CloverBootloader/rEFIt_UEFI/Settings/ConfigPlist/SMBIOSPlist.h
jief 32fbf76326 Update BaseLib.h with macro BASE_LIST_FOR_EACH.
Introduce class apd (automatic pointer destruction)
Introduce MemoryTracker
Weak symbols in MemoryAllocationLib to be able to redefine them (see
MemoryTracker).
Embed LegacyOS instead of a pointer.
Fixed a lot of memory leaks.
2023-11-18 11:04:54 +01:00

800 lines
38 KiB
C++
Executable File

/*
* ConfigPlist.h
*
* Created on: Oct 9, 2020
* Author: jief
*/
#ifndef _SMBIOSPLISTCLASS_H_
#define _SMBIOSPLISTCLASS_H_
#include "../../include/VolumeTypes.h"
#include "../../include/OSTypes.h"
#include "../../include/OSFlags.h"
#include "../../include/BootTypes.h"
#include "../../include/Languages.h"
#include "../../include/Devices.h"
#include "../../include/QuirksCodes.h"
#include "../../include/TagTypes.h"
#include "../../include/Pci.h"
#include "../../entry_scan/loader.h" // for KERNEL_SCAN_xxx constants
#include <IndustryStandard/SmBios.h> // for Smbios memory type
#include "../../Platform/guid.h"
#include "../../include/Guid++.h"
#include "../../Platform/platformdata.h"
#include "../../Platform/smbios.h"
#include "../../Platform/VersionString.h" // for AsciiStrVersionToUint64
//#include "../../Platform/Settings.h"
//#include "../cpu.h"
#include "../../cpp_lib/undefinable.h"
#include "../../cpp_lib/XmlLiteSimpleTypes.h"
#include "../../cpp_lib/XmlLiteCompositeTypes.h"
#include "../../cpp_lib/XmlLiteDictTypes.h"
#include "../../cpp_lib/XmlLiteArrayTypes.h"
#include "../../cpp_lib/XmlLiteUnionTypes.h"
#include "../../cpp_lib/XmlLiteParser.h"
#include "../../cpp_foundation/XString.h"
#include "../../cpp_foundation/XStringArray.h"
#include "../../cpp_foundation/XArray.h"
#include "../../cpp_foundation/XObjArray.h"
#include "../../Platform/Utils.h"
#include "ConfigPlistAbstract.h"
//extern XStringWArray ThemeNameArray;
//extern XStringWArray ConfigsList;
//extern XStringWArray DsdtsList;
extern XStringWArray SmbiosList;
extern INTN OldChosenTheme;
extern INTN OldChosenConfig;
extern INTN OldChosenSmbios;
extern UINT32 gFakeCPUID;
class SmbiosPlistClass : public ConfigPlistAbstractClass
{
using super = ConfigPlistAbstractClass;
public:
// #include "Config_SMBIOS.h"
class SmbiosDictClass : public XmlDict
{
using super = XmlDict;
public:
class MemoryDictClass : public XmlDict
{
using super = XmlDict;
public:
class ModuleDictClass : public XmlDict
{
using super = XmlDict;
public:
static ModuleDictClass NullValue;
class SlotIndexClass : public XmlUInt8
{
using super = XmlUInt8;
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( value() >= MAX_RAM_SLOTS ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Slot cannot >= MAX_RAM_SLOTS. It must a number between 0 and %d at '%s:%d'", MAX_RAM_SLOTS-1, xmlPath.c_str(), keyPos.getLine()));
return b;
}
};
class TypeClass: 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 ( xstring8.isEqualIC("DDR") ) return b;
if ( xstring8.isEqualIC("DDR2") ) return b;
if ( xstring8.isEqualIC("DDR3") ) return b;
if ( xstring8.isEqualIC("DDR4") ) return b;
b = xmlLiteParser->addWarning(generateErrors, S8Printf("Type must be \"DDR\", \"DDR2\", \"DDR3\" or \"DDR4\" in dict '%s:%d'", xmlPath.c_str(), keyPos.getLine()));
return b;
}
public:
};
SlotIndexClass SlotIndex = SlotIndexClass();
XmlUInt32 Size = XmlUInt32();
XmlUInt32 Frequency = XmlUInt32();
XmlString8AllowEmpty Vendor = XmlString8AllowEmpty();
XmlString8AllowEmpty Part = XmlString8AllowEmpty();
XmlString8AllowEmpty Serial = XmlString8AllowEmpty();
TypeClass Type = TypeClass();
XmlDictField m_fields[7] = {
{"Slot", SlotIndex},
{"Size", Size},
{"Frequency", Frequency},
{"Vendor", Vendor},
{"Part", Part},
{"Serial", Serial},
{"Type", Type},
};
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
XBool b = true;
if ( !super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors) ) b = false;
if ( !SlotIndex.isDefined() ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Slot must be defined as a number between 0 and %d at '%s:%d'", MAX_RAM_SLOTS-1, xmlPath.c_str(), keyPos.getLine()));
if ( !Size.isDefined() ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Size must be defined at '%s:%d'", xmlPath.c_str(), keyPos.getLine()));
return b;
}
// Currently a UInt8, so value is 0..255. Careful if you change for a bigger uint type !
const decltype(SlotIndex)::ValueType& dgetSlotIndex() const { return SlotIndex.isDefined() ? SlotIndex.value() : SlotIndex.nullValue; };
const decltype(Size)::ValueType& dgetModuleSize() const { return Size.isDefined() ? Size.value() : Size.nullValue; };
const decltype(Frequency)::ValueType& dgetFrequency() const { return Frequency.isDefined() ? Frequency.value() : Frequency.nullValue; };
const decltype(Vendor)::ValueType& dgetVendor() const { return Vendor.isDefined() ? Vendor.value() : Vendor.nullValue; };
const decltype(Part)::ValueType& dgetPartNo() const { return Part.isDefined() ? Part.value() : Part.nullValue; };
const decltype(Serial)::ValueType& dgetSerialNo() const { return Serial.isDefined() ? Serial.value() : Serial.nullValue; };
UINT8 dgetType() const {
// if ( !Type.isDefined() ) return dgetModuleSize() > 0 ? MemoryTypeDdr3: 0;
if ( !Type.isDefined() ) return MemoryTypeDdr3;
if (Type.value().isEqualIC("DDR2")) {
return MemoryTypeDdr2;
} else if (Type.value().isEqualIC("DDR3")) {
return MemoryTypeDdr3;
} else if (Type.value().isEqualIC("DDR4")) {
return MemoryTypeDdr4;
} else if (Type.value().isEqualIC("DDR")) {
return MemoryTypeDdr;
}
// Cannot happen if validate has been done properly.
panic("invalid DDRx value");
}
};
class ModuleArrayClass : public XmlArray<ModuleDictClass>
{
using super = XmlArray<ModuleDictClass>;
public:
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( size() > UINT8_MAX ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("You cannot declare more then 256 memory modules in dict '%s:%d'", xmlPath.c_str(), keyPos.getLine()));
while ( size() > 256 ) RemoveAtIndex(size()-1);
}
for ( size_t i = 0 ; i < size() ; i++ ) {
for ( size_t j = i+1 ; j < size() ; ) {
if ( ElementAt(i).SlotIndex.value() >= ElementAt(j).SlotIndex.value() ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("Ignore duplicate memory module for slot %d at '%s:%d'", ElementAt(i).SlotIndex.value(), xmlPath.c_str(), keyPos.getLine()));
RemoveAtIndex(j);
}else{
j++;
}
}
}
return b;
}
decltype(ModuleDictClass::SlotIndex)::ValueType dgetCalculatedSlotCount() const {
if ( !isDefined() ) return 0;
uint8_t max = 0;
for ( size_t idx = 0 ; idx < size() ; ++idx ) {
if ( ElementAt(idx).dgetModuleSize() > 0 ) {
if ( ElementAt(idx).dgetSlotIndex() > max ) max = ElementAt(idx).dgetSlotIndex();
}
}
return max+1;
};
const ModuleDictClass& dgetSlotAtIndex(size_t slotIndex) const {
for ( size_t idx = 0; idx < size(); ++idx ) {
if ( ElementAt(idx).dgetSlotIndex() == slotIndex )
return ElementAt(idx);
}
return ModuleDictClass::NullValue;
}
};
XmlUInt8 SlotCount = XmlUInt8();
XmlUInt8 Channels = XmlUInt8();
ModuleArrayClass Modules = ModuleArrayClass();
XmlDictField m_fields[3] = {
{"SlotCount", SlotCount},
{"Channels", Channels},
{"Modules", Modules},
};
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( Modules.size() == 0 ) {
// whatever if SlotCount is defined or not, and whatever value, it's ok.
return b;
}
if ( !SlotCount.isDefined() ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("SlotCount is not defined in SMBIOS, but you defined memory modules. SlotCount adjusted to %d, which maybe wrong.", Modules.dgetCalculatedSlotCount())); // do not set b to false because value is auto-corrected, so it's now ok.
SlotCount.setUInt8Value(Modules.dgetCalculatedSlotCount());
}else{
for ( size_t i = 0 ; i < Modules.size() ; ) {
if ( Modules[i].SlotIndex.value() >= SlotCount.value() ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("Ignored memory module with slot >= SlotCount at '%s:%d'", xmlPath.c_str(), keyPos.getLine())); // do not set b to false because value is auto-corrected, so it's now ok.
Modules.RemoveAtIndex(i);
}else{
i++;
}
}
if ( SlotCount.value() < Modules.dgetCalculatedSlotCount() ) {
log_technical_bug("SlotCount.value() < Modules.dgetCalculatedSlotCount()");
SlotCount.setUInt8Value(Modules.dgetCalculatedSlotCount());
}
}
return b;
}
decltype(SlotCount)::ValueType dgetSlotCount() const { return SlotCount.isDefined() ? SlotCount.value() : 0; };
const decltype(Channels)::ValueType& dgetUserChannels() const { return Channels.isDefined() ? Channels.value() : Channels.nullValue; };
};
class SlotDeviceDictClass : public XmlDict
{
using super = XmlDict;
public:
static SlotDeviceDictClass NullValue;
class DeviceClass: 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 ( xstring8.isEqualIC("ATI") ) return b;
if ( xstring8.isEqualIC("NVidia") ) return b;
if ( xstring8.isEqualIC("IntelGFX") ) return b;
if ( xstring8.isEqualIC("LAN") ) return b;
if ( xstring8.isEqualIC("WIFI") ) return b;
if ( xstring8.isEqualIC("Firewire") ) return b;
if ( xstring8.isEqualIC("HDMI") ) return b;
if ( xstring8.isEqualIC("USB") ) return b;
if ( xstring8.isEqualIC("NVME") ) return b;
b = xmlLiteParser->addWarning(generateErrors, S8Printf("Type must be \"ATI\", \"NVidia\", \"IntelGFX\", \"LAN\", \"WIFI\", \"Firewire\", \"HDMI\", \"USB\" or \"NVME\" in dict '%s:%d'", xmlPath.c_str(), keyPos.getLine()));
return b;
}
} Device = DeviceClass();
XmlUInt8 ID = XmlUInt8();
XmlUInt8 Type = XmlUInt8();
XmlString8AllowEmpty Name = XmlString8AllowEmpty();
XmlDictField m_fields[4] = {
{"Device", Device},
{"ID", ID},
{"Type", Type},
{"Name", Name},
};
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
return b;
}
const decltype(Device)::ValueType& dgetDevice() const { return Device.isDefined() ? Device.value() : Device.nullValue; };
uint8_t dgetDeviceN() const {
if ( !Device.isDefined() ) return 0;
if (Device.value().isEqualIC("ATI")) {
return 0;
} else if (Device.value().isEqualIC("NVidia")) {
return 1;
} else if (Device.value().isEqualIC("IntelGFX")) {
return 2;
} else if (Device.value().isEqualIC("LAN")) {
return 5;
} else if (Device.value().isEqualIC("WIFI")) {
return 6;
} else if (Device.value().isEqualIC("Firewire")) {
return 12;
} else if (Device.value().isEqualIC("HDMI")) {
return 4;
} else if (Device.value().isEqualIC("USB")) {
return 11;
} else if (Device.value().isEqualIC("NVME")) {
return 13;
} else {
panic("%s: invalid value. Check validate method.", __PRETTY_FUNCTION__);
}
}
decltype(ID)::ValueType dgetSlotID() const { return ID.isDefined() ? ID.value() : dgetDeviceN(); };
MISC_SLOT_TYPE dgetSlotType() const {
if ( !Type.isDefined() ) return Device.isDefined() ? SlotTypePci : MISC_SLOT_TYPE(0);
switch ( Type.value() ) {
case 0:
return SlotTypePci;
case 1:
return SlotTypePciExpressX1;
case 2:
return SlotTypePciExpressX2;
case 4:
return SlotTypePciExpressX4;
case 8:
return SlotTypePciExpressX8;
case 16:
return SlotTypePciExpressX16;
default:
return SlotTypePciExpress;
}
}
decltype(Name)::ValueType dgetSlotName() const { return Name.isDefined() ? Name.value() : Device.isDefined() ? S8Printf("PCI Slot %hhd", dgetDeviceN()) : NullXString8; };
};
class SlotDeviceArrayClass : public XmlArray<SlotDeviceDictClass>
{
public:
const SlotDeviceDictClass& dgetSoltDevice(INTN slotNo) const {
for ( size_t idx = 0; idx < size(); ++idx ) {
if ( ElementAt(idx).dgetDeviceN() == slotNo )
return ElementAt(idx);
}
return SlotDeviceDictClass::NullValue;
}
};
class SmUUIDClass : public XmlString8AllowEmpty
{
using super = XmlString8AllowEmpty;
protected:
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( !EFI_GUID::IsValidGuidString(xstring8) ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Invalid SmUUID '%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;
}
};
class ProductNameClass : public XmlString8Trimed
{
using super = XmlString8Trimed;
public:
ProductNameClass() : super(true) {};
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
MacModel Model;
Model = GetModelFromString(xstring8);
if ( Model == MaxMacModel ) b = xmlLiteParser->addWarning(generateErrors, S8Printf("Invalid ProductName '%s' in dict '%s:%d'", xstring8.c_str(), xmlPath.c_str(), keyPos.getLine()));
return b;
}
};
class BiosVersionClass : public XmlString8Trimed
{
using super = XmlString8Trimed;
public:
BiosVersionClass() : super(true) {};
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( !value().contains(".") ) {
b = xmlLiteParser->addWarning(generateErrors, S8Printf("BiosVersion '%s' doesn't contains a dot in dict '%s:%d'.", value().c_str(), xmlPath.c_str(), keyPos.getLine()));
}else{
size_t rindex = value().rindexOf(".");
if ( value().length() - rindex < 7 ) {
b = xmlLiteParser->addWarning(generateErrors, S8Printf("Last part of BiosVersion '%s' must be at least 6 chars in dict '%s:%d'.", value().c_str(), xmlPath.c_str(), keyPos.getLine()));
}
// Should we check the format of these 6 last chars ?
}
return b;
}
};
class BiosReleaseDateClass : public XmlString8Trimed
{
using super = XmlString8Trimed;
public:
BiosReleaseDateClass() : super(true) {};
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( value().length() != 8 && value().length() != 10 ) {
b = xmlLiteParser->addWarning(generateErrors, S8Printf("BiosReleaseDate '%s' must 8 or 10 chars in dict '%s:%d'.", value().c_str(), xmlPath.c_str(), keyPos.getLine()));
}
// Should we check the format of these 8 or 10 last chars ?
return b;
}
};
protected:
XmlString8Trimed BiosVendor = XmlString8Trimed(true); // true = allow empty
BiosVersionClass BiosVersion = BiosVersionClass(); // RomVersion
XmlString8AllowEmpty EfiVersion = XmlString8AllowEmpty();
BiosReleaseDateClass BiosReleaseDate = BiosReleaseDateClass();
XmlString8Trimed Manufacturer = XmlString8Trimed(true);
ProductNameClass ProductName = ProductNameClass();
XmlString8Trimed Version = XmlString8Trimed(true);
XmlString8Trimed SerialNumber = XmlString8Trimed(true);
SmUUIDClass SmUUID = SmUUIDClass();
XmlString8Trimed Family = XmlString8Trimed(true);
XmlString8Trimed BoardManufacturer = XmlString8Trimed();
XmlString8Trimed BoardSerialNumber = XmlString8Trimed();
XmlString8Trimed BoardID = XmlString8Trimed(true);
XmlString8Trimed LocationInChassis = XmlString8Trimed(true);
XmlString8Trimed BoardVersion = XmlString8Trimed(true);
XmlUInt8 BoardType = XmlUInt8();
XmlBool Mobile = XmlBool();
XmlUInt8 ChassisType = XmlUInt8();
XmlString8Trimed ChassisManufacturer = XmlString8Trimed(true);
XmlString8Trimed ChassisAssetTag = XmlString8Trimed(true);
XmlUInt16 SmbiosVersion = XmlUInt16();
XmlInt8 MemoryRank = XmlInt8(); // Attribute
XmlBool Trust = XmlBool();
XmlUInt64 PlatformFeature = XmlUInt64();
XmlBool NoRomInfo = XmlBool();
XmlUInt32 FakeCPUID = XmlUInt32();
XmlUInt32 FirmwareFeatures = XmlUInt32(); // gFwFeatures
XmlUInt32 FirmwareFeaturesMask = XmlUInt32();
XmlUInt64 ExtendedFirmwareFeatures = XmlUInt64(); // gFwFeatures
XmlUInt64 ExtendedFirmwareFeaturesMask = XmlUInt64();
public:
MacModel defaultMacModel = MaxMacModel;
MemoryDictClass Memory = MemoryDictClass();
SlotDeviceArrayClass Slots = SlotDeviceArrayClass();
XmlDictField m_fields[32] = { //32 up to FakeCPUID
{"Trust", Trust},
{"MemoryRank", MemoryRank},
{"Memory", Memory},
{"Slots", Slots},
{"ProductName", ProductName},
{"SmbiosVersion", SmbiosVersion},
{"BiosVersion", BiosVersion},
{"BiosReleaseDate", BiosReleaseDate},
{"EfiVersion", EfiVersion},
{"FirmwareFeatures", FirmwareFeatures},
{"FirmwareFeaturesMask", FirmwareFeaturesMask},
{"ExtendedFirmwareFeatures", ExtendedFirmwareFeatures},
{"ExtendedFirmwareFeaturesMask", ExtendedFirmwareFeaturesMask},
{"PlatformFeature", PlatformFeature},
{"BiosVendor", BiosVendor},
{"Manufacturer", Manufacturer},
{"Version", Version},
{"Family", Family},
{"SerialNumber", SerialNumber},
{"SmUUID", SmUUID},
{"BoardManufacturer", BoardManufacturer},
{"BoardSerialNumber", BoardSerialNumber},
{"Board-ID", BoardID},
{"BoardVersion", BoardVersion},
{"BoardType", BoardType},
{"Mobile", Mobile},
{"LocationInChassis", LocationInChassis},
{"ChassisManufacturer", ChassisManufacturer},
{"ChassisAssetTag", ChassisAssetTag},
{"ChassisType", ChassisType},
{"NoRomInfo", NoRomInfo},
{"FakeCPUID", FakeCPUID},
};
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
virtual XBool validate(XmlLiteParser* xmlLiteParser, const XString8& xmlPath, const XmlParserPosition& keyPos, XBool generateErrors) override {
bool b = super::validate(xmlLiteParser, xmlPath, keyPos, generateErrors);
if ( !ProductName.isDefined() ) {
// return xmlLiteParser->addWarning(generateErrors, S8Printf("ProductName is not defined, the whole SMBIOS dict is ignored at line %d.", keyPos.getLine()));
// if ( defaultMacModel < MaxMacModel ) {
// ProductName.setStringValue(MachineModelName[defaultMacModel]);
// }
}
if ( dgetModel() < MaxMacModel ) {
if ( BiosVersion.isDefined() ) {
if ( !is2ndBiosVersionGreaterThan1st(ApplePlatformDataArray[dgetModel()].firmwareVersion, BiosVersion.value()) ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("BiosVersion '%s' is before than default ('%s') -> ignored. Dict '%s:%d'.", BiosVersion.value().c_str(), ApplePlatformDataArray[dgetModel()].firmwareVersion.c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
BiosVersion.reset();
}else
if ( is2ndBiosVersionEqual(ApplePlatformDataArray[dgetModel()].firmwareVersion, BiosVersion.value()) ) {
xmlLiteParser->addInfo(generateErrors, S8Printf("BiosVersion '%s' is the same as default. Dict '%s:%d'.", BiosVersion.value().c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
BiosVersion.reset();
}
}
if ( BiosReleaseDate.isDefined() ) {
int compareReleaseDateResult = compareReleaseDate(GetReleaseDate(dgetModel()), BiosReleaseDate.value());
if ( compareReleaseDateResult == 1 ) {
xmlLiteParser->addWarning(generateErrors, S8Printf("BiosReleaseDate '%s' is older than default ('%s') -> ignored. Dict '%s:%d'.", BiosReleaseDate.value().c_str(), GetReleaseDate(dgetModel()).c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
BiosReleaseDate.reset();
}else
if ( compareReleaseDateResult == 0 ) {
// This is just 'info'. It's useless but fine to define the same as default.
xmlLiteParser->addInfo(generateErrors, S8Printf("BiosReleaseDate '%s' is the same as default. Dict '%s:%d'.", BiosReleaseDate.value().c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
BiosReleaseDate.reset();
}
}
if ( EfiVersion.isDefined() ) {
long long int result = AsciiStrVersionToUint64(ApplePlatformDataArray[dgetModel()].efiversion, 4, 3);
long long int result2 = AsciiStrVersionToUint64(EfiVersion.value(), 4, 3);
if ( result > result2) {
xmlLiteParser->addWarning(generateErrors, S8Printf("EfiVersion '%s' is older than default ('%s') -> ignored. Dict '%s:%d'.", EfiVersion.value().c_str(), ApplePlatformDataArray[dgetModel()].efiversion.c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
EfiVersion.reset();
} else if (result == result2) {
xmlLiteParser->addInfo(generateErrors, S8Printf("EfiVersion '%s' is the same as default. Dict '%s:%d'.", EfiVersion.value().c_str(), xmlPath.c_str(), keyPos.getLine())); // Do not set b to false : we don't want to invalidate the whole dict
xmlLiteParser->productNameNeeded = !getProductName().isDefined();
EfiVersion.reset();
}
}
}else{
// This is supposed to never happen within Clover, because Clover initialise defaultMacModel.
xmlLiteParser->addInfo(generateErrors, S8Printf("Cannot check validity of BiosVersion, BiosReleaseDate and EfiVersion because ProductName is not set in dict '%s:%d'. Define ProductName or run this tool with --productname=[your product name].", xmlPath.c_str(), keyPos.getLine()));
}
return b;
}
const decltype(Trust)& getTrust() const { return Trust; }
const decltype(MemoryRank)& getMemoryRank() const { return MemoryRank; }
const decltype(Memory)& getMemory() const { return Memory; }
const decltype(Slots)& getSlots() const { return Slots; }
const decltype(ProductName)& getProductName() const { return ProductName; }
const decltype(SmbiosVersion)& getSmbiosVersion() const { return SmbiosVersion; }
const decltype(BiosVersion)& getBiosVersion() const { return BiosVersion; }
const decltype(BiosReleaseDate)& getBiosReleaseDate() const { return BiosReleaseDate; }
const decltype(EfiVersion)& getEfiVersion() const { return EfiVersion; }
const decltype(FirmwareFeatures)& getFirmwareFeatures() const { return FirmwareFeatures; }
const decltype(FirmwareFeaturesMask)& getFirmwareFeaturesMask() const { return FirmwareFeaturesMask; }
const decltype(ExtendedFirmwareFeatures)& getExtendedFirmwareFeatures() const { return ExtendedFirmwareFeatures; }
const decltype(ExtendedFirmwareFeaturesMask)& getExtendedFirmwareFeaturesMask() const { return ExtendedFirmwareFeaturesMask; }
const decltype(PlatformFeature)& getPlatformFeature() const { return PlatformFeature; }
const decltype(BiosVendor)& getBiosVendor() const { return BiosVendor; }
const decltype(Manufacturer)& getManufacturer() const { return Manufacturer; }
const decltype(Version)& getVersion() const { return Version; }
const decltype(Family)& getFamily() const { return Family; }
const decltype(SerialNumber)& getSerialNumber() const { return SerialNumber; }
const decltype(SmUUID)& getSmUUID() const { return SmUUID; }
const decltype(BoardManufacturer)& getBoardManufacturer() const { return BoardManufacturer; }
const decltype(BoardSerialNumber)& getBoardSerialNumber() const { return BoardSerialNumber; }
const decltype(BoardID)& getBoardID() const { return BoardID; }
const decltype(BoardVersion)& getBoardVersion() const { return BoardVersion; }
const decltype(BoardType)& getBoardType() const { return BoardType; }
const decltype(Mobile)& getMobile() const { return Mobile; }
const decltype(LocationInChassis)& getLocationInChassis() const { return LocationInChassis; }
const decltype(ChassisManufacturer)& getChassisManufacturer() const { return ChassisManufacturer; }
const decltype(ChassisAssetTag)& getChassisAssetTag() const { return ChassisAssetTag; }
const decltype(ChassisType)& getChassisType() const { return ChassisType; }
const decltype(NoRomInfo)& getNoRomInfo() const { return NoRomInfo; }
// const decltype(FakeCPUID)& getFakeCPUID() const { return FakeCPUID.isDefined() ? FakeCPUID.value() : gSettings.KernelAndKextPatches.FakeCPUID; };
MacModel dgetModel() const
{
if ( ProductName.isDefined() ) return GetModelFromString(ProductName.value());
if ( defaultMacModel < MaxMacModel ) return defaultMacModel;
return MaxMacModel;
}
decltype(BiosVendor)::ValueType dgetBiosVendor() const {
if ( BiosVendor.isDefined() ) return BiosVendor.value();
return AppleBiosVendor;
};
decltype(BiosVersion)::ValueType dgetBiosVersion() const {
if ( BiosVersion.isDefined() ) return BiosVersion.value();
return ApplePlatformDataArray[dgetModel()].firmwareVersion;
};
decltype(EfiVersion)::ValueType dgetEfiVersion() const {
if ( !EfiVersion.isDefined() ) return ApplePlatformDataArray[dgetModel()].efiversion;
XString8 returnValue;
returnValue = EfiVersion.value();
returnValue.trim();
return returnValue;
}
decltype(BiosReleaseDate)::ValueType dgetBiosReleaseDate() const
{
if ( BiosReleaseDate.isDefined() ) return BiosReleaseDate.value();
XString8 dBiosVersion = dgetBiosVersion();
XString8 returnValue;
if ( dBiosVersion.notEmpty() ) {
if ( !dBiosVersion.contains(".") ) {
log_technical_bug("!dBiosVersion.contains(\".\")"); // Must not happen, BiosVersion has been validated to have a '.' followed by 6 chars.
return NullXString8;
}
const char* i = dBiosVersion.c_str();
i += AsciiStrLen(i);
while ( *i != '.' ) i--;
if ( strlen(i) < 7 ) {
log_technical_bug("strlen(i) < 7"); // Must not happen, BiosVersion has been validated to have a '.' followed by 6 chars.
return NullXString8;
}
if ( isReleaseDateWithYear20(dgetModel()) ) {
returnValue.S8Printf("%c%c/%c%c/20%c%c", i[3], i[4], i[5], i[6], i[1], i[2]);
}else{
returnValue.S8Printf("%c%c/%c%c/%c%c", i[3], i[4], i[5], i[6], i[1], i[2]);
}
}
return returnValue;
}
decltype(Manufacturer)::ValueType dgetManufactureName() const {
if ( Manufacturer.isDefined() ) return Manufacturer.value();
return AppleBiosVendor;
};
const decltype(ProductName)::ValueType& dgetProductName() const { return ProductName.isDefined() ? ProductName.value() : ProductName.nullValue; };
decltype(Version)::ValueType dgetSystemVersion() const {
if ( Version.isDefined() ) return Version.value();
return ApplePlatformDataArray[dgetModel()].systemVersion;
};
const decltype(SerialNumber)::ValueType dgetSerialNr() const {
if ( SerialNumber.isDefined() ) return SerialNumber.value();
return ApplePlatformDataArray[dgetModel()].serialNumber;
};
EFI_GUID dgetSmUUID() const {
if ( !SmUUID.isDefined() ) return nullGuid;
EFI_GUID g;
g.takeValueFromBE(SmUUID.value());
if ( g.isNull() ) panic("SmUUID is not valid. This could not happen because SmUUID is checked to be valid. Did you comment out the validation ?");
return g;
}
decltype(Family)::ValueType dgetFamilyName() const {
if ( Family.isDefined() ) return Family.value();
return ApplePlatformDataArray[dgetModel()].productFamily;
};
decltype(BoardManufacturer)::ValueType dgetBoardManufactureName() const {
if ( BoardManufacturer.isDefined() ) return BoardManufacturer.value();
return dgetBiosVendor();
};
decltype(BoardSerialNumber)::ValueType dgetBoardSerialNumber() const {
if ( BoardSerialNumber.isDefined() ) return BoardSerialNumber.value();
return AppleBoardSN;
};
decltype(BoardID)::ValueType dgetBoardNumber() const {
if ( BoardID.isDefined() ) return BoardID.value();
return ApplePlatformDataArray[dgetModel()].boardID;
};
decltype(LocationInChassis)::ValueType dgetLocationInChassis() const {
if ( LocationInChassis.isDefined() ) return LocationInChassis.value();
return AppleBoardLocation;
};
decltype(BoardVersion)::ValueType dgetBoardVersion() const {
return BoardVersion.isDefined() ? BoardVersion.value() : dgetProductName();
};
decltype(BoardType)::ValueType dgetBoardType() const {
if ( BoardType.isDefined() ) return BoardType.value();
MacModel Model = dgetModel();
if ((Model > MacPro31) && (Model < MacPro71)) {
return BaseBoardTypeProcessorMemoryModule; //0xB;
} else {
return BaseBoardTypeMotherBoard; //0xA;
}
};
decltype(Mobile)::ValueType dgetMobile() const {
if ( Mobile.isDefined() ) return Mobile.value();
return GetMobile(dgetModel());
};
decltype(ChassisType)::ValueType dgetChassisType() const {
if ( ChassisType.isDefined() ) return ChassisType.value();
return GetChassisTypeFromModel(dgetModel());
};
decltype(ChassisManufacturer)::ValueType dgetChassisManufacturer() const {
if ( ChassisManufacturer.isDefined() ) return ChassisManufacturer.value();
return dgetBiosVendor();
};
decltype(ChassisAssetTag)::ValueType dgetChassisAssetTag() const {
if ( ChassisAssetTag.isDefined() ) return ChassisAssetTag.value();
return ApplePlatformDataArray[dgetModel()].chassisAsset;
};
decltype(SmbiosVersion)::ValueType dgetSmbiosVersion() const { return SmbiosVersion.isDefined() ? SmbiosVersion.value() : 0x204; };
decltype(MemoryRank)::ValueType dgetAttribute() const { return MemoryRank.isDefined() ? MemoryRank.value() : -1; };
decltype(Trust)::ValueType dgetTrustSMBIOS() const { return Trust.isDefined() ? Trust.value() : XBool(true); };
XBool dgetInjectMemoryTables() const { return Memory.Modules.isDefined() && Memory.Modules.size() > 0 ? Memory.dgetSlotCount() > 0 : false; };
decltype(PlatformFeature)::ValueType dgetgPlatformFeature() const {
if ( PlatformFeature.isDefined() ) return PlatformFeature.value();
return GetPlatformFeature(dgetModel());
};
const decltype(NoRomInfo)::ValueType& dgetNoRomInfo() const { return NoRomInfo.isDefined() ? NoRomInfo.value() : NoRomInfo.nullValue; };
const decltype(FakeCPUID)::ValueType& dgetFakeCPUID() const { return FakeCPUID.isDefined() ? FakeCPUID.value() : gFakeCPUID; };
decltype(FirmwareFeatures)::ValueType dgetFirmwareFeatures() const {
if ( FirmwareFeatures.isDefined() ) return FirmwareFeatures.value();
return GetFwFeatures(dgetModel());
};
decltype(FirmwareFeaturesMask)::ValueType dgetFirmwareFeaturesMask() const {
if ( FirmwareFeaturesMask.isDefined() ) return FirmwareFeaturesMask.value();
return GetFwFeaturesMaskFromModel(dgetModel());
};
decltype(ExtendedFirmwareFeatures)::ValueType dgetExtendedFirmwareFeatures() const {
if ( ExtendedFirmwareFeatures.isDefined() ) return ExtendedFirmwareFeatures.value();
return GetExtFwFeatures(dgetModel());
};
decltype(ExtendedFirmwareFeaturesMask)::ValueType dgetExtendedFirmwareFeaturesMask() const {
if ( ExtendedFirmwareFeaturesMask.isDefined() ) return ExtendedFirmwareFeaturesMask.value();
return GetExtFwFeaturesMask(dgetModel());
};
};
SmbiosDictClass SMBIOS = SmbiosDictClass();
SmbiosDictClass SMBIOS_lion = SmbiosDictClass();
SmbiosDictClass SMBIOS_cougar = SmbiosDictClass();
SmbiosDictClass SMBIOS_mav = SmbiosDictClass();
SmbiosDictClass SMBIOS_yos = SmbiosDictClass();
SmbiosDictClass SMBIOS_cap = SmbiosDictClass();
SmbiosDictClass SMBIOS_sierra = SmbiosDictClass();
SmbiosDictClass SMBIOS_hsierra = SmbiosDictClass();
SmbiosDictClass SMBIOS_moja = SmbiosDictClass();
SmbiosDictClass SMBIOS_cata = SmbiosDictClass();
SmbiosDictClass SMBIOS_bigsur = SmbiosDictClass();
SmbiosDictClass SMBIOS_monterey = SmbiosDictClass();
SmbiosDictClass SMBIOS_ventura = SmbiosDictClass();
SmbiosDictClass SMBIOS_sonoma = SmbiosDictClass();
XmlDictField m_fields[14] = {
{"SMBIOS", SMBIOS},
{"SMBIOS_lion", SMBIOS_lion},
{"SMBIOS_cougar", SMBIOS_cougar},
{"SMBIOS_mav", SMBIOS_mav},
{"SMBIOS_yos", SMBIOS_yos},
{"SMBIOS_cap", SMBIOS_cap},
{"SMBIOS_sierra", SMBIOS_sierra},
{"SMBIOS_hsierra", SMBIOS_hsierra},
{"SMBIOS_moja", SMBIOS_moja},
{"SMBIOS_cata", SMBIOS_cata},
{"SMBIOS_bigsur", SMBIOS_bigsur},
{"SMBIOS_monterey", SMBIOS_monterey},
{"SMBIOS_ventura", SMBIOS_ventura},
{"SMBIOS_sonoma", SMBIOS_sonoma},
};
public:
virtual void getFields(XmlDictField** fields, size_t* nb) override { *fields = m_fields; *nb = sizeof(m_fields)/sizeof(m_fields[0]); };
public:
SmbiosPlistClass() {};
const decltype(SMBIOS)& getSMBIOS() const {
for (size_t i=0; i<sizeof(m_fields)/sizeof(m_fields[0]); i++) {
XStringW h;
h.takeValueFrom(m_fields[i].m_name);
if (SmbiosList.size() > 0 && SmbiosList[OldChosenSmbios] == h) {
return static_cast<SmbiosDictClass&>(m_fields[i].xmlAbstractType);
}
}
return SMBIOS;
};
};
#endif /* _SMBIOSPLISTCLASS_H_ */