CloverBootloader/rEFIt_UEFI/Settings/ConfigManager.cpp

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/*
* ConfigManager.cpp
*
* Created on: Apr 21, 2021
* Author: jief
*/
#include "ConfigManager.h"
#include "../Settings/SelfOem.h"
#include "../refit/lib.h"
#include "../Platform/Settings.h"
#include "../Platform/platformdata.h"
#include "../Platform/VersionString.h"
#include "../Platform/Nvram.h"
#include "../Platform/smbios.h"
#include "../Platform/gma.h"
#include "../Platform/ati.h"
#include "../Platform/ati_reg.h"
#include "../Platform/nvidia.h"
#include "../Platform/hda.h"
#include "../include/Net.h"
#include "../entry_scan/secureboot.h"
#ifndef DEBUG_ALL
#define DEBUG_CONFIGMANAGER 1
#else
#define DEBUG_CONFIGMANAGER DEBUG_ALL
#endif
#if DEBUG_CONFIGMANAGER == 0
#define DBG(...)
#else
#define DBG(...) DebugLog (DEBUG_CONFIGMANAGER, __VA_ARGS__)
#endif
void ConfigManager::DiscoverDevices()
{
EFI_STATUS Status;
UINT16 PreviousVendor = 0;
XStringW GopDevicePathStr;
DbgHeader("GetDevices");
{
// Get GOP handle, in order to check to which GPU the monitor is currently connected
UINTN HandleCount = 0;
EFI_HANDLE *HandleArray = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiGraphicsOutputProtocolGuid, NULL, &HandleCount, &HandleArray);
if (!EFI_ERROR(Status)) {
if ( HandleCount == 0 ) {
log_technical_bug("HandleCount == 0");
}else{
if ( HandleCount > 1 ) {
MsgLog("Found more than one GOP protocol ??? Using the first one\n");
}
GopDevicePathStr = DevicePathToXStringW(DevicePathFromHandle(HandleArray[0]));
DBG("GOP found at: %ls\n", GopDevicePathStr.wc_str());
}
}
}
// Scan PCI handles
UINTN HandleCount = 0;
EFI_HANDLE *HandleArray = NULL;
Status = gBS->LocateHandleBuffer (
ByProtocol,
&gEfiPciIoProtocolGuid,
NULL,
&HandleCount,
&HandleArray
);
if (!EFI_ERROR(Status)) {
for (UINTN Index = 0; Index < HandleCount; ++Index) {
EFI_PCI_IO_PROTOCOL *PciIo;
Status = gBS->HandleProtocol(HandleArray[Index], &gEfiPciIoProtocolGuid, (void **)&PciIo);
if (!EFI_ERROR(Status)) {
// Read PCI BUS
UINTN Segment = 0;
UINTN Bus = 0;
UINTN Device = 0;
UINTN Function = 0;
PciIo->GetLocation (PciIo, &Segment, &Bus, &Device, &Function);
PCI_TYPE00 Pci;
Status = PciIo->Pci.Read (
PciIo,
EfiPciIoWidthUint32,
0,
sizeof (Pci) / sizeof (UINT32),
&Pci
);
DBG("PCI (%02llX|%02llX:%02llX.%02llX) : %04hX %04hX class=%02hhX%02hhX%02hhX\n",
Segment,
Bus,
Device,
Function,
Pci.Hdr.VendorId,
Pci.Hdr.DeviceId,
Pci.Hdr.ClassCode[2],
Pci.Hdr.ClassCode[1],
Pci.Hdr.ClassCode[0]
);
// GFX
//if ((Pci.Hdr.ClassCode[2] == PCI_CLASS_DISPLAY) &&
// (Pci.Hdr.ClassCode[1] == PCI_CLASS_DISPLAY_VGA) &&
// (NGFX < 4)) {
if ( Pci.Hdr.ClassCode[2] == PCI_CLASS_DISPLAY &&
( Pci.Hdr.ClassCode[1] == PCI_CLASS_DISPLAY_VGA || Pci.Hdr.ClassCode[1] == PCI_CLASS_DISPLAY_OTHER )
) {
CONST CHAR8 *CardFamily = "";
UINT16 UFamily;
DiscoveredGfx *gfx = new DiscoveredGfx;
gfx->DeviceID = Pci.Hdr.DeviceId;
gfx->Segment = Segment;
gfx->Bus = Bus;
gfx->Device = Device;
gfx->Function = Function;
gfx->Handle = HandleArray[Index];
switch (Pci.Hdr.VendorId) {
case 0x1002: {
const radeon_card_info_t *info = NULL;
gfx->Vendor = Ati;
size_t i = 0;
do {
info = &radeon_cards[i];
if (info->device_id == Pci.Hdr.DeviceId) {
break;
}
} while (radeon_cards[i++].device_id != 0);
gfx->Model.takeValueFrom(info->model_name);
gfx->Config.takeValueFrom(card_configs[info->cfg_name].name);
gfx->Ports = card_configs[info->cfg_name].ports;
DBG(" - GFX: Model=%s (ATI/AMD)\n", gfx->Model.c_str());
//get mmio
if (info->chip_family < CHIP_FAMILY_HAINAN) {
gfx->Mmio = (UINT8 *)(UINTN)(Pci.Device.Bar[2] & ~0x0f);
} else {
gfx->Mmio = (UINT8 *)(UINTN)(Pci.Device.Bar[5] & ~0x0f);
}
gfx->Connectors = *(UINT32*)(gfx->Mmio + RADEON_BIOS_0_SCRATCH);
// DBG(" - RADEON_BIOS_0_SCRATCH = 0x%08X\n", gfx->Connectors);
gfx->ConnChanged = FALSE;
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 0;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "PCI Slot 0"_XS8;
SlotDevice->SlotID = 1;
SlotDevice->SlotType = SlotTypePciExpressX16;
break;
}
case 0x8086:{
gfx->Vendor = Intel;
gfx->Model.takeValueFrom(get_gma_model (Pci.Hdr.DeviceId));
DBG(" - GFX: Model=%s (Intel)\n", gfx->Model.c_str());
gfx->Ports = 1;
gfx->Connectors = (1 << GfxPropertiesArrayNonConst.size());
gfx->ConnChanged = FALSE;
break;
}
case 0x10de: {
gfx->Vendor = Nvidia;
UINT32 Bar0 = Pci.Device.Bar[0];
gfx->Mmio = (UINT8*)(UINTN)(Bar0 & ~0x0f);
//DBG("BAR: 0x%p\n", Mmio);
// get card type
gfx->Family = (REG32(gfx->Mmio, 0) >> 20) & 0x1ff;
UFamily = gfx->Family & 0x1F0;
if ((UFamily == NV_ARCH_KEPLER1) ||
(UFamily == NV_ARCH_KEPLER2) ||
(UFamily == NV_ARCH_KEPLER3)) {
CardFamily = "Kepler";
}
else if ((UFamily == NV_ARCH_FERMI1) ||
(UFamily == NV_ARCH_FERMI2)) {
CardFamily = "Fermi";
}
else if ((UFamily == NV_ARCH_MAXWELL1) ||
(UFamily == NV_ARCH_MAXWELL2)) {
CardFamily = "Maxwell";
}
else if (UFamily == NV_ARCH_PASCAL) {
CardFamily = "Pascal";
}
else if (UFamily == NV_ARCH_VOLTA) {
CardFamily = "Volta";
}
else if (UFamily == NV_ARCH_TURING) {
CardFamily = "Turing";
}
else if ((UFamily >= NV_ARCH_TESLA) && (UFamily < 0xB0)) { //not sure if 0xB0 is Tesla or Fermi
CardFamily = "Tesla";
} else {
CardFamily = "NVidia unknown";
}
gfx->Model.takeValueFrom(
get_nvidia_model (((Pci.Hdr.VendorId << 16) | Pci.Hdr.DeviceId),
((Pci.Device.SubsystemVendorID << 16) | Pci.Device.SubsystemID)
)
);
DBG(" - GFX: Model=%s family %hX (%s)\n", gfx->Model.c_str(), gfx->Family, CardFamily);
gfx->Ports = 0;
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 1;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "PCI Slot 0"_XS8;
SlotDevice->SlotID = 1;
SlotDevice->SlotType = SlotTypePciExpressX16;
break;
}
default: {
gfx->Vendor = Unknown;
gfx->Model.S8Printf("pci%hx,%hx", Pci.Hdr.VendorId, Pci.Hdr.DeviceId);
gfx->Ports = 1;
gfx->Connectors = (1 << GfxPropertiesArrayNonConst.size());
gfx->ConnChanged = FALSE;
break;
}
}
// GOP device path should contain the device path of the GPU to which the monitor is connected
XStringW DevicePathStr = DevicePathToXStringW(DevicePathFromHandle(HandleArray[Index]));
if (StrStr(GopDevicePathStr.wc_str(), DevicePathStr.wc_str())) {
DBG(" - GOP: Provided by device\n");
if ( GfxPropertiesArrayNonConst.size() != 0 ) {
// we found GOP on a GPU scanned later, make space for this GPU at first position
GfxPropertiesArrayNonConst.InsertRef(gfx, 0, true);
}else{
GfxPropertiesArrayNonConst.AddReference(gfx, true);
}
}
} //if gfx
else if ((Pci.Hdr.ClassCode[2] == PCI_CLASS_NETWORK) &&
(Pci.Hdr.ClassCode[1] == PCI_CLASS_NETWORK_OTHER)) {
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 6;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "AirPort"_XS8;
SlotDevice->SlotID = 0;
SlotDevice->SlotType = SlotTypePciExpressX1;
DBG(" - WIFI: Vendor= ");
switch (Pci.Hdr.VendorId) {
case 0x11ab:
DBG("Marvell\n");
break;
case 0x10ec:
DBG("Realtek\n");
break;
case 0x14e4:
DBG("Broadcom\n");
break;
case 0x1969:
case 0x168C:
DBG("Atheros\n");
break;
case 0x1814:
DBG("Ralink\n");
break;
case 0x8086:
DBG("Intel\n");
break;
default:
DBG(" 0x%04X\n", Pci.Hdr.VendorId);
break;
}
}
else if ((Pci.Hdr.ClassCode[2] == PCI_CLASS_NETWORK) &&
(Pci.Hdr.ClassCode[1] == PCI_CLASS_NETWORK_ETHERNET)) {
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 5;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "Ethernet"_XS8;
SlotDevice->SlotID = 2;
SlotDevice->SlotType = SlotTypePciExpressX1;
LanCardClass* lanCard = new LanCardClass;
LanCardArrayNonConst.AddReference(lanCard, true);
UINT16 Vendor = Pci.Hdr.VendorId;
UINT32 Bar0 = Pci.Device.Bar[0];
UINT8* Mmio = (UINT8*)(UINTN)(Bar0 & ~0x0f);
DBG(" - LAN: %zu Vendor=", LanCardArrayNonConst.size());
switch (Pci.Hdr.VendorId) {
case 0x11ab:
DBG("Marvell\n");
break;
case 0x10ec:
DBG("Realtek\n");
break;
case 0x14e4:
DBG("Broadcom\n");
break;
case 0x1969:
case 0x168C:
DBG("Atheros\n");
break;
case 0x8086:
DBG("Intel\n");
break;
case 0x10de:
DBG("Nforce\n");
break;
default:
DBG("Unknown\n");
break;
}
//
// Get MAC-address from hardwaredirectly
//
if ( Mmio != NULL ) {
UINTN Offset = 0;
BOOLEAN Swab = FALSE;
UINT32 Mac0, Mac4;
switch ( Vendor ) {
case 0x11ab: //Marvell Yukon
if (PreviousVendor == Vendor) {
Offset = B2_MAC_2;
} else {
Offset = B2_MAC_1;
}
CopyMem(&lanCard->MacAddress[0], Mmio + Offset, 6);
goto done;
case 0x10ec: //Realtek
Mac0 = IoRead32((UINTN)Mmio);
Mac4 = IoRead32((UINTN)Mmio + 4);
goto copy;
case 0x14e4: //Broadcom
if (PreviousVendor == Vendor) {
Offset = EMAC_MACADDR1_HI;
} else {
Offset = EMAC_MACADDR0_HI;
}
break;
case 0x1969: //Atheros
Offset = L1C_STAD0;
Swab = TRUE;
break;
case 0x8086: //Intel
if (PreviousVendor == Vendor) {
Offset = INTEL_MAC_2;
} else {
Offset = INTEL_MAC_1;
}
break;
default:
break;
}
if (!Offset) {
continue;
}
Mac0 = *(UINT32*)(Mmio + Offset);
Mac4 = *(UINT32*)(Mmio + Offset + 4);
if (Swab) {
lanCard->MacAddress[0] = (UINT8)((Mac4 & 0xFF00) >> 8);
lanCard->MacAddress[1] = (UINT8)(Mac4 & 0xFF);
lanCard->MacAddress[2] = (UINT8)((Mac0 & 0xFF000000) >> 24);
lanCard->MacAddress[3] = (UINT8)((Mac0 & 0x00FF0000) >> 16);
lanCard->MacAddress[4] = (UINT8)((Mac0 & 0x0000FF00) >> 8);
lanCard->MacAddress[5] = (UINT8)(Mac0 & 0x000000FF);
goto done;
}
copy:
CopyMem(&lanCard->MacAddress[0], &Mac0, 4);
CopyMem(&lanCard->MacAddress[4], &Mac4, 2);
done:
PreviousVendor = Vendor;
DBG("Legacy MAC address of LAN #%zu= ", LanCardArrayNonConst.size()-1); // size() can't be 0 here.
for (size_t Index2 = 0; Index2 < sizeof(lanCard->MacAddress); Index2++) {
DBG("%02hhX:", lanCard->MacAddress[Index2]);
}
DBG("\n");
}
}
else if ((Pci.Hdr.ClassCode[2] == PCI_CLASS_SERIAL) &&
(Pci.Hdr.ClassCode[1] == PCI_CLASS_SERIAL_FIREWIRE)) {
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 12;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "FireWire"_XS8;
SlotDevice->SlotID = 3;
SlotDevice->SlotType = SlotTypePciExpressX4;
}
else if ( Pci.Hdr.ClassCode[2] == PCI_CLASS_MEDIA &&
( Pci.Hdr.ClassCode[1] == PCI_CLASS_MEDIA_HDA || Pci.Hdr.ClassCode[1] == PCI_CLASS_MEDIA_AUDIO )
) {
DiscoveredHdaProperties *hda = new DiscoveredHdaProperties;
// Populate Controllers IDs
hda->controller_vendor_id = Pci.Hdr.VendorId;
hda->controller_device_id = Pci.Hdr.DeviceId;
// HDA Controller Info
HdaControllerGetName(((hda->controller_device_id << 16) | hda->controller_vendor_id), &hda->controller_name);
if (IsHDMIAudio(HandleArray[Index])) {
DBG(" - HDMI Audio: \n");
DiscoveredSlotDeviceClass* SlotDevice = new DiscoveredSlotDeviceClass;
SlotDeviceArrayNonConst.AddReference(SlotDevice, true);
SlotDevice->Index = 4;
SlotDevice->SegmentGroupNum = (UINT16)Segment;
SlotDevice->BusNum = (UINT8)Bus;
SlotDevice->DevFuncNum = (UINT8)((Device << 3) | (Function & 0x07));
//SlotDevice->Valid = TRUE;
SlotDevice->SlotName = "HDMI port"_XS8;
SlotDevice->SlotID = 5;
SlotDevice->SlotType = SlotTypePciExpressX4;
}
// TODO not done here anymore! Here, we discover devices. No more. No other action.
// if (gSettings.Devices.Audio.ResetHDA) {
// //Slice method from VoodooHDA
// //PCI_HDA_TCSEL_OFFSET = 0x44
// UINT8 Value = 0;
// Status = PciIo->Pci.Read (PciIo, EfiPciIoWidthUint8, 0x44, 1, &Value);
//
// if (EFI_ERROR(Status)) {
// continue;
// }
//
// Value &= 0xf8;
// PciIo->Pci.Write (PciIo, EfiPciIoWidthUint8, 0x44, 1, &Value);
// //ResetControllerHDA();
// }
HdaPropertiesArrayNonConst.AddReference(hda, true);
} // if Audio device
}
}
}
}
template<class C>
EFI_STATUS LoadPlist(const XStringW& ConfName, C* plist)
{
EFI_STATUS Status = EFI_NOT_FOUND;
UINTN Size = 0;
CHAR8* ConfigPtr = NULL;
// XStringW ConfigPlistPath;
// XStringW ConfigOemPath;
// DbgHeader("LoadUserSettings");
// load config
if ( ConfName.isEmpty() /*|| Dict == NULL*/ ) {
return EFI_NOT_FOUND;
}
// ConfigOemPath = SWPrintf("%ls\\%ls.plist", selfOem.getOOEMPath.wc_str(), ConfName.wc_str());
Status = EFI_NOT_FOUND;
XStringW configFilename = SWPrintf("%ls.plist", ConfName.wc_str());
XStringW configPlistPath;
if ( selfOem.oemDirExists() ) {
configPlistPath = SWPrintf("%ls\\%ls.plist", selfOem.getOemFullPath().wc_str(), ConfName.wc_str());
if (FileExists (&selfOem.getOemDir(), configFilename)) {
Status = egLoadFile(&selfOem.getOemDir(), configFilename.wc_str(), (UINT8**)&ConfigPtr, &Size);
if (EFI_ERROR(Status)) {
DBG("Cannot find %ls at path (%s): '%ls', trying '%ls'\n", configFilename.wc_str(), efiStrError(Status), selfOem.getOemFullPath().wc_str(), self.getCloverDirFullPath().wc_str());
}else{
DBG("Using %ls at path: %ls\n", configFilename.wc_str(), selfOem.getOemFullPath().wc_str());
}
}
}
if ( !selfOem.oemDirExists() || EFI_ERROR(Status)) {
configPlistPath = SWPrintf("%ls\\%ls.plist", self.getCloverDirFullPath().wc_str(), ConfName.wc_str());
if ( FileExists(&self.getCloverDir(), configFilename.wc_str())) {
Status = egLoadFile(&self.getCloverDir(), configFilename.wc_str(), (UINT8**)&ConfigPtr, &Size);
}
if (EFI_ERROR(Status)) {
DBG("Cannot find %ls at path '%ls' : %s\n", configFilename.wc_str(), self.getCloverDirFullPath().wc_str(), efiStrError(Status));
} else {
DBG("Using %ls at path: %ls\n", configFilename.wc_str(), self.getCloverDirFullPath().wc_str());
}
}
if ( EFI_ERROR(Status) ) {
MsgLog("'%ls' not loaded. Efi error %s\n", configPlistPath.wc_str(), efiStrError(Status));
return Status;
}
XmlLiteParser xmlLiteParser;
bool parsingOk = plist->parse((const CHAR8*)ConfigPtr, Size, ""_XS8, &xmlLiteParser);
if ( xmlLiteParser.getErrorsAndWarnings().size() ) {
if ( xmlLiteParser.getErrorsAndWarnings().size() > 1 ) {
DebugLog(2, "There are problems in plist '%ls'\n", configPlistPath.wc_str());
}else{
DebugLog(2, "There is a problem in plist '%ls'\n", configPlistPath.wc_str());
}
for ( size_t idx = 0 ; idx < xmlLiteParser.getErrorsAndWarnings().size() ; idx++ ) {
const XmlParserMessage& xmlMsg = xmlLiteParser.getErrorsAndWarnings()[idx];
DebugLog(2, "%s: %s\n", xmlMsg.isError ? "Error" : "Warning", xmlMsg.msg.c_str());
}
DebugLog(2, "Use CloverConfigPlistValidator or look in the log\n");
}
if ( !parsingOk ) {
DebugLog(2, "Parsing error while parsing '%ls'.\n", configPlistPath.wc_str());
Status = EFI_LOAD_ERROR;
}
if ( !parsingOk || xmlLiteParser.getErrorsAndWarnings().size() > 0 ) gBS->Stall(3000000); // 3 seconds delay
return Status;
}
/*
* Load a plist into configPlist global object, "transfer" the settings into gSettings and call afterGetUserSettings()
* ConfName : name of the file, without .plist extension. File will be searched in OEM or main folder
*/
EFI_STATUS ConfigManager::LoadConfigPlist(const XStringW& ConfName)
{
EFI_STATUS Status = LoadPlist(ConfName, &configPlist);
return Status;
}
/*
* Load a plist into smbiosPlist global object, "transfer" the settings into gSettings and call afterGetUserSettings()
* ConfName : name of the file, without .plist extension. File will be searched in OEM or main folder
*/
EFI_STATUS ConfigManager::LoadSMBIOSPlist(const XStringW& ConfName)
{
EFI_STATUS Status = LoadPlist(ConfName, &smbiosPlist);
if ( EFI_ERROR(Status) ) {
smbiosPlist.reset();
}
return Status;
}
void ConfigManager::FillSmbiosWithDefaultValue(MACHINE_TYPES Model, const SmbiosPlistClass::SmbiosDictClass& smbiosDictClass)
{
GlobalConfig.CurrentModel = Model;
//GlobalConfig.BiosVersionUsed = ApplePlatformData[Model].firmwareVersion;
// Check for BiosVersion and BiosReleaseDate by Sherlocks
if ( smbiosDictClass.getBiosVersion().isDefined() ) {
int c = compareBiosVersion(GlobalConfig.BiosVersionUsed, smbiosDictClass.dgetBiosVersion());
if ( c == 0 ) {
DBG("Found same BiosVersion in clover and config\n");
}else
if ( c < 0 ) {
DBG("Using latest BiosVersion from config\n");
GlobalConfig.BiosVersionUsed = smbiosDictClass.dgetBiosVersion();
}else{
DBG("Using latest BiosVersion from clover\n");
}
}else{
DBG("BiosVersion: not set, Using BiosVersion from clover\n");
}
DBG("BiosVersion: %s\n", GlobalConfig.BiosVersionUsed.c_str());
//GlobalConfig.ReleaseDateUsed = GetReleaseDate(Model); // AppleReleaseDate
int compareReleaseDateResult = 0;
if ( smbiosDictClass.getBiosReleaseDate().isDefined() ) {
compareReleaseDateResult = compareReleaseDate(GetReleaseDate(Model), smbiosDictClass.dgetBiosReleaseDate());
if ( compareReleaseDateResult == 0 ) {
DBG("Found same BiosReleaseDate in clover and config\n");
}else
if ( compareReleaseDateResult == -1 ) {
DBG("Using latest BiosReleaseDate from config\n");
GlobalConfig.ReleaseDateUsed = smbiosDictClass.dgetBiosReleaseDate();
}else
if ( compareReleaseDateResult == 1 ) {
DBG("Using latest BiosReleaseDate from clover\n");
}
}else{
DBG("BiosReleaseDate: not set, Using BiosReleaseDate from clover\n");
}
if ( !smbiosDictClass.getBiosReleaseDate().isDefined() || compareReleaseDateResult == -2 )
{
//DBG("Found unknown date format from config\n");
size_t len = GlobalConfig.ReleaseDateUsed.length();
const char* j = GlobalConfig.BiosVersionUsed.c_str();
j += AsciiStrLen(j);
while (*j != '.') {
j--;
}
if ( len == 8 ) {
GlobalConfig.ReleaseDateUsed.S8Printf("%c%c/%c%c/%c%c\n", j[3], j[4], j[5], j[6], j[1], j[2]);
//DBG("Using the date of used BiosVersion\n");
} else if ( len == 10 ) {
GlobalConfig.ReleaseDateUsed.S8Printf("%c%c/%c%c/20%c%c\n", j[3], j[4], j[5], j[6], j[1], j[2]);
//DBG("Using the date of used BiosVersion\n");
}
}
DBG("BiosReleaseDate: %s\n", GlobalConfig.ReleaseDateUsed.c_str());
// GlobalConfig.EfiVersionUsed.takeValueFrom(ApplePlatformData[Model].efiversion);
if ( smbiosDictClass.getEfiVersion().isDefined() ) {
if (AsciiStrVersionToUint64(GlobalConfig.EfiVersionUsed, 4, 5) > AsciiStrVersionToUint64(smbiosDictClass.dgetEfiVersion(), 4, 5)) {
DBG("Using latest EfiVersion from clover: %s\n", GlobalConfig.EfiVersionUsed.c_str());
} else if (AsciiStrVersionToUint64(GlobalConfig.EfiVersionUsed, 4, 5) < AsciiStrVersionToUint64(smbiosDictClass.dgetEfiVersion(), 4, 5)) {
GlobalConfig.EfiVersionUsed = smbiosDictClass.dgetEfiVersion();
DBG("Using latest EfiVersion from config: %s\n", GlobalConfig.EfiVersionUsed.c_str());
} else {
DBG("Using EfiVersion from clover: %s\n", GlobalConfig.EfiVersionUsed.c_str());
}
} else if ( GlobalConfig.EfiVersionUsed.notEmpty() ) {
DBG("Using EfiVersion from clover: %s\n", GlobalConfig.EfiVersionUsed.c_str());
}
if ( smbiosDictClass.getBiosVendor().isDefined() ) gSettings.Smbios.BiosVendor = smbiosDictClass.getBiosVendor().value();
if ( smbiosDictClass.getManufacturer().isDefined() ) gSettings.Smbios.ManufactureName = smbiosDictClass.getManufacturer().value();
if ( smbiosDictClass.getProductName().isDefined() ) gSettings.Smbios.ProductName = smbiosDictClass.getProductName().value();
if ( smbiosDictClass.getVersion().isDefined() ) gSettings.Smbios.SystemVersion = smbiosDictClass.getVersion().value();
if ( smbiosDictClass.getSerialNumber().isDefined() ) gSettings.Smbios.SerialNr = smbiosDictClass.getSerialNumber().value();
if ( smbiosDictClass.getFamily().isDefined() ) gSettings.Smbios.FamilyName = smbiosDictClass.getFamily().value();
if ( smbiosDictClass.getBoardManufacturer().isDefined() ) gSettings.Smbios.BoardManufactureName = smbiosDictClass.getBoardManufacturer().value();
if ( smbiosDictClass.getBoardSerialNumber().isDefined() ) gSettings.Smbios.BoardSerialNumber = smbiosDictClass.getBoardSerialNumber().value();
if ( smbiosDictClass.getBoardID().isDefined() ) gSettings.Smbios.BoardNumber = smbiosDictClass.getBoardID().value();
if ( smbiosDictClass.getBoardVersion().isDefined() ) gSettings.Smbios.BoardVersion = smbiosDictClass.getBoardVersion().value();
if ( smbiosDictClass.getLocationInChassis().isDefined() ) gSettings.Smbios.LocationInChassis = smbiosDictClass.getLocationInChassis().value();
if ( smbiosDictClass.getChassisManufacturer().isDefined() ) gSettings.Smbios.ChassisManufacturer = smbiosDictClass.getChassisManufacturer().value();
if ( smbiosDictClass.getChassisAssetTag().isDefined() ) gSettings.Smbios.ChassisAssetTag = smbiosDictClass.getChassisAssetTag().value();
if ( smbiosDictClass.getFirmwareFeatures().isDefined() ) gSettings.Smbios.FirmwareFeatures = smbiosDictClass.getFirmwareFeatures().value();
if ( smbiosDictClass.getFirmwareFeaturesMask().isDefined() ) gSettings.Smbios.FirmwareFeaturesMask = smbiosDictClass.getFirmwareFeaturesMask().value();
if ( smbiosDictClass.getPlatformFeature().isDefined() ) gSettings.Smbios.gPlatformFeature = smbiosDictClass.getPlatformFeature().value();
if ( smbiosDictClass.getBoardType().isDefined() ) gSettings.Smbios.BoardType = smbiosDictClass.getBoardType().value();
if ( smbiosDictClass.getChassisType().isDefined() ) gSettings.Smbios.ChassisType = smbiosDictClass.getChassisType().value();
if ( smbiosDictClass.getMobile().isDefined() ) gSettings.Smbios.Mobile = smbiosDictClass.getMobile().value();
}
void ConfigManager::applySettings() const
{
// comes from GetDefaultSettings()
{
if ( !configPlist.Graphics.Inject.isInjectIntelDefined() )
{
gSettings.Graphics.InjectAsDict.InjectIntel =
(gConf.GfxPropertiesArray.size() > 0 && gConf.GfxPropertiesArray[0].Vendor == Intel) ||
(gConf.GfxPropertiesArray.size() > 1 && gConf.GfxPropertiesArray[1].Vendor == Intel);
}
if ( !configPlist.Graphics.Inject.isInjectATIDefined() )
{
gSettings.Graphics.InjectAsDict.InjectATI =
(gConf.GfxPropertiesArray.size() > 0 && gConf.GfxPropertiesArray[0].Vendor == Ati && (gConf.GfxPropertiesArray[0].DeviceID & 0xF000) != 0x6000 ) ||
(gConf.GfxPropertiesArray.size() > 1 && gConf.GfxPropertiesArray[1].Vendor == Ati && (gConf.GfxPropertiesArray[1].DeviceID & 0xF000) != 0x6000 );
}
if ( !configPlist.Graphics.Inject.isInjectNVidiaDefined() )
{
gSettings.Graphics.InjectAsDict.InjectNVidia =
( gConf.GfxPropertiesArray.isCardAtPosNvidia(0) && gConf.GfxPropertiesArray[0].Family < 0xE0) ||
( gConf.GfxPropertiesArray.isCardAtPosNvidia(1) && gConf.GfxPropertiesArray[1].Family < 0xE0);
}
if ( configPlist.RtVariables.dgetBooterCfgStr().isEmpty() )
{
CHAR8* OldCfgStr = (CHAR8*)GetNvramVariable(L"bootercfg", &gEfiAppleBootGuid, NULL, NULL);
if ( OldCfgStr )
{
gSettings.RtVariables.BooterCfgStr.takeValueFrom(OldCfgStr);
FreePool(OldCfgStr);
}
}
}
// comes from GetDefaultCpuSettings(SETTINGS_DATA& gSettings)
{
if ( gCPUStructure.Model >= CPU_MODEL_IVY_BRIDGE )
{
if ( !configPlist.ACPI.SSDT.Generate.getGeneratePStates().isDefined() )
gSettings.ACPI.SSDT.Generate.GeneratePStates = TRUE;
if ( !configPlist.ACPI.SSDT.Generate.getGenerateCStates().isDefined() )
gSettings.ACPI.SSDT.Generate.GenerateCStates = TRUE;
// backward compatibility, APFS, APLF, PluginType follow PStates
if ( !configPlist.ACPI.SSDT.Generate.getGenerateAPSN().isDefined() )
gSettings.ACPI.SSDT.Generate.GenerateAPSN = gSettings.ACPI.SSDT.Generate.GeneratePStates;
if ( !configPlist.ACPI.SSDT.Generate.getGenerateAPLF().isDefined() )
gSettings.ACPI.SSDT.Generate.GenerateAPLF = gSettings.ACPI.SSDT.Generate.GeneratePStates;
if ( !configPlist.ACPI.SSDT.Generate.getGeneratePluginType().isDefined() )
gSettings.ACPI.SSDT.Generate.GeneratePluginType = gSettings.ACPI.SSDT.Generate.GeneratePStates;
if ( !configPlist.ACPI.SSDT.getEnableC6().isDefined() )
gSettings.ACPI.SSDT._EnableC6 = TRUE;
if ( !configPlist.ACPI.SSDT.getPluginType().isDefined() )
gSettings.ACPI.SSDT.PluginType = 1;
if ( gCPUStructure.Model == CPU_MODEL_IVY_BRIDGE )
{
if ( !configPlist.ACPI.SSDT.getMinMultiplier().isDefined() )
gSettings.ACPI.SSDT.MinMultiplier = 7;
}
if ( !configPlist.ACPI.SSDT.getC3Latency().isDefined() )
gSettings.ACPI.SSDT._C3Latency = 0x00FA;
}
//gSettings.CPU.Turbo = gCPUStructure.Turbo;
if (configPlist.CPU.dgetSavingMode() != 0xFF) { //means not set
gSettings.CPU.SavingMode = configPlist.CPU.dgetSavingMode();
}
if ( gCPUStructure.Model >= CPU_MODEL_SKYLAKE_D )
{
if ( !configPlist.CPU.getUseARTFreq().isDefined() )
gSettings.CPU.UseARTFreq = true;
}
}
if ( gSettings.Smbios.SmUUID == nullGuidAsString )
{
gSettings.Smbios.SmUUID = getSmUUIDFromSmbios();
}
// comes from main.cpp
{
DBG("Calibrated TSC Frequency = %llu = %lluMHz\n", gCPUStructure.TSCCalibr, DivU64x32(gCPUStructure.TSCCalibr, Mega));
if (gCPUStructure.TSCCalibr > 200000000ULL) { //200MHz
gCPUStructure.TSCFrequency = gCPUStructure.TSCCalibr;
}
// DBG("print error level mask = %x\n", GetDebugPrintErrorLevel() );
gCPUStructure.CPUFrequency = gCPUStructure.TSCFrequency;
gCPUStructure.FSBFrequency = DivU64x32(MultU64x32(gCPUStructure.CPUFrequency, 10),
(gCPUStructure.MaxRatio == 0) ? 1 : gCPUStructure.MaxRatio);
gCPUStructure.MaxSpeed = (UINT32)DivU64x32(gCPUStructure.TSCFrequency + (Mega >> 1), Mega);
switch (gCPUStructure.Model) {
case CPU_MODEL_PENTIUM_M:
case CPU_MODEL_ATOM:// Atom
case CPU_MODEL_DOTHAN:// Pentium M, Dothan, 90nm
case CPU_MODEL_YONAH:// Core Duo/Solo, Pentium M DC
case CPU_MODEL_MEROM:// Core Xeon, Core 2 Duo, 65nm, Mobile
//case CPU_MODEL_CONROE:// Core Xeon, Core 2 Duo, 65nm, Desktop like Merom but not mobile
case CPU_MODEL_CELERON:
case CPU_MODEL_PENRYN:// Core 2 Duo/Extreme, Xeon, 45nm , Mobile
case CPU_MODEL_NEHALEM:// Core i7 LGA1366, Xeon 5500, "Bloomfield", "Gainstown", 45nm
case CPU_MODEL_FIELDS:// Core i7, i5 LGA1156, "Clarksfield", "Lynnfield", "Jasper", 45nm
case CPU_MODEL_DALES:// Core i7, i5, Nehalem
case CPU_MODEL_CLARKDALE:// Core i7, i5, i3 LGA1156, "Westmere", "Clarkdale", , 32nm
case CPU_MODEL_WESTMERE:// Core i7 LGA1366, Six-core, "Westmere", "Gulftown", 32nm
case CPU_MODEL_NEHALEM_EX:// Core i7, Nehalem-Ex Xeon, "Beckton"
case CPU_MODEL_WESTMERE_EX:// Core i7, Nehalem-Ex Xeon, "Eagleton"
gCPUStructure.ExternalClock = (UINT32)DivU64x32(gCPUStructure.FSBFrequency + Kilo - 1, Kilo);
//DBG(" Read TSC ExternalClock: %d MHz\n", (INT32)(DivU64x32(gCPUStructure.ExternalClock, Kilo)));
break;
default:
//DBG(" Read TSC ExternalClock: %d MHz\n", (INT32)(DivU64x32(gCPUStructure.FSBFrequency, Mega)));
// for sandy bridge or newer
// to match ExternalClock 25 MHz like real mac, divide FSBFrequency by 4
gCPUStructure.ExternalClock = ((UINT32)DivU64x32(gCPUStructure.FSBFrequency + Kilo - 1, Kilo) + 3) / 4;
//DBG(" Corrected TSC ExternalClock: %d MHz\n", (INT32)(DivU64x32(gCPUStructure.ExternalClock, Kilo)));
break;
}
if (gSettings.CPU.QEMU) {
// UINT64 Msrflex = 0ULL;
if (!gSettings.CPU.UserChange) {
gSettings.CPU.BusSpeed = 200000;
}
gCPUStructure.MaxRatio = (UINT32)DivU64x32(gCPUStructure.TSCCalibr, gSettings.CPU.BusSpeed * Kilo);
DBG("Set MaxRatio for QEMU: %d\n", gCPUStructure.MaxRatio);
gCPUStructure.MaxRatio *= 10;
gCPUStructure.MinRatio = 60;
gCPUStructure.FSBFrequency = DivU64x32(MultU64x32(gCPUStructure.CPUFrequency, 10),
(gCPUStructure.MaxRatio == 0) ? 1 : gCPUStructure.MaxRatio);
gCPUStructure.ExternalClock = (UINT32)DivU64x32(gCPUStructure.FSBFrequency + Kilo - 1, Kilo);
}
}
// comes from SaveSettings()
{
gMobile = gSettings.Smbios.Mobile;
if ( (gSettings.CPU.BusSpeed != 0) && (gSettings.CPU.BusSpeed > 10 * Kilo) && (gSettings.CPU.BusSpeed < 500 * Kilo) )
{
switch ( gCPUStructure.Model )
{
case CPU_MODEL_PENTIUM_M:
case CPU_MODEL_ATOM: // Atom
case CPU_MODEL_DOTHAN: // Pentium M, Dothan, 90nm
case CPU_MODEL_YONAH: // Core Duo/Solo, Pentium M DC
case CPU_MODEL_MEROM: // Core Xeon, Core 2 Duo, 65nm, Mobile
//case CPU_MODEL_CONROE:// Core Xeon, Core 2 Duo, 65nm, Desktop like Merom but not mobile
case CPU_MODEL_CELERON:
case CPU_MODEL_PENRYN: // Core 2 Duo/Extreme, Xeon, 45nm , Mobile
case CPU_MODEL_NEHALEM: // Core i7 LGA1366, Xeon 5500, "Bloomfield", "Gainstown", 45nm
case CPU_MODEL_FIELDS: // Core i7, i5 LGA1156, "Clarksfield", "Lynnfield", "Jasper", 45nm
case CPU_MODEL_DALES: // Core i7, i5, Nehalem
case CPU_MODEL_CLARKDALE: // Core i7, i5, i3 LGA1156, "Westmere", "Clarkdale", , 32nm
case CPU_MODEL_WESTMERE: // Core i7 LGA1366, Six-core, "Westmere", "Gulftown", 32nm
case CPU_MODEL_NEHALEM_EX: // Core i7, Nehalem-Ex Xeon, "Beckton"
case CPU_MODEL_WESTMERE_EX: // Core i7, Nehalem-Ex Xeon, "Eagleton"
gCPUStructure.ExternalClock = gSettings.CPU.BusSpeed;
//DBG("Read ExternalClock: %d MHz\n", (INT32)(DivU64x32(gCPUStructure.ExternalClock, Kilo)));
break;
default:
//DBG("Read ExternalClock: %d MHz\n", (INT32)(DivU64x32(gSettings.BusSpeed, Kilo)));
// for sandy bridge or newer
// to match ExternalClock 25 MHz like real mac, divide BusSpeed by 4
gCPUStructure.ExternalClock = (gSettings.CPU.BusSpeed + 3) / 4;
//DBG("Corrected ExternalClock: %d MHz\n", (INT32)(DivU64x32(gCPUStructure.ExternalClock, Kilo)));
break;
}
gCPUStructure.FSBFrequency = MultU64x64(gSettings.CPU.BusSpeed, Kilo); //kHz -> Hz
gCPUStructure.MaxSpeed = (UINT32) ((DivU64x32((UINT64) (gSettings.CPU.BusSpeed) * gCPUStructure.MaxRatio, 10000))); //kHz->MHz
}
if ( (gSettings.CPU.CpuFreqMHz > 100) && (gSettings.CPU.CpuFreqMHz < 20000) )
{
gCPUStructure.MaxSpeed = gSettings.CPU.CpuFreqMHz;
}
// to determine the use of Table 132
if ( gSettings.CPU.QPI )
{
GlobalConfig.SetTable132 = TRUE;
//DBG("QPI: use Table 132\n");
} else
{
switch ( gCPUStructure.Model )
{
case CPU_MODEL_NEHALEM: // Core i7 LGA1366, Xeon 5500, "Bloomfield", "Gainstown", 45nm
case CPU_MODEL_WESTMERE: // Core i7 LGA1366, Six-core, "Westmere", "Gulftown", 32nm
case CPU_MODEL_NEHALEM_EX: // Core i7, Nehalem-Ex Xeon, "Beckton"
case CPU_MODEL_WESTMERE_EX: // Core i7, Nehalem-Ex Xeon, "Eagleton"
GlobalConfig.SetTable132 = TRUE;
DBG("QPI: use Table 132\n");
break;
default:
//DBG("QPI: disable Table 132\n");
break;
}
}
gCPUStructure.CPUFrequency = MultU64x64(gCPUStructure.MaxSpeed, Mega);
}
}
EFI_STATUS ConfigManager::LoadConfig(const XStringW& ConfName)
{
DbgHeader("GetUserSettings");
if ( !selfOem.isInitialized() ) {
log_technical_bug("%s : !selfOem.isInitialized()", __PRETTY_FUNCTION__);
}
EFI_STATUS Status = LoadConfigPlist(ConfName);
2021-05-19 14:11:21 +02:00
if ( EFI_ERROR(Status) ) {
DBG("LoadConfigPlist return %s. Config not loaded\n", efiStrError(Status));
return Status;
}
/*Status = */ LoadSMBIOSPlist(L"smbios"_XSW); // we don't need Status. If not loaded correctly, smbiosPlist is !defined and will be ignored by AssignOldNewSettings()
MACHINE_TYPES Model = iMac132;
if ( smbiosPlist.SMBIOS.isDefined() && smbiosPlist.SMBIOS.hasModel()) {
Model = smbiosPlist.SMBIOS.getModel();
} else if ( configPlist.getSMBIOS().hasModel() ) {
Model = configPlist.getSMBIOS().getModel();
} else {
Model = GetDefaultModel();
}
// if ( !EFI_ERROR(Status) ) {
// gSettings.takeValueFrom(configPlist);
// TODO improve this (avoid to delete settings to re-import them !)
// restore default value for SMBIOS (delete values from configPlist)
SetDMISettingsForModel(Model, &gSettings, &GlobalConfig);
// import values from configPlist if they are defined
FillSmbiosWithDefaultValue(Model, configPlist.getSMBIOS());
if ( smbiosPlist.SMBIOS.isDefined() ) {
// import values from smbiosPlist if they are defined
FillSmbiosWithDefaultValue(Model, smbiosPlist.SMBIOS);
}
// }
gSettings.takeValueFrom(configPlist);
applySettings();
return Status;
}
/*
* Fill LanCardArrayNonConst with what is found through UEFI
* LanCardArrayNonConst must be empty before clling, as there is no handling of duplicates (although it would be easy to do !)
*/
void ConfigManager::GetUEFIMacAddress()
{
EFI_STATUS Status;
if ( LanCardArrayNonConst.notEmpty() ) {
log_technical_bug("LanCardArrayNonConst.notEmpty()"); // this function "could" be called if LanCardArrayNonConst is not empty, because it just add into the array. But that ends up in duplicates.
// Other possibility is to call setEmpty(), but that'll hide a technical bug.
}
//
// Locate Service Binding handles.
//
UINTN NumberOfHandles = 0;
EFI_HANDLE* HandleBuffer = NULL;
Status = gBS->LocateHandleBuffer (
ByProtocol,
&gEfiDevicePathProtocolGuid,
NULL,
&NumberOfHandles,
&HandleBuffer
);
if (EFI_ERROR(Status)) {
return;
}
DbgHeader("GetUEFIMacAddress");
for (size_t Index = 0; Index < NumberOfHandles; Index++) {
EFI_DEVICE_PATH_PROTOCOL* Node = NULL;
Status = gBS->HandleProtocol (
HandleBuffer[Index],
&gEfiDevicePathProtocolGuid,
(void **) &Node
);
if (EFI_ERROR(Status)) {
continue;
}
EFI_DEVICE_PATH_PROTOCOL* DevicePath = (EFI_DEVICE_PATH_PROTOCOL *) Node;
while (!IsDevicePathEnd (DevicePath)) {
if ((DevicePathType (DevicePath) == MESSAGING_DEVICE_PATH) &&
(DevicePathSubType (DevicePath) == MSG_MAC_ADDR_DP)) {
//
// Get MAC address.
//
MAC_ADDR_DEVICE_PATH* MacAddressNode = (MAC_ADDR_DEVICE_PATH*)DevicePath;
if ( !LanCardArrayNonConst.containsMacAddress(&MacAddressNode->MacAddress.Addr[0]) ) {
LanCardClass* lanPath = new LanCardClass;
CopyMem(&lanPath->MacAddress, &MacAddressNode->MacAddress.Addr[0], sizeof(lanPath->MacAddress));
DBG("UEFI MAC address of %ls LAN #%zu= ", DevicePathToXStringW(DevicePath).wc_str(), LanCardArrayNonConst.size());
for (size_t Index2 = 0; Index2 < sizeof(lanPath->MacAddress); Index2++) {
DBG("%02hhX:", lanPath->MacAddress[Index2]);
}
DBG("\n");
LanCardArrayNonConst.AddReference(lanPath, true);
}
}
DevicePath = NextDevicePathNode (DevicePath);
}
}
if (HandleBuffer != NULL) {
FreePool(HandleBuffer);
}
}
EFI_STATUS ConfigManager::ReLoadConfig(const XStringW& ConfName)
{
/* I'm pretty sure, one day, there will be other things to do than just LoadConfig */
return LoadConfig(ConfName);
}
EFI_STATUS ConfigManager::InitialisePlatform()
{
EFI_STATUS Status;
PrepatchSmbios(&g_SmbiosDiscoveredSettings);
GlobalConfig.OEMBoardFromSmbios = g_SmbiosDiscoveredSettings.OEMBoardFromSmbios;
GlobalConfig.OEMProductFromSmbios = g_SmbiosDiscoveredSettings.OEMProductFromSmbios;
GlobalConfig.OEMVendorFromSmbios = g_SmbiosDiscoveredSettings.OEMVendorFromSmbios;
//replace / with _
GlobalConfig.OEMProductFromSmbios.replaceAll(U'/', U'_');
GlobalConfig.OEMBoardFromSmbios.replaceAll(U'/', U'_');
DBG("Running on: '%s' with board '%s'\n", GlobalConfig.OEMProductFromSmbios.c_str(), GlobalConfig.OEMBoardFromSmbios.c_str());
gCPUStructure.ExternalClock = g_SmbiosDiscoveredSettings.ExternalClock;
gCPUStructure.CurrentSpeed = g_SmbiosDiscoveredSettings.CurrentSpeed;
gCPUStructure.MaxSpeed = g_SmbiosDiscoveredSettings.MaxSpeed;
GetCPUProperties();
DiscoverDevices();
// GetMacAddress(&gConf.LanCardArrayNonConst);
//SavingMode
if ( g_SmbiosDiscoveredSettings.EnabledCores ) {
GlobalConfig.EnabledCores = g_SmbiosDiscoveredSettings.EnabledCores;
}else{
GlobalConfig.EnabledCores = gCPUStructure.Cores;
}
selfOem.initialize("config"_XS8, gFirmwareClover, GlobalConfig.OEMBoardFromSmbios, GlobalConfig.OEMProductFromSmbios, (INT32)(DivU64x32(gCPUStructure.CPUFrequency, Mega)), gConf.LanCardArray);
Status = gConf.LoadConfig(L"config"_XSW);
for ( size_t idx = 0 ; idx < GfxPropertiesArrayNonConst.size() ; ++idx ) {
GfxPropertiesArrayNonConst[idx].LoadVBios = gSettings.Graphics.LoadVBios;
}
// /* populate GfxPropertiesArrayNonConst */
// GfxPropertiesArrayNonConst.setEmpty();
// for ( size_t idx = 0 ; idx < m_Discoverer.GfxPropertiesArray.size() ; ++idx ) {
// GfxProperties* gfx = new GfxProperties;
// *gfx = GfxPropertiesArray[idx];
// (*gfx).LoadVBios = gSettings.Graphics.LoadVBios;
// GfxPropertiesArrayNonConst.AddReference(gfx, true);
// }
//
// /* populate HdaPropertiesArrayNonConst */
// HdaPropertiesArrayNonConst.setEmpty();
// for ( size_t idx = 0 ; idx < m_Discoverer.HdaPropertiesArray.size() ; ++idx ) {
// HdaProperties* hda = new HdaProperties;
// *hda = HdaPropertiesArray[idx];
// HdaPropertiesArrayNonConst.AddReference(hda, true);
// }
//
// /* populate LanCardArrayNonConst */
// LanCardArrayNonConst.setEmpty();
// GetUEFIMacAddress();
//// if ( LanCardArrayNonConst.size() == 0 /*&& gSettings.RtVariables.GetLegacyLanAddress()*/ ) {
// for ( size_t idx = 0 ; idx < m_Discoverer.LanCardArray.size() ; ++idx ) {
// if ( !LanCardArrayNonConst.containsMacAddress(m_Discoverer.LanCardArray[idx].Mac)) {
// LanCardClass* lan = new LanCardClass;
// memcpy(&lan->MacAddress, m_Discoverer.LanCardArray[idx].Mac, sizeof(lan->MacAddress));
// LanCardArrayNonConst.AddReference(lan, true);
// }
// }
//// }
2021-05-08 15:24:10 +02:00
// // Why this overrides ? Should we remove the setting from config.plist ?
// gSettings.GUI.Mouse.PointerEnabled = TRUE;
// gSettings.GUI.Mouse.PointerSpeed = 2;
// gSettings.GUI.Mouse.DoubleClickTime = 500; //TODO - make it constant as nobody change it
if (gSettings.Devices.Audio.ResetHDA) ResetHDA();
#ifdef ENABLE_SECURE_BOOT
InitializeSecureBoot();
#endif // ENABLE_SECURE_BOOT
return Status;
}
ConfigManager gConf;