/* * ConfigPlist.h * * Created on: Oct 9, 2020 * Author: jief */ #ifndef _CONFIGPLISTCLASS_RTVARIABLES_H_ #define _CONFIGPLISTCLASS_RTVARIABLES_H_ class RtVariables_Class : public XmlDict { using super = XmlDict; public: class Devices_RtVariables_Block : public XmlDict { using super = XmlDict; public: class GuidClass : public XmlString8AllowEmpty { using super = XmlString8AllowEmpty; virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override { bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors); if ( !IsValidGuidString(xstring8) ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Invalid GUID '%s' - should be in the format XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX in dict '%s:%d'", xstring8.c_str(), xmlPath.c_str(), keyPos.getLine())); return b; } }; protected: XmlString8AllowEmpty Comment = XmlString8AllowEmpty(); XmlBool Disabled = XmlBool(); XmlStringW Name = XmlStringW(); public: GuidClass Guid = GuidClass(); XmlDictField m_fields[4] = { {"Comment", Comment}, {"Disabled", Disabled}, {"Guid", Guid}, {"Name", Name}, }; virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); }; public: const decltype(Comment)::ValueType& dgetComment() const { return Comment.isDefined() ? Comment.value() : Comment.nullValue; }; const decltype(Disabled)::ValueType& dgetDisabled() const { return Disabled.isDefined() ? Disabled.value() : Disabled.nullValue; }; uint8_t dgetBValue() const { return Disabled.isDefined() ? Disabled.value() : Disabled.nullValue; }; const EFI_GUID dgetGuid() const { EFI_GUID efiGuid; EFI_STATUS Status; if ( Guid.isDefined() ) { Status = StrToGuidBE(Guid.value(), &efiGuid); if ( EFI_ERROR(Status) ) panic("StrToGuidBE failed. This could not happen because Guid is checked to be valid. Did you comment out the field validation ?"); return efiGuid; } return nullGuid; }; const decltype(Name)::ValueType& dgetName() const { return Name.isDefined() ? Name.value() : Name.nullValue; }; }; class ROMClass: public XmlUnion { protected: XmlString8AllowEmpty xmlString8 = XmlString8AllowEmpty(); XmlData xmlData = XmlData(); XmlUnionField m_fields[2] = { xmlString8, xmlData}; virtual void getFields(XmlUnionField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); }; // virtual XBool parseFromXmlLite(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, XBool generateErrors) override // { // WARNING_IF_DEFINED; // // XmlParserPosition pos = xmlLiteParser->getPosition(); // if ( xmlString8.parseFromXmlLite(xmlLiteParser, xmlPath, false ) ) { // if ( xmlString8.value().isEqualIC("UseMacAddr0") ) return true; // if ( xmlString8.value().isEqualIC("UseMacAddr1") ) return true; // } // xmlLiteParser->restorePosition(pos); // if ( xmlData.parseFromXmlLite(xmlLiteParser, xmlPath, false) ) return true; // xmlLiteParser->addError(generateErrors, S8Printf("Expecting \"UseMacAddr0\", \"UseMacAddr1\", a string or data for tag '%s:%d'.", xmlPath.c_str(), pos.getLine())); // return false; // } // virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override { // bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors); // if ( !xmlString8.isDefined() ) return true; // if ( xmlString8.value().isEqualIC("UseMacAddr0") ) return true; // if ( xmlString8.value().isEqualIC("UseMacAddr1") ) return true; // b = xmlLiteParser->addWarning(generateErrors, S8Printf("Expecting an integer or \"Detect\" or \"No\" for tag '%s:%d'", xmlPath.c_str(), keyPos.getLine())); // return b; // } public: // const decltype(xmlString8)::ValueType& dgetRtROMAsString() const { return xmlString8.isDefined() ? xmlString8.value() : xmlString8.nullValue; }; // const decltype(xmlData)::ValueType& dgetRtROMAsData() const { return xmlData.isDefined() ? xmlData.value() : xmlData.nullValue; }; const XString8& dgetRtROMAsString() const { if ( xmlString8.isDefined() ) { if ( xmlString8.value().isEqualIC("UseMacAddr0") ) return xmlString8.value(); if ( xmlString8.value().isEqualIC("UseMacAddr1") ) return xmlString8.value(); } return xmlString8.nullValue; }; XBuffer dgetRtROMAsData() const { XBuffer return_value; if ( xmlString8.isDefined() ) { if ( xmlString8.value().isEqualIC("UseMacAddr0") ) return return_value; if ( xmlString8.value().isEqualIC("UseMacAddr1") ) return return_value; size_t binary_size = hex2bin(xmlString8.value(), NULL, 0); return_value.memset(0, binary_size); hex2bin(xmlString8.value(), return_value.data(), return_value.size()); return return_value; } if ( xmlData.isDefined() ) return xmlData.value(); return return_value; }; }; // class ROMClass: public XmlData { // virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override { // bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors); // if ( "UseMacAddr0"_XS8.isEqualIC(value().CData()) ) return true; // if ( "UseMacAddr1"_XS8.isEqualIC(value().CData()) ) return true; // // TODO check length and format of ROM // return true; // b = xmlLiteParser->addWarning(generateErrors, S8Printf("Expecting \"UseMacAddr0\", \"UseMacAddr0\" or data tag '%s:%d'", xmlPath.c_str(), keyPos.getLine())); // return b; // } // }; protected: ROMClass ROM = ROMClass(); XmlString8AllowEmpty MLB = XmlString8AllowEmpty(); XmlUInt32 CsrActiveConfig = XmlUInt32(); XmlUInt16 BooterConfig = XmlUInt16(); XmlString8AllowEmpty BooterCfg = XmlString8AllowEmpty(); XmlString8AllowEmpty HWTarget = XmlString8AllowEmpty(); public: XmlArray Block = XmlArray(); XmlDictField m_fields[7] = { {"ROM", ROM}, {"MLB", MLB}, {"CsrActiveConfig", CsrActiveConfig}, {"BooterConfig", BooterConfig}, {"BooterCfg", BooterCfg}, {"Block", Block}, {"HWTarget", HWTarget}, }; virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); }; // const XString8 dgetRtROMAsString() const { // if ( ROM.isDefined() && ROM.xmlString8.isDefined() ) { // if ( "UseMacAddr0"_XS8.isEqualIC(ROM.xmlString8.value()) ) return "UseMacAddr0"_XS8; // if ( "UseMacAddr1"_XS8.isEqualIC(ROM.xmlString8.value()) ) return "UseMacAddr0"_XS8; // } // return NullXString8; // } decltype(declval().dgetRtROMAsString()) dgetRtROMAsString() const { return ROM.dgetRtROMAsString(); }; decltype(declval().dgetRtROMAsData()) dgetRtROMAsData() const { return ROM.dgetRtROMAsData(); }; // const XBuffer dgetRtROMAsData() const { // if ( !ROM.isDefined() || dgetRtROMAsString().notEmpty() ) return ROM.nullValue; // return ROM.value(); // } // // const decltype(ROM)::ValueType& dgetROM() const { return ROM.isDefined() ? ROM.value() : ROM.nullValue; }; const decltype(MLB)::ValueType& dgetRtMLBSetting() const { return MLB.isDefined() ? MLB.value() : MLB.nullValue; }; decltype(CsrActiveConfig)::ValueType dgetCsrActiveConfig() const { return CsrActiveConfig.isDefined() ? CsrActiveConfig.value() : 0xFFFF; }; // 0xFFFF = not set const decltype(BooterConfig)::ValueType& dgetBooterConfig() const { return BooterConfig.isDefined() ? BooterConfig.value() : BooterConfig.nullValue; }; const decltype(BooterCfg)::ValueType& dgetBooterCfgStr() const { return BooterCfg.isDefined() ? BooterCfg.value() : BooterCfg.nullValue; }; const decltype(HWTarget)::ValueType& dgetHWTarget() const { return HWTarget.isDefined() ? HWTarget.value() : HWTarget.nullValue; };// "j160"_XS8; }; }; #endif /* _CONFIGPLISTCLASS_RTVARIABLES_H_ */