audk/BaseTools/Source/C/VfrCompile/VfrSyntax.g

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/*++ @file
Vfr Syntax
Copyright (c) 2004 - 2017, 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.
--*/
#header<<
#include "EfiVfr.h"
#include "VfrFormPkg.h"
#include "VfrError.h"
#include "VfrUtilityLib.h"
#include "AToken.h"
#include "ATokPtr.h"
>>
<<
#ifdef UINT8_MAX
#undef UINT8_MAX
#endif
#include "stdio.h"
#include "PBlackBox.h"
#include "DLexerBase.h"
#include "VfrLexer.h"
#include "AToken.h"
#define GET_LINENO(Obj) ((Obj)->getLine())
#define SET_LINE_INFO(Obj, L) do {(Obj).SetLineNo((L)->getLine());} while (0)
#define CRT_END_OP(Obj) do {CIfrEnd EObj; if (Obj != NULL) EObj.SetLineNo ((Obj)->getLine());} while (0)
typedef ANTLRCommonToken ANTLRToken;
class CVfrDLGLexer : public VfrLexer
{
public:
CVfrDLGLexer (DLGFileInput *F) : VfrLexer (F) {};
void errstd (const char *Text)
{
printf ("unrecognized input '%s'\n", Text);
}
};
UINT8
VfrParserStart (
IN FILE *File,
IN INPUT_INFO_TO_SYNTAX *InputInfo
)
{
ParserBlackBox<CVfrDLGLexer, EfiVfrParser, ANTLRToken> VfrParser(File);
VfrParser.parser()->SetCompatibleMode (InputInfo->CompatibleMode);
VfrParser.parser()->SetOverrideClassGuid (InputInfo->OverrideClassGuid);
return VfrParser.parser()->vfrProgram();
}
>>
//
// Define a lexical class for parsing quoted strings. Basically
// starts with a double quote, and ends with a double quote that
// is not preceeded with a backslash.
//
#lexclass QUOTED_STRING
#token TheString "~[\"]*\"" << mode (START); >>
//
// Define a lexclass for skipping over C++ style comments
//
#lexclass CPP_COMMENT
#token "~[\n]*" << skip (); >>
#token "\n" << skip (); mode (START); newline (); >>
//
// Standard lexclass is START
//
#lexclass START
//
// Find start of C++ style comments
//
#token "//" << skip (); mode (CPP_COMMENT); >>
//
// Skip whitespace
//
#token "[\ \t]" << skip (); >>
//
// Skip over newlines, but count them
//
#token "\n" << skip (); newline (); >>
//
// Skip over 'extern' in any included .H file
//
#token "extern" << skip (); mode (CPP_COMMENT); >>
//
// Tokens for the different keywords. Syntax is:
// TokenName("ErrorMessageText") "TokenString"
// where:
// TokenName is the token name (must be capitalized) that is used in the rules
// ErrorMessageText is the string the compiler emits when it detects a syntax error
// TokenString is the actual matching string used in the user script
//
#token FormPkgType("formpkgtype") "formpkgtype"
#token OpenBrace("{") "\{"
#token CloseBrace("}") "\}"
#token OpenParen("(") "\("
#token CloseParen(")") "\)"
#token OpenBracket("[") "\["
#token CloseBracket("]") "\]"
#token LineDefinition "#line\ [0-9]+\ \"~[\"]+\"[\ \t]*\n" << gCVfrErrorHandle.ParseFileScopeRecord (begexpr (), line ()); skip (); newline (); >>
#token DevicePath("devicepath") "devicepath"
#token FormSet("formset") "formset"
#token FormSetId("formsetid") "formsetid"
#token EndFormSet("endformset") "endformset"
#token Title("title") "title"
#token FormId("formid") "formid"
#token OneOf("oneof") "oneof"
#token EndOneOf("endoneof") "endoneof"
#token Prompt("prompt") "prompt"
#token OrderedList("orderedlist") "orderedlist"
#token MaxContainers("maxcontainers") "maxcontainers"
#token EndList("endlist") "endlist"
#token EndForm("endform") "endform"
#token Form("form") "form"
#token FormMap("formmap") "formmap"
#token MapTitle("maptitle") "maptitle"
#token MapGuid("mapguid") "mapguid"
#token Subtitle("subtitle") "subtitle"
#token EndSubtitle("endsubtitle") "endsubtitle"
#token Help("help") "help"
#token Text("text") "text"
#token Option("option") "option"
#token FLAGS("flags") "flags"
#token Date("date") "date"
#token EndDate("enddate") "enddate"
#token Year("year") "year"
#token Month("month") "month"
#token Day("day") "day"
#token Time("time") "time"
#token EndTime("endtime") "endtime"
#token Hour("hour") "hour"
#token Minute("minute") "minute"
#token Second("second") "second"
#token GrayOutIf("grayoutif") "grayoutif"
#token Label("label") "label"
#token Timeout("timeout") "timeout"
#token Inventory("inventory") "inventory"
#token NonNvDataMap("_NON_NV_DATA_MAP") "_NON_NV_DATA_MAP"
#token Struct("struct") "struct"
#token Union("union") "union"
#token Boolean("BOOLEAN") "BOOLEAN"
#token Uint64("UINT64") "UINT64"
#token Uint32("UINT32") "UINT32"
#token Uint16("UINT16") "UINT16"
#token Char16("CHAR16") "CHAR16"
#token Uint8("UINT8") "UINT8"
#token Uuid("guid") "guid"
#token CheckBox("checkbox") "checkbox"
#token EndCheckBox("endcheckbox") "endcheckbox"
#token Numeric("numeric") "numeric"
#token EndNumeric("endnumeric") "endnumeric"
#token Minimum("minimum") "minimum"
#token Maximum("maximum") "maximum"
#token STEP("step") "step"
#token Default("default") "default"
#token Password("password") "password"
#token EndPassword("endpassword") "endpassword"
#token String("string") "string"
#token EndString("endstring") "endstring"
#token MinSize("minsize") "minsize"
#token MaxSize("maxsize") "maxsize"
#token Encoding("encoding") "encoding"
#token SuppressIf("suppressif") "suppressif"
#token DisableIf("disableif") "disableif"
#token Hidden("hidden") "hidden"
#token Goto("goto") "goto"
#token FormSetGuid("formsetguid") "formsetguid"
#token InconsistentIf("inconsistentif") "inconsistentif"
#token WarningIf("warningif") "warningif"
#token NoSubmitIf("nosubmitif") "nosubmitif"
#token EndIf("endif") "endif"
#token Key("key") "key"
#token DefaultFlag("DEFAULT") "DEFAULT"
#token ManufacturingFlag("MANUFACTURING") "MANUFACTURING"
#token InteractiveFlag("INTERACTIVE") "INTERACTIVE"
#token NVAccessFlag("NV_ACCESS") "NV_ACCESS"
#token ResetRequiredFlag("RESET_REQUIRED") "RESET_REQUIRED"
#token ReconnectRequiredFlag("RECONNECT_REQUIRED") "RECONNECT_REQUIRED"
#token LateCheckFlag("LATE_CHECK") "LATE_CHECK"
#token ReadOnlyFlag("READ_ONLY") "READ_ONLY"
#token OptionOnlyFlag("OPTIONS_ONLY") "OPTIONS_ONLY"
#token Class("class") "class"
#token Subclass("subclass") "subclass"
#token ClassGuid("classguid") "classguid"
#token TypeDef("typedef") "typedef"
#token Restore("restore") "restore"
#token Save("save") "save"
#token Defaults("defaults") "defaults"
#token Banner("banner") "banner"
#token Align("align") "align"
#token Left("left") "left"
#token Right("right") "right"
#token Center("center") "center"
#token Line("line") "line"
#token Name("name") "name"
#token VarId("varid") "varid"
#token Question("question") "question"
#token QuestionId("questionid") "questionid"
#token Image("image") "image"
#token Locked("locked") "locked"
#token Rule("rule") "rule"
#token EndRule("endrule") "endrule"
#token Value("value") "value"
#token Read("read") "read"
#token Write("write") "write"
#token ResetButton("resetbutton") "resetbutton"
#token EndResetButton("endresetbutton") "endresetbutton"
#token DefaultStore("defaultstore") "defaultstore"
#token Attribute("attribute") "attribute"
#token Varstore("varstore") "varstore"
#token Efivarstore("efivarstore") "efivarstore"
#token VarSize("varsize") "varsize"
#token NameValueVarStore("namevaluevarstore") "namevaluevarstore"
#token Action("action") "action"
#token Config("config") "config"
#token EndAction("endaction") "endaction"
#token Refresh("refresh") "refresh"
#token Interval("interval") "interval"
#token VarstoreDevice("varstoredevice") "varstoredevice"
#token GuidOp("guidop") "guidop"
#token EndGuidOp("endguidop") "endguidop"
#token DataType("datatype") "datatype"
#token Data("data") "data"
#token Modal("modal") "modal"
//
// Define the class and subclass tokens
//
#token ClassNonDevice("NONDEVICE") "NON_DEVICE"
#token ClassDiskDevice("DISK_DEVICE") "DISK_DEVICE"
#token ClassVideoDevice("VIDEO_DEVICE") "VIDEO_DEVICE"
#token ClassNetworkDevice("NETWORK_DEVICE") "NETWORK_DEVICE"
#token ClassInputDevice("INPUT_DEVICE") "INPUT_DEVICE"
#token ClassOnBoardDevice("ONBOARD_DEVICE") "ONBOARD_DEVICE"
#token ClassOtherDevice("OTHER_DEVICE") "OTHER_DEVICE"
#token SubclassSetupApplication("SETUP_APPLICATION") "SETUP_APPLICATION"
#token SubclassGeneralApplication("GENERAL_APPLICATION") "GENERAL_APPLICATION"
#token SubclassFrontPage("FRONT_PAGE") "FRONT_PAGE"
#token SubclassSingleUse("SINGLE_USE") "SINGLE_USE"
//
// This is the overall definition of a VFR form definition script.
//
vfrProgram > [UINT8 Return] :
<<
mParserStatus = 0;
mCIfrOpHdrIndex = 0;
mConstantOnlyInExpression = FALSE;
>>
(
vfrPragmaPackDefinition
| vfrDataStructDefinition
| vfrDataUnionDefinition
)*
vfrFormSetDefinition
<< $Return = mParserStatus; >>
;
pragmaPackShowDef :
L:"show" << gCVfrVarDataTypeDB.Pack (L->getLine(), VFR_PACK_SHOW); >>
;
pragmaPackStackDef :
<<
UINT32 LineNum;
UINT8 PackAction;
CHAR8 *Identifier = NULL;
UINT32 PackNumber = DEFAULT_PACK_ALIGN;
>>
(
L1:"push" << LineNum = L1->getLine(); PackAction = VFR_PACK_PUSH; >>
| L2:"pop" << LineNum = L2->getLine(); PackAction = VFR_PACK_POP; >>
)
{
"," ID:StringIdentifier << Identifier = ID->getText(); >>
}
{
"," N:Number << PackAction |= VFR_PACK_ASSIGN; PackNumber = _STOU32(N->getText(), N->getLine()); >>
}
<< gCVfrVarDataTypeDB.Pack (LineNum, PackAction, Identifier, PackNumber); >>
;
pragmaPackNumber :
<<
UINT32 LineNum;
UINT32 PackNumber = DEFAULT_PACK_ALIGN;
>>
N:Number << LineNum = N->getLine(); PackNumber = _STOU32(N->getText(), N->getLine()); >>
<< gCVfrVarDataTypeDB.Pack (LineNum, VFR_PACK_ASSIGN, NULL, PackNumber); >>
;
vfrPragmaPackDefinition :
"\#pragma" "pack" "\("
{
pragmaPackShowDef
| pragmaPackStackDef
| pragmaPackNumber
}
"\)"
;
vfrDataUnionDefinition :
{ TypeDef } Union << gCVfrVarDataTypeDB.DeclareDataTypeBegin (); >>
{ NonNvDataMap }
{
N1:StringIdentifier << _PCATCH(gCVfrVarDataTypeDB.SetNewTypeName (N1->getText()), N1); >>
}
OpenBrace
vfrDataStructFields[TRUE]
CloseBrace
{
N2:StringIdentifier << _PCATCH(gCVfrVarDataTypeDB.SetNewTypeName (N2->getText()), N2); >>
}
";" << gCVfrVarDataTypeDB.DeclareDataTypeEnd ();>>
;
vfrDataStructDefinition :
{ TypeDef } Struct << gCVfrVarDataTypeDB.DeclareDataTypeBegin (); >>
{ NonNvDataMap }
{
N1:StringIdentifier << _PCATCH(gCVfrVarDataTypeDB.SetNewTypeName (N1->getText()), N1); >>
}
OpenBrace
vfrDataStructFields[FALSE]
CloseBrace
{
N2:StringIdentifier << _PCATCH(gCVfrVarDataTypeDB.SetNewTypeName (N2->getText()), N2); >>
}
";" << gCVfrVarDataTypeDB.DeclareDataTypeEnd (); >>
;
vfrDataStructFields [BOOLEAN FieldInUnion]:
(
dataStructField64 [FieldInUnion] |
dataStructField32 [FieldInUnion] |
dataStructField16 [FieldInUnion] |
dataStructField8 [FieldInUnion] |
dataStructFieldBool [FieldInUnion] |
dataStructFieldString [FieldInUnion]|
dataStructFieldDate [FieldInUnion] |
dataStructFieldTime [FieldInUnion] |
dataStructFieldRef [FieldInUnion] |
dataStructFieldUser [FieldInUnion] |
dataStructBitField64 [FieldInUnion] |
dataStructBitField32 [FieldInUnion] |
dataStructBitField16 [FieldInUnion] |
dataStructBitField8 [FieldInUnion]
)*
;
dataStructField64 [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"UINT64"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructField32 [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"UINT32"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructField16 [BOOLEAN FieldInUnion]:
<<
UINT32 ArrayNum = 0;
>>
("UINT16" | "CHAR16")
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), (CHAR8 *) "UINT16", ArrayNum, FieldInUnion), N); >>
;
dataStructField8 [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"UINT8"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldBool [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"BOOLEAN"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldString [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"EFI_STRING_ID"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldDate [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"EFI_HII_DATE"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldTime [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"EFI_HII_TIME"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldRef [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
D:"EFI_HII_REF"
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), D->getText(), ArrayNum, FieldInUnion), N); >>
;
dataStructFieldUser [BOOLEAN FieldInUnion]:
<< UINT32 ArrayNum = 0; >>
T:StringIdentifier
N:StringIdentifier
{
OpenBracket I:Number CloseBracket << ArrayNum = _STOU32(I->getText(), I->getLine()); >>
}
";" << _PCATCH(gCVfrVarDataTypeDB.DataTypeAddField (N->getText(), T->getText(), ArrayNum, FieldInUnion), T); >>
;
dataStructBitField64[BOOLEAN FieldInUnion]:
<<
UINT32 Width = 0;
BOOLEAN HasBitFieldName = FALSE;
>>
D:"UINT64"
{
N:StringIdentifier << HasBitFieldName = TRUE;>>
}
":" I:Number << Width = _STOU32(I->getText(), I->getLine());>>
";" << if (HasBitFieldName) {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (N->getText(), D->getText(), Width, FieldInUnion), N);
} else {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (NULL, D->getText(), Width, FieldInUnion), D);
}
>>
;
dataStructBitField32[BOOLEAN FieldInUnion]:
<<
UINT32 Width = 0;
BOOLEAN HasBitFieldName = FALSE;
>>
D:"UINT32"
{
N:StringIdentifier << HasBitFieldName = TRUE;>>
}
":" I:Number << Width = _STOU32(I->getText(), I->getLine());>>
";" << if (HasBitFieldName) {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (N->getText(), D->getText(), Width, FieldInUnion), N);
} else {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (NULL, D->getText(), Width, FieldInUnion), D);
}
>>
;
dataStructBitField16[BOOLEAN FieldInUnion]:
<<
UINT32 Width = 0;
BOOLEAN HasBitFieldName = FALSE;
>>
D:"UINT16"
{
N:StringIdentifier << HasBitFieldName = TRUE;>>
}
":" I:Number << Width = _STOU32(I->getText(), I->getLine());>>
";" << if (HasBitFieldName) {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (N->getText(), D->getText(), Width, FieldInUnion), N);
} else {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (NULL, D->getText(), Width, FieldInUnion), D);
}
>>
;
dataStructBitField8[BOOLEAN FieldInUnion]:
<<
UINT32 Width = 0;
BOOLEAN HasBitFieldName = FALSE;
>>
D:"UINT8"
{
N:StringIdentifier << HasBitFieldName = TRUE;>>
}
":" I:Number << Width = _STOU32(I->getText(), I->getLine());>>
";" << if (HasBitFieldName) {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (N->getText(), D->getText(), Width, FieldInUnion), N);
} else {
_PCATCH(gCVfrVarDataTypeDB.DataTypeAddBitField (NULL, D->getText(), Width, FieldInUnion), D);
}
>>
;
//*****************************************************************************
//
// the syntax of GUID definition
//
guidSubDefinition [EFI_GUID &Guid] :
G4:Number "," G5:Number "," G6:Number "," G7:Number "," G8:Number "," G9:Number "," G10:Number "," G11:Number
<<
Guid.Data4[0] = _STOU8(G4->getText(), G4->getLine());
Guid.Data4[1] = _STOU8(G5->getText(), G5->getLine());
Guid.Data4[2] = _STOU8(G6->getText(), G6->getLine());
Guid.Data4[3] = _STOU8(G7->getText(), G7->getLine());
Guid.Data4[4] = _STOU8(G8->getText(), G8->getLine());
Guid.Data4[5] = _STOU8(G9->getText(), G9->getLine());
Guid.Data4[6] = _STOU8(G10->getText(), G10->getLine());
Guid.Data4[7] = _STOU8(G11->getText(), G11->getLine());
>>
;
guidDefinition [EFI_GUID &Guid] :
OpenBrace
G1:Number "," G2:Number "," G3:Number ","
<<
Guid.Data1 = _STOU32 (G1->getText(), G1->getLine());
Guid.Data2 = _STOU16 (G2->getText(), G2->getLine());
Guid.Data3 = _STOU16 (G3->getText(), G3->getLine());
>>
(
OpenBrace guidSubDefinition[Guid] CloseBrace
| guidSubDefinition[Guid]
)
CloseBrace
;
//*****************************************************************************
//
// the syntax of form set definition
//
vfrFormSetDefinition :
<<
EFI_GUID Guid;
EFI_GUID DefaultClassGuid = EFI_HII_PLATFORM_SETUP_FORMSET_GUID;
EFI_GUID ClassGuid1, ClassGuid2, ClassGuid3;
UINT8 ClassGuidNum = 0;
CIfrFormSet *FSObj = NULL;
UINT16 C, SC;
CHAR8* InsertOpcodeAddr = NULL;
>>
L:FormSet
Uuid "=" guidDefinition[Guid] ","
Title "=" "STRING_TOKEN" "\(" S1:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" S2:Number "\)" ","
{
ClassGuid "=" guidDefinition[ClassGuid1] << ++ClassGuidNum; >>
{
"\|" guidDefinition[ClassGuid2] << ++ClassGuidNum; >>
{
"\|" guidDefinition[ClassGuid3] << ++ClassGuidNum; >>
}
}
","
}
<<
if (mOverrideClassGuid != NULL && ClassGuidNum >= 3) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "Already has 3 class guids, can't add extra class guid!");
}
switch (ClassGuidNum) {
case 0:
if (mOverrideClassGuid != NULL) {
ClassGuidNum = 2;
} else {
ClassGuidNum = 1;
}
FSObj = new CIfrFormSet(sizeof(EFI_IFR_FORM_SET) + ClassGuidNum * sizeof(EFI_GUID));
FSObj->SetClassGuid(&DefaultClassGuid);
if (mOverrideClassGuid != NULL) {
FSObj->SetClassGuid(mOverrideClassGuid);
}
break;
case 1:
if (mOverrideClassGuid != NULL) {
ClassGuidNum ++;
}
FSObj = new CIfrFormSet(sizeof(EFI_IFR_FORM_SET) + ClassGuidNum * sizeof(EFI_GUID));
FSObj->SetClassGuid(&ClassGuid1);
if (mOverrideClassGuid != NULL) {
FSObj->SetClassGuid(mOverrideClassGuid);
}
break;
case 2:
if (mOverrideClassGuid != NULL) {
ClassGuidNum ++;
}
FSObj = new CIfrFormSet(sizeof(EFI_IFR_FORM_SET) + ClassGuidNum * sizeof(EFI_GUID));
FSObj->SetClassGuid(&ClassGuid1);
FSObj->SetClassGuid(&ClassGuid2);
if (mOverrideClassGuid != NULL) {
FSObj->SetClassGuid(mOverrideClassGuid);
}
break;
case 3:
FSObj = new CIfrFormSet(sizeof(EFI_IFR_FORM_SET) + ClassGuidNum * sizeof(EFI_GUID));
FSObj->SetClassGuid(&ClassGuid1);
FSObj->SetClassGuid(&ClassGuid2);
FSObj->SetClassGuid(&ClassGuid3);
break;
default:
break;
}
SET_LINE_INFO (*FSObj, L);
FSObj->SetGuid (&Guid);
//
// for framework vfr to store formset guid used by varstore and efivarstore
//
if (mCompatibleMode) {
memcpy (&mFormsetGuid, &Guid, sizeof (EFI_GUID));
}
FSObj->SetFormSetTitle (_STOSID(S1->getText(), S1->getLine()));
FSObj->SetHelp (_STOSID(S2->getText(), S2->getLine()));
>>
{
FC:Class "=" classDefinition[C] "," << {CIfrClass CObj;SET_LINE_INFO (CObj, FC); CObj.SetClass(C);} >>
}
{
FSC:Subclass "=" subclassDefinition[SC] "," << {CIfrSubClass SCObj; SET_LINE_INFO (SCObj, FSC); SCObj.SetSubClass(SC);} >>
}
<<
_DeclareStandardDefaultStorage (GET_LINENO (L));
>>
vfrFormSetList
E:EndFormSet <<
if (mCompatibleMode) {
//
// declare all undefined varstore and efivarstore
//
_DeclareDefaultFrameworkVarStore (GET_LINENO(E));
}
//
// Declare undefined Question so that they can be used in expression.
//
if (gCFormPkg.HavePendingUnassigned()) {
mParserStatus += gCFormPkg.DeclarePendingQuestion (
gCVfrVarDataTypeDB,
gCVfrDataStorage,
mCVfrQuestionDB,
&mFormsetGuid,
E->getLine(),
&InsertOpcodeAddr
);
gNeedAdjustOpcode = TRUE;
}
CRT_END_OP (E);
//
// Adjust the pending question position.
// Move the position from current to before the end of the last form in the form set.
//
if (gNeedAdjustOpcode) {
gCFormPkg.AdjustDynamicInsertOpcode (
mLastFormEndAddr,
InsertOpcodeAddr,
FALSE
);
}
if (FSObj != NULL) {
delete FSObj;
}
>>
";"
;
vfrFormSetList :
(
vfrFormDefinition |
vfrFormMapDefinition |
vfrStatementImage |
vfrStatementVarStoreLinear |
vfrStatementVarStoreEfi |
vfrStatementVarStoreNameValue |
vfrStatementDefaultStore |
vfrStatementDisableIfFormSet |
vfrStatementSuppressIfFormSet |
vfrStatementExtension
)*
;
vfrStatementExtension:
<<
EFI_GUID Guid;
CIfrGuid *GuidObj = NULL;
CHAR8 *TypeName = NULL;
UINT32 TypeSize = 0;
UINT8 *DataBuff = NULL;
UINT32 Size = 0;
UINT8 Idx = 0;
UINT32 LineNum;
BOOLEAN IsStruct = FALSE;
UINT32 ArrayNum = 0;
>>
L:GuidOp
Uuid "=" guidDefinition[Guid]
{"," DataType "="
(
U64:"UINT64" {OpenBracket AN1:Number CloseBracket <<ArrayNum = _STOU32(AN1->getText(), AN1->getLine());>>}
<< TypeName = U64->getText(); LineNum = U64->getLine(); >>
| U32:"UINT32" {OpenBracket AN2:Number CloseBracket <<ArrayNum = _STOU32(AN2->getText(), AN2->getLine());>>}
<< TypeName = U32->getText(); LineNum = U32->getLine(); >>
| U16:"UINT16" {OpenBracket AN3:Number CloseBracket <<ArrayNum = _STOU32(AN3->getText(), AN3->getLine());>>}
<< TypeName = U16->getText(); LineNum = U16->getLine(); >>
| U8:"UINT8" {OpenBracket AN4:Number CloseBracket <<ArrayNum = _STOU32(AN4->getText(), AN4->getLine());>>}
<< TypeName = U8->getText(); LineNum = U8->getLine(); >>
| BL:"BOOLEAN" {OpenBracket AN5:Number CloseBracket <<ArrayNum = _STOU32(AN5->getText(), AN5->getLine());>>}
<< TypeName = BL->getText(); LineNum = BL->getLine(); >>
| SI:"EFI_STRING_ID" {OpenBracket AN6:Number CloseBracket <<ArrayNum = _STOU32(AN6->getText(), AN6->getLine());>>}
<< TypeName = SI->getText(); LineNum = SI->getLine(); >>
| D:"EFI_HII_DATE" {OpenBracket AN7:Number CloseBracket <<ArrayNum = _STOU32(AN7->getText(), AN7->getLine());>>}
<< TypeName = D->getText(); LineNum = D->getLine(); IsStruct = TRUE;>>
| T:"EFI_HII_TIME" {OpenBracket AN8:Number CloseBracket <<ArrayNum = _STOU32(AN8->getText(), AN8->getLine());>>}
<< TypeName = T->getText(); LineNum = T->getLine(); IsStruct = TRUE;>>
| R:"EFI_HII_REF" {OpenBracket AN9:Number CloseBracket <<ArrayNum = _STOU32(AN9->getText(), AN9->getLine());>>}
<< TypeName = R->getText(); LineNum = R->getLine(); IsStruct = TRUE;>>
| TN:StringIdentifier {OpenBracket AN10:Number CloseBracket <<ArrayNum = _STOU32(AN10->getText(), AN10->getLine());>>}
<< TypeName = TN->getText(); LineNum = TN->getLine(); IsStruct = TRUE;>>
)
<<
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize(TypeName, &TypeSize), LineNum);
if (ArrayNum > 0) {
Size = TypeSize*ArrayNum;
} else {
Size = TypeSize;
}
if (Size > (128 - sizeof (EFI_IFR_GUID))) return;
DataBuff = (UINT8 *)malloc(Size);
for (Idx = 0; Idx < Size; Idx++) {
DataBuff[Idx] = 0;
}
>>
vfrExtensionData [DataBuff, Size, TypeName, TypeSize, IsStruct, ArrayNum]
}
<<
{
GuidObj = new CIfrGuid(Size);
if (GuidObj != NULL) {
GuidObj->SetLineNo(L->getLine());
GuidObj->SetGuid (&Guid);
}
}
if (TypeName != NULL) {
GuidObj->SetData(DataBuff, Size);
}
>>
{","
(
vfrStatementExtension
)*
E:EndGuidOp << GuidObj->SetScope(1); CRT_END_OP (E); >>
}
<<
if (GuidObj != NULL) delete GuidObj;
if (DataBuff != NULL) free(DataBuff);
>>
";"
;
vfrExtensionData[UINT8 *DataBuff, UINT32 Size, CHAR8 *TypeName, UINT32 TypeSize, BOOLEAN IsStruct, UINT32 ArrayNum]:
<<
CHAR8 *TFName = NULL;
UINT32 ArrayIdx = 0;
UINT16 FieldOffset;
UINT8 FieldType;
UINT32 FieldSize;
UINT64 Data_U64 = 0;
UINT32 Data_U32 = 0;
UINT16 Data_U16 = 0;
UINT8 Data_U8 = 0;
BOOLEAN Data_BL = 0;
EFI_STRING_ID Data_SID = 0;
BOOLEAN IsArray = FALSE;
UINT8 *ByteOffset = NULL;
BOOLEAN BitField = FALSE;
UINT64 Value;
UINT64 Mask;
UINT16 Offset;
UINT8 PreBits;
>>
(
("," "data" {OpenBracket IDX1:Number CloseBracket <<IsArray = TRUE;>>}
<<
ArrayIdx = 0;
if (IsArray == TRUE) {
ArrayIdx = _STOU8(IDX1->getText(), IDX1->getLine());
if (ArrayIdx >= ArrayNum) return;
IsArray = FALSE;
}
ByteOffset = DataBuff + (ArrayIdx * TypeSize);
if (IsStruct == TRUE) {
_STRCAT(&TFName, TypeName);
}
>>
("." FN:StringIdentifier
<<
if (IsStruct == TRUE) {
_STRCAT(&TFName, ".");
_STRCAT(&TFName, FN->getText());
}
>>
{
OpenBracket IDX2:Number CloseBracket
<<
if (IsStruct == TRUE) {
_STRCAT(&TFName, "[");
_STRCAT(&TFName, IDX2->getText());
_STRCAT(&TFName, "]");
}
>>
}
)*
"=" RD:Number
<<
if (IsStruct == FALSE) {
if (strcmp ("UINT64", TypeName) == 0) {
Data_U64 = _STOU64(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_U64, TypeSize);
}else if (strcmp ("UINT32", TypeName) == 0) {
Data_U32 = _STOU32(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_U32, TypeSize);
}else if (strcmp ("UINT16", TypeName) == 0) {
Data_U16 = _STOU16(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_U16, TypeSize);
}else if (strcmp ("UINT8", TypeName) == 0) {
Data_U8 = _STOU8(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_U8, TypeSize);
}else if (strcmp ("BOOLEAN", TypeName)== 0) {
Data_BL = _STOU8(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_BL, TypeSize);
}else if (strcmp ("EFI_STRING_ID", TypeName) == 0) {
Data_SID = _STOSID(RD->getText(), RD->getLine());
memcpy (ByteOffset, &Data_SID, TypeSize);
}
} else {
gCVfrVarDataTypeDB.GetDataFieldInfo(TFName, FieldOffset, FieldType, FieldSize, BitField);
if (BitField) {
Mask = (1 << FieldSize) - 1;
Offset = FieldOffset / 8;
PreBits = FieldOffset % 8;
Mask <<= PreBits;
}
switch (FieldType) {
case EFI_IFR_TYPE_NUM_SIZE_8:
Data_U8 = _STOU8(RD->getText(), RD->getLine());
if (BitField) {
//
// Set the value to the bit fileds.
//
Value = *(UINT8*) (ByteOffset + Offset);
Data_U8 <<= PreBits;
Value = (Value & (~Mask)) | Data_U8;
memcpy (ByteOffset + Offset, &Value, sizeof (UINT8));
} else {
memcpy (ByteOffset + FieldOffset, &Data_U8, FieldSize);
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16:
Data_U16 = _STOU16(RD->getText(), RD->getLine());
if (BitField) {
//
// Set the value to the bit fileds.
//
Value = *(UINT16*) (ByteOffset + Offset);
Data_U16 <<= PreBits;
Value = (Value & (~Mask)) | Data_U16;
memcpy (ByteOffset + Offset, &Value, sizeof (UINT16));
} else {
memcpy (ByteOffset + FieldOffset, &Data_U16, FieldSize);
}
break;
case EFI_IFR_TYPE_NUM_SIZE_32:
Data_U32 = _STOU32(RD->getText(), RD->getLine());
if (BitField) {
//
// Set the value to the bit fileds.
//
Value = *(UINT32*) (ByteOffset + Offset);
Data_U32 <<= PreBits;
Value = (Value & (~Mask)) | Data_U32;
memcpy (ByteOffset + Offset, &Value, sizeof (UINT32));
} else {
memcpy (ByteOffset + FieldOffset, &Data_U32, FieldSize);
}
break;
case EFI_IFR_TYPE_NUM_SIZE_64:
Data_U64 = _STOU64(RD->getText(), RD->getLine());
if (BitField) {
//
// Set the value to the bit fileds.
//
Value = *(UINT64*) (ByteOffset + Offset);
Data_U64 <<= PreBits;
Value = (Value & (~Mask)) | Data_U64;
memcpy (ByteOffset + Offset, &Value, sizeof (UINT64));
} else {
memcpy (ByteOffset + FieldOffset, &Data_U64, FieldSize);
}
break;
case EFI_IFR_TYPE_BOOLEAN:
Data_BL = _STOU8(RD->getText(), RD->getLine());
memcpy (ByteOffset + FieldOffset, &Data_BL, FieldSize);
break;
case EFI_IFR_TYPE_STRING:
Data_SID = _STOSID(RD->getText(), RD->getLine());
memcpy (ByteOffset + FieldOffset, &Data_SID, FieldSize);
break;
default:
break;
}
}
if (TFName != NULL) { delete TFName; TFName = NULL; }
>>
)*
)
;
vfrStatementDefaultStore :
<< UINT16 DefaultId = EFI_HII_DEFAULT_CLASS_STANDARD; >>
D:DefaultStore N:StringIdentifier ","
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)"
{
"," Attribute "=" A:Number << DefaultId = _STOU16(A->getText(), A->getLine()); >>
}
<<
if (gCVfrDefaultStore.DefaultIdRegistered (DefaultId) == FALSE) {
CIfrDefaultStore DSObj;
_PCATCH(gCVfrDefaultStore.RegisterDefaultStore (DSObj.GetObjBinAddr<CHAR8>(), N->getText(), _STOSID(S->getText(), S->getLine()), DefaultId)), D->getLine();
DSObj.SetLineNo(D->getLine());
DSObj.SetDefaultName (_STOSID(S->getText(), S->getLine()));
DSObj.SetDefaultId (DefaultId);
} else {
_PCATCH(gCVfrDefaultStore.ReRegisterDefaultStoreById (DefaultId, N->getText(), _STOSID(S->getText(), S->getLine()))), D->getLine();
}
>>
";"
;
vfrStatementVarStoreLinear :
<<
EFI_GUID Guid;
CIfrVarStore VSObj;
CHAR8 *TypeName;
CHAR8 *StoreName;
UINT32 LineNum;
EFI_VARSTORE_ID VarStoreId = EFI_VARSTORE_ID_INVALID;
UINT32 Size;
BOOLEAN IsBitVarStore = FALSE;
>>
V:Varstore << VSObj.SetLineNo(V->getLine()); >>
(
TN:StringIdentifier "," << TypeName = TN->getText(); LineNum = TN->getLine(); IsBitVarStore = gCVfrVarDataTypeDB.DataTypeHasBitField (TN->getText());>>
| U8:"UINT8" "," << TypeName = U8->getText(); LineNum = U8->getLine(); >>
| U16:"UINT16" "," << TypeName = U16->getText(); LineNum = U16->getLine(); >>
| C16:"CHAR16" "," << TypeName = (CHAR8 *) "UINT16"; LineNum = C16->getLine(); >>
| U32:"UINT32" "," << TypeName = U32->getText(); LineNum = U32->getLine(); >>
| U64:"UINT64" "," << TypeName = U64->getText(); LineNum = U64->getLine(); >>
| D:"EFI_HII_DATE" "," << TypeName = D->getText(); LineNum = D->getLine(); >>
| T:"EFI_HII_TIME" "," << TypeName = T->getText(); LineNum = T->getLine(); >>
| R:"EFI_HII_REF" "," << TypeName = R->getText(); LineNum = R->getLine(); >>
)
{ Key "=" FID:Number "," << // Key is used to assign Varid in Framework VFR but no use in UEFI2.1 VFR
if (mCompatibleMode) {
VarStoreId = _STOU16(FID->getText(), FID->getLine());
}
>>
}
{
VarId "=" ID:Number "," <<
_PCATCH(
(INTN)(VarStoreId = _STOU16(ID->getText(), ID->getLine())) != 0,
(INTN)TRUE,
ID,
"varid 0 is not allowed."
);
>>
}
Name "=" SN:StringIdentifier ","
Uuid "=" guidDefinition[Guid]
<<
if (mCompatibleMode) {
StoreName = TypeName;
} else {
StoreName = SN->getText();
}
_PCATCH(gCVfrDataStorage.DeclareBufferVarStore (
StoreName,
&Guid,
&gCVfrVarDataTypeDB,
TypeName,
VarStoreId,
IsBitVarStore
), LineNum);
VSObj.SetGuid (&Guid);
_PCATCH(gCVfrDataStorage.GetVarStoreId(StoreName, &VarStoreId, &Guid), SN);
VSObj.SetVarStoreId (VarStoreId);
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize(TypeName, &Size), LineNum);
VSObj.SetSize ((UINT16) Size);
VSObj.SetName (SN->getText());
>>
";"
;
vfrStatementVarStoreEfi :
<<
BOOLEAN IsUEFI23EfiVarstore = TRUE;
EFI_GUID Guid;
CIfrVarStoreEfi VSEObj;
EFI_VARSTORE_ID VarStoreId = EFI_VARSTORE_ID_INVALID;
UINT32 Attr = 0;
UINT32 Size;
CHAR8 *TypeName;
UINT32 LineNum;
CHAR8 *StoreName = NULL;
BOOLEAN CustomizedName = FALSE;
BOOLEAN IsBitVarStore = FALSE;
>>
E:Efivarstore << VSEObj.SetLineNo(E->getLine()); >>
(
TN:StringIdentifier "," << TypeName = TN->getText(); LineNum = TN->getLine(); CustomizedName = TRUE; IsBitVarStore = gCVfrVarDataTypeDB.DataTypeHasBitField (TN->getText());>>
| U8:"UINT8" "," << TypeName = U8->getText(); LineNum = U8->getLine(); >>
| U16:"UINT16" "," << TypeName = U16->getText(); LineNum = U16->getLine(); >>
| C16:"CHAR16" "," << TypeName = (CHAR8 *) "UINT16"; LineNum = C16->getLine(); >>
| U32:"UINT32" "," << TypeName = U32->getText(); LineNum = U32->getLine(); >>
| U64:"UINT64" "," << TypeName = U64->getText(); LineNum = U64->getLine(); >>
| D:"EFI_HII_DATE" "," << TypeName = D->getText(); LineNum = D->getLine(); >>
| T:"EFI_HII_TIME" "," << TypeName = T->getText(); LineNum = T->getLine(); >>
| R:"EFI_HII_REF" "," << TypeName = R->getText(); LineNum = R->getLine(); >>
)
{
VarId "=" ID:Number "," <<
_PCATCH(
(INTN)(VarStoreId = _STOU16(ID->getText(), ID->getLine())) != 0,
(INTN)TRUE,
ID,
"varid 0 is not allowed."
);
>>
}
Attribute "=" vfrVarStoreEfiAttr[Attr] ( "\|" vfrVarStoreEfiAttr[Attr] )* ","
<< VSEObj.SetAttributes (Attr); >>
(
Name "=" SN:StringIdentifier "," << StoreName = SN->getText(); >>
|
Name "=" "STRING_TOKEN" "\(" VN:Number "\)" ","
VarSize "=" N:Number "," <<
IsUEFI23EfiVarstore = FALSE;
StoreName = gCVfrStringDB.GetVarStoreNameFormStringId(_STOSID(VN->getText(), VN->getLine()));
if (StoreName == NULL) {
_PCATCH (VFR_RETURN_UNSUPPORTED, VN->getLine(), "Can't get varstore name for this StringId!");
}
if (!CustomizedName) {
_PCATCH (VFR_RETURN_UNSUPPORTED, E->getLine(), "Old style efivarstore must have String Identifier!");
return;
}
Size = _STOU32(N->getText(), N->getLine());
switch (Size) {
case 1:
TypeName = (CHAR8 *) "UINT8";
break;
case 2:
TypeName = (CHAR8 *) "UINT16";
break;
case 4:
TypeName = (CHAR8 *) "UINT32";
break;
case 8:
TypeName = (CHAR8 *) "UINT64";
break;
default:
_PCATCH (VFR_RETURN_UNSUPPORTED, N);
break;
}
>>
)
Uuid "=" guidDefinition[Guid] <<
if (IsUEFI23EfiVarstore) {
_PCATCH(gCVfrDataStorage.DeclareBufferVarStore (
StoreName,
&Guid,
&gCVfrVarDataTypeDB,
TypeName,
VarStoreId,
IsBitVarStore
), LineNum);
_PCATCH(gCVfrDataStorage.GetVarStoreId(StoreName, &VarStoreId, &Guid), SN);
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize(TypeName, &Size), LineNum);
} else {
_PCATCH(gCVfrDataStorage.DeclareBufferVarStore (
TN->getText(),
&Guid,
&gCVfrVarDataTypeDB,
TypeName,
VarStoreId,
FALSE
), LineNum);
_PCATCH(gCVfrDataStorage.GetVarStoreId(TN->getText(), &VarStoreId, &Guid), VN);
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize(TypeName, &Size), N->getLine());
}
VSEObj.SetGuid (&Guid);
VSEObj.SetVarStoreId (VarStoreId);
VSEObj.SetSize ((UINT16) Size);
VSEObj.SetName (StoreName);
if (IsUEFI23EfiVarstore == FALSE && StoreName != NULL) {
delete StoreName;
}
>>
";"
;
vfrVarStoreEfiAttr [UINT32 & Attr] :
N:Number << $Attr |= _STOU32(N->getText(), N->getLine()); >>
;
vfrStatementVarStoreNameValue :
<<
EFI_GUID Guid;
CIfrVarStoreNameValue VSNVObj;
EFI_VARSTORE_ID VarStoreId = EFI_VARSTORE_ID_INVALID;
BOOLEAN Created = FALSE;
>>
L:NameValueVarStore << VSNVObj.SetLineNo(L->getLine()); >>
SN:StringIdentifier ","
{
VarId "=" ID:Number "," <<
_PCATCH(
(INTN)(VarStoreId = _STOU16(ID->getText(), ID->getLine())) != 0,
(INTN)TRUE,
ID,
"varid 0 is not allowed."
);
>>
}
(
Name "=" "STRING_TOKEN" "\(" N:Number "\)" "," <<
if (!Created) {
_PCATCH(gCVfrDataStorage.DeclareNameVarStoreBegin (SN->getText(), VarStoreId), SN);
Created = TRUE;
}
_PCATCH(gCVfrDataStorage.NameTableAddItem (_STOSID(N->getText(), N->getLine())), SN);
>>
)+
Uuid "=" guidDefinition[Guid] << _PCATCH(gCVfrDataStorage.DeclareNameVarStoreEnd (&Guid), SN); >>
<<
VSNVObj.SetGuid (&Guid);
_PCATCH(gCVfrDataStorage.GetVarStoreId(SN->getText(), &VarStoreId, &Guid), SN);
VSNVObj.SetVarStoreId (VarStoreId);
>>
";"
;
//
// keep classDeinition and validClassNames for compatibility but not generate
// any IFR object
//
classDefinition[UINT16 & Class] :
<< $Class = 0; >>
validClassNames[$Class] ( "\|" validClassNames[$Class] )*
;
validClassNames[UINT16 & Class] :
ClassNonDevice << $Class |= EFI_NON_DEVICE_CLASS; >>
| ClassDiskDevice << $Class |= EFI_DISK_DEVICE_CLASS; >>
| ClassVideoDevice << $Class |= EFI_VIDEO_DEVICE_CLASS; >>
| ClassNetworkDevice << $Class |= EFI_NETWORK_DEVICE_CLASS; >>
| ClassInputDevice << $Class |= EFI_INPUT_DEVICE_CLASS; >>
| ClassOnBoardDevice << $Class |= EFI_ON_BOARD_DEVICE_CLASS; >>
| ClassOtherDevice << $Class |= EFI_OTHER_DEVICE_CLASS; >>
| N:Number << $Class |= _STOU16(N->getText(), N->getLine()); >>
;
subclassDefinition[UINT16 & SubClass] :
<< $SubClass = 0; >>
SubclassSetupApplication << $SubClass |= EFI_SETUP_APPLICATION_SUBCLASS; >>
| SubclassGeneralApplication << $SubClass |= EFI_GENERAL_APPLICATION_SUBCLASS; >>
| SubclassFrontPage << $SubClass |= EFI_FRONT_PAGE_SUBCLASS; >>
| SubclassSingleUse << $SubClass |= EFI_SINGLE_USE_SUBCLASS; >>
| N:Number << $SubClass |= _STOU16(N->getText(), N->getLine()); >>
;
vfrStatementDisableIfFormSet :
<<
CIfrDisableIf DIObj;
mConstantOnlyInExpression = TRUE;
>>
D:DisableIf << DIObj.SetLineNo(D->getLine()); >>
vfrStatementExpression[0] ";" << mConstantOnlyInExpression = FALSE; >>
vfrFormSetList
E:EndIf << CRT_END_OP (E); >>
";"
;
vfrStatementSuppressIfFormSet :
<< CIfrSuppressIf SIObj;>>
L:SuppressIf <<
if (mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
SIObj.SetLineNo(L->getLine());
>>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0] ";"
vfrFormSetList
E: EndIf
";" << CRT_END_OP (E); >>
;
//*****************************************************************************
//
// the syntax of question header and statement header
//
vfrStatementHeader[CIfrStatementHeader *SHObj] :
Prompt "=" "STRING_TOKEN" "\(" S1:Number "\)" "," << $SHObj->SetPrompt (_STOSID(S1->getText(), S1->getLine())); >>
Help "=" "STRING_TOKEN" "\(" S2:Number "\)" << $SHObj->SetHelp (_STOSID(S2->getText(), S2->getLine())); >>
;
vfrQuestionBaseInfo[EFI_VARSTORE_INFO & Info, EFI_QUESTION_ID & QId, EFI_QUESION_TYPE QType = QUESTION_NORMAL]:
<<
CHAR8 *QName = NULL;
CHAR8 *VarIdStr = NULL;
mUsedDefaultCount = 0;
>>
{
Name "=" QN:StringIdentifier "," <<
QName = QN->getText();
_PCATCH(mCVfrQuestionDB.FindQuestion (QName), VFR_RETURN_UNDEFINED, QN, "has already been used please used anther name");
>>
}
{ V:VarId "=" vfrStorageVarId[Info, VarIdStr] "," }
{
QuestionId "=" ID:Number "," <<
QId = _STOQID(ID->getText(), ID->getLine());
_PCATCH(mCVfrQuestionDB.FindQuestion (QId), VFR_RETURN_UNDEFINED, ID, "has already been used please assign another number");
>>
}
<<
switch (QType) {
case QUESTION_NORMAL:
mCVfrQuestionDB.RegisterQuestion (QName, VarIdStr, QId);
break;
case QUESTION_DATE:
mCVfrQuestionDB.RegisterNewDateQuestion (QName, VarIdStr, QId);
break;
case QUESTION_TIME:
mCVfrQuestionDB.RegisterNewTimeQuestion (QName, VarIdStr, QId);
break;
case QUESTION_REF:
//
// VarIdStr != NULL stand for question with storagae.
//
if (VarIdStr != NULL) {
mCVfrQuestionDB.RegisterRefQuestion (QName, VarIdStr, QId);
} else {
mCVfrQuestionDB.RegisterQuestion (QName, NULL, QId);
}
break;
default:
_PCATCH(VFR_RETURN_FATAL_ERROR);
}
>>
<<
if (VarIdStr != NULL) {
delete VarIdStr;
}
_SAVE_CURRQEST_VARINFO (Info);
>>
;
vfrQuestionHeader[CIfrQuestionHeader & QHObj, EFI_QUESION_TYPE QType = QUESTION_NORMAL]:
<<
EFI_VARSTORE_INFO Info;
Info.mVarType = EFI_IFR_TYPE_OTHER;
Info.mVarTotalSize = 0;
Info.mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
Info.mVarStoreId = EFI_VARSTORE_ID_INVALID;
Info.mIsBitVar = FALSE;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
>>
vfrQuestionBaseInfo[Info, QId, QType]
<< $QHObj.SetQuestionId (QId);
if (Info.mVarStoreId != EFI_VARSTORE_ID_INVALID) {
$QHObj.SetVarStoreInfo (&Info);
}
>>
vfrStatementHeader[&$QHObj]
;
questionheaderFlagsField[UINT8 & Flags] :
ReadOnlyFlag << $Flags |= 0x01; >>
| InteractiveFlag << $Flags |= 0x04; >>
| ResetRequiredFlag << $Flags |= 0x10; >>
| ReconnectRequiredFlag << $Flags |= 0x40; >>
| O:OptionOnlyFlag <<
if (mCompatibleMode) {
$Flags |= 0x80;
} else {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
O->getLine(),
O->getText()
);
}
>>
| N:NVAccessFlag <<
if (!mCompatibleMode) {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
N->getLine(),
N->getText()
);
}
>>
| L:LateCheckFlag <<
if (!mCompatibleMode) {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
L->getLine(),
L->getText()
);
}
>>
;
vfrStorageVarId[EFI_VARSTORE_INFO & Info, CHAR8 *&QuestVarIdStr, BOOLEAN CheckFlag = TRUE] :
<<
UINT32 Idx;
UINT32 LineNo;
EFI_VFR_VARSTORE_TYPE VarStoreType = EFI_VFR_VARSTORE_INVALID;
CHAR8 *VarIdStr = NULL;
CHAR8 *VarStr = NULL;
CHAR8 *SName = NULL;
CHAR8 *TName = NULL;
EFI_VFR_RETURN_CODE VfrReturnCode = VFR_RETURN_SUCCESS;
EFI_IFR_TYPE_VALUE Dummy = gZeroEfiIfrTypeValue;
EFI_GUID *VarGuid = NULL;
>>
(
SN1:StringIdentifier << SName = SN1->getText(); _STRCAT(&VarIdStr, SN1->getText()); >>
OpenBracket I1:Number CloseBracket <<
Idx = _STOU32(I1->getText(), I1->getLine());
_STRCAT(&VarIdStr, "[");
_STRCAT(&VarIdStr, I1->getText());
_STRCAT(&VarIdStr, "]");
>>
<<
VfrReturnCode = gCVfrDataStorage.GetVarStoreId(SName, &$Info.mVarStoreId);
if (mCompatibleMode && VfrReturnCode == VFR_RETURN_UNDEFINED) {
gCVfrDataStorage.DeclareBufferVarStore (
SName,
&mFormsetGuid,
&gCVfrVarDataTypeDB,
SName,
EFI_VARSTORE_ID_INVALID,
FALSE,
FALSE
);
VfrReturnCode = gCVfrDataStorage.GetVarStoreId(SName, &$Info.mVarStoreId, &mFormsetGuid);
}
if (CheckFlag || VfrReturnCode == VFR_RETURN_SUCCESS) {
_PCATCH(VfrReturnCode, SN1);
_PCATCH(gCVfrDataStorage.GetNameVarStoreInfo (&$Info, Idx), SN1);
}
QuestVarIdStr = VarIdStr;
>>
)
|
(
SN2:StringIdentifier << SName = SN2->getText(); _STRCAT(&VarIdStr, SName); >>
<<
VfrReturnCode = gCVfrDataStorage.GetVarStoreId(SName, &$Info.mVarStoreId);
if (mCompatibleMode && VfrReturnCode == VFR_RETURN_UNDEFINED) {
gCVfrDataStorage.DeclareBufferVarStore (
SName,
&mFormsetGuid,
&gCVfrVarDataTypeDB,
SName,
EFI_VARSTORE_ID_INVALID,
FALSE
);
VfrReturnCode = gCVfrDataStorage.GetVarStoreId(SName, &$Info.mVarStoreId, &mFormsetGuid);
}
if (CheckFlag || VfrReturnCode == VFR_RETURN_SUCCESS) {
_PCATCH(VfrReturnCode, SN2);
VarStoreType = gCVfrDataStorage.GetVarStoreType ($Info.mVarStoreId);
if (VarStoreType == EFI_VFR_VARSTORE_BUFFER || VarStoreType == EFI_VFR_VARSTORE_BUFFER_BITS) {
_PCATCH(gCVfrDataStorage.GetBufferVarStoreDataTypeName(Info.mVarStoreId, &TName), SN2);
_STRCAT(&VarStr, TName);
}
}
>>
(
"." <<
if (CheckFlag || VfrReturnCode == VFR_RETURN_SUCCESS) {
_PCATCH((((VarStoreType != EFI_VFR_VARSTORE_BUFFER) && (VarStoreType != EFI_VFR_VARSTORE_BUFFER_BITS))? VFR_RETURN_EFIVARSTORE_USE_ERROR : VFR_RETURN_SUCCESS), SN2);
}
_STRCAT(&VarIdStr, "."); _STRCAT(&VarStr, ".");
>>
SF:StringIdentifier << _STRCAT(&VarIdStr, SF->getText()); _STRCAT(&VarStr, SF->getText()); >>
{
OpenBracket I2:Number CloseBracket <<
Idx = _STOU32(I2->getText(), I2->getLine());
if (mCompatibleMode) Idx --;
if (Idx > 0) {
//
// Idx == 0, [0] can be ignored.
// Array[0] is same to Array for unify the varid name to cover [0]
//
_STRCAT(&VarIdStr, "[");
_STRCAT(&VarIdStr, I2->getText());
_STRCAT(&VarIdStr, "]");
}
_STRCAT(&VarStr, "[");
_STRCAT(&VarStr, I2->getText());
_STRCAT(&VarStr, "]");
>>
}
)* <<
switch (VarStoreType) {
case EFI_VFR_VARSTORE_EFI:
_PCATCH(gCVfrDataStorage.GetEfiVarStoreInfo (&$Info), SN2);
break;
case EFI_VFR_VARSTORE_BUFFER:
case EFI_VFR_VARSTORE_BUFFER_BITS:
_PCATCH(gCVfrVarDataTypeDB.GetDataFieldInfo (VarStr, $Info.mInfo.mVarOffset, $Info.mVarType, $Info.mVarTotalSize, $Info.mIsBitVar), SN2->getLine(), VarStr);
VarGuid = gCVfrDataStorage.GetVarStoreGuid($Info.mVarStoreId);
_PCATCH((EFI_VFR_RETURN_CODE)gCVfrBufferConfig.Register (
SName,
VarGuid,
NULL),
SN2->getLine());
_PCATCH((EFI_VFR_RETURN_CODE)gCVfrBufferConfig.Write (
'a',
SName,
VarGuid,
NULL,
$Info.mVarType,
$Info.mInfo.mVarOffset,
$Info.mVarTotalSize,
Dummy),
SN2->getLine());
_PCATCH(gCVfrDataStorage.AddBufferVarStoreFieldInfo(&$Info ),SN2->getLine());
break;
case EFI_VFR_VARSTORE_NAME:
default: break;
}
QuestVarIdStr = VarIdStr;
if (VarStr != NULL) {delete VarStr;}
>>
)
;
vfrQuestionDataFieldName [EFI_QUESTION_ID &QId, UINT32 &Mask, CHAR8 *&VarIdStr, UINT32 &LineNo] :
<<
UINT32 Idx;
VarIdStr = NULL; LineNo = 0;
>>
(
SN1:StringIdentifier << _STRCAT(&VarIdStr, SN1->getText()); LineNo = SN1->getLine(); >>
OpenBracket I1:Number CloseBracket <<
_STRCAT(&VarIdStr, "[");
_STRCAT(&VarIdStr, I1->getText());
_STRCAT(&VarIdStr, "]");
mCVfrQuestionDB.GetQuestionId (NULL, VarIdStr, $QId, $Mask);
if (mConstantOnlyInExpression) {
_PCATCH(VFR_RETURN_CONSTANT_ONLY, LineNo);
}
>>
)
|
(
SN2:StringIdentifier << _STRCAT (&VarIdStr, SN2->getText()); LineNo = SN2->getLine(); >>
(
"." <<
_STRCAT (&VarIdStr, ".");
if (mConstantOnlyInExpression) {
_PCATCH(VFR_RETURN_CONSTANT_ONLY, LineNo);
}
>>
SF:StringIdentifier << _STRCAT (&VarIdStr, SF->getText()); >>
{
OpenBracket I2:Number CloseBracket <<
Idx = _STOU32(I2->getText(), I2->getLine());
if (mCompatibleMode) Idx --;
if (Idx > 0) {
//
// Idx == 0, [0] can be ignored.
// Array[0] is same to Array
//
_STRCAT(&VarIdStr, "[");
_STRCAT(&VarIdStr, I2->getText());
_STRCAT(&VarIdStr, "]");
}
>>
}
)*
<< mCVfrQuestionDB.GetQuestionId (NULL, VarIdStr, $QId, $Mask); >>
)
;
vfrConstantValueField[UINT8 Type, EFI_IFR_TYPE_VALUE &Value, BOOLEAN &ListType] :
<<
EFI_GUID Guid;
BOOLEAN Negative = FALSE;
BOOLEAN IntDecStyle = FALSE;
CIfrNumeric *NumericQst = NULL;
if (gCurrentMinMaxData != NULL && gCurrentMinMaxData->IsNumericOpcode()) {
NumericQst = (CIfrNumeric *) gCurrentQuestion;
IntDecStyle = (NumericQst->GetNumericFlags() & EFI_IFR_DISPLAY) == 0 ? TRUE : FALSE;
}
UINT8 *Type8 = (UINT8 *) &Value;
UINT16 *Type16 = (UINT16 *) &Value;
UINT32 *Type32 = (UINT32 *) &Value;
UINT64 *Type64 = (UINT64 *) &Value;
UINT16 Index = 0;
ListType = FALSE;
>>
{
"\-" << Negative = TRUE; >>
}
N1:Number <<
//
// The value stored in bit fields is always set to UINT32 type.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
$Value.u32 = _STOU32(N1->getText(), N1->getLine());
} else {
switch ($Type) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
$Value.u8 = _STOU8(N1->getText(), N1->getLine());
if (IntDecStyle) {
if (Negative) {
if ($Value.u8 > 0x80) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT8 type can't big than 0x7F, small than -0x80");
}
} else {
if ($Value.u8 > 0x7F) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT8 type can't big than 0x7F, small than -0x80");
}
}
}
if (Negative) {
$Value.u8 = ~$Value.u8 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
$Value.u16 = _STOU16(N1->getText(), N1->getLine());
if (IntDecStyle) {
if (Negative) {
if ($Value.u16 > 0x8000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT16 type can't big than 0x7FFF, small than -0x8000");
}
} else {
if ($Value.u16 > 0x7FFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT16 type can't big than 0x7FFF, small than -0x8000");
}
}
}
if (Negative) {
$Value.u16 = ~$Value.u16 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
$Value.u32 = _STOU32(N1->getText(), N1->getLine());
if (IntDecStyle) {
if (Negative) {
if ($Value.u32 > 0x80000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT32 type can't big than 0x7FFFFFFF, small than -0x80000000");
}
} else {
if ($Value.u32 > 0X7FFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT32 type can't big than 0x7FFFFFFF, small than -0x80000000");
}
}
}
if (Negative) {
$Value.u32 = ~$Value.u32 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
$Value.u64 = _STOU64(N1->getText(), N1->getLine());
if (IntDecStyle) {
if (Negative) {
if ($Value.u64 > 0x8000000000000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT64 type can't big than 0x7FFFFFFFFFFFFFFF, small than -0x8000000000000000");
}
} else {
if ($Value.u64 > 0x7FFFFFFFFFFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N1->getLine(), "INT64 type can't big than 0x7FFFFFFFFFFFFFFF, small than -0x8000000000000000");
}
}
}
if (Negative) {
$Value.u64 = ~$Value.u64 + 1;
}
break;
case EFI_IFR_TYPE_BOOLEAN :
$Value.b = _STOU8(N1->getText(), N1->getLine());
break;
case EFI_IFR_TYPE_STRING :
$Value.string = _STOU16(N1->getText(), N1->getLine());
break;
case EFI_IFR_TYPE_TIME :
case EFI_IFR_TYPE_DATE :
case EFI_IFR_TYPE_REF :
default :
break;
}
}
>>
| B1:True << $Value.b = TRUE; >>
| B2:False << $Value.b = FALSE; >>
| O1:One << $Value.u8 = _STOU8(O1->getText(), O1->getLine()); >>
| O2:Ones << $Value.u64 = _STOU64(O2->getText(), O2->getLine()); >>
| Z:Zero << $Value.u8 = _STOU8(Z->getText(), Z->getLine()); >>
| HOUR:Number ":" MINUTE:Number ":" SECOND:Number << $Value.time = _STOT(HOUR->getText(), MINUTE->getText(),SECOND->getText(), HOUR->getLine()); >>
| YEAR:Number "/" MONTH:Number "/" DAY:Number << $Value.date = _STOD(YEAR->getText(), MONTH->getText(), DAY->getText(), YEAR->getLine()); >>
| QI:Number";" FI:Number";" guidDefinition[Guid] ";" "STRING_TOKEN" "\(" DP:Number "\)"
<< $Value.ref = _STOR(QI->getText(), FI->getText(), &Guid, DP->getText(), QI->getLine()); >>
| "STRING_TOKEN" "\(" S1:Number "\)" << $Value.string = _STOSID(S1->getText(), S1->getLine()); >>
| "\{" << ListType = TRUE; >>
L1:Number <<
switch (Type) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
Type8[Index] = _STOU8(L1->getText(), L1->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
Type16[Index] = _STOU16(L1->getText(), L1->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
Type32[Index] = _STOU32(L1->getText(), L1->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
Type64[Index] = _STOU64(L1->getText(), L1->getLine());
break;
default:
break;
}
Index++;
>>
(
","
L2:Number <<
switch (Type) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
Type8[Index] = _STOU8(L2->getText(), L2->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
Type16[Index] = _STOU16(L2->getText(), L2->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
Type32[Index] = _STOU32(L2->getText(), L2->getLine());
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
Type64[Index] = _STOU64(L2->getText(), L2->getLine());
break;
default:
break;
}
Index++;
>>
)*
"\}"
;
//*****************************************************************************
//
// the syntax of form definition
//
vfrFormDefinition :
<< CIfrForm FObj; >>
F:Form << FObj.SetLineNo(F->getLine()); >>
FormId "=" S1:Number "," << _PCATCH(FObj.SetFormId (_STOFID(S1->getText(), S1->getLine())), S1); >>
Title "=" "STRING_TOKEN" "\(" S2:Number "\)" ";" << FObj.SetFormTitle (_STOSID(S2->getText(), S2->getLine())); >>
(
vfrStatementImage |
vfrStatementLocked |
vfrStatementRules |
vfrStatementDefault |
vfrStatementStat |
vfrStatementQuestions |
vfrStatementConditional |
vfrStatementLabel |
vfrStatementBanner |
// Just for framework vfr compatibility
vfrStatementInvalid |
vfrStatementExtension |
vfrStatementModal |
vfrStatementRefreshEvent ";"
)*
E:EndForm <<
if (mCompatibleMode) {
//
// Add Label for Framework Vfr
//
CIfrLabel LObj1;
LObj1.SetLineNo(E->getLine());
LObj1.SetNumber (0xffff); //add end label for UEFI, label number hardcode 0xffff
CIfrLabel LObj2;
LObj2.SetLineNo(E->getLine());
LObj2.SetNumber (0x0); //add dummy label for UEFI, label number hardcode 0x0
CIfrLabel LObj3;
LObj3.SetLineNo(E->getLine());
LObj3.SetNumber (0xffff); //add end label for UEFI, label number hardcode 0xffff
}
{CIfrEnd EObj; EObj.SetLineNo (E->getLine()); mLastFormEndAddr = EObj.GetObjBinAddr<CHAR8>(); gAdjustOpcodeOffset = EObj.GetObjBinOffset ();}
>>
";"
;
vfrFormMapDefinition :
<<
CIfrFormMap *FMapObj = NULL;
UINT32 FormMapMethodNumber = 0;
EFI_GUID Guid;
>>
F:FormMap << FMapObj = new CIfrFormMap(); FMapObj->SetLineNo(F->getLine()); >>
FormId "=" S1:Number "," << _PCATCH(FMapObj->SetFormId (_STOFID(S1->getText(), S1->getLine())), S1); >>
(
MapTitle "=" "STRING_TOKEN" "\(" S2:Number "\)" ";"
MapGuid "=" guidDefinition[Guid] ";" << FMapObj->SetFormMapMethod (_STOFID(S2->getText(), S2->getLine()), &Guid); FormMapMethodNumber ++; >>
)* << if (FormMapMethodNumber == 0) {_PCATCH (VFR_RETURN_INVALID_PARAMETER, F->getLine(), "No MapMethod is set for FormMap!");} delete FMapObj;>>
(
vfrStatementImage |
vfrStatementLocked |
vfrStatementRules |
vfrStatementDefault |
vfrStatementStat |
vfrStatementQuestions |
vfrStatementConditional |
vfrStatementLabel |
vfrStatementBanner |
vfrStatementExtension |
vfrStatementModal |
vfrStatementRefreshEvent ";"
)*
E:EndForm << CRT_END_OP (E); >>
";"
;
vfrStatementRules :
<< CIfrRule RObj; >>
R:Rule << RObj.SetLineNo(R->getLine()); >>
S1:StringIdentifier "," <<
mCVfrRulesDB.RegisterRule (S1->getText());
RObj.SetRuleId (mCVfrRulesDB.GetRuleId(S1->getText()));
>>
vfrStatementExpression[0]
E:EndRule << CRT_END_OP (E); >>
";"
;
vfrStatementDefault :
<<
BOOLEAN IsExp = FALSE;
UINT64 ValueList[EFI_IFR_MAX_LENGTH] = {0,};
EFI_IFR_TYPE_VALUE *Val = (EFI_IFR_TYPE_VALUE *) ValueList;
CIfrDefault *DObj = NULL;
CIfrDefault2 *DObj2 = NULL;
EFI_DEFAULT_ID DefaultId = EFI_HII_DEFAULT_CLASS_STANDARD;
CHAR8 *VarStoreName = NULL;
EFI_VFR_VARSTORE_TYPE VarStoreType = EFI_VFR_VARSTORE_INVALID;
UINT32 Size = 0;
EFI_GUID *VarGuid = NULL;
BOOLEAN ArrayType = FALSE;
UINT8 *Type8 = (UINT8 *) ValueList;
UINT16 *Type16 = (UINT16 *) ValueList;
UINT32 *Type32 = (UINT32 *) ValueList;
UINT64 *Type64 = (UINT64 *) ValueList;
CIfrNumeric *NumericQst = NULL;
>>
D:Default
(
(
"=" vfrConstantValueField[_GET_CURRQEST_DATATYPE(), *Val, ArrayType] ","
<<
if (gCurrentMinMaxData != NULL && gCurrentMinMaxData->IsNumericOpcode()) {
//check default value is valid for Numeric Opcode
NumericQst = (CIfrNumeric *) gCurrentQuestion;
if ((NumericQst->GetNumericFlags() & EFI_IFR_DISPLAY) == 0 && !(_GET_CURRQEST_VARTINFO().mIsBitVar)) {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_8:
if (((INT8) Val->u8 < (INT8) gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), FALSE)) ||
((INT8) Val->u8 > (INT8) gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), FALSE))) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16:
if (((INT16) Val->u16 < (INT16) gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), FALSE)) ||
((INT16) Val->u16 > (INT16) gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), FALSE))) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
break;
case EFI_IFR_TYPE_NUM_SIZE_32:
if (((INT32) Val->u32 < (INT32) gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), FALSE)) ||
((INT32) Val->u32 > (INT32) gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), FALSE))) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
break;
case EFI_IFR_TYPE_NUM_SIZE_64:
if (((INT64) Val->u64 < (INT64) gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), FALSE)) ||
((INT64) Val->u64 > (INT64) gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), FALSE))) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
break;
default:
break;
}
} else {
//
// Value for question stored in bit fields is always set to UINT32 type.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
if (Val->u32 < gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), TRUE) || Val->u32 > gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), TRUE)) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
} else {
if (Val->u64 < gCurrentMinMaxData->GetMinData(_GET_CURRQEST_DATATYPE(), FALSE) || Val->u64 > gCurrentMinMaxData->GetMaxData(_GET_CURRQEST_DATATYPE(), FALSE)) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, D->getLine(), "Numeric default value must be between MinValue and MaxValue.");
}
}
}
}
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_PCATCH (VFR_RETURN_FATAL_ERROR, D->getLine(), "Default data type error.");
Size = sizeof (EFI_IFR_TYPE_VALUE);
} else if (ArrayType) {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
while (Type8[Size] != 0) {
Size++;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
while (Type16[Size] != 0) {
Size++;
}
Size *= sizeof (UINT16);
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
while (Type32[Size] != 0) {
Size++;
}
Size *= sizeof (UINT32);
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
while (Type64[Size] != 0) {
Size++;
}
Size *= sizeof (UINT64);
break;
default:
break;
}
} else {
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
Size = sizeof (UINT32);
} else {
_PCATCH (gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &Size), D->getLine());
}
}
Size += OFFSET_OF (EFI_IFR_DEFAULT, Value);
DObj = new CIfrDefault ((UINT8)Size);
DObj->SetLineNo(D->getLine());
if (ArrayType) {
DObj->SetType (EFI_IFR_TYPE_BUFFER);
} else if (gIsStringOp) {
DObj->SetType (EFI_IFR_TYPE_STRING);
} else {
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
DObj->SetType (EFI_IFR_TYPE_NUM_SIZE_32);
} else {
DObj->SetType (_GET_CURRQEST_DATATYPE());
}
}
DObj->SetValue(*Val);
>>
| << IsExp = TRUE; DObj2 = new CIfrDefault2; DObj2->SetLineNo(D->getLine()); DObj2->SetScope (1); >>
vfrStatementValue "," << CIfrEnd EndObj1; EndObj1.SetLineNo(D->getLine()); >>
)
{
DefaultStore "=" SN:StringIdentifier "," <<
_PCATCH(gCVfrDefaultStore.GetDefaultId (SN->getText(), &DefaultId), SN);
if (DObj != NULL) {
DObj->SetDefaultId (DefaultId);
}
if (DObj2 != NULL) {
DObj2->SetDefaultId (DefaultId);
}
>>
}
<<
CheckDuplicateDefaultValue (DefaultId, D);
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
_PCATCH(gCVfrDataStorage.GetVarStoreName (_GET_CURRQEST_VARTINFO().mVarStoreId, &VarStoreName), D->getLine());
VarGuid = gCVfrDataStorage.GetVarStoreGuid(_GET_CURRQEST_VARTINFO().mVarStoreId);
VarStoreType = gCVfrDataStorage.GetVarStoreType (_GET_CURRQEST_VARTINFO().mVarStoreId);
if ((IsExp == FALSE) && (VarStoreType == EFI_VFR_VARSTORE_BUFFER)) {
_PCATCH(gCVfrDefaultStore.BufferVarStoreAltConfigAdd (
DefaultId,
_GET_CURRQEST_VARTINFO(),
VarStoreName,
VarGuid,
_GET_CURRQEST_DATATYPE (),
*Val),
D->getLine()
);
}
}
if (DObj != NULL) {delete DObj;}
if (DObj2 != NULL) {delete DObj2;}
>>
)
;
vfrStatementStat :
vfrStatementSubTitle |
vfrStatementStaticText |
vfrStatementCrossReference
;
vfrStatementQuestions :
vfrStatementBooleanType |
vfrStatementDate |
vfrStatementNumericType |
vfrStatementStringType |
vfrStatementOrderedList |
vfrStatementTime
;
vfrStatementConditional :
vfrStatementDisableIfStat |
vfrStatementSuppressIfStat | //enhance to be compatible for framework endif
vfrStatementGrayOutIfStat |
vfrStatementInconsistentIfStat //to be compatible for framework
;
vfrStatementConditionalNew :
vfrStatementDisableIfStat |
vfrStatementSuppressIfStatNew |
vfrStatementGrayOutIfStatNew |
vfrStatementInconsistentIfStat //to be compatible for framework
;
vfrStatementSuppressIfStat :
<<mCompatibleMode>>? vfrStatementSuppressIfStatOld
| vfrStatementSuppressIfStatNew
;
vfrStatementGrayOutIfStat :
<<mCompatibleMode>>? vfrStatementGrayOutIfStatOld
| vfrStatementGrayOutIfStatNew
;
vfrStatementInvalid :
(
vfrStatementInvalidHidden |
vfrStatementInvalidInventory |
vfrStatementInvalidSaveRestoreDefaults
)
<< _CRT_OP (TRUE); >>
;
flagsField :
Number
| InteractiveFlag
| ManufacturingFlag
| DefaultFlag
| ResetRequiredFlag
| ReconnectRequiredFlag
| N:NVAccessFlag <<
if (!mCompatibleMode) {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
N->getLine(),
N->getText()
);
}
>>
| L:LateCheckFlag <<
if (!mCompatibleMode) {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
L->getLine(),
L->getText()
);
}
>>
;
vfrStatementValue :
<< CIfrValue VObj; >>
V:Value << VObj.SetLineNo(V->getLine()); >>
"=" vfrStatementExpression[0] << {CIfrEnd EndObj; EndObj.SetLineNo(V->getLine());} >>
;
vfrStatementRead :
<< CIfrRead RObj; >>
R:Read << RObj.SetLineNo(R->getLine()); >>
vfrStatementExpression[0] ";"
;
vfrStatementWrite :
<< CIfrWrite WObj; >>
W:Write << WObj.SetLineNo(W->getLine()); >>
vfrStatementExpression[0] ";"
;
vfrStatementSubTitle :
<< CIfrSubtitle SObj; >>
L:Subtitle << SObj.SetLineNo(L->getLine()); >>
Text "=" "STRING_TOKEN" "\(" S:Number "\)" << SObj.SetPrompt (_STOSID(S->getText(), S->getLine())); >>
{
"," FLAGS "=" vfrSubtitleFlags[SObj]
}
(
{vfrStatementStatTagList "," }
E:";" << CRT_END_OP (E); >>
|
{ "," vfrStatementStatTagList}
{ "," (vfrStatementStat | vfrStatementQuestions)*}
D: EndSubtitle ";" << CRT_END_OP (D); >>
)
;
vfrSubtitleFlags [CIfrSubtitle & SObj] :
<< UINT8 LFlags = 0; >>
subtitleFlagsField[LFlags] ( "\|" subtitleFlagsField[LFlags] )*
<< _PCATCH(SObj.SetFlags (LFlags)); >>
;
subtitleFlagsField [UINT8 & Flags] :
N:Number << $Flags |= _STOU8(N->getText(), N->getLine()); >>
| "HORIZONTAL" << $Flags |= 0x01; >>
;
vfrStatementStaticText :
<<
UINT8 Flags = 0;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
EFI_STRING_ID TxtTwo = EFI_STRING_ID_INVALID;
>>
T:Text
Help "=" "STRING_TOKEN" "\(" S1:Number "\)" ","
Text "=" "STRING_TOKEN" "\(" S2:Number "\)"
{
"," Text "=" "STRING_TOKEN" "\(" S3:Number "\)" << TxtTwo = _STOSID(S3->getText(), S3->getLine()); >>
}
{
"," F:FLAGS "=" staticTextFlagsField[Flags] ( "\|" staticTextFlagsField[Flags] )*
"," Key "=" KN:Number
}
<<
if (Flags & EFI_IFR_FLAG_CALLBACK) {
if (TxtTwo != EFI_STRING_ID_INVALID) {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_ACTION_WITH_TEXT_TWO,
S3->getLine(),
S3->getText()
);
}
CIfrAction AObj;
mCVfrQuestionDB.RegisterQuestion (NULL, NULL, QId);
AObj.SetLineNo (F->getLine());
AObj.SetQuestionId (QId);
AObj.SetPrompt (_STOSID(S2->getText(), S2->getLine()));
AObj.SetHelp (_STOSID(S1->getText(), S1->getLine()));
_PCATCH(AObj.SetFlags (Flags), F->getLine());
AssignQuestionKey (AObj, KN);
CRT_END_OP (KN);
} else {
CIfrText TObj;
TObj.SetLineNo (T->getLine());
TObj.SetHelp (_STOSID(S1->getText(), S1->getLine()));
TObj.SetPrompt (_STOSID(S2->getText(), S2->getLine()));
TObj.SetTextTwo (TxtTwo);
}
>>
{ "," vfrStatementStatTagList }
";"
;
staticTextFlagsField[UINT8 & HFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| questionheaderFlagsField[HFlags]
;
vfrStatementCrossReference :
vfrStatementGoto |
vfrStatementResetButton
;
vfrStatementGoto :
<<
UINT8 RefType = 5;
EFI_STRING_ID DevPath = EFI_STRING_ID_INVALID;
EFI_GUID FSId = {0,};
EFI_FORM_ID FId;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
UINT32 BitMask;
CIfrQuestionHeader *QHObj = NULL;
CIfrOpHeader *OHObj = NULL;
CIfrRef *R1Obj = NULL;
CIfrRef2 *R2Obj = NULL;
CIfrRef3 *R3Obj = NULL;
CIfrRef4 *R4Obj = NULL;
CIfrRef5 *R5Obj = NULL;
>>
G:Goto
{
(
DevicePath "=" "STRING_TOKEN" "\(" P:Number "\)" ","
FormSetGuid "=" guidDefinition[FSId] ","
FormId "=" F1:Number ","
Question "=" QN1:Number ","
<<
RefType = 4;
DevPath = _STOSID(P->getText(), P->getLine());
FId = _STOFID(F1->getText(), F1->getLine());
QId = _STOQID(QN1->getText(), QN1->getLine());
>>
)
|
(
FormSetGuid "=" guidDefinition[FSId] ","
FormId "=" F2:Number ","
Question "=" QN2:Number ","
<<
RefType = 3;
FId = _STOFID(F2->getText(), F2->getLine());
QId = _STOQID(QN2->getText(), QN2->getLine());
>>
)
|
(
FormId "=" F3:Number "," << RefType = 2; FId = _STOFID(F3->getText(), F3->getLine()); >>
Question "="
(
QN3:StringIdentifier "," <<
mCVfrQuestionDB.GetQuestionId (QN3->getText (), NULL, QId, BitMask);
if (QId == EFI_QUESTION_ID_INVALID) {
_PCATCH(VFR_RETURN_UNDEFINED, QN3);
}
>>
| QN4:Number "," << QId = _STOQID(QN4->getText(), QN4->getLine()); >>
)
)
|
(
F4:Number "," <<
RefType = 1;
FId = _STOFID(F4->getText(), F4->getLine());
>>
)
}
<<
switch (RefType) {
case 5:
{
R5Obj = new CIfrRef5;
QHObj = R5Obj;
OHObj = R5Obj;
R5Obj->SetLineNo(G->getLine());
break;
}
case 4:
{
R4Obj = new CIfrRef4;
QHObj = R4Obj;
OHObj = R4Obj;
R4Obj->SetLineNo(G->getLine());
R4Obj->SetDevicePath (DevPath);
R4Obj->SetFormSetId (FSId);
R4Obj->SetFormId (FId);
R4Obj->SetQuestionId (QId);
break;
}
case 3:
{
R3Obj = new CIfrRef3;
QHObj = R3Obj;
OHObj = R3Obj;
R3Obj->SetLineNo(G->getLine());
R3Obj->SetFormSetId (FSId);
R3Obj->SetFormId (FId);
R3Obj->SetQuestionId (QId);
break;
}
case 2:
{
R2Obj = new CIfrRef2;
QHObj = R2Obj;
OHObj = R2Obj;
R2Obj->SetLineNo(G->getLine());
R2Obj->SetFormId (FId);
R2Obj->SetQuestionId (QId);
break;
}
case 1:
{
R1Obj = new CIfrRef;
QHObj = R1Obj;
OHObj = R1Obj;
R1Obj->SetLineNo(G->getLine());
R1Obj->SetFormId (FId);
break;
}
default: break;
}
>>
vfrQuestionHeader[*QHObj, QUESTION_REF] <<
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_GET_CURRQEST_VARTINFO().mVarType = EFI_IFR_TYPE_REF;
}
>>
{ "," F:FLAGS "=" vfrGotoFlags[QHObj, F->getLine()] }
{
"," Key "=" KN:Number << AssignQuestionKey (*QHObj, KN); >>
}
{
E:","
vfrStatementQuestionOptionList << OHObj->SetScope(1); CRT_END_OP (E);>>
}
";" << if (R1Obj != NULL) {delete R1Obj;} if (R2Obj != NULL) {delete R2Obj;} if (R3Obj != NULL) {delete R3Obj;} if (R4Obj != NULL) {delete R4Obj;} if (R5Obj != NULL) {delete R5Obj;}>>
;
vfrGotoFlags [CIfrQuestionHeader *QHObj, UINT32 LineNum] :
<< UINT8 HFlags = 0; >>
gotoFlagsField[HFlags] ( "\|" gotoFlagsField[HFlags] )*
<< _PCATCH(QHObj->SetFlags (HFlags), LineNum); >>
;
gotoFlagsField[UINT8 & HFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| questionheaderFlagsField[HFlags]
;
getStringId :
"STRING_TOKEN" "\("
IdVal:Number
"\)"
;
vfrStatementResetButton :
<<
CIfrResetButton RBObj;
UINT16 DefaultId;
>>
L:ResetButton << RBObj.SetLineNo(L->getLine()); >>
DefaultStore
"=" N:StringIdentifier "," <<
_PCATCH(gCVfrDefaultStore.GetDefaultId (N->getText(), &DefaultId), N->getLine());
RBObj.SetDefaultId (DefaultId);
>>
vfrStatementHeader[&RBObj] ","
{ vfrStatementStatTagList "," }
E:EndResetButton << CRT_END_OP (E); >>
";"
;
vfrStatementBooleanType :
vfrStatementCheckBox |
vfrStatementAction
;
//*****************************************************
// Syntax of checkbox
//
// Example:
// checkbox
// varid = MySTestData.mField1,
// prompt = STRING_TOKEN(STR_CHECK_BOX_PROMPT),
// help = STRING_TOKEN(STR_CHECK_BOX_HELP),
// flags = CHECKBOX_DEFAULT | CALLBACK,
// default value = TRUE, defaultstore = MyDefaultStore,
// endcheckbox;
//
vfrStatementCheckBox :
<<
CIfrCheckBox *CBObj = NULL;
EFI_IFR_TYPE_VALUE Val = gZeroEfiIfrTypeValue;
CHAR8 *VarStoreName = NULL;
UINT32 DataTypeSize;
EFI_GUID *VarStoreGuid = NULL;
CIfrGuid *GuidObj = NULL;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;;
EFI_VARSTORE_INFO Info;
Info.mVarType = EFI_IFR_TYPE_OTHER;
Info.mVarTotalSize = 0;
Info.mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
Info.mVarStoreId = EFI_VARSTORE_ID_INVALID;
Info.mIsBitVar = FALSE;
>>
L:CheckBox
vfrQuestionBaseInfo[Info, QId] <<
//
// Create a GUID opcode to wrap the checkbox opcode, if it refer to bit varstore.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
GuidObj = new CIfrGuid(0);
GuidObj->SetGuid (&gEdkiiIfrBitVarGuid);
GuidObj->SetLineNo(L->getLine());
}
CBObj = new CIfrCheckBox;
CBObj->SetLineNo(L->getLine());
CBObj->SetQuestionId (QId);
CBObj->SetVarStoreInfo (&Info);
>>
vfrStatementHeader[CBObj]"," << //check data type
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_GET_CURRQEST_VARTINFO().mVarType = EFI_IFR_TYPE_BOOLEAN;
}
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
//
// Check whether the question refers to a bit field, if yes. create a Guid to indicate the question refers to a bit field.
//
if (_GET_CURRQEST_VARTINFO ().mIsBitVar) {
_PCATCH (gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize), L->getLine(), "CheckBox varid is not the valid data type");
if ((gCVfrDataStorage.GetVarStoreType (_GET_CURRQEST_VARTINFO().mVarStoreId) == EFI_VFR_VARSTORE_BUFFER_BITS) &&
(_GET_CURRQEST_VARSIZE() != 1)) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "CheckBox varid only occupy 1 bit in Bit Varstore");
}
} else {
_PCATCH (gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize), L->getLine(), "CheckBox varid is not the valid data type");
if (DataTypeSize != 0 && DataTypeSize != _GET_CURRQEST_VARSIZE()) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "CheckBox varid doesn't support array");
} else if ((gCVfrDataStorage.GetVarStoreType (_GET_CURRQEST_VARTINFO().mVarStoreId) == EFI_VFR_VARSTORE_BUFFER) &&
(_GET_CURRQEST_VARSIZE() != sizeof (BOOLEAN))) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "CheckBox varid only support BOOLEAN data type");
}
}
}
>>
{
F:FLAGS "=" vfrCheckBoxFlags[*CBObj, F->getLine()] ","
<<
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
_PCATCH(gCVfrDataStorage.GetVarStoreName (_GET_CURRQEST_VARTINFO().mVarStoreId, &VarStoreName), VFR_RETURN_SUCCESS, L, "Failed to retrieve varstore name");
VarStoreGuid = gCVfrDataStorage.GetVarStoreGuid(_GET_CURRQEST_VARTINFO().mVarStoreId);
Val.b = TRUE;
if (CBObj->GetFlags () & 0x01) {
CheckDuplicateDefaultValue (EFI_HII_DEFAULT_CLASS_STANDARD, F);
_PCATCH(
gCVfrDefaultStore.BufferVarStoreAltConfigAdd (
EFI_HII_DEFAULT_CLASS_STANDARD,
_GET_CURRQEST_VARTINFO(),
VarStoreName,
VarStoreGuid,
_GET_CURRQEST_DATATYPE (),
Val
),
VFR_RETURN_SUCCESS,
L,
"No standard default storage found"
);
}
if (CBObj->GetFlags () & 0x02) {
CheckDuplicateDefaultValue (EFI_HII_DEFAULT_CLASS_MANUFACTURING, F);
_PCATCH(
gCVfrDefaultStore.BufferVarStoreAltConfigAdd (
EFI_HII_DEFAULT_CLASS_MANUFACTURING,
_GET_CURRQEST_VARTINFO(),
VarStoreName,
VarStoreGuid,
_GET_CURRQEST_DATATYPE (),
Val
),
VFR_RETURN_SUCCESS,
L,
"No manufacturing default storage found"
);
}
}
>>
}
{
Key "=" KN:Number "," << AssignQuestionKey (*CBObj, KN); >>
}
vfrStatementQuestionOptionList
E:EndCheckBox << CRT_END_OP (E);
if (GuidObj != NULL) {
GuidObj->SetScope(1);
CRT_END_OP (E);
delete GuidObj;
}
if (CBObj != NULL) delete CBObj;
>>
";"
;
vfrCheckBoxFlags [CIfrCheckBox & CBObj, UINT32 LineNum] :
<<
UINT8 LFlags = 0;
UINT8 HFlags = 0;
>>
checkboxFlagsField[LFlags, HFlags] ( "\|" checkboxFlagsField[LFlags, HFlags] )*
<< _PCATCH(CBObj.SetFlags (HFlags, LFlags), LineNum); >>
;
checkboxFlagsField[UINT8 & LFlags, UINT8 & HFlags] :
N:Number <<
if (mCompatibleMode) {
//
// set question flag
//
$LFlags |= _STOU8(N->getText(), N->getLine());
} else {
_PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine());
}
>>
| D:"DEFAULT" <<
if (mCompatibleMode) {
//
// set question Default flag
//
$LFlags |= 0x01;
} else {
_PCATCH (VFR_RETURN_UNSUPPORTED, D);
}
>>
| M:"MANUFACTURING" <<
if (mCompatibleMode) {
//
// set question MFG flag
//
$LFlags |= 0x02;
} else {
_PCATCH (VFR_RETURN_UNSUPPORTED, M);
}
>>
| "CHECKBOX_DEFAULT" << $LFlags |= 0x01; >>
| "CHECKBOX_DEFAULT_MFG" << $LFlags |= 0x02; >>
| questionheaderFlagsField[HFlags]
;
//*****************************************************
// Syntax of action
//
// Example:
// action
// prompt = STRING_TOKEN(STR_ACTION_PROMPT),
// help = STRING_TOKEN(STR_ACTION_HELP),
// flags = CALLBACK,
// config = STRING_TOKEN(STR_ACTION_CONFIG),
// endaction;
//
vfrStatementAction :
<< CIfrAction AObj; >>
L:Action << AObj.SetLineNo(L->getLine()); >>
vfrQuestionHeader[AObj] ","
{ F:FLAGS "=" vfrActionFlags[AObj, F->getLine()] "," }
Config "=" "STRING_TOKEN" "\(" S:Number "\)" "," << AObj.SetQuestionConfig (_STOSID(S->getText(), S->getLine())); >>
vfrStatementQuestionTagList
E:EndAction << CRT_END_OP (E); >>
";"
;
vfrActionFlags[CIfrAction & AObj, UINT32 LineNum] :
<< UINT8 HFlags = 0; >>
actionFlagsField[HFlags] ( "\|" actionFlagsField[HFlags] )*
<< _PCATCH(AObj.SetFlags (HFlags), LineNum); >>
;
actionFlagsField[UINT8 & HFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| questionheaderFlagsField[HFlags]
;
vfrStatementDate :
<<
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
CHAR8 *VarIdStr[3] = {NULL, };
CIfrDate DObj;
EFI_IFR_TYPE_VALUE Val = gZeroEfiIfrTypeValue;
UINT8 Size = OFFSET_OF (EFI_IFR_DEFAULT, Value) + sizeof (EFI_HII_DATE);
>>
L:Date << DObj.SetLineNo(L->getLine()); >>
(
(
vfrQuestionHeader[DObj, QUESTION_DATE] "," <<
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_GET_CURRQEST_VARTINFO().mVarType = EFI_IFR_TYPE_DATE;
}
>>
{ F:FLAGS "=" vfrDateFlags[DObj, F->getLine()] "," }
vfrStatementQuestionOptionList
)
|
(
Year VarId "=" D1:StringIdentifier "." D1Y:StringIdentifier ","
<< _STRCAT(&VarIdStr[0], D1->getText()); _STRCAT(&VarIdStr[0], "."); _STRCAT(&VarIdStr[0], D1Y->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" YP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" YH:Number "\)" ","
minMaxDateStepDefault[Val.date, 0]
Month VarId "=" D2:StringIdentifier "." D2M:StringIdentifier ","
<< _STRCAT(&VarIdStr[1], D2->getText()); _STRCAT(&VarIdStr[1], "."); _STRCAT(&VarIdStr[1], D2M->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" MP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" MH:Number "\)" ","
minMaxDateStepDefault[Val.date, 1]
Day VarId "=" D3:StringIdentifier "." D3D:StringIdentifier ","
<< _STRCAT(&VarIdStr[2], D3->getText()); _STRCAT(&VarIdStr[2], "."); _STRCAT(&VarIdStr[2], D3D->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" DP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" DH:Number "\)" ","
minMaxDateStepDefault[Val.date, 2]
{ G:FLAGS "=" vfrDateFlags[DObj, G->getLine()] "," }
<<
mCVfrQuestionDB.RegisterOldDateQuestion (VarIdStr[0], VarIdStr[1], VarIdStr[2], QId);
DObj.SetQuestionId (QId);
DObj.SetFlags (EFI_IFR_QUESTION_FLAG_DEFAULT, QF_DATE_STORAGE_TIME);
DObj.SetPrompt (_STOSID(YP->getText(), YP->getLine()));
DObj.SetHelp (_STOSID(YH->getText(), YH->getLine()));
if (VarIdStr[0] != NULL) { delete VarIdStr[0]; } if (VarIdStr[1] != NULL) { delete VarIdStr[1]; } if (VarIdStr[2] != NULL) { delete VarIdStr[2]; }
>>
<< {CIfrDefault DefaultObj(Size, EFI_HII_DEFAULT_CLASS_STANDARD, EFI_IFR_TYPE_DATE, Val); DefaultObj.SetLineNo(L->getLine());} >>
)
( vfrStatementInconsistentIf )*
)
E:EndDate << CRT_END_OP (E); >>
";"
;
minMaxDateStepDefault[EFI_HII_DATE & D, UINT8 KeyValue] :
Minimum "=" MinN:Number ","
Maximum "=" MaxN:Number ","
{ "step" "=" Number "," }
{
"default" "=" N:Number "," <<
switch (KeyValue) {
case 0:
D.Year = _STOU16(N->getText(), N->getLine());
if (D.Year < _STOU16 (MinN->getText(), MinN->getLine()) || D.Year > _STOU16 (MaxN->getText(), MaxN->getLine())) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Year default value must be between Min year and Max year.");
}
break;
case 1:
D.Month = _STOU8(N->getText(), N->getLine());
if (D.Month < 1 || D.Month > 12) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Month default value must be between 1 and 12.");
}
break;
case 2:
D.Day = _STOU8(N->getText(), N->getLine());
if (D.Day < 1 || D.Day > 31) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Day default value must be between 1 and 31.");
}
break;
}
>>
}
;
vfrDateFlags [CIfrDate & DObj, UINT32 LineNum] :
<< UINT8 LFlags = 0; >>
dateFlagsField[LFlags] ( "\|" dateFlagsField[LFlags] )*
<< _PCATCH(DObj.SetFlags (EFI_IFR_QUESTION_FLAG_DEFAULT, LFlags), LineNum); >>
;
dateFlagsField [UINT8 & Flags] :
N:Number << $Flags |= _STOU8(N->getText(), N->getLine()); >>
| "YEAR_SUPPRESS" << $Flags |= 0x01; >>
| "MONTH_SUPPRESS" << $Flags |= 0x02; >>
| "DAY_SUPPRESS" << $Flags |= 0x04; >>
| "STORAGE_NORMAL" << $Flags |= 0x00; >>
| "STORAGE_TIME" << $Flags |= 0x10; >>
| "STORAGE_WAKEUP" << $Flags |= 0x20; >>
;
vfrStatementNumericType :
vfrStatementNumeric |
vfrStatementOneOf
;
vfrSetMinMaxStep[CIfrMinMaxStepData & MMSDObj] :
<<
UINT64 MaxU8 = 0, MinU8 = 0, StepU8 = 0;
UINT32 MaxU4 = 0, MinU4 = 0, StepU4 = 0;
UINT16 MaxU2 = 0, MinU2 = 0, StepU2 = 0;
UINT8 MaxU1 = 0, MinU1 = 0, StepU1 = 0;
BOOLEAN IntDecStyle = FALSE;
CIfrNumeric *NObj = (CIfrNumeric *) (&MMSDObj);
if (((_GET_CURRQEST_VARTINFO().mIsBitVar) && (NObj->GetOpCode() == EFI_IFR_NUMERIC_OP) && ((NObj->GetNumericFlags() & EDKII_IFR_DISPLAY_BIT) == 0)) ||
(!(_GET_CURRQEST_VARTINFO().mIsBitVar) && (NObj->GetOpCode() == EFI_IFR_NUMERIC_OP) && ((NObj->GetNumericFlags() & EFI_IFR_DISPLAY) == 0))) {
IntDecStyle = TRUE;
}
BOOLEAN MinNegative = FALSE;
BOOLEAN MaxNegative = FALSE;
>>
Minimum "="
{
"\-" << MinNegative = TRUE; >>
}
I:Number "," <<
if (!IntDecStyle && MinNegative) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "\"-\" can't be used when not in int decimal type. ");
}
//
// Value for question stored in bit fields is always set to UINT32 type.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
MinU4 = _STOU32(I->getText(), I->getLine());
if (!IntDecStyle && MinU4 > (1<< _GET_CURRQEST_VARTINFO().mVarTotalSize) -1) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "BIT type minimum can't small than 0, bigger than 2^BitWidth -1");
}
} else {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_64 :
MinU8 = _STOU64(I->getText(), I->getLine());
if (IntDecStyle) {
if (MinNegative) {
if (MinU8 > 0x8000000000000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT64 type minimum can't small than -0x8000000000000000, big than 0x7FFFFFFFFFFFFFFF");
}
} else {
if (MinU8 > 0x7FFFFFFFFFFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT64 type minimum can't small than -0x8000000000000000, big than 0x7FFFFFFFFFFFFFFF");
}
}
}
if (MinNegative) {
MinU8 = ~MinU8 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
MinU4 = _STOU32(I->getText(), I->getLine());
if (IntDecStyle) {
if (MinNegative) {
if (MinU4 > 0x80000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT32 type minimum can't small than -0x80000000, big than 0x7FFFFFFF");
}
} else {
if (MinU4 > 0x7FFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT32 type minimum can't small than -0x80000000, big than 0x7FFFFFFF");
}
}
}
if (MinNegative) {
MinU4 = ~MinU4 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
MinU2 = _STOU16(I->getText(), I->getLine());
if (IntDecStyle) {
if (MinNegative) {
if (MinU2 > 0x8000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT16 type minimum can't small than -0x8000, big than 0x7FFF");
}
} else {
if (MinU2 > 0x7FFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT16 type minimum can't small than -0x8000, big than 0x7FFF");
}
}
}
if (MinNegative) {
MinU2 = ~MinU2 + 1;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_8 :
MinU1 = _STOU8(I->getText(), I->getLine());
if (IntDecStyle) {
if (MinNegative) {
if (MinU1 > 0x80) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT8 type minimum can't small than -0x80, big than 0x7F");
}
} else {
if (MinU1 > 0x7F) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, I->getLine(), "INT8 type minimum can't small than -0x80, big than 0x7F");
}
}
}
if (MinNegative) {
MinU1 = ~MinU1 + 1;
}
break;
}
}
>>
Maximum "="
{
"\-" << MaxNegative = TRUE; >>
}
A:Number "," <<
if (!IntDecStyle && MaxNegative) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "\"-\" can't be used when not in int decimal type. ");
}
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
MaxU4 = _STOU32(A->getText(), A->getLine());
if (!IntDecStyle && MaxU4 > (1<< _GET_CURRQEST_VARTINFO().mVarTotalSize) -1) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "BIT type maximum can't bigger than 2^BitWidth -1");
}
} else {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_64 :
MaxU8 = _STOU64(A->getText(), A->getLine());
if (IntDecStyle) {
if (MaxNegative) {
if (MaxU8 > 0x8000000000000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT64 type maximum can't small than -0x8000000000000000, big than 0x7FFFFFFFFFFFFFFF");
}
} else {
if (MaxU8 > 0x7FFFFFFFFFFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT64 type maximum can't small than -0x8000000000000000, big than 0x7FFFFFFFFFFFFFFF");
}
}
}
if (MaxNegative) {
MaxU8 = ~MaxU8 + 1;
}
if (IntDecStyle) {
if ((INT64) MaxU8 < (INT64) MinU8) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
} else {
if (MaxU8 < MinU8) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
}
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
MaxU4 = _STOU32(A->getText(), A->getLine());
if (IntDecStyle) {
if (MaxNegative) {
if (MaxU4 > 0x80000000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT32 type maximum can't small than -0x80000000, big than 0x7FFFFFFF");
}
} else {
if (MaxU4 > 0x7FFFFFFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT32 type maximum can't small than -0x80000000, big than 0x7FFFFFFF");
}
}
}
if (MaxNegative) {
MaxU4 = ~MaxU4 + 1;
}
if (IntDecStyle) {
if ((INT32) MaxU4 < (INT32) MinU4) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
} else {
if (MaxU4 < MinU4) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
MaxU2 = _STOU16(A->getText(), A->getLine());
if (IntDecStyle) {
if (MaxNegative) {
if (MaxU2 > 0x8000) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT16 type maximum can't small than -0x8000, big than 0x7FFF");
}
} else {
if (MaxU2 > 0x7FFF) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT16 type maximum can't small than -0x8000, big than 0x7FFF");
}
}
}
if (MaxNegative) {
MaxU2 = ~MaxU2 + 1;
}
if (IntDecStyle) {
if ((INT16) MaxU2 < (INT16) MinU2) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
} else {
if (MaxU2 < MinU2) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
}
break;
case EFI_IFR_TYPE_NUM_SIZE_8 :
MaxU1 = _STOU8(A->getText(), A->getLine());
if (IntDecStyle) {
if (MaxNegative) {
if (MaxU1 > 0x80) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT8 type maximum can't small than -0x80, big than 0x7F");
}
} else {
if (MaxU1 > 0x7F) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "INT8 type maximum can't small than -0x80, big than 0x7F");
}
}
}
if (MaxNegative) {
MaxU1 = ~MaxU1 + 1;
}
if (IntDecStyle) {
if ((INT8) MaxU1 < (INT8) MinU1) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
} else {
if (MaxU1 < MinU1) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, A->getLine(), "Maximum can't be less than Minimum");
}
}
break;
}
}
>>
{
STEP "=" S:Number ","
<<
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
StepU4 = _STOU32(S->getText(), S->getLine());
} else {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_64 : StepU8 = _STOU64(S->getText(), S->getLine()); break;
case EFI_IFR_TYPE_NUM_SIZE_32 : StepU4 = _STOU32(S->getText(), S->getLine()); break;
case EFI_IFR_TYPE_NUM_SIZE_16 : StepU2 = _STOU16(S->getText(), S->getLine()); break;
case EFI_IFR_TYPE_NUM_SIZE_8 : StepU1 = _STOU8(S->getText(), S->getLine()); break;
}
}
>>
}
<<
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
$MMSDObj.SetMinMaxStepData (MinU4, MaxU4, StepU4);
} else {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_64 : $MMSDObj.SetMinMaxStepData (MinU8, MaxU8, StepU8); break;
case EFI_IFR_TYPE_NUM_SIZE_32 : $MMSDObj.SetMinMaxStepData (MinU4, MaxU4, StepU4); break;
case EFI_IFR_TYPE_NUM_SIZE_16 : $MMSDObj.SetMinMaxStepData (MinU2, MaxU2, StepU2); break;
case EFI_IFR_TYPE_NUM_SIZE_8 : $MMSDObj.SetMinMaxStepData (MinU1, MaxU1, StepU1); break;
}
}
>>
;
vfrStatementNumeric :
<<
CIfrNumeric *NObj = NULL;
UINT32 DataTypeSize;
BOOLEAN IsSupported = TRUE;
UINT8 ShrinkSize = 0;
CIfrGuid *GuidObj = NULL;
UINT8 LFlags = _GET_CURRQEST_DATATYPE() & EFI_IFR_NUMERIC_SIZE;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
EFI_VARSTORE_INFO Info;
Info.mVarType = EFI_IFR_TYPE_OTHER;
Info.mVarTotalSize = 0;
Info.mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
Info.mVarStoreId = EFI_VARSTORE_ID_INVALID;
Info.mIsBitVar = FALSE;
>>
L:Numeric
vfrQuestionBaseInfo[Info, QId] <<
//
// Create a GUID opcode to wrap the numeric opcode, if it refer to bit varstore.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
GuidObj = new CIfrGuid(0);
GuidObj->SetGuid (&gEdkiiIfrBitVarGuid);
GuidObj->SetLineNo(L->getLine());
}
NObj = new CIfrNumeric;
NObj->SetLineNo(L->getLine());
NObj->SetQuestionId (QId);
NObj->SetVarStoreInfo (&Info);
>>
vfrStatementHeader[NObj]","
<<
// check data type
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
LFlags = (EDKII_IFR_NUMERIC_SIZE_BIT & (_GET_CURRQEST_VARSIZE()));
_PCATCH(NObj->SetFlagsForBitField (NObj->FLAGS(), LFlags), L->getLine());
} else {
_PCATCH (gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize), L->getLine(), "Numeric varid is not the valid data type");
if (DataTypeSize != 0 && DataTypeSize != _GET_CURRQEST_VARSIZE()) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "Numeric varid doesn't support array");
}
_PCATCH(NObj->SetFlags (NObj->FLAGS(), _GET_CURRQEST_DATATYPE()), L->getLine());
}
}
>>
{ F:FLAGS "=" vfrNumericFlags[*NObj, F->getLine()] "," }
{
Key "=" KN:Number "," << AssignQuestionKey (*NObj, KN); >>
}
vfrSetMinMaxStep[*NObj] <<
if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
switch (_GET_CURRQEST_DATATYPE()) {
//
// Base on the type to know the actual used size,shrink the buffer
// size allocate before.
//
case EFI_IFR_TYPE_NUM_SIZE_8: ShrinkSize = 21;break;
case EFI_IFR_TYPE_NUM_SIZE_16:ShrinkSize = 18;break;
case EFI_IFR_TYPE_NUM_SIZE_32:ShrinkSize = 12;break;
case EFI_IFR_TYPE_NUM_SIZE_64:break;
default:
IsSupported = FALSE;
break;
}
} else {
//
// Question stored in bit fields saved as UINT32 type, so the ShrinkSize same as EFI_IFR_TYPE_NUM_SIZE_32.
//
ShrinkSize = 12;
}
NObj->ShrinkBinSize (ShrinkSize);
if (!IsSupported) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "Numeric question only support UINT8, UINT16, UINT32 and UINT64 data type.");
}
>>
vfrStatementQuestionOptionList
E:EndNumeric <<
CRT_END_OP (E);
if (GuidObj != NULL) {
GuidObj->SetScope(1);
CRT_END_OP (E);
delete GuidObj;
}
if (NObj != NULL) delete NObj;
>>
";"
;
vfrNumericFlags [CIfrNumeric & NObj, UINT32 LineNum] :
<<
UINT8 LFlags = _GET_CURRQEST_DATATYPE() & EFI_IFR_NUMERIC_SIZE;
UINT8 HFlags = 0;
BOOLEAN IsSetType = FALSE;
BOOLEAN IsDisplaySpecified = FALSE;
EFI_VFR_VARSTORE_TYPE VarStoreType = gCVfrDataStorage.GetVarStoreType (_GET_CURRQEST_VARTINFO().mVarStoreId);
>>
numericFlagsField[HFlags, LFlags, IsSetType, IsDisplaySpecified, LineNum] ( "\|" numericFlagsField[HFlags, LFlags, IsSetType, IsDisplaySpecified, LineNum] )*
<<
//check data type flag
if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
if (VarStoreType == EFI_VFR_VARSTORE_BUFFER || VarStoreType == EFI_VFR_VARSTORE_EFI) {
if (_GET_CURRQEST_DATATYPE() != (LFlags & EFI_IFR_NUMERIC_SIZE)) {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Numeric Flag is not same to Numeric VarData type");
}
} else {
// update data type for name/value store
UINT32 DataTypeSize;
_GET_CURRQEST_VARTINFO().mVarType = LFlags & EFI_IFR_NUMERIC_SIZE;
gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize);
_GET_CURRQEST_VARTINFO().mVarTotalSize = DataTypeSize;
}
} else if (IsSetType){
_GET_CURRQEST_VARTINFO().mVarType = LFlags & EFI_IFR_NUMERIC_SIZE;
}
_PCATCH(NObj.SetFlags (HFlags, LFlags, IsDisplaySpecified), LineNum);
} else if ((_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) && (_GET_CURRQEST_VARTINFO().mIsBitVar)) {
LFlags |= (EDKII_IFR_NUMERIC_SIZE_BIT & (_GET_CURRQEST_VARSIZE()));
_PCATCH(NObj.SetFlagsForBitField (HFlags, LFlags, IsDisplaySpecified), LineNum);
}
>>
;
numericFlagsField [UINT8 & HFlags, UINT8 & LFlags, BOOLEAN & IsSetType, BOOLEAN & IsDisplaySpecified, UINT32 LineNum] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| "NUMERIC_SIZE_1" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_NUMERIC_SIZE) | EFI_IFR_NUMERIC_SIZE_1;IsSetType = TRUE;
} else {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Can not specify the size of the numeric value for BIT field");
}
>>
| "NUMERIC_SIZE_2" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_NUMERIC_SIZE) | EFI_IFR_NUMERIC_SIZE_2;IsSetType = TRUE;
} else {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Can not specify the size of the numeric value for BIT field");
}
>>
| "NUMERIC_SIZE_4" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_NUMERIC_SIZE) | EFI_IFR_NUMERIC_SIZE_4; IsSetType = TRUE;
} else {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Can not specify the size of the numeric value for BIT field");
}
>>
| "NUMERIC_SIZE_8" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_NUMERIC_SIZE) | EFI_IFR_NUMERIC_SIZE_8; IsSetType = TRUE;
} else {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Can not specify the size of the numeric value for BIT field");
}
>>
| "DISPLAY_INT_DEC" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_DISPLAY) | EFI_IFR_DISPLAY_INT_DEC;
} else {
$LFlags = ($LFlags & ~EDKII_IFR_DISPLAY_BIT) | EDKII_IFR_DISPLAY_INT_DEC_BIT;
}
IsDisplaySpecified = TRUE;
>>
| "DISPLAY_UINT_DEC" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_DISPLAY) | EFI_IFR_DISPLAY_UINT_DEC;
} else {
$LFlags = ($LFlags & ~EDKII_IFR_DISPLAY_BIT) | EDKII_IFR_DISPLAY_UINT_DEC_BIT;
}
IsDisplaySpecified = TRUE;
>>
| "DISPLAY_UINT_HEX" << if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
$LFlags = ($LFlags & ~EFI_IFR_DISPLAY) | EFI_IFR_DISPLAY_UINT_HEX;
} else {
$LFlags = ($LFlags & ~EDKII_IFR_DISPLAY_BIT) | EDKII_IFR_DISPLAY_UINT_HEX_BIT;
}
IsDisplaySpecified = TRUE;
>>
| questionheaderFlagsField[HFlags]
;
vfrStatementOneOf :
<<
CIfrOneOf *OObj = NULL;
UINT32 DataTypeSize;
BOOLEAN IsSupported = TRUE;
UINT8 ShrinkSize = 0;
CIfrGuid *GuidObj = NULL;
UINT8 LFlags = _GET_CURRQEST_DATATYPE() & EFI_IFR_NUMERIC_SIZE;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;;
EFI_VARSTORE_INFO Info;
Info.mVarType = EFI_IFR_TYPE_OTHER;
Info.mVarTotalSize = 0;
Info.mInfo.mVarOffset = EFI_VAROFFSET_INVALID;
Info.mVarStoreId = EFI_VARSTORE_ID_INVALID;
Info.mIsBitVar = FALSE;
>>
L:OneOf
vfrQuestionBaseInfo[Info, QId] <<
//
// Create a GUID opcode to wrap the oneof opcode, if it refer to bit varstore.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
GuidObj = new CIfrGuid(0);
GuidObj->SetGuid (&gEdkiiIfrBitVarGuid);
GuidObj->SetLineNo(L->getLine());
}
OObj = new CIfrOneOf;
OObj->SetLineNo(L->getLine());
OObj->SetQuestionId (QId);
OObj->SetVarStoreInfo (&Info);
>>
vfrStatementHeader[OObj]","
<< //check data type
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
LFlags = (EDKII_IFR_NUMERIC_SIZE_BIT & (_GET_CURRQEST_VARSIZE()));
_PCATCH(OObj->SetFlagsForBitField (OObj->FLAGS(), LFlags), L->getLine());
} else {
_PCATCH (gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize), L->getLine(), "OneOf varid is not the valid data type");
if (DataTypeSize != 0 && DataTypeSize != _GET_CURRQEST_VARSIZE()) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "OneOf varid doesn't support array");
}
_PCATCH(OObj->SetFlags (OObj->FLAGS(), _GET_CURRQEST_DATATYPE()), L->getLine());
}
}
>>
{ F:FLAGS "=" vfrOneofFlagsField[*OObj, F->getLine()] "," }
{
vfrSetMinMaxStep[*OObj]
}
<<
if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
switch (_GET_CURRQEST_DATATYPE()) {
//
// Base on the type to know the actual used size,shrink the buffer
// size allocate before.
//
case EFI_IFR_TYPE_NUM_SIZE_8: ShrinkSize = 21;break;
case EFI_IFR_TYPE_NUM_SIZE_16:ShrinkSize = 18;break;
case EFI_IFR_TYPE_NUM_SIZE_32:ShrinkSize = 12;break;
case EFI_IFR_TYPE_NUM_SIZE_64:break;
default:
IsSupported = FALSE;
break;
}
} else {
//
// Question stored in bit fields saved as UINT32 type, so the ShrinkSize same as EFI_IFR_TYPE_NUM_SIZE_32.
//
ShrinkSize = 12;
}
OObj->ShrinkBinSize (ShrinkSize);
if (!IsSupported) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, L->getLine(), "OneOf question only support UINT8, UINT16, UINT32 and UINT64 data type.");
}
>>
vfrStatementQuestionOptionList
E:EndOneOf <<
CRT_END_OP (E);
if (GuidObj != NULL) {
GuidObj->SetScope(1);
CRT_END_OP (E);
delete GuidObj;
}
if (OObj != NULL) delete OObj;
>>
";"
;
vfrOneofFlagsField [CIfrOneOf & OObj, UINT32 LineNum] :
<<
UINT8 LFlags = _GET_CURRQEST_DATATYPE() & EFI_IFR_NUMERIC_SIZE;
UINT8 HFlags = 0;
BOOLEAN IsSetType = FALSE;
BOOLEAN IsDisplaySpecified = FALSE;
EFI_VFR_VARSTORE_TYPE VarStoreType = gCVfrDataStorage.GetVarStoreType (_GET_CURRQEST_VARTINFO().mVarStoreId);
>>
numericFlagsField[HFlags, LFlags, IsSetType, IsDisplaySpecified, LineNum] ( "\|" numericFlagsField[HFlags, LFlags, IsSetType, IsDisplaySpecified, LineNum] )*
<<
//check data type flag
if (!_GET_CURRQEST_VARTINFO().mIsBitVar) {
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
if (VarStoreType == EFI_VFR_VARSTORE_BUFFER || VarStoreType == EFI_VFR_VARSTORE_EFI) {
if (_GET_CURRQEST_DATATYPE() != (LFlags & EFI_IFR_NUMERIC_SIZE)) {
_PCATCH(VFR_RETURN_INVALID_PARAMETER, LineNum, "Numeric Flag is not same to Numeric VarData type");
}
} else {
// update data type for Name/Value store
UINT32 DataTypeSize;
_GET_CURRQEST_VARTINFO().mVarType = LFlags & EFI_IFR_NUMERIC_SIZE;
gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &DataTypeSize);
_GET_CURRQEST_VARTINFO().mVarTotalSize = DataTypeSize;
}
} else if (IsSetType){
_GET_CURRQEST_VARTINFO().mVarType = LFlags & EFI_IFR_NUMERIC_SIZE;
}
_PCATCH(OObj.SetFlags (HFlags, LFlags), LineNum);
} else if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
_PCATCH(OObj.SetFlagsForBitField (HFlags, LFlags), LineNum);
}
>>
;
vfrStatementStringType :
vfrStatementString |
vfrStatementPassword
;
vfrStatementString :
<<
CIfrString SObj;
UINT32 VarArraySize;
UINT8 StringMinSize;
UINT8 StringMaxSize;
>>
L:String << SObj.SetLineNo(L->getLine()); gIsStringOp = TRUE;>>
vfrQuestionHeader[SObj] ","
{ F:FLAGS "=" vfrStringFlagsField[SObj, F->getLine()] "," }
{
Key "=" KN:Number "," << AssignQuestionKey (SObj, KN); >>
}
MinSize "=" MIN:Number "," <<
VarArraySize = _GET_CURRQEST_ARRAY_SIZE();
StringMinSize = _STOU8(MIN->getText(), MIN->getLine());
if (_STOU64(MIN->getText(), MIN->getLine()) > StringMinSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MIN->getLine(), "String MinSize takes only one byte, which can't be larger than 0xFF.");
} else if (VarArraySize != 0 && StringMinSize > VarArraySize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MIN->getLine(), "String MinSize can't be larger than the max number of elements in string array.");
}
SObj.SetMinSize (StringMinSize);
>>
MaxSize "=" MAX:Number "," <<
StringMaxSize = _STOU8(MAX->getText(), MAX->getLine());
if (_STOU64(MAX->getText(), MAX->getLine()) > StringMaxSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "String MaxSize takes only one byte, which can't be larger than 0xFF.");
} else if (VarArraySize != 0 && StringMaxSize > VarArraySize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "String MaxSize can't be larger than the max number of elements in string array.");
} else if (StringMaxSize < StringMinSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "String MaxSize can't be less than String MinSize.");
}
SObj.SetMaxSize (StringMaxSize);
>>
vfrStatementQuestionOptionList
E:EndString << CRT_END_OP (E); gIsStringOp = FALSE;>>
";"
;
vfrStringFlagsField [CIfrString & SObj, UINT32 LineNum] :
<<
UINT8 LFlags = 0;
UINT8 HFlags = 0;
>>
stringFlagsField[HFlags, LFlags] ( "\|" stringFlagsField[HFlags, LFlags] )*
<< _PCATCH(SObj.SetFlags (HFlags, LFlags), LineNum); >>
;
stringFlagsField [UINT8 & HFlags, UINT8 & LFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| "MULTI_LINE" << $LFlags = 0x01; >>
| questionheaderFlagsField[HFlags]
;
vfrStatementPassword :
<<
CIfrPassword PObj;
UINT32 VarArraySize;
UINT16 PasswordMinSize;
UINT16 PasswordMaxSize;
>>
L:Password << PObj.SetLineNo(L->getLine()); >>
vfrQuestionHeader[PObj] ","
{ F:FLAGS "=" vfrPasswordFlagsField[PObj, F->getLine()] "," }
{
Key "=" KN:Number "," << AssignQuestionKey (PObj, KN); >>
}
MinSize "=" MIN:Number "," <<
VarArraySize = _GET_CURRQEST_ARRAY_SIZE();
PasswordMinSize = _STOU16(MIN->getText(), MIN->getLine());
if (_STOU64(MIN->getText(), MIN->getLine()) > PasswordMinSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MIN->getLine(), "Password MinSize takes only two byte, which can't be larger than 0xFFFF.");
} else if (VarArraySize != 0 && PasswordMinSize > VarArraySize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MIN->getLine(), "Password MinSize can't be larger than the max number of elements in password array.");
}
PObj.SetMinSize (PasswordMinSize);
>>
MaxSize "=" MAX:Number "," <<
PasswordMaxSize = _STOU16(MAX->getText(), MAX->getLine());
if (_STOU64(MAX->getText(), MAX->getLine()) > PasswordMaxSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "Password MaxSize takes only two byte, which can't be larger than 0xFFFF.");
} else if (VarArraySize != 0 && PasswordMaxSize > VarArraySize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "Password MaxSize can't be larger than the max number of elements in password array.");
} else if (PasswordMaxSize < PasswordMinSize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, MAX->getLine(), "Password MaxSize can't be less than Password MinSize.");
}
PObj.SetMaxSize (PasswordMaxSize);
>>
{ Encoding "=" Number "," }
vfrStatementQuestionOptionList
E:EndPassword << CRT_END_OP (E); >>
";"
;
vfrPasswordFlagsField [CIfrPassword & PObj, UINT32 LineNum] :
<< UINT8 HFlags = 0; >>
passwordFlagsField[HFlags] ( "\|" passwordFlagsField[HFlags] )*
<< _PCATCH(PObj.SetFlags(HFlags), LineNum); >>
;
passwordFlagsField [UINT8 & HFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| questionheaderFlagsField[HFlags]
;
vfrStatementOrderedList :
<<
CIfrOrderedList OLObj;
UINT32 VarArraySize;
>>
L:OrderedList << OLObj.SetLineNo(L->getLine()); gIsOrderedList = TRUE;>>
vfrQuestionHeader[OLObj] ","
<<
VarArraySize = _GET_CURRQEST_ARRAY_SIZE();
OLObj.SetMaxContainers ((UINT8) (VarArraySize > 0xFF ? 0xFF : VarArraySize));
>>
{
MaxContainers "=" M:Number "," <<
if (_STOU64(M->getText(), M->getLine()) > _STOU8(M->getText(), M->getLine())) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, M->getLine(), "OrderedList MaxContainers takes only one byte, which can't be larger than 0xFF.");
} else if (VarArraySize != 0 && _STOU8(M->getText(), M->getLine()) > VarArraySize) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, M->getLine(), "OrderedList MaxContainers can't be larger than the max number of elements in array.");
}
OLObj.SetMaxContainers (_STOU8(M->getText(), M->getLine()));
>>
}
{ F:FLAGS "=" vfrOrderedListFlags[OLObj, F->getLine()] {","}}
vfrStatementQuestionOptionList
E:EndList << CRT_END_OP (E); gIsOrderedList = FALSE;>>
";"
;
vfrOrderedListFlags [CIfrOrderedList & OLObj, UINT32 LineNum] :
<<
UINT8 HFlags = 0;
UINT8 LFlags = 0;
>>
orderedlistFlagsField[HFlags, LFlags] ( "\|" orderedlistFlagsField[HFlags, LFlags] )*
<< _PCATCH(OLObj.SetFlags (HFlags, LFlags), LineNum); >>
;
orderedlistFlagsField [UINT8 & HFlags, UINT8 & LFlags] :
N:Number << _PCATCH(_STOU8(N->getText(), N->getLine()) == 0 ? VFR_RETURN_SUCCESS : VFR_RETURN_UNSUPPORTED, N->getLine()); >>
| "UNIQUE" << $LFlags |= 0x01; >>
| "NOEMPTY" << $LFlags |= 0x02; >>
| questionheaderFlagsField[HFlags]
;
vfrStatementTime :
<<
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
CHAR8 *VarIdStr[3] = {NULL, };
CIfrTime TObj;
EFI_IFR_TYPE_VALUE Val = gZeroEfiIfrTypeValue;
UINT8 Size = OFFSET_OF (EFI_IFR_DEFAULT, Value) + sizeof (EFI_HII_TIME);
>>
L:Time << TObj.SetLineNo(L->getLine()); >>
(
(
vfrQuestionHeader[TObj, QUESTION_TIME] "," <<
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_GET_CURRQEST_VARTINFO().mVarType = EFI_IFR_TYPE_TIME;
}
>>
{ F:FLAGS "=" vfrTimeFlags[TObj, F->getLine()] "," }
vfrStatementQuestionOptionList
)
|
(
Hour VarId "=" T1:StringIdentifier "." T1H:StringIdentifier ","
<< _STRCAT(&VarIdStr[0], T1->getText()); _STRCAT(&VarIdStr[0], "."); _STRCAT(&VarIdStr[0], T1H->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" HP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" HH:Number "\)" ","
minMaxTimeStepDefault[Val.time, 0]
Minute VarId "=" T2:StringIdentifier "." T2M:StringIdentifier ","
<< _STRCAT(&VarIdStr[1], T2->getText()); _STRCAT(&VarIdStr[1], "."); _STRCAT(&VarIdStr[1], T2M->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" MP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" MH:Number "\)" ","
minMaxTimeStepDefault[Val.time, 1]
Second VarId "=" T3:StringIdentifier "." T3S:StringIdentifier ","
<< _STRCAT(&VarIdStr[2], T3->getText()); _STRCAT(&VarIdStr[2], "."); _STRCAT(&VarIdStr[2], T3S->getText()); >>
Prompt "=" "STRING_TOKEN" "\(" SP:Number "\)" ","
Help "=" "STRING_TOKEN" "\(" SH:Number "\)" ","
minMaxTimeStepDefault[Val.time, 2]
{ G:FLAGS "=" vfrTimeFlags[TObj, G->getLine()] "," }
<<
mCVfrQuestionDB.RegisterOldTimeQuestion (VarIdStr[0], VarIdStr[1], VarIdStr[2], QId);
TObj.SetQuestionId (QId);
TObj.SetFlags (EFI_IFR_QUESTION_FLAG_DEFAULT, QF_TIME_STORAGE_TIME);
TObj.SetPrompt (_STOSID(HP->getText(), HP->getLine()));
TObj.SetHelp (_STOSID(HH->getText(), HH->getLine()));
if (VarIdStr[0] != NULL) { delete VarIdStr[0]; } if (VarIdStr[1] != NULL) { delete VarIdStr[1]; } if (VarIdStr[2] != NULL) { delete VarIdStr[2]; }
>>
<< {CIfrDefault DefaultObj(Size, EFI_HII_DEFAULT_CLASS_STANDARD, EFI_IFR_TYPE_TIME, Val); DefaultObj.SetLineNo(L->getLine());} >>
)
( vfrStatementInconsistentIf )*
)
E:EndTime << CRT_END_OP (E); >>
";"
;
minMaxTimeStepDefault[EFI_HII_TIME & T, UINT8 KeyValue] :
Minimum "=" Number ","
Maximum "=" Number ","
{ "step" "=" Number "," }
{
"default" "=" N:Number "," <<
switch (KeyValue) {
case 0:
T.Hour = _STOU8(N->getText(), N->getLine());
if (T.Hour > 23) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Hour default value must be between 0 and 23.");
}
break;
case 1:
T.Minute = _STOU8(N->getText(), N->getLine());
if (T.Minute > 59) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Minute default value must be between 0 and 59.");
}
break;
case 2:
T.Second = _STOU8(N->getText(), N->getLine());
if (T.Second > 59) {
_PCATCH (VFR_RETURN_INVALID_PARAMETER, N->getLine(), "Second default value must be between 0 and 59.");
}
break;
}
>>
}
;
vfrTimeFlags [CIfrTime & TObj, UINT32 LineNum] :
<< UINT8 LFlags = 0; >>
timeFlagsField[LFlags] ( "\|" timeFlagsField[LFlags] )*
<< _PCATCH(TObj.SetFlags(EFI_IFR_QUESTION_FLAG_DEFAULT, LFlags), LineNum); >>
;
timeFlagsField [UINT8 & Flags] :
N:Number << $Flags |= _STOU8(N->getText(), N->getLine()); >>
| "HOUR_SUPPRESS" << $Flags |= 0x01; >>
| "MINUTE_SUPPRESS" << $Flags |= 0x02; >>
| "SECOND_SUPPRESS" << $Flags |= 0x04; >>
| "STORAGE_NORMAL" << $Flags |= 0x00; >>
| "STORAGE_TIME" << $Flags |= 0x10; >>
| "STORAGE_WAKEUP" << $Flags |= 0x20; >>
;
vfrStatementQuestionTag :
vfrStatementStatTag "," |
vfrStatementInconsistentIf |
vfrStatementNoSubmitIf |
vfrStatementDisableIfQuest |
vfrStatementRefresh |
vfrStatementVarstoreDevice |
vfrStatementExtension |
vfrStatementRefreshEvent "," |
vfrStatementWarningIf
;
vfrStatementQuestionTagList :
( vfrStatementQuestionTag )*
;
vfrStatementQuestionOptionTag :
vfrStatementSuppressIfQuest |
vfrStatementGrayOutIfQuest |
vfrStatementValue |
vfrStatementDefault |
vfrStatementRead |
vfrStatementWrite |
vfrStatementOptions
;
vfrStatementQuestionOptionList :
(
vfrStatementQuestionTag |
vfrStatementQuestionOptionTag
)*
;
vfrStatementStatList :
vfrStatementStat |
vfrStatementQuestions |
vfrStatementConditionalNew |
vfrStatementLabel |
vfrStatementExtension |
// Just for framework vfr compatibility
vfrStatementInvalid
;
vfrStatementStatListOld :
vfrStatementStat |
vfrStatementQuestions |
vfrStatementLabel |
// Just for framework vfr compatibility
vfrStatementInvalid
;
vfrStatementDisableIfStat :
<<
CIfrDisableIf DIObj;
>>
L:DisableIf << DIObj.SetLineNo(L->getLine()); >>
vfrStatementExpression[0] ";"
( vfrStatementStatList )*
E:EndIf << CRT_END_OP (E); >>
";"
;
vfrStatementInconsistentIfStat :
<< CIfrInconsistentIf IIObj; >>
L:InconsistentIf <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
IIObj.SetLineNo(L->getLine());
>>
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)" "," << IIObj.SetError (_STOSID(S->getText(), S->getLine())); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
E:EndIf << CRT_END_OP (E); >>
";"
;
//
// Compatible for framework vfr file
//
vfrStatementgrayoutIfSuppressIf:
<< CIfrSuppressIf SIObj; >>
L:SuppressIf << SIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
;
vfrStatementsuppressIfGrayOutIf:
<< CIfrGrayOutIf GOIObj; >>
L:GrayOutIf << GOIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
;
vfrStatementSuppressIfStatNew :
<< CIfrSuppressIf SIObj;>>
L:SuppressIf << SIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
( vfrStatementStatList )*
E: EndIf ";" << CRT_END_OP (E); >>
;
vfrStatementGrayOutIfStatNew :
<< CIfrGrayOutIf GOIObj;>>
L:GrayOutIf << GOIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
( vfrStatementStatList )*
E: EndIf ";" << CRT_END_OP (E); >>
;
vfrStatementSuppressIfStatOld :
<<
CIfrSuppressIf SIObj;
BOOLEAN GrayOutExist = FALSE;
>>
L:SuppressIf << SIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
{
vfrStatementsuppressIfGrayOutIf
<< GrayOutExist = TRUE; >>
}
( vfrStatementStatListOld )*
E: EndIf ";" << if (GrayOutExist) CRT_END_OP (E); CRT_END_OP (E);>>
;
vfrStatementGrayOutIfStatOld :
<<
CIfrGrayOutIf GOIObj;
BOOLEAN SuppressExist = FALSE;
>>
L:GrayOutIf << GOIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
";"
{
vfrStatementgrayoutIfSuppressIf
<< SuppressExist = TRUE; >>
}
( vfrStatementStatListOld )*
E: EndIf ";" << if (SuppressExist) CRT_END_OP (E); CRT_END_OP (E); >>
;
vfrImageTag :
<< CIfrImage IObj; >>
L:Image "=" "IMAGE_TOKEN" "\(" S1:Number "\)" << IObj.SetImageId (_STOSID(S1->getText(), S1->getLine())); IObj.SetLineNo(L->getLine()); >>
;
vfrLockedTag :
<< CIfrLocked LObj; >>
L:Locked << LObj.SetLineNo(L->getLine()); >>
;
vfrModalTag :
<< CIfrModal MObj; >>
L:Modal << MObj.SetLineNo(L->getLine()); >>
;
vfrStatementStatTag :
vfrImageTag |
vfrLockedTag
;
vfrStatementStatTagList :
vfrStatementStatTag ( "," vfrStatementStatTag )*
;
vfrStatementImage :
vfrImageTag
";"
;
vfrStatementModal :
vfrModalTag
";"
;
vfrStatementLocked :
vfrLockedTag
";"
;
vfrStatementInconsistentIf :
<< CIfrInconsistentIf IIObj; >>
L:InconsistentIf << IIObj.SetLineNo(L->getLine()); >>
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)" "," << IIObj.SetError (_STOSID(S->getText(), S->getLine())); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementNoSubmitIf :
<< CIfrNoSubmitIf NSIObj; >>
L:NoSubmitIf << NSIObj.SetLineNo(L->getLine()); >>
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)" "," << NSIObj.SetError (_STOSID(S->getText(), S->getLine())); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementWarningIf :
<< CIfrWarningIf WIObj; >>
L:WarningIf << WIObj.SetLineNo(L->getLine()); >>
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)" "," << WIObj.SetWarning (_STOSID(S->getText(), S->getLine())); >>
{Timeout "=" T:Number "," << WIObj.SetTimeOut (_STOU8(T->getText(), T->getLine())); >>}
vfrStatementExpression[0]
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementDisableIfQuest :
<<
CIfrDisableIf DIObj;
>>
L:DisableIf << DIObj.SetLineNo(L->getLine()); >>
vfrStatementExpression[0] ";"
vfrStatementQuestionOptionList
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementRefresh :
<< CIfrRefresh RObj; >>
L:Refresh << RObj.SetLineNo(L->getLine()); >>
Interval "=" I:Number << RObj.SetRefreshInterval (_STOU8(I->getText(), I->getLine())); >>
;
vfrStatementRefreshEvent :
<<
CIfrRefreshId RiObj;
EFI_GUID Guid;
>>
L:RefreshGuid << RiObj.SetLineNo(L->getLine()); >>
"=" guidDefinition[Guid] << RiObj.SetRefreshEventGroutId (&Guid); >>
;
vfrStatementVarstoreDevice :
<< CIfrVarStoreDevice VDObj; >>
L:VarstoreDevice << VDObj.SetLineNo(L->getLine()); >>
"=" "STRING_TOKEN" "\(" S:Number "\)" "," << VDObj.SetDevicePath (_STOSID(S->getText(), S->getLine())); >>
;
vfrStatementSuppressIfQuest :
<< CIfrSuppressIf SIObj; >>
L:SuppressIf << SIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0] ";"
vfrStatementQuestionOptionList
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementGrayOutIfQuest :
<< CIfrGrayOutIf GOIObj; >>
L:GrayOutIf << GOIObj.SetLineNo(L->getLine()); >>
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0] ";"
vfrStatementQuestionOptionList
E:EndIf {";"} << CRT_END_OP (E); >>
;
vfrStatementOptions :
vfrStatementOneOfOption
;
vfrStatementOneOfOption :
<<
UINT8 ValueList[EFI_IFR_MAX_LENGTH] = {0,};
EFI_IFR_TYPE_VALUE *Val = (EFI_IFR_TYPE_VALUE *) ValueList;
CHAR8 *VarStoreName = NULL;
UINT32 Size = 0;
BOOLEAN TypeError = FALSE;
EFI_VFR_RETURN_CODE ReturnCode = VFR_RETURN_SUCCESS;
EFI_GUID *VarStoreGuid = NULL;
BOOLEAN ArrayType = FALSE;
CIfrOneOfOption *OOOObj;
UINT8 *Type8 = (UINT8 *) ValueList;
UINT16 *Type16 = (UINT16 *) ValueList;
UINT32 *Type32 = (UINT32 *) ValueList;
UINT64 *Type64 = (UINT64 *) ValueList;
>>
L:Option <<
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
_PCATCH (VFR_RETURN_FATAL_ERROR, L->getLine(), "Get data type error.");
}
>>
Text "=" "STRING_TOKEN" "\(" S:Number "\)" ","
Value "=" vfrConstantValueField[_GET_CURRQEST_DATATYPE(), *Val, ArrayType] ","
<<
if (gCurrentMinMaxData != NULL) {
//set min/max value for oneof opcode
UINT64 Step = gCurrentMinMaxData->GetStepData(_GET_CURRQEST_DATATYPE(), _GET_CURRQEST_VARTINFO().mIsBitVar);
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
gCurrentMinMaxData->SetMinMaxStepData(Val->u32, Val->u32, (UINT32) Step);
} else {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_64:
gCurrentMinMaxData->SetMinMaxStepData(Val->u64, Val->u64, Step);
break;
case EFI_IFR_TYPE_NUM_SIZE_32:
gCurrentMinMaxData->SetMinMaxStepData(Val->u32, Val->u32, (UINT32) Step);
break;
case EFI_IFR_TYPE_NUM_SIZE_16:
gCurrentMinMaxData->SetMinMaxStepData(Val->u16, Val->u16, (UINT16) Step);
break;
case EFI_IFR_TYPE_NUM_SIZE_8:
gCurrentMinMaxData->SetMinMaxStepData(Val->u8, Val->u8, (UINT8) Step);
break;
default:
break;
}
}
}
if (_GET_CURRQEST_DATATYPE() == EFI_IFR_TYPE_OTHER) {
Size = sizeof (EFI_IFR_TYPE_VALUE);
} else if (ArrayType) {
switch (_GET_CURRQEST_DATATYPE()) {
case EFI_IFR_TYPE_NUM_SIZE_8 :
while (Type8[Size] != 0) {
Size++;
}
break;
case EFI_IFR_TYPE_NUM_SIZE_16 :
while (Type16[Size] != 0) {
Size++;
}
Size *= sizeof (UINT16);
break;
case EFI_IFR_TYPE_NUM_SIZE_32 :
while (Type32[Size] != 0) {
Size++;
}
Size *= sizeof (UINT32);
break;
case EFI_IFR_TYPE_NUM_SIZE_64 :
while (Type64[Size] != 0) {
Size++;
}
Size *= sizeof (UINT64);
break;
default:
break;
}
} else {
//
// For the oneof stored in bit fields, set the option type as UINT32.
//
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
Size = sizeof (UINT32);
} else {
ReturnCode = gCVfrVarDataTypeDB.GetDataTypeSize (_GET_CURRQEST_DATATYPE(), &Size);
}
}
if (ReturnCode != VFR_RETURN_SUCCESS) {
_PCATCH (ReturnCode, L->getLine());
}
Size += OFFSET_OF (EFI_IFR_ONE_OF_OPTION, Value);
OOOObj = new CIfrOneOfOption((UINT8)Size);
OOOObj->SetLineNo(L->getLine());
OOOObj->SetOption (_STOSID(S->getText(), S->getLine()));
if (ArrayType) {
OOOObj->SetType (EFI_IFR_TYPE_BUFFER);
} else {
if (_GET_CURRQEST_VARTINFO().mIsBitVar) {
OOOObj->SetType ( EFI_IFR_TYPE_NUM_SIZE_32);
} else {
OOOObj->SetType (_GET_CURRQEST_DATATYPE());
}
}
OOOObj->SetValue (*Val);
>>
F:FLAGS "=" vfrOneOfOptionFlags[*OOOObj, F->getLine()]
<<
//
// Array type only for default type OneOfOption.
//
if ((OOOObj->GetFlags () & (EFI_IFR_OPTION_DEFAULT | EFI_IFR_OPTION_DEFAULT_MFG)) == 0 && ArrayType) {
_PCATCH (VFR_RETURN_FATAL_ERROR, L->getLine(), "Default keyword should with array value type!");
}
//
// Clear the default flag if the option not use array value but has default flag.
//
if ((OOOObj->GetFlags () & (EFI_IFR_OPTION_DEFAULT | EFI_IFR_OPTION_DEFAULT_MFG)) != 0 && !ArrayType && gIsOrderedList) {
OOOObj->SetFlags(OOOObj->GetFlags () & ~(EFI_IFR_OPTION_DEFAULT | EFI_IFR_OPTION_DEFAULT_MFG));
}
if (_GET_CURRQEST_VARTINFO().mVarStoreId != EFI_VARSTORE_ID_INVALID) {
_PCATCH(gCVfrDataStorage.GetVarStoreName (_GET_CURRQEST_VARTINFO().mVarStoreId, &VarStoreName), L->getLine());
VarStoreGuid = gCVfrDataStorage.GetVarStoreGuid(_GET_CURRQEST_VARTINFO().mVarStoreId);
if (OOOObj->GetFlags () & EFI_IFR_OPTION_DEFAULT) {
CheckDuplicateDefaultValue (EFI_HII_DEFAULT_CLASS_STANDARD, F);
_PCATCH(gCVfrDefaultStore.BufferVarStoreAltConfigAdd (
EFI_HII_DEFAULT_CLASS_STANDARD,
_GET_CURRQEST_VARTINFO(),
VarStoreName,
VarStoreGuid,
_GET_CURRQEST_DATATYPE (),
*Val
), L->getLine());
}
if (OOOObj->GetFlags () & EFI_IFR_OPTION_DEFAULT_MFG) {
CheckDuplicateDefaultValue (EFI_HII_DEFAULT_CLASS_MANUFACTURING, F);
_PCATCH(gCVfrDefaultStore.BufferVarStoreAltConfigAdd (
EFI_HII_DEFAULT_CLASS_MANUFACTURING,
_GET_CURRQEST_VARTINFO(),
VarStoreName,
VarStoreGuid,
_GET_CURRQEST_DATATYPE (),
*Val
), L->getLine());
}
}
>>
{
"," Key "=" KN:Number <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, KN);
}
//
// Guid Option Key
//
CIfrOptionKey IfrOptionKey (
gCurrentQuestion->QUESTION_ID(),
*Val,
_STOQID(KN->getText(), KN->getLine())
);
SET_LINE_INFO (IfrOptionKey, KN);
>>
}
(
T:"," vfrImageTag << OOOObj->SetScope (1); CRT_END_OP (T); >>
)*
";" << if (OOOObj != NULL) {delete OOOObj;} >>
;
vfrOneOfOptionFlags [CIfrOneOfOption & OOOObj, UINT32 LineNum] :
<<
UINT8 LFlags = _GET_CURRQEST_DATATYPE();
UINT8 HFlags = 0;
>>
oneofoptionFlagsField[HFlags, LFlags] ( "\|" oneofoptionFlagsField[HFlags, LFlags] )*
<< _PCATCH(gCurrentQuestion->SetFlags(HFlags), LineNum); >>
<< _PCATCH(OOOObj.SetFlags(LFlags), LineNum); >>
;
oneofoptionFlagsField [UINT8 & HFlags, UINT8 & LFlags] :
N:Number << $LFlags |= _STOU8(N->getText(), N->getLine()); >>
| "OPTION_DEFAULT" << $LFlags |= 0x10; >>
| "OPTION_DEFAULT_MFG" << $LFlags |= 0x20; >>
| InteractiveFlag << $HFlags |= 0x04; >>
| ResetRequiredFlag << $HFlags |= 0x10; >>
| ReconnectRequiredFlag << $HFlags |= 0x40; >>
| ManufacturingFlag << $LFlags |= 0x20; >>
| DefaultFlag << $LFlags |= 0x10; >>
| A:NVAccessFlag <<
if (mCompatibleMode) {
$HFlags |= 0x08;
} else {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
A->getLine(),
A->getText()
);
}
>>
| L:LateCheckFlag <<
if (mCompatibleMode) {
$HFlags |= 0x20;
} else {
gCVfrErrorHandle.HandleWarning (
VFR_WARNING_OBSOLETED_FRAMEWORK_OPCODE,
L->getLine(),
L->getText()
);
}
>>
;
vfrStatementLabel :
L:Label
N:Number <<
if (mCompatibleMode) {
//
// Add end Label for Framework Vfr
//
CIfrLabel LObj1;
LObj1.SetLineNo(L->getLine());
LObj1.SetNumber (0xffff); //add end label for UEFI, label number hardcode 0xffff
}
{
CIfrLabel LObj2;
LObj2.SetLineNo(L->getLine());
LObj2.SetNumber (_STOU16(N->getText(), N->getLine()));
}
>>
";"
;
vfrStatementBanner :
<< CIfrBanner BObj; >>
B:Banner { "," } << BObj.SetLineNo(B->getLine()); >>
Title "=" "STRING_TOKEN" "\(" S:Number "\)" "," << BObj.SetTitle (_STOSID(S->getText(), S->getLine())); >>
(
(
Line L:Number "," << BObj.SetLine (_STOU16(L->getText(), L->getLine())); >>
Align
(
Left << BObj.SetAlign (0); >>
| Center << BObj.SetAlign (1); >>
| Right << BObj.SetAlign (2); >>
) ";"
)
|
(
Timeout "=" T:Number ";" << {CIfrTimeout TObj(_STOU16(T->getText(), T->getLine()));} >>
)
)
;
//******************************************************************************
//
// keep some syntax for compatibility but not generate any IFR object
//
vfrStatementInvalidHidden :
L:Hidden <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
>>
Value "=" Number ","
Key "=" Number ";"
;
vfrStatementInvalidInconsistentIf :
InconsistentIf
Prompt "=" "STRING_TOKEN" "\(" S:Number "\)" ","
{ FLAGS "=" flagsField ( "\|" flagsField )* "," }
vfrStatementExpression[0]
EndIf
";"
;
vfrStatementInvalidInventory :
L:Inventory <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
>>
Help "=" "STRING_TOKEN" "\(" Number "\)" ","
Text "=" "STRING_TOKEN" "\(" Number "\)" ","
{
Text "=" "STRING_TOKEN" "\(" Number "\)"
}
";"
;
vfrStatementInvalidSaveRestoreDefaults :
(
L:Save <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
>>
|
K:Restore <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, K);
}
>>
)
Defaults ","
FormId "=" Number ","
Prompt "=" "STRING_TOKEN" "\(" Number "\)" ","
Help "=" "STRING_TOKEN" "\(" Number "\)"
{ "," FLAGS "=" flagsField ( "\|" flagsField )* }
{ "," Key "=" Number }
";"
;
//******************************************************************************
//
// The syntax of expression
//
#token Dup("dup") "dup"
#token VarEqVal("vareqval") "vareqval"
#token Var("var") "var"
#token IdEqVal("ideqval") "ideqval"
#token IdEqId("ideqid") "ideqid"
#token IdEqValList("ideqvallist") "ideqvallist"
#token QuestionRef("questionref") "questionref"
#token RuleRef("ruleref") "ruleref"
#token StringRef("stringref") "stringref"
#token PushThis("pushthis") "pushthis"
#token Security("security") "security"
#token Get("get") "get"
#token True("TRUE") "TRUE"
#token False("FALSE") "FALSE"
#token One("ONE") "ONE"
#token Ones("ONES") "ONES"
#token Zero("ZERO") "ZERO"
#token Undefined("UNDEFINED") "UNDEFINED"
#token Version("VERSION") "VERSION"
#token Length("length") "length"
#token AND("AND") "AND"
#token OR("OR") "OR"
#token NOT("NOT") "NOT"
#token Set("set") "set"
#token BitWiseNot("~") "\~"
#token BoolVal("boolval") "boolval"
#token StringVal("stringval") "stringval"
#token UnIntVal("unintval") "unintval"
#token ToUpper("toupper") "toupper"
#token ToLower("tolower") "tolower"
#token Match("match") "match"
#token Match2("match2") "match2"
#token Catenate("catenate") "catenate"
#token QuestionRefVal("questionrefval") "questionrefval"
#token StringRefVal("stringrefval") "stringrefval"
#token Map("map") "map"
#token RefreshGuid("refreshguid") "refreshguid"
//
// Root expression extension function called by other function.
//
vfrStatementExpression [UINT32 RootLevel, UINT32 ExpOpCount = 0] :
<< if ($RootLevel == 0) {mCIfrOpHdrIndex ++; if (mCIfrOpHdrIndex >= MAX_IFR_EXPRESSION_DEPTH) _PCATCH (VFR_RETURN_INVALID_PARAMETER, 0, "The depth of expression exceeds the max supported level 8!"); _CLEAR_SAVED_OPHDR ();} >>
andTerm[$RootLevel, $ExpOpCount]
(
L:OR andTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrOr OObj(L->getLine()); >>
)*
<<
//
// Extend OpCode Scope only for the root expression.
//
if ($ExpOpCount > 1 && $RootLevel == 0) {
if (_SET_SAVED_OPHDR_SCOPE()) {
CIfrEnd EObj;
if (mCIfrOpHdrLineNo[mCIfrOpHdrIndex] != 0) {
EObj.SetLineNo (mCIfrOpHdrLineNo[mCIfrOpHdrIndex]);
}
}
}
if ($RootLevel == 0) {
mCIfrOpHdrIndex --;
}
>>
;
//
// Add new sub function for the sub expression extension to remember the ExpOpCount
// This funciton is only called by sub expression.
//
vfrStatementExpressionSub [UINT32 RootLevel, UINT32 & ExpOpCount] :
andTerm[$RootLevel, $ExpOpCount]
(
L:OR andTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrOr OObj(L->getLine()); >>
)*
;
andTerm[UINT32 & RootLevel, UINT32 & ExpOpCount] :
bitwiseorTerm[$RootLevel, $ExpOpCount]
(
L:AND bitwiseorTerm [$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrAnd AObj(L->getLine()); >>
)*
;
bitwiseorTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
bitwiseandTerm[$RootLevel, $ExpOpCount]
(
L:"\|" bitwiseandTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrBitWiseOr BWOObj(L->getLine()); >>
)*
;
bitwiseandTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
equalTerm[$RootLevel, $ExpOpCount]
(
L:"&" equalTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrBitWiseAnd BWAObj(L->getLine()); >>
)*
;
equalTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
compareTerm[$RootLevel, $ExpOpCount]
(
(
L1:"==" compareTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrEqual EObj(L1->getLine()); >>
)
|
(
L2:"!=" compareTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrNotEqual NEObj(L2->getLine()); >>
)
)*
;
compareTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
shiftTerm[$RootLevel, $ExpOpCount]
(
(
L1:"<" shiftTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrLessThan LTObj(L1->getLine()); >>
)
|
(
L2:"<=" shiftTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrLessEqual LEObj(L2->getLine()); >>
)
|
(
L3:">" shiftTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrGreaterThan GTObj(L3->getLine()); >>
)
|
(
L4:">=" shiftTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrGreaterEqual GEObj(L4->getLine()); >>
)
)*
;
shiftTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
addMinusTerm[$RootLevel, $ExpOpCount]
(
(
L1:"\<<" addMinusTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrShiftLeft SLObj(L1->getLine()); >>
)
|
(
L2:"\>>" addMinusTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrShiftRight SRObj(L2->getLine()); >>
)
)*
;
addMinusTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
multdivmodTerm[$RootLevel, $ExpOpCount]
(
(
L1:"\+" multdivmodTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrAdd AObj(L1->getLine()); >>
)
|
(
L2:"\-" multdivmodTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrSubtract SObj(L2->getLine()); >>
)
)*
;
multdivmodTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
castTerm[$RootLevel, $ExpOpCount]
(
(
L1:"\*" castTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrMultiply MObj(L1->getLine()); >>
)
|
(
L2:"/" castTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrDivide DObj(L2->getLine()); >>
)
|
(
L3:"%" castTerm[$RootLevel, $ExpOpCount] << $ExpOpCount++; CIfrModulo MObj(L3->getLine()); >>
)
)*
;
castTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
<< UINT8 CastType = 0xFF; >>
(
L:"\("
(
Boolean << CastType = 0; >>
| Uint64 << CastType = 1; >>
| Uint32 << CastType = 1; >>
| Uint16 << CastType = 1; >>
| Uint8 << CastType = 1; >>
)
"\)"
)*
atomTerm[$RootLevel, $ExpOpCount]
<<
switch (CastType) {
case 0: { CIfrToBoolean TBObj(L->getLine()); $ExpOpCount++; } break;
case 1: { CIfrToUint TUObj(L->getLine()); $ExpOpCount++; } break;
}
>>
;
atomTerm [UINT32 & RootLevel, UINT32 & ExpOpCount]:
vfrExpressionCatenate[$RootLevel, $ExpOpCount]
| vfrExpressionMatch[$RootLevel, $ExpOpCount]
| vfrExpressionMatch2[$RootLevel, $ExpOpCount]
| vfrExpressionParen[$RootLevel, $ExpOpCount]
| vfrExpressionBuildInFunction[$RootLevel, $ExpOpCount]
| vfrExpressionConstant[$RootLevel, $ExpOpCount]
| vfrExpressionUnaryOp[$RootLevel, $ExpOpCount]
| vfrExpressionTernaryOp[$RootLevel, $ExpOpCount]
| vfrExpressionMap[$RootLevel, $ExpOpCount]
| (
L:NOT
atomTerm[$RootLevel, $ExpOpCount] << { CIfrNot NObj(L->getLine()); $ExpOpCount++; } >>
)
;
vfrExpressionCatenate [UINT32 & RootLevel, UINT32 & ExpOpCount]:
L:Catenate
"\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrCatenate CObj(L->getLine()); $ExpOpCount++; } >>
;
vfrExpressionMatch [UINT32 & RootLevel, UINT32 & ExpOpCount]:
L:Match
"\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrMatch MObj(L->getLine()); $ExpOpCount++; } >>
;
vfrExpressionMatch2 [UINT32 & RootLevel, UINT32 & ExpOpCount]:
<<
EFI_GUID Guid;
>>
L:Match2
"\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
guidDefinition[Guid]
"\)" << { CIfrMatch2 M2Obj(L->getLine(), &Guid); $ExpOpCount++; } >>
;
vfrExpressionParen [UINT32 & RootLevel, UINT32 & ExpOpCount]:
"\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)"
;
vfrExpressionBuildInFunction [UINT32 & RootLevel, UINT32 & ExpOpCount] :
dupExp[$RootLevel, $ExpOpCount]
| vareqvalExp[$RootLevel, $ExpOpCount] //Compatible for Framework vareqval
| ideqvalExp[$RootLevel, $ExpOpCount]
| ideqidExp[$RootLevel, $ExpOpCount]
| ideqvallistExp[$RootLevel, $ExpOpCount]
| questionref1Exp[$RootLevel, $ExpOpCount]
| rulerefExp[$RootLevel, $ExpOpCount]
| stringref1Exp[$RootLevel, $ExpOpCount]
| pushthisExp[$RootLevel, $ExpOpCount]
| securityExp[$RootLevel, $ExpOpCount]
| getExp[$RootLevel, $ExpOpCount]
;
dupExp [UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:Dup << { CIfrDup DObj(L->getLine()); _SAVE_OPHDR_COND(DObj, ($ExpOpCount == 0), L->getLine()); $ExpOpCount++; } >>
;
vareqvalExp [UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_QUESTION_ID QId;
UINT32 Mask;
UINT16 ConstVal;
CHAR8 *VarIdStr;
UINT32 LineNo;
EFI_VFR_RETURN_CODE VfrReturnCode = VFR_RETURN_SUCCESS;
EFI_VARSTORE_ID VarStoreId = EFI_VARSTORE_ID_INVALID;
>>
L:VarEqVal <<
if (!mCompatibleMode) {
_PCATCH (VFR_RETURN_UNSUPPORTED, L);
}
>>
VK:Var
OpenParen
VN:Number <<
VarIdStr = NULL; _STRCAT(&VarIdStr, VK->getText()); _STRCAT(&VarIdStr, VN->getText());
VfrReturnCode = gCVfrDataStorage.GetVarStoreId (VarIdStr, &VarStoreId);
if (VfrReturnCode == VFR_RETURN_UNDEFINED) {
_PCATCH (gCVfrDataStorage.DeclareEfiVarStore (
VarIdStr,
&mFormsetGuid,
_STOSID(VN->getText(), VN->getLine()),
0x2, //default type is UINT16
FALSE
), VN);
} else {
_PCATCH (VfrReturnCode, VN);
}
mCVfrQuestionDB.GetQuestionId (NULL, VarIdStr, QId, Mask);
LineNo = GET_LINENO(VN);
>>
CloseParen
(
(
"=="
V1:Number << ConstVal = _STOU16(V1->getText(), V1->getLine()); >>
<<
if (Mask == 0) {
CIfrEqIdVal EIVObj (L->getLine());
_SAVE_OPHDR_COND (EIVObj, ($ExpOpCount == 0), L->getLine());
EIVObj.SetQuestionId (QId, VarIdStr, LineNo);
EIVObj.SetValue (ConstVal);
$ExpOpCount++;
} else {
IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, EQUAL);
}
>>
)
|
(
"<="
V2:Number << ConstVal = _STOU16(V2->getText(), V2->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, LESS_EQUAL); >>
)
|
(
"<"
V3:Number << ConstVal = _STOU16(V3->getText(), V3->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, LESS_THAN); >>
)
|
(
">="
V4:Number << ConstVal = _STOU16(V4->getText(), V4->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, GREATER_EQUAL); >>
)
|
(
">"
V5:Number << ConstVal = _STOU16(V5->getText(), V5->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, GREATER_THAN); >>
)
)
;
ideqvalExp [UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_QUESTION_ID QId;
UINT32 Mask;
UINT16 ConstVal;
CHAR8 *VarIdStr;
UINT32 LineNo;
>>
L:IdEqVal
vfrQuestionDataFieldName[QId, Mask, VarIdStr, LineNo]
(
(
"=="
V1:Number << ConstVal = _STOU16(V1->getText(), V1->getLine()); >>
<<
if (Mask == 0) {
CIfrEqIdVal EIVObj (L->getLine());
_SAVE_OPHDR_COND (EIVObj, ($ExpOpCount == 0), L->getLine());
EIVObj.SetQuestionId (QId, VarIdStr, LineNo);
EIVObj.SetValue (ConstVal);
$ExpOpCount++;
} else {
IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, EQUAL);
}
>>
)
|
(
"<="
V2:Number << ConstVal = _STOU16(V2->getText(), V2->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, LESS_EQUAL); >>
)
|
(
"<"
V3:Number << ConstVal = _STOU16(V3->getText(), V3->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, LESS_THAN); >>
)
|
(
">="
V4:Number << ConstVal = _STOU16(V4->getText(), V4->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, GREATER_EQUAL); >>
)
|
(
">"
V5:Number << ConstVal = _STOU16(V5->getText(), V5->getLine()); >>
<< IdEqValDoSpecial ($ExpOpCount, L->getLine(), QId, VarIdStr, Mask, ConstVal, GREATER_THAN); >>
)
)
;
ideqidExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_QUESTION_ID QId[2];
UINT32 Mask[2];
CHAR8 *VarIdStr[2];
UINT32 LineNo[2];
>>
L:IdEqId
vfrQuestionDataFieldName[QId[0], Mask[0], VarIdStr[0], LineNo[0]]
(
(
"=="
vfrQuestionDataFieldName[QId[1], Mask[1], VarIdStr[1], LineNo[1]]
<<
if (Mask[0] & Mask[1]) {
IdEqIdDoSpecial ($ExpOpCount, L->getLine(), QId[0], VarIdStr[0], Mask[0], QId[1], VarIdStr[1], Mask[1], EQUAL);
} else {
CIfrEqIdId EIIObj(L->getLine());
_SAVE_OPHDR_COND (EIIObj, ($ExpOpCount == 0), L->getLine());
EIIObj.SetQuestionId1 (QId[0], VarIdStr[0], LineNo[0]);
EIIObj.SetQuestionId2 (QId[1], VarIdStr[1], LineNo[1]);
$ExpOpCount++;
}
>>
)
|
(
"<="
vfrQuestionDataFieldName[QId[1], Mask[1], VarIdStr[1], LineNo[1]]
<< IdEqIdDoSpecial ($ExpOpCount, L->getLine(), QId[0], VarIdStr[0], Mask[0], QId[1], VarIdStr[1], Mask[1], LESS_EQUAL); >>
)
|
(
"<"
vfrQuestionDataFieldName[QId[1], Mask[1], VarIdStr[1], LineNo[1]]
<< IdEqIdDoSpecial ($ExpOpCount, L->getLine(), QId[0], VarIdStr[0], Mask[0], QId[1], VarIdStr[1], Mask[1], LESS_THAN); >>
)
|
(
">="
vfrQuestionDataFieldName[QId[1], Mask[1], VarIdStr[1], LineNo[1]]
<< IdEqIdDoSpecial ($ExpOpCount, L->getLine(), QId[0], VarIdStr[0], Mask[0], QId[1], VarIdStr[1], Mask[1], GREATER_EQUAL); >>
)
|
(
">"
vfrQuestionDataFieldName[QId[1], Mask[1], VarIdStr[1], LineNo[1]]
<< IdEqIdDoSpecial ($ExpOpCount, L->getLine(), QId[0], VarIdStr[0], Mask[0], QId[1], VarIdStr[1], Mask[1], GREATER_THAN); >>
)
)
;
ideqvallistExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
UINT16 ListLen = 0;
EFI_QUESTION_ID QId;
UINT32 Mask;
UINT16 ValueList[EFI_IFR_MAX_LENGTH] = {0,};
CHAR8 *VarIdStr;
UINT32 LineNo;
>>
L:IdEqValList
vfrQuestionDataFieldName[QId, Mask, VarIdStr, LineNo]
"=="
(
V:Number << ValueList[ListLen] = _STOU16(V->getText(), V->getLine()); ListLen++; >>
)+
<<
if (Mask != 0) {
IdEqListDoSpecial ($ExpOpCount, LineNo, QId, VarIdStr, Mask, ListLen, ValueList);
} else {
UINT16 Index;
CIfrEqIdList EILObj(L->getLine());
if (QId != EFI_QUESTION_ID_INVALID) {
EILObj.SetQuestionId (QId, VarIdStr, LineNo);
}
EILObj.SetListLength (ListLen);
for (Index = 0; Index < ListLen; Index++) {
EILObj.SetValueList (Index, ValueList[Index]);
}
EILObj.UpdateIfrBuffer();
_SAVE_OPHDR_COND (EILObj, ($ExpOpCount == 0), L->getLine());
if (QId == EFI_QUESTION_ID_INVALID) {
EILObj.SetQuestionId (QId, VarIdStr, LineNo);
}
$ExpOpCount++;
}
>>
;
questionref1Exp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
UINT32 BitMask;
CHAR8 *QName = NULL;
UINT32 LineNo = 0;
>>
L:QuestionRef
"\("
(
QN:StringIdentifier <<
QName = QN->getText();
LineNo = QN->getLine();
mCVfrQuestionDB.GetQuestionId (QN->getText(), NULL, QId, BitMask);
>>
| ID:Number << QId = _STOQID(ID->getText(), ID->getLine()); >>
)
"\)"
<<
{ CIfrQuestionRef1 QR1Obj(L->getLine()); _SAVE_OPHDR_COND (QR1Obj, ($ExpOpCount == 0), L->getLine()); QR1Obj.SetQuestionId (QId, QName, LineNo); } $ExpOpCount++; >>
;
rulerefExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:RuleRef
"\(" RN:StringIdentifier "\)" << { CIfrRuleRef RRObj(L->getLine()); _SAVE_OPHDR_COND (RRObj, ($ExpOpCount == 0), L->getLine()); RRObj.SetRuleId (mCVfrRulesDB.GetRuleId (RN->getText())); } $ExpOpCount++; >>
;
//******************************************************
// PARSE:
// stringref (STR_FORM_SET_TITLE)
//
stringref1Exp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_STRING_ID RefStringId = EFI_STRING_ID_INVALID;
>>
L:StringRef
"\("
(
"STRING_TOKEN"
"\("
S:Number << RefStringId = _STOSID(S->getText(), S->getLine()); >>
"\)"
| I:Number << RefStringId = _STOSID(I->getText(), I->getLine()); >>
)
"\)" << { CIfrStringRef1 SR1Obj(L->getLine()); _SAVE_OPHDR_COND (SR1Obj, ($ExpOpCount == 0), L->getLine()); SR1Obj.SetStringId (RefStringId); $ExpOpCount++; } >>
;
pushthisExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:PushThis << { CIfrThis TObj(L->getLine()); _SAVE_OPHDR_COND (TObj, ($ExpOpCount == 0), L->getLine()); $ExpOpCount++; } >>
;
securityExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_GUID Guid;
>>
L:Security
"\(" guidDefinition[Guid] "\)" << { CIfrSecurity SObj(L->getLine()); _SAVE_OPHDR_COND (SObj, ($ExpOpCount == 0), L->getLine()); SObj.SetPermissions (&Guid); } $ExpOpCount++; >>
;
numericVarStoreType [UINT8 & VarType] :
"NUMERIC_SIZE_1" << $VarType = EFI_IFR_NUMERIC_SIZE_1; >>
| "NUMERIC_SIZE_2" << $VarType = EFI_IFR_NUMERIC_SIZE_2; >>
| "NUMERIC_SIZE_4" << $VarType = EFI_IFR_NUMERIC_SIZE_4; >>
| "NUMERIC_SIZE_8" << $VarType = EFI_IFR_NUMERIC_SIZE_8; >>
;
getExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_VARSTORE_INFO Info;
CHAR8 *VarIdStr = NULL;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
UINT32 Mask = 0;
EFI_QUESION_TYPE QType = QUESTION_NORMAL;
UINT8 VarType = EFI_IFR_TYPE_UNDEFINED;
UINT32 VarSize = 0;
Info.mVarStoreId = 0;
>>
L:Get
"\("
vfrStorageVarId[Info, VarIdStr, FALSE]
{"\|" FLAGS "=" numericVarStoreType [VarType] }
"\)" <<
{
if (Info.mVarStoreId == 0) {
// support Date/Time question
mCVfrQuestionDB.GetQuestionId (NULL, VarIdStr, QId, Mask, &QType);
if (QId == EFI_QUESTION_ID_INVALID || Mask == 0 || QType == QUESTION_NORMAL) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode can't get the enough varstore information");
}
if (QType == QUESTION_DATE) {
Info.mVarType = EFI_IFR_TYPE_DATE;
} else if (QType == QUESTION_TIME) {
Info.mVarType = EFI_IFR_TYPE_TIME;
}
switch (Mask) {
case DATE_YEAR_BITMASK:
Info.mInfo.mVarOffset = 0;
break;
case DATE_DAY_BITMASK:
Info.mInfo.mVarOffset = 3;
break;
case TIME_HOUR_BITMASK:
Info.mInfo.mVarOffset = 0;
break;
case TIME_MINUTE_BITMASK:
Info.mInfo.mVarOffset = 1;
break;
case TIME_SECOND_BITMASK:
Info.mInfo.mVarOffset = 2;
break;
default:
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode can't get the enough varstore information");
break;
}
} else {
if ((gCVfrDataStorage.GetVarStoreType(Info.mVarStoreId) == EFI_VFR_VARSTORE_NAME) && (VarType == EFI_IFR_TYPE_UNDEFINED)) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode don't support name string");
}
if (VarType != EFI_IFR_TYPE_UNDEFINED) {
Info.mVarType = VarType;
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize (Info.mVarType, &VarSize), L->getLine(), "Get/Set opcode can't get var type size");
Info.mVarTotalSize = VarSize;
}
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize (Info.mVarType, &VarSize), L->getLine(), "Get/Set opcode can't get var type size");
if (VarSize != Info.mVarTotalSize) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode don't support data array");
}
}
CIfrGet GObj(L->getLine());
_SAVE_OPHDR_COND (GObj, ($ExpOpCount == 0), L->getLine());
GObj.SetVarInfo (&Info);
delete VarIdStr;
$ExpOpCount++;
}
>>
;
vfrExpressionConstant[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L1:True << CIfrTrue TObj(L1->getLine()); _SAVE_OPHDR_COND (TObj, ($ExpOpCount == 0), L1->getLine()); $ExpOpCount++; >>
| L2:False << CIfrFalse FObj(L2->getLine()); _SAVE_OPHDR_COND (FObj, ($ExpOpCount == 0), L2->getLine()); $ExpOpCount++; >>
| L3:One << CIfrOne OObj(L3->getLine()); _SAVE_OPHDR_COND (OObj, ($ExpOpCount == 0), L3->getLine()); $ExpOpCount++; >>
| L4:Ones << CIfrOnes OObj(L4->getLine()); _SAVE_OPHDR_COND (OObj, ($ExpOpCount == 0), L4->getLine()); $ExpOpCount++; >>
| L5:Zero << CIfrZero ZObj(L5->getLine()); _SAVE_OPHDR_COND (ZObj, ($ExpOpCount == 0), L5->getLine()); $ExpOpCount++; >>
| L6:Undefined << CIfrUndefined UObj(L6->getLine()); _SAVE_OPHDR_COND (UObj, ($ExpOpCount == 0), L6->getLine()); $ExpOpCount++; >>
| L7:Version << CIfrVersion VObj(L7->getLine()); _SAVE_OPHDR_COND (VObj, ($ExpOpCount == 0), L7->getLine()); $ExpOpCount++; >>
| V:Number << CIfrUint64 U64Obj(V->getLine()); U64Obj.SetValue (_STOU64(V->getText(), V->getLine())); _SAVE_OPHDR_COND (U64Obj, ($ExpOpCount == 0), V->getLine()); $ExpOpCount++; >>
;
vfrExpressionUnaryOp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
lengthExp[$RootLevel, $ExpOpCount]
| bitwisenotExp[$RootLevel, $ExpOpCount]
| question23refExp[$RootLevel, $ExpOpCount]
| stringref2Exp[$RootLevel, $ExpOpCount]
| toboolExp[$RootLevel, $ExpOpCount]
| tostringExp[$RootLevel, $ExpOpCount]
| unintExp[$RootLevel, $ExpOpCount]
| toupperExp[$RootLevel, $ExpOpCount]
| tolwerExp[$RootLevel, $ExpOpCount]
| setExp[$RootLevel, $ExpOpCount]
;
lengthExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:Length
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrLength LObj(L->getLine()); $ExpOpCount++; } >>
;
bitwisenotExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:BitWiseNot
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrBitWiseNot BWNObj(L->getLine()); $ExpOpCount++; } >>
;
question23refExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
UINT8 Type = 0x1;
EFI_STRING_ID DevPath = EFI_STRING_ID_INVALID;
EFI_GUID Guid = {0,};
>>
L:QuestionRefVal
"\("
{
DevicePath "=" "STRING_TOKEN" "\(" S:Number "\)" "," << Type = 0x2; DevPath = _STOSID(S->getText(), S->getLine()); >>
}
{
Uuid "=" guidDefinition[Guid] "," << Type = 0x3; >>
}
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)"
<<
switch (Type) {
case 0x1: {CIfrQuestionRef2 QR2Obj(L->getLine()); _SAVE_OPHDR_COND (QR2Obj, ($ExpOpCount == 0), L->getLine()); break;}
case 0x2: {CIfrQuestionRef3_2 QR3_2Obj(L->getLine()); _SAVE_OPHDR_COND (QR3_2Obj, ($ExpOpCount == 0), L->getLine()); QR3_2Obj.SetDevicePath (DevPath); break;}
case 0x3: {CIfrQuestionRef3_3 QR3_3Obj(L->getLine()); _SAVE_OPHDR_COND (QR3_3Obj, ($ExpOpCount == 0), L->getLine()); QR3_3Obj.SetDevicePath (DevPath); QR3_3Obj.SetGuid (&Guid); break;}
}
$ExpOpCount++;
>>
;
stringref2Exp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:StringRefVal
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrStringRef2 SR2Obj(L->getLine()); $ExpOpCount++; } >>
;
toboolExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:BoolVal
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrToBoolean TBObj(L->getLine()); $ExpOpCount++; } >>
;
tostringExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<< UINT8 Fmt = 0; >>
L:StringVal
{
Format "=" F:Number "," << Fmt = _STOU8(F->getText(), F->getLine()); >>
}
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrToString TSObj(L->getLine()); TSObj.SetFormat (Fmt); $ExpOpCount++; } >>
;
unintExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:UnIntVal
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrToUint TUObj(L->getLine()); $ExpOpCount++; } >>
;
toupperExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:ToUpper
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrToUpper TUObj(L->getLine()); $ExpOpCount++; } >>
;
tolwerExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:ToLower
"\(" vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount] "\)"
<< { CIfrToLower TLObj(L->getLine()); $ExpOpCount++; } >>
;
setExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<<
EFI_VARSTORE_INFO Info;
CHAR8 *VarIdStr = NULL;
EFI_QUESTION_ID QId = EFI_QUESTION_ID_INVALID;
UINT32 Mask = 0;
EFI_QUESION_TYPE QType = QUESTION_NORMAL;
UINT8 VarType = EFI_IFR_TYPE_UNDEFINED;
UINT32 VarSize = 0;
Info.mVarStoreId = 0;
>>
L:Set
"\("
vfrStorageVarId[Info, VarIdStr, FALSE]
{"\|" FLAG "=" numericVarStoreType [VarType] }
"," vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)"
<<
{
if (Info.mVarStoreId == 0) {
// support Date/Time question
mCVfrQuestionDB.GetQuestionId (NULL, VarIdStr, QId, Mask, &QType);
if (QId == EFI_QUESTION_ID_INVALID || Mask == 0 || QType == QUESTION_NORMAL) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode can't get the enough varstore information");
}
if (QType == QUESTION_DATE) {
Info.mVarType = EFI_IFR_TYPE_DATE;
} else if (QType == QUESTION_TIME) {
Info.mVarType = EFI_IFR_TYPE_TIME;
}
switch (Mask) {
case DATE_YEAR_BITMASK:
Info.mInfo.mVarOffset = 0;
break;
case DATE_DAY_BITMASK:
Info.mInfo.mVarOffset = 3;
break;
case TIME_HOUR_BITMASK:
Info.mInfo.mVarOffset = 0;
break;
case TIME_MINUTE_BITMASK:
Info.mInfo.mVarOffset = 1;
break;
case TIME_SECOND_BITMASK:
Info.mInfo.mVarOffset = 2;
break;
default:
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode can't get the enough varstore information");
break;
}
} else {
if ((gCVfrDataStorage.GetVarStoreType(Info.mVarStoreId) == EFI_VFR_VARSTORE_NAME) && (VarType == EFI_IFR_TYPE_UNDEFINED)) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode don't support name string");
}
if (VarType != EFI_IFR_TYPE_UNDEFINED) {
Info.mVarType = VarType;
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize (Info.mVarType, &VarSize), L->getLine(), "Get/Set opcode can't get var type size");
Info.mVarTotalSize = VarSize;
}
_PCATCH(gCVfrVarDataTypeDB.GetDataTypeSize (Info.mVarType, &VarSize), L->getLine(), "Get/Set opcode can't get var type size");
if (VarSize != Info.mVarTotalSize) {
_PCATCH(VFR_RETURN_UNSUPPORTED, L->getLine(), "Get/Set opcode don't support data array");
}
}
CIfrSet TSObj(L->getLine());
TSObj.SetVarInfo (&Info);
delete VarIdStr;
$ExpOpCount++;
}
>>
;
vfrExpressionTernaryOp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
conditionalExp[$RootLevel, $ExpOpCount]
| findExp[$RootLevel, $ExpOpCount]
| midExp[$RootLevel, $ExpOpCount]
| tokenExp[$RootLevel, $ExpOpCount]
| spanExp[$RootLevel, $ExpOpCount]
;
#token Cond("cond") "cond"
#token Find("find") "find"
#token Mid("mid") "mid"
#token Tok("token") "token"
#token Span("span") "span"
conditionalExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:Cond "\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"?"
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
":"
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrConditional CObj(L->getLine()); $ExpOpCount++; } >>
;
findExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<< UINT8 Format; >>
L:Find "\("
findFormat[Format] ( "\|" findFormat[Format] )*
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrFind FObj(L->getLine()); FObj.SetFormat (Format); $ExpOpCount++; } >>
;
findFormat [UINT8 & Format] :
"SENSITIVE" << $Format = 0x00; >>
| "INSENSITIVE" << $Format = 0x01; >>
;
midExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:Mid "\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrMid MObj(L->getLine()); $ExpOpCount++; } >>
;
tokenExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
L:Tok "\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrToken TObj(L->getLine()); $ExpOpCount++; } >>
;
spanExp[UINT32 & RootLevel, UINT32 & ExpOpCount] :
<< UINT8 Flags = 0; >>
S:Span "\("
FLAGS "=" spanFlags[Flags] ( "\|" spanFlags[Flags] )*
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
","
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
"\)" << { CIfrSpan SObj(S->getLine()); SObj.SetFlags(Flags); $ExpOpCount++; } >>
;
vfrExpressionMap [UINT32 & RootLevel, UINT32 & ExpOpCount]:
L:Map
"\("
vfrStatementExpressionSub[$RootLevel + 1, $ExpOpCount]
":" << { CIfrMap MObj(L->getLine()); } >>
(
vfrStatementExpression[0]
","
vfrStatementExpression[0]
";"
) *
E:"\)" << { CIfrEnd EObj; EObj.SetLineNo(E->getLine()); $ExpOpCount++; } >>
;
spanFlags [UINT8 & Flags] :
N:Number << $Flags |= _STOU8(N->getText(), N->getLine()); >>
| "LAST_NON_MATCH" << $Flags |= 0x00; >>
| "FIRST_NON_MATCH" << $Flags |= 0x01; >>
;
#token StringIdentifier("string identifier") "[A-Za-z_][A-Za-z_0-9]*"
#token Number("numeric value") "(0x[0-9A-Fa-f]+) | [0-9]+"
//******************************************************************************
//
// Parser class definition.
//
class EfiVfrParser {
<<
private:
UINT8 mParserStatus;
BOOLEAN mConstantOnlyInExpression;
CVfrQuestionDB mCVfrQuestionDB;
CVfrRulesDB mCVfrRulesDB;
CIfrOpHeader * mCIfrOpHdr[MAX_IFR_EXPRESSION_DEPTH];
UINT32 mCIfrOpHdrLineNo[MAX_IFR_EXPRESSION_DEPTH];
UINT8 mCIfrOpHdrIndex;
VOID _SAVE_OPHDR_COND (IN CIfrOpHeader &, IN BOOLEAN, UINT32 LineNo = 0);
VOID _CLEAR_SAVED_OPHDR (VOID);
BOOLEAN _SET_SAVED_OPHDR_SCOPE (VOID);
EFI_VARSTORE_INFO mCurrQestVarInfo;
EFI_GUID *mOverrideClassGuid;
CHAR8* mLastFormEndAddr;
//
// Whether the question already has default value.
//
UINT16 mUsedDefaultArray[EFI_IFR_MAX_DEFAULT_TYPE];
UINT16 mUsedDefaultCount;
//
// For framework vfr compatibility
//
BOOLEAN mCompatibleMode;
EFI_GUID mFormsetGuid;
VOID _CRT_OP (IN BOOLEAN);
VOID _SAVE_CURRQEST_VARINFO (IN EFI_VARSTORE_INFO &);
EFI_VARSTORE_INFO & _GET_CURRQEST_VARTINFO (VOID);
UINT8 _GET_CURRQEST_DATATYPE ();
UINT32 _GET_CURRQEST_VARSIZE ();
UINT32 _GET_CURRQEST_ARRAY_SIZE();
VOID CheckDuplicateDefaultValue (IN EFI_DEFAULT_ID, IN ANTLRTokenPtr);
public:
VOID _PCATCH (IN INTN, IN INTN, IN ANTLRTokenPtr, IN CONST CHAR8 *);
VOID _PCATCH (IN EFI_VFR_RETURN_CODE);
VOID _PCATCH (IN EFI_VFR_RETURN_CODE, IN ANTLRTokenPtr);
VOID _PCATCH (IN EFI_VFR_RETURN_CODE, IN UINT32);
VOID _PCATCH (IN EFI_VFR_RETURN_CODE, IN UINT32, IN CONST CHAR8 *);
VOID syn (ANTLRAbstractToken *, ANTLRChar *, SetWordType *, ANTLRTokenType, INT32);
CHAR8* TrimHex (IN CHAR8 *, OUT BOOLEAN *);
CHAR8* _U32TOS (IN UINT32);
UINT8 _STOU8 (IN CHAR8 *, IN UINT32);
UINT16 _STOU16 (IN CHAR8 *, IN UINT32);
UINT32 _STOU32 (IN CHAR8 *, IN UINT32);
UINT64 _STOU64 (IN CHAR8 *, IN UINT32);
EFI_HII_DATE _STOD (IN CHAR8 *, IN CHAR8 *, IN CHAR8 *, IN UINT32);
EFI_HII_TIME _STOT (IN CHAR8 *, IN CHAR8 *, IN CHAR8 *, IN UINT32);
EFI_HII_REF _STOR (IN CHAR8 *, IN CHAR8 *, IN EFI_GUID *, IN CHAR8 *, IN UINT32);
EFI_STRING_ID _STOSID (IN CHAR8 *, IN UINT32);
EFI_FORM_ID _STOFID (IN CHAR8 *, IN UINT32);
EFI_QUESTION_ID _STOQID (IN CHAR8 *, IN UINT32);
VOID _STRCAT (IN OUT CHAR8 **, IN CONST CHAR8 *);
VOID _DeclareDefaultLinearVarStore (IN UINT32);
VOID _DeclareStandardDefaultStorage (IN UINT32);
VOID _DeclareDefaultFrameworkVarStore (IN UINT32);
VOID AssignQuestionKey (IN CIfrQuestionHeader &, IN ANTLRTokenPtr);
VOID ConvertIdExpr (IN UINT32 &, IN UINT32, IN EFI_QUESTION_ID, IN CHAR8 *, IN UINT32);
VOID IdEqValDoSpecial (IN UINT32 &, IN UINT32, IN EFI_QUESTION_ID, IN CHAR8 *, IN UINT32, IN UINT16, IN EFI_COMPARE_TYPE);
VOID IdEqIdDoSpecial (IN UINT32 &, IN UINT32, IN EFI_QUESTION_ID, IN CHAR8 *, IN UINT32, IN EFI_QUESTION_ID, IN CHAR8 *, IN UINT32, IN EFI_COMPARE_TYPE);
VOID IdEqListDoSpecial (IN UINT32 &, IN UINT32, IN EFI_QUESTION_ID, IN CHAR8 *, IN UINT32, IN UINT16, IN UINT16 *);
VOID SetOverrideClassGuid (IN EFI_GUID *);
//
// For framework vfr compatibility
//
VOID SetCompatibleMode (IN BOOLEAN);
>>
}
<<
VOID
EfiVfrParser::_SAVE_OPHDR_COND (
IN CIfrOpHeader &OpHdr,
IN BOOLEAN Cond,
IN UINT32 LineNo
)
{
if (Cond == TRUE) {
if (mCIfrOpHdr[mCIfrOpHdrIndex] != NULL) {
return ;
}
mCIfrOpHdr[mCIfrOpHdrIndex] = new CIfrOpHeader(OpHdr);
mCIfrOpHdrLineNo[mCIfrOpHdrIndex] = LineNo;
}
}
VOID
EfiVfrParser::_CLEAR_SAVED_OPHDR (
VOID
)
{
mCIfrOpHdr[mCIfrOpHdrIndex] = NULL;
mCIfrOpHdrLineNo[mCIfrOpHdrIndex] = 0;
}
BOOLEAN
EfiVfrParser::_SET_SAVED_OPHDR_SCOPE (
VOID
)
{
if (mCIfrOpHdr[mCIfrOpHdrIndex] != NULL) {
mCIfrOpHdr[mCIfrOpHdrIndex]->SetScope (1);
return TRUE;
}
//
// IfrOpHdr is not set, FALSE is return.
//
return FALSE;
}
VOID
EfiVfrParser::_CRT_OP (
IN BOOLEAN Crt
)
{
gCreateOp = Crt;
}
VOID
EfiVfrParser::_SAVE_CURRQEST_VARINFO (
IN EFI_VARSTORE_INFO &Info
)
{
mCurrQestVarInfo = Info;
}
EFI_VARSTORE_INFO &
EfiVfrParser::_GET_CURRQEST_VARTINFO (
VOID
)
{
return mCurrQestVarInfo;
}
UINT32
EfiVfrParser::_GET_CURRQEST_ARRAY_SIZE (
VOID
)
{
UINT8 Size = 1;
switch (mCurrQestVarInfo.mVarType) {
case EFI_IFR_TYPE_NUM_SIZE_8:
Size = 1;
break;
case EFI_IFR_TYPE_NUM_SIZE_16:
Size = 2;
break;
case EFI_IFR_TYPE_NUM_SIZE_32:
Size = 4;
break;
case EFI_IFR_TYPE_NUM_SIZE_64:
Size = 8;
break;
default:
break;
}
return (mCurrQestVarInfo.mVarTotalSize / Size);
}
UINT8
EfiVfrParser::_GET_CURRQEST_DATATYPE (
VOID
)
{
return mCurrQestVarInfo.mVarType;
}
UINT32
EfiVfrParser::_GET_CURRQEST_VARSIZE (
VOID
)
{
return mCurrQestVarInfo.mVarTotalSize;
}
VOID
EfiVfrParser::_PCATCH (
IN INTN ReturnCode,
IN INTN ExpectCode,
IN ANTLRTokenPtr Tok,
IN CONST CHAR8 *ErrorMsg
)
{
if (ReturnCode != ExpectCode) {
mParserStatus++;
gCVfrErrorHandle.PrintMsg (Tok->getLine(), Tok->getText(), "Error", ErrorMsg);
}
}
VOID
EfiVfrParser::_PCATCH (
IN EFI_VFR_RETURN_CODE ReturnCode
)
{
mParserStatus = mParserStatus + gCVfrErrorHandle.HandleError (ReturnCode);
}
VOID
EfiVfrParser::_PCATCH (
IN EFI_VFR_RETURN_CODE ReturnCode,
IN ANTLRTokenPtr Tok
)
{
mParserStatus = mParserStatus + gCVfrErrorHandle.HandleError (ReturnCode, Tok->getLine(), Tok->getText());
}
VOID
EfiVfrParser::_PCATCH (
IN EFI_VFR_RETURN_CODE ReturnCode,
IN UINT32 LineNum
)
{
mParserStatus = mParserStatus + gCVfrErrorHandle.HandleError (ReturnCode, LineNum);
}
VOID
EfiVfrParser::_PCATCH (
IN EFI_VFR_RETURN_CODE ReturnCode,
IN UINT32 LineNum,
IN CONST CHAR8 *ErrorMsg
)
{
mParserStatus = mParserStatus + gCVfrErrorHandle.HandleError (ReturnCode, LineNum, (CHAR8 *) ErrorMsg);
}
VOID
EfiVfrParser::syn (
ANTLRAbstractToken *Tok,
ANTLRChar *Egroup,
SetWordType *Eset,
ANTLRTokenType ETok,
INT32 Huh
)
{
gCVfrErrorHandle.HandleError (VFR_RETURN_MISMATCHED, Tok->getLine(), Tok->getText());
mParserStatus += 1;
}
CHAR8 *
EfiVfrParser::TrimHex (
IN CHAR8 *Str,
OUT BOOLEAN *IsHex
)
{
*IsHex = FALSE;
while (*Str && *Str == ' ') {
Str++;
}
while (*Str && *Str == '0') {
Str++;
}
if (*Str && (*Str == 'x' || *Str == 'X')) {
Str++;
*IsHex = TRUE;
}
return Str;
}
CHAR8 *
EfiVfrParser::_U32TOS (
IN UINT32 Value
)
{
CHAR8 *Str;
Str = new CHAR8[20];
sprintf (Str, "%d", Value);
return Str;
}
UINT8
EfiVfrParser::_STOU8 (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
BOOLEAN IsHex;
UINT8 Value;
CHAR8 c;
UINT8 PreviousValue;
CHAR8 *OrigString = Str;
CHAR8 ErrorMsg[100];
Str = TrimHex (Str, &IsHex);
for (Value = 0; (c = *Str) != '\0'; Str++) {
PreviousValue = Value;
(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');
}
if((IsHex && ((Value/16) != PreviousValue)) || (!IsHex && ((Value/10) != PreviousValue))) {
sprintf(ErrorMsg, "Overflow: Value %s is too large to store in a UINT8", OrigString);
gCVfrErrorHandle.HandleWarning (VFR_WARNING_STRING_TO_UINT_OVERFLOW, LineNum, ErrorMsg);
}
}
return Value;
}
UINT16
EfiVfrParser::_STOU16 (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
BOOLEAN IsHex;
UINT16 Value;
CHAR8 c;
UINT16 PreviousValue;
CHAR8 *OrigString = Str;
CHAR8 ErrorMsg[100];
Str = TrimHex (Str, &IsHex);
for (Value = 0; (c = *Str) != '\0'; Str++) {
PreviousValue = Value;
(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');
}
if((IsHex && ((Value/16) != PreviousValue)) || (!IsHex && ((Value/10) != PreviousValue))) {
sprintf(ErrorMsg, "Overflow: Value %s is too large to store in a UINT16", OrigString);
gCVfrErrorHandle.HandleWarning (VFR_WARNING_STRING_TO_UINT_OVERFLOW, LineNum, ErrorMsg);
}
}
return Value;
}
UINT32
EfiVfrParser::_STOU32 (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
BOOLEAN IsHex;
UINT32 Value;
CHAR8 c;
UINT32 PreviousValue;
CHAR8 *OrigString = Str;
CHAR8 ErrorMsg[100];
Str = TrimHex (Str, &IsHex);
for (Value = 0; (c = *Str) != '\0'; Str++) {
PreviousValue = Value;
(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');
}
if((IsHex && ((Value/16) != PreviousValue)) || (!IsHex && ((Value/10) != PreviousValue ))) {
sprintf(ErrorMsg, "Overflow: Value %s is too large to store in a UINT32", OrigString);
gCVfrErrorHandle.HandleWarning (VFR_WARNING_STRING_TO_UINT_OVERFLOW, LineNum, ErrorMsg);
}
}
return Value;
}
UINT64
EfiVfrParser::_STOU64 (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
BOOLEAN IsHex;
UINT64 Value;
CHAR8 c;
UINT64 PreviousValue;
CHAR8 *OrigString = Str;
CHAR8 ErrorMsg[100];
Str = TrimHex (Str, &IsHex);
for (Value = 0; (c = *Str) != '\0'; Str++) {
PreviousValue = Value;
(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');
}
if((IsHex && ((Value/16) != PreviousValue)) || ((!IsHex && (Value/10) != PreviousValue))) {
sprintf(ErrorMsg, "Overflow: Value %s is too large to store in a UINT64", OrigString);
gCVfrErrorHandle.HandleWarning (VFR_WARNING_STRING_TO_UINT_OVERFLOW, LineNum, ErrorMsg);
}
}
return Value;
}
EFI_HII_DATE
EfiVfrParser::_STOD (
IN CHAR8 *Year,
IN CHAR8 *Month,
IN CHAR8 *Day,
IN UINT32 LineNum
)
{
EFI_HII_DATE Date;
Date.Year = _STOU16 (Year, LineNum);
Date.Month = _STOU8 (Month, LineNum);
Date.Day = _STOU8 (Day, LineNum);
return Date;
}
EFI_HII_TIME
EfiVfrParser::_STOT (
IN CHAR8 *Hour,
IN CHAR8 *Minute,
IN CHAR8 *Second,
IN UINT32 LineNum
)
{
EFI_HII_TIME Time;
Time.Hour = _STOU8 (Hour, LineNum);
Time.Minute = _STOU8 (Minute, LineNum);
Time.Second = _STOU8 (Second, LineNum);
return Time;
}
EFI_STRING_ID
EfiVfrParser::_STOSID (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
return (EFI_STRING_ID)_STOU16(Str, LineNum);
}
EFI_FORM_ID
EfiVfrParser::_STOFID (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
return (EFI_FORM_ID)_STOU16(Str, LineNum);
}
EFI_QUESTION_ID
EfiVfrParser::_STOQID (
IN CHAR8 *Str,
IN UINT32 LineNum
)
{
return (EFI_QUESTION_ID)_STOU16(Str, LineNum);
}
VOID
EfiVfrParser::_STRCAT (
IN OUT CHAR8 **Dest,
IN CONST CHAR8 *Src
)
{
CHAR8 *NewStr;
UINT32 Len;
if ((Dest == NULL) || (Src == NULL)) {
return;
}
Len = (*Dest == NULL) ? 0 : strlen (*Dest);
Len += strlen (Src);
if ((NewStr = new CHAR8[Len + 1]) == NULL) {
return;
}
NewStr[0] = '\0';
if (*Dest != NULL) {
strcpy (NewStr, *Dest);
delete *Dest;
}
strcat (NewStr, Src);
*Dest = NewStr;
}
EFI_HII_REF
EfiVfrParser::_STOR (
IN CHAR8 *QuestionId,
IN CHAR8 *FormId,
IN EFI_GUID *FormSetGuid,
IN CHAR8 *DevicePath,
IN UINT32 LineNum
)
{
EFI_HII_REF Ref;
UINT32 Index;
memcpy (&Ref.FormSetGuid, FormSetGuid, sizeof (EFI_GUID));
Ref.QuestionId = _STOQID (QuestionId, LineNum);
Ref.FormId = _STOFID (FormId, LineNum);
Ref.DevicePath = _STOSID (DevicePath, LineNum);
return Ref;
}
//
// framework vfr to default declare varstore for each structure
//
VOID
EfiVfrParser::_DeclareDefaultFrameworkVarStore (
IN UINT32 LineNo
)
{
SVfrVarStorageNode *pNode;
UINT32 TypeSize;
BOOLEAN FirstNode;
CONST CHAR8 VarName[] = "Setup";
FirstNode = TRUE;
pNode = gCVfrDataStorage.GetBufferVarStoreList();
if (pNode == NULL && gCVfrVarDataTypeDB.mFirstNewDataTypeName != NULL) {
//
// Create the default Buffer Var Store when no VarStore is defined.
// its name should be "Setup"
//
gCVfrVarDataTypeDB.GetDataTypeSize (gCVfrVarDataTypeDB.mFirstNewDataTypeName, &TypeSize);
CIfrVarStore VSObj;
VSObj.SetLineNo (LineNo);
VSObj.SetVarStoreId (0x1); //the first and only one Buffer Var Store
VSObj.SetSize ((UINT16) TypeSize);
//VSObj.SetName (gCVfrVarDataTypeDB.mFirstNewDataTypeName);
VSObj.SetName ((CHAR8 *) VarName);
VSObj.SetGuid (&mFormsetGuid);
#ifdef VFREXP_DEBUG
printf ("Create the default VarStoreName is %s\n", gCVfrVarDataTypeDB.mFirstNewDataTypeName);
#endif
} else {
for (; pNode != NULL; pNode = pNode->mNext) {
//
// create the default varstore opcode for not declared varstore
// the first varstore name should be "Setup"
//
if (!pNode->mAssignedFlag) {
CIfrVarStore VSObj;
VSObj.SetLineNo (LineNo);
VSObj.SetVarStoreId (pNode->mVarStoreId);
VSObj.SetSize ((UINT16) pNode->mStorageInfo.mDataType->mTotalSize);
if (FirstNode) {
VSObj.SetName ((CHAR8 *) VarName);
FirstNode = FALSE;
} else {
VSObj.SetName (pNode->mVarStoreName);
}
VSObj.SetGuid (&pNode->mGuid);
#ifdef VFREXP_DEBUG
printf ("undefined VarStoreName is %s and Id is 0x%x\n", pNode->mVarStoreName, pNode->mVarStoreId);
#endif
}
}
}
pNode = gCVfrDataStorage.GetEfiVarStoreList();
for (; pNode != NULL; pNode = pNode->mNext) {
//
// create the default efi varstore opcode for not exist varstore
//
if (!pNode->mAssignedFlag) {
CIfrVarStoreEfi VSEObj;
VSEObj.SetLineNo (LineNo);
VSEObj.SetAttributes (0x00000002); //hardcode EFI_VARIABLE_BOOTSERVICE_ACCESS attribute
VSEObj.SetGuid (&pNode->mGuid);
VSEObj.SetVarStoreId (pNode->mVarStoreId);
// Generate old efi varstore storage structure for compatiable with old "VarEqVal" opcode,
// which is 3 bytes less than new structure define in UEFI Spec 2.3.1.
VSEObj.SetBinaryLength (sizeof (EFI_IFR_VARSTORE_EFI) - 3);
#ifdef VFREXP_DEBUG
printf ("undefined Efi VarStoreName is %s and Id is 0x%x\n", pNode->mVarStoreName, pNode->mVarStoreId);
#endif
}
}
}
VOID
EfiVfrParser::_DeclareDefaultLinearVarStore (
IN UINT32 LineNo
)
{
UINT32 Index;
CHAR8 **TypeNameList;
UINT32 ListSize;
CONST CHAR8 DateName[] = "Date";
CONST CHAR8 TimeName[] = "Time";
CONST CHAR8 DateType[] = "EFI_HII_DATE";
CONST CHAR8 TimeType[] = "EFI_HII_TIME";
gCVfrVarDataTypeDB.GetUserDefinedTypeNameList (&TypeNameList, &ListSize);
for (Index = 0; Index < ListSize; Index++) {
UINT32 Size;
EFI_VARSTORE_ID VarStoreId;
CIfrVarStore VSObj;
VSObj.SetLineNo (LineNo);
gCVfrDataStorage.DeclareBufferVarStore (
TypeNameList[Index],
&mFormsetGuid,
&gCVfrVarDataTypeDB,
TypeNameList[Index],
EFI_VARSTORE_ID_INVALID,
FALSE
);
gCVfrDataStorage.GetVarStoreId(TypeNameList[Index], &VarStoreId, &mFormsetGuid);
VSObj.SetVarStoreId (VarStoreId);
gCVfrVarDataTypeDB.GetDataTypeSize(TypeNameList[Index], &Size);
VSObj.SetSize ((UINT16) Size);
VSObj.SetName (TypeNameList[Index]);
VSObj.SetGuid (&mFormsetGuid);
}
//
// not required to declare Date and Time VarStore,
// because code to support old format Data and Time
//
if (gCVfrVarDataTypeDB.IsTypeNameDefined ((CHAR8 *) DateName) == FALSE) {
UINT32 Size;
EFI_VARSTORE_ID VarStoreId;
CIfrVarStore VSObj;
VSObj.SetLineNo (LineNo);
gCVfrDataStorage.DeclareBufferVarStore (
(CHAR8 *) DateName,
&mFormsetGuid,
&gCVfrVarDataTypeDB,
(CHAR8 *) DateType,
EFI_VARSTORE_ID_INVALID,
FALSE
);
gCVfrDataStorage.GetVarStoreId((CHAR8 *) DateName, &VarStoreId, &mFormsetGuid);
VSObj.SetVarStoreId (VarStoreId);
gCVfrVarDataTypeDB.GetDataTypeSize((CHAR8 *) DateType, &Size);
VSObj.SetSize ((UINT16) Size);
VSObj.SetName ((CHAR8 *) DateName);
VSObj.SetGuid (&mFormsetGuid);
}
if (gCVfrVarDataTypeDB.IsTypeNameDefined ((CHAR8 *) TimeName) == FALSE) {
UINT32 Size;
EFI_VARSTORE_ID VarStoreId;
CIfrVarStore VSObj;
VSObj.SetLineNo (LineNo);
gCVfrDataStorage.DeclareBufferVarStore (
(CHAR8 *) TimeName,
&mFormsetGuid,
&gCVfrVarDataTypeDB,
(CHAR8 *) TimeType,
EFI_VARSTORE_ID_INVALID,
FALSE
);
gCVfrDataStorage.GetVarStoreId((CHAR8 *) TimeName, &VarStoreId, &mFormsetGuid);
VSObj.SetVarStoreId (VarStoreId);
gCVfrVarDataTypeDB.GetDataTypeSize((CHAR8 *) TimeType, &Size);
VSObj.SetSize ((UINT16) Size);
VSObj.SetName ((CHAR8 *) TimeName);
VSObj.SetGuid (&mFormsetGuid);
}
}
VOID
EfiVfrParser::_DeclareStandardDefaultStorage (
IN UINT32 LineNo
)
{
//
// Default Store is declared.
//
CIfrDefaultStore DSObj;
gCVfrDefaultStore.RegisterDefaultStore (DSObj.GetObjBinAddr<CHAR8>(), (CHAR8 *) "Standard Defaults", EFI_STRING_ID_INVALID, EFI_HII_DEFAULT_CLASS_STANDARD);
DSObj.SetLineNo (LineNo);
DSObj.SetDefaultName (EFI_STRING_ID_INVALID);
DSObj.SetDefaultId (EFI_HII_DEFAULT_CLASS_STANDARD);
//
// Default MANUFACTURING Store is declared.
//
CIfrDefaultStore DSObjMF;
gCVfrDefaultStore.RegisterDefaultStore (DSObjMF.GetObjBinAddr<CHAR8>(), (CHAR8 *) "Standard ManuFacturing", EFI_STRING_ID_INVALID, EFI_HII_DEFAULT_CLASS_MANUFACTURING);
DSObjMF.SetLineNo (LineNo);
DSObjMF.SetDefaultName (EFI_STRING_ID_INVALID);
DSObjMF.SetDefaultId (EFI_HII_DEFAULT_CLASS_MANUFACTURING);
}
VOID
EfiVfrParser::AssignQuestionKey (
IN CIfrQuestionHeader &QHObj,
IN ANTLRTokenPtr KeyTok
)
{
UINT16 KeyValue;
if (KeyTok == NULL) {
return;
}
KeyValue = _STOU16 (KeyTok->getText(), KeyTok->getLine());
if (QHObj.FLAGS () & EFI_IFR_FLAG_CALLBACK) {
/*
* if the question is not CALLBACK ignore the key.
*/
_PCATCH(mCVfrQuestionDB.UpdateQuestionId (QHObj.QUESTION_ID(), KeyValue), KeyTok);
QHObj.SetQuestionId (KeyValue);
}
}
VOID
EfiVfrParser::ConvertIdExpr (
IN UINT32 &ExpOpCount,
IN UINT32 LineNo,
IN EFI_QUESTION_ID QId,
IN CHAR8 *VarIdStr,
IN UINT32 BitMask
)
{
CIfrQuestionRef1 QR1Obj(LineNo);
QR1Obj.SetQuestionId (QId, VarIdStr, LineNo);
_SAVE_OPHDR_COND (QR1Obj, (ExpOpCount == 0));
if (BitMask != 0) {
CIfrUint32 U32Obj(LineNo);
U32Obj.SetValue (BitMask);
CIfrBitWiseAnd BWAObj(LineNo);
CIfrUint8 U8Obj(LineNo);
switch (BitMask) {
case DATE_YEAR_BITMASK : U8Obj.SetValue (0); break;
case TIME_SECOND_BITMASK : U8Obj.SetValue (0x10); break;
case DATE_DAY_BITMASK : U8Obj.SetValue (0x18); break;
case TIME_HOUR_BITMASK : U8Obj.SetValue (0); break;
case TIME_MINUTE_BITMASK : U8Obj.SetValue (0x8); break;
}
CIfrShiftRight SRObj(LineNo);
}
ExpOpCount += 4;
}
VOID
EfiVfrParser::IdEqValDoSpecial (
IN UINT32 &ExpOpCount,
IN UINT32 LineNo,
IN EFI_QUESTION_ID QId,
IN CHAR8 *VarIdStr,
IN UINT32 BitMask,
IN UINT16 ConstVal,
IN EFI_COMPARE_TYPE CompareType
)
{
ConvertIdExpr (ExpOpCount, LineNo, QId, VarIdStr, BitMask);
if (ConstVal > 0xFF) {
CIfrUint16 U16Obj(LineNo);
U16Obj.SetValue (ConstVal);
} else {
CIfrUint8 U8Obj(LineNo);
U8Obj.SetValue ((UINT8)ConstVal);
}
switch (CompareType) {
case EQUAL :
{
CIfrEqual EObj(LineNo);
break;
}
case LESS_EQUAL :
{
CIfrLessEqual LEObj(LineNo);
break;
}
case LESS_THAN :
{
CIfrLessThan LTObj(LineNo);
break;
}
case GREATER_EQUAL :
{
CIfrGreaterEqual GEObj(LineNo);
break;
}
case GREATER_THAN :
{
CIfrGreaterThan GTObj(LineNo);
break;
}
}
ExpOpCount += 2;
}
VOID
EfiVfrParser::IdEqIdDoSpecial (
IN UINT32 &ExpOpCount,
IN UINT32 LineNo,
IN EFI_QUESTION_ID QId1,
IN CHAR8 *VarId1Str,
IN UINT32 BitMask1,
IN EFI_QUESTION_ID QId2,
IN CHAR8 *VarId2Str,
IN UINT32 BitMask2,
IN EFI_COMPARE_TYPE CompareType
)
{
ConvertIdExpr (ExpOpCount, LineNo, QId1, VarId1Str, BitMask1);
ConvertIdExpr (ExpOpCount, LineNo, QId2, VarId2Str, BitMask2);
switch (CompareType) {
case EQUAL :
{
CIfrEqual EObj(LineNo);
break;
}
case LESS_EQUAL :
{
CIfrLessEqual LEObj(LineNo);
break;
}
case LESS_THAN :
{
CIfrLessThan LTObj(LineNo);
break;
}
case GREATER_EQUAL :
{
CIfrGreaterEqual GEObj(LineNo);
break;
}
case GREATER_THAN :
{
CIfrGreaterThan GTObj(LineNo);
break;
}
}
ExpOpCount++;
}
VOID
EfiVfrParser::IdEqListDoSpecial (
IN UINT32 &ExpOpCount,
IN UINT32 LineNo,
IN EFI_QUESTION_ID QId,
IN CHAR8 *VarIdStr,
IN UINT32 BitMask,
IN UINT16 ListLen,
IN UINT16 *ValueList
)
{
UINT16 Index;
if (ListLen == 0) {
return;
}
IdEqValDoSpecial (ExpOpCount, LineNo, QId, VarIdStr, BitMask, ValueList[0], EQUAL);
for (Index = 1; Index < ListLen; Index++) {
IdEqValDoSpecial (ExpOpCount, LineNo, QId, VarIdStr, BitMask, ValueList[Index], EQUAL);
CIfrOr OObj (LineNo);
ExpOpCount++;
}
}
VOID
EfiVfrParser::SetOverrideClassGuid (IN EFI_GUID *OverrideClassGuid)
{
mOverrideClassGuid = OverrideClassGuid;
}
//
// For framework vfr compatibility
//
VOID
EfiVfrParser::SetCompatibleMode (IN BOOLEAN Mode)
{
mCompatibleMode = Mode;
mCVfrQuestionDB.SetCompatibleMode (Mode);
}
VOID
EfiVfrParser::CheckDuplicateDefaultValue (
IN EFI_DEFAULT_ID DefaultId,
IN ANTLRTokenPtr Tok
)
{
UINT16 Index;
for(Index = 0; Index < mUsedDefaultCount; Index++) {
if (mUsedDefaultArray[Index] == DefaultId) {
gCVfrErrorHandle.HandleWarning (VFR_WARNING_DEFAULT_VALUE_REDEFINED, Tok->getLine(), Tok->getText());
}
}
if (mUsedDefaultCount >= EFI_IFR_MAX_DEFAULT_TYPE - 1) {
gCVfrErrorHandle.HandleError (VFR_RETURN_FATAL_ERROR, Tok->getLine(), Tok->getText());
}
mUsedDefaultArray[mUsedDefaultCount++] = DefaultId;
}
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