR_GREATER_THAN_OP
, &mGreaterThan
->Header
) {
2645 class CIfrLessEqual
: public CIfrObj
, public CIfrOpHeader
{
2647 EFI_IFR_LESS_EQUAL
*mLessEqual
;
2652 ) : CIfrObj (EFI_IFR_LESS_EQUAL_OP
, (CHAR8
**)&mLessEqual
),
2653 CIfrOpHeader (EFI_IFR_LESS_EQUAL_OP
, &mLessEqual
->Header
) {
2658 class CIfrLessThan
: public CIfrObj
, public CIfrOpHeader
{
2660 EFI_IFR_LESS_THAN
*mLessThan
;
2665 ) : CIfrObj (EFI_IFR_LESS_THAN_OP
, (CHAR8
**)&mLessThan
),
2666 CIfrOpHeader (EFI_IFR_LESS_THAN_OP
, &mLessThan
->Header
) {
2671 class CIfrMap
: public CIfrObj
, public CIfrOpHeader
{
2678 ) : CIfrObj (EFI_IFR_MAP_OP
, (CHAR8
**)&mMap
),
2679 CIfrOpHeader (EFI_IFR_MAP_OP
, &mMap
->Header
) {
2684 class CIfrMatch
: public CIfrObj
, public CIfrOpHeader
{
2686 EFI_IFR_MATCH
*mMatch
;
2691 ) : CIfrObj (EFI_IFR_MATCH_OP
, (CHAR8
**)&mMatch
),
2692 CIfrOpHeader (EFI_IFR_MATCH_OP
, &mMatch
->Header
) {
2697 class CIfrMatch2
: public CIfrObj
, public CIfrOpHeader
{
2699 EFI_IFR_MATCH2
*mMatch2
;
2705 ) : CIfrObj (EFI_IFR_MATCH2_OP
, (CHAR8
**)&mMatch2
),
2706 CIfrOpHeader (EFI_IFR_MATCH2_OP
, &mMatch2
->Header
) {
2708 memmove (&mMatch2
->SyntaxType
, Guid
, sizeof (EFI_GUID
));
2712 class CIfrMultiply
: public CIfrObj
, public CIfrOpHeader
{
2714 EFI_IFR_MULTIPLY
*mMultiply
;
2719 ) : CIfrObj (EFI_IFR_MULTIPLY_OP
, (CHAR8
**)&mMultiply
),
2720 CIfrOpHeader (EFI_IFR_MULTIPLY_OP
, &mMultiply
->Header
) {
2725 class CIfrModulo
: public CIfrObj
, public CIfrOpHeader
{
2727 EFI_IFR_MODULO
*mModulo
;
2732 ) : CIfrObj (EFI_IFR_MODULO_OP
, (CHAR8
**)&mModulo
),
2733 CIfrOpHeader (EFI_IFR_MODULO_OP
, &mModulo
->Header
) {
2738 class CIfrNotEqual
: public CIfrObj
, public CIfrOpHeader
{
2740 EFI_IFR_NOT_EQUAL
*mNotEqual
;
2745 ) : CIfrObj (EFI_IFR_NOT_EQUAL_OP
, (CHAR8
**)&mNotEqual
),
2746 CIfrOpHeader (EFI_IFR_NOT_EQUAL_OP
, &mNotEqual
->Header
) {
2751 class CIfrOr
: public CIfrObj
, public CIfrOpHeader
{
2758 ) : CIfrObj (EFI_IFR_OR_OP
, (CHAR8
**)&mOr
),
2759 CIfrOpHeader (EFI_IFR_OR_OP
, &mOr
->Header
) {
2764 class CIfrShiftLeft
: public CIfrObj
, public CIfrOpHeader
{
2766 EFI_IFR_SHIFT_LEFT
*mShiftLeft
;
2771 ) : CIfrObj (EFI_IFR_SHIFT_LEFT_OP
, (CHAR8
**)&mShiftLeft
),
2772 CIfrOpHeader (EFI_IFR_SHIFT_LEFT_OP
, &mShiftLeft
->Header
) {
2777 class CIfrShiftRight
: public CIfrObj
, public CIfrOpHeader
{
2779 EFI_IFR_SHIFT_RIGHT
*mShiftRight
;
2784 ) : CIfrObj (EFI_IFR_SHIFT_RIGHT_OP
, (CHAR8
**)&mShiftRight
),
2785 CIfrOpHeader (EFI_IFR_SHIFT_RIGHT_OP
, &mShiftRight
->Header
) {
2790 class CIfrSubtract
: public CIfrObj
, public CIfrOpHeader
{
2792 EFI_IFR_SUBTRACT
*mSubtract
;
2797 ) : CIfrObj (EFI_IFR_SUBTRACT_OP
, (CHAR8
**)&mSubtract
),
2798 CIfrOpHeader (EFI_IFR_SUBTRACT_OP
, &mSubtract
->Header
) {
2803 class CIfrConditional
: public CIfrObj
, public CIfrOpHeader
{
2805 EFI_IFR_CONDITIONAL
*mConditional
;
2810 ) : CIfrObj (EFI_IFR_CONDITIONAL_OP
, (CHAR8
**)&mConditional
),
2811 CIfrOpHeader (EFI_IFR_CONDITIONAL_OP
, &mConditional
->Header
) {
2816 class CIfrFind
: public CIfrObj
, public CIfrOpHeader
{
2818 EFI_IFR_FIND
*mFind
;
2823 ) : CIfrObj (EFI_IFR_FIND_OP
, (CHAR8
**)&mFind
),
2824 CIfrOpHeader (EFI_IFR_FIND_OP
, &mFind
->Header
) {
2828 VOID
SetFormat (IN UINT8 Format
) {
2829 mFind
->Format
= Format
;
2833 class CIfrMid
: public CIfrObj
, public CIfrOpHeader
{
2840 ) : CIfrObj (EFI_IFR_MID_OP
, (CHAR8
**)&mMid
),
2841 CIfrOpHeader (EFI_IFR_MID_OP
, &mMid
->Header
) {
2846 class CIfrToken
: public CIfrObj
, public CIfrOpHeader
{
2848 EFI_IFR_TOKEN
*mToken
;
2853 ) : CIfrObj (EFI_IFR_TOKEN_OP
, (CHAR8
**)&mToken
),
2854 CIfrOpHeader (EFI_IFR_TOKEN_OP
, &mToken
->Header
) {
2859 class CIfrSpan
: public CIfrObj
, public CIfrOpHeader
{
2861 EFI_IFR_SPAN
*mSpan
;
2866 ) : CIfrObj (EFI_IFR_SPAN_OP
, (CHAR8
**)&mSpan
),
2867 CIfrOpHeader (EFI_IFR_SPAN_OP
, &mSpan
->Header
) {
2869 mSpan
->Flags
= EFI_IFR_FLAGS_FIRST_MATCHING
;
2872 EFI_VFR_RETURN_CODE
SetFlags (IN UINT8 LFlags
) {
2873 if (_IS_EQUAL (LFlags
, EFI_IFR_FLAGS_FIRST_MATCHING
)) {
2874 mSpan
->Flags
|= EFI_IFR_FLAGS_FIRST_MATCHING
;
2875 } else if (_FLAG_TEST_AND_CLEAR (LFlags
, EFI_IFR_FLAGS_FIRST_NON_MATCHING
)) {
2876 mSpan
->Flags
|= EFI_IFR_FLAGS_FIRST_NON_MATCHING
;
2879 return _FLAGS_ZERO (LFlags
) ? VFR_RETURN_SUCCESS
: VFR_RETURN_FLAGS_UNSUPPORTED
;