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audk/EdkCompatibilityPkg/Sample/Tools/Source/UefiVfrCompile/VfrFormPkg.h

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1) Sync EdkCompatibilityPkg with EDK 1.04. The changes includes: 1.1) Bug fixes. (For details, please check Documents & files: Snapshot/Release Notes at https://edk.tianocore.org/servlets/ProjectDocumentList?folderID=43&expandFolder=43&folderID=6) 1.2) Add new UEFI protocol definitions for AbsolutePointer, FormBrowser2, HiiConfigAccess, HiiConfigRouting, HiiDatabase, HiiFont, HiiImage, HiiString, SimpleTextInputEx, DPC protocol. 1.3) Add Smbios 2.5, 2.6 supports. Incompatible changes hilighted: 1) EFI_MANAGED_NETWORK_PROTOCOL_GUID changed. 2) EFI_IP4_IPCONFIG_DATA changed. 2) Add in EdkCompatibilityPkg/EdkCompatibilityPkg.dsc to build all libraries in this package. git-svn-id: https://edk2.svn.sourceforge.net/svnroot/edk2/trunk/edk2@4624 6f19259b-4bc3-4df7-8a09-765794883524
2008-01-24 08:29:31 +01:00
#ifndef _EFIIFRCLASS_H_
#define _EFIIFRCLASS_H_
#include "string.h"
#include "EfiVfr.h"
#include "VfrError.h"
#include "VfrUtilityLib.h"
/*
* The functions below are used for flags setting
*/
static inline BOOLEAN _FLAGS_ZERO (
IN UINT8 &Flags
)
{
return Flags == 0;
}
static inline VOID _FLAG_CLEAR (
IN UINT8 &Flags,
IN UINT8 Mask
)
{
Flags &= (~Mask);
}
static inline UINT8 _FLAG_TEST_AND_CLEAR (
IN UINT8 &Flags,
IN UINT8 Mask
)
{
UINT8 Ret = Flags & Mask;
Flags &= (~Mask);
return Ret;
}
static inline UINT8 _IS_EQUAL (
IN UINT8 &Flags,
IN UINT8 Value
)
{
return Flags == Value;
}
/*
* The definition of CIfrBin
*/
typedef enum {
PENDING,
ASSIGNED
} ASSIGN_FLAG;
struct SPendingAssign {
INT8 *mKey; // key ! unique
VOID *mAddr;
UINT32 mLen;
ASSIGN_FLAG mFlag;
UINT32 mLineNo;
struct SPendingAssign *mNext;
SPendingAssign (IN INT8 *, IN VOID *, IN UINT32, IN UINT32);
~SPendingAssign ();
VOID SetAddrAndLen (IN VOID *, IN UINT32);
VOID AssignValue (IN VOID *, IN UINT32);
INT8 * GetKey (VOID);
};
struct SBufferNode {
CHAR8 *mBufferStart;
CHAR8 *mBufferEnd;
CHAR8 *mBufferFree;
struct SBufferNode *mNext;
};
class CFormPkg {
private:
UINT32 mBufferSize;
SBufferNode *mBufferNodeQueueHead;
SBufferNode *mBufferNodeQueueTail;
SBufferNode *mCurrBufferNode;
SBufferNode *mReadBufferNode;
UINT32 mReadBufferOffset;
UINT32 mPkgLength;
VOID _WRITE_PKG_LINE (IN FILE *, IN UINT32 , IN INT8 *, IN INT8 *, IN UINT32);
VOID _WRITE_PKG_END (IN FILE *, IN UINT32 , IN INT8 *, IN INT8 *, IN UINT32);
private:
SPendingAssign *PendingAssignList;
public:
CFormPkg (IN UINT32 BufferSize);
~CFormPkg ();
CHAR8 * IfrBinBufferGet (IN UINT32);
inline UINT32 GetPkgLength (VOID);
VOID Open ();
UINT32 Read (IN CHAR8 *, IN UINT32);
VOID Close ();
EFI_VFR_RETURN_CODE BuildPkgHdr (OUT EFI_HII_PACKAGE_HEADER **);
EFI_VFR_RETURN_CODE BuildPkg (IN FILE *);
EFI_VFR_RETURN_CODE GenCFile (IN INT8 *, IN FILE *);
public:
EFI_VFR_RETURN_CODE AssignPending (IN INT8 *, IN VOID *, IN UINT32, IN UINT32);
VOID DoPendingAssign (IN INT8 *, IN VOID *, IN UINT32);
bool HavePendingUnassigned (VOID);
VOID PendingAssignPrintAll (VOID);
};
extern CFormPkg gCFormPkg;
struct SIfrRecord {
UINT32 mLineNo;
CHAR8 *mIfrBinBuf;
UINT8 mBinBufLen;
UINT32 mOffset;
SIfrRecord *mNext;
SIfrRecord (VOID);
~SIfrRecord (VOID);
};
#define EFI_IFR_RECORDINFO_IDX_INVALUD 0xFFFFFF
#define EFI_IFR_RECORDINFO_IDX_START 0x0
class CIfrRecordInfoDB {
private:
bool mSwitch;
UINT32 mRecordCount;
SIfrRecord *mIfrRecordListHead;
SIfrRecord *mIfrRecordListTail;
SIfrRecord * GetRecordInfoFromIdx (IN UINT32);
public:
CIfrRecordInfoDB (VOID);
~CIfrRecordInfoDB (VOID);
inline VOID TurnOn (VOID) {
mSwitch = TRUE;
}
inline VOID TurnOff (VOID) {
mSwitch = FALSE;
}
UINT32 IfrRecordRegister (IN UINT32, IN CHAR8 *, IN UINT8, IN UINT32);
VOID IfrRecordInfoUpdate (IN UINT32, IN UINT32, IN CHAR8*, IN UINT8, IN UINT32);
VOID IfrRecordOutput (IN FILE *, IN UINT32 LineNo);
};
extern CIfrRecordInfoDB gCIfrRecordInfoDB;
/*
* The definition of CIfrObj
*/
extern bool gCreateOp;
class CIfrObj {
private:
bool mDelayEmit;
CHAR8 *mObjBinBuf;
UINT8 mObjBinLen;
UINT32 mLineNo;
UINT32 mRecordIdx;
UINT32 mPkgOffset;
VOID _EMIT_PENDING_OBJ (VOID);
public:
CIfrObj (IN UINT8 OpCode, OUT CHAR8 **IfrObj = NULL, IN UINT8 ObjBinLen = 0, IN BOOLEAN DelayEmit = FALSE);
virtual ~CIfrObj(VOID);
inline VOID SetLineNo (IN UINT32 LineNo) {
mLineNo = LineNo;
}
inline CHAR8 * GetObjBinAddr (VOID) {
return mObjBinBuf;
}
inline UINT8 GetObjBinLen (VOID) {
return mObjBinLen;
}
inline bool ExpendObjBin (IN UINT8 Size) {
if ((mDelayEmit == TRUE) && ((mObjBinLen + Size) > mObjBinLen)) {
mObjBinLen += Size;
return TRUE;
} else {
return FALSE;
}
}
};
/*
* The definition of CIfrOpHeader
*/
class CIfrOpHeader {
private:
EFI_IFR_OP_HEADER *mHeader;
public:
CIfrOpHeader (IN UINT8 OpCode, IN VOID *StartAddr, IN UINT8 Length = 0);
CIfrOpHeader (IN CIfrOpHeader &);
VOID IncLength (UINT8 Size) {
if ((mHeader->Length + Size) > mHeader->Length) {
mHeader->Length += Size;
}
}
VOID DecLength (UINT8 Size) {
if (mHeader->Length >= Size) {
mHeader -= Size;
}
}
UINT8 GetLength () {
return mHeader->Length;
}
UINT8 GetScope () {
return mHeader->Scope;
}
VOID SetScope (IN UINT8 Scope) {
mHeader->Scope = Scope;
}
};
extern UINT8 gScopeCount;
/*
* The definition of CIfrStatementHeader
*/
class CIfrStatementHeader {
private:
EFI_IFR_STATEMENT_HEADER *mHeader;
public:
CIfrStatementHeader (
IN EFI_IFR_STATEMENT_HEADER *StartAddr
) : mHeader ((EFI_IFR_STATEMENT_HEADER *)StartAddr) {
mHeader = StartAddr;
mHeader->Help = EFI_STRING_ID_INVALID;
mHeader->Prompt = EFI_STRING_ID_INVALID;
}
EFI_IFR_STATEMENT_HEADER *GetStatementHeader () {
return mHeader;
}
VOID SetPrompt (IN EFI_STRING_ID Prompt) {
mHeader->Prompt = Prompt;
}
VOID SetHelp (IN EFI_STRING_ID Help) {
mHeader->Help = Help;
}
};
/*
* The definition of CIfrQuestionHeader
*/
#define EFI_IFR_QUESTION_FLAG_DEFAULT 0
class CIfrQuestionHeader : public CIfrStatementHeader {
private:
EFI_IFR_QUESTION_HEADER *mHeader;
EFI_IFR_STATEMENT_HEADER * QH2SH (EFI_IFR_QUESTION_HEADER *Qheader) {
return &(Qheader)->Header;
}
public:
EFI_QUESTION_ID QUESTION_ID (VOID) {
return mHeader->QuestionId;
}
EFI_VARSTORE_ID VARSTORE_ID (VOID) {
return mHeader->VarStoreId;
}
VOID VARSTORE_INFO (OUT EFI_VARSTORE_INFO *Info) {
if (Info != NULL) {
Info->mVarStoreId = mHeader->VarStoreId;
memcpy (&Info->mVarStoreId, &mHeader->VarStoreInfo, sizeof (Info->mVarStoreId));
}
}
UINT8 FLAGS (VOID) {
return mHeader->Flags;
}
public:
CIfrQuestionHeader (
IN EFI_IFR_QUESTION_HEADER *StartAddr,
IN UINT8 Flags = EFI_IFR_QUESTION_FLAG_DEFAULT
) : CIfrStatementHeader (QH2SH(StartAddr)) {
mHeader = StartAddr;
mHeader->QuestionId = EFI_QUESTION_ID_INVALID;
mHeader->VarStoreId = EFI_VARSTORE_ID_INVALID;
mHeader->VarStoreInfo.VarName = EFI_STRING_ID_INVALID;
mHeader->VarStoreInfo.VarOffset = EFI_VAROFFSET_INVALID;
mHeader->Flags = Flags;
}
VOID SetQuestionId (IN EFI_QUESTION_ID QuestionId) {
mHeader->QuestionId = QuestionId;
}
VOID SetVarStoreInfo (IN EFI_VARSTORE_INFO *Info) {
mHeader->VarStoreId = Info->mVarStoreId;
mHeader->VarStoreInfo.VarName = Info->mInfo.mVarName;
mHeader->VarStoreInfo.VarOffset = Info->mInfo.mVarOffset;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 Flags) {
if (_FLAG_TEST_AND_CLEAR (Flags, EFI_IFR_FLAG_READ_ONLY)) {
mHeader->Flags |= EFI_IFR_FLAG_READ_ONLY;
}
_FLAG_CLEAR (Flags, 0x02);
if (_FLAG_TEST_AND_CLEAR (Flags, EFI_IFR_FLAG_CALLBACK)) {
mHeader->Flags |= EFI_IFR_FLAG_CALLBACK;
}
_FLAG_CLEAR (Flags, 0x08);
if (_FLAG_TEST_AND_CLEAR (Flags, EFI_IFR_FLAG_RESET_REQUIRED)) {
mHeader->Flags |= EFI_IFR_FLAG_RESET_REQUIRED;
}
_FLAG_CLEAR (Flags, 0x20);
if (_FLAG_TEST_AND_CLEAR (Flags, EFI_IFR_FLAG_OPTIONS_ONLY)) {
mHeader->Flags |= EFI_IFR_FLAG_OPTIONS_ONLY;
}
return _FLAGS_ZERO (Flags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
static CIfrQuestionHeader *gCurrentQuestion = NULL;
/*
* The definition of CIfrMinMaxStepData
*/
class CIfrMinMaxStepData {
private:
MINMAXSTEP_DATA *mMinMaxStepData;
public:
CIfrMinMaxStepData (MINMAXSTEP_DATA *DataAddr) : mMinMaxStepData (DataAddr) {
mMinMaxStepData->u64.MinValue = 0;
mMinMaxStepData->u64.MaxValue = 0;
mMinMaxStepData->u64.Step = 0;
}
VOID SetMinMaxStepData (IN UINT64 MinValue, IN UINT64 MaxValue, IN UINT64 Step) {
mMinMaxStepData->u64.MinValue = MinValue;
mMinMaxStepData->u64.MaxValue = MaxValue;
mMinMaxStepData->u64.Step = Step;
}
VOID SetMinMaxStepData (IN UINT32 MinValue, IN UINT32 MaxValue, IN UINT32 Step) {
mMinMaxStepData->u32.MinValue = MinValue;
mMinMaxStepData->u32.MaxValue = MaxValue;
mMinMaxStepData->u32.Step = Step;
}
VOID SetMinMaxStepData (IN UINT16 MinValue, IN UINT16 MaxValue, IN UINT16 Step) {
mMinMaxStepData->u16.MinValue = MinValue;
mMinMaxStepData->u16.MaxValue = MaxValue;
mMinMaxStepData->u16.Step = Step;
}
VOID SetMinMaxStepData (IN UINT8 MinValue, IN UINT8 MaxValue, IN UINT8 Step) {
mMinMaxStepData->u8.MinValue = MinValue;
mMinMaxStepData->u8.MaxValue = MaxValue;
mMinMaxStepData->u8.Step = Step;
}
};
/*
* The definition of all of the UEFI IFR Objects
*/
class CIfrFormSet : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_FORM_SET *mFormSet;
public:
CIfrFormSet () : CIfrObj (EFI_IFR_FORM_SET_OP, (CHAR8 **)&mFormSet),
CIfrOpHeader (EFI_IFR_FORM_SET_OP, &mFormSet->Header) {
mFormSet->Help = EFI_STRING_ID_INVALID;
mFormSet->FormSetTitle = EFI_STRING_ID_INVALID;
memset (&mFormSet->Guid, 0, sizeof (EFI_GUID));
}
VOID SetGuid (IN EFI_GUID *Guid) {
memcpy (&mFormSet->Guid, Guid, sizeof (EFI_GUID));
}
VOID SetFormSetTitle (IN EFI_STRING_ID FormSetTitle) {
mFormSet->FormSetTitle = FormSetTitle;
}
VOID SetHelp (IN EFI_STRING_ID Help) {
mFormSet->Help = Help;
}
};
class CIfrEnd : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_END *mEnd;
public:
CIfrEnd () : CIfrObj (EFI_IFR_END_OP, (CHAR8 **)&mEnd),
CIfrOpHeader (EFI_IFR_END_OP, &mEnd->Header) {}
};
class CIfrDefaultStore : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_DEFAULTSTORE *mDefaultStore;
public:
CIfrDefaultStore () : CIfrObj (EFI_IFR_DEFAULTSTORE_OP, (CHAR8 **)&mDefaultStore),
CIfrOpHeader (EFI_IFR_DEFAULTSTORE_OP, &mDefaultStore->Header) {
mDefaultStore->DefaultId = EFI_VARSTORE_ID_INVALID;
mDefaultStore->DefaultName = EFI_STRING_ID_INVALID;
}
VOID SetDefaultName (IN EFI_STRING_ID DefaultName) {
mDefaultStore->DefaultName = DefaultName;
}
VOID SetDefaultId (IN UINT16 DefaultId) {
mDefaultStore->DefaultId = DefaultId;
}
};
#define EFI_FORM_ID_MAX 0xFFFF
#define EFI_FREE_FORM_ID_BITMAP_SIZE ((EFI_FORM_ID_MAX + 1) / EFI_BITS_PER_UINT32)
class CIfrForm : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_FORM *mForm;
STATIC UINT32 FormIdBitMap[EFI_FREE_FORM_ID_BITMAP_SIZE];
STATIC BOOLEAN ChekFormIdFree (IN EFI_FORM_ID FormId) {
UINT32 Index = (FormId / EFI_BITS_PER_UINT32);
UINT32 Offset = (FormId % EFI_BITS_PER_UINT32);
return (FormIdBitMap[Index] & (0x80000000 >> Offset)) == 0;
}
STATIC VOID MarkFormIdUsed (IN EFI_FORM_ID FormId) {
UINT32 Index = (FormId / EFI_BITS_PER_UINT32);
UINT32 Offset = (FormId % EFI_BITS_PER_UINT32);
FormIdBitMap[Index] |= (0x80000000 >> Offset);
}
public:
CIfrForm () : CIfrObj (EFI_IFR_FORM_OP, (CHAR8 **)&mForm),
CIfrOpHeader (EFI_IFR_FORM_OP, &mForm->Header) {
mForm->FormId = 0;
mForm->FormTitle = EFI_STRING_ID_INVALID;
}
EFI_VFR_RETURN_CODE SetFormId (IN EFI_FORM_ID FormId) {
if (CIfrForm::ChekFormIdFree (FormId) == FALSE) {
return VFR_RETURN_FORMID_REDEFINED;
}
mForm->FormId = FormId;
CIfrForm::MarkFormIdUsed (FormId);
return VFR_RETURN_SUCCESS;
}
VOID SetFormTitle (IN EFI_STRING_ID FormTitle) {
mForm->FormTitle = FormTitle;
}
};
class CIfrVarStore : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_VARSTORE *mVarStore;
public:
CIfrVarStore () : CIfrObj (EFI_IFR_VARSTORE_OP, (CHAR8 **)&mVarStore, sizeof (EFI_IFR_VARSTORE), TRUE),
CIfrOpHeader (EFI_IFR_VARSTORE_OP, &mVarStore->Header) {
mVarStore->VarStoreId = EFI_VARSTORE_ID_INVALID;
mVarStore->Size = 0;
memset (&mVarStore->Guid, 0, sizeof (EFI_GUID));
mVarStore->Name[0] = '\0';
}
VOID SetGuid (IN EFI_GUID *Guid) {
memcpy (&mVarStore->Guid, Guid, sizeof (EFI_GUID));
}
VOID SetVarStoreId (IN EFI_VARSTORE_ID VarStoreId) {
mVarStore->VarStoreId = VarStoreId;
}
VOID SetSize (IN UINT16 Size) {
mVarStore->Size = Size;
}
VOID SetName (IN INT8 *Name) {
UINT8 Len;
if (Name != NULL) {
Len = strlen (Name);
if (Len != 0) {
if (ExpendObjBin (Len) == TRUE) {
IncLength (Len);
strcpy ((INT8 *)(mVarStore->Name), Name);
}
}
}
}
};
class CIfrVarStoreEfi : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_VARSTORE_EFI *mVarStoreEfi;
public:
CIfrVarStoreEfi () : CIfrObj (EFI_IFR_VARSTORE_EFI_OP, (CHAR8 **)&mVarStoreEfi),
CIfrOpHeader (EFI_IFR_VARSTORE_EFI_OP, &mVarStoreEfi->Header) {
mVarStoreEfi->VarStoreId = EFI_VAROFFSET_INVALID;
memset (&mVarStoreEfi->Guid, 0, sizeof (EFI_GUID));
}
VOID SetGuid (IN EFI_GUID *Guid) {
memcpy (&mVarStoreEfi->Guid, Guid, sizeof (EFI_GUID));
}
VOID SetVarStoreId (IN UINT16 VarStoreId) {
mVarStoreEfi->VarStoreId = VarStoreId;
}
VOID SetAttributes (IN UINT32 Attributes) {
mVarStoreEfi->Attributes = Attributes;
}
};
class CIfrVarStoreNameValue : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_VARSTORE_NAME_VALUE *mVarStoreNameValue;
public:
CIfrVarStoreNameValue () : CIfrObj (EFI_IFR_VARSTORE_NAME_VALUE_OP, (CHAR8 **)&mVarStoreNameValue),
CIfrOpHeader (EFI_IFR_VARSTORE_NAME_VALUE_OP, &mVarStoreNameValue->Header) {
mVarStoreNameValue->VarStoreId = EFI_VAROFFSET_INVALID;
memset (&mVarStoreNameValue->Guid, 0, sizeof (EFI_GUID));
}
VOID SetGuid (IN EFI_GUID *Guid) {
memcpy (&mVarStoreNameValue->Guid, Guid, sizeof (EFI_GUID));
}
VOID SetVarStoreId (IN UINT16 VarStoreId) {
mVarStoreNameValue->VarStoreId = VarStoreId;
}
};
class CIfrImage : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_IMAGE *mImage;
public:
CIfrImage () : CIfrObj (EFI_IFR_IMAGE_OP, (CHAR8 **)&mImage),
CIfrOpHeader (EFI_IFR_FORM_OP, &mImage->Header) {
mImage->Id = EFI_IMAGE_ID_INVALID;
}
VOID SetImageId (IN EFI_IMAGE_ID ImageId) {
mImage->Id = ImageId;
}
};
class CIfrLocked : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_LOCKED *mLocked;
public:
CIfrLocked () : CIfrObj (EFI_IFR_LOCKED_OP, (CHAR8 **)&mLocked),
CIfrOpHeader (EFI_IFR_LOCKED_OP, &mLocked->Header) {}
};
class CIfrRule : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_RULE *mRule;
public:
CIfrRule () : CIfrObj (EFI_IFR_RULE_OP, (CHAR8 **)&mRule),
mRule ((EFI_IFR_RULE *)GetObjBinAddr()),
CIfrOpHeader (EFI_IFR_RULE_OP, &mRule->Header) {
mRule->RuleId = EFI_RULE_ID_INVALID;
}
VOID SetRuleId (IN UINT8 RuleId) {
mRule->RuleId = RuleId;
}
};
static EFI_IFR_TYPE_VALUE gZeroEfiIfrTypeValue = {0, };
class CIfrDefault : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_DEFAULT *mDefault;
public:
CIfrDefault (
IN UINT16 DefaultId = EFI_HII_DEFAULT_CLASS_STANDARD,
IN UINT8 Type = EFI_IFR_TYPE_OTHER,
IN EFI_IFR_TYPE_VALUE Value = gZeroEfiIfrTypeValue
) : CIfrObj (EFI_IFR_DEFAULT_OP, (CHAR8 **)&mDefault),
CIfrOpHeader (EFI_IFR_DEFAULT_OP, &mDefault->Header) {
mDefault->Type = Type;
mDefault->Value = Value;
mDefault->DefaultId = DefaultId;
}
VOID SetDefaultId (IN UINT16 DefaultId) {
mDefault->DefaultId = DefaultId;
}
VOID SetType (IN UINT8 Type) {
mDefault->Type = Type;
}
VOID SetValue (IN EFI_IFR_TYPE_VALUE Value) {
mDefault->Value = Value;
}
};
class CIfrValue : public CIfrObj, public CIfrOpHeader{
private:
EFI_IFR_VALUE *mValue;
public:
CIfrValue () : CIfrObj (EFI_IFR_VALUE_OP, (CHAR8 **)&mValue),
CIfrOpHeader (EFI_IFR_VALUE_OP, &mValue->Header) {}
};
class CIfrSubtitle : public CIfrObj, public CIfrOpHeader, public CIfrStatementHeader {
private:
EFI_IFR_SUBTITLE *mSubtitle;
public:
CIfrSubtitle () : CIfrObj (EFI_IFR_SUBTITLE_OP, (CHAR8 **)&mSubtitle),
CIfrOpHeader (EFI_IFR_SUBTITLE_OP, &mSubtitle->Header),
CIfrStatementHeader (&mSubtitle->Statement) {
mSubtitle->Flags = 0;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 LFlags) {
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_FLAGS_HORIZONTAL)) {
mSubtitle->Flags |= EFI_IFR_FLAGS_HORIZONTAL;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
class CIfrText : public CIfrObj, public CIfrOpHeader, public CIfrStatementHeader {
private:
EFI_IFR_TEXT *mText;
public:
CIfrText () : CIfrObj (EFI_IFR_TEXT_OP, (CHAR8 **)&mText),
CIfrOpHeader (EFI_IFR_TEXT_OP, &mText->Header),
CIfrStatementHeader (&mText->Statement) {
mText->TextTwo = EFI_STRING_ID_INVALID;
}
VOID SetTextTwo (IN EFI_STRING_ID StringId) {
mText->TextTwo = StringId;
}
};
class CIfrRef : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_REF *mRef;
public:
CIfrRef () : CIfrObj (EFI_IFR_REF_OP, (CHAR8 **)&mRef),
CIfrOpHeader (EFI_IFR_REF_OP, &mRef->Header),
CIfrQuestionHeader (&mRef->Question) {
mRef->FormId = 0;
}
VOID SetFormId (IN EFI_FORM_ID FormId) {
mRef->FormId = FormId;
}
};
class CIfrRef2 : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_REF2 *mRef2;
public:
CIfrRef2 () : CIfrObj (EFI_IFR_REF_OP, (CHAR8 **)&mRef2, sizeof (EFI_IFR_REF2)),
CIfrOpHeader (EFI_IFR_REF_OP, &mRef2->Header, sizeof (EFI_IFR_REF2)),
CIfrQuestionHeader (&mRef2->Question) {
mRef2->FormId = 0;
mRef2->QuestionId = EFI_QUESTION_ID_INVALID;
}
VOID SetFormId (IN EFI_FORM_ID FormId) {
mRef2->FormId = FormId;
}
EFI_VFR_RETURN_CODE SetQuestionId (IN EFI_QUESTION_ID QuestionId) {
if (QuestionId == EFI_QUESTION_ID_INVALID) {
return VFR_RETURN_UNDEFINED;
}
mRef2->QuestionId = QuestionId;
return VFR_RETURN_SUCCESS;
}
};
class CIfrRef3 : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_REF3 *mRef3;
public:
CIfrRef3 () : CIfrObj (EFI_IFR_REF_OP, (CHAR8 **)&mRef3, sizeof(EFI_IFR_REF3)),
CIfrOpHeader (EFI_IFR_REF_OP, &mRef3->Header, sizeof (EFI_IFR_REF3)),
CIfrQuestionHeader (&mRef3->Question) {
mRef3->FormId = 0;
mRef3->QuestionId = EFI_QUESTION_ID_INVALID;
memset (&mRef3->FormSetId, 0, sizeof (EFI_GUID));
}
VOID SetFormId (IN EFI_FORM_ID FormId) {
mRef3->FormId = FormId;
}
VOID SetQuestionId (IN EFI_QUESTION_ID QuestionId) {
mRef3->QuestionId = QuestionId;
}
VOID SetFormSetId (IN EFI_GUID FormSetId) {
mRef3->FormSetId = FormSetId;
}
};
class CIfrRef4 : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_REF4 *mRef4;
public:
CIfrRef4 () : CIfrObj (EFI_IFR_REF_OP, (CHAR8 **)&mRef4, sizeof(EFI_IFR_REF3)),
CIfrOpHeader (EFI_IFR_REF_OP, &mRef4->Header, sizeof (EFI_IFR_REF3)),
CIfrQuestionHeader (&mRef4->Question) {
mRef4->FormId = 0;
mRef4->QuestionId = EFI_QUESTION_ID_INVALID;
memset (&mRef4->FormSetId, 0, sizeof (EFI_GUID));
mRef4->DevicePath = EFI_STRING_ID_INVALID;
}
VOID SetFormId (IN EFI_FORM_ID FormId) {
mRef4->FormId = FormId;
}
VOID SetQuestionId (IN EFI_QUESTION_ID QuestionId) {
mRef4->QuestionId = QuestionId;
}
VOID SetFormSetId (IN EFI_GUID FormSetId) {
mRef4->FormSetId = FormSetId;
}
VOID SetDevicePath (IN EFI_STRING_ID DevicePath) {
mRef4->DevicePath = DevicePath;
}
};
class CIfrResetButton : public CIfrObj, public CIfrOpHeader, public CIfrStatementHeader {
private:
EFI_IFR_RESET_BUTTON *mResetButton;
public:
CIfrResetButton () : CIfrObj (EFI_IFR_RESET_BUTTON_OP, (CHAR8 **)&mResetButton),
CIfrOpHeader (EFI_IFR_RESET_BUTTON_OP, &mResetButton->Header),
CIfrStatementHeader (&mResetButton->Question.Header) {
mResetButton->DefaultId = EFI_HII_DEFAULT_CLASS_STANDARD;
}
VOID SetDefaultId (IN UINT16 DefaultId) {
mResetButton->DefaultId = DefaultId;
}
};
class CIfrCheckBox : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_CHECKBOX *mCheckBox;
public:
CIfrCheckBox () : CIfrObj (EFI_IFR_CHECKBOX_OP, (CHAR8 **)&mCheckBox),
CIfrOpHeader (EFI_IFR_CHECKBOX_OP, &mCheckBox->Header),
CIfrQuestionHeader (&mCheckBox->Question) {
mCheckBox->Flags = EFI_IFR_CHECKBOX_DEFAULT;
gCurrentQuestion = this;
}
~CIfrCheckBox () {
gCurrentQuestion = NULL;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_CHECKBOX_DEFAULT)) {
mCheckBox->Flags |= EFI_IFR_CHECKBOX_DEFAULT;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_CHECKBOX_DEFAULT_MFG)) {
mCheckBox->Flags |= EFI_IFR_CHECKBOX_DEFAULT_MFG;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
class CIfrAction : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_ACTION *mAction;
public:
CIfrAction () : CIfrObj (EFI_IFR_ACTION_OP, (CHAR8 **)&mAction),
CIfrOpHeader (EFI_IFR_ACTION_OP, &mAction->Header),
CIfrQuestionHeader (&mAction->Question) {
mAction->QuestionConfig = EFI_STRING_ID_INVALID;
}
VOID SetQuestionConfig (IN EFI_STRING_ID QuestionConfig) {
mAction->QuestionConfig = QuestionConfig;
}
};
class CIfrDate : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_DATE *mDate;
public:
CIfrDate () : CIfrObj (EFI_IFR_DATE_OP, (CHAR8 **)&mDate),
CIfrOpHeader (EFI_IFR_DATE_OP, &mDate->Header),
CIfrQuestionHeader (&mDate->Question) {
mDate->Flags = 0;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_QF_DATE_YEAR_SUPPRESS)) {
mDate->Flags |= EFI_QF_DATE_YEAR_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_QF_DATE_MONTH_SUPPRESS)) {
mDate->Flags |= EFI_QF_DATE_MONTH_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_QF_DATE_DAY_SUPPRESS)) {
mDate->Flags |= EFI_QF_DATE_DAY_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, QF_DATE_STORAGE_NORMAL)) {
mDate->Flags |= QF_DATE_STORAGE_NORMAL;
} else if (_FLAG_TEST_AND_CLEAR (LFlags, QF_DATE_STORAGE_TIME)) {
mDate->Flags |= QF_DATE_STORAGE_TIME;
} else if (_FLAG_TEST_AND_CLEAR (LFlags, QF_DATE_STORAGE_WAKEUP)) {
mDate->Flags |= QF_DATE_STORAGE_WAKEUP;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
class CIfrNumeric : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader, public CIfrMinMaxStepData {
private:
EFI_IFR_NUMERIC *mNumeric;
public:
CIfrNumeric () : CIfrObj (EFI_IFR_NUMERIC_OP, (CHAR8 **)&mNumeric),
CIfrOpHeader (EFI_IFR_NUMERIC_OP, &mNumeric->Header),
CIfrQuestionHeader (&mNumeric->Question),
CIfrMinMaxStepData (&mNumeric->data) {
mNumeric->Flags = EFI_IFR_NUMERIC_SIZE_1 | EFI_IFR_DISPLAY_UINT_DEC;
gCurrentQuestion = this;
}
~CIfrNumeric () {
gCurrentQuestion = NULL;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (LFlags & EFI_IFR_DISPLAY) {
mNumeric->Flags = LFlags;
} else {
mNumeric->Flags = LFlags | EFI_IFR_DISPLAY_UINT_DEC;
}
return VFR_RETURN_SUCCESS;
}
};
class CIfrOneOf : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader, public CIfrMinMaxStepData {
private:
EFI_IFR_ONE_OF *mOneOf;
public:
CIfrOneOf () : CIfrObj (EFI_IFR_ONE_OF_OP, (CHAR8 **)&mOneOf),
CIfrOpHeader (EFI_IFR_ONE_OF_OP, &mOneOf->Header),
CIfrQuestionHeader (&mOneOf->Question),
CIfrMinMaxStepData (&mOneOf->data) {
mOneOf->Flags = 0;
gCurrentQuestion = this;
}
~CIfrOneOf () {
gCurrentQuestion = NULL;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (LFlags & EFI_IFR_DISPLAY) {
mOneOf->Flags = LFlags;
} else {
mOneOf->Flags = LFlags | EFI_IFR_DISPLAY_UINT_DEC;
}
return VFR_RETURN_SUCCESS;
}
};
class CIfrString : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_STRING *mString;
public:
CIfrString () : CIfrObj (EFI_IFR_STRING_OP, (CHAR8 **)&mString),
CIfrOpHeader (EFI_IFR_STRING_OP, &mString->Header),
CIfrQuestionHeader (&mString->Question) {
mString->Flags = 0;
mString->MinSize = 0;
mString->MaxSize = 0;
gCurrentQuestion = this;
}
~CIfrString () {
gCurrentQuestion = NULL;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_STRING_MULTI_LINE)) {
mString->Flags |= EFI_IFR_STRING_MULTI_LINE;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
VOID SetMinSize (IN UINT8 Flags) {
mString->MinSize = Flags;
}
VOID SetMaxSize (IN UINT8 MaxSize) {
mString->MaxSize = MaxSize;
}
};
class CIfrPassword : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_PASSWORD *mPassword;
public:
CIfrPassword () : CIfrObj (EFI_IFR_PASSWORD_OP, (CHAR8 **)&mPassword),
CIfrOpHeader (EFI_IFR_PASSWORD_OP, &mPassword->Header),
CIfrQuestionHeader (&mPassword->Question) {
mPassword->MinSize = 0;
mPassword->MaxSize = 0;
gCurrentQuestion = this;
}
~CIfrPassword () {
gCurrentQuestion = NULL;
}
VOID SetMinSize (IN UINT16 MinSize) {
mPassword->MinSize = MinSize;
}
VOID SetMaxSize (IN UINT16 MaxSize) {
mPassword->MaxSize = MaxSize;
}
};
class CIfrOrderedList : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_ORDERED_LIST *mOrderedList;
public:
CIfrOrderedList () : CIfrObj (EFI_IFR_ORDERED_LIST_OP, (CHAR8 **)&mOrderedList),
CIfrOpHeader (EFI_IFR_ORDERED_LIST_OP, &mOrderedList->Header),
CIfrQuestionHeader (&mOrderedList->Question) {
mOrderedList->MaxContainers = 0;
mOrderedList->Flags = 0;
gCurrentQuestion = this;
}
~CIfrOrderedList () {
gCurrentQuestion = NULL;
}
VOID SetMaxContainers (IN UINT8 MaxContainers) {
mOrderedList->MaxContainers = MaxContainers;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_UNIQUE_SET)) {
mOrderedList->Flags |= EFI_IFR_UNIQUE_SET;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_NO_EMPTY_SET)) {
mOrderedList->Flags |= EFI_IFR_NO_EMPTY_SET;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
class CIfrTime : public CIfrObj, public CIfrOpHeader, public CIfrQuestionHeader {
private:
EFI_IFR_TIME *mTime;
public:
CIfrTime () : CIfrObj (EFI_IFR_TIME_OP, (CHAR8 **)&mTime),
CIfrOpHeader (EFI_IFR_TIME_OP, &mTime->Header),
CIfrQuestionHeader (&mTime->Question) {
mTime->Flags = 0;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 HFlags, IN UINT8 LFlags) {
EFI_VFR_RETURN_CODE Ret;
Ret = CIfrQuestionHeader::SetFlags (HFlags);
if (Ret != VFR_RETURN_SUCCESS) {
return Ret;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_HOUR_SUPPRESS)) {
mTime->Flags |= QF_TIME_HOUR_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_MINUTE_SUPPRESS)) {
mTime->Flags |= QF_TIME_MINUTE_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_SECOND_SUPPRESS)) {
mTime->Flags |= QF_TIME_SECOND_SUPPRESS;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_STORAGE_NORMAL)) {
mTime->Flags |= QF_TIME_STORAGE_NORMAL;
} else if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_STORAGE_TIME)) {
mTime->Flags |= QF_TIME_STORAGE_TIME;
} else if (_FLAG_TEST_AND_CLEAR (LFlags, QF_TIME_STORAGE_WAKEUP)) {
mTime->Flags |= QF_TIME_STORAGE_WAKEUP;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
class CIfrDisableIf : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_DISABLE_IF *mDisableIf;
public:
CIfrDisableIf () : CIfrObj (EFI_IFR_DISABLE_IF_OP, (CHAR8 **)&mDisableIf),
mDisableIf ((EFI_IFR_DISABLE_IF *) GetObjBinAddr()),
CIfrOpHeader (EFI_IFR_DISABLE_IF_OP, &mDisableIf->Header) {}
};
class CIfrSuppressIf : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_SUPPRESS_IF *mSuppressIf;
public:
CIfrSuppressIf () : CIfrObj (EFI_IFR_SUPPRESS_IF_OP, (CHAR8 **)&mSuppressIf),
CIfrOpHeader (EFI_IFR_SUPPRESS_IF_OP, &mSuppressIf->Header) {}
};
class CIfrGrayOutIf : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GRAY_OUT_IF *mGrayOutIf;
public:
CIfrGrayOutIf () : CIfrObj (EFI_IFR_GRAY_OUT_IF_OP, (CHAR8 **)&mGrayOutIf),
CIfrOpHeader (EFI_IFR_GRAY_OUT_IF_OP, &mGrayOutIf->Header) {}
};
class CIfrInconsistentIf : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_INCONSISTENT_IF *mInconsistentIf;
public:
CIfrInconsistentIf () : CIfrObj (EFI_IFR_INCONSISTENT_IF_OP, (CHAR8 **)&mInconsistentIf),
CIfrOpHeader (EFI_IFR_INCONSISTENT_IF_OP, &mInconsistentIf->Header) {
mInconsistentIf->Error = EFI_STRING_ID_INVALID;
}
VOID SetError (IN EFI_STRING_ID Error) {
mInconsistentIf->Error = Error;
}
};
class CIfrNoSubmitIf : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_NO_SUBMIT_IF *mNoSubmitIf;
public:
CIfrNoSubmitIf () : CIfrObj (EFI_IFR_NO_SUBMIT_IF_OP, (CHAR8 **)&mNoSubmitIf),
CIfrOpHeader (EFI_IFR_NO_SUBMIT_IF_OP, &mNoSubmitIf->Header) {
mNoSubmitIf->Error = EFI_STRING_ID_INVALID;
}
VOID SetError (IN EFI_STRING_ID Error) {
mNoSubmitIf->Error = Error;
}
};
class CIfrRefresh : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_REFRESH *mRefresh;
public:
CIfrRefresh () : CIfrObj (EFI_IFR_REFRESH_OP, (CHAR8 **)&mRefresh),
CIfrOpHeader (EFI_IFR_REFRESH_OP, &mRefresh->Header) {
mRefresh->RefreshInterval = 0;
}
VOID SetRefreshInterval (IN UINT8 RefreshInterval) {
mRefresh->RefreshInterval = RefreshInterval;
}
};
class CIfrVarStoreDevice : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_VARSTORE_DEVICE *mVarStoreDevice;
public:
CIfrVarStoreDevice () : CIfrObj (EFI_IFR_VARSTORE_DEVICE_OP, (CHAR8 **)&mVarStoreDevice),
CIfrOpHeader (EFI_IFR_VARSTORE_DEVICE_OP, &mVarStoreDevice->Header) {
mVarStoreDevice->DevicePath = EFI_STRING_ID_INVALID;
}
VOID SetDevicePath (IN EFI_STRING_ID DevicePath) {
mVarStoreDevice->DevicePath = DevicePath;
}
};
class CIfrOneOfOption : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_ONE_OF_OPTION *mOneOfOption;
public:
CIfrOneOfOption () : CIfrObj (EFI_IFR_ONE_OF_OPTION_OP, (CHAR8 **)&mOneOfOption),
CIfrOpHeader (EFI_IFR_ONE_OF_OPTION_OP, &mOneOfOption->Header) {
mOneOfOption->Flags = 0;
mOneOfOption->Option = EFI_STRING_ID_INVALID;
mOneOfOption->Type = EFI_IFR_TYPE_OTHER;
memset (&mOneOfOption->Value, 0, sizeof (mOneOfOption->Value));
}
VOID SetOption (IN EFI_STRING_ID Option) {
mOneOfOption->Option = Option;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 LFlags) {
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_OPTION_DEFAULT)) {
mOneOfOption->Flags |= EFI_IFR_OPTION_DEFAULT;
}
if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_OPTION_DEFAULT_MFG)) {
mOneOfOption->Flags |= EFI_IFR_OPTION_DEFAULT_MFG;
}
if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_NUM_SIZE_8)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_NUM_SIZE_8);
mOneOfOption->Flags |= EFI_IFR_TYPE_NUM_SIZE_8;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_NUM_SIZE_16)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_NUM_SIZE_16);
mOneOfOption->Flags |= EFI_IFR_TYPE_NUM_SIZE_16;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_NUM_SIZE_32)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_NUM_SIZE_32);
mOneOfOption->Flags |= EFI_IFR_TYPE_NUM_SIZE_32;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_NUM_SIZE_64)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_NUM_SIZE_64);
mOneOfOption->Flags |= EFI_IFR_TYPE_NUM_SIZE_64;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_BOOLEAN)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_BOOLEAN);
mOneOfOption->Flags |= EFI_IFR_TYPE_BOOLEAN;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_TIME)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_TIME);
mOneOfOption->Flags |= EFI_IFR_TYPE_TIME;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_DATE)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_DATE);
mOneOfOption->Flags |= EFI_IFR_TYPE_DATE;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_STRING)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_STRING);
mOneOfOption->Flags |= EFI_IFR_TYPE_STRING;
} else if (_IS_EQUAL (LFlags, EFI_IFR_TYPE_OTHER)) {
_FLAG_CLEAR (LFlags, EFI_IFR_TYPE_OTHER);
mOneOfOption->Flags |= EFI_IFR_TYPE_OTHER;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
VOID SetType (IN UINT8 Type) {
mOneOfOption->Type = Type;
}
VOID SetValue (IN EFI_IFR_TYPE_VALUE Value) {
mOneOfOption->Value = Value;
}
UINT8 GetFlags (VOID) {
return mOneOfOption->Flags;
}
};
static EFI_GUID IfrTianoGuid = EFI_IFR_TIANO_GUID;
class CIfrClass : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GUID_CLASS *mClass;
public:
CIfrClass () : CIfrObj (EFI_IFR_GUID_OP, (CHAR8 **)&mClass, sizeof (EFI_IFR_GUID_CLASS)),
CIfrOpHeader (EFI_IFR_GUID_OP, &mClass->Header, sizeof (EFI_IFR_GUID_CLASS)) {
mClass->ExtendOpCode = EFI_IFR_EXTEND_OP_CLASS;
mClass->Guid = IfrTianoGuid;
mClass->Class = EFI_NON_DEVICE_CLASS;
}
VOID SetClass (IN UINT16 Class) {
mClass->Class = Class;
}
};
class CIfrSubClass : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GUID_SUBCLASS *mSubClass;
public:
CIfrSubClass () : CIfrObj (EFI_IFR_GUID_OP, (CHAR8 **)&mSubClass, sizeof (EFI_IFR_GUID_SUBCLASS)),
CIfrOpHeader (EFI_IFR_GUID_OP, &mSubClass->Header, sizeof (EFI_IFR_GUID_SUBCLASS)) {
mSubClass->ExtendOpCode = EFI_IFR_EXTEND_OP_SUBCLASS;
mSubClass->Guid = IfrTianoGuid;
mSubClass->SubClass = EFI_SETUP_APPLICATION_SUBCLASS;
}
VOID SetSubClass (IN UINT16 SubClass) {
mSubClass->SubClass = SubClass;
}
};
class CIfrLabel : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GUID_LABEL *mLabel;
public:
CIfrLabel () : CIfrObj (EFI_IFR_GUID_OP, (CHAR8 **)&mLabel, sizeof (EFI_IFR_GUID_LABEL)),
CIfrOpHeader (EFI_IFR_GUID_OP, &mLabel->Header, sizeof (EFI_IFR_GUID_LABEL)) {
mLabel->ExtendOpCode = EFI_IFR_EXTEND_OP_LABEL;
mLabel->Guid = IfrTianoGuid;
}
VOID SetNumber (IN UINT16 Number) {
mLabel->Number = Number;
}
};
class CIfrBanner : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GUID_BANNER *mBanner;
public:
CIfrBanner () : CIfrObj (EFI_IFR_GUID_OP, (CHAR8 **)&mBanner, sizeof (EFI_IFR_GUID_BANNER)),
CIfrOpHeader (EFI_IFR_GUID_OP, &mBanner->Header, sizeof (EFI_IFR_GUID_BANNER)) {
mBanner->ExtendOpCode = EFI_IFR_EXTEND_OP_BANNER;
mBanner->Guid = IfrTianoGuid;
}
VOID SetTitle (IN EFI_STRING_ID StringId) {
mBanner->Title = StringId;
}
VOID SetLine (IN UINT16 Line) {
mBanner->LineNumber = Line;
}
VOID SetAlign (IN UINT8 Align) {
mBanner->Alignment = Align;
}
};
class CIfrTimeout : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GUID_TIMEOUT *mTimeout;
public:
CIfrTimeout (IN UINT16 Timeout = 0) : CIfrObj (EFI_IFR_GUID_OP, (CHAR8 **)&mTimeout, sizeof (EFI_IFR_GUID_TIMEOUT)),
CIfrOpHeader (EFI_IFR_GUID_OP, &mTimeout->Header, sizeof (EFI_IFR_GUID_TIMEOUT)) {
mTimeout->ExtendOpCode = EFI_IFR_EXTEND_OP_TIMEOUT;
mTimeout->Guid = IfrTianoGuid;
mTimeout->TimeOut = Timeout;
}
VOID SetTimeout (IN UINT16 Timeout) {
mTimeout->TimeOut = Timeout;
}
};
class CIfrDup : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_DUP *mDup;
public:
CIfrDup (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_DUP_OP, (CHAR8 **)&mDup),
CIfrOpHeader (EFI_IFR_DUP_OP, &mDup->Header) {
SetLineNo (LineNo);
}
};
class CIfrEqIdId : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_EQ_ID_ID *mEqIdId;
public:
CIfrEqIdId (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_EQ_ID_ID_OP, (CHAR8 **)&mEqIdId),
CIfrOpHeader (EFI_IFR_EQ_ID_ID_OP, &mEqIdId->Header) {
SetLineNo (LineNo);
mEqIdId->QuestionId1 = EFI_QUESTION_ID_INVALID;
mEqIdId->QuestionId2 = EFI_QUESTION_ID_INVALID;
}
VOID SetQuestionId1 (
IN EFI_QUESTION_ID QuestionId,
IN INT8 *VarIdStr,
IN UINT32 LineNo
) {
if (QuestionId != EFI_QUESTION_ID_INVALID) {
mEqIdId->QuestionId1 = QuestionId;
} else {
gCFormPkg.AssignPending (VarIdStr, (VOID *)(&mEqIdId->QuestionId1), sizeof (EFI_QUESTION_ID), LineNo);
}
}
VOID SetQuestionId2 (
IN EFI_QUESTION_ID QuestionId,
IN INT8 *VarIdStr,
IN UINT32 LineNo
) {
if (QuestionId != EFI_QUESTION_ID_INVALID) {
mEqIdId->QuestionId2 = QuestionId;
} else {
gCFormPkg.AssignPending (VarIdStr, (VOID *)(&mEqIdId->QuestionId2), sizeof (EFI_QUESTION_ID), LineNo);
}
}
};
class CIfrEqIdVal : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_EQ_ID_VAL *mEqIdVal;
public:
CIfrEqIdVal (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_EQ_ID_VAL_OP, (CHAR8 **)&mEqIdVal),
CIfrOpHeader (EFI_IFR_EQ_ID_VAL_OP, &mEqIdVal->Header) {
SetLineNo (LineNo);
mEqIdVal->QuestionId = EFI_QUESTION_ID_INVALID;
}
VOID SetQuestionId (
IN EFI_QUESTION_ID QuestionId,
IN INT8 *VarIdStr,
IN UINT32 LineNo
) {
if (QuestionId != EFI_QUESTION_ID_INVALID) {
mEqIdVal->QuestionId = QuestionId;
} else {
gCFormPkg.AssignPending (VarIdStr, (VOID *)(&mEqIdVal->QuestionId), sizeof (EFI_QUESTION_ID), LineNo);
}
}
VOID SetValue (IN UINT16 Value) {
mEqIdVal->Value = Value;
}
};
class CIfrEqIdList : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_EQ_ID_LIST *mEqIdVList;
public:
CIfrEqIdList (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_EQ_ID_LIST_OP, (CHAR8 **)&mEqIdVList, sizeof (EFI_IFR_EQ_ID_LIST), TRUE),
CIfrOpHeader (EFI_IFR_EQ_ID_LIST_OP, &mEqIdVList->Header) {
SetLineNo (LineNo);
mEqIdVList->QuestionId = EFI_QUESTION_ID_INVALID;
mEqIdVList->ListLength = 0;
mEqIdVList->ValueList[0] = 0;
}
VOID SetQuestionId (
IN EFI_QUESTION_ID QuestionId,
IN INT8 *VarIdStr,
IN UINT32 LineNo
) {
if (QuestionId != EFI_QUESTION_ID_INVALID) {
mEqIdVList->QuestionId = QuestionId;
} else {
gCFormPkg.AssignPending (VarIdStr, (VOID *)(&mEqIdVList->QuestionId), sizeof (EFI_QUESTION_ID), LineNo);
}
}
VOID SetListLength (IN UINT16 ListLength) {
mEqIdVList->ListLength = ListLength;
}
VOID SetValueList (IN UINT16 Index, IN UINT16 Value) {
if (Index == 0) {
mEqIdVList->ValueList[0] = Value;
return;
}
if (ExpendObjBin (sizeof (UINT16)) ==TRUE) {
IncLength (sizeof (UINT16));
mEqIdVList->ValueList[Index] = Value;
}
}
};
class CIfrQuestionRef1 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_QUESTION_REF1 *mQuestionRef1;
public:
CIfrQuestionRef1 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_QUESTION_REF1_OP, (CHAR8 **)&mQuestionRef1),
CIfrOpHeader (EFI_IFR_QUESTION_REF1_OP, &mQuestionRef1->Header) {
SetLineNo (LineNo);
mQuestionRef1->QuestionId = EFI_QUESTION_ID_INVALID;
}
VOID SetQuestionId (
IN EFI_QUESTION_ID QuestionId,
IN INT8 *VarIdStr,
IN UINT32 LineNo
) {
if (QuestionId != EFI_QUESTION_ID_INVALID) {
mQuestionRef1->QuestionId = QuestionId;
} else {
gCFormPkg.AssignPending (VarIdStr, (VOID *)(&mQuestionRef1->QuestionId), sizeof (EFI_QUESTION_ID), LineNo);
}
}
};
class CIfrQuestionRef2 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_QUESTION_REF2 *mQuestionRef2;
public:
CIfrQuestionRef2 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_QUESTION_REF2_OP, (CHAR8 **)&mQuestionRef2),
CIfrOpHeader (EFI_IFR_QUESTION_REF2_OP, &mQuestionRef2->Header) {
SetLineNo (LineNo);
}
};
class CIfrQuestionRef3 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_QUESTION_REF3 *mQuestionRef3;
public:
CIfrQuestionRef3 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_QUESTION_REF3_OP, (CHAR8 **)&mQuestionRef3),
CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP, &mQuestionRef3->Header) {
SetLineNo (LineNo);
}
};
class CIfrQuestionRef3_2 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_QUESTION_REF3_2 *mQuestionRef3_2;
public:
CIfrQuestionRef3_2 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_QUESTION_REF3_OP, (CHAR8 **)&mQuestionRef3_2, sizeof (EFI_IFR_QUESTION_REF3_2)),
CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP, &mQuestionRef3_2->Header, sizeof (EFI_IFR_QUESTION_REF3_2)) {
SetLineNo (LineNo);
mQuestionRef3_2->DevicePath = EFI_STRING_ID_INVALID;
}
VOID SetDevicePath (IN EFI_STRING_ID DevicePath) {
mQuestionRef3_2->DevicePath = DevicePath;
}
};
class CIfrQuestionRef3_3 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_QUESTION_REF3_3 *mQuestionRef3_3;
public:
CIfrQuestionRef3_3 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_QUESTION_REF3_OP, (CHAR8 **)&mQuestionRef3_3, sizeof (EFI_IFR_QUESTION_REF3_3)),
CIfrOpHeader (EFI_IFR_QUESTION_REF3_OP, &mQuestionRef3_3->Header, sizeof (EFI_IFR_QUESTION_REF3_3)) {
SetLineNo (LineNo);
mQuestionRef3_3->DevicePath = EFI_STRING_ID_INVALID;
memset (&mQuestionRef3_3->Guid, 0, sizeof (EFI_GUID));
}
VOID SetDevicePath (IN EFI_STRING_ID DevicePath) {
mQuestionRef3_3->DevicePath = DevicePath;
}
VOID SetGuid (IN EFI_GUID *Guid) {
mQuestionRef3_3->Guid = *Guid;
}
};
class CIfrRuleRef : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_RULE_REF *mRuleRef;
public:
CIfrRuleRef (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_RULE_REF_OP, (CHAR8 **)&mRuleRef),
CIfrOpHeader (EFI_IFR_RULE_REF_OP, &mRuleRef->Header) {
SetLineNo (LineNo);
mRuleRef->RuleId = EFI_RULE_ID_INVALID;
}
VOID SetRuleId (IN UINT8 RuleId) {
mRuleRef->RuleId = RuleId;
}
};
class CIfrStringRef1 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_STRING_REF1 *mStringRef1;
public:
CIfrStringRef1 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_STRING_REF1_OP, (CHAR8 **)&mStringRef1),
CIfrOpHeader (EFI_IFR_STRING_REF1_OP, &mStringRef1->Header) {
SetLineNo (LineNo);
mStringRef1->StringId = EFI_STRING_ID_INVALID;
}
VOID SetStringId (IN EFI_STRING_ID StringId) {
mStringRef1->StringId = StringId;
}
};
class CIfrStringRef2 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_STRING_REF2 *mStringRef2;
public:
CIfrStringRef2 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_STRING_REF2_OP, (CHAR8 **)&mStringRef2),
CIfrOpHeader (EFI_IFR_STRING_REF2_OP, &mStringRef2->Header) {
SetLineNo (LineNo);
}
};
class CIfrThis : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_THIS *mThis;
public:
CIfrThis (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_THIS_OP, (CHAR8 **)&mThis),
CIfrOpHeader (EFI_IFR_THIS_OP, &mThis->Header) {
SetLineNo (LineNo);
}
};
class CIfrUint8 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_UINT8 *mUint8;
public:
CIfrUint8 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_UINT8_OP, (CHAR8 **)&mUint8),
CIfrOpHeader (EFI_IFR_UINT8_OP, &mUint8->Header) {
SetLineNo (LineNo);
}
VOID SetValue (IN UINT8 Value) {
mUint8->Value = Value;
}
};
class CIfrUint16 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_UINT16 *mUint16;
public:
CIfrUint16 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_UINT16_OP, (CHAR8 **)&mUint16),
CIfrOpHeader (EFI_IFR_UINT16_OP, &mUint16->Header) {
SetLineNo (LineNo);
}
VOID SetValue (IN UINT16 Value) {
mUint16->Value = Value;
}
};
class CIfrUint32 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_UINT32 *mUint32;
public:
CIfrUint32 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_UINT32_OP, (CHAR8 **)&mUint32),
CIfrOpHeader (EFI_IFR_UINT32_OP, &mUint32->Header) {
SetLineNo (LineNo);
}
VOID SetValue (IN UINT32 Value) {
mUint32->Value = Value;
}
};
class CIfrUint64 : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_UINT64 *mUint64;
public:
CIfrUint64 (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_UINT64_OP, (CHAR8 **)&mUint64),
CIfrOpHeader (EFI_IFR_UINT64_OP, &mUint64->Header) {
SetLineNo (LineNo);
}
VOID SetValue (IN UINT64 Value) {
mUint64->Value = Value;
}
};
class CIfrTrue : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TRUE *mTrue;
public:
CIfrTrue (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TRUE_OP, (CHAR8 **)&mTrue),
CIfrOpHeader (EFI_IFR_TRUE_OP, &mTrue->Header) {
SetLineNo (LineNo);
}
};
class CIfrFalse : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_FALSE *mFalse;
public:
CIfrFalse (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_FALSE_OP, (CHAR8 **)&mFalse),
CIfrOpHeader (EFI_IFR_FALSE_OP, &mFalse->Header) {
SetLineNo (LineNo);
}
};
class CIfrOne : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_ONE *mOne;
public:
CIfrOne (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_ONE_OP, (CHAR8 **)&mOne),
CIfrOpHeader (EFI_IFR_ONE_OP, &mOne->Header) {
SetLineNo (LineNo);
}
};
class CIfrOnes : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_ONES *mOnes;
public:
CIfrOnes (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_ONES_OP, (CHAR8 **)&mOnes),
CIfrOpHeader (EFI_IFR_ONES_OP, &mOnes->Header) {
SetLineNo (LineNo);
}
};
class CIfrZero : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_ZERO *mZero;
public:
CIfrZero (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_ZERO_OP, (CHAR8 **)&mZero),
CIfrOpHeader (EFI_IFR_ZERO_OP, &mZero->Header) {
SetLineNo (LineNo);
}
};
class CIfrUndefined : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_UNDEFINED *mUndefined;
public:
CIfrUndefined (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_UNDEFINED_OP, (CHAR8 **)&mUndefined),
CIfrOpHeader (EFI_IFR_UNDEFINED_OP, &mUndefined->Header) {
SetLineNo (LineNo);
}
};
class CIfrVersion : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_VERSION *mVersion;
public:
CIfrVersion (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_VERSION_OP, (CHAR8 **)&mVersion),
CIfrOpHeader (EFI_IFR_VERSION_OP, &mVersion->Header) {
SetLineNo (LineNo);
}
};
class CIfrLength : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_LENGTH *mLength;
public:
CIfrLength (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_LENGTH_OP, (CHAR8 **)&mLength),
CIfrOpHeader (EFI_IFR_LENGTH_OP, &mLength->Header) {
SetLineNo (LineNo);
}
};
class CIfrNot : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_NOT *mNot;
public:
CIfrNot (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_NOT_OP, (CHAR8 **)&mNot),
CIfrOpHeader (EFI_IFR_NOT_OP, &mNot->Header) {
SetLineNo (LineNo);
}
};
class CIfrBitWiseNot : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_BITWISE_NOT *mBitWise;
public:
CIfrBitWiseNot (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_BITWISE_NOT_OP, (CHAR8 **)&mBitWise),
CIfrOpHeader (EFI_IFR_BITWISE_NOT_OP, &mBitWise->Header) {
SetLineNo (LineNo);
}
};
class CIfrToBoolean : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TO_BOOLEAN *mToBoolean;
public:
CIfrToBoolean (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TO_BOOLEAN_OP, (CHAR8 **)&mToBoolean),
CIfrOpHeader (EFI_IFR_TO_BOOLEAN_OP, &mToBoolean->Header) {
SetLineNo (LineNo);
}
};
class CIfrToString : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TO_STRING *mToString;
public:
CIfrToString (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TO_STRING_OP, (CHAR8 **)&mToString),
CIfrOpHeader (EFI_IFR_TO_STRING_OP, &mToString->Header) {
SetLineNo (LineNo);
}
VOID SetFormat (IN UINT8 Format) {
mToString->Format = Format;
}
};
class CIfrToUint : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TO_UINT *mToUint;
public:
CIfrToUint (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TO_UINT_OP, (CHAR8 **)&mToUint),
CIfrOpHeader (EFI_IFR_TO_UINT_OP, &mToUint->Header) {
SetLineNo (LineNo);
}
};
class CIfrToUpper : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TO_UPPER *mToUpper;
public:
CIfrToUpper (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TO_UPPER_OP, (CHAR8 **)&mToUpper),
CIfrOpHeader (EFI_IFR_TO_UPPER_OP, &mToUpper->Header) {
SetLineNo (LineNo);
}
};
class CIfrToLower : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TO_LOWER *mToLower;
public:
CIfrToLower (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TO_LOWER_OP, (CHAR8 **)&mToLower),
CIfrOpHeader (EFI_IFR_TO_LOWER_OP, &mToLower->Header) {
SetLineNo (LineNo);
}
};
class CIfrAdd : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_ADD *mAdd;
public:
CIfrAdd (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_ADD_OP, (CHAR8 **)&mAdd),
CIfrOpHeader (EFI_IFR_ADD_OP, &mAdd->Header) {
SetLineNo (LineNo);
}
};
class CIfrBitWiseAnd : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_BITWISE_AND *mBitWiseAnd;
public:
CIfrBitWiseAnd (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_BITWISE_AND_OP, (CHAR8 **)&mBitWiseAnd),
CIfrOpHeader (EFI_IFR_BITWISE_AND_OP, &mBitWiseAnd->Header) {
SetLineNo(LineNo);
}
};
class CIfrBitWiseOr : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_BITWISE_OR *mBitWiseOr;
public:
CIfrBitWiseOr (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_BITWISE_OR_OP, (CHAR8 **)&mBitWiseOr),
CIfrOpHeader (EFI_IFR_BITWISE_OR_OP, &mBitWiseOr->Header) {
SetLineNo (LineNo);
}
};
class CIfrAnd : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_AND *mAnd;
public:
CIfrAnd (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_AND_OP, (CHAR8 **)&mAnd),
CIfrOpHeader (EFI_IFR_AND_OP, &mAnd->Header) {
SetLineNo (LineNo);
}
};
class CIfrCatenate : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_CATENATE *mCatenate;
public:
CIfrCatenate (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_CATENATE_OP, (CHAR8 **)&mCatenate),
CIfrOpHeader (EFI_IFR_CATENATE_OP, &mCatenate->Header) {
SetLineNo (LineNo);
}
};
class CIfrDivide : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_DIVIDE *mDivide;
public:
CIfrDivide (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_DIVIDE_OP, (CHAR8 **)&mDivide),
CIfrOpHeader (EFI_IFR_DIVIDE_OP, &mDivide->Header) {
SetLineNo (LineNo);
}
};
class CIfrEqual : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_EQUAL *mEqual;
public:
CIfrEqual (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_EQUAL_OP, (CHAR8 **)&mEqual),
CIfrOpHeader (EFI_IFR_EQUAL_OP, &mEqual->Header) {
SetLineNo (LineNo);
}
};
class CIfrGreaterEqual : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GREATER_EQUAL *mGreaterEqual;
public:
CIfrGreaterEqual (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_GREATER_EQUAL_OP, (CHAR8 **)&mGreaterEqual),
CIfrOpHeader (EFI_IFR_GREATER_EQUAL_OP, &mGreaterEqual->Header) {
SetLineNo (LineNo);
}
};
class CIfrGreaterThan : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_GREATER_THAN *mGreaterThan;
public:
CIfrGreaterThan (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_GREATER_THAN_OP, (CHAR8 **)&mGreaterThan),
CIfrOpHeader (EFI_IFR_GREATER_THAN_OP, &mGreaterThan->Header) {
SetLineNo (LineNo);
}
};
class CIfrLessEqual : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_LESS_EQUAL *mLessEqual;
public:
CIfrLessEqual (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_LESS_EQUAL_OP, (CHAR8 **)&mLessEqual),
CIfrOpHeader (EFI_IFR_LESS_EQUAL_OP, &mLessEqual->Header) {
SetLineNo (LineNo);
}
};
class CIfrLessThan : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_LESS_THAN *mLessThan;
public:
CIfrLessThan (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_LESS_THAN_OP, (CHAR8 **)&mLessThan),
CIfrOpHeader (EFI_IFR_LESS_THAN_OP, &mLessThan->Header) {
SetLineNo (LineNo);
}
};
class CIfrMatch : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_MATCH *mMatch;
public:
CIfrMatch (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_MATCH_OP, (CHAR8 **)&mMatch),
CIfrOpHeader (EFI_IFR_MATCH_OP, &mMatch->Header) {
SetLineNo (LineNo);
}
};
class CIfrMultiply : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_MULTIPLY *mMultiply;
public:
CIfrMultiply (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_MULTIPLY_OP, (CHAR8 **)&mMultiply),
CIfrOpHeader (EFI_IFR_MULTIPLY_OP, &mMultiply->Header) {
SetLineNo (LineNo);
}
};
class CIfrModulo : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_MODULO *mModulo;
public:
CIfrModulo (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_MODULO_OP, (CHAR8 **)&mModulo),
CIfrOpHeader (EFI_IFR_MODULO_OP, &mModulo->Header) {
SetLineNo (LineNo);
}
};
class CIfrNotEqual : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_NOT_EQUAL *mNotEqual;
public:
CIfrNotEqual (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_NOT_EQUAL_OP, (CHAR8 **)&mNotEqual),
CIfrOpHeader (EFI_IFR_NOT_EQUAL_OP, &mNotEqual->Header) {
SetLineNo (LineNo);
}
};
class CIfrOr : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_OR *mOr;
public:
CIfrOr (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_OR_OP, (CHAR8 **)&mOr),
CIfrOpHeader (EFI_IFR_OR_OP, &mOr->Header) {
SetLineNo (LineNo);
}
};
class CIfrShiftLeft : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_SHIFT_LEFT *mShiftLeft;
public:
CIfrShiftLeft (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_SHIFT_LEFT_OP, (CHAR8 **)&mShiftLeft),
CIfrOpHeader (EFI_IFR_SHIFT_LEFT_OP, &mShiftLeft->Header) {
SetLineNo (LineNo);
}
};
class CIfrShiftRight : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_SHIFT_RIGHT *mShiftRight;
public:
CIfrShiftRight (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_SHIFT_RIGHT_OP, (CHAR8 **)&mShiftRight),
CIfrOpHeader (EFI_IFR_SHIFT_RIGHT_OP, &mShiftRight->Header) {
SetLineNo (LineNo);
}
};
class CIfrSubtract : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_SUBTRACT *mSubtract;
public:
CIfrSubtract (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_SUBTRACT_OP, (CHAR8 **)&mSubtract),
CIfrOpHeader (EFI_IFR_SUBTRACT_OP, &mSubtract->Header) {
SetLineNo (LineNo);
}
};
class CIfrConditional : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_CONDITIONAL *mConditional;
public:
CIfrConditional (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_CONDITIONAL_OP, (CHAR8 **)&mConditional),
CIfrOpHeader (EFI_IFR_CONDITIONAL_OP, &mConditional->Header) {
SetLineNo (LineNo);
}
};
class CIfrFind : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_FIND *mFind;
public:
CIfrFind (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_FIND_OP, (CHAR8 **)&mFind),
CIfrOpHeader (EFI_IFR_FIND_OP, &mFind->Header) {
SetLineNo (LineNo);
}
VOID SetFormat (IN UINT8 Format) {
mFind->Format = Format;
}
};
class CIfrMid : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_MID *mMid;
public:
CIfrMid (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_MID_OP, (CHAR8 **)&mMid),
CIfrOpHeader (EFI_IFR_MID_OP, &mMid->Header) {
SetLineNo (LineNo);
}
};
class CIfrToken : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_TOKEN *mToken;
public:
CIfrToken (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_TOKEN_OP, (CHAR8 **)&mToken),
CIfrOpHeader (EFI_IFR_TOKEN_OP, &mToken->Header) {
SetLineNo (LineNo);
}
};
class CIfrSpan : public CIfrObj, public CIfrOpHeader {
private:
EFI_IFR_SPAN *mSpan;
public:
CIfrSpan (
IN UINT32 LineNo
) : CIfrObj (EFI_IFR_SPAN_OP, (CHAR8 **)&mSpan),
CIfrOpHeader (EFI_IFR_SPAN_OP, &mSpan->Header) {
SetLineNo (LineNo);
mSpan->Flags = EFI_IFR_FLAGS_FIRST_MATCHING;
}
EFI_VFR_RETURN_CODE SetFlags (IN UINT8 LFlags) {
if (_IS_EQUAL (LFlags, EFI_IFR_FLAGS_FIRST_MATCHING)) {
mSpan->Flags |= EFI_IFR_FLAGS_FIRST_MATCHING;
} else if (_FLAG_TEST_AND_CLEAR (LFlags, EFI_IFR_FLAGS_FIRST_NON_MATCHING)) {
mSpan->Flags |= EFI_IFR_FLAGS_FIRST_NON_MATCHING;
}
return _FLAGS_ZERO (LFlags) ? VFR_RETURN_SUCCESS : VFR_RETURN_FLAGS_UNSUPPORTED;
}
};
#endif