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fuchsia / third_party / edk2 / f5f4667dae711a7e34c75a4cd8f7a683c732a566 / . / BaseTools / Source / C / VfrCompile / VfrUtilityLib.cpp
blob: 2ebaf58f17c59a66167a526157b6dde163774f75 [file] [log] [blame]
/** @file
Vfr common library functions.
Copyright (c) 2004 - 2018, Intel Corporation. All rights reserved.<BR>
This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
**/
#include "stdio.h"
#include "stdlib.h"
#include "assert.h"
#include "CommonLib.h"
#include "VfrUtilityLib.h"
#include "VfrFormPkg.h"
VOID
CVfrBinaryOutput::WriteLine (
IN FILE *pFile,
IN UINT32 LineBytes,
IN CONST CHAR8 *LineHeader,
IN CHAR8 *BlkBuf,
IN UINT32 BlkSize
)
{
UINT32 Index;
if ((pFile == NULL) || (LineHeader == NULL) || (BlkBuf == NULL)) {
return;
}
for (Index = 0; Index < BlkSize; Index++) {
if ((Index % LineBytes) == 0) {
fprintf (pFile, "\n%s", LineHeader);
}
fprintf (pFile, "0x%02X, ", (UINT8)BlkBuf[Index]);
}
}
VOID
CVfrBinaryOutput::WriteEnd (
IN FILE *pFile,
IN UINT32 LineBytes,
IN CONST CHAR8 *LineHeader,
IN CHAR8 *BlkBuf,
IN UINT32 BlkSize
)
{
UINT32 Index;
if ((BlkSize == 0) || (pFile == NULL) || (LineHeader == NULL) || (BlkBuf == NULL)) {
return;
}
for (Index = 0; Index < BlkSize - 1; Index++) {
if ((Index % LineBytes) == 0) {
fprintf (pFile, "\n%s", LineHeader);
}
fprintf (pFile, "0x%02X, ", (UINT8)BlkBuf[Index]);
}
if ((Index % LineBytes) == 0) {
fprintf (pFile, "\n%s", LineHeader);
}
fprintf (pFile, "0x%02X\n", (UINT8)BlkBuf[Index]);
}
SConfigInfo::SConfigInfo (
IN UINT8 Type,
IN UINT16 Offset,
IN UINT32 Width,
IN EFI_IFR_TYPE_VALUE Value
)
{
mNext = NULL;
mOffset = Offset;
mWidth = (UINT16)Width;
mValue = new UINT8[mWidth];
if (mValue == NULL) {
return;
}
switch (Type) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
memcpy (mValue, &Value.u8, mWidth);
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
memcpy (mValue, &Value.u16, mWidth);
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
memcpy (mValue, &Value.u32, mWidth);
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
memcpy (mValue, &Value.u64, mWidth);
break;
case EFI_IFR_TYPE_BOOLEAN :
memcpy (mValue, &Value.b, mWidth);
break;
case EFI_IFR_TYPE_TIME :
memcpy (mValue, &Value.time, mWidth);
break;
case EFI_IFR_TYPE_DATE :
memcpy (mValue, &Value.date, mWidth);
break;
case EFI_IFR_TYPE_STRING :
memcpy (mValue, &Value.string, mWidth);
break;
case EFI_IFR_TYPE_BUFFER :
memcpy (mValue, &Value.u8, mWidth);
break;
case EFI_IFR_TYPE_OTHER :
return;
}
}
SConfigInfo::~SConfigInfo (
VOID
)
{
ARRAY_SAFE_FREE (mValue);
}
SConfigItem::SConfigItem (
IN CHAR8 *Name,
IN EFI_GUID *Guid,
IN CHAR8 *Id
)
{
mName = NULL;
mGuid = NULL;
mId = NULL;
mInfoStrList = NULL;
mNext = NULL;
if (Name != NULL) {
if ((mName = new CHAR8[strlen (Name) + 1]) != NULL) {
strcpy (mName, Name);
}
}
if (Guid != NULL) {
if ((mGuid = (EFI_GUID *) new CHAR8[sizeof (EFI_GUID)]) != NULL) {
memcpy (mGuid, Guid, sizeof (EFI_GUID));
}
}
if (Id != NULL) {
if ((mId = new CHAR8[strlen (Id) + 1]) != NULL) {
strcpy (mId, Id);
}
}
}
SConfigItem::SConfigItem (
IN CHAR8 *Name,
IN EFI_GUID *Guid,
IN CHAR8 *Id,
IN UINT8 Type,
IN UINT16 Offset,
IN UINT16 Width,
IN EFI_IFR_TYPE_VALUE Value
)
{
mName = NULL;
mGuid = NULL;
mId = NULL;
mInfoStrList = NULL;
mNext = NULL;
if (Name != NULL) {
if ((mName = new CHAR8[strlen (Name) + 1]) != NULL) {
strcpy (mName, Name);
}
}
if (Guid != NULL) {
if ((mGuid = (EFI_GUID *) new CHAR8[sizeof (EFI_GUID)]) != NULL) {
memcpy (mGuid, Guid, sizeof (EFI_GUID));
}
}
if (Id != NULL) {
if ((mId = new CHAR8[strlen (Id) + 1]) != NULL) {
strcpy (mId, Id);
}
}
mInfoStrList = new SConfigInfo(Type, Offset, Width, Value);
}
SConfigItem::~SConfigItem (
VOID
)
{
SConfigInfo *Info;
ARRAY_SAFE_FREE (mName);
ARRAY_SAFE_FREE (mGuid);
ARRAY_SAFE_FREE (mId);
while (mInfoStrList != NULL) {
Info = mInfoStrList;
mInfoStrList = mInfoStrList->mNext;
BUFFER_SAFE_FREE (Info);
}
}
UINT8
CVfrBufferConfig::Register (
IN CHAR8 *Name,
IN EFI_GUID *Guid,
IN CHAR8 *Id
)
{
SConfigItem *pNew;
if (Select (Name, Guid) == 0) {
return 1;
}
if ((pNew = new SConfigItem (Name, Guid, Id)) == NULL) {
return 2;
}
if (mItemListHead == NULL) {
mItemListHead = pNew;
mItemListTail = pNew;
} else {
mItemListTail->mNext = pNew;
mItemListTail = pNew;
}
mItemListPos = pNew;
return 0;
}
VOID
CVfrBufferConfig::Open (
VOID
)
{
mItemListPos = mItemListHead;
}
BOOLEAN
CVfrBufferConfig::Eof(
VOID
)
{
return (mItemListPos == NULL) ? TRUE : FALSE;
}
UINT8
CVfrBufferConfig::Select (
IN CHAR8 *Name,
IN EFI_GUID *Guid,
IN CHAR8 *Id
)
{
SConfigItem *p;
if (Name == NULL || Guid == NULL) {
mItemListPos = mItemListHead;
return 0;
} else {
for (p = mItemListHead; p != NULL; p = p->mNext) {
if ((strcmp (p->mName, Name) != 0) || (memcmp (p->mGuid, Guid, sizeof (EFI_GUID)) != 0)) {
continue;
}
if (Id != NULL) {
if (p->mId == NULL || strcmp (p->mId, Id) != 0) {
continue;
}
} else if (p->mId != NULL) {
continue;
}
mItemListPos = p;
return 0;
}
}
return 1;
}
UINT8
CVfrBufferConfig::Write (
IN CONST CHAR8 Mode,
IN CHAR8 *Name,
IN EFI_GUID *Guid,
IN CHAR8 *Id,
IN UINT8 Type,
IN UINT16 Offset,
IN UINT32 Width,
IN EFI_IFR_TYPE_VALUE Value
)
{
UINT8 Ret;
SConfigItem *pItem;
SConfigInfo *pInfo;
if ((Ret = Select (Name, Guid)) != 0) {
return Ret;
}
switch (Mode) {
case 'a' : // add
if (Select (Name, Guid, Id) != 0) {
if ((pItem = new SConfigItem (Name, Guid, Id, Type, Offset, (UINT16) Width, Value)) == NULL) {
return 2;
}
if (mItemListHead == NULL) {
mItemListHead = pItem;
mItemListTail = pItem;
} else {
mItemListTail->mNext = pItem;
mItemListTail = pItem;
}
mItemListPos = pItem;
} else {
// tranverse the list to find out if there's already the value for the same offset
for (pInfo = mItemListPos->mInfoStrList; pInfo != NULL; pInfo = pInfo->mNext) {
if (pInfo->mOffset == Offset) {
return 0;
}
}
if((pInfo = new SConfigInfo (Type, Offset, Width, Value)) == NULL) {
return 2;
}
pInfo->mNext = mItemListPos->mInfoStrList;
mItemListPos->mInfoStrList = pInfo;
}
break;
case 'd' : // delete
if (mItemListHead == mItemListPos) {
mItemListHead = mItemListPos->mNext;
delete mItemListPos;
break;
}
for (pItem = mItemListHead; pItem->mNext != mItemListPos; pItem = pItem->mNext)
;
pItem->mNext = mItemListPos->mNext;
if (mItemListTail == mItemListPos) {
mItemListTail = pItem;
}
delete mItemListPos;
mItemListPos = pItem->mNext;
break;
case 'i' : // set info
if (mItemListPos->mId != NULL) {
delete[] mItemListPos->mId;
}
mItemListPos->mId = NULL;
if (Id != NULL) {
if ((mItemListPos->mId = new CHAR8[strlen (Id) + 1]) == NULL) {
return 2;
}
strcpy (mItemListPos->mId, Id);
}
break;
default :
return 1;
}
return 0;
}
VOID
CVfrBufferConfig::Close (
VOID
)
{
mItemListPos = NULL;
}
#define BYTES_PRE_LINE 0x10
VOID
CVfrBufferConfig::OutputCFile (
IN FILE *pFile,
IN CHAR8 *BaseName
)
{
CVfrBinaryOutput Output;
SConfigItem *Item;
SConfigInfo *Info;
UINT32 TotalLen;
if (pFile == NULL) {
return;
}
for (Item = mItemListHead; Item != NULL; Item = Item->mNext) {
if (Item->mId != NULL || Item->mInfoStrList == NULL) {
continue;
}
fprintf (pFile, "\nunsigned char %s%sBlockName[] = {", BaseName, Item->mName);
TotalLen = sizeof (UINT32);
for (Info = Item->mInfoStrList; Info != NULL; Info = Info->mNext) {
TotalLen += sizeof (UINT16) * 2;
}
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&TotalLen, sizeof (UINT32));
for (Info = Item->mInfoStrList; Info != NULL; Info = Info->mNext) {
fprintf (pFile, "\n");
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&Info->mOffset, sizeof (UINT16));
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&Info->mWidth, sizeof (UINT16));
}
fprintf (pFile, "\n};\n");
}
for (Item = mItemListHead; Item != NULL; Item = Item->mNext) {
if (Item->mId != NULL && Item->mInfoStrList != NULL) {
fprintf (pFile, "\nunsigned char %s%sDefault%s[] = {", BaseName, Item->mName, Item->mId);
TotalLen = sizeof (UINT32);
for (Info = Item->mInfoStrList; Info != NULL; Info = Info->mNext) {
TotalLen += Info->mWidth + sizeof (UINT16) * 2;
}
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&TotalLen, sizeof (UINT32));
for (Info = Item->mInfoStrList; Info != NULL; Info = Info->mNext) {
fprintf (pFile, "\n");
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&Info->mOffset, sizeof (UINT16));
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)&Info->mWidth, sizeof (UINT16));
if (Info->mNext == NULL) {
Output.WriteEnd (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)Info->mValue, Info->mWidth);
} else {
Output.WriteLine (pFile, BYTES_PRE_LINE, " ", (CHAR8 *)Info->mValue, Info->mWidth);
}
}
fprintf (pFile, "\n};\n");
}
}
}
CVfrBufferConfig::CVfrBufferConfig (
VOID
)
{
mItemListHead = NULL;
mItemListTail = NULL;
mItemListPos = NULL;
}
CVfrBufferConfig::~CVfrBufferConfig (
VOID
)
{
SConfigItem *p;
while (mItemListHead != NULL) {
p = mItemListHead;
mItemListHead = mItemListHead->mNext;
delete p;
}
mItemListHead = NULL;
mItemListTail = NULL;
mItemListPos = NULL;
}
CVfrBufferConfig gCVfrBufferConfig;
static struct {
CONST CHAR8 *mTypeName;
UINT8 mType;
UINT32 mSize;
UINT32 mAlign;
} gInternalTypesTable [] = {
{"UINT64", EFI_IFR_TYPE_NUM_SIZE_64, sizeof (UINT64), sizeof (UINT64)},
{"UINT32", EFI_IFR_TYPE_NUM_SIZE_32, sizeof (UINT32), sizeof (UINT32)},
{"UINT16", EFI_IFR_TYPE_NUM_SIZE_16, sizeof (UINT16), sizeof (UINT16)},
{"UINT8", EFI_IFR_TYPE_NUM_SIZE_8, sizeof (UINT8), sizeof (UINT8)},
{"BOOLEAN", EFI_IFR_TYPE_BOOLEAN, sizeof (BOOLEAN), sizeof (BOOLEAN)},
{"EFI_HII_DATE", EFI_IFR_TYPE_DATE, sizeof (EFI_HII_DATE), sizeof (UINT16)},
{"EFI_STRING_ID", EFI_IFR_TYPE_STRING, sizeof (EFI_STRING_ID),sizeof (EFI_STRING_ID)},
{"EFI_HII_TIME", EFI_IFR_TYPE_TIME, sizeof (EFI_HII_TIME), sizeof (UINT8)},
{"EFI_HII_REF", EFI_IFR_TYPE_REF, sizeof (EFI_HII_REF), sizeof (EFI_GUID)},
{NULL, EFI_IFR_TYPE_OTHER, 0, 0}
};
STATIC
BOOLEAN
_IS_INTERNAL_TYPE (
IN CHAR8 *TypeName
)
{
UINT32 Index;
if (TypeName == NULL) {
return FALSE;
}
for (Index = 0; gInternalTypesTable[Index].mTypeName != NULL; Index++) {
if (strcmp (TypeName, gInternalTypesTable[Index].mTypeName) == 0) {
return TRUE;
}
}
return FALSE;
}
STATIC
CHAR8 *
TrimHex (
IN CHAR8 *Str,
OUT bool *IsHex
)
{
*IsHex = FALSE;
while (*Str && *Str == ' ') {
Str++;
}
while (*Str && *Str == '0') {
Str++;
}
if (*Str && (*Str == 'x' || *Str == 'X')) {
Str++;
*IsHex = TRUE;
}
return Str;
}
UINT32
_STR2U32 (
IN CHAR8 *Str
)
{
bool IsHex;
UINT32 Value;
CHAR8 c;
Str = TrimHex (Str, &IsHex);
for (Value = 0; (c = *Str) != '\0'; Str++) {
//
// BUG: does not handle overflow here
//
(IsHex == TRUE) ? (Value <<= 4) : (Value *= 10);
if ((IsHex == TRUE) && (c >= 'a') && (c <= 'f')) {
Value += (c - 'a' + 10);
}
if ((IsHex == TRUE) && (c >= 'A') && (c <= 'F')) {
Value += (c - 'A' + 10);
}
if (c >= '0' && c <= '9') {
Value += (c - '0');
}
}
return Value;
}
VOID
CVfrVarDataTypeDB::RegisterNewType (
IN SVfrDataType *New
)
{
New->mNext = mDataTypeList;
mDataTypeList = New;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::ExtractStructTypeName (
IN CHAR8 *&VarStr,
OUT CHAR8 *TName
)
{
if (TName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
while((*VarStr != '\0') && (*VarStr != '.')) {
*TName = *VarStr;
VarStr++;
TName++;
}
*TName = '\0';
if (*VarStr == '.') {
VarStr++;
}
return VFR_RETURN_SUCCESS;
}
/**
Check whether the DataType contain bit field.
@param TypeName The name of the type.
**/
BOOLEAN
CVfrVarDataTypeDB::DataTypeHasBitField (
IN CHAR8 *TypeName
)
{
SVfrDataType *pType = NULL;
SVfrDataField *pTmp;
GetDataType (TypeName, &pType);
if (pType == NULL){
return FALSE;
}
for (pTmp = pType->mMembers; pTmp!= NULL; pTmp = pTmp->mNext) {
if (pTmp->mIsBitField) {
return TRUE;
}
}
return FALSE;
}
/**
Check whether the field is bit field or not.
@param VarStr Point to the field name which may contain the structure name.
**/
BOOLEAN
CVfrVarDataTypeDB::IsThisBitField (
IN CHAR8 *VarStr
)
{
CHAR8 FName[MAX_NAME_LEN];
CHAR8 TName[MAX_NAME_LEN];
UINT32 ArrayIdx;
SVfrDataType *pType = NULL;
SVfrDataField *pField = NULL;
CHECK_ERROR_RETURN (ExtractStructTypeName (VarStr, TName), VFR_RETURN_SUCCESS);
CHECK_ERROR_RETURN (GetDataType (TName, &pType), VFR_RETURN_SUCCESS);
while (*VarStr != '\0') {
CHECK_ERROR_RETURN(ExtractFieldNameAndArrary(VarStr, FName, ArrayIdx), VFR_RETURN_SUCCESS);
CHECK_ERROR_RETURN(GetTypeField (FName, pType, pField), VFR_RETURN_SUCCESS);
pType = pField->mFieldType;
}
if (pField != NULL && pField->mIsBitField) {
return TRUE;
} else {
return FALSE;
}
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::ExtractFieldNameAndArrary (
IN CHAR8 *&VarStr,
IN CHAR8 *FName,
OUT UINT32 &ArrayIdx
)
{
UINT32 Idx;
CHAR8 ArrayStr[MAX_NAME_LEN + 1];
ArrayIdx = INVALID_ARRAY_INDEX;
if (FName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
while((*VarStr != '\0') &&
(*VarStr != '.') &&
(*VarStr != '[') &&
(*VarStr != ']')) {
*FName = *VarStr;
VarStr++;
FName++;
}
*FName = '\0';
switch (*VarStr) {
case '.' :
VarStr++;
case '\0':
return VFR_RETURN_SUCCESS;
case '[' :
VarStr++;
for (Idx = 0; (Idx < MAX_NAME_LEN) && (*VarStr != '\0') && (*VarStr != ']'); VarStr++, Idx++) {
ArrayStr[Idx] = *VarStr;
}
ArrayStr[Idx] = '\0';
if ((*VarStr != ']') && (ArrayStr[0] == '\0')) {
return VFR_RETURN_DATA_STRING_ERROR;
}
ArrayIdx = _STR2U32 (ArrayStr);
if (*VarStr == ']') {
VarStr++;
}
if (*VarStr == '.') {
VarStr++;
}
return VFR_RETURN_SUCCESS;
case ']':
return VFR_RETURN_DATA_STRING_ERROR;
}
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetTypeField (
IN CONST CHAR8 *FName,
IN SVfrDataType *Type,
OUT SVfrDataField *&Field
)
{
SVfrDataField *pField = NULL;
if ((FName == NULL) || (Type == NULL)) {
return VFR_RETURN_FATAL_ERROR;
}
for (pField = Type->mMembers; pField != NULL; pField = pField->mNext) {
//
// For type EFI_IFR_TYPE_TIME, because field name is not correctly wrote,
// add code to adjust it.
//
if (Type->mType == EFI_IFR_TYPE_TIME) {
if (strcmp (FName, "Hour") == 0) {
FName = "Hours";
} else if (strcmp (FName, "Minute") == 0) {
FName = "Minuts";
} else if (strcmp (FName, "Second") == 0) {
FName = "Seconds";
}
}
if (strcmp (pField->mFieldName, FName) == 0) {
Field = pField;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetFieldOffset (
IN SVfrDataField *Field,
IN UINT32 ArrayIdx,
OUT UINT32 &Offset,
IN BOOLEAN IsBitField
)
{
if (Field == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
//
// Framework Vfr file Array Index is from 1.
// But Uefi Vfr file Array Index is from 0.
//
if (VfrCompatibleMode && ArrayIdx != INVALID_ARRAY_INDEX) {
if (ArrayIdx == 0) {
return VFR_RETURN_ERROR_ARRARY_NUM;
}
ArrayIdx = ArrayIdx - 1;
}
if ((ArrayIdx != INVALID_ARRAY_INDEX) && ((Field->mArrayNum == 0) || (Field->mArrayNum <= ArrayIdx))) {
return VFR_RETURN_ERROR_ARRARY_NUM;
}
//
// Be compatible with the current usage
// If ArraryIdx is not specified, the first one is used.
//
// if ArrayNum is larger than zero, ArraryIdx must be specified.
//
// if ((ArrayIdx == INVALID_ARRAY_INDEX) && (Field->mArrayNum > 0)) {
// return VFR_RETURN_ERROR_ARRARY_NUM;
// }
//
if (IsBitField) {
Offset = Field->mBitOffset + Field->mFieldType->mTotalSize * ((ArrayIdx == INVALID_ARRAY_INDEX) ? 0 : ArrayIdx) * 8;
} else {
Offset = Field->mOffset + Field->mFieldType->mTotalSize * ((ArrayIdx == INVALID_ARRAY_INDEX) ? 0 : ArrayIdx);
}
return VFR_RETURN_SUCCESS;
}
UINT8
CVfrVarDataTypeDB::GetFieldWidth (
IN SVfrDataField *Field
)
{
if (Field == NULL) {
return 0;
}
return Field->mFieldType->mType;
}
UINT32
CVfrVarDataTypeDB::GetFieldSize (
IN SVfrDataField *Field,
IN UINT32 ArrayIdx,
IN BOOLEAN BitField
)
{
if (Field == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if ((ArrayIdx == INVALID_ARRAY_INDEX) && (Field->mArrayNum != 0)) {
return Field->mFieldType->mTotalSize * Field->mArrayNum;
} else {
if (BitField) {
return Field->mBitWidth;
} else {
return Field->mFieldType->mTotalSize;
}
}
}
VOID
CVfrVarDataTypeDB::InternalTypesListInit (
VOID
)
{
SVfrDataType *New = NULL;
UINT32 Index;
for (Index = 0; gInternalTypesTable[Index].mTypeName != NULL; Index++) {
New = new SVfrDataType;
if (New != NULL) {
assert (strlen (gInternalTypesTable[Index].mTypeName) < MAX_NAME_LEN);
strncpy (New->mTypeName, gInternalTypesTable[Index].mTypeName, MAX_NAME_LEN - 1);
New->mTypeName[MAX_NAME_LEN - 1] = 0;
New->mType = gInternalTypesTable[Index].mType;
New->mAlign = gInternalTypesTable[Index].mAlign;
New->mTotalSize = gInternalTypesTable[Index].mSize;
if (strcmp (gInternalTypesTable[Index].mTypeName, "EFI_HII_DATE") == 0) {
SVfrDataField *pYearField = new SVfrDataField;
SVfrDataField *pMonthField = new SVfrDataField;
SVfrDataField *pDayField = new SVfrDataField;
strcpy (pYearField->mFieldName, "Year");
GetDataType ((CHAR8 *)"UINT16", &pYearField->mFieldType);
pYearField->mOffset = 0;
pYearField->mNext = pMonthField;
pYearField->mArrayNum = 0;
pYearField->mIsBitField = FALSE;
strcpy (pMonthField->mFieldName, "Month");
GetDataType ((CHAR8 *)"UINT8", &pMonthField->mFieldType);
pMonthField->mOffset = 2;
pMonthField->mNext = pDayField;
pMonthField->mArrayNum = 0;
pMonthField->mIsBitField = FALSE;
strcpy (pDayField->mFieldName, "Day");
GetDataType ((CHAR8 *)"UINT8", &pDayField->mFieldType);
pDayField->mOffset = 3;
pDayField->mNext = NULL;
pDayField->mArrayNum = 0;
pDayField->mIsBitField = FALSE;
New->mMembers = pYearField;
} else if (strcmp (gInternalTypesTable[Index].mTypeName, "EFI_HII_TIME") == 0) {
SVfrDataField *pHoursField = new SVfrDataField;
SVfrDataField *pMinutesField = new SVfrDataField;
SVfrDataField *pSecondsField = new SVfrDataField;
strcpy (pHoursField->mFieldName, "Hours");
GetDataType ((CHAR8 *)"UINT8", &pHoursField->mFieldType);
pHoursField->mOffset = 0;
pHoursField->mNext = pMinutesField;
pHoursField->mArrayNum = 0;
pHoursField->mIsBitField = FALSE;
strcpy (pMinutesField->mFieldName, "Minutes");
GetDataType ((CHAR8 *)"UINT8", &pMinutesField->mFieldType);
pMinutesField->mOffset = 1;
pMinutesField->mNext = pSecondsField;
pMinutesField->mArrayNum = 0;
pMinutesField->mIsBitField = FALSE;
strcpy (pSecondsField->mFieldName, "Seconds");
GetDataType ((CHAR8 *)"UINT8", &pSecondsField->mFieldType);
pSecondsField->mOffset = 2;
pSecondsField->mNext = NULL;
pSecondsField->mArrayNum = 0;
pSecondsField->mIsBitField = FALSE;
New->mMembers = pHoursField;
} else if (strcmp (gInternalTypesTable[Index].mTypeName, "EFI_HII_REF") == 0) {
SVfrDataField *pQuestionIdField = new SVfrDataField;
SVfrDataField *pFormIdField = new SVfrDataField;
SVfrDataField *pFormSetGuidField = new SVfrDataField;
SVfrDataField *pDevicePathField = new SVfrDataField;
strcpy (pQuestionIdField->mFieldName, "QuestionId");
GetDataType ((CHAR8 *)"UINT16", &pQuestionIdField->mFieldType);
pQuestionIdField->mOffset = 0;
pQuestionIdField->mNext = pFormIdField;
pQuestionIdField->mArrayNum = 0;
pQuestionIdField->mIsBitField = FALSE;
strcpy (pFormIdField->mFieldName, "FormId");
GetDataType ((CHAR8 *)"UINT16", &pFormIdField->mFieldType);
pFormIdField->mOffset = 2;
pFormIdField->mNext = pFormSetGuidField;
pFormIdField->mArrayNum = 0;
pFormIdField->mIsBitField = FALSE;
strcpy (pFormSetGuidField->mFieldName, "FormSetGuid");
GetDataType ((CHAR8 *)"EFI_GUID", &pFormSetGuidField->mFieldType);
pFormSetGuidField->mOffset = 4;
pFormSetGuidField->mNext = pDevicePathField;
pFormSetGuidField->mArrayNum = 0;
pFormSetGuidField->mIsBitField = FALSE;
strcpy (pDevicePathField->mFieldName, "DevicePath");
GetDataType ((CHAR8 *)"EFI_STRING_ID", &pDevicePathField->mFieldType);
pDevicePathField->mOffset = 20;
pDevicePathField->mNext = NULL;
pDevicePathField->mArrayNum = 0;
pDevicePathField->mIsBitField = FALSE;
New->mMembers = pQuestionIdField;
} else {
New->mMembers = NULL;
}
New->mNext = NULL;
RegisterNewType (New);
New = NULL;
}
}
}
CVfrVarDataTypeDB::CVfrVarDataTypeDB (
VOID
)
{
mDataTypeList = NULL;
mNewDataType = NULL;
mCurrDataField = NULL;
mPackAlign = DEFAULT_PACK_ALIGN;
mPackStack = NULL;
mFirstNewDataTypeName = NULL;
mCurrDataType = NULL;
InternalTypesListInit ();
}
CVfrVarDataTypeDB::~CVfrVarDataTypeDB (
VOID
)
{
SVfrDataType *pType;
SVfrDataField *pField;
SVfrPackStackNode *pPack;
if (mNewDataType != NULL) {
delete mNewDataType;
}
while (mDataTypeList != NULL) {
pType = mDataTypeList;
mDataTypeList = mDataTypeList->mNext;
while(pType->mMembers != NULL) {
pField = pType->mMembers;
pType->mMembers = pType->mMembers->mNext;
delete pField;
}
delete pType;
}
while (mPackStack != NULL) {
pPack = mPackStack;
mPackStack = mPackStack->mNext;
delete pPack;
}
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::Pack (
IN UINT32 LineNum,
IN UINT8 Action,
IN CHAR8 *Identifier,
IN UINT32 Number
)
{
UINT32 PackAlign;
CHAR8 Msg[MAX_STRING_LEN] = {0, };
if (Action & VFR_PACK_SHOW) {
sprintf (Msg, "value of pragma pack(show) == %d", mPackAlign);
gCVfrErrorHandle.PrintMsg (LineNum, NULL, "Warning", Msg);
}
if (Action & VFR_PACK_PUSH) {
SVfrPackStackNode *pNew = NULL;
if ((pNew = new SVfrPackStackNode (Identifier, mPackAlign)) == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
pNew->mNext = mPackStack;
mPackStack = pNew;
}
if (Action & VFR_PACK_POP) {
SVfrPackStackNode *pNode = NULL;
if (mPackStack == NULL) {
gCVfrErrorHandle.PrintMsg (LineNum, NULL, "Error", "#pragma pack(pop...) : more pops than pushes");
}
for (pNode = mPackStack; pNode != NULL; pNode = pNode->mNext) {
if (pNode->Match (Identifier) == TRUE) {
mPackAlign = pNode->mNumber;
mPackStack = pNode->mNext;
}
}
}
if (Action & VFR_PACK_ASSIGN) {
PackAlign = (Number > 1) ? Number + Number % 2 : Number;
if ((PackAlign == 0) || (PackAlign > 16)) {
gCVfrErrorHandle.PrintMsg (LineNum, NULL, "Error", "expected pragma parameter to be '1', '2', '4', '8', or '16'");
} else {
mPackAlign = PackAlign;
}
}
return VFR_RETURN_SUCCESS;
}
VOID
CVfrVarDataTypeDB::DeclareDataTypeBegin (
VOID
)
{
SVfrDataType *pNewType = NULL;
pNewType = new SVfrDataType;
pNewType->mTypeName[0] = '\0';
pNewType->mType = EFI_IFR_TYPE_OTHER;
pNewType->mAlign = DEFAULT_ALIGN;
pNewType->mTotalSize = 0;
pNewType->mMembers = NULL;
pNewType->mNext = NULL;
pNewType->mHasBitField = FALSE;
mNewDataType = pNewType;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::SetNewTypeName (
IN CHAR8 *TypeName
)
{
SVfrDataType *pType;
if (mNewDataType == NULL) {
return VFR_RETURN_ERROR_SKIPED;
}
if (TypeName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if (strlen(TypeName) >= MAX_NAME_LEN) {
return VFR_RETURN_INVALID_PARAMETER;
}
for (pType = mDataTypeList; pType != NULL; pType = pType->mNext) {
if (strcmp(pType->mTypeName, TypeName) == 0) {
return VFR_RETURN_REDEFINED;
}
}
strncpy(mNewDataType->mTypeName, TypeName, MAX_NAME_LEN - 1);
mNewDataType->mTypeName[MAX_NAME_LEN - 1] = 0;
return VFR_RETURN_SUCCESS;
}
/**
Record the bit field info in the data type.
@param FieldName Point to the field name.
@param TypeName Point to the type name.
@param Width The bit width.
@param FieldInUnion The filed is in Union type or Structure type.
**/
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::DataTypeAddBitField (
IN CHAR8 *FieldName,
IN CHAR8 *TypeName,
IN UINT32 Width,
IN BOOLEAN FieldInUnion
)
{
SVfrDataField *pNewField = NULL;
SVfrDataType *pFieldType = NULL;
SVfrDataField *pTmp;
UINT32 Align;
UINT32 MaxDataTypeSize;
BOOLEAN UpdateTotalSize;
CHECK_ERROR_RETURN (GetDataType (TypeName, &pFieldType), VFR_RETURN_SUCCESS);
if (Width > MAX_BIT_WIDTH) {
return VFR_RETURN_BIT_WIDTH_ERROR;
}
if (Width > pFieldType->mTotalSize * 8) {
return VFR_RETURN_BIT_WIDTH_ERROR;
}
if (FieldName != NULL && strlen (FieldName) >= MAX_NAME_LEN) {
return VFR_RETURN_INVALID_PARAMETER;
}
if (Width == 0 && FieldName != NULL) {
return VFR_RETURN_INVALID_PARAMETER;
}
for (pTmp = mNewDataType->mMembers; pTmp != NULL; pTmp = pTmp->mNext) {
if (FieldName != NULL && strcmp (pTmp->mFieldName, FieldName) == 0) {
return VFR_RETURN_REDEFINED;
}
}
Align = MIN (mPackAlign, pFieldType->mAlign);
UpdateTotalSize = FALSE;
if ((pNewField = new SVfrDataField) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
MaxDataTypeSize = mNewDataType->mTotalSize;
if (FieldName != NULL) {
strncpy (pNewField->mFieldName, FieldName, MAX_NAME_LEN - 1);
pNewField->mFieldName[MAX_NAME_LEN - 1] = 0;
}
pNewField->mFieldType = pFieldType;
pNewField->mIsBitField = TRUE;
pNewField->mBitWidth = Width;
pNewField->mArrayNum = 0;
pNewField->mBitOffset = 0;
pNewField->mOffset = 0;
if (mNewDataType->mMembers == NULL) {
mNewDataType->mMembers = pNewField;
pNewField->mNext = NULL;
} else {
for (pTmp = mNewDataType->mMembers; pTmp->mNext != NULL; pTmp = pTmp->mNext)
;
pTmp->mNext = pNewField;
pNewField->mNext = NULL;
}
if (FieldInUnion) {
pNewField->mOffset = 0;
if (MaxDataTypeSize < pNewField->mFieldType->mTotalSize) {
mNewDataType->mTotalSize = pNewField->mFieldType->mTotalSize;
}
} else {
//
// Check whether the bit fileds can be contained within one FieldType.
//
if (pTmp != NULL && pTmp->mIsBitField && strcmp (pTmp->mFieldType->mTypeName, pNewField->mFieldType->mTypeName) == 0 &&
(pTmp->mBitOffset - pTmp->mOffset * 8) + pTmp->mBitWidth + pNewField->mBitWidth <= pNewField->mFieldType->mTotalSize * 8) {
pNewField->mBitOffset = pTmp->mBitOffset + pTmp->mBitWidth;
pNewField->mOffset = pTmp->mOffset;
//
// If BitWidth=0,used to force alignment at the next word boundary.
// So make this bit field occupy the remaing bit width of current field type.
//
if (pNewField->mBitWidth == 0) {
pNewField->mBitWidth = pNewField->mFieldType->mTotalSize * 8 - (pNewField->mBitOffset - pTmp->mOffset * 8);
}
} else {
//
// The bit filed start a new memory
//
pNewField->mBitOffset = mNewDataType->mTotalSize * 8;
UpdateTotalSize = TRUE;
}
}
if (UpdateTotalSize){
if ((mNewDataType->mTotalSize % Align) == 0) {
pNewField->mOffset = mNewDataType->mTotalSize;
} else {
pNewField->mOffset = mNewDataType->mTotalSize + ALIGN_STUFF(mNewDataType->mTotalSize, Align);
}
mNewDataType->mTotalSize = pNewField->mOffset + (pNewField->mFieldType->mTotalSize);
}
mNewDataType->mAlign = MIN (mPackAlign, MAX (pFieldType->mAlign, mNewDataType->mAlign));
mNewDataType->mHasBitField = TRUE;
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::DataTypeAddField (
IN CHAR8 *FieldName,
IN CHAR8 *TypeName,
IN UINT32 ArrayNum,
IN BOOLEAN FieldInUnion
)
{
SVfrDataField *pNewField = NULL;
SVfrDataType *pFieldType = NULL;
SVfrDataField *pTmp;
UINT32 Align;
UINT32 MaxDataTypeSize;
CHECK_ERROR_RETURN (GetDataType (TypeName, &pFieldType), VFR_RETURN_SUCCESS);
MaxDataTypeSize = mNewDataType->mTotalSize;
if (strlen (FieldName) >= MAX_NAME_LEN) {
return VFR_RETURN_INVALID_PARAMETER;
}
for (pTmp = mNewDataType->mMembers; pTmp != NULL; pTmp = pTmp->mNext) {
if (strcmp (pTmp->mFieldName, FieldName) == 0) {
return VFR_RETURN_REDEFINED;
}
}
Align = MIN (mPackAlign, pFieldType->mAlign);
if ((pNewField = new SVfrDataField) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
strncpy (pNewField->mFieldName, FieldName, MAX_NAME_LEN - 1);
pNewField->mFieldName[MAX_NAME_LEN - 1] = 0;
pNewField->mFieldType = pFieldType;
pNewField->mArrayNum = ArrayNum;
pNewField->mIsBitField = FALSE;
if ((mNewDataType->mTotalSize % Align) == 0) {
pNewField->mOffset = mNewDataType->mTotalSize;
} else {
pNewField->mOffset = mNewDataType->mTotalSize + ALIGN_STUFF(mNewDataType->mTotalSize, Align);
}
if (mNewDataType->mMembers == NULL) {
mNewDataType->mMembers = pNewField;
pNewField->mNext = NULL;
} else {
for (pTmp = mNewDataType->mMembers; pTmp->mNext != NULL; pTmp = pTmp->mNext)
;
pTmp->mNext = pNewField;
pNewField->mNext = NULL;
}
mNewDataType->mAlign = MIN (mPackAlign, MAX (pFieldType->mAlign, mNewDataType->mAlign));
if (FieldInUnion) {
if (MaxDataTypeSize < pNewField->mFieldType->mTotalSize) {
mNewDataType->mTotalSize = pNewField->mFieldType->mTotalSize;
}
pNewField->mOffset = 0;
} else {
mNewDataType->mTotalSize = pNewField->mOffset + (pNewField->mFieldType->mTotalSize) * ((ArrayNum == 0) ? 1 : ArrayNum);
}
return VFR_RETURN_SUCCESS;
}
VOID
CVfrVarDataTypeDB::DeclareDataTypeEnd (
VOID
)
{
if (mNewDataType->mTypeName[0] == '\0') {
return;
}
if ((mNewDataType->mTotalSize % mNewDataType->mAlign) !=0) {
mNewDataType->mTotalSize += ALIGN_STUFF (mNewDataType->mTotalSize, mNewDataType->mAlign);
}
RegisterNewType (mNewDataType);
if (mFirstNewDataTypeName == NULL) {
mFirstNewDataTypeName = mNewDataType->mTypeName;
}
mNewDataType = NULL;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetDataType (
IN CHAR8 *TypeName,
OUT SVfrDataType **DataType
)
{
SVfrDataType *pDataType = NULL;
if (TypeName == NULL) {
return VFR_RETURN_ERROR_SKIPED;
}
if (DataType == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
*DataType = NULL;
for (pDataType = mDataTypeList; pDataType != NULL; pDataType = pDataType->mNext) {
if (strcmp (TypeName, pDataType->mTypeName) == 0) {
*DataType = pDataType;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetDataTypeSize (
IN UINT8 DataType,
OUT UINT32 *Size
)
{
SVfrDataType *pDataType = NULL;
if (Size == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
*Size = 0;
DataType = DataType & 0x0F;
//
// For user defined data type, the size can't be got by this function.
//
if (DataType == EFI_IFR_TYPE_OTHER) {
return VFR_RETURN_SUCCESS;
}
for (pDataType = mDataTypeList; pDataType != NULL; pDataType = pDataType->mNext) {
if (DataType == pDataType->mType) {
*Size = pDataType->mTotalSize;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetDataTypeSize (
IN CHAR8 *TypeName,
OUT UINT32 *Size
)
{
SVfrDataType *pDataType = NULL;
if (Size == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
*Size = 0;
for (pDataType = mDataTypeList; pDataType != NULL; pDataType = pDataType->mNext) {
if (strcmp (TypeName, pDataType->mTypeName) == 0) {
*Size = pDataType->mTotalSize;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetDataFieldInfo (
IN CHAR8 *VarStr,
OUT UINT16 &Offset,
OUT UINT8 &Type,
OUT UINT32 &Size,
OUT BOOLEAN &BitField
)
{
CHAR8 TName[MAX_NAME_LEN], FName[MAX_NAME_LEN];
UINT32 ArrayIdx, Tmp;
SVfrDataType *pType = NULL;
SVfrDataField *pField = NULL;
CHAR8 *VarStrName;
Offset = 0;
Type = EFI_IFR_TYPE_OTHER;
Size = 0;
VarStrName = VarStr;
CHECK_ERROR_RETURN (ExtractStructTypeName (VarStr, TName), VFR_RETURN_SUCCESS);
CHECK_ERROR_RETURN (GetDataType (TName, &pType), VFR_RETURN_SUCCESS);
BitField = IsThisBitField (VarStrName);
//
// if it is not struct data type
//
Type = pType->mType;
Size = pType->mTotalSize;
while (*VarStr != '\0') {
CHECK_ERROR_RETURN(ExtractFieldNameAndArrary(VarStr, FName, ArrayIdx), VFR_RETURN_SUCCESS);
CHECK_ERROR_RETURN(GetTypeField (FName, pType, pField), VFR_RETURN_SUCCESS);
pType = pField->mFieldType;
CHECK_ERROR_RETURN(GetFieldOffset (pField, ArrayIdx, Tmp, pField->mIsBitField), VFR_RETURN_SUCCESS);
if (BitField && !pField->mIsBitField) {
Offset = (UINT16) (Offset + Tmp * 8);
} else {
Offset = (UINT16) (Offset + Tmp);
}
Type = GetFieldWidth (pField);
Size = GetFieldSize (pField, ArrayIdx, BitField);
}
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrVarDataTypeDB::GetUserDefinedTypeNameList (
OUT CHAR8 ***NameList,
OUT UINT32 *ListSize
)
{
UINT32 Index;
SVfrDataType *pType;
if ((NameList == NULL) || (ListSize == NULL)) {
return VFR_RETURN_FATAL_ERROR;
}
*NameList = NULL;
*ListSize = 0;
for (pType = mDataTypeList; pType != NULL; pType = pType->mNext) {
if (_IS_INTERNAL_TYPE(pType->mTypeName) == FALSE) {
(*ListSize)++;
}
}
if (*ListSize == 0) {
return VFR_RETURN_SUCCESS;
}
if ((*NameList = new CHAR8*[*ListSize]) == NULL) {
*ListSize = 0;
return VFR_RETURN_OUT_FOR_RESOURCES;
}
for (Index = 0, pType = mDataTypeList; pType != NULL; pType = pType->mNext, Index++) {
if (_IS_INTERNAL_TYPE(pType->mTypeName) == FALSE) {
(*NameList)[Index] = pType->mTypeName;
}
}
return VFR_RETURN_SUCCESS;
}
BOOLEAN
CVfrVarDataTypeDB::IsTypeNameDefined (
IN CHAR8 *TypeName
)
{
SVfrDataType *pType;
if (TypeName == NULL) {
return FALSE;
}
for (pType = mDataTypeList; pType != NULL; pType = pType->mNext) {
if (strcmp (pType->mTypeName, TypeName) == 0) {
return TRUE;
}
}
return FALSE;
}
VOID
CVfrVarDataTypeDB::Dump (
IN FILE *File
)
{
SVfrDataType *pTNode;
SVfrDataField *pFNode;
fprintf (File, "\n\n***************************************************************\n");
fprintf (File, "\t\tmPackAlign = %x\n", mPackAlign);
for (pTNode = mDataTypeList; pTNode != NULL; pTNode = pTNode->mNext) {
fprintf (File, "\t\tstruct %s : mAlign [%d] mTotalSize [0x%x]\n\n", pTNode->mTypeName, pTNode->mAlign, pTNode->mTotalSize);
fprintf (File, "\t\tstruct %s {\n", pTNode->mTypeName);
for (pFNode = pTNode->mMembers; pFNode != NULL; pFNode = pFNode->mNext) {
if (pFNode->mArrayNum > 0) {
fprintf (File, "\t\t\t+%08d[%08x] %s[%d] <%s>\n", pFNode->mOffset, pFNode->mOffset,
pFNode->mFieldName, pFNode->mArrayNum, pFNode->mFieldType->mTypeName);
} else {
fprintf (File, "\t\t\t+%08d[%08x] %s <%s>\n", pFNode->mOffset, pFNode->mOffset,
pFNode->mFieldName, pFNode->mFieldType->mTypeName);
}
}
fprintf (File, "\t\t};\n");
fprintf (File, "---------------------------------------------------------------\n");
}
fprintf (File, "***************************************************************\n");
}
#ifdef CVFR_VARDATATYPEDB_DEBUG
VOID
CVfrVarDataTypeDB::ParserDB (
VOID
)
{
SVfrDataType *pTNode;
SVfrDataField *pFNode;
printf ("***************************************************************\n");
printf ("\t\tmPackAlign = %x\n", mPackAlign);
for (pTNode = mDataTypeList; pTNode != NULL; pTNode = pTNode->mNext) {
printf ("\t\tstruct %s : mAlign [%x] mTotalSize [%x]\n\n", pTNode->mTypeName, pTNode->mAlign, pTNode->mTotalSize);
printf ("\t\tstruct %s {\n", pTNode->mTypeName);
for (pFNode = pTNode->mMembers; pFNode != NULL; pFNode = pFNode->mNext) {
printf ("\t\t\t%s\t%s\n", pFNode->mFieldType->mTypeName, pFNode->mFieldName);
}
printf ("\t\t};\n");
printf ("---------------------------------------------------------------\n");
}
printf ("***************************************************************\n");
}
#endif
SVfrVarStorageNode::SVfrVarStorageNode (
IN EFI_GUID *Guid,
IN CHAR8 *StoreName,
IN EFI_VARSTORE_ID VarStoreId,
IN EFI_STRING_ID VarName,
IN UINT32 VarSize,
IN BOOLEAN Flag
)
{
if (Guid != NULL) {
mGuid = *Guid;
} else {
memset (&mGuid, 0, sizeof (EFI_GUID));
}
if (StoreName != NULL) {
mVarStoreName = new CHAR8[strlen(StoreName) + 1];
strcpy (mVarStoreName, StoreName);
} else {
mVarStoreName = NULL;
}
mNext = NULL;
mVarStoreId = VarStoreId;
mVarStoreType = EFI_VFR_VARSTORE_EFI;
mStorageInfo.mEfiVar.mEfiVarName = VarName;
mStorageInfo.mEfiVar.mEfiVarSize = VarSize;
mAssignedFlag = Flag;
}
SVfrVarStorageNode::SVfrVarStorageNode (
IN EFI_GUID *Guid,
IN CHAR8 *StoreName,
IN EFI_VARSTORE_ID VarStoreId,
IN SVfrDataType *DataType,
IN BOOLEAN BitsVarstore,
IN BOOLEAN Flag
)
{
if (Guid != NULL) {
mGuid = *Guid;
} else {
memset (&mGuid, 0, sizeof (EFI_GUID));
}
if (StoreName != NULL) {
mVarStoreName = new CHAR8[strlen(StoreName) + 1];
strcpy (mVarStoreName, StoreName);
} else {
mVarStoreName = NULL;
}
mNext = NULL;
mVarStoreId = VarStoreId;
if (BitsVarstore) {
mVarStoreType = EFI_VFR_VARSTORE_BUFFER_BITS;
} else {
mVarStoreType = EFI_VFR_VARSTORE_BUFFER;
}
mStorageInfo.mDataType = DataType;
mAssignedFlag = Flag;
}
SVfrVarStorageNode::SVfrVarStorageNode (
IN CHAR8 *StoreName,
IN EFI_VARSTORE_ID VarStoreId
)
{
memset (&mGuid, 0, sizeof (EFI_GUID));
if (StoreName != NULL) {
mVarStoreName = new CHAR8[strlen(StoreName) + 1];
strcpy (mVarStoreName, StoreName);
} else {
mVarStoreName = NULL;
}
mNext = NULL;
mVarStoreId = VarStoreId;
mVarStoreType = EFI_VFR_VARSTORE_NAME;
mStorageInfo.mNameSpace.mNameTable = new EFI_VARSTORE_ID[DEFAULT_NAME_TABLE_ITEMS];
mStorageInfo.mNameSpace.mTableSize = 0;
mAssignedFlag = FALSE;
}
SVfrVarStorageNode::~SVfrVarStorageNode (
VOID
)
{
if (mVarStoreName != NULL) {
delete[] mVarStoreName;
}
if (mVarStoreType == EFI_VFR_VARSTORE_NAME) {
delete[] mStorageInfo.mNameSpace.mNameTable;
}
}
CVfrDataStorage::CVfrDataStorage (
VOID
)
{
UINT32 Index;
for (Index = 0; Index < EFI_FREE_VARSTORE_ID_BITMAP_SIZE; Index++) {
mFreeVarStoreIdBitMap[Index] = 0;
}
// Question ID 0 is reserved.
mFreeVarStoreIdBitMap[0] = 0x80000000;
mBufferVarStoreList = NULL;
mEfiVarStoreList = NULL;
mNameVarStoreList = NULL;
mCurrVarStorageNode = NULL;
mNewVarStorageNode = NULL;
mBufferFieldInfoListHead = NULL;
mBufferFieldInfoListTail = NULL;
}
CVfrDataStorage::~CVfrDataStorage (
VOID
)
{
SVfrVarStorageNode *pNode;
while (mBufferVarStoreList != NULL) {
pNode = mBufferVarStoreList;
mBufferVarStoreList = mBufferVarStoreList->mNext;
delete pNode;
}
while (mEfiVarStoreList != NULL) {
pNode = mEfiVarStoreList;
mEfiVarStoreList = mEfiVarStoreList->mNext;
delete pNode;
}
while (mNameVarStoreList != NULL) {
pNode = mNameVarStoreList;
mNameVarStoreList = mNameVarStoreList->mNext;
delete pNode;
}
if (mNewVarStorageNode != NULL) {
delete mNewVarStorageNode;
}
}
EFI_VARSTORE_ID
CVfrDataStorage::GetFreeVarStoreId (
EFI_VFR_VARSTORE_TYPE VarType
)
{
UINT32 Index, Mask, Offset;
//
// Assign the different ID range for the different type VarStore to support Framework Vfr
//
Index = 0;
if ((!VfrCompatibleMode) || (VarType == EFI_VFR_VARSTORE_BUFFER)) {
Index = 0;
} else if (VarType == EFI_VFR_VARSTORE_EFI) {
Index = 1;
} else if (VarType == EFI_VFR_VARSTORE_NAME) {
Index = 2;
}
for (; Index < EFI_FREE_VARSTORE_ID_BITMAP_SIZE; Index++) {
if (mFreeVarStoreIdBitMap[Index] != 0xFFFFFFFF) {
break;
}
}
if (Index == EFI_FREE_VARSTORE_ID_BITMAP_SIZE) {
return EFI_VARSTORE_ID_INVALID;
}
for (Offset = 0, Mask = 0x80000000; Mask != 0; Mask >>= 1, Offset++) {
if ((mFreeVarStoreIdBitMap[Index] & Mask) == 0) {
mFreeVarStoreIdBitMap[Index] |= Mask;
return (EFI_VARSTORE_ID)((Index << EFI_BITS_SHIFT_PER_UINT32) + Offset);
}
}
return EFI_VARSTORE_ID_INVALID;
}
BOOLEAN
CVfrDataStorage::ChekVarStoreIdFree (
IN EFI_VARSTORE_ID VarStoreId
)
{
UINT32 Index = (VarStoreId / EFI_BITS_PER_UINT32);
UINT32 Offset = (VarStoreId % EFI_BITS_PER_UINT32);
return (mFreeVarStoreIdBitMap[Index] & (0x80000000 >> Offset)) == 0;
}
VOID
CVfrDataStorage::MarkVarStoreIdUsed (
IN EFI_VARSTORE_ID VarStoreId
)
{
UINT32 Index = (VarStoreId / EFI_BITS_PER_UINT32);
UINT32 Offset = (VarStoreId % EFI_BITS_PER_UINT32);
mFreeVarStoreIdBitMap[Index] |= (0x80000000 >> Offset);
}
VOID
CVfrDataStorage::MarkVarStoreIdUnused (
IN EFI_VARSTORE_ID VarStoreId
)
{
UINT32 Index = (VarStoreId / EFI_BITS_PER_UINT32);
UINT32 Offset = (VarStoreId % EFI_BITS_PER_UINT32);
mFreeVarStoreIdBitMap[Index] &= ~(0x80000000 >> Offset);
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::DeclareNameVarStoreBegin (
IN CHAR8 *StoreName,
IN EFI_VARSTORE_ID VarStoreId
)
{
SVfrVarStorageNode *pNode = NULL;
EFI_VARSTORE_ID TmpVarStoreId;
if (StoreName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if (GetVarStoreId (StoreName, &TmpVarStoreId) == VFR_RETURN_SUCCESS) {
return VFR_RETURN_REDEFINED;
}
if (VarStoreId == EFI_VARSTORE_ID_INVALID) {
VarStoreId = GetFreeVarStoreId (EFI_VFR_VARSTORE_NAME);
} else {
if (ChekVarStoreIdFree (VarStoreId) == FALSE) {
return VFR_RETURN_VARSTOREID_REDEFINED;
}
MarkVarStoreIdUsed (VarStoreId);
}
if ((pNode = new SVfrVarStorageNode (StoreName, VarStoreId)) == NULL) {
return VFR_RETURN_UNDEFINED;
}
mNewVarStorageNode = pNode;
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::NameTableAddItem (
IN EFI_STRING_ID Item
)
{
EFI_VARSTORE_ID *NewTable, *OldTable;
UINT32 TableSize;
OldTable = mNewVarStorageNode->mStorageInfo.mNameSpace.mNameTable;
TableSize = mNewVarStorageNode->mStorageInfo.mNameSpace.mTableSize;
if ((TableSize != 0) && ((TableSize % DEFAULT_NAME_TABLE_ITEMS) == 0)) {
if ((NewTable = new EFI_VARSTORE_ID[TableSize + DEFAULT_NAME_TABLE_ITEMS]) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
memcpy (NewTable, OldTable, TableSize);
mNewVarStorageNode->mStorageInfo.mNameSpace.mNameTable = NewTable;
}
mNewVarStorageNode->mStorageInfo.mNameSpace.mNameTable[TableSize++] = Item;
mNewVarStorageNode->mStorageInfo.mNameSpace.mTableSize = TableSize;
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::DeclareNameVarStoreEnd (
IN EFI_GUID *Guid
)
{
mNewVarStorageNode->mGuid = *Guid;
mNewVarStorageNode->mNext = mNameVarStoreList;
mNameVarStoreList = mNewVarStorageNode;
mNewVarStorageNode = NULL;
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::DeclareEfiVarStore (
IN CHAR8 *StoreName,
IN EFI_GUID *Guid,
IN EFI_STRING_ID NameStrId,
IN UINT32 VarSize,
IN BOOLEAN Flag
)
{
SVfrVarStorageNode *pNode;
EFI_VARSTORE_ID VarStoreId;
if ((StoreName == NULL) || (Guid == NULL)) {
return VFR_RETURN_FATAL_ERROR;
}
if (VarSize > sizeof (UINT64)) {
return VFR_RETURN_EFIVARSTORE_SIZE_ERROR;
}
if (GetVarStoreId (StoreName, &VarStoreId, Guid) == VFR_RETURN_SUCCESS) {
return VFR_RETURN_REDEFINED;
}
VarStoreId = GetFreeVarStoreId (EFI_VFR_VARSTORE_EFI);
if ((pNode = new SVfrVarStorageNode (Guid, StoreName, VarStoreId, NameStrId, VarSize, Flag)) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
pNode->mNext = mEfiVarStoreList;
mEfiVarStoreList = pNode;
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::DeclareBufferVarStore (
IN CHAR8 *StoreName,
IN EFI_GUID *Guid,
IN CVfrVarDataTypeDB *DataTypeDB,
IN CHAR8 *TypeName,
IN EFI_VARSTORE_ID VarStoreId,
IN BOOLEAN IsBitVarStore,
IN BOOLEAN Flag
)
{
SVfrVarStorageNode *pNew = NULL;
SVfrDataType *pDataType = NULL;
EFI_VARSTORE_ID TempVarStoreId;
if ((StoreName == NULL) || (Guid == NULL) || (DataTypeDB == NULL)) {
return VFR_RETURN_FATAL_ERROR;
}
if (GetVarStoreId (StoreName, &TempVarStoreId, Guid) == VFR_RETURN_SUCCESS) {
return VFR_RETURN_REDEFINED;
}
CHECK_ERROR_RETURN(DataTypeDB->GetDataType (TypeName, &pDataType), VFR_RETURN_SUCCESS);
if (VarStoreId == EFI_VARSTORE_ID_INVALID) {
VarStoreId = GetFreeVarStoreId (EFI_VFR_VARSTORE_BUFFER);
} else {
if (ChekVarStoreIdFree (VarStoreId) == FALSE) {
return VFR_RETURN_VARSTOREID_REDEFINED;
}
MarkVarStoreIdUsed (VarStoreId);
}
if ((pNew = new SVfrVarStorageNode (Guid, StoreName, VarStoreId, pDataType, IsBitVarStore, Flag)) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
pNew->mNext = mBufferVarStoreList;
mBufferVarStoreList = pNew;
if (gCVfrBufferConfig.Register(StoreName, Guid) != 0) {
return VFR_RETURN_FATAL_ERROR;
}
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetVarStoreByDataType (
IN CHAR8 *DataTypeName,
OUT SVfrVarStorageNode **VarNode,
IN EFI_GUID *VarGuid
)
{
SVfrVarStorageNode *pNode;
SVfrVarStorageNode *MatchNode;
//
// Framework VFR uses Data type name as varstore name, so don't need check again.
//
if (VfrCompatibleMode) {
return VFR_RETURN_UNDEFINED;
}
MatchNode = NULL;
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mStorageInfo.mDataType->mTypeName, DataTypeName) != 0) {
continue;
}
if ((VarGuid != NULL)) {
if (memcmp (VarGuid, &pNode->mGuid, sizeof (EFI_GUID)) == 0) {
*VarNode = pNode;
return VFR_RETURN_SUCCESS;
}
} else {
if (MatchNode == NULL) {
MatchNode = pNode;
} else {
//
// More than one varstores referred the same data structures.
//
return VFR_RETURN_VARSTORE_DATATYPE_REDEFINED_ERROR;
}
}
}
if (MatchNode == NULL) {
return VFR_RETURN_UNDEFINED;
}
*VarNode = MatchNode;
return VFR_RETURN_SUCCESS;
}
EFI_VARSTORE_ID
CVfrDataStorage::CheckGuidField (
IN SVfrVarStorageNode *pNode,
IN EFI_GUID *StoreGuid,
IN BOOLEAN *HasFoundOne,
OUT EFI_VFR_RETURN_CODE *ReturnCode
)
{
if (StoreGuid != NULL) {
//
// If has guid info, compare the guid filed.
//
if (memcmp (StoreGuid, &pNode->mGuid, sizeof (EFI_GUID)) == 0) {
//
// Both name and guid are same, this this varstore.
//
mCurrVarStorageNode = pNode;
*ReturnCode = VFR_RETURN_SUCCESS;
return TRUE;
}
} else {
//
// Not has Guid field, check whether this name is the only one.
//
if (*HasFoundOne) {
//
// The name has conflict, return name redefined.
//
*ReturnCode = VFR_RETURN_VARSTORE_NAME_REDEFINED_ERROR;
return TRUE;
}
*HasFoundOne = TRUE;
mCurrVarStorageNode = pNode;
}
return FALSE;
}
/**
Base on the input store name and guid to find the varstore id.
If both name and guid are inputed, base on the name and guid to
found the varstore. If only name inputed, base on the name to
found the varstore and go on to check whether more than one varstore
has the same name. If only has found one varstore, return this
varstore; if more than one varstore has same name, return varstore
name redefined error. If no varstore found by varstore name, call
function GetVarStoreByDataType and use inputed varstore name as
data type name to search.
**/
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetVarStoreId (
IN CHAR8 *StoreName,
OUT EFI_VARSTORE_ID *VarStoreId,
IN EFI_GUID *StoreGuid
)
{
EFI_VFR_RETURN_CODE ReturnCode;
SVfrVarStorageNode *pNode;
BOOLEAN HasFoundOne = FALSE;
mCurrVarStorageNode = NULL;
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mVarStoreName, StoreName) == 0) {
if (CheckGuidField(pNode, StoreGuid, &HasFoundOne, &ReturnCode)) {
*VarStoreId = mCurrVarStorageNode->mVarStoreId;
return ReturnCode;
}
}
}
for (pNode = mEfiVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mVarStoreName, StoreName) == 0) {
if (CheckGuidField(pNode, StoreGuid, &HasFoundOne, &ReturnCode)) {
*VarStoreId = mCurrVarStorageNode->mVarStoreId;
return ReturnCode;
}
}
}
for (pNode = mNameVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mVarStoreName, StoreName) == 0) {
if (CheckGuidField(pNode, StoreGuid, &HasFoundOne, &ReturnCode)) {
*VarStoreId = mCurrVarStorageNode->mVarStoreId;
return ReturnCode;
}
}
}
if (HasFoundOne) {
*VarStoreId = mCurrVarStorageNode->mVarStoreId;
return VFR_RETURN_SUCCESS;
}
*VarStoreId = EFI_VARSTORE_ID_INVALID;
//
// Assume that Data strucutre name is used as StoreName, and check again.
//
ReturnCode = GetVarStoreByDataType (StoreName, &pNode, StoreGuid);
if (pNode != NULL) {
mCurrVarStorageNode = pNode;
*VarStoreId = pNode->mVarStoreId;
}
return ReturnCode;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetBufferVarStoreDataTypeName (
IN EFI_VARSTORE_ID VarStoreId,
OUT CHAR8 **DataTypeName
)
{
SVfrVarStorageNode *pNode;
if (VarStoreId == EFI_VARSTORE_ID_INVALID) {
return VFR_RETURN_FATAL_ERROR;
}
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
*DataTypeName = pNode->mStorageInfo.mDataType->mTypeName;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_VARSTORE_TYPE
CVfrDataStorage::GetVarStoreType (
IN EFI_VARSTORE_ID VarStoreId
)
{
SVfrVarStorageNode *pNode;
EFI_VFR_VARSTORE_TYPE VarStoreType;
VarStoreType = EFI_VFR_VARSTORE_INVALID;
if (VarStoreId == EFI_VARSTORE_ID_INVALID) {
return VarStoreType;
}
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarStoreType = pNode->mVarStoreType;
return VarStoreType;
}
}
for (pNode = mEfiVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarStoreType = pNode->mVarStoreType;
return VarStoreType;
}
}
for (pNode = mNameVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarStoreType = pNode->mVarStoreType;
return VarStoreType;
}
}
return VarStoreType;
}
EFI_GUID *
CVfrDataStorage::GetVarStoreGuid (
IN EFI_VARSTORE_ID VarStoreId
)
{
SVfrVarStorageNode *pNode;
EFI_GUID *VarGuid;
VarGuid = NULL;
if (VarStoreId == EFI_VARSTORE_ID_INVALID) {
return VarGuid;
}
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarGuid = &pNode->mGuid;
return VarGuid;
}
}
for (pNode = mEfiVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarGuid = &pNode->mGuid;
return VarGuid;
}
}
for (pNode = mNameVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
VarGuid = &pNode->mGuid;
return VarGuid;
}
}
return VarGuid;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetVarStoreName (
IN EFI_VARSTORE_ID VarStoreId,
OUT CHAR8 **VarStoreName
)
{
SVfrVarStorageNode *pNode;
if (VarStoreName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
for (pNode = mBufferVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
*VarStoreName = pNode->mVarStoreName;
return VFR_RETURN_SUCCESS;
}
}
for (pNode = mEfiVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
*VarStoreName = pNode->mVarStoreName;
return VFR_RETURN_SUCCESS;
}
}
for (pNode = mNameVarStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mVarStoreId == VarStoreId) {
*VarStoreName = pNode->mVarStoreName;
return VFR_RETURN_SUCCESS;
}
}
*VarStoreName = NULL;
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetEfiVarStoreInfo (
IN OUT EFI_VARSTORE_INFO *Info
)
{
if (Info == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if (mCurrVarStorageNode == NULL) {
return VFR_RETURN_GET_EFIVARSTORE_ERROR;
}
Info->mInfo.mVarName = mCurrVarStorageNode->mStorageInfo.mEfiVar.mEfiVarName;
Info->mVarTotalSize = mCurrVarStorageNode->mStorageInfo.mEfiVar.mEfiVarSize;
switch (Info->mVarTotalSize) {
case 1:
Info->mVarType = EFI_IFR_TYPE_NUM_SIZE_8;
break;
case 2:
Info->mVarType = EFI_IFR_TYPE_NUM_SIZE_16;
break;
case 4:
Info->mVarType = EFI_IFR_TYPE_NUM_SIZE_32;
break;
case 8:
Info->mVarType = EFI_IFR_TYPE_NUM_SIZE_64;
break;
default :
return VFR_RETURN_FATAL_ERROR;
}
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::AddBufferVarStoreFieldInfo (
IN EFI_VARSTORE_INFO *Info
)
{
BufferVarStoreFieldInfoNode *pNew;
if ((pNew = new BufferVarStoreFieldInfoNode(Info)) == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if (mBufferFieldInfoListHead == NULL) {
mBufferFieldInfoListHead = pNew;
mBufferFieldInfoListTail= pNew;
} else {
mBufferFieldInfoListTail->mNext = pNew;
mBufferFieldInfoListTail = pNew;
}
return VFR_RETURN_SUCCESS;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetBufferVarStoreFieldInfo (
IN OUT EFI_VARSTORE_INFO *Info
)
{
BufferVarStoreFieldInfoNode *pNode;
pNode = mBufferFieldInfoListHead;
while (pNode != NULL) {
if (Info->mVarStoreId == pNode->mVarStoreInfo.mVarStoreId &&
Info->mInfo.mVarOffset == pNode->mVarStoreInfo.mInfo.mVarOffset) {
Info->mVarTotalSize = pNode->mVarStoreInfo.mVarTotalSize;
Info->mVarType = pNode->mVarStoreInfo.mVarType;
return VFR_RETURN_SUCCESS;
}
pNode = pNode->mNext;
}
return VFR_RETURN_FATAL_ERROR;
}
EFI_VFR_RETURN_CODE
CVfrDataStorage::GetNameVarStoreInfo (
OUT EFI_VARSTORE_INFO *Info,
IN UINT32 Index
)
{
if (Info == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
if (mCurrVarStorageNode == NULL) {
return VFR_RETURN_GET_NVVARSTORE_ERROR;
}
//
// Framework Vfr file Index is from 1, but Uefi Vfr file Index is from 0.
//
if (VfrCompatibleMode) {
if (Index == 0) {
return VFR_RETURN_ERROR_ARRARY_NUM;
}
Index --;
}
Info->mInfo.mVarName = mCurrVarStorageNode->mStorageInfo.mNameSpace.mNameTable[Index];
return VFR_RETURN_SUCCESS;
}
SVfrDefaultStoreNode::SVfrDefaultStoreNode (
IN EFI_IFR_DEFAULTSTORE *ObjBinAddr,
IN CHAR8 *RefName,
IN EFI_STRING_ID DefaultStoreNameId,
IN UINT16 DefaultId
)
{
mObjBinAddr = ObjBinAddr;
if (RefName != NULL) {
mRefName = new CHAR8[strlen (RefName) + 1];
strcpy (mRefName, RefName);
} else {
mRefName = NULL;
}
mNext = NULL;
mDefaultId = DefaultId;
mDefaultStoreNameId = DefaultStoreNameId;
}
SVfrDefaultStoreNode::~SVfrDefaultStoreNode (
VOID
)
{
if (mRefName != NULL) {
delete[] mRefName;
}
}
CVfrDefaultStore::CVfrDefaultStore (
VOID
)
{
mDefaultStoreList = NULL;
}
CVfrDefaultStore::~CVfrDefaultStore (
VOID
)
{
SVfrDefaultStoreNode *pTmp = NULL;
while (mDefaultStoreList != NULL) {
pTmp = mDefaultStoreList;
mDefaultStoreList = mDefaultStoreList->mNext;
delete pTmp;
}
}
EFI_VFR_RETURN_CODE
CVfrDefaultStore::RegisterDefaultStore (
IN CHAR8 *ObjBinAddr,
IN CHAR8 *RefName,
IN EFI_STRING_ID DefaultStoreNameId,
IN UINT16 DefaultId
)
{
SVfrDefaultStoreNode *pNode = NULL;
if (RefName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
for (pNode = mDefaultStoreList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mRefName, RefName) == 0) {
return VFR_RETURN_REDEFINED;
}
}
if ((pNode = new SVfrDefaultStoreNode ((EFI_IFR_DEFAULTSTORE *)ObjBinAddr, RefName, DefaultStoreNameId, DefaultId)) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
pNode->mNext = mDefaultStoreList;
mDefaultStoreList = pNode;
return VFR_RETURN_SUCCESS;
}
/*
* assign new reference name or new default store name id only if
* the original is invalid
*/
EFI_VFR_RETURN_CODE
CVfrDefaultStore::ReRegisterDefaultStoreById (
IN UINT16 DefaultId,
IN CHAR8 *RefName,
IN EFI_STRING_ID DefaultStoreNameId
)
{
SVfrDefaultStoreNode *pNode = NULL;
for (pNode = mDefaultStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mDefaultId == DefaultId) {
break;
}
}
if (pNode == NULL) {
return VFR_RETURN_UNDEFINED;
} else {
if (pNode->mDefaultStoreNameId == EFI_STRING_ID_INVALID) {
pNode->mDefaultStoreNameId = DefaultStoreNameId;
if (pNode->mObjBinAddr != NULL) {
pNode->mObjBinAddr->DefaultName = DefaultStoreNameId;
}
} else {
return VFR_RETURN_REDEFINED;
}
if (RefName != NULL) {
delete pNode->mRefName;
pNode->mRefName = new CHAR8[strlen (RefName) + 1];
if (pNode->mRefName != NULL) {
strcpy (pNode->mRefName, RefName);
}
}
}
return VFR_RETURN_SUCCESS;
}
BOOLEAN
CVfrDefaultStore::DefaultIdRegistered (
IN UINT16 DefaultId
)
{
SVfrDefaultStoreNode *pNode = NULL;
for (pNode = mDefaultStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mDefaultId == DefaultId) {
return TRUE;
}
}
return FALSE;
}
EFI_VFR_RETURN_CODE
CVfrDefaultStore::GetDefaultId (
IN CHAR8 *RefName,
OUT UINT16 *DefaultId
)
{
SVfrDefaultStoreNode *pTmp = NULL;
if (DefaultId == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
for (pTmp = mDefaultStoreList; pTmp != NULL; pTmp = pTmp->mNext) {
if (strcmp (pTmp->mRefName, RefName) == 0) {
*DefaultId = pTmp->mDefaultId;
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrDefaultStore::BufferVarStoreAltConfigAdd (
IN EFI_VARSTORE_ID DefaultId,
IN EFI_VARSTORE_INFO &Info,
IN CHAR8 *VarStoreName,
IN EFI_GUID *VarStoreGuid,
IN UINT8 Type,
IN EFI_IFR_TYPE_VALUE Value
)
{
SVfrDefaultStoreNode *pNode = NULL;
CHAR8 NewAltCfg[2 * 2 * sizeof (UINT16) + 1] = {0,};
INTN Returnvalue = 0;
if (VarStoreName == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
for (pNode = mDefaultStoreList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mDefaultId == DefaultId) {
break;
}
}
if (pNode == NULL) {
return VFR_RETURN_UNDEFINED;
}
gCVfrBufferConfig.Open ();
sprintf (NewAltCfg, "%04x", pNode->mDefaultId);
if ((Returnvalue = gCVfrBufferConfig.Select(VarStoreName, VarStoreGuid)) == 0) {
if ((Returnvalue = gCVfrBufferConfig.Write ('a', VarStoreName, VarStoreGuid, NewAltCfg, Type, Info.mInfo.mVarOffset, Info.mVarTotalSize, Value)) != 0) {
goto WriteError;
}
}
gCVfrBufferConfig.Close ();
return VFR_RETURN_SUCCESS;
WriteError:
gCVfrBufferConfig.Close ();
return (EFI_VFR_RETURN_CODE)Returnvalue;
}
SVfrRuleNode::SVfrRuleNode (
IN CHAR8 *RuleName,
IN UINT8 RuleId
)
{
if (RuleName != NULL) {
mRuleName = new CHAR8[strlen (RuleName) + 1];
strcpy (mRuleName, RuleName);
} else {
mRuleName = NULL;
}
mNext = NULL;
mRuleId = RuleId;
}
SVfrRuleNode::~SVfrRuleNode (
VOID
)
{
if (mRuleName != NULL) {
delete[] mRuleName;
}
}
CVfrRulesDB::CVfrRulesDB ()
{
mRuleList = NULL;
mFreeRuleId = EFI_VARSTORE_ID_START;
}
CVfrRulesDB::~CVfrRulesDB ()
{
SVfrRuleNode *pNode;
while(mRuleList != NULL) {
pNode = mRuleList;
mRuleList = mRuleList->mNext;
delete pNode;
}
}
VOID
CVfrRulesDB::RegisterRule (
IN CHAR8 *RuleName
)
{
SVfrRuleNode *pNew;
if (RuleName == NULL) {
return ;
}
if ((pNew = new SVfrRuleNode (RuleName, mFreeRuleId)) == NULL) {
return ;
}
mFreeRuleId++;
pNew->mNext = mRuleList;
mRuleList = pNew;
}
UINT8
CVfrRulesDB::GetRuleId (
IN CHAR8 *RuleName
)
{
SVfrRuleNode *pNode;
if (RuleName == NULL) {
return EFI_RULE_ID_INVALID;
}
for (pNode = mRuleList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mRuleName, RuleName) == 0) {
return pNode->mRuleId;
}
}
return EFI_RULE_ID_INVALID;
}
CVfrRulesDB gCVfrRulesDB;
EFI_VARSTORE_INFO::EFI_VARSTORE_INFO (
VOID
)
{
mVarStoreId = EFI_VARSTORE_ID_INVALID;
mInfo.mVarName = EFI_STRING_ID_INVALID;
mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
mVarType = EFI_IFR_TYPE_OTHER;
mVarTotalSize = 0;
mIsBitVar = FALSE;
}
EFI_VARSTORE_INFO::EFI_VARSTORE_INFO (
IN EFI_VARSTORE_INFO &Info
)
{
mVarStoreId = Info.mVarStoreId;
mInfo.mVarName = Info.mInfo.mVarName;
mInfo.mVarOffset = Info.mInfo.mVarOffset;
mVarType = Info.mVarType;
mVarTotalSize = Info.mVarTotalSize;
mIsBitVar = Info.mIsBitVar;
}
EFI_VARSTORE_INFO&
EFI_VARSTORE_INFO::operator= (
IN CONST EFI_VARSTORE_INFO &Info
)
{
if (this != &Info) {
mVarStoreId = Info.mVarStoreId;
mInfo.mVarName = Info.mInfo.mVarName;
mInfo.mVarOffset = Info.mInfo.mVarOffset;
mVarType = Info.mVarType;
mVarTotalSize = Info.mVarTotalSize;
mIsBitVar = Info.mIsBitVar;
}
return *this;
}
BOOLEAN
EFI_VARSTORE_INFO::operator == (
IN EFI_VARSTORE_INFO *Info
)
{
if ((mVarStoreId == Info->mVarStoreId) &&
(mInfo.mVarName == Info->mInfo.mVarName) &&
(mInfo.mVarOffset == Info->mInfo.mVarOffset) &&
(mVarType == Info->mVarType) &&
(mVarTotalSize == Info->mVarTotalSize) &&
(mIsBitVar == Info->mIsBitVar)) {
return TRUE;
}
return FALSE;
}
BufferVarStoreFieldInfoNode::BufferVarStoreFieldInfoNode(
IN EFI_VARSTORE_INFO *Info
)
{
mVarStoreInfo.mVarType = Info->mVarType;
mVarStoreInfo.mVarTotalSize = Info->mVarTotalSize;
mVarStoreInfo.mInfo.mVarOffset = Info->mInfo.mVarOffset;
mVarStoreInfo.mVarStoreId = Info->mVarStoreId;
mNext = NULL;
}
BufferVarStoreFieldInfoNode::~BufferVarStoreFieldInfoNode ()
{
mVarStoreInfo.mVarType = EFI_IFR_TYPE_OTHER;
mVarStoreInfo.mVarTotalSize = 0;
mVarStoreInfo.mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
mVarStoreInfo.mVarStoreId = EFI_VARSTORE_ID_INVALID;
mNext = NULL;
}
static EFI_VARSTORE_INFO gEfiInvalidVarStoreInfo;
EFI_QUESTION_ID
CVfrQuestionDB::GetFreeQuestionId (
VOID
)
{
UINT32 Index, Mask, Offset;
for (Index = 0; Index < EFI_FREE_QUESTION_ID_BITMAP_SIZE; Index++) {
if (mFreeQIdBitMap[Index] != 0xFFFFFFFF) {
break;
}
}
if (Index == EFI_FREE_QUESTION_ID_BITMAP_SIZE) {
return EFI_QUESTION_ID_INVALID;
}
for (Offset = 0, Mask = 0x80000000; Mask != 0; Mask >>= 1, Offset++) {
if ((mFreeQIdBitMap[Index] & Mask) == 0) {
mFreeQIdBitMap[Index] |= Mask;
return (EFI_QUESTION_ID)((Index << EFI_BITS_SHIFT_PER_UINT32) + Offset);
}
}
return EFI_QUESTION_ID_INVALID;
}
BOOLEAN
CVfrQuestionDB::ChekQuestionIdFree (
IN EFI_QUESTION_ID QId
)
{
UINT32 Index = (QId / EFI_BITS_PER_UINT32);
UINT32 Offset = (QId % EFI_BITS_PER_UINT32);
return (mFreeQIdBitMap[Index] & (0x80000000 >> Offset)) == 0;
}
VOID
CVfrQuestionDB::MarkQuestionIdUsed (
IN EFI_QUESTION_ID QId
)
{
UINT32 Index = (QId / EFI_BITS_PER_UINT32);
UINT32 Offset = (QId % EFI_BITS_PER_UINT32);
mFreeQIdBitMap[Index] |= (0x80000000 >> Offset);
}
VOID
CVfrQuestionDB::MarkQuestionIdUnused (
IN EFI_QUESTION_ID QId
)
{
UINT32 Index = (QId / EFI_BITS_PER_UINT32);
UINT32 Offset = (QId % EFI_BITS_PER_UINT32);
mFreeQIdBitMap[Index] &= ~(0x80000000 >> Offset);
}
SVfrQuestionNode::SVfrQuestionNode (
IN CHAR8 *Name,
IN CHAR8 *VarIdStr,
IN UINT32 BitMask
)
{
mName = NULL;
mVarIdStr = NULL;
mQuestionId = EFI_QUESTION_ID_INVALID;
mBitMask = BitMask;
mNext = NULL;
mQtype = QUESTION_NORMAL;
if (Name == NULL) {
mName = new CHAR8[strlen ("$DEFAULT") + 1];
strcpy (mName, "$DEFAULT");
} else {
mName = new CHAR8[strlen (Name) + 1];
strcpy (mName, Name);
}
if (VarIdStr != NULL) {
mVarIdStr = new CHAR8[strlen (VarIdStr) + 1];
strcpy (mVarIdStr, VarIdStr);
} else {
mVarIdStr = new CHAR8[strlen ("$") + 1];
strcpy (mVarIdStr, "$");
}
}
SVfrQuestionNode::~SVfrQuestionNode (
VOID
)
{
if (mName != NULL) {
delete[] mName;
}
if (mVarIdStr != NULL) {
delete[] mVarIdStr;
}
}
CVfrQuestionDB::CVfrQuestionDB ()
{
UINT32 Index;
for (Index = 0; Index < EFI_FREE_QUESTION_ID_BITMAP_SIZE; Index++) {
mFreeQIdBitMap[Index] = 0;
}
// Question ID 0 is reserved.
mFreeQIdBitMap[0] = 0x80000000;
mQuestionList = NULL;
}
CVfrQuestionDB::~CVfrQuestionDB ()
{
SVfrQuestionNode *pNode;
while (mQuestionList != NULL) {
pNode = mQuestionList;
mQuestionList = mQuestionList->mNext;
delete pNode;
}
}
//
// Reset to init state
//
VOID
CVfrQuestionDB::ResetInit(
IN VOID
)
{
UINT32 Index;
SVfrQuestionNode *pNode;
while (mQuestionList != NULL) {
pNode = mQuestionList;
mQuestionList = mQuestionList->mNext;
delete pNode;
}
for (Index = 0; Index < EFI_FREE_QUESTION_ID_BITMAP_SIZE; Index++) {
mFreeQIdBitMap[Index] = 0;
}
// Question ID 0 is reserved.
mFreeQIdBitMap[0] = 0x80000000;
mQuestionList = NULL;
}
VOID
CVfrQuestionDB::PrintAllQuestion (
VOID
)
{
SVfrQuestionNode *pNode = NULL;
for (pNode = mQuestionList; pNode != NULL; pNode = pNode->mNext) {
printf ("Question VarId is %s and QuesitonId is 0x%x\n", pNode->mVarIdStr, pNode->mQuestionId);
}
}
EFI_VFR_RETURN_CODE
CVfrQuestionDB::RegisterQuestion (
IN CHAR8 *Name,
IN CHAR8 *VarIdStr,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode = NULL;
if ((Name != NULL) && (FindQuestion(Name) == VFR_RETURN_SUCCESS)) {
return VFR_RETURN_REDEFINED;
}
if ((pNode = new SVfrQuestionNode (Name, VarIdStr)) == NULL) {
return VFR_RETURN_OUT_FOR_RESOURCES;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
//
// For Framework Vfr, don't check question ID conflict.
//
if (!VfrCompatibleMode && ChekQuestionIdFree (QuestionId) == FALSE) {
delete pNode;
return VFR_RETURN_QUESTIONID_REDEFINED;
}
MarkQuestionIdUsed (QuestionId);
}
pNode->mQuestionId = QuestionId;
pNode->mNext = mQuestionList;
mQuestionList = pNode;
gCFormPkg.DoPendingAssign (VarIdStr, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return VFR_RETURN_SUCCESS;
}
VOID
CVfrQuestionDB::RegisterOldDateQuestion (
IN CHAR8 *YearVarId,
IN CHAR8 *MonthVarId,
IN CHAR8 *DayVarId,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode[3] = {NULL, };
UINT32 Index;
if ((YearVarId == NULL) || (MonthVarId == NULL) || (DayVarId == NULL)) {
return;
}
if ((pNode[0] = new SVfrQuestionNode (NULL, YearVarId, DATE_YEAR_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[1] = new SVfrQuestionNode (NULL, MonthVarId, DATE_MONTH_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[2] = new SVfrQuestionNode (NULL, DayVarId, DATE_DAY_BITMASK)) == NULL) {
goto Err;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
pNode[0]->mQuestionId = QuestionId;
pNode[1]->mQuestionId = QuestionId;
pNode[2]->mQuestionId = QuestionId;
pNode[0]->mQtype = QUESTION_DATE;
pNode[1]->mQtype = QUESTION_DATE;
pNode[2]->mQtype = QUESTION_DATE;
pNode[0]->mNext = pNode[1];
pNode[1]->mNext = pNode[2];
pNode[2]->mNext = mQuestionList;
mQuestionList = pNode[0];
gCFormPkg.DoPendingAssign (YearVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (MonthVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (DayVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return;
Err:
for (Index = 0; Index < 3; Index++) {
if (pNode[Index] != NULL) {
delete pNode[Index];
}
}
QuestionId = EFI_QUESTION_ID_INVALID;
}
VOID
CVfrQuestionDB::RegisterNewDateQuestion (
IN CHAR8 *Name,
IN CHAR8 *BaseVarId,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode[3] = {NULL, };
UINT32 Len;
CHAR8 *VarIdStr[3] = {NULL, };
CHAR8 Index;
if (BaseVarId == NULL && Name == NULL) {
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
return;
}
if (BaseVarId != NULL) {
Len = strlen (BaseVarId);
VarIdStr[0] = new CHAR8[Len + strlen (".Year") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], BaseVarId);
strcat (VarIdStr[0], ".Year");
}
VarIdStr[1] = new CHAR8[Len + strlen (".Month") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], BaseVarId);
strcat (VarIdStr[1], ".Month");
}
VarIdStr[2] = new CHAR8[Len + strlen (".Day") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], BaseVarId);
strcat (VarIdStr[2], ".Day");
}
} else {
Len = strlen (Name);
VarIdStr[0] = new CHAR8[Len + strlen (".Year") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], Name);
strcat (VarIdStr[0], ".Year");
}
VarIdStr[1] = new CHAR8[Len + strlen (".Month") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], Name);
strcat (VarIdStr[1], ".Month");
}
VarIdStr[2] = new CHAR8[Len + strlen (".Day") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], Name);
strcat (VarIdStr[2], ".Day");
}
}
if ((pNode[0] = new SVfrQuestionNode (Name, VarIdStr[0], DATE_YEAR_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[1] = new SVfrQuestionNode (Name, VarIdStr[1], DATE_MONTH_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[2] = new SVfrQuestionNode (Name, VarIdStr[2], DATE_DAY_BITMASK)) == NULL) {
goto Err;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
pNode[0]->mQuestionId = QuestionId;
pNode[1]->mQuestionId = QuestionId;
pNode[2]->mQuestionId = QuestionId;
pNode[0]->mQtype = QUESTION_DATE;
pNode[1]->mQtype = QUESTION_DATE;
pNode[2]->mQtype = QUESTION_DATE;
pNode[0]->mNext = pNode[1];
pNode[1]->mNext = pNode[2];
pNode[2]->mNext = mQuestionList;
mQuestionList = pNode[0];
for (Index = 0; Index < 3; Index++) {
if (VarIdStr[Index] != NULL) {
delete[] VarIdStr[Index];
VarIdStr[Index] = NULL;
}
}
gCFormPkg.DoPendingAssign (VarIdStr[0], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[1], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[2], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return;
Err:
for (Index = 0; Index < 3; Index++) {
if (pNode[Index] != NULL) {
delete pNode[Index];
}
if (VarIdStr[Index] != NULL) {
delete[] VarIdStr [Index];
VarIdStr [Index] = NULL;
}
}
}
VOID
CVfrQuestionDB::RegisterOldTimeQuestion (
IN CHAR8 *HourVarId,
IN CHAR8 *MinuteVarId,
IN CHAR8 *SecondVarId,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode[3] = {NULL, };
UINT32 Index;
if ((HourVarId == NULL) || (MinuteVarId == NULL) || (SecondVarId == NULL)) {
return;
}
if ((pNode[0] = new SVfrQuestionNode (NULL, HourVarId, TIME_HOUR_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[1] = new SVfrQuestionNode (NULL, MinuteVarId, TIME_MINUTE_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[2] = new SVfrQuestionNode (NULL, SecondVarId, TIME_SECOND_BITMASK)) == NULL) {
goto Err;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
pNode[0]->mQuestionId = QuestionId;
pNode[1]->mQuestionId = QuestionId;
pNode[2]->mQuestionId = QuestionId;
pNode[0]->mQtype = QUESTION_TIME;
pNode[1]->mQtype = QUESTION_TIME;
pNode[2]->mQtype = QUESTION_TIME;
pNode[0]->mNext = pNode[1];
pNode[1]->mNext = pNode[2];
pNode[2]->mNext = mQuestionList;
mQuestionList = pNode[0];
gCFormPkg.DoPendingAssign (HourVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (MinuteVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (SecondVarId, (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return;
Err:
for (Index = 0; Index < 3; Index++) {
if (pNode[Index] != NULL) {
delete pNode[Index];
}
}
QuestionId = EFI_QUESTION_ID_INVALID;
}
VOID
CVfrQuestionDB::RegisterNewTimeQuestion (
IN CHAR8 *Name,
IN CHAR8 *BaseVarId,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode[3] = {NULL, };
UINT32 Len;
CHAR8 *VarIdStr[3] = {NULL, };
CHAR8 Index;
if (BaseVarId == NULL && Name == NULL) {
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
return;
}
if (BaseVarId != NULL) {
Len = strlen (BaseVarId);
VarIdStr[0] = new CHAR8[Len + strlen (".Hour") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], BaseVarId);
strcat (VarIdStr[0], ".Hour");
}
VarIdStr[1] = new CHAR8[Len + strlen (".Minute") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], BaseVarId);
strcat (VarIdStr[1], ".Minute");
}
VarIdStr[2] = new CHAR8[Len + strlen (".Second") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], BaseVarId);
strcat (VarIdStr[2], ".Second");
}
} else {
Len = strlen (Name);
VarIdStr[0] = new CHAR8[Len + strlen (".Hour") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], Name);
strcat (VarIdStr[0], ".Hour");
}
VarIdStr[1] = new CHAR8[Len + strlen (".Minute") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], Name);
strcat (VarIdStr[1], ".Minute");
}
VarIdStr[2] = new CHAR8[Len + strlen (".Second") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], Name);
strcat (VarIdStr[2], ".Second");
}
}
if ((pNode[0] = new SVfrQuestionNode (Name, VarIdStr[0], TIME_HOUR_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[1] = new SVfrQuestionNode (Name, VarIdStr[1], TIME_MINUTE_BITMASK)) == NULL) {
goto Err;
}
if ((pNode[2] = new SVfrQuestionNode (Name, VarIdStr[2], TIME_SECOND_BITMASK)) == NULL) {
goto Err;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
pNode[0]->mQuestionId = QuestionId;
pNode[1]->mQuestionId = QuestionId;
pNode[2]->mQuestionId = QuestionId;
pNode[0]->mQtype = QUESTION_TIME;
pNode[1]->mQtype = QUESTION_TIME;
pNode[2]->mQtype = QUESTION_TIME;
pNode[0]->mNext = pNode[1];
pNode[1]->mNext = pNode[2];
pNode[2]->mNext = mQuestionList;
mQuestionList = pNode[0];
for (Index = 0; Index < 3; Index++) {
if (VarIdStr[Index] != NULL) {
delete[] VarIdStr[Index];
VarIdStr[Index] = NULL;
}
}
gCFormPkg.DoPendingAssign (VarIdStr[0], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[1], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[2], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return;
Err:
for (Index = 0; Index < 3; Index++) {
if (pNode[Index] != NULL) {
delete pNode[Index];
}
if (VarIdStr[Index] != NULL) {
delete[] VarIdStr[Index];
VarIdStr[Index] = NULL;
}
}
}
VOID
CVfrQuestionDB::RegisterRefQuestion (
IN CHAR8 *Name,
IN CHAR8 *BaseVarId,
IN OUT EFI_QUESTION_ID &QuestionId
)
{
SVfrQuestionNode *pNode[4] = {NULL, };
UINT32 Len;
CHAR8 *VarIdStr[4] = {NULL, };
CHAR8 Index;
if (BaseVarId == NULL && Name == NULL) {
return;
}
if (BaseVarId != NULL) {
Len = strlen (BaseVarId);
VarIdStr[0] = new CHAR8[Len + strlen (".QuestionId") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], BaseVarId);
strcat (VarIdStr[0], ".QuestionId");
}
VarIdStr[1] = new CHAR8[Len + strlen (".FormId") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], BaseVarId);
strcat (VarIdStr[1], ".FormId");
}
VarIdStr[2] = new CHAR8[Len + strlen (".FormSetGuid") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], BaseVarId);
strcat (VarIdStr[2], ".FormSetGuid");
}
VarIdStr[3] = new CHAR8[Len + strlen (".DevicePath") + 1];
if (VarIdStr[3] != NULL) {
strcpy (VarIdStr[3], BaseVarId);
strcat (VarIdStr[3], ".DevicePath");
}
} else {
Len = strlen (Name);
VarIdStr[0] = new CHAR8[Len + strlen (".QuestionId") + 1];
if (VarIdStr[0] != NULL) {
strcpy (VarIdStr[0], Name);
strcat (VarIdStr[0], ".QuestionId");
}
VarIdStr[1] = new CHAR8[Len + strlen (".FormId") + 1];
if (VarIdStr[1] != NULL) {
strcpy (VarIdStr[1], Name);
strcat (VarIdStr[1], ".FormId");
}
VarIdStr[2] = new CHAR8[Len + strlen (".FormSetGuid") + 1];
if (VarIdStr[2] != NULL) {
strcpy (VarIdStr[2], Name);
strcat (VarIdStr[2], ".FormSetGuid");
}
VarIdStr[3] = new CHAR8[Len + strlen (".DevicePath") + 1];
if (VarIdStr[3] != NULL) {
strcpy (VarIdStr[3], Name);
strcat (VarIdStr[3], ".DevicePath");
}
}
if ((pNode[0] = new SVfrQuestionNode (Name, VarIdStr[0])) == NULL) {
goto Err;
}
if ((pNode[1] = new SVfrQuestionNode (Name, VarIdStr[1])) == NULL) {
goto Err;
}
if ((pNode[2] = new SVfrQuestionNode (Name, VarIdStr[2])) == NULL) {
goto Err;
}
if ((pNode[3] = new SVfrQuestionNode (Name, VarIdStr[3])) == NULL) {
goto Err;
}
if (QuestionId == EFI_QUESTION_ID_INVALID) {
QuestionId = GetFreeQuestionId ();
} else {
if (ChekQuestionIdFree (QuestionId) == FALSE) {
goto Err;
}
MarkQuestionIdUsed (QuestionId);
}
pNode[0]->mQuestionId = QuestionId;
pNode[1]->mQuestionId = QuestionId;
pNode[2]->mQuestionId = QuestionId;
pNode[3]->mQuestionId = QuestionId;
pNode[0]->mQtype = QUESTION_REF;
pNode[1]->mQtype = QUESTION_REF;
pNode[2]->mQtype = QUESTION_REF;
pNode[3]->mQtype = QUESTION_REF;
pNode[0]->mNext = pNode[1];
pNode[1]->mNext = pNode[2];
pNode[2]->mNext = pNode[3];
pNode[3]->mNext = mQuestionList;
mQuestionList = pNode[0];
gCFormPkg.DoPendingAssign (VarIdStr[0], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[1], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[2], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
gCFormPkg.DoPendingAssign (VarIdStr[3], (VOID *)&QuestionId, sizeof(EFI_QUESTION_ID));
return;
Err:
for (Index = 0; Index < 4; Index++) {
if (pNode[Index] != NULL) {
delete pNode[Index];
}
if (VarIdStr[Index] != NULL) {
delete VarIdStr[Index];
}
}
}
EFI_VFR_RETURN_CODE
CVfrQuestionDB::UpdateQuestionId (
IN EFI_QUESTION_ID QId,
IN EFI_QUESTION_ID NewQId
)
{
SVfrQuestionNode *pNode = NULL;
if (QId == NewQId) {
// don't update
return VFR_RETURN_SUCCESS;
}
//
// For Framework Vfr, don't check question ID conflict.
//
if (!VfrCompatibleMode && ChekQuestionIdFree (NewQId) == FALSE) {
return VFR_RETURN_REDEFINED;
}
for (pNode = mQuestionList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mQuestionId == QId) {
break;
}
}
if (pNode == NULL) {
return VFR_RETURN_UNDEFINED;
}
MarkQuestionIdUnused (QId);
pNode->mQuestionId = NewQId;
MarkQuestionIdUsed (NewQId);
gCFormPkg.DoPendingAssign (pNode->mVarIdStr, (VOID *)&NewQId, sizeof(EFI_QUESTION_ID));
return VFR_RETURN_SUCCESS;
}
VOID
CVfrQuestionDB::GetQuestionId (
IN CHAR8 *Name,
IN CHAR8 *VarIdStr,
OUT EFI_QUESTION_ID &QuestionId,
OUT UINT32 &BitMask,
OUT EFI_QUESION_TYPE *QType
)
{
SVfrQuestionNode *pNode;
QuestionId = EFI_QUESTION_ID_INVALID;
BitMask = 0x00000000;
if (QType != NULL) {
*QType = QUESTION_NORMAL;
}
if ((Name == NULL) && (VarIdStr == NULL)) {
return ;
}
for (pNode = mQuestionList; pNode != NULL; pNode = pNode->mNext) {
if (Name != NULL) {
if (strcmp (pNode->mName, Name) != 0) {
continue;
}
}
if (VarIdStr != NULL) {
if (strcmp (pNode->mVarIdStr, VarIdStr) != 0) {
continue;
}
}
QuestionId = pNode->mQuestionId;
BitMask = pNode->mBitMask;
if (QType != NULL) {
*QType = pNode->mQtype;
}
break;
}
return ;
}
EFI_VFR_RETURN_CODE
CVfrQuestionDB::FindQuestion (
IN EFI_QUESTION_ID QuestionId
)
{
SVfrQuestionNode *pNode;
if (QuestionId == EFI_QUESTION_ID_INVALID) {
return VFR_RETURN_INVALID_PARAMETER;
}
for (pNode = mQuestionList; pNode != NULL; pNode = pNode->mNext) {
if (pNode->mQuestionId == QuestionId) {
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
EFI_VFR_RETURN_CODE
CVfrQuestionDB::FindQuestion (
IN CHAR8 *Name
)
{
SVfrQuestionNode *pNode;
if (Name == NULL) {
return VFR_RETURN_FATAL_ERROR;
}
for (pNode = mQuestionList; pNode != NULL; pNode = pNode->mNext) {
if (strcmp (pNode->mName, Name) == 0) {
return VFR_RETURN_SUCCESS;
}
}
return VFR_RETURN_UNDEFINED;
}
CVfrStringDB::CVfrStringDB ()
{
mStringFileName = NULL;
}
CVfrStringDB::~CVfrStringDB ()
{
if (mStringFileName != NULL) {
delete[] mStringFileName;
}
mStringFileName = NULL;
}
VOID
CVfrStringDB::SetStringFileName(IN CHAR8 *StringFileName)
{
UINT32 FileLen = 0;
if (StringFileName == NULL) {
return;
}
if (mStringFileName != NULL) {
delete[] mStringFileName;
}
FileLen = strlen (StringFileName) + 1;
mStringFileName = new CHAR8[FileLen];
if (mStringFileName == NULL) {
return;
}
strcpy (mStringFileName, StringFileName);
mStringFileName[FileLen - 1] = '\0';
}
/**
Returns TRUE or FALSE whether SupportedLanguages contains the best matching language
from a set of supported languages.
@param[in] SupportedLanguages A pointer to a Null-terminated ASCII string that
contains a set of language codes.
@param[in] Language A variable that contains pointers to Null-terminated
ASCII strings that contain one language codes.
@retval FALSE The best matching language could not be found in SupportedLanguages.
@retval TRUE The best matching language could be found in SupportedLanguages.
**/
BOOLEAN
CVfrStringDB::GetBestLanguage (
IN CONST CHAR8 *SupportedLanguages,
IN CHAR8 *Language
)
{
UINTN CompareLength;
UINTN LanguageLength;
CONST CHAR8 *Supported;
if (SupportedLanguages == NULL || Language == NULL){
return FALSE;
}
//
// Determine the length of the first RFC 4646 language code in Language
//
for (LanguageLength = 0; Language[LanguageLength] != 0 && Language[LanguageLength] != ';'; LanguageLength++);
//
// Trim back the length of Language used until it is empty
//
while (LanguageLength > 0) {
//
// Loop through all language codes in SupportedLanguages
//
for (Supported = SupportedLanguages; *Supported != '\0'; Supported += CompareLength) {
//
// Skip ';' characters in Supported
//
for (; *Supported != '\0' && *Supported == ';'; Supported++);
//
// Determine the length of the next language code in Supported
//
for (CompareLength = 0; Supported[CompareLength] != 0 && Supported[CompareLength] != ';'; CompareLength++);
//
// If Language is longer than the Supported, then skip to the next language
//
if (LanguageLength > CompareLength) {
continue;
}
//
// See if the first LanguageLength characters in Supported match Language
//
if (strncmp (Supported, Language, LanguageLength) == 0) {
return TRUE;
}
}
//
// Trim Language from the right to the next '-' character
//
for (LanguageLength--; LanguageLength > 0 && Language[LanguageLength] != '-'; LanguageLength--);
}
//
// No matches were found
//
return FALSE;
}
CHAR8 *
CVfrStringDB::GetVarStoreNameFormStringId (
IN EFI_STRING_ID StringId
)
{
FILE *pInFile = NULL;
UINT32 NameOffset;
UINT32 Length;
UINT8 *StringPtr;
CHAR8 *StringName;
CHAR16 *UnicodeString;
CHAR8 *VarStoreName = NULL;
CHAR8 *DestTmp;
UINT8 *Current;
EFI_STATUS Status;
CHAR8 LineBuf[EFI_IFR_MAX_LENGTH];
UINT8 BlockType;
EFI_HII_STRING_PACKAGE_HDR *PkgHeader;
if (mStringFileName == NULL) {
return NULL;
}
if ((pInFile = fopen (LongFilePath (mStringFileName), "rb")) == NULL) {
return NULL;
}
//
// Get file length.
//
fseek (pInFile, 0, SEEK_END);
Length = ftell (pInFile);
fseek (pInFile, 0, SEEK_SET);
//
// Get file data.
//
StringPtr = new UINT8[Length];
if (StringPtr == NULL) {
fclose (pInFile);
return NULL;
}
fread ((char *)StringPtr, sizeof (UINT8), Length, pInFile);
fclose (pInFile);
PkgHeader = (EFI_HII_STRING_PACKAGE_HDR *) StringPtr;
//
// Check the String package.
//
if (PkgHeader->Header.Type != EFI_HII_PACKAGE_STRINGS) {
delete[] StringPtr;
return NULL;
}
//
// Search the language, get best language base on RFC 4647 matching algorithm.
//
Current = StringPtr;
while (!GetBestLanguage ("en", PkgHeader->Language)) {
Current += PkgHeader->Header.Length;
PkgHeader = (EFI_HII_STRING_PACKAGE_HDR *) Current;
//
// If can't find string package base on language, just return the first string package.
//
if (Current - StringPtr >= Length) {
Current = StringPtr;
PkgHeader = (EFI_HII_STRING_PACKAGE_HDR *) StringPtr;
break;
}
}
Current += PkgHeader->HdrSize;
//
// Find the string block according the stringId.
//
Status = FindStringBlock(Current, StringId, &NameOffset, &BlockType);
if (Status != EFI_SUCCESS) {
delete[] StringPtr;
return NULL;
}
//
// Get varstore name according the string type.
//
switch (BlockType) {
case EFI_HII_SIBT_STRING_SCSU:
case EFI_HII_SIBT_STRING_SCSU_FONT:
case EFI_HII_SIBT_STRINGS_SCSU:
case EFI_HII_SIBT_STRINGS_SCSU_FONT:
StringName = (CHAR8*)(Current + NameOffset);
VarStoreName = new CHAR8[strlen(StringName) + 1];
strcpy (VarStoreName, StringName);
break;
case EFI_HII_SIBT_STRING_UCS2:
case EFI_HII_SIBT_STRING_UCS2_FONT:
case EFI_HII_SIBT_STRINGS_UCS2:
case EFI_HII_SIBT_STRINGS_UCS2_FONT:
UnicodeString = (CHAR16*)(Current + NameOffset);
Length = GetUnicodeStringTextSize ((UINT8*)UnicodeString) ;
DestTmp = new CHAR8[Length / 2 + 1];
VarStoreName = DestTmp;
while (*UnicodeString != '\0') {
*(DestTmp++) = (CHAR8) *(UnicodeString++);
}
*DestTmp = '\0';
break;
default:
break;
}
delete[] StringPtr;
return VarStoreName;
}
EFI_STATUS
CVfrStringDB::FindStringBlock (
IN UINT8 *StringData,
IN EFI_STRING_ID StringId,
OUT UINT32 *StringTextOffset,
OUT UINT8 *BlockType
)
{
UINT8 *BlockHdr;
EFI_STRING_ID CurrentStringId;
UINT32 BlockSize;
UINT32 Index;
UINT8 *StringTextPtr;
UINT32 Offset;
UINT16 StringCount;
UINT16 SkipCount;
UINT8 Length8;
EFI_HII_SIBT_EXT2_BLOCK Ext2;
UINT32 Length32;
UINT32 StringSize;
CurrentStringId = 1;
//
// Parse the string blocks to get the string text and font.
//
BlockHdr = StringData;
BlockSize = 0;
Offset = 0;
while (*BlockHdr != EFI_HII_SIBT_END) {
switch (*BlockHdr) {
case EFI_HII_SIBT_STRING_SCSU:
Offset = sizeof (EFI_HII_STRING_BLOCK);
StringTextPtr = BlockHdr + Offset;
BlockSize += Offset + strlen ((CHAR8 *) StringTextPtr) + 1;
CurrentStringId++;
break;
case EFI_HII_SIBT_STRING_SCSU_FONT:
Offset = sizeof (EFI_HII_SIBT_STRING_SCSU_FONT_BLOCK) - sizeof (UINT8);
StringTextPtr = BlockHdr + Offset;
BlockSize += Offset + strlen ((CHAR8 *) StringTextPtr) + 1;
CurrentStringId++;
break;
case EFI_HII_SIBT_STRINGS_SCSU:
memcpy (&StringCount, BlockHdr + sizeof (EFI_HII_STRING_BLOCK), sizeof (UINT16));
StringTextPtr = BlockHdr + sizeof (EFI_HII_SIBT_STRINGS_SCSU_BLOCK) - sizeof (UINT8);
BlockSize += StringTextPtr - BlockHdr;
for (Index = 0; Index < StringCount; Index++) {
BlockSize += strlen ((CHAR8 *) StringTextPtr) + 1;
if (CurrentStringId == StringId) {
*BlockType = *BlockHdr;
*StringTextOffset = StringTextPtr - StringData;
return EFI_SUCCESS;
}
StringTextPtr = StringTextPtr + strlen ((CHAR8 *) StringTextPtr) + 1;
CurrentStringId++;
}
break;
case EFI_HII_SIBT_STRINGS_SCSU_FONT:
memcpy (
&StringCount,
BlockHdr + sizeof (EFI_HII_STRING_BLOCK) + sizeof (UINT8),
sizeof (UINT16)
);
StringTextPtr = BlockHdr + sizeof (EFI_HII_SIBT_STRINGS_SCSU_FONT_BLOCK) - sizeof (UINT8);
BlockSize += StringTextPtr - BlockHdr;
for (Index = 0; Index < StringCount; Index++) {
BlockSize += strlen ((CHAR8 *) StringTextPtr) + 1;
if (CurrentStringId == StringId) {
*BlockType = *BlockHdr;
*StringTextOffset = StringTextPtr - StringData;
return EFI_SUCCESS;
}
StringTextPtr = StringTextPtr + strlen ((CHAR8 *) StringTextPtr) + 1;
CurrentStringId++;
}
break;
case EFI_HII_SIBT_STRING_UCS2:
Offset = sizeof (EFI_HII_STRING_BLOCK);
StringTextPtr = BlockHdr + Offset;
//
// Use StringSize to store the size of the specified string, including the NULL
// terminator.
//
StringSize = GetUnicodeStringTextSize (StringTextPtr);
BlockSize += Offset + StringSize;
CurrentStringId++;
break;
case EFI_HII_SIBT_STRING_UCS2_FONT:
Offset = sizeof (EFI_HII_SIBT_STRING_UCS2_FONT_BLOCK) - sizeof (CHAR16);
StringTextPtr = BlockHdr + Offset;
//
// Use StrSize to store the size of the specified string, including the NULL
// terminator.
//
StringSize = GetUnicodeStringTextSize (StringTextPtr);
BlockSize += Offset + StringSize;
CurrentStringId++;
break;
case EFI_HII_SIBT_STRINGS_UCS2:
Offset = sizeof (EFI_HII_SIBT_STRINGS_UCS2_BLOCK) - sizeof (CHAR16);
StringTextPtr = BlockHdr + Offset;
BlockSize += Offset;
memcpy (&StringCount, BlockHdr + sizeof (EFI_HII_STRING_BLOCK), sizeof (UINT16));
for (Index = 0; Index < StringCount; Index++) {
StringSize = GetUnicodeStringTextSize (StringTextPtr);
BlockSize += StringSize;
if (CurrentStringId == StringId) {
*BlockType = *BlockHdr;
*StringTextOffset = StringTextPtr - StringData;
return EFI_SUCCESS;
}
StringTextPtr = StringTextPtr + StringSize;
CurrentStringId++;
}
break;
case EFI_HII_SIBT_STRINGS_UCS2_FONT:
Offset = sizeof (EFI_HII_SIBT_STRINGS_UCS2_FONT_BLOCK) - sizeof (CHAR16);
StringTextPtr = BlockHdr + Offset;
BlockSize += Offset;
memcpy (
&StringCount,
BlockHdr + sizeof (EFI_HII_STRING_BLOCK) + sizeof (UINT8),
sizeof (UINT16)
);
for (Index = 0; Index < StringCount; Index++) {
StringSize = GetUnicodeStringTextSize (StringTextPtr);
BlockSize += StringSize;
if (CurrentStringId == StringId) {
*BlockType = *BlockHdr;
*StringTextOffset = StringTextPtr - StringData;
return EFI_SUCCESS;
}
StringTextPtr = StringTextPtr + StringSize;
CurrentStringId++;
}
break;
case EFI_HII_SIBT_DUPLICATE:
if (CurrentStringId == StringId) {
//
// Incoming StringId is an id of a duplicate string block.
// Update the StringId to be the previous string block.
// Go back to the header of string block to search.
//
memcpy (
&StringId,
BlockHdr + sizeof (EFI_HII_STRING_BLOCK),
sizeof (EFI_STRING_ID)
);
CurrentStringId = 1;
BlockSize = 0;
} else {
BlockSize += sizeof (EFI_HII_SIBT_DUPLICATE_BLOCK);
CurrentStringId++;
}
break;
case EFI_HII_SIBT_SKIP1:
SkipCount = (UINT16) (*(BlockHdr + sizeof (EFI_HII_STRING_BLOCK)));
CurrentStringId = (UINT16) (CurrentStringId + SkipCount);
BlockSize += sizeof (EFI_HII_SIBT_SKIP1_BLOCK);
break;
case EFI_HII_SIBT_SKIP2:
memcpy (&SkipCount, BlockHdr + sizeof (EFI_HII_STRING_BLOCK), sizeof (UINT16));
CurrentStringId = (UINT16) (CurrentStringId + SkipCount);
BlockSize += sizeof (EFI_HII_SIBT_SKIP2_BLOCK);
break;
case EFI_HII_SIBT_EXT1:
memcpy (
&Length8,
BlockHdr + sizeof (EFI_HII_STRING_BLOCK) + sizeof (UINT8),
sizeof (UINT8)
);
BlockSize += Length8;
break;
case EFI_HII_SIBT_EXT2:
memcpy (&Ext2, BlockHdr, sizeof (EFI_HII_SIBT_EXT2_BLOCK));
BlockSize += Ext2.Length;
break;
case EFI_HII_SIBT_EXT4:
memcpy (
&Length32,
BlockHdr + sizeof (EFI_HII_STRING_BLOCK) + sizeof (UINT8),
sizeof (UINT32)
);
BlockSize += Length32;
break;
default:
break;
}
if (StringId > 0 && StringId != (EFI_STRING_ID)(-1)) {
*StringTextOffset = BlockHdr - StringData + Offset;
*BlockType = *BlockHdr;
if (StringId == CurrentStringId - 1) {
//
// if only one skip item, return EFI_NOT_FOUND.
//
if(*BlockType == EFI_HII_SIBT_SKIP2 || *BlockType == EFI_HII_SIBT_SKIP1) {
return EFI_NOT_FOUND;
} else {
return EFI_SUCCESS;
}
}
if (StringId < CurrentStringId - 1) {
return EFI_NOT_FOUND;
}
}
BlockHdr = StringData + BlockSize;
}
return EFI_NOT_FOUND;
}
UINT32
CVfrStringDB::GetUnicodeStringTextSize (
IN UINT8 *StringSrc
)
{
UINT32 StringSize;
CHAR16 *StringPtr;
StringSize = sizeof (CHAR16);
StringPtr = (UINT16*)StringSrc;
while (*StringPtr++ != L'\0') {
StringSize += sizeof (CHAR16);
}
return StringSize;
}
BOOLEAN VfrCompatibleMode = FALSE;
CVfrVarDataTypeDB gCVfrVarDataTypeDB;
CVfrDefaultStore gCVfrDefaultStore;
CVfrDataStorage gCVfrDataStorage;