2021-04-28 20:30:34 +02:00
/*
* 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 "../../Platform/platformdata.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"
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 SlotClass : public XmlUInt64
{
using super = XmlUInt64 ;
virtual bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( ! isDefined ( ) ) return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Slot must be defined as a number between 0 and 15 inclusive at '%s:%d' " , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
if ( value ( ) < 0 ) return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Slot cannot be negative. It must a number between 0 and 15 inclusive at '%s:%d' " , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
if ( value ( ) > 15 ) return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Slot cannot > 15. It must a number between 0 and 15 inclusive at '%s:%d' " , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
return true ;
}
} ;
XmlUInt64 Slot = XmlUInt64 ( ) ;
XmlUInt32 Size = XmlUInt32 ( ) ;
XmlUInt32 Frequency = XmlUInt32 ( ) ;
XmlString8AllowEmpty Vendor = XmlString8AllowEmpty ( ) ;
XmlString8AllowEmpty Part = XmlString8AllowEmpty ( ) ;
XmlString8AllowEmpty Serial = XmlString8AllowEmpty ( ) ;
class TypeClass : public XmlString8AllowEmpty {
using super = XmlString8AllowEmpty ;
virtual bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( isDefined ( ) ) {
if ( xstring8 . isEqualIC ( " DDR " ) ) return true ;
if ( xstring8 . isEqualIC ( " DDR2 " ) ) return true ;
if ( xstring8 . isEqualIC ( " DDR3 " ) ) return true ;
if ( xstring8 . isEqualIC ( " DDR4 " ) ) return true ;
}
return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Type must be \" DDR \" , \" DDR2 \" , \" DDR3 \" or \" DDR4 \" in dict '%s:%d' " , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
}
public :
} Type = TypeClass ( ) ;
XmlDictField m_fields [ 7 ] = {
{ " Slot " , Slot } ,
{ " 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 bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( ! Slot . isDefined ( ) ) return false ;
return true ;
}
const decltype ( Slot ) : : ValueType & dgetSlotNo ( ) const { return Slot . isDefined ( ) ? Slot . value ( ) : Slot . 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 value " ) ;
}
bool dgetInUse ( ) const { return Size . isDefined ( ) ? Size . value ( ) > 0 : false ; } ;
} ;
class ModuleArrayClass : public XmlArray < ModuleDictClass >
{
public :
const ModuleDictClass & dgetSolt ( size_t slotNo ) const {
for ( size_t idx = 0 ; idx < size ( ) ; + + idx ) {
if ( ElementAt ( idx ) . dgetSlotNo ( ) = = slotNo )
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 bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
bool b = true ;
return b ;
}
decltype ( SlotCount ) : : ValueType dgetSlotCountSetting ( ) const { return SlotCount . isDefined ( ) ? SlotCount . value ( ) : 0 ; } ;
const decltype ( Channels ) : : ValueType & dgetUserChannels ( ) const { return Channels . isDefined ( ) ? Channels . value ( ) : Channels . nullValue ; } ;
decltype ( SlotCount ) : : ValueType dgetSlotMax ( ) const {
if ( ! isDefined ( ) | | ! Modules . isDefined ( ) | | Modules . size ( ) = = 0 ) return 0 ;
2021-05-08 11:34:17 +02:00
uint8_t max = 0 ;
2021-04-28 20:30:34 +02:00
for ( size_t idx = 0 ; idx < Modules . size ( ) ; + + idx ) {
if ( Modules [ idx ] . dgetModuleSize ( ) > 0 ) {
2021-05-08 11:34:17 +02:00
if ( Modules [ idx ] . dgetSlotNo ( ) > UINT8_MAX ) {
log_technical_bug ( " Modules[idx].dgetSlotNo() > UINT8_MAX " ) ;
} else {
if ( Modules [ idx ] . dgetSlotNo ( ) > max ) max = ( uint8_t ) Modules [ idx ] . dgetSlotNo ( ) ; // safe cast Modules[idx].dgetSlotNo() is <= UINT8_MAX
}
2021-04-28 20:30:34 +02:00
}
}
return max + 1 ;
} ;
decltype ( SlotCount ) : : ValueType dgetSlotCounts ( ) const { return dgetSlotCountSetting ( ) > dgetSlotMax ( ) ? dgetSlotCountSetting ( ) : dgetSlotMax ( ) ; } ;
} ;
class SlotDeviceDictClass : public XmlDict
{
using super = XmlDict ;
public :
static SlotDeviceDictClass NullValue ;
class DeviceClass : public XmlString8AllowEmpty {
using super = XmlString8AllowEmpty ;
virtual bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( isDefined ( ) ) {
if ( xstring8 . isEqualIC ( " ATI " ) ) return true ;
if ( xstring8 . isEqualIC ( " NVidia " ) ) return true ;
if ( xstring8 . isEqualIC ( " IntelGFX " ) ) return true ;
if ( xstring8 . isEqualIC ( " LAN " ) ) return true ;
if ( xstring8 . isEqualIC ( " WIFI " ) ) return true ;
if ( xstring8 . isEqualIC ( " Firewire " ) ) return true ;
if ( xstring8 . isEqualIC ( " HDMI " ) ) return true ;
if ( xstring8 . isEqualIC ( " USB " ) ) return true ;
if ( xstring8 . isEqualIC ( " NVME " ) ) return true ;
}
return 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 ( ) ) ) ;
}
} 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 bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
bool b = true ;
return b ;
}
const decltype ( Device ) : : ValueType & dgetDevice ( ) const { return Device . isDefined ( ) ? Device . value ( ) : Device . nullValue ; } ;
2021-05-08 11:34:17 +02:00
uint8_t dgetDeviceN ( ) const {
2021-04-28 20:30:34 +02:00
// if ( !Device.isDefined() ) panic("%s: invalid value. Check validate method.", __PRETTY_FUNCTION__);
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 ;
}
}
2021-05-08 11:34:17 +02:00
decltype ( Name ) : : ValueType dgetSlotName ( ) const { return Name . isDefined ( ) ? Name . value ( ) : Device . isDefined ( ) ? S8Printf ( " PCI Slot %hhd " , dgetDeviceN ( ) ) : NullXString8 ; } ;
2021-04-28 20:30:34 +02:00
} ;
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 bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( ! isDefined ( ) ) return true ;
if ( ! IsValidGuidString ( xstring8 ) ) return 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 true ;
}
} ;
class ProductNameClass : public XmlString8Trimed
{
using super = XmlString8Trimed ;
public :
ProductNameClass ( ) : super ( true ) { } ;
virtual bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( ! isDefined ( ) ) {
xmlLiteParser - > addError ( generateErrors , S8Printf ( " You must define ProductName in SMBIOS dict, line %d " , keyPos . getLine ( ) ) ) ;
return true ;
}
MACHINE_TYPES Model ;
Model = GetModelFromString ( xstring8 ) ;
if ( Model = = MaxMachineType ) return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Invalid ProductName '%s' in dict '%s:%d' " , xstring8 . c_str ( ) , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
return true ;
}
} ;
protected :
XmlString8Trimed BiosVendor = XmlString8Trimed ( true ) ; // true = allow empty
XmlString8Trimed BiosVersion = XmlString8Trimed ( true ) ; // RomVersion
XmlString8AllowEmpty EfiVersion = XmlString8AllowEmpty ( ) ;
XmlString8Trimed BiosReleaseDate = XmlString8Trimed ( true ) ;
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 FirmwareFeatures = XmlUInt32 ( ) ; // gFwFeatures
XmlUInt32 FirmwareFeaturesMask = XmlUInt32 ( ) ;
2021-09-25 13:33:16 +02:00
XmlUInt64 ExtendedFirmwareFeatures = XmlUInt64 ( ) ; // gFwFeatures
XmlUInt64 ExtendedFirmwareFeaturesMask = XmlUInt64 ( ) ;
2021-04-28 20:30:34 +02:00
public :
MemoryDictClass Memory = MemoryDictClass ( ) ;
SlotDeviceArrayClass Slots = SlotDeviceArrayClass ( ) ;
2021-09-25 13:33:16 +02:00
XmlDictField m_fields [ 31 ] = { //31
2021-04-28 20:30:34 +02:00
{ " Trust " , Trust } ,
{ " MemoryRank " , MemoryRank } ,
{ " Memory " , Memory } ,
{ " Slots " , Slots } ,
{ " ProductName " , ProductName } ,
{ " SmbiosVersion " , SmbiosVersion } ,
{ " BiosVersion " , BiosVersion } ,
{ " BiosReleaseDate " , BiosReleaseDate } ,
{ " EfiVersion " , EfiVersion } ,
{ " FirmwareFeatures " , FirmwareFeatures } ,
{ " FirmwareFeaturesMask " , FirmwareFeaturesMask } ,
2021-09-25 13:33:16 +02:00
{ " ExtendedFirmwareFeatures " , ExtendedFirmwareFeatures } ,
{ " ExtendedFirmwareFeaturesMask " , ExtendedFirmwareFeaturesMask } ,
2021-04-28 20:30:34 +02:00
{ " 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 } ,
} ;
virtual void getFields ( XmlDictField * * fields , size_t * nb ) override { * fields = m_fields ; * nb = sizeof ( m_fields ) / sizeof ( m_fields [ 0 ] ) ; } ;
virtual bool validate ( XmlLiteParser * xmlLiteParser , const XString8 & xmlPath , const XmlParserPosition & keyPos , bool generateErrors ) override {
if ( ! super : : validate ( xmlLiteParser , xmlPath , keyPos , generateErrors ) ) return false ;
if ( ! ProductName . isDefined ( ) ) {
return xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " ProductName is not defined, the whole SMBIOS dict is ignored at line %d. " , keyPos . getLine ( ) ) ) ;
}
if ( BiosVersion . isDefined ( ) ) {
if ( ! BiosVersion . value ( ) . contains ( " . " ) ) {
xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " BiosVersion '%s' doesn't contains a dot in dict '%s:%d'. " , BiosVersion . value ( ) . c_str ( ) , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
BiosVersion . reset ( ) ;
} else {
size_t rindex = BiosVersion . value ( ) . rindexOf ( " . " ) ;
if ( BiosVersion . value ( ) . length ( ) - rindex < 7 ) {
xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Last part of BiosVersion '%s' must be at least 6 chars in dict '%s:%d'. " , BiosVersion . value ( ) . c_str ( ) , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
BiosVersion . reset ( ) ;
} else {
// Should we check the format of these 6 last chars ?
if ( hasModel ( ) ) {
if ( ! is2ndBiosVersionGreaterThan1st ( ApplePlatformData [ getModel ( ) ] . firmwareVersion , BiosVersion . value ( ) ) ) {
xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " BiosVersion '%s' is before than default ('%s') -> ignored. Dict '%s:%d'. " , BiosVersion . value ( ) . c_str ( ) , ApplePlatformData [ getModel ( ) ] . firmwareVersion . c_str ( ) , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
BiosVersion . reset ( ) ;
}
} else {
xmlLiteParser - > addWarning ( generateErrors , S8Printf ( " Cannot check validity of BiosVersion because ProductName is not set. Dict '%s:%d'. " , xmlPath . c_str ( ) , keyPos . getLine ( ) ) ) ;
}
}
}
}
return true ; // we don't want to invalidate the whole dict
}
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 ; }
2021-09-25 13:33:16 +02:00
const decltype ( ExtendedFirmwareFeatures ) & getExtendedFirmwareFeatures ( ) const { return ExtendedFirmwareFeatures ; }
const decltype ( ExtendedFirmwareFeaturesMask ) & getExtendedFirmwareFeaturesMask ( ) const { return ExtendedFirmwareFeaturesMask ; }
2021-04-28 20:30:34 +02:00
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 ; }
/*
* DO NOT call this if ! ProductName . isDefined ( )
*/
MACHINE_TYPES getModel ( ) const
{
if ( ! ProductName . isDefined ( ) ) {
log_technical_bug ( " %s : !ProductName.isDefined() " , __PRETTY_FUNCTION__ ) ;
return iMac132 ;
}
return GetModelFromString ( ProductName . value ( ) ) ; // ProductName has been validated, so Model CANNOT be MaxMachineType
}
bool hasModel ( ) const { return ProductName . isDefined ( ) ; }
MACHINE_TYPES dgetModel ( ) const
{
if ( ! hasModel ( ) ) return MaxMachineType ;
return getModel ( ) ;
}
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 ApplePlatformData [ dgetModel ( ) ] . firmwareVersion ;
} ;
decltype ( EfiVersion ) : : ValueType dgetEfiVersion ( ) const {
if ( ! EfiVersion . isDefined ( ) ) return ApplePlatformData [ 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 ApplePlatformData [ dgetModel ( ) ] . systemVersion ;
} ;
const decltype ( SerialNumber ) : : ValueType & dgetSerialNr ( ) const {
if ( SerialNumber . isDefined ( ) ) return SerialNumber . value ( ) ;
return ApplePlatformData [ dgetModel ( ) ] . serialNumber ;
} ;
decltype ( SmUUID ) : : ValueType dgetSmUUID ( ) const { return SmUUID . isDefined ( ) ? SmUUID . value ( ) : nullGuidAsString ; } ;
decltype ( Family ) : : ValueType dgetFamilyName ( ) const {
if ( Family . isDefined ( ) ) return Family . value ( ) ;
return ApplePlatformData [ 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 ApplePlatformData [ 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 ( ) ;
MACHINE_TYPES 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 ApplePlatformData [ 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 ( ) : true ; } ;
bool dgetInjectMemoryTables ( ) const { return Memory . Modules . isDefined ( ) & & Memory . Modules . size ( ) > 0 ? Memory . dgetSlotCounts ( ) > 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 ; } ;
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 ( ) ) ;
2021-09-25 13:33:16 +02:00
} ;
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 ( ) ) ;
2021-04-28 20:30:34 +02:00
}
} ;
SmbiosDictClass SMBIOS = SmbiosDictClass ( ) ;
XmlDictField m_fields [ 1 ] = {
{ " SMBIOS " , SMBIOS } ,
} ;
public :
virtual void getFields ( XmlDictField * * fields , size_t * nb ) override { * fields = m_fields ; * nb = sizeof ( m_fields ) / sizeof ( m_fields [ 0 ] ) ; } ;
public :
SmbiosPlistClass ( ) { } ;
} ;
//extern const ConfigPlist& configPlist;
//extern const ConfigPlist& getConfigPlist();
# endif /* _SMBIOSPLISTCLASS_H_ */