CloverBootloader/rEFIt_UEFI/refit/main.cpp
Slice fa55f15b4f fix trust smbios
Signed-off-by: Slice <sergey.slice@gmail.com>
2024-01-12 22:14:09 +03:00

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/*
* refit/main.c
* Main code for the boot menu
*
* Copyright (c) 2006-2010 Christoph Pfisterer
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the
* distribution.
*
* * Neither the name of Christoph Pfisterer nor the names of the
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <Platform.h> // Only use angled for Platform, else, xcode project won't compile
#include <cpp_util/globals_ctor.h>
#include <cpp_util/globals_dtor.h>
#include "../cpp_foundation/XString.h"
#include "../cpp_lib/MemoryTracker.h"
#include "../cpp_unit_test/all_tests.h"
#include "../entry_scan/entry_scan.h"
#include "../libeg/nanosvg.h"
#include "../gui/menu_items/menu_globals.h"
#include "menu.h"
#include "../Platform/Utils.h"
#include "../Platform/Settings.h"
#include "../Platform/DataHubCpu.h"
#include "../Platform/Events.h"
#include "screen.h"
#include "../entry_scan/bootscreen.h"
#include "../Platform/Nvram.h"
#include "../entry_scan/common.h"
#include "../gui/shared_with_menu.h"
#include "../Platform/platformdata.h"
#include "../Platform/guid.h"
#include "../Platform/APFS.h"
#include "../Platform/cpu.h"
#include "../Platform/smbios.h"
#include "../Platform/AcpiPatcher.h"
#include "../Platform/Hibernate.h"
#include "../Platform/LegacyBoot.h"
#include "../Platform/PlatformDriverOverride.h"
#include "../Platform/Edid.h"
#include "../Platform/Console.h"
#include "../Platform/spd.h"
#include "../Platform/Injectors.h"
#include "../Platform/StartupSound.h"
#include "../Platform/BootOptions.h"
#include "../Platform/boot.h"
#include "../Platform/kext_inject.h"
#include "../Platform/device_inject.h"
#include "../Platform/KextList.h"
#include "../gui/REFIT_MENU_SCREEN.h"
#include "../gui/REFIT_MAINMENU_SCREEN.h"
#include "../Settings/Self.h"
#include "../Settings/SelfOem.h"
#include "../Platform/BasicIO.h"
#include "../include/OSTypes.h"
#include "../include/OSFlags.h"
#include "../libeg/XTheme.h"
#include "../Settings/ConfigManager.h"
#include "../Platform/CloverVersion.h"
#include "../Platform/SmbiosFillPatchingValues.h"
#include "../include/OC.h"
#ifndef DEBUG_ALL
# ifdef DEBUG_ERALY_CRASH
# define DEBUG_MAIN 2
# else
# define DEBUG_MAIN 1
# endif
#else
# define DEBUG_MAIN DEBUG_ALL
#endif
#if DEBUG_MAIN == 0
#define DBG(...)
#else
#define DBG(...) DebugLog(DEBUG_MAIN, __VA_ARGS__)
#endif
#ifndef HIBERNATE
#define HIBERNATE 0
#endif
#ifndef CHECK_SMC
#define CHECK_SMC 0
#endif
#define PCAT_RTC_ADDRESS_REGISTER 0x70
#define PCAT_RTC_DATA_REGISTER 0x71
// variables
EFI_PHYSICAL_ADDRESS SomePages = EFI_SYSTEM_TABLE_MAX_ADDRESS; //0xFE000000;?
XBool gGuiIsReady = false;
XBool gThemeNeedInit = true;
XBool DoHibernateWake = false;
UINT32 mCurrentColor;
extern UINT32 gFakeCPUID;
EFI_HANDLE AudioDriverHandle;
XStringW OpenRuntimeEfiName;
extern void HelpRefit(void);
extern void AboutRefit(void);
extern EFI_AUDIO_IO_PROTOCOL *AudioIo;
extern EFI_DXE_SERVICES *gDS;
EFI_PHYSICAL_ADDRESS ExtraSpace = EFI_SYSTEM_TABLE_MAX_ADDRESS;
void PrintMemoryMap()
{
apd<EFI_MEMORY_DESCRIPTOR*> MemMap;
UINTN MemMapSize;
UINTN MapKey, DescriptorSize;
UINT32 DescriptorVersion;
EFI_STATUS Status;
MemMapSize = 0;
DescriptorSize = 0;
Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);
if (Status != EFI_BUFFER_TOO_SMALL) {
DBG("PrintMemoryMap: GetMemStatus=%s not EFI_BUFFER_TOO_SMALL\n", efiStrError(Status));
return;
}
MemMapSize += EFI_PAGE_SIZE;
MemMap = (EFI_MEMORY_DESCRIPTOR*)AllocatePool(MemMapSize);
Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);
if ( EFI_ERROR(Status) ) {
DBG("PrintMemoryMap: GetMemoryMap failed=%s\n", efiStrError(Status));
return;
}
#ifndef JIEF_DEBUG
EFI_MEMORY_DESCRIPTOR* MemMapPtr = MemMap;
for (UINTN Index = 0; Index < MemMapSize / DescriptorSize; Index ++) {
UINT64 Bytes = LShiftU64 (MemMapPtr->NumberOfPages, 12);
DEBUG ((EFI_D_ERROR, "%llX-%llX %llX %llX %X\n",
MemMapPtr->PhysicalStart,
MemMapPtr->PhysicalStart + Bytes - 1,
MemMapPtr->NumberOfPages,
MemMapPtr->Attribute,
MemMapPtr->Type));
MemMapPtr = (EFI_MEMORY_DESCRIPTOR *)((UINTN)MemMapPtr + DescriptorSize);
}
#else
OcPrintMemoryMap(MemMapSize, MemMap, DescriptorSize);
#endif
}
void AllocSmallBlocks(UINTN NumberOfPagesMax)
{
EFI_MEMORY_DESCRIPTOR *MemMap;
UINTN MemMapSize;
UINTN MapKey, DescriptorSize;
UINT32 DescriptorVersion;
EFI_STATUS Status;
MemMapSize = 0;
MemMap = NULL;
DescriptorSize = 0;
Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);
if (Status != EFI_BUFFER_TOO_SMALL) {
DBG("PrintMemoryMap: GetMemStatus=%s not EFI_BUFFER_TOO_SMALL\n", efiStrError(Status));
return;
}
MemMapSize += EFI_PAGE_SIZE;
MemMap = (EFI_MEMORY_DESCRIPTOR*)AllocatePool(MemMapSize);
Status = gBS->GetMemoryMap (&MemMapSize, MemMap, &MapKey, &DescriptorSize, &DescriptorVersion);
if ( EFI_ERROR(Status) ) {
DBG("PrintMemoryMap: GetMemoryMap failed=%s\n", efiStrError(Status));
return;
}
for (
EFI_MEMORY_DESCRIPTOR* EntryWalker = MemMap;
(UINT8 *)EntryWalker < ((UINT8 *)MemMap + MemMapSize);
EntryWalker = NEXT_MEMORY_DESCRIPTOR (EntryWalker, DescriptorSize))
{
if (EntryWalker->Type != EfiConventionalMemory) {
continue;
}
if ( (UINTN)EntryWalker->NumberOfPages < NumberOfPagesMax )
{
gBS->AllocatePages(AllocateAddress, EfiBootServicesData, EntryWalker->NumberOfPages, &EntryWalker->PhysicalStart);
}
}
FreePool(MemMap);
}
void AllocSmallBlocks()
{
CONST EFI_MEMORY_ATTRIBUTES_TABLE *MemoryAttributesTable;
//PrintMemoryMap();
UINTN size = 64;
UINTN nb = 0;
AllocSmallBlocks(size); // 252KB
MemoryAttributesTable = OcGetMemoryAttributes (NULL);
nb = MemoryAttributesTable->NumberOfEntries;
//PrintMemoryMap();
while ( size <= 2048 && nb > 100 ) { // XNU seems to handle max 128 entries. So let's shrink a little bit under 128
size *= 2;
AllocSmallBlocks(size);
MemoryAttributesTable = OcGetMemoryAttributes (NULL);
nb = MemoryAttributesTable->NumberOfEntries;
//PrintMemoryMap();
}
if ( size > 2048 ) {
DBG("Cannot shrink memory map enough. Nb entries = %lld\n", nb);
}
}
OC_GLOBAL_CONFIG
mOpenCoreConfiguration;
OC_STORAGE_CONTEXT
mOpenCoreStorage;
OC_CPU_INFO
mOpenCoreCpuInfo;
UINT8
mOpenCoreBooterHash[SHA1_DIGEST_SIZE];
OC_RSA_PUBLIC_KEY *
mOpenCoreVaultKey;
OC_PRIVILEGE_CONTEXT
mOpenCorePrivilege;
EFI_HANDLE
mStorageHandle;
EFI_DEVICE_PATH_PROTOCOL *
mStoragePath;
CHAR16 *
mStorageRoot;
VOID
OcMain (
IN OC_STORAGE_CONTEXT *Storage,
IN EFI_DEVICE_PATH_PROTOCOL *LoadPath
)
{
EFI_STATUS Status;
// OC_PRIVILEGE_CONTEXT *Privilege;
DEBUG ((DEBUG_INFO, "OC: OcMiscEarlyInit...\n"));
Status = OcMiscEarlyInit (
Storage,
&mOpenCoreConfiguration,
mOpenCoreVaultKey
);
if (EFI_ERROR (Status)) {
return;
}
// OcCpuScanProcessor (&mOpenCoreCpuInfo);
// DEBUG ((DEBUG_INFO, "OC: OcLoadNvramSupport...\n"));
// OcLoadNvramSupport (Storage, &mOpenCoreConfiguration);
DEBUG ((DEBUG_INFO, "OC: OcMiscMiddleInit...\n"));
OcMiscMiddleInit (
Storage,
&mOpenCoreConfiguration,
mStorageRoot,
LoadPath,
mStorageHandle,
mOpenCoreConfiguration.Booter.Quirks.ForceBooterSignature ? mOpenCoreBooterHash : NULL
);
DEBUG ((DEBUG_INFO, "OC: OcLoadUefiSupport...\n"));
OcLoadUefiSupport (Storage, &mOpenCoreConfiguration, &mOpenCoreCpuInfo, mOpenCoreBooterHash);
// DEBUG_CODE_BEGIN ();
// DEBUG ((DEBUG_INFO, "OC: OcMiscLoadSystemReport...\n"));
// OcMiscLoadSystemReport (&mOpenCoreConfiguration, mStorageHandle);
// DEBUG_CODE_END ();
// DEBUG ((DEBUG_INFO, "OC: OcLoadAcpiSupport...\n"));
// OcLoadAcpiSupport (&mOpenCoreStorage, &mOpenCoreConfiguration);
// DEBUG ((DEBUG_INFO, "OC: OcLoadPlatformSupport...\n"));
// OcLoadPlatformSupport (&mOpenCoreConfiguration, &mOpenCoreCpuInfo);
// DEBUG ((DEBUG_INFO, "OC: OcLoadDevPropsSupport...\n"));
// OcLoadDevPropsSupport (&mOpenCoreConfiguration);
DEBUG ((DEBUG_INFO, "OC: OcMiscLateInit...\n"));
OcMiscLateInit (Storage, &mOpenCoreConfiguration);
DEBUG ((DEBUG_INFO, "OC: OcLoadKernelSupport...\n"));
OcLoadKernelSupport (&mOpenCoreStorage, &mOpenCoreConfiguration, &mOpenCoreCpuInfo);
if (mOpenCoreConfiguration.Misc.Security.EnablePassword) {
mOpenCorePrivilege.CurrentLevel = OcPrivilegeUnauthorized;
mOpenCorePrivilege.Hash = mOpenCoreConfiguration.Misc.Security.PasswordHash;
mOpenCorePrivilege.Salt = OC_BLOB_GET (&mOpenCoreConfiguration.Misc.Security.PasswordSalt);
mOpenCorePrivilege.SaltSize = mOpenCoreConfiguration.Misc.Security.PasswordSalt.Size;
// Privilege = &mOpenCorePrivilege;
} else {
// Privilege = NULL;
}
DEBUG ((DEBUG_INFO, "OC: All green, starting boot management...\n"));
// OcMiscBoot (
// &mOpenCoreStorage,
// &mOpenCoreConfiguration,
// Privilege,
// OcStartImage,
// mOpenCoreConfiguration.Uefi.Quirks.RequestBootVarRouting,
// mStorageHandle
// );
}
static EFI_STATUS LoadEFIImageList(IN EFI_DEVICE_PATH **DevicePaths,
IN CONST XStringW& ImageTitle,
OUT UINTN *ErrorInStep,
OUT EFI_HANDLE *NewImageHandle)
{
EFI_STATUS Status, ReturnStatus;
EFI_HANDLE ChildImageHandle = 0;
UINTN DevicePathIndex;
DBG("Loading %ls", ImageTitle.wc_str());
if (ErrorInStep != NULL) {
*ErrorInStep = 0;
}
if (NewImageHandle != NULL) {
*NewImageHandle = NULL;
}
// load the image into memory
ReturnStatus = Status = EFI_NOT_FOUND; // in case the list is empty
for (DevicePathIndex = 0; DevicePaths[DevicePathIndex] != NULL; DevicePathIndex++) {
ReturnStatus = Status = gBS->LoadImage(false, self.getSelfImageHandle(), DevicePaths[DevicePathIndex], NULL, 0, &ChildImageHandle);
DBG(" status=%s", efiStrError(Status));
if (ReturnStatus != EFI_NOT_FOUND)
break;
}
XStringW ErrorInfo = SWPrintf(" while loading %ls", ImageTitle.wc_str());
if (CheckError(Status, ErrorInfo.wc_str())) {
if (ErrorInStep != NULL)
*ErrorInStep = 1;
PauseForKey(NullXString8);
goto bailout;
}else{
DBG("\n");
#ifdef JIEF_DEBUG
DBG("ChildImaheHandle=%llx\n", uintptr_t(ChildImageHandle));
#endif
}
if (!EFI_ERROR(ReturnStatus)) { //why unload driver?!
if (NewImageHandle != NULL) {
*NewImageHandle = ChildImageHandle;
}
#ifdef JIEF_DEBUG
EFI_LOADED_IMAGE_PROTOCOL* loadedBootImage = NULL;
if (!EFI_ERROR(Status = gBS->HandleProtocol(ChildImageHandle, &gEfiLoadedImageProtocolGuid, (void**)(&loadedBootImage)))) {
DBG("%ls : Image base = 0x%llx\n", ImageTitle.wc_str(), (uintptr_t)loadedBootImage->ImageBase); // Jief : Do not change this, it's used by grep to feed the debugger
}else{
DBG("Can't get loaded image protocol\n");
}
#endif
goto bailout;
}
// unload the image, we don't care if it works or not...
Status = gBS->UnloadImage(ChildImageHandle);
bailout:
return ReturnStatus;
}
static EFI_STATUS StartEFILoadedImage(IN EFI_HANDLE ChildImageHandle,
IN CONST XString8Array& LoadOptions, IN CONST XStringW& LoadOptionsPrefix,
IN CONST XStringW& ImageTitle,
OUT UINTN *ErrorInStep)
{
EFI_STATUS Status, ReturnStatus;
EFI_LOADED_IMAGE_PROTOCOL *ChildLoadedImage;
CHAR16 ErrorInfo[256];
XStringW loadOptionsW; // This has to be declared here, so it's not be freed before calling StartImage
// DBG("Starting %ls\n", ImageTitle);
if (ErrorInStep != NULL) {
*ErrorInStep = 0;
}
ReturnStatus = Status = EFI_NOT_FOUND; // in case no image handle was specified
if (ChildImageHandle == NULL) {
if (ErrorInStep != NULL) *ErrorInStep = 1;
goto bailout;
}
// set load options
if (!LoadOptions.isEmpty()) {
ReturnStatus = Status = gBS->HandleProtocol(ChildImageHandle, &gEfiLoadedImageProtocolGuid, (void **) &ChildLoadedImage);
if (CheckError(Status, L"while getting a LoadedImageProtocol handle")) {
if (ErrorInStep != NULL)
*ErrorInStep = 2;
goto bailout_unload;
}
if ( LoadOptionsPrefix.notEmpty() ) {
// NOTE: That last space is also added by the EFI shell and seems to be significant
// when passing options to Apple's boot.efi...
loadOptionsW = SWPrintf("%ls %s ", LoadOptionsPrefix.wc_str(), LoadOptions.ConcatAll(" "_XS8).c_str());
}else{
loadOptionsW = SWPrintf("%s ", LoadOptions.ConcatAll(" "_XS8).c_str()); // Jief : should we add a space ? Wasn't the case before big refactoring. Yes, a space required.
}
// NOTE: We also include the terminating null in the length for safety.
ChildLoadedImage->LoadOptionsSize = (UINT32)loadOptionsW.sizeInBytes() + sizeof(wchar_t);
ChildLoadedImage->LoadOptions = loadOptionsW.wc_str(); //will it be deleted after the procedure exit? Yes, if we don't copy loadOptionsW, so it'll be freed at the end of method
DBG("start image '%ls'\n", ImageTitle.s());
DBG("Using load options '%ls'\n", (CHAR16*)ChildLoadedImage->LoadOptions);
}
// close open file handles
UninitRefitLib();
// turn control over to the image
//
// Before calling the image, enable the Watchdog Timer for
// the 5 Minute period - Slice - NO! For slow driver and slow disk we need more
//
gBS->SetWatchdogTimer (600, 0x0000, 0x00, NULL);
ReturnStatus = Status = gBS->StartImage(ChildImageHandle, NULL, NULL);
//
// Clear the Watchdog Timer after the image returns
//
gBS->SetWatchdogTimer (0x0000, 0x0000, 0x0000, NULL);
ReinitRefitLib();
// control returns here when the child image calls Exit()
if (ImageTitle.notEmpty()) {
snwprintf(ErrorInfo, 512, "returned from %ls", ImageTitle.s());
}
if (CheckError(Status, ErrorInfo)) {
if (ErrorInStep != NULL)
*ErrorInStep = 3;
}
if (!EFI_ERROR(ReturnStatus)) { //why unload driver?!
goto bailout;
}
bailout_unload:
// unload the image, we don't care if it works or not...
Status = gBS->UnloadImage(ChildImageHandle);
bailout:
return ReturnStatus;
}
static EFI_STATUS LoadEFIImage(IN EFI_DEVICE_PATH *DevicePath,
IN CONST XStringW& ImageTitle,
OUT UINTN *ErrorInStep,
OUT EFI_HANDLE *NewImageHandle)
{
EFI_DEVICE_PATH *DevicePaths[2];
#ifdef ENABLE_SECURE_BOOT
// Verify secure boot policy
if (GlobalConfig.SecureBoot && GlobalConfig.SecureBootSetupMode) {
// Only verify if in forced secure boot mode
EFI_STATUS Status = VerifySecureBootImage(DevicePath);
if (EFI_ERROR(Status)) {
return Status;
}
}
#endif // ENABLE_SECURE_BOOT
// Load the image now
DevicePaths[0] = DevicePath;
DevicePaths[1] = NULL;
return LoadEFIImageList(DevicePaths, ImageTitle, ErrorInStep, NewImageHandle);
}
static EFI_STATUS StartEFIImage(IN EFI_DEVICE_PATH *DevicePath,
IN CONST XString8Array& LoadOptions, IN CONST XStringW& LoadOptionsPrefix,
IN CONST XStringW& ImageTitle,
OUT UINTN *ErrorInStep,
OUT EFI_HANDLE *NewImageHandle)
{
EFI_STATUS Status;
EFI_HANDLE ChildImageHandle = NULL;
Status = LoadEFIImage(DevicePath, ImageTitle, ErrorInStep, &ChildImageHandle);
if (!EFI_ERROR(Status)) {
Status = StartEFILoadedImage(ChildImageHandle, LoadOptions, LoadOptionsPrefix, ImageTitle, ErrorInStep);
}
if (NewImageHandle != NULL) {
*NewImageHandle = ChildImageHandle;
}
return Status;
}
#ifdef DUMP_KERNEL_KEXT_PATCHES
void DumpKernelAndKextPatches(KERNEL_AND_KEXT_PATCHES *Patches)
{
if (!Patches) {
DBG("Kernel and Kext Patches null pointer\n");
return;
}
DBG("Kernel and Kext Patches at %llx:\n", (uintptr_t)Patches);
DBG("\tAllowed: %c\n", GlobalConfig.KextPatchesAllowed ? 'y' : 'n');
DBG("\tDebug: %c\n", Patches->KPDebug ? 'y' : 'n');
// DBG("\tKernelCpu: %c\n", Patches->KPKernelCpu ? 'y' : 'n');
DBG("\tKernelLapic: %c\n", Patches->KPKernelLapic ? 'y' : 'n');
DBG("\tKernelXCPM: %c\n", Patches->KPKernelXCPM ? 'y' : 'n');
DBG("\tKernelPm: %c\n", Patches->KPKernelPm ? 'y' : 'n');
DBG("\tAppleIntelCPUPM: %c\n", Patches->KPAppleIntelCPUPM ? 'y' : 'n');
DBG("\tAppleRTC: %c\n", Patches->KPAppleRTC ? 'y' : 'n');
// Dell smbios truncate fix
DBG("\tDellSMBIOSPatch: %c\n", Patches->KPDELLSMBIOS ? 'y' : 'n');
DBG("\tFakeCPUID: 0x%X\n", Patches->FakeCPUID);
DBG("\tATIController: %s\n", Patches->KPATIConnectorsController.isEmpty() ? "(null)": Patches->KPATIConnectorsController.c_str());
DBG("\tATIDataLength: %zu\n", Patches->KPATIConnectorsData.size());
DBG("\t%zu Kexts to load\n", Patches->ForceKextsToLoad.size());
if (Patches->ForceKextsToLoad.size()) {
size_t i = 0;
for (; i < Patches->ForceKextsToLoad.size(); ++i) {
DBG("\t KextToLoad[%zu]: %ls\n", i, Patches->ForceKextsToLoad[i].wc_str());
}
}
DBG("\t%zu Kexts to patch\n", Patches->KextPatches.size());
if (Patches->KextPatches.size()) {
size_t i = 0;
for (; i < Patches->KextPatches.size(); ++i) {
if (Patches->KextPatches[i].IsPlistPatch) {
DBG("\t KextPatchPlist[%zu]: %zu bytes, %s\n", i, Patches->KextPatches[i].Data.size(), Patches->KextPatches[i].Name.c_str());
} else {
DBG("\t KextPatch[%zu]: %zu bytes, %s\n", i, Patches->KextPatches[i].Data.size(), Patches->KextPatches[i].Name.c_str());
}
}
}
}
#endif
void LOADER_ENTRY::FilterKextPatches()
{
if ( GlobalConfig.KextPatchesAllowed && KernelAndKextPatches.KextPatches.size() > 0 ) {
DBG("Filtering KextPatches:\n");
for (size_t i = 0; i < KernelAndKextPatches.KextPatches.size(); i++) {
DBG(" - [%02zu]: %s :: %s :: [OS: %s | MatchOS: %s | MatchBuild: %s]",
i,
KernelAndKextPatches.KextPatches[i].Label.c_str(),
KernelAndKextPatches.KextPatches[i].IsPlistPatch ? "PlistPatch" : "BinPatch",
macOSVersion.asString().c_str(),
KernelAndKextPatches.KextPatches[i].MatchOS.notEmpty() ? KernelAndKextPatches.KextPatches[i].MatchOS.c_str() : "All",
KernelAndKextPatches.KextPatches[i].MatchBuild.notEmpty() ? KernelAndKextPatches.KextPatches[i].MatchBuild.c_str() : "All"
);
if (!gSettings.KernelAndKextPatches.KextPatches[i].MenuItem.BValue) {
KernelAndKextPatches.KextPatches[i].MenuItem.BValue = false;
DBG(" ==> disabled by user\n");
continue;
}
KernelAndKextPatches.KextPatches[i].MenuItem.BValue = true;
if ((BuildVersion.notEmpty()) && (KernelAndKextPatches.KextPatches[i].MatchBuild.notEmpty())) {
KernelAndKextPatches.KextPatches[i].MenuItem.BValue = KernelAndKextPatches.KextPatches[i].IsPatchEnabledByBuildNumber(BuildVersion);
DBG(" ==> %s\n", KernelAndKextPatches.KextPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
continue;
}
KernelAndKextPatches.KextPatches[i].MenuItem.BValue = KernelAndKextPatches.KextPatches[i].IsPatchEnabled(macOSVersion);
DBG(" ==> %s\n", KernelAndKextPatches.KextPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
}
}
}
void LOADER_ENTRY::FilterKernelPatches()
{
if ( GlobalConfig.KernelPatchesAllowed && KernelAndKextPatches.KernelPatches.notEmpty() ) {
DBG("Filtering KernelPatches:\n");
for (size_t i = 0; i < KernelAndKextPatches.KernelPatches.size(); ++i) {
DBG(" - [%02zu]: %s :: [OS: %s | MatchOS: %s | MatchBuild: %s]",
i,
KernelAndKextPatches.KernelPatches[i].Label.c_str(),
macOSVersion.asString().c_str(),
KernelAndKextPatches.KernelPatches[i].MatchOS.notEmpty() ? KernelAndKextPatches.KernelPatches[i].MatchOS.c_str() : "All",
KernelAndKextPatches.KernelPatches[i].MatchBuild.notEmpty() ? KernelAndKextPatches.KernelPatches[i].MatchBuild.c_str() : "All"
);
if (!gSettings.KernelAndKextPatches.KernelPatches[i].MenuItem.BValue) {
KernelAndKextPatches.KernelPatches[i].MenuItem.BValue = false;
DBG(" ==> disabled by user\n");
continue;
}
KernelAndKextPatches.KernelPatches[i].MenuItem.BValue = true;
if ((BuildVersion.notEmpty()) && (KernelAndKextPatches.KernelPatches[i].MatchBuild.notEmpty())) {
KernelAndKextPatches.KernelPatches[i].MenuItem.BValue = KernelAndKextPatches.KernelPatches[i].IsPatchEnabledByBuildNumber(BuildVersion);
DBG(" ==> %s by build\n", KernelAndKextPatches.KernelPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
continue;
}
KernelAndKextPatches.KernelPatches[i].MenuItem.BValue = KernelAndKextPatches.KernelPatches[i].IsPatchEnabled(macOSVersion);
DBG(" ==> %s by OS\n", KernelAndKextPatches.KernelPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
}
}
}
void LOADER_ENTRY::FilterBootPatches()
{
if ( KernelAndKextPatches.BootPatches.notEmpty() ) {
DBG("Filtering BootPatches:\n");
for (size_t i = 0; i < KernelAndKextPatches.BootPatches.size(); ++i) {
DBG(" - [%02zu]: %s :: [OS: %s | MatchOS: %s | MatchBuild: %s]",
i,
KernelAndKextPatches.BootPatches[i].Label.c_str(),
macOSVersion.asString().c_str(),
KernelAndKextPatches.BootPatches[i].MatchOS.notEmpty() ? KernelAndKextPatches.BootPatches[i].MatchOS.c_str() : "All",
KernelAndKextPatches.BootPatches[i].MatchBuild.notEmpty() ? KernelAndKextPatches.BootPatches[i].MatchBuild.c_str() : "All"
);
if (!gSettings.KernelAndKextPatches.BootPatches[i].MenuItem.BValue) {
DBG(" ==> disabled by user\n");
continue;
}
KernelAndKextPatches.BootPatches[i].MenuItem.BValue = true;
if ((BuildVersion.notEmpty()) && (KernelAndKextPatches.BootPatches[i].MatchBuild.notEmpty())) {
KernelAndKextPatches.BootPatches[i].MenuItem.BValue = KernelAndKextPatches.BootPatches[i].IsPatchEnabledByBuildNumber(BuildVersion);
DBG(" ==> %s by build\n", KernelAndKextPatches.BootPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
continue;
}
KernelAndKextPatches.BootPatches[i].MenuItem.BValue = KernelAndKextPatches.BootPatches[i].IsPatchEnabled(macOSVersion);
DBG(" ==> %s by OS\n", KernelAndKextPatches.BootPatches[i].MenuItem.BValue ? "allowed" : "not allowed");
}
}
}
//
// Null ConOut OutputString() implementation - for blocking
// text output from boot.efi when booting in graphics mode
//
EFI_STATUS EFIAPI
NullConOutOutputString(IN EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *, IN CONST CHAR16 *) {
return EFI_SUCCESS;
}
void CheckEmptyFB()
{
XBool EmptyFB = (GlobalConfig.IgPlatform == 0x00050000) ||
(GlobalConfig.IgPlatform == 0x01620007) ||
(GlobalConfig.IgPlatform == 0x04120004) ||
(GlobalConfig.IgPlatform == 0x19120001) ||
(GlobalConfig.IgPlatform == 0x59120003) ||
(GlobalConfig.IgPlatform == 0x9BC80003) ||
(GlobalConfig.IgPlatform == 0x3E910003);
if (EmptyFB) {
gSettings.Smbios.gPlatformFeature |= PT_FEATURE_HAS_HEADLESS_GPU;
} else {
gSettings.Smbios.gPlatformFeature &= ~PT_FEATURE_HAS_HEADLESS_GPU;
}
}
size_t setKextAtPos(XObjArray<SIDELOAD_KEXT>* kextArrayPtr, const XString8& kextName, size_t pos)
{
XObjArray<SIDELOAD_KEXT>& kextArray = *kextArrayPtr;
for (size_t kextIdx = 0 ; kextIdx < kextArray.size() ; kextIdx++ ) {
if ( kextArray[kextIdx].FileName.contains(kextName) ) {
#ifdef JIEF_DEBUG
if ( pos >= kextArray.size() ) panic("pos >= kextArray.size()");
#else
//it is impossible
#endif
if ( pos == kextIdx ) return pos+1;
if ( pos > kextIdx ) pos -= 1;
SIDELOAD_KEXT* kextToMove = &kextArray[kextIdx];
kextArray.RemoveWithoutFreeingAtIndex(kextIdx);
kextArray.InsertRef(kextToMove, pos, false);
return pos+1;
}
}
return pos;
}
static XStringW getDriversPath()
{
#if defined(MDE_CPU_X64)
if (gFirmwareClover) {
if (FileExists(&self.getCloverDir(), L"drivers\\BIOS")) {
return L"drivers\\BIOS"_XSW;
} else {
return L"drivers64"_XSW; //backward compatibility
}
} else if (FileExists(&self.getCloverDir(), L"drivers\\5142")) { // can be excluded as obsolete
return L"drivers\\5142"_XSW;
} else if (FileExists(&self.getCloverDir(), L"drivers\\UEFI")) {
return L"drivers\\UEFI"_XSW;
} else {
return L"drivers64UEFI"_XSW;
}
#else
return L"drivers32"_XSW;
#endif
}
#ifdef JIEF_DEBUG
void debugStartImageWithOC()
{
MsgLog("debugStartImageWithOC\n");
UINT64 CPUFrequencyFromART;
InternalCalculateARTFrequencyIntel(&CPUFrequencyFromART, NULL, 1);
EFI_LOADED_IMAGE* OcLoadedImage;
EFI_STATUS Status = gBS->HandleProtocol(gImageHandle, &gEfiLoadedImageProtocolGuid, (void **) &OcLoadedImage);
EFI_SIMPLE_FILE_SYSTEM_PROTOCOL* FileSystem = OcLocateFileSystem(OcLoadedImage->DeviceHandle, OcLoadedImage->FilePath);
Status = OcStorageInitFromFs(&mOpenCoreStorage, FileSystem, NULL, NULL, self.getCloverDirFullPath().wc_str(), NULL);
Status = ClOcReadConfigurationFile(&mOpenCoreStorage, L"config-oc.plist", &mOpenCoreConfiguration);
if ( EFI_ERROR(Status) ) panic("ClOcReadConfigurationFile");
mOpenCoreConfiguration.Misc.Debug.Target = 0;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Misc.Boot.PickerMode, "Builtin");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Misc.Security.DmgLoading, "Any");
mOpenCoreConfiguration.Uefi.Quirks.IgnoreInvalidFlexRatio = 0;
mOpenCoreConfiguration.Uefi.Quirks.TscSyncTimeout = 0;
OcMain(&mOpenCoreStorage, NULL);
XStringW devicePathToLookFor;
// devicePathToLookFor.takeValueFrom("PciRoot(0x0)/Pci(0x1F,0x2)/Sata(0x0,0x0,0x0)/HD(4,GPT,CA224585-830E-4274-5826-1ACB6DA08A4E,0x299F000,0x4AE6310)/VenMedia(BE74FCF7-0B7C-49F3-9147-01F4042E6842,1ABE434C8D0357398516CFDF0A9DD7EF)"); // Jief High Sierra DevicePath
devicePathToLookFor.takeValueFrom("PciRoot(0x0)/Pci(0x1F,0x2)/Sata(0x0,0x0,0x0)/HD(2,GPT,D8C7DA82-1E4C-4579-BA7C-6737A5D43464,0x64028,0x1BF08E8)"); // Jief Big Sur Install device path
UINTN HandleCount = 0;
EFI_HANDLE *Handles = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiSimpleFileSystemProtocolGuid, NULL, &HandleCount, &Handles);
UINTN HandleIndex = 0;
for (HandleIndex = 0; HandleIndex < HandleCount; HandleIndex++) {
EFI_DEVICE_PATH_PROTOCOL* DevicePath = DevicePathFromHandle(Handles[HandleIndex]);
CHAR16* UnicodeDevicePath = ConvertDevicePathToText(DevicePath, false, false);
MsgLog("debugStartImageWithOC : path %ls\n", UnicodeDevicePath);
if ( StrCmp(devicePathToLookFor.wc_str(), UnicodeDevicePath) == 0 ) break;
}
if ( HandleIndex < HandleCount )
{
EFI_DEVICE_PATH_PROTOCOL* jfkImagePath = FileDevicePath(Handles[HandleIndex], L"\\System\\Library\\CoreServices\\boot.efi");
CHAR16* UnicodeDevicePath = ConvertDevicePathToText (jfkImagePath, false, false); (void)UnicodeDevicePath;
EFI_HANDLE EntryHandle = NULL;
// point to InternalEfiLoadImage from OC
Status = gBS->LoadImage (
false,
gImageHandle,
jfkImagePath,
NULL,
0,
&EntryHandle
);
if ( EFI_ERROR(Status) ) return; // TODO message ?
EFI_LOADED_IMAGE *LoadedImage = NULL;
EFI_STATUS OptionalStatus = gBS->HandleProtocol (
EntryHandle,
&gEfiLoadedImageProtocolGuid,
(void **) &LoadedImage
);
if ( EFI_ERROR(OptionalStatus) ) return; // TODO message ?
// XStringW LoadOptionsAsXStringW = SWPrintf("%s ", LoadOptions.ConcatAll(" "_XS8).c_str());
XStringW LoadOptionsAsXStringW = SWPrintf("boot.efi -v -no_compat_check slide=0 kext-dev-mode=1 keepsyms=1 -wegdbg igfxgl=1 bpr_probedelay=200 bpr_initialdelay=400 bpr_postresetdelay=400 ");
LoadedImage->LoadOptions = (void*)LoadOptionsAsXStringW.wc_str();
LoadedImage->LoadOptionsSize = (UINT32)LoadOptionsAsXStringW.sizeInBytesIncludingTerminator();
// point to OcStartImage from OC
Status = gBS->StartImage (EntryHandle, 0, NULL);
if ( EFI_ERROR(Status) ) return; // TODO message ?
}else{
MsgLog("debugStartImageWithOC : not found\n");
}
}
#endif
void LOADER_ENTRY::DelegateKernelPatches()
{
XObjArray<ABSTRACT_KEXT_OR_KERNEL_PATCH> selectedPathArray;
for (size_t kextPatchIdx = 0 ; kextPatchIdx < KernelAndKextPatches.KextPatches.size() ; kextPatchIdx++ )
{
if ( KernelAndKextPatches.KextPatches[kextPatchIdx].MenuItem.BValue )
selectedPathArray.AddReference(&KernelAndKextPatches.KextPatches[kextPatchIdx], false);
}
for (size_t kernelPatchIdx = 0 ; kernelPatchIdx < KernelAndKextPatches.KernelPatches.size() ; kernelPatchIdx++ )
{
if ( KernelAndKextPatches.KernelPatches[kernelPatchIdx].MenuItem.BValue )
selectedPathArray.AddReference(&KernelAndKextPatches.KernelPatches[kernelPatchIdx], false);
}
mOpenCoreConfiguration.Kernel.Patch.Count = (UINT32)selectedPathArray.size();
mOpenCoreConfiguration.Kernel.Patch.AllocCount = mOpenCoreConfiguration.Kernel.Patch.Count;
mOpenCoreConfiguration.Kernel.Patch.ValueSize = sizeof(__typeof_am__(**mOpenCoreConfiguration.Kernel.Patch.Values));
mOpenCoreConfiguration.Kernel.Patch.Values = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Patch.Values)*)malloc(mOpenCoreConfiguration.Kernel.Patch.AllocCount*sizeof(__typeof_am__(*mOpenCoreConfiguration.Kernel.Patch.Values)));
memset(mOpenCoreConfiguration.Kernel.Patch.Values, 0, mOpenCoreConfiguration.Kernel.Patch.AllocCount*sizeof(*mOpenCoreConfiguration.Kernel.Patch.Values));
UINT32 FakeCPUID = gSettings.Smbios.SFakeCPU;
if (FakeCPUID != 0) gFakeCPUID = FakeCPUID;
DBG("Set FakeCPUID: 0x%X\n", gFakeCPUID);
memset(mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Data, 0, sizeof(mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Data));
memset(mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Mask, 0, sizeof(mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Mask));
mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Data[0] = gFakeCPUID;
mOpenCoreConfiguration.Kernel.Emulate.Cpuid1Mask[0] = 0xFFFFFFFF;
for (size_t kextPatchIdx = 0 ; kextPatchIdx < selectedPathArray.size() ; kextPatchIdx++ )
{
const ABSTRACT_KEXT_OR_KERNEL_PATCH& kextPatch = selectedPathArray[kextPatchIdx]; //as well as kernel patches
DBG("Bridge %s patch to OC : %s\n", kextPatch.getName().c_str(), kextPatch.Label.c_str());
mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx] = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Patch.Values))AllocateZeroPool(mOpenCoreConfiguration.Kernel.Patch.ValueSize); // sizeof(OC_KERNEL_ADD_ENTRY) == 680
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Arch, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Scheme.KernelArch));
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Base, kextPatch.ProcedureName.c_str());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Comment, kextPatch.Label.c_str());
mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Count = (UINT32)kextPatch.Count;
mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Enabled = 1;
OC_DATA_ASSIGN_N(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Find, kextPatch.Find.data(), kextPatch.Find.size());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Identifier, kextPatch.getName().c_str());
mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Limit = (UINT32)kextPatch.SearchLen;
OC_DATA_ASSIGN_N(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Mask, kextPatch.MaskFind.data(), kextPatch.MaskFind.size());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->MaxKernel, ""); // it has been filtered, so we don't need to set Min and MaxKernel
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->MinKernel, "");
OC_DATA_ASSIGN_N(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Replace, kextPatch.Replace.data(), kextPatch.Replace.size());
OC_DATA_ASSIGN_N(mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->ReplaceMask, kextPatch.MaskReplace.data(), kextPatch.MaskReplace.size());
mOpenCoreConfiguration.Kernel.Patch.Values[kextPatchIdx]->Skip = (UINT32)kextPatch.Skip;
#ifdef JIEF_DEBUG
if ( kextPatch.Label == "algrey - cpuid_set_info - ryzen cores and logicals count - part 3 - 10.14"_XS8 ) {
DEBUG (( DEBUG_INFO, "" ));
}
#endif
}
}
void LOADER_ENTRY::StartLoader()
{
EFI_STATUS Status;
EFI_TEXT_STRING ConOutOutputString = 0;
EFI_HANDLE ImageHandle = NULL;
EFI_LOADED_IMAGE *LoadedImage = NULL;
CONST CHAR8 *InstallerVersion;
DbgHeader("StartLoader");
DBG("Starting %ls\n", FileDevicePathToXStringW(DevicePath).wc_str());
#ifdef JIEF_DEBUG
displayFreeMemory("LOADER_ENTRY::StartLoader()"_XS8);
#endif
// while ( OcCountFreePages(NULL) > 300000 && AllocatePages(100) ) /*DBG("Free memory : %lld\n", OcCountFreePages(NULL))*/;
// displayFreeMemory();
if (Settings.notEmpty()) {
DBG(" Settings: %ls\n", Settings.wc_str());
Status = gConf.ReLoadConfig(Settings);
if (!EFI_ERROR(Status)) {
DBG(" - found custom settings for this entry: %ls\n", Settings.wc_str());
} else {
DBG(" - [!] LoadUserSettings failed: %s\n", efiStrError(Status));
/* we are not sure of the state of gSettings here... try to boot anyway */
}
}
DBG("Finally: ExternalClock=%lluMHz BusSpeed=%llukHz CPUFreq=%uMHz",
DivU64x32(gCPUStructure.ExternalClock + Kilo - 1, Kilo),
DivU64x32(gCPUStructure.FSBFrequency + Kilo - 1, Kilo),
gCPUStructure.MaxSpeed);
if (gSettings.CPU.QPI) {
DBG(" QPI: hw.busfrequency=%lluHz\n", MultU64x32(gSettings.CPU.QPI, Mega));
} else {
// to match the value of hw.busfrequency in the terminal
DBG(" PIS: hw.busfrequency=%lluHz\n", MultU64x32(LShiftU64(DivU64x32(gCPUStructure.ExternalClock + Kilo - 1, Kilo), 2), Mega));
}
//Free memory
ConfigsList.setEmpty();
DsdtsList.setEmpty();
OptionMenu.FreeMenu();
//there is a place to free memory
// GuiAnime
// mainParser
// BuiltinIcons
// OSIcons
delete ThemeX;
ThemeX = NULL;
devprop_free_string();
#ifdef NANOSVG_MEMORY_ALLOCATION_TRACE
if ( nsvg__nbDanglingPtr() > 0 ) {
DBG("There is %zu dangling ptr from SVG subsytem\n", nsvg__nbDanglingPtr());
nsvg__outputDanglingPtr();
}
#endif
#ifdef JIEF_DEBUG
displayFreeMemory("LOADER_ENTRY::StartLoader() atfer ThemeX deleted"_XS8);
#endif
if ( OSTYPE_IS_OSX(LoaderType) || OSTYPE_IS_OSX_RECOVERY(LoaderType) || OSTYPE_IS_OSX_INSTALLER(LoaderType) ) {
// if OC is NOT initialized with OcMain, we need the following
// OcConfigureLogProtocol (
// 9,
// 0,
// 2151678018,
// 2147483648,
// OPEN_CORE_LOG_PREFIX_PATH,
// mOpenCoreStorage.FileSystem
// );
// DEBUG ((DEBUG_INFO, "OC: Log initialized...\n"));
// OcAppleDebugLogInstallProtocol(0);
DBG("Beginning OC\n");
EFI_LOADED_IMAGE* OcLoadedImage;
Status = gBS->HandleProtocol(gImageHandle, &gEfiLoadedImageProtocolGuid, (VOID **) &OcLoadedImage);
EFI_SIMPLE_FILE_SYSTEM_PROTOCOL* FileSystem = OcLocateFileSystem(OcLoadedImage->DeviceHandle, OcLoadedImage->FilePath);
Status = OcStorageInitFromFs(&mOpenCoreStorage, FileSystem, NULL, NULL, self.getCloverDirFullPath().wc_str(), NULL);
/*
* Define READ_FROM_OC to have mOpenCoreConfiguration initialized from config-oc.plist
* The boot should work.
* Next, comment out the next lines one by one. Once the boot failed, we got the section that
* holds the setting that makes a difference.
*/
//#define USE_OC_SECTION_Acpi
//#define USE_OC_SECTION_Booter
//#define USE_OC_SECTION_DeviceProperties
//#define USE_OC_SECTION_Kernel
//#define USE_OC_SECTION_Misc
//#define USE_OC_SECTION_Nvram
//#define USE_OC_SECTION_PlatformInfo
//#define USE_OC_SECTION_Uefi
#if !defined(USE_OC_SECTION_Acpi) && !defined(USE_OC_SECTION_Booter) && !defined(USE_OC_SECTION_DeviceProperties) && !defined(USE_OC_SECTION_Kernel) && !defined(USE_OC_SECTION_Misc) && \
!defined(USE_OC_SECTION_Nvram) && !defined(USE_OC_SECTION_PlatformInfo) && !defined(USE_OC_SECTION_Uefi)
memset(&mOpenCoreConfiguration, 0, sizeof(mOpenCoreConfiguration));
// DBG("config-oc.plist isn't used at all\n");
#else
Status = ClOcReadConfigurationFile(&mOpenCoreStorage, L"config-oc.plist", &mOpenCoreConfiguration);
if ( EFI_ERROR(Status) ) panic("ClOcReadConfigurationFile");
#ifndef USE_OC_SECTION_Acpi
memset(&mOpenCoreConfiguration.Acpi, 0, sizeof(mOpenCoreConfiguration.Acpi));
DBG("Erase mOpenCoreConfiguration.Acpi\n");
#else
DBG("Keep mOpenCoreConfiguration.Acpi\n");
#endif
#ifndef USE_OC_SECTION_Booter
memset(&mOpenCoreConfiguration.Booter, 0, sizeof(mOpenCoreConfiguration.Booter));
DBG("Erase mOpenCoreConfiguration.Booter\n");
#else
DBG("Keep mOpenCoreConfiguration.Booter\n");
#endif
#ifndef USE_OC_SECTION_DeviceProperties
memset(&mOpenCoreConfiguration.DeviceProperties, 0, sizeof(mOpenCoreConfiguration.DeviceProperties));
DBG("Erase mOpenCoreConfiguration.DeviceProperties\n");
#else
DBG("Keep mOpenCoreConfiguration.DeviceProperties\n");
#endif
#ifndef USE_OC_SECTION_Kernel
memset(&mOpenCoreConfiguration.Kernel, 0, sizeof(mOpenCoreConfiguration.Kernel));
DBG("Erase mOpenCoreConfiguration.Kernel\n");
#else
DBG("Keep mOpenCoreConfiguration.Kernel\n");
for ( size_t i = 0 ; i < mOpenCoreConfiguration.Kernel.Add.Count ; i ++ ) {
OC_KERNEL_ADD_ENTRY* entry = mOpenCoreConfiguration.Kernel.Add.Values[i];
OC_STRING_ASSIGN(entry->BundlePath, S8Printf("Kexts\\%s", OC_BLOB_GET(&entry->BundlePath)).c_str());
}
// DBG("mOpenCoreConfiguration.Kernel.Add.Count=%d\n", mOpenCoreConfiguration.Kernel.Add.Count);
// for ( size_t i = 0 ; i < mOpenCoreConfiguration.Kernel.Add.Count ; i++ )
// {
// DBG("mOpenCoreConfiguration.Kernel.Add.Values[%zd]->Identifier=%s\n", i, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[i]->Identifier));
// DBG("mOpenCoreConfiguration.Kernel.Add.Values[%zd]->BundlePath=%s\n", i, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[i]->BundlePath));
// DBG("mOpenCoreConfiguration.Kernel.Add.Values[%zd]->PlistPath=%s\n", i, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[i]->PlistPath));
// }
#endif
#ifndef USE_OC_SECTION_Misc
memset(&mOpenCoreConfiguration.Misc, 0, sizeof(mOpenCoreConfiguration.Misc));
DBG("Erase mOpenCoreConfiguration.Misc\n");
#else
DBG("Keep mOpenCoreConfiguration.Misc\n");
#endif
#ifndef USE_OC_SECTION_Nvram
memset(&mOpenCoreConfiguration.Nvram, 0, sizeof(mOpenCoreConfiguration.Nvram));
DBG("Erase mOpenCoreConfiguration.Nvram\n");
#else
DBG("Keep mOpenCoreConfiguration.Nvram\n");
#endif
#ifndef USE_OC_SECTION_PlatformInfo
memset(&mOpenCoreConfiguration.PlatformInfo, 0, sizeof(mOpenCoreConfiguration.PlatformInfo));
DBG("Erase mOpenCoreConfiguration.PlatformInfo\n");
#else
DBG("Keep mOpenCoreConfiguration.PlatformInfo\n");
#endif
#ifndef USE_OC_SECTION_Uefi
memset(&mOpenCoreConfiguration.Uefi, 0, sizeof(mOpenCoreConfiguration.Uefi));
DBG("Erase mOpenCoreConfiguration.Uefi\n");
#else
DBG("Keep mOpenCoreConfiguration.Uefi\n");
// memset(&mOpenCoreConfiguration.Uefi.Apfs, 0, sizeof(mOpenCoreConfiguration.Uefi.Apfs));
// memset(&mOpenCoreConfiguration.Uefi.Audio, 0, sizeof(mOpenCoreConfiguration.Uefi.Audio));
// memset(&mOpenCoreConfiguration.Uefi.ConnectDrivers, 0, sizeof(mOpenCoreConfiguration.Uefi.ConnectDrivers));
// memset(&mOpenCoreConfiguration.Uefi.Drivers, 0, sizeof(mOpenCoreConfiguration.Uefi.Drivers));
// memset(&mOpenCoreConfiguration.Uefi.Input, 0, sizeof(mOpenCoreConfiguration.Uefi.Input));
// memset(&mOpenCoreConfiguration.Uefi.Output, 0, sizeof(mOpenCoreConfiguration.Uefi.Output));
// memset(&mOpenCoreConfiguration.Uefi.ProtocolOverrides, 0, sizeof(mOpenCoreConfiguration.Uefi.ProtocolOverrides));
// memset(&mOpenCoreConfiguration.Uefi.Quirks, 0, sizeof(mOpenCoreConfiguration.Uefi.Quirks));
// memset(&mOpenCoreConfiguration.Uefi.ReservedMemory, 0, sizeof(mOpenCoreConfiguration.Uefi.ReservedMemory)); // doesn't matter
#endif
#endif
if ( gSettings.Boot.DebugLog ) {
mOpenCoreConfiguration.Misc.Debug.AppleDebug = true;
mOpenCoreConfiguration.Misc.Debug.ApplePanic = true;
#ifndef LESS_DEBUG
mOpenCoreConfiguration.Misc.Debug.DisplayLevel = 0x80400042;
#else
mOpenCoreConfiguration.Misc.Debug.DisplayLevel = 0x80000042;
#endif
mOpenCoreConfiguration.Misc.Debug.Target = 0x41;
} else {
#ifdef JIEF_DEBUG
egSetGraphicsModeEnabled(false);
mOpenCoreConfiguration.Misc.Debug.ApplePanic = true;
mOpenCoreConfiguration.Misc.Debug.DisplayLevel = 0x80000042;
mOpenCoreConfiguration.Misc.Debug.Target = 0x3;
#endif
}
#ifndef USE_OC_SECTION_Misc
OC_STRING_ASSIGN(mOpenCoreConfiguration.Misc.Security.SecureBootModel, "Disabled");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Misc.Security.Vault, "Optional");
#endif
#ifdef USE_OC_SECTION_Nvram
mOpenCoreConfiguration.Nvram.WriteFlash = true;
#endif
#ifndef USE_OC_SECTION_Uefi
mOpenCoreConfiguration.Uefi.Quirks.ForceOcWriteFlash = gSettings.Quirks.OcBooterQuirks.ForceOcWriteFlash;
#endif
#ifndef USE_OC_SECTION_Booter
mOpenCoreConfiguration.Booter.MmioWhitelist.Count = (UINT32)gSettings.Quirks.mmioWhiteListArray.size();
mOpenCoreConfiguration.Booter.MmioWhitelist.AllocCount = mOpenCoreConfiguration.Booter.MmioWhitelist.Count;
mOpenCoreConfiguration.Booter.MmioWhitelist.ValueSize = sizeof(__typeof_am__(**mOpenCoreConfiguration.Booter.MmioWhitelist.Values)); // sizeof(OC_KERNEL_ADD_ENTRY) == 680
if ( mOpenCoreConfiguration.Booter.MmioWhitelist.Count > 0 ) {
mOpenCoreConfiguration.Booter.MmioWhitelist.Values = (OC_BOOTER_WL_ENTRY**)AllocatePool(mOpenCoreConfiguration.Booter.MmioWhitelist.AllocCount * sizeof(*mOpenCoreConfiguration.Booter.MmioWhitelist.Values)); // sizeof(OC_KERNEL_ADD_ENTRY) == 680
} else {
mOpenCoreConfiguration.Booter.MmioWhitelist.Values = NULL;
}
for ( size_t idx = 0 ; idx < gSettings.Quirks.mmioWhiteListArray.size() ; idx++ ) {
const SETTINGS_DATA::QuirksClass::MMIOWhiteList& entry = gSettings.Quirks.mmioWhiteListArray[idx];
DBG("Bridge mmioWhiteList[%zu] to OC : comment=%s\n", idx, entry.comment.c_str());
mOpenCoreConfiguration.Booter.MmioWhitelist.Values[idx] = (__typeof_am__(*mOpenCoreConfiguration.Booter.MmioWhitelist.Values))AllocatePool(mOpenCoreConfiguration.Booter.MmioWhitelist.ValueSize);
mOpenCoreConfiguration.Booter.MmioWhitelist.Values[idx]->Address = entry.address;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Booter.MmioWhitelist.Values[idx]->Comment, entry.comment.c_str());
mOpenCoreConfiguration.Booter.MmioWhitelist.Values[idx]->Enabled = entry.enabled;
}
// It's possible to memcpy the whole struct instead of assigning individual member. But that would be relying on internel C++ binary structure,
// and worse, if a field is added by OC, everything could be shifted.
memset(&mOpenCoreConfiguration.Booter.Quirks, 0, sizeof(mOpenCoreConfiguration.Booter.Quirks));
mOpenCoreConfiguration.Booter.Quirks.AvoidRuntimeDefrag = gSettings.Quirks.OcBooterQuirks.AvoidRuntimeDefrag;
mOpenCoreConfiguration.Booter.Quirks.DevirtualiseMmio = gSettings.Quirks.OcBooterQuirks.DevirtualiseMmio;
mOpenCoreConfiguration.Booter.Quirks.DisableSingleUser = gSettings.Quirks.OcBooterQuirks.DisableSingleUser;
mOpenCoreConfiguration.Booter.Quirks.DisableVariableWrite = gSettings.Quirks.OcBooterQuirks.DisableVariableWrite;
mOpenCoreConfiguration.Booter.Quirks.DiscardHibernateMap = gSettings.Quirks.OcBooterQuirks.DiscardHibernateMap;
mOpenCoreConfiguration.Booter.Quirks.EnableSafeModeSlide = gSettings.Quirks.OcBooterQuirks.EnableSafeModeSlide;
mOpenCoreConfiguration.Booter.Quirks.EnableWriteUnprotector = gSettings.Quirks.OcBooterQuirks.EnableWriteUnprotector;
mOpenCoreConfiguration.Booter.Quirks.ForceExitBootServices = gSettings.Quirks.OcBooterQuirks.ForceExitBootServices;
mOpenCoreConfiguration.Booter.Quirks.ProtectMemoryRegions = gSettings.Quirks.OcBooterQuirks.ProtectMemoryRegions;
mOpenCoreConfiguration.Booter.Quirks.ProtectSecureBoot = gSettings.Quirks.OcBooterQuirks.ProtectSecureBoot;
mOpenCoreConfiguration.Booter.Quirks.ProtectUefiServices = gSettings.Quirks.OcBooterQuirks.ProtectUefiServices;
mOpenCoreConfiguration.Booter.Quirks.ProvideCustomSlide = gSettings.Quirks.OcBooterQuirks.ProvideCustomSlide;
mOpenCoreConfiguration.Booter.Quirks.ProvideMaxSlide = gSettings.Quirks.OcBooterQuirks.ProvideMaxSlide;
mOpenCoreConfiguration.Booter.Quirks.RebuildAppleMemoryMap = gSettings.Quirks.OcBooterQuirks.RebuildAppleMemoryMap;
mOpenCoreConfiguration.Booter.Quirks.ResizeAppleGpuBars = gSettings.Quirks.OcBooterQuirks.ResizeAppleGpuBars;
mOpenCoreConfiguration.Booter.Quirks.SetupVirtualMap = gSettings.Quirks.OcBooterQuirks.SetupVirtualMap;
mOpenCoreConfiguration.Booter.Quirks.SignalAppleOS = false; //gSettings.Quirks.OcBooterQuirks.SignalAppleOS;
mOpenCoreConfiguration.Booter.Quirks.SyncRuntimePermissions = gSettings.Quirks.OcBooterQuirks.SyncRuntimePermissions;
#endif
FillOCCpuInfo(&mOpenCoreCpuInfo);
mOpenCoreConfiguration.Uefi.Quirks.TscSyncTimeout = gSettings.Quirks.OcBooterQuirks.TscSyncTimeout;
#ifndef USE_OC_SECTION_Kernel
XObjArray<SIDELOAD_KEXT> kextArray;
if (!DoHibernateWake) {
AddKextsInArray(&kextArray);
}
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Scheme.KernelArch, "x86_64");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Scheme.KernelCache, gSettings.Quirks.OcKernelCache.c_str());
mOpenCoreConfiguration.Kernel.Scheme.FuzzyMatch = gSettings.Quirks.FuzzyMatch;
memset(&mOpenCoreConfiguration.Kernel.Quirks, 0, sizeof(mOpenCoreConfiguration.Kernel.Quirks));
mOpenCoreConfiguration.Kernel.Quirks.SetApfsTrimTimeout = -1; // Jief: Slice modified OcConfigurationLib.h to set -1 by default instead of 999. I prefer the modification here to minimize commts in OC submodule. Makes it easier to upgrade submodule.
mOpenCoreConfiguration.Kernel.Quirks.AppleCpuPmCfgLock = GlobalConfig.KPAppleIntelCPUPM;
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmCfgLock = GlobalConfig.KPKernelPm;
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmExtraMsrs = gSettings.Quirks.OcKernelQuirks.AppleXcpmExtraMsrs;
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmForceBoost = gSettings.Quirks.OcKernelQuirks.AppleXcpmForceBoost;
#ifndef USE_OC_SECTION_PlatformInfo
mOpenCoreConfiguration.Kernel.Quirks.CustomSmbiosGuid = gSettings.KernelAndKextPatches.KPDELLSMBIOS;
#endif
mOpenCoreConfiguration.Kernel.Quirks.DisableIoMapper = gSettings.Quirks.OcKernelQuirks.DisableIoMapper;
mOpenCoreConfiguration.Kernel.Quirks.DisableLinkeditJettison = gSettings.Quirks.OcKernelQuirks.DisableLinkeditJettison;
mOpenCoreConfiguration.Kernel.Quirks.DisableRtcChecksum = gSettings.KernelAndKextPatches.KPAppleRTC;
mOpenCoreConfiguration.Kernel.Emulate.DummyPowerManagement = gSettings.Quirks.OcKernelQuirks.DummyPowerManagement;
mOpenCoreConfiguration.Kernel.Quirks.ExtendBTFeatureFlags = gSettings.Quirks.OcKernelQuirks.ExtendBTFeatureFlags;
mOpenCoreConfiguration.Kernel.Quirks.ExternalDiskIcons = gSettings.Quirks.OcKernelQuirks.ExternalDiskIcons;
mOpenCoreConfiguration.Kernel.Quirks.IncreasePciBarSize = gSettings.Quirks.OcKernelQuirks.IncreasePciBarSize;
mOpenCoreConfiguration.Kernel.Quirks.ForceAquantiaEthernet = gSettings.Quirks.OcKernelQuirks.ForceAquantiaEthernet;
mOpenCoreConfiguration.Kernel.Quirks.LapicKernelPanic = gSettings.KernelAndKextPatches.KPKernelLapic;
mOpenCoreConfiguration.Kernel.Quirks.PanicNoKextDump = gSettings.KernelAndKextPatches.KPPanicNoKextDump;
mOpenCoreConfiguration.Kernel.Quirks.PowerTimeoutKernelPanic = gSettings.Quirks.OcKernelQuirks.PowerTimeoutKernelPanic;
mOpenCoreConfiguration.Kernel.Quirks.ThirdPartyDrives = gSettings.Quirks.OcKernelQuirks.ThirdPartyDrives;
mOpenCoreConfiguration.Kernel.Quirks.XhciPortLimit = gSettings.Quirks.OcKernelQuirks.XhciPortLimit;
mOpenCoreConfiguration.Kernel.Quirks.ProvideCurrentCpuInfo = gSettings.Quirks.OcKernelQuirks.ProvideCurrentCpuInfo;
mOpenCoreConfiguration.Kernel.Add.Count = (UINT32)kextArray.size();
mOpenCoreConfiguration.Kernel.Add.AllocCount = mOpenCoreConfiguration.Kernel.Add.Count;
mOpenCoreConfiguration.Kernel.Add.ValueSize = sizeof(__typeof_am__(**mOpenCoreConfiguration.Kernel.Add.Values)); // sizeof(OC_KERNEL_ADD_ENTRY) == 680
mOpenCoreConfiguration.Kernel.Add.Values = (OC_KERNEL_ADD_ENTRY**)malloc(mOpenCoreConfiguration.Kernel.Add.AllocCount*sizeof(*mOpenCoreConfiguration.Kernel.Add.Values)); // sizeof(OC_KERNEL_ADD_ENTRY*) == sizeof(ptr)
memset(mOpenCoreConfiguration.Kernel.Add.Values, 0, mOpenCoreConfiguration.Kernel.Add.AllocCount*sizeof(*mOpenCoreConfiguration.Kernel.Add.Values));
// Seems that Lilu must be first.
size_t pos = setKextAtPos(&kextArray, "Lilu.kext"_XS8, 0);
pos = setKextAtPos(&kextArray, "VirtualSMC.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "FakeSMC.kext"_XS8, pos);
// pos = setKextAtPos(&kextArray, "vecLib.kext"_XS8, pos);
// pos = setKextAtPos(&kextArray, "IOAudioFamily.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "IOSkywalkFamily.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "FakePCIID.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "FakePCIID_XHCIMux.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "AMDRyzenCPUPowerManagement.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "SMCAMDProcessor.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "WhateverGreen.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "AppleALC.kext"_XS8, pos);
// pos = setKextAtPos(&kextArray, "IntelMausi.kext"_XS8, pos); // not needed special order?
pos = setKextAtPos(&kextArray, "SMCProcessor.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "SMCSuperIO.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "USBPorts.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooGPIO.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooI2CServices.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooI2C.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooI2CHID.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooSMBus.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "VoodooRMI.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "BrcmFirmwareData.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "BrcmPatchRAM2.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "BrcmPatchRAM3.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "IO80211FamilyLegacy.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "HS80211Family.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "corecaptureElCap.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "IO80211ElCap.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "IO80211ElCap\\Contents\\Plugins\\AirPortAtheros40.kext"_XS8, pos);
pos = setKextAtPos(&kextArray, "AirPortAtheros40.kext"_XS8, pos);
for (size_t kextIdx = 0 ; kextIdx < kextArray.size() ; kextIdx++ ) {
const SIDELOAD_KEXT& KextEntry = kextArray[kextIdx];
DBG("Bridge kext to OC : Path=%ls\\%ls\n", KextEntry.KextDirNameUnderOEMPath.wc_str(), KextEntry.FileName.wc_str());
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx] = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Add.Values))malloc(mOpenCoreConfiguration.Kernel.Add.ValueSize);
memset(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx], 0, mOpenCoreConfiguration.Kernel.Add.ValueSize);
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->Enabled = 1;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->Arch, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Scheme.KernelArch));
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->Comment, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->MaxKernel, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->MinKernel, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->Identifier, "");
assert( selfOem.isKextsDirFound() ); // be sure before calling getKextsPathRelToSelfDir()
XStringW dirPath = SWPrintf("%ls\\%ls", selfOem.getKextsDirPathRelToSelfDir().wc_str(), KextEntry.KextDirNameUnderOEMPath.wc_str());
XString8 bundleFullPath = S8Printf("%ls\\%ls", dirPath.wc_str(), KextEntry.FileName.wc_str());
if ( FileExists(&self.getCloverDir(), bundleFullPath) ) {
XString8 bundlePathUnderKextsDir = S8Printf("%ls\\%ls", KextEntry.KextDirNameUnderOEMPath.wc_str(), KextEntry.FileName.wc_str());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->BundlePath, bundlePathUnderKextsDir.c_str());
DBG("OC BundlePath = '%s'\n", OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->BundlePath));
} else {
DBG("Cannot find kext bundlePath at '%s'\n", bundleFullPath.c_str());
}
#if 1
//CFBundleExecutable
XBool NoContents = false;
XStringW infoPlistPathRelToSelf = getKextPlist(&self.getCloverDir(), dirPath, KextEntry.FileName, &NoContents); //it will be fullPath, including dir
// XBool inject = checkOSBundleRequired(dict);
XBool inject = true;
if (inject) {
if ( infoPlistPathRelToSelf.notEmpty()) {
if (NoContents) {
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistPath, "Info.plist");
} else {
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistPath, "Contents\\Info.plist");
}
DBG("OC PlistPath = '%s'\n", OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistPath));
} else {
DBG("Cannot find kext info.plist at '%ls'\n", KextEntry.FileName.wc_str());
}
TagDict* dict = getInfoPlist(&self.getCloverDir(), infoPlistPathRelToSelf);
XString8 execpath = getKextExecPath(&self.getCloverDir(), KextEntry.KextDirNameUnderOEMPath, KextEntry.FileName, dict, NoContents);
if (execpath.notEmpty()) {
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->ExecutablePath, execpath.c_str());
DBG("OC ExecutablePath = '%s'\n", execpath.c_str());
}
if ( dict ) dict->ReleaseTag();
}
#else
XStringW execpath = S8Printf("Contents\\MacOS\\%ls", KextEntry.FileName.subString(0, KextEntry.FileName.rindexOf(".")).wc_str());
XStringW fullPath = SWPrintf("%s\\%ls", OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->BundlePath), execpath.wc_str());
if ( FileExists(&self.getCloverDir(), fullPath) ) {
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->ExecutablePath, S8Printf("Contents\\MacOS\\%ls", KextEntry.FileName.subString(0, KextEntry.FileName.rindexOf(".")).wc_str()).c_str());
}
XStringW infoPlistPathRelToSelf = SWPrintf("%s\\Contents\\Info.plist", OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->BundlePath));
if (FileExists(&self.getCloverDir(), infoPlistPathRelToSelf)) {
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistPath, "Contents/Info.plist"); // TODO : is always Contents/Info.plist ?
} else {
DBG("Cannot find kext info.plist at '%ls'\n", infoPlistPathRelToSelf.wc_str());
}
#endif
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->ImageData = NULL;
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->ImageDataSize = 0;
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistData = NULL;
mOpenCoreConfiguration.Kernel.Add.Values[kextIdx]->PlistDataSize = 0;
} // for (size_t kextIdx
mOpenCoreConfiguration.Kernel.Force.Count = (UINT32)KernelAndKextPatches.ForceKextsToLoad.size();
mOpenCoreConfiguration.Kernel.Force.AllocCount = mOpenCoreConfiguration.Kernel.Force.Count;
mOpenCoreConfiguration.Kernel.Force.ValueSize = sizeof(__typeof_am__(**mOpenCoreConfiguration.Kernel.Force.Values)); // sizeof(OC_KERNEL_FORCE_ENTRY)
int valuesSize = mOpenCoreConfiguration.Kernel.Force.AllocCount*sizeof(*mOpenCoreConfiguration.Kernel.Force.Values);
mOpenCoreConfiguration.Kernel.Force.Values = (OC_KERNEL_ADD_ENTRY**)malloc(valuesSize); // sizeof(OC_KERNEL_FORCE_ENTRY*) == sizeof(ptr)
memset(mOpenCoreConfiguration.Kernel.Force.Values, 0, valuesSize);
for (size_t kextIdx = 0; kextIdx < KernelAndKextPatches.ForceKextsToLoad.size(); kextIdx++) {
const XStringW& forceKext = KernelAndKextPatches.ForceKextsToLoad[kextIdx];
DBG("Force kext to OC : Path=%ls\n", forceKext.wc_str());
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx] = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Force.Values))malloc(mOpenCoreConfiguration.Kernel.Force.ValueSize);
memset(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx], 0, mOpenCoreConfiguration.Kernel.Force.ValueSize);
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->Enabled = 1;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->Arch, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Scheme.KernelArch));
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->Comment, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->MaxKernel, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->MinKernel, "");
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->Identifier, "");
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->ImageData = NULL;
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->ImageDataSize = 0;
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->PlistData = NULL;
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->PlistDataSize = 0;
REFIT_VOLUME * SystemVolume = Volume;
EFI_FILE* SysRoot = Volume->RootDir;
if (Volume->ApfsRole == APPLE_APFS_VOLUME_ROLE_PREBOOT) {
//search for other partition
DBG("boot from Preboot, index=%llu\n", Volume->Index);
size_t numbers = Volumes.size();
size_t sysIndex = 0;
for (sysIndex=Volume->Index+1; sysIndex < numbers; sysIndex++) {
SystemVolume = &Volumes[sysIndex];
SysRoot = SystemVolume->RootDir;
DBG("test volume %zd, name %ls:\n", sysIndex, SystemVolume->VolName.wc_str());
if (FileExists(SysRoot, L"\\System\\Library\\CoreServices\\boot.efi")) {
DBG("boot.efi found on %zd\n", sysIndex);
}
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry = NULL;
DirIterOpen(SysRoot, L"\\System\\Library\\Extensions\\AMDSupport.kext\\Contents\\MacOS\\", &DirIter);
while (DirIterNext(&DirIter, 1, L"*", &DirEntry)) {
if (DirEntry->FileName[0] == '.') {
DBG("Skip dot entries: %ls\n", DirEntry->FileName);
continue;
}
DBG("%ls attr=%llu\n", DirEntry->FileName, DirEntry->Attribute);
}
DirIterClose(&DirIter);
if (FileExists(SysRoot, L"\\System\\Library\\Extensions\\AMDSupport.kext\\Contents\\MacOS\\AMDSupport")) {
DBG("AMDSupport found on %zd\n", sysIndex); //never found
break;
}
}
}
mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->ImageData = (UINT8*)SysRoot;
size_t i1 = forceKext.rindexOf("\\") + 1;
size_t i2 = forceKext.rindexOf(".");
XStringW identifier = forceKext.subString(i1, i2 - i1);
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->Identifier, S8Printf("%ls", identifier.wc_str()).c_str());
XString8 execpath = S8Printf("Contents\\MacOS\\%ls", identifier.wc_str());
DBG("calculated execpath=%s\n", execpath.c_str());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->BundlePath, S8Printf("%ls",forceKext.wc_str()).c_str());
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->PlistPath, "Contents\\Info.plist");
//then we have to find executablePath and plistPath
DBG("bundle path=%s\n", mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->BundlePath.Value);
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->ExecutablePath, execpath.c_str());
DBG("assign executable as '%s'\n", mOpenCoreConfiguration.Kernel.Force.Values[kextIdx]->ExecutablePath.Value);
}
if (gSettings.KernelAndKextPatches.BlockSkywalk) {
mOpenCoreConfiguration.Kernel.Block.Count = 1;
mOpenCoreConfiguration.Kernel.Block.AllocCount = 1;
mOpenCoreConfiguration.Kernel.Block.ValueSize = sizeof(__typeof_am__(**mOpenCoreConfiguration.Kernel.Block.Values));
valuesSize = mOpenCoreConfiguration.Kernel.Block.AllocCount*sizeof(*mOpenCoreConfiguration.Kernel.Block.Values);
mOpenCoreConfiguration.Kernel.Block.Values = (OC_KERNEL_BLOCK_ENTRY**)malloc(valuesSize);
memset(mOpenCoreConfiguration.Kernel.Block.Values, 0, valuesSize);
mOpenCoreConfiguration.Kernel.Block.Values[0] = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Block.Values))malloc(mOpenCoreConfiguration.Kernel.Block.ValueSize);
memset(mOpenCoreConfiguration.Kernel.Block.Values[0], 0, mOpenCoreConfiguration.Kernel.Block.ValueSize);
mOpenCoreConfiguration.Kernel.Block.Values[0]->Enabled = 1;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->Arch, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Scheme.KernelArch));
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->Comment, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->MaxKernel, "");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->MinKernel, "23");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->Identifier, "com.apple.iokit.IOSkywalkFamily");
OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[0]->Strategy, "Exclude");
// mOpenCoreConfiguration.Kernel.Block.Values[1] = (__typeof_am__(*mOpenCoreConfiguration.Kernel.Block.Values))malloc(mOpenCoreConfiguration.Kernel.Block.ValueSize);
// memset(mOpenCoreConfiguration.Kernel.Block.Values[1], 0, mOpenCoreConfiguration.Kernel.Block.ValueSize);
// mOpenCoreConfiguration.Kernel.Block.Values[1]->Enabled = 1;
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->Arch, OC_BLOB_GET(&mOpenCoreConfiguration.Kernel.Scheme.KernelArch));
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->Comment, "");
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->MaxKernel, "");
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->MinKernel, "23");
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->Identifier, "com.apple.driver.mDNSOffloadUserClient");
// OC_STRING_ASSIGN(mOpenCoreConfiguration.Kernel.Block.Values[1]->Strategy, "Exclude");
}
#endif
mOpenCoreConfiguration.Uefi.Output.ProvideConsoleGop = gSettings.GUI.ProvideConsoleGop;
OC_STRING_ASSIGN(mOpenCoreConfiguration.Uefi.Output.Resolution, XString8(gSettings.GUI.ScreenResolution).c_str());
if ( OpenRuntimeEfiName.notEmpty() ) {
XStringW FileName = SWPrintf("%ls\\%ls\\%ls", self.getCloverDirFullPath().wc_str(), getDriversPath().wc_str(), OpenRuntimeEfiName.wc_str());
EFI_HANDLE DriverHandle;
Status = gBS->LoadImage(false, gImageHandle, FileDevicePath(self.getSelfLoadedImage().DeviceHandle, FileName), NULL, 0, &DriverHandle);
if ( !EFI_ERROR(Status) ) {
Status = gBS->StartImage(DriverHandle, 0, 0);
DBG("Start '%ls' : Status %s\n", OpenRuntimeEfiName.wc_str(), efiStrError(Status));
if ( !EFI_ERROR(Status) )
{
OC_FIRMWARE_RUNTIME_PROTOCOL *FwRuntime;
Status = gBS->LocateProtocol (
gOcFirmwareRuntimeProtocolGuid,
NULL,
(VOID **) &FwRuntime
);
if (!EFI_ERROR (Status)) {
if (FwRuntime->Revision == OC_FIRMWARE_RUNTIME_REVISION) {
} else {
DEBUG ((
DEBUG_ERROR,
"OCABC: Incompatible OpenRuntime r%u, require r%u\n",
(UINT32) FwRuntime->Revision,
(UINT32) OC_FIRMWARE_RUNTIME_REVISION
));
DBG("Incompatible OpenRuntime r%llu, require r%u\n", FwRuntime->Revision, OC_FIRMWARE_RUNTIME_REVISION);
}
}
}
}else{
DBG("Error when loading '%ls' : Status %s.\n", OpenRuntimeEfiName.wc_str(), efiStrError(Status));
}
}else{
DBG("No OpenRuntime driver. This is ok, OpenRuntime is not mandatory.\n");
}
OcMain(&mOpenCoreStorage, NULL);
XStringW DevicePathAsString = DevicePathToXStringW(DevicePath);
if ( DevicePathAsString.rindexOf(".dmg") == MAX_XSIZE )
{
// point to InternalEfiLoadImage from OC
Status = gBS->LoadImage (
false,
gImageHandle,
DevicePath,
NULL,
0,
&ImageHandle
);
if ( EFI_ERROR(Status) ) {
DBG("LoadImage at '%ls' failed. Status = %s\n", DevicePathAsString.wc_str(), efiStrError(Status));
return;
}
DBG("ImageHandle = %llx\n", uintptr_t(ImageHandle));
} else {
// NOTE : OpenCore ignore the name of the dmg.
// InternalLoadDmg calls InternalFindFirstDmgFileName to find the dmg file name.
// So be careful that, if an other dmg exists in the dir, that might boot on the wrong one.
EFI_DEVICE_PATH_PROTOCOL* DevicePathCopy = DuplicateDevicePath(DevicePath);
EFI_DEVICE_PATH_PROTOCOL* PreviousNode = NULL;
EFI_DEVICE_PATH_PROTOCOL* Node = DevicePathCopy;
while (!IsDevicePathEnd(Node)) {
if ( Node->Type == MEDIA_DEVICE_PATH && Node->SubType == MEDIA_FILEPATH_DP ) {
PreviousNode = Node;
break;
}
PreviousNode = Node;
Node = NextDevicePathNode(Node);
}
SetDevicePathEndNode(PreviousNode);
EFI_DEVICE_PATH_PROTOCOL* LoaderPathBasenameNode = ConvertTextToDeviceNode(LoaderPath.dirname().wc_str());
EFI_DEVICE_PATH_PROTOCOL* DevicePathToDmgDir = AppendDevicePathNode(DevicePathCopy, LoaderPathBasenameNode);
DBG("DevicePathToDmgDir = %ls\n", DevicePathToXStringW(DevicePathToDmgDir).wc_str());
INTERNAL_DMG_LOAD_CONTEXT DmgLoadContext = {0,0,0};
DmgLoadContext.DevicePath = DevicePathToDmgDir;
EFI_DEVICE_PATH_PROTOCOL* BootEfiFromDmgDevicePath = InternalLoadDmg(&DmgLoadContext, OcDmgLoadingAnyImage);
DBG("DevicePath of dmg = %ls\n", DevicePathToXStringW(BootEfiFromDmgDevicePath).wc_str());
// point to InternalEfiLoadImage from OC
Status = gBS->LoadImage (
false,
gImageHandle,
BootEfiFromDmgDevicePath,
NULL,
0,
&ImageHandle
);
if ( EFI_ERROR(Status) ) {
DBG("LoadImage at '%ls' failed. Status = %s\n", DevicePathToXStringW(BootEfiFromDmgDevicePath).wc_str(), efiStrError(Status));
return;
}
}
EFI_STATUS OptionalStatus = gBS->HandleProtocol (
ImageHandle,
&gEfiLoadedImageProtocolGuid,
(void **) &LoadedImage
);
if ( EFI_ERROR(OptionalStatus) ) return; // TODO message ?
} else {
// Load image into memory (will be started later)
Status = LoadEFIImage(DevicePath, LoaderPath.basename(), NULL, &ImageHandle);
if (EFI_ERROR(Status)) {
DBG("Image is not loaded, status=%s\n", efiStrError(Status));
return; // no reason to continue if loading image failed
}
}
egClearScreen(&BootBgColor); //if not set then it is already MenuBackgroundPixel
// KillMouse();
// if (LoaderType == OSTYPE_OSX) {
if (OSTYPE_IS_OSX(LoaderType) ||
OSTYPE_IS_OSX_RECOVERY(LoaderType) ||
OSTYPE_IS_OSX_INSTALLER(LoaderType)) {
// To display progress bar properly (especially in FV2 mode) boot.efi needs to be in graphics mode.
// Unfortunately many UEFI implementations change the resolution when SetMode happens.
// This is not what boot.efi expects, and it freely calls SetMode at its will.
// As a result we see progress bar at improper resolution and the background is also missing (10.12.x+).
//
// libeg already has a workaround for SetMode behaviour, so we extend it for boot.efi support.
// The approach tries to be follows:
// 1. Ensure we have graphics mode set (since it is a must in the future).
// 2. Request text mode for boot.efi, which it expects by default (here a SetMode libeg hack will trigger
// on problematic UEFI implementations like AMI).
egSetGraphicsModeEnabled(true);
egSetGraphicsModeEnabled(false);
DBG("GetOSVersion:");
//needed for boot.efi patcher
Status = gBS->HandleProtocol(ImageHandle, &gEfiLoadedImageProtocolGuid, (void **) &LoadedImage);
// Correct OSVersion if it was not found
// This should happen only for 10.7-10.9 OSTYPE_OSX_INSTALLER
// For these cases, take OSVersion from loaded boot.efi image in memory
if ( macOSVersion.isEmpty()) {
if (!EFI_ERROR(Status)) {
// version in boot.efi appears as "Mac OS X 10.?"
/*
Start OSName Mac OS X 10.12 End OSName Start OSVendor Apple Inc. End
*/
InstallerVersion = AsciiStrStr((CHAR8*)LoadedImage->ImageBase, "Mac OS X ");
int location = 9;
if (InstallerVersion == NULL) {
InstallerVersion = AsciiStrStr((CHAR8*)LoadedImage->ImageBase, "macOS ");
location = 7;
}
if (InstallerVersion != NULL) { // string was found
InstallerVersion += location; // advance to version location
if (strncmp(InstallerVersion, "10.7", 4) &&
strncmp(InstallerVersion, "10.8", 4) &&
strncmp(InstallerVersion, "10.9", 4) &&
strncmp(InstallerVersion, "10.10", 5) &&
strncmp(InstallerVersion, "10.11", 5) &&
strncmp(InstallerVersion, "10.12", 5) &&
strncmp(InstallerVersion, "10.13", 5) &&
strncmp(InstallerVersion, "10.14", 5) &&
strncmp(InstallerVersion, "10.15", 5) &&
strncmp(InstallerVersion, "10.16", 5) &&
strncmp(InstallerVersion, "11.", 3) &&
strncmp(InstallerVersion, "12.", 3) &&
strncmp(InstallerVersion, "13.", 3) &&
strncmp(InstallerVersion, "14.", 3)
) {
InstallerVersion = NULL; // flag known version was not found
}
if (InstallerVersion != NULL) { // known version was found in image
macOSVersion = InstallerVersion;
DBG("Corrected OSVersion: %s\n", macOSVersion.asString().c_str());
}
}
}
BuildVersion.setEmpty();
}
if (BuildVersion.notEmpty()) {
DBG(" %s (%s)\n", macOSVersion.asString().c_str(), BuildVersion.c_str());
} else {
DBG(" %s\n", macOSVersion.asString().c_str());
}
if ( macOSVersion >= MacOsVersion("10.11"_XS8) ) {
if (OSFLAG_ISSET(Flags, OSFLAG_NOSIP)) {
gSettings.RtVariables.CsrActiveConfig = (UINT32)0xBEF;
gSettings.RtVariables.BooterConfig = 0x28;
}
}
FilterKextPatches();
FilterKernelPatches();
FilterBootPatches();
if (LoadedImage && !BooterPatch((UINT8*)LoadedImage->ImageBase, LoadedImage->ImageSize)) {
DBG("Will not patch boot.efi\n");
}
gConf.ReloadSmbios(OSName);
DelegateKernelPatches();
// Set boot argument for kernel if no caches, this should force kernel loading
if ( OSFLAG_ISSET(Flags, OSFLAG_NOCACHES) && !LoadOptions.containsStartWithIC("Kernel=") ) {
XString8 KernelLocation;
if ( macOSVersion.notEmpty() && macOSVersion <= MacOsVersion("10.9"_XS8) ) {
KernelLocation.S8Printf("\"Kernel=/mach_kernel\"");
} else {
// used for 10.10, 10.11, and new version. Jief : also for unknown version.
KernelLocation.S8Printf("\"Kernel=/System/Library/Kernels/kernel\"");
}
LoadOptions.AddID(KernelLocation);
}
// first patchACPI and find PCIROOT and RTC
// but before ACPI patch we need smbios patch
CheckEmptyFB();
SmbiosFillPatchingValues(GlobalConfig.SetTable132, GlobalConfig.EnabledCores, g_SmbiosDiscoveredSettings.RamSlotCount, gConf.SlotDeviceArray, gSettings, gCPUStructure, &g_SmbiosInjectedSettings);
PatchSmbios(g_SmbiosInjectedSettings);
#ifdef USE_OC_SECTION_Acpi
// If we use the ACPI section form config-oc.plist, let's also delegate the acpi patching to OC
#else
PatchACPI(Volume, macOSVersion);
#endif
#ifdef JIEF_DEBUG
//SaveOemTables();
#endif
//
DbgHeader("RestSetup macOS");
SetDevices(this);
SetVariablesForOSX(this);
// Jief : if we want to use our FixUSBOwnership, we need our OnExitBootServices
EventsInitialize(this);
FinalizeSmbios(g_SmbiosInjectedSettings);
SetCPUProperties(); //very special procedure
if (OSFLAG_ISSET(Flags, OSFLAG_HIBERNATED)) {
DoHibernateWake = PrepareHibernation(Volume);
}
SetupDataForOSX(DoHibernateWake);
if ( gDriversFlags.AptioFixLoaded &&
!DoHibernateWake &&
!LoadOptions.containsStartWithIC("slide=") ) {
// Add slide=0 argument for ML+ if not present
LoadOptions.AddID("slide=0"_XS8);
}
/**
* syscl - append "-xcpm" argument conditionally if set KernelXCPM on Intel Haswell+ low-end CPUs
*/
if (KernelAndKextPatches.KPKernelXCPM &&
gCPUStructure.Vendor == CPU_VENDOR_INTEL && gCPUStructure.Model >= CPU_MODEL_HASWELL &&
(gCPUStructure.BrandString.contains("Celeron") || gCPUStructure.BrandString.contains("Pentium")) &&
macOSVersion >= MacOsVersion("10.8.5"_XS8) && macOSVersion < MacOsVersion("10.12"_XS8) &&
(!LoadOptions.containsIC("-xcpm"))) {
// add "-xcpm" argv if not present on Haswell+ Celeron/Pentium
LoadOptions.AddID("-xcpm"_XS8);
}
// add -xcpm on Ivy Bridge if set KernelXCPM and system version is 10.8.5 - 10.11.x
if (KernelAndKextPatches.KPKernelXCPM &&
gCPUStructure.Model == CPU_MODEL_IVY_BRIDGE &&
macOSVersion >= MacOsVersion("10.8.5"_XS8) && macOSVersion < MacOsVersion("10.12"_XS8) &&
(!LoadOptions.containsIC("-xcpm"))) {
// add "-xcpm" argv if not present on Ivy Bridge
LoadOptions.AddID("-xcpm"_XS8);
}
if (AudioIo) {
AudioIo->StopPlayback(AudioIo);
// CheckSyncSound(true);
EFI_DRIVER_BINDING_PROTOCOL *DriverBinding = NULL;
Status = gBS->HandleProtocol(AudioDriverHandle, &gEfiDriverBindingProtocolGuid, (void **)&DriverBinding);
if (DriverBinding) {
DriverBinding->Stop(DriverBinding, AudioDriverHandle, 0, NULL);
}
}
// blocking boot.efi output if -v is not specified
// note: this blocks output even if -v is specified in
// /Library/Preferences/SystemConfiguration/com.apple.Boot.plist
// which is wrong
// apianti - only block console output if using graphics
// but don't block custom boot logo
if (LoadOptions.containsIC("-v")) {
Flags = OSFLAG_UNSET(Flags, OSFLAG_USEGRAPHICS);
}
}
else if (OSTYPE_IS_WINDOWS(LoaderType)) {
if (AudioIo) {
AudioIo->StopPlayback(AudioIo);
}
DBG("Closing events for Windows\n");
gBS->CloseEvent (OnReadyToBootEvent);
gBS->CloseEvent (ExitBootServiceEvent);
gBS->CloseEvent (mSimpleFileSystemChangeEvent);
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
PatchACPI_OtherOS(L"Windows", false);
}
else if (OSTYPE_IS_LINUX(LoaderType) || (LoaderType == OSTYPE_LINEFI)) {
DBG("Closing events for Linux\n");
gBS->CloseEvent (OnReadyToBootEvent);
gBS->CloseEvent (ExitBootServiceEvent);
gBS->CloseEvent (mSimpleFileSystemChangeEvent);
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
PatchACPI_OtherOS(L"Linux", false);
}
if (gSettings.Boot.LastBootedVolume) {
if ( APFSTargetUUID.notNull() ) {
// Jief : we need to LoaderPath. If not, GUI can't know which target was selected.
SetStartupDiskVolume(Volume, LoaderPath);
}else{
// Jief : I'm not sure why NullXStringW was given if LoaderType == OSTYPE_OSX.
// Let's do it like it was before when not in case of APFSTargetUUID
SetStartupDiskVolume(Volume, LoaderType == OSTYPE_OSX ? NullXStringW : LoaderPath);
}
} else if (gSettings.Boot.DefaultVolume.notEmpty()) {
// DefaultVolume specified in Config.plist or in Boot Option
// we'll remove macOS Startup Disk vars which may be present if it is used
// to reboot into another volume
RemoveStartupDiskVolume();
}
/*
{
// UINT32 machineSignature = 0;
EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer = NULL;
EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE *Facs = NULL;
// DBG("---dump hibernations data---\n");
FadtPointer = GetFadt();
if (FadtPointer != NULL) {
Facs = (EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE*)(UINTN)(FadtPointer->FirmwareCtrl);
DBG(" Firmware wake address=%08lx\n", Facs->FirmwareWakingVector);
DBG(" Firmware wake 64 addr=%16llx\n", Facs->XFirmwareWakingVector);
DBG(" Hardware signature =%08lx\n", Facs->HardwareSignature);
DBG(" GlobalLock =%08lx\n", Facs->GlobalLock);
DBG(" Flags =%08lx\n", Facs->Flags);
DBG(" HS at offset 0x%08X\n", OFFSET_OF(EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE, HardwareSignature));
// machineSignature = Facs->HardwareSignature;
}
}
*/
BeginExternalScreen(OSFLAG_ISSET(Flags, OSFLAG_USEGRAPHICS)/*, L"Booting OS"*/);
if (!OSTYPE_IS_WINDOWS(LoaderType) && !OSTYPE_IS_LINUX(LoaderType)) {
if (OSFLAG_ISSET(Flags, OSFLAG_USEGRAPHICS)) {
// save orig OutputString and replace it with
// null implementation
ConOutOutputString = gST->ConOut->OutputString;
gST->ConOut->OutputString = NullConOutOutputString;
}
// Initialize the boot screen
if (EFI_ERROR(Status = InitBootScreen(this))) {
if (Status != EFI_ABORTED) DBG("Failed to initialize custom boot screen: %s!\n", efiStrError(Status));
}
else if (EFI_ERROR(Status = LockBootScreen())) {
DBG("Failed to lock custom boot screen: %s!\n", efiStrError(Status));
}
} // !OSTYPE_IS_WINDOWS
if (OSTYPE_IS_OSX(LoaderType) ||
OSTYPE_IS_OSX_RECOVERY(LoaderType) ||
OSTYPE_IS_OSX_INSTALLER(LoaderType)) {
if (DoHibernateWake) {
DBG("Closing events for wake\n");
gBS->CloseEvent (OnReadyToBootEvent);
// gBS->CloseEvent (ExitBootServiceEvent); // Jief : we don't need that anymore, if we continue to use OC onExtBootService event
gBS->CloseEvent (mSimpleFileSystemChangeEvent);
// When doing hibernate wake, save to DataHub only up to initial size of log
SavePreBootLog = false;
} else {
// delete boot-switch-vars if exists
Status = gRT->SetVariable(L"boot-switch-vars", gEfiAppleBootGuid,
EFI_VARIABLE_NON_VOLATILE | EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS,
0, NULL);
DeleteNvramVariable(L"IOHibernateRTCVariables", gEfiAppleBootGuid);
DeleteNvramVariable(L"boot-image", gEfiAppleBootGuid);
}
SetupBooterLog(!DoHibernateWake);
XStringW LoadOptionsAsXStringW = SWPrintf("%ls %s ", Basename(LoaderPath.wc_str()), LoadOptions.ConcatAll(" "_XS8).c_str());
LoadedImage->LoadOptions = (void*)LoadOptionsAsXStringW.wc_str();
LoadedImage->LoadOptionsSize = (UINT32)LoadOptionsAsXStringW.sizeInBytesIncludingTerminator();
DBG("Kernel quirks\n");
DBG("ACPCL %d AXCL %d AXEM %d AXFB %d CSG %d DIM %d DLJ %d DRC %d DPM %d EBTFF %d EDI %d FAI %d IPBS %d LKP %d PNKD %d PTKP %d TPD %d XPL %d PCC %d\n",
mOpenCoreConfiguration.Kernel.Quirks.AppleCpuPmCfgLock,
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmCfgLock,
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmExtraMsrs,
mOpenCoreConfiguration.Kernel.Quirks.AppleXcpmForceBoost,
mOpenCoreConfiguration.Kernel.Quirks.CustomSmbiosGuid,
mOpenCoreConfiguration.Kernel.Quirks.DisableIoMapper,
mOpenCoreConfiguration.Kernel.Quirks.DisableLinkeditJettison,
mOpenCoreConfiguration.Kernel.Quirks.DisableRtcChecksum,
mOpenCoreConfiguration.Kernel.Emulate.DummyPowerManagement,
mOpenCoreConfiguration.Kernel.Quirks.ExtendBTFeatureFlags,
mOpenCoreConfiguration.Kernel.Quirks.ExternalDiskIcons,
mOpenCoreConfiguration.Kernel.Quirks.IncreasePciBarSize,
mOpenCoreConfiguration.Kernel.Quirks.ForceAquantiaEthernet,
mOpenCoreConfiguration.Kernel.Quirks.LapicKernelPanic,
mOpenCoreConfiguration.Kernel.Quirks.PanicNoKextDump,
mOpenCoreConfiguration.Kernel.Quirks.PowerTimeoutKernelPanic,
mOpenCoreConfiguration.Kernel.Quirks.ThirdPartyDrives,
mOpenCoreConfiguration.Kernel.Quirks.XhciPortLimit,
mOpenCoreConfiguration.Kernel.Quirks.ProvideCurrentCpuInfo);
DBG("Closing log\n");
if (SavePreBootLog) {
Status = SaveBooterLog(&self.getCloverDir(), PREBOOT_LOG);
}
AllocSmallBlocks(); // shrink memory map;
#ifdef JIEF_DEBUG
PrintMemoryMap();
displayFreeMemory("Just before launching image"_XS8);
#endif
Status = gBS->StartImage (ImageHandle, 0, NULL); // point to OcStartImage from OC
if ( EFI_ERROR(Status) ) {
// Ideally, we would return to the menu, displaying an error message
// Truth is that we get a black screen before seeing the menu again.
// If I remember well, we get a freeze in BdsLibConnectAllEfi()
// I'm guessing there is a lot of patching done for booting.
// To be able to go back to the menu and boot another thing,
// we must undo all the patching...
// Here is a quick, not as bad as a black screen solution : a text message and a reboot !
DBG("StartImage failed : %s\n", efiStrError(Status));
SaveBooterLog(&self.getCloverDir(), PREBOOT_LOG);
egSetGraphicsModeEnabled(false);
printf("StartImage failed : %s\n", efiStrError(Status));
PauseForKey("Reboot needed."_XS8);
// Attempt warm reboot
gRT->ResetSystem(EfiResetWarm, EFI_SUCCESS, 0, NULL);
// Warm reboot may not be supported attempt cold reboot
gRT->ResetSystem(EfiResetCold, EFI_SUCCESS, 0, NULL);
// Terminate the screen and just exit
return;
}
}else{
StartEFILoadedImage(ImageHandle, LoadOptions, NullXStringW, LoaderPath.basename(), NULL);
}
// Unlock boot screen
if (EFI_ERROR(Status = UnlockBootScreen())) {
DBG("Failed to unlock custom boot screen: %s!\n", efiStrError(Status));
}
if (OSFLAG_ISSET(Flags, OSFLAG_USEGRAPHICS)) {
// return back orig OutputString
gST->ConOut->OutputString = ConOutOutputString;
}
FinishExternalScreen();
}
void LEGACY_ENTRY::StartLegacy()
{
EFI_STATUS Status = EFI_UNSUPPORTED;
// Unload EmuVariable before booting legacy.
// This is not needed in most cases, but it seems to interfere with legacy OS
// booted on some UEFI bioses, such as Phoenix UEFI 2.0
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
if (gSettings.Boot.LastBootedVolume) {
SetStartupDiskVolume(Volume, NullXStringW);
} else if (gSettings.Boot.DefaultVolume.notEmpty()) {
// DefaultVolume specified in Config.plist:
// we'll remove macOS Startup Disk vars which may be present if it is used
// to reboot into another volume
RemoveStartupDiskVolume();
}
egClearScreen(&MenuBackgroundPixel);
BeginExternalScreen(true/*, L"Booting Legacy OS"*/);
XImage BootLogoX;
BootLogoX.LoadXImage(&ThemeX->getThemeDir(), Volume->LegacyOS.IconName);
BootLogoX.Draw((UGAWidth - BootLogoX.GetWidth()) >> 1,
(UGAHeight - BootLogoX.GetHeight()) >> 1);
//try my LegacyBoot
switch (Volume->BootType) {
case BOOTING_BY_CD:
Status = bootElTorito(Volume);
break;
case BOOTING_BY_MBR:
Status = bootMBR(Volume);
break;
case BOOTING_BY_PBR:
if (gSettings.Boot.LegacyBoot == "LegacyBiosDefault"_XS8) {
Status = bootLegacyBiosDefault(gSettings.Boot.LegacyBiosDefaultEntry);
} else if (gSettings.Boot.LegacyBoot == "PBRtest"_XS8) {
Status = bootPBRtest(Volume);
} else if (gSettings.Boot.LegacyBoot == "PBRsata"_XS8) {
Status = bootPBR(Volume, true);
} else {
// default
Status = bootPBR(Volume, false);
}
break;
default:
break;
}
CheckError(Status, L"while LegacyBoot");
FinishExternalScreen();
}
//
// pre-boot tool functions
//
void REFIT_MENU_ENTRY_LOADER_TOOL::StartTool()
{
DBG("Start Tool: %ls\n", LoaderPath.wc_str());
egClearScreen(&MenuBackgroundPixel);
// assumes "Start <title>" as assigned below
BeginExternalScreen(OSFLAG_ISSET(Flags, OSFLAG_USEGRAPHICS)/*, &Entry->Title[6]*/); // Shouldn't we check that length of Title is at least 6 ?
StartEFIImage(DevicePath, LoadOptions, NullXStringW, LoaderPath.basename(), NULL, NULL);
FinishExternalScreen();
}
//
// pre-boot driver functions
//
static void ScanDriverDir(IN CONST CHAR16 *Path, OUT EFI_HANDLE **DriversToConnect, OUT UINTN *DriversToConnectNum)
{
EFI_STATUS Status;
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry;
EFI_HANDLE DriverHandle;
EFI_DRIVER_BINDING_PROTOCOL *DriverBinding;
UINTN DriversArrSize;
UINTN DriversArrNum;
EFI_HANDLE *DriversArr;
XBool Skip;
UINT8 AptioBlessed;
STATIC CHAR16 CONST * CONST AptioNames[] = {
L"AptioMemoryFix",
L"AptioFix3Drv",
L"AptioFix2Drv",
L"AptioFixDrv",
L"LowMemFix"
};
STATIC UINT8 CONST AptioIndices[] = {
OFFSET_OF(DRIVERS_FLAGS, AptioMemFixLoaded),
OFFSET_OF(DRIVERS_FLAGS, AptioFix3Loaded),
OFFSET_OF(DRIVERS_FLAGS, AptioFix2Loaded),
OFFSET_OF(DRIVERS_FLAGS, AptioFixLoaded),
OFFSET_OF(DRIVERS_FLAGS, MemFixLoaded)
};
DriversArrSize = 0;
DriversArrNum = 0;
DriversArr = NULL;
// OpenRuntimeEfiName.setEmpty();
//only one driver with highest priority will obtain status "Loaded"
DirIterOpen(&self.getCloverDir(), Path, &DirIter);
#define BOOLEAN_AT_INDEX(k) (*(XBool*)((UINTN)&gDriversFlags + AptioIndices[(k)]))
for (size_t i = 0; i != ARRAY_SIZE(AptioIndices); ++i)
BOOLEAN_AT_INDEX(i) = false;
AptioBlessed = (UINT8) ARRAY_SIZE(AptioNames);
while (DirIterNext(&DirIter, 2, L"*.efi", &DirEntry)) {
size_t i;
for (i = 0; i != ARRAY_SIZE(AptioNames); ++i)
if (StrStr(DirEntry->FileName, AptioNames[i]) != NULL)
break;
if (((UINT8) i) >= AptioBlessed)
continue;
AptioBlessed = (UINT8) i;
if (!i)
break;
}
DirIterClose(&DirIter);
// look through contents of the directory
DirIterOpen(&self.getCloverDir(), Path, &DirIter);
while (DirIterNext(&DirIter, 2, L"*.efi", &DirEntry)) {
Skip = (DirEntry->FileName[0] == L'.');
for (size_t i=0; i<gSettings.DisabledDriverArray.size(); i++) {
if (StrStr(DirEntry->FileName, gSettings.DisabledDriverArray[i].wc_str()) != NULL) {
Skip = true; // skip this
break;
}
}
if (Skip) {
continue;
}
if ( LStringW(DirEntry->FileName).startWith("._") ) {
continue;
}
if ( LStringW(DirEntry->FileName).containsIC("OcQuirks") ) {
continue;
}
if ( LStringW(DirEntry->FileName).containsIC("AptioMemoryFix") ) {
continue;
}
if ( LStringW(DirEntry->FileName).containsIC("OpenRuntime") ) {
if (!OpenRuntimeEfiName.isEmpty()) {
DBG(" - OpenRuntime already detected\n");
continue;
}
if ( LStringW(DirEntry->FileName).isEqualIC("OpenRuntime-v12.efi") && LString8(OPEN_CORE_VERSION).isEqual("0.7.5") ) {
OpenRuntimeEfiName.takeValueFrom(DirEntry->FileName);
DBG(" - OpenRuntime-v12 for 075 taken from %ls\n", getDriversPath().wc_str());
}else
if ( LStringW(DirEntry->FileName).isEqualIC("OpenRuntime-v12.efi") && LString8(OPEN_CORE_VERSION).isEqual("0.7.3") ) {
OpenRuntimeEfiName.takeValueFrom(DirEntry->FileName);
DBG(" - OpenRuntime-v12 for 073 taken from %ls\n", getDriversPath().wc_str());
}else
if ( LStringW(DirEntry->FileName).isEqualIC("OpenRuntime-v11.efi") && LString8(OPEN_CORE_VERSION).isEqual("0.6.5") ) {
OpenRuntimeEfiName.takeValueFrom(DirEntry->FileName);
DBG(" - OpenRuntime-v11 for 065 taken from %ls\n", getDriversPath().wc_str());
}else
if ( LStringW(DirEntry->FileName).isEqualIC("OpenRuntime-v11.efi") && LString8(OPEN_CORE_VERSION).isEqual("0.6.1") ) {
OpenRuntimeEfiName.takeValueFrom(DirEntry->FileName);
DBG(" - OpenRuntime-v11 for 061 taken from %ls\n", getDriversPath().wc_str());
}else
if ( OpenRuntimeEfiName.isEmpty() ) {
OpenRuntimeEfiName.takeValueFrom(DirEntry->FileName);
}
continue;
}
{
size_t i;
// either AptioMem, AptioFix* or LowMemFix exclusively
for (i = 0; i != ARRAY_SIZE(AptioNames); ++i)
if (StrStr(DirEntry->FileName, AptioNames[i]) != NULL)
break;
if (i != ARRAY_SIZE(AptioNames)) {
if (((UINT8) i) != AptioBlessed)
continue;
if (AptioBlessed < (UINT8) ARRAY_SIZE(AptioIndices))
BOOLEAN_AT_INDEX(AptioBlessed) = true;
AptioBlessed = (UINT8) ARRAY_SIZE(AptioNames);
}
}
#undef BOOLEAN_AT_INDEX
XStringW FileName = SWPrintf("%ls\\%ls\\%ls", self.getCloverDirFullPath().wc_str(), Path, DirEntry->FileName);
Status = StartEFIImage(apd<EFI_DEVICE_PATH_PROTOCOL*>(FileDevicePath(self.getSelfLoadedImage().DeviceHandle, FileName)), NullXString8Array, LStringW(DirEntry->FileName), XStringW().takeValueFrom(DirEntry->FileName), NULL, &DriverHandle);
if (EFI_ERROR(Status)) {
continue;
}
if ( FileName.containsIC("AudioDxe") ) {
AudioDriverHandle = DriverHandle;
}
if ( FileName.containsIC("EmuVariable") ) {
gDriversFlags.EmuVariableLoaded = true;
} else if ( FileName.containsIC("Video") ) {
gDriversFlags.VideoLoaded = true;
} else if ( FileName.containsIC("Partition") ) {
gDriversFlags.PartitionLoaded = true;
} else if ( FileName.containsIC("HFS") ) {
gDriversFlags.HFSLoaded = true;
} else if ( FileName.containsIC("apfs") ) {
gDriversFlags.APFSLoaded = true;
}
if (DriverHandle != NULL && DriversToConnectNum != NULL && DriversToConnect != NULL) {
// driver loaded - check for EFI_DRIVER_BINDING_PROTOCOL
Status = gBS->HandleProtocol(DriverHandle, &gEfiDriverBindingProtocolGuid, (void **) &DriverBinding);
if (!EFI_ERROR(Status) && DriverBinding != NULL) {
DBG(" - driver needs connecting\n");
// standard UEFI driver - we would reconnect after loading - add to array
MemoryStopRecord msr; // DriversArr won't be deallocated because it's passed to RegisterDriversToHighestPriority that keeps it global.
if (DriversArrSize == 0) {
// new array
DriversArrSize = 16;
DriversArr = (__typeof__(DriversArr))AllocateZeroPool(sizeof(EFI_HANDLE) * DriversArrSize);
} else if (DriversArrNum + 1 == DriversArrSize) {
// extend array
DriversArr = (__typeof__(DriversArr))ReallocatePool(DriversArrSize, DriversArrSize + 16, DriversArr);
DriversArrSize += 16;
}
DriversArr[DriversArrNum] = DriverHandle;
// DBG(" driver %ls included with Binding=%X\n", FileName, DriverBinding);
DriversArrNum++;
// we'll make array terminated
DriversArr[DriversArrNum] = NULL;
}
}
}
Status = DirIterClose(&DirIter);
if (Status != EFI_NOT_FOUND) {
CheckError(Status, SWPrintf( "while scanning the %ls directory", Path).wc_str());
}
if (DriversToConnectNum != NULL && DriversToConnect != NULL) {
*DriversToConnectNum = DriversArrNum;
*DriversToConnect = DriversArr;
}
}
/**
* Some UEFI's (like HPQ EFI from HP notebooks) have DiskIo protocols
* opened BY_DRIVER (by Partition driver in HP case) even when no file system
* is produced from this DiskIo. This then blocks our FS drivers from connecting
* and producing file systems.
* To fix it: we will disconnect drivers that connected to DiskIo BY_DRIVER
* if this is partition volume and if those drivers did not produce file system.
*/
void DisconnectInvalidDiskIoChildDrivers(void)
{
EFI_STATUS Status;
UINTN HandleCount = 0;
UINTN Index;
UINTN OpenInfoIndex;
EFI_HANDLE *Handles = NULL;
EFI_SIMPLE_FILE_SYSTEM_PROTOCOL *Fs;
EFI_BLOCK_IO_PROTOCOL *BlockIo;
EFI_OPEN_PROTOCOL_INFORMATION_ENTRY *OpenInfo;
UINTN OpenInfoCount;
XBool Found;
DBG("Searching for invalid DiskIo BY_DRIVER connects:");
//
// Get all DiskIo handles
//
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiDiskIoProtocolGuid, NULL, &HandleCount, &Handles);
if (EFI_ERROR(Status) || HandleCount == 0) {
DBG(" no DiskIo handles\n");
return;
}
//
// Check every DiskIo handle
//
Found = false;
for (Index = 0; Index < HandleCount; Index++) {
//DBG("\n");
//DBG(" - Handle %p:", Handles[Index]);
//
// If this is not partition - skip it.
// This is then whole disk and DiskIo
// should be opened here BY_DRIVER by Partition driver
// to produce partition volumes.
//
Status = gBS->HandleProtocol (
Handles[Index],
&gEfiBlockIoProtocolGuid,
(void **) &BlockIo
);
if (EFI_ERROR(Status)) {
//DBG(" BlockIo: %s - skipping\n", efiStrError(Status));
continue;
}
if (BlockIo->Media == NULL) {
//DBG(" BlockIo: no media - skipping\n");
continue;
}
if (!BlockIo->Media->LogicalPartition) {
//DBG(" BlockIo: whole disk - skipping\n");
continue;
}
//DBG(" BlockIo: partition");
//
// If SimpleFileSystem is already produced - skip it, this is ok
//
Status = gBS->HandleProtocol (
Handles[Index],
&gEfiSimpleFileSystemProtocolGuid,
(void **) &Fs
);
if (Status == EFI_SUCCESS) {
//DBG(" FS: ok - skipping\n");
continue;
}
//DBG(" FS: no");
//
// If no SimpleFileSystem on this handle but DiskIo is opened BY_DRIVER
// then disconnect this connection
//
Status = gBS->OpenProtocolInformation (
Handles[Index],
&gEfiDiskIoProtocolGuid,
&OpenInfo,
&OpenInfoCount
);
if (EFI_ERROR(Status)) {
//DBG(" OpenInfo: no - skipping\n");
continue;
}
//DBG(" OpenInfo: %d", OpenInfoCount);
for (OpenInfoIndex = 0; OpenInfoIndex < OpenInfoCount; OpenInfoIndex++) {
if ((OpenInfo[OpenInfoIndex].Attributes & EFI_OPEN_PROTOCOL_BY_DRIVER) == EFI_OPEN_PROTOCOL_BY_DRIVER) {
if (!Found) {
DBG("\n");
}
Found = true;
Status = gBS->DisconnectController (Handles[Index], OpenInfo[OpenInfoIndex].AgentHandle, NULL);
//DBG(" BY_DRIVER Agent: %p, Disconnect: %s", OpenInfo[OpenInfoIndex].AgentHandle, efiStrError(Status));
DBG(" - Handle %llx with DiskIo, is Partition, no Fs, BY_DRIVER Agent: %llx, Disconnect: %s\n", (uintptr_t)Handles[Index], (uintptr_t)(OpenInfo[OpenInfoIndex].AgentHandle), efiStrError(Status));
}
}
gBS->FreePool(OpenInfo); // use gBS->FreePool instead of FreePool to avoid message from MemoryTracker
}
gBS->FreePool(Handles); // use gBS->FreePool instead of FreePool to avoid message from MemoryTracker
if (!Found) {
DBG(" not found, all ok\n");
}
}
void DisconnectSomeDevices(void)
{
EFI_STATUS Status;
UINTN HandleCount;
UINTN Index, Index2;
EFI_HANDLE *Handles ;
EFI_HANDLE *ControllerHandles;
UINTN ControllerHandleCount;
EFI_BLOCK_IO_PROTOCOL *BlockIo = NULL;
// EFI_DISK_IO_PROTOCOL *DiskIo = NULL;
EFI_PCI_IO_PROTOCOL *PciIo = NULL;
// EFI_FILE_PROTOCOL *RootFP = NULL;
// EFI_SIMPLE_FILE_SYSTEM_PROTOCOL *VolumeFS = NULL;
PCI_TYPE00 Pci;
CHAR16 *DriverName = NULL;
EFI_COMPONENT_NAME_PROTOCOL *CompName = NULL;
if (gDriversFlags.PartitionLoaded) {
DBG("Partition driver loaded: ");
// get all BlockIo handles
HandleCount = 0;
Handles = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiBlockIoProtocolGuid, NULL, &HandleCount, &Handles);
if (Status == EFI_SUCCESS) {
for (Index = 0; Index < HandleCount; Index++) {
Status = gBS->HandleProtocol(Handles[Index], &gEfiBlockIoProtocolGuid, (void **) &BlockIo);
if (EFI_ERROR(Status)) {
continue;
}
if (BlockIo->Media->BlockSize == 2048) {
// disconnect CD controller
Status = gBS->DisconnectController(Handles[Index], NULL, NULL);
DBG("CD disconnect %s", efiStrError(Status));
}
}
/* for (Index = 0; Index < HandleCount; Index++) {
Status = gBS->DisconnectController(Handles[Index], NULL, NULL);
} */
FreePool(Handles);
}
DBG("\n");
}
if ((gDriversFlags.HFSLoaded) || (gDriversFlags.APFSLoaded)) {
if (gDriversFlags.HFSLoaded) {
DBG("HFS+ driver loaded\n");
}
if (gDriversFlags.APFSLoaded) {
DBG("APFS driver loaded\n");
}
// get all FileSystem handles
ControllerHandleCount = 0;
ControllerHandles = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiSimpleFileSystemProtocolGuid, NULL, &ControllerHandleCount, &ControllerHandles);
/* if (!EFI_ERROR(Status)) {
for (Index2 = 0; Index2 < ControllerHandleCount; Index2++) {
Status = gBS->DisconnectController(ControllerHandles[Index2],
NULL, NULL);
DBG("Driver [%d] disconnect %s\n", Index2, efiStrError(Status));
}
} */
HandleCount = 0;
Handles = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiComponentNameProtocolGuid, NULL, &HandleCount, &Handles);
if (!EFI_ERROR(Status)) {
for (Index = 0; Index < HandleCount; Index++) {
Status = gBS->OpenProtocol(
Handles[Index],
gEfiComponentNameProtocolGuid,
(void**)&CompName,
gImageHandle,
NULL,
EFI_OPEN_PROTOCOL_GET_PROTOCOL);
if (EFI_ERROR(Status)) {
// DBG("CompName %s\n", efiStrError(Status));
continue;
}
// 2021-05, Jief : PG7 had a crash. In some cases, CompName->GetDriverName == NULL.
if ( CompName->GetDriverName == NULL ) {
DBG("DisconnectSomeDevices: GetDriverName CompName=%lld, CompName->GetDriverName=NULL\n", uintptr_t(CompName));
continue;
}
Status = CompName->GetDriverName(CompName, "eng", &DriverName);
if (EFI_ERROR(Status)) {
continue;
}
if ((StriStr(DriverName, L"HFS")) || (StriStr(DriverName, L"apfs"))) {
for (Index2 = 0; Index2 < ControllerHandleCount; Index2++) {
Status = gBS->DisconnectController(ControllerHandles[Index2],
Handles[Index], NULL);
//DBG("Disconnect [%ls] from %llX: %s\n", DriverName, uintptr_t(ControllerHandles[Index2]), efiStrError(Status));
}
}
}
gBS->FreePool(Handles); // use gBS->FreePool instead of FreePool to avoid message from MemoryTracker
}
// DBG("\n");
gBS->FreePool(ControllerHandles); // use gBS->FreePool instead of FreePool to avoid message from MemoryTracker
}
if (gDriversFlags.VideoLoaded) {
DBG("Video driver loaded: ");
// get all PciIo handles
HandleCount = 0;
Handles = NULL;
Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiPciIoProtocolGuid, NULL, &HandleCount, &Handles);
if (Status == EFI_SUCCESS) {
for (Index = 0; Index < HandleCount; Index++) {
Status = gBS->HandleProtocol(Handles[Index], &gEfiPciIoProtocolGuid, (void **) &PciIo);
if (EFI_ERROR(Status)) {
continue;
}
Status = PciIo->Pci.Read (PciIo, EfiPciIoWidthUint32, 0, sizeof (Pci) / sizeof (UINT32), &Pci);
if (!EFI_ERROR(Status)) {
if(IS_PCI_VGA(&Pci) == true) {
// disconnect VGA
Status = gBS->DisconnectController(Handles[Index], NULL, NULL);
DBG("disconnect %s", efiStrError(Status));
}
}
}
FreePool(Handles);
}
DBG("\n");
}
if (!gFirmwareClover) {
DisconnectInvalidDiskIoChildDrivers();
}
}
void PatchVideoBios(UINT8 *Edid)
{
if ( gSettings.Graphics.PatchVBiosBytes.notEmpty() ) {
VideoBiosPatchBytes(gSettings.Graphics.PatchVBiosBytes.getVBIOS_PATCH_BYTES(), gSettings.Graphics.PatchVBiosBytes.getVBIOS_PATCH_BYTES_count());
}
if (gSettings.Graphics.PatchVBios) {
VideoBiosPatchNativeFromEdid(Edid);
}
}
static void LoadDrivers(void)
{
EFI_STATUS Status;
EFI_HANDLE *DriversToConnect = NULL;
UINTN DriversToConnectNum = 0;
UINT8 *Edid;
UINTN VarSize = 0;
XBool VBiosPatchNeeded;
DbgHeader("LoadDrivers");
// load drivers from /efi/drivers
#if defined(MDE_CPU_X64)
if (gFirmwareClover) {
if (FileExists(&self.getCloverDir(), L"drivers\\BIOS")) {
ScanDriverDir(L"drivers\\BIOS", &DriversToConnect, &DriversToConnectNum);
} else {
ScanDriverDir(L"drivers64", &DriversToConnect, &DriversToConnectNum);
}
} else {
OpenRuntimeEfiName.setEmpty();
if (FileExists(&self.getCloverDir(), L"drivers\\5142")) {
ScanDriverDir(L"drivers\\5142", &DriversToConnect, &DriversToConnectNum);
}
if (FileExists(&self.getCloverDir(), L"drivers\\UEFI")) {
ScanDriverDir(L"drivers\\UEFI", &DriversToConnect, &DriversToConnectNum);
} else {
ScanDriverDir(L"drivers64UEFI", &DriversToConnect, &DriversToConnectNum);
}
}
#else
ScanDriverDir(L"drivers32", &DriversToConnect, &DriversToConnectNum);
#endif
// DriversToConnect is allocated by ScanDriverDir, but DO NOT free it. RegisterDriversToHighestPriority will store it in the global var mPriorityDrivers.
VBiosPatchNeeded = gSettings.Graphics.PatchVBios || gSettings.Graphics.PatchVBiosBytes.getVBIOS_PATCH_BYTES_count() > 0;
if (VBiosPatchNeeded) {
// check if it is already done in CloverEFI BiosVideo
Status = gRT->GetVariable (
L"CloverVBiosPatchDone",
gEfiGlobalVariableGuid,
NULL,
&VarSize,
NULL
);
if (Status == EFI_BUFFER_TOO_SMALL) {
// var exists - it's done - let's not do it again
VBiosPatchNeeded = false;
}
}
if ( (gSettings.Graphics.EDID.CustomEDID.notEmpty() && gFirmwareClover) || (VBiosPatchNeeded && !gDriversFlags.VideoLoaded)) {
// we have video bios patch - force video driver reconnect
DBG("Video bios patch requested or CustomEDID - forcing video reconnect\n");
gDriversFlags.VideoLoaded = true;
DriversToConnectNum++;
}
UninitRefitLib();
if (DriversToConnectNum > 0) {
DBG("%llu drivers needs connecting ...\n", DriversToConnectNum);
// note: our platform driver protocol
// will use DriversToConnect - do not release it
RegisterDriversToHighestPriority(DriversToConnect);
if (VBiosPatchNeeded) {
if (gSettings.Graphics.EDID.CustomEDID.notEmpty()) {
Edid = gSettings.Graphics.EDID.CustomEDID.data();
} else {
Edid = getCurrentEdid();
}
DisconnectSomeDevices();
PatchVideoBios(Edid);
if (gSettings.Graphics.EDID.CustomEDID.isEmpty()) {
FreePool(Edid);
}
} else {
DisconnectSomeDevices();
}
BdsLibConnectAllDriversToAllControllers();
// Boot speedup: remove temporary "BiosVideoBlockSwitchMode" RT var
// to unlock mode switching in CsmVideo
gRT->SetVariable(L"BiosVideoBlockSwitchMode", gEfiGlobalVariableGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS, 0, NULL);
}else{
BdsLibConnectAllEfi(); // jief : without any driver loaded, i couldn't see my CD, unless I call BdsLibConnectAllEfi
}
ReinitRefitLib();
}
INTN FindDefaultEntry(void)
{
INTN Index = -1;
REFIT_VOLUME *Volume;
XBool SearchForLoader;
// DBG("FindDefaultEntry ...\n");
//DbgHeader("FindDefaultEntry");
//
// try to detect volume set by Startup Disk or previous Clover selection
// with broken nvram this requires emulation to be installed.
// enable emulation to determine efi-boot-device-data
if (gEmuVariableControl != NULL) {
gEmuVariableControl->InstallEmulation(gEmuVariableControl);
}
Index = FindStartupDiskVolume(&MainMenu);
if (Index >= 0) {
DBG("Boot redirected to Entry %lld. '%ls'\n", Index, MainMenu.Entries[Index].Title.s());
// we got boot-device-data, no need to keep emulating anymore
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
return Index;
}
//
// if not found, then try DefaultVolume from config.plist
// if not null or empty, search volume that matches gSettings.Boot.DefaultVolume
//
if (gSettings.Boot.DefaultVolume.notEmpty()) {
// if not null or empty, also search for loader that matches gSettings.Boot.DefaultLoader
SearchForLoader = gSettings.Boot.DefaultLoader.notEmpty();
/*
if (SearchForLoader) {
DBG("Searching for DefaultVolume '%ls', DefaultLoader '%ls' ...\n", gSettings.Boot.DefaultVolume, gSettings.Boot.DefaultLoader);
} else {
DBG("Searching for DefaultVolume '%ls' ...\n", gSettings.Boot.DefaultVolume);
}
*/
for (Index = 0; Index < (INTN)MainMenu.Entries.size() && MainMenu.Entries[Index].getLOADER_ENTRY() && MainMenu.Entries[Index].getLOADER_ENTRY()->Row == 0 ; Index++) {
LOADER_ENTRY& Entry = *MainMenu.Entries[Index].getLOADER_ENTRY();
if (!Entry.Volume) {
continue;
}
Volume = Entry.Volume;
if ( (Volume->VolName.isEmpty() || Volume->VolName != gSettings.Boot.DefaultVolume) &&
!Volume->DevicePathString.contains(gSettings.Boot.DefaultVolume) ) {
continue;
}
// we alreday know that Entry.isLoader
if (SearchForLoader && (/*Entry.Tag != TAG_LOADER ||*/ !Entry.LoaderPath.containsIC(gSettings.Boot.DefaultLoader))) {
continue;
}
DBG(" - found entry %lld. '%ls', Volume '%ls', DevicePath '%ls'\n", Index, Entry.Title.s(), Volume->VolName.wc_str(), Entry.DevicePathString.wc_str());
// if first method failed and second succeeded - uninstall emulation
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
return Index;
}
}
DBG("Default boot entry not found\n");
// if both methods to determine default boot entry have failed - uninstall emulation before GUI
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
return -1;
}
void SetVariablesFromNvram()
{
CHAR8 *tmpString;
UINTN Size = 0;
UINTN index = 0, index2, i;
CHAR8 *arg = NULL;
// DbgHeader("SetVariablesFromNvram");
tmpString = (__typeof__(tmpString))GetNvramVariable(L"boot-args", gEfiAppleBootGuid, NULL, &Size);
if (tmpString && (Size <= 0x1000) && (Size > 0)) {
DBG("found boot-args in NVRAM:%s, size=%llu\n", tmpString, Size);
// use and forget old one
// DeleteNvramVariable(L"boot-args", &gEfiAppleBootGuid);
Size = AsciiStrLen(tmpString); // some EFI implementations include '\0' in Size, and others don't, so update Size to string length
arg = (__typeof__(arg))AllocatePool(Size+1);
/* if (AsciiStrStr(tmpString, "nvda_drv=1")) { //found substring
gSettings.NvidiaWeb = true;
} */
//first we will find new args that is not present in main args
index = 0;
while ((index < Size) && (tmpString[index] != 0x0)) {
ZeroMem(arg, Size+1);
index2 = 0;
if (tmpString[index] != '\"') {
// DBG("search space index=%d\n", index);
while ((index < Size) && (tmpString[index] != 0x20) && (tmpString[index] != 0x0)) {
arg[index2++] = tmpString[index++];
}
DBG("...found arg:%s\n", arg);
} else {
index++;
// DBG("search quote index=%d\n", index);
while ((index < Size) && (tmpString[index] != '\"') && (tmpString[index] != 0x0)) {
arg[index2++] = tmpString[index++];
}
if (tmpString[index] == '\"') {
index++;
}
DBG("...found quoted arg:\n"/*, arg*/);
}
while (tmpString[index] == 0x20) {
index++;
}
// For the moment only arg -s must be ignored
if (AsciiStrCmp(arg, "-s") == 0) {
DBG("...ignoring arg:%s\n", arg);
continue;
}
if (!gSettings.Boot.BootArgs.contains(arg)) {
//this arg is not present will add
DBG("...adding arg:%s\n", arg);
gSettings.Boot.BootArgs.trim();
gSettings.Boot.BootArgs += ' ';
for (i = 0; i < index2; i++) {
gSettings.Boot.BootArgs += arg[i];
}
gSettings.Boot.BootArgs += ' ';
}
}
FreePool(arg);
}
if (tmpString) {
FreePool(tmpString);
}
tmpString = (__typeof__(tmpString))GetNvramVariable(L"nvda_drv", gEfiAppleBootGuid, NULL, NULL);
if (tmpString && AsciiStrCmp(tmpString, "1") == 0) {
gSettings.SystemParameters.NvidiaWeb = true;
}
if (tmpString) {
FreePool(tmpString);
}
}
void
GetListOfConfigs()
{
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry;
ConfigsList.setEmpty();
OldChosenConfig = 0;
DirIterOpen(&selfOem.getConfigDir(), NULL, &DirIter);
DbgHeader("Found config plists");
while (DirIterNext(&DirIter, 2, L"config*.plist", &DirEntry)) {
if (DirEntry->FileName[0] == L'.') {
continue;
}
if (StriCmp(DirEntry->FileName, L"config.plist") == 0) {
OldChosenConfig = ConfigsList.size(); // DirEntry->FileName is not yet inserted into ConfigsList. So its index will be ConfigsList.size()
}
size_t NameLen = wcslen(DirEntry->FileName) - 6; //without ".plist"
if ( NameLen <= MAX_INTN ) {
ConfigsList.AddReference(SWPrintf("%.*ls", (int)NameLen, DirEntry->FileName).forgetDataWithoutFreeing(), true); // this avoid to reallocate and copy memory
DBG("- %ls\n", DirEntry->FileName);
}else{
DBG("- bug!, NameLen > MAX_INTN");
}
}
DirIterClose(&DirIter);
}
void
GetListOfDsdts()
{
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry;
DsdtsList.setEmpty();
OldChosenDsdt = 0xFFFF;
DirIterOpen(&selfOem.getConfigDir(), L"ACPI\\patched", &DirIter);
DbgHeader("Found DSDT tables");
while (DirIterNext(&DirIter, 2, L"DSDT*.aml", &DirEntry)) {
if (DirEntry->FileName[0] == L'.') {
continue;
}
if ( gSettings.ACPI.DSDT.DsdtName.isEqualIC(DirEntry->FileName) ) {
OldChosenDsdt = DsdtsList.size(); // DirEntry->FileName is not yet inserted into DsdtsList. So its index will be DsdtsList.size()
}
size_t NameLen = wcslen(DirEntry->FileName); //with ".aml"
DsdtsList.AddReference(SWPrintf("%.*ls", (int)NameLen, DirEntry->FileName).forgetDataWithoutFreeing(), true); // this avoid to reallocate and copy memory
DBG("- %ls\n", DirEntry->FileName);
}
DirIterClose(&DirIter);
}
void
GetListOfACPI()
{
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry = NULL;
// XStringW AcpiPath = SWPrintf("%ls\\ACPI\\patched", OEMPath.wc_str());
// DBG("Get list of ACPI at path %ls\n", AcpiPath.wc_str());
ACPIPatchedAML.setEmpty();
DirIterOpen(&selfOem.getConfigDir(), L"ACPI\\patched", &DirIter);
while (DirIterNext(&DirIter, 2, L"*.aml", &DirEntry)) {
// DBG("next entry is %ls\n", DirEntry->FileName);
if (DirEntry->FileName[0] == L'.') {
continue;
}
if (StriStr(DirEntry->FileName, L"DSDT")) {
continue;
}
// DBG("Found name %ls\n", DirEntry->FileName);
XBool ACPIDisabled = false;
ACPI_PATCHED_AML* ACPIPatchedAMLTmp = new ACPI_PATCHED_AML;
ACPIPatchedAMLTmp->FileName.takeValueFrom(DirEntry->FileName);
INTN Count = gSettings.ACPI.DisabledAML.size();
for (INTN i = 0; i < Count; i++) {
if ( gSettings.ACPI.DisabledAML[i].isEqualIC(ACPIPatchedAMLTmp->FileName) ) {
// if ((gSettings.ACPI.DisabledAML[i] != NULL) &&
// (StriCmp(ACPIPatchedAMLTmp->FileName, gSettings.ACPI.DisabledAML[i]) == 0)
// ) {
ACPIDisabled = true;
break;
}
}
ACPIPatchedAMLTmp->MenuItem.BValue = ACPIDisabled;
ACPIPatchedAML.AddReference(ACPIPatchedAMLTmp, true);
}
DirIterClose(&DirIter);
}
void
GetListOfThemes ()
{
EFI_STATUS Status = EFI_NOT_FOUND;
REFIT_DIR_ITER DirIter;
EFI_FILE_INFO *DirEntry;
XStringW ThemeTestPath;
EFI_FILE *ThemeTestDir = NULL;
UINT8 *ThemePtr = NULL;
UINTN Size = 0;
DbgHeader("GetListOfThemes");
ThemeNameArray.setEmpty();
if ( !self.themesDirExists() ) {
DBG("No theme dir was discovered\n");
return;
}
DirIterOpen(&self.getThemesDir(), NULL, &DirIter);
while (DirIterNext(&DirIter, 1, L"*", &DirEntry)) {
if (DirEntry->FileName[0] == '.') {
//DBG("Skip theme: %ls\n", DirEntry->FileName);
continue;
}
//DBG("Found theme directory: %ls", DirEntry->FileName);
DBG("- [%02zu]: %ls", ThemeNameArray.size(), DirEntry->FileName);
Status = self.getThemesDir().Open(&self.getThemesDir(), &ThemeTestDir, DirEntry->FileName, EFI_FILE_MODE_READ, 0);
if (!EFI_ERROR(Status)) {
Status = egLoadFile(ThemeTestDir, CONFIG_THEME_FILENAME, &ThemePtr, &Size);
if (EFI_ERROR(Status) || (ThemePtr == NULL) || (Size == 0)) {
Status = egLoadFile(ThemeTestDir, CONFIG_THEME_SVG, &ThemePtr, &Size);
if (EFI_ERROR(Status)) {
Status = EFI_NOT_FOUND;
DBG(" - bad theme because %ls nor %ls can't be load", CONFIG_THEME_FILENAME, CONFIG_THEME_SVG);
}
}
if (!EFI_ERROR(Status)) {
//we found a theme
if ((StriCmp(DirEntry->FileName, L"embedded") == 0) ||
(StriCmp(DirEntry->FileName, L"random") == 0)) {
ThemePtr = NULL;
} else {
ThemeNameArray.Add(DirEntry->FileName);
}
}
}
DBG("\n");
if (ThemePtr) {
FreePool(ThemePtr);
}
}
DirIterClose(&DirIter);
}
//
// secondary main entry point
//
EFI_STATUS
EFIAPI
RefitMainMain (IN EFI_HANDLE ImageHandle,
IN EFI_SYSTEM_TABLE *SystemTable)
{
EFI_STATUS Status;
XBool MainLoopRunning = true;
XBool ReinitDesktop = true;
XBool AfterTool = false;
REFIT_ABSTRACT_MENU_ENTRY *ChosenEntry = NULL;
REFIT_ABSTRACT_MENU_ENTRY *DefaultEntry = NULL;
REFIT_ABSTRACT_MENU_ENTRY *OptionEntry = NULL;
INTN DefaultIndex;
UINTN MenuExit;
UINTN i;
EFI_TIME Now;
XBool HaveDefaultVolume;
REFIT_MENU_SCREEN BootScreen;
BootScreen.isBootScreen = true; //other screens will be constructed as false
MemLogInit();
// bootstrap
gST = SystemTable;
gImageHandle = ImageHandle;
gBS = SystemTable->BootServices;
gRT = SystemTable->RuntimeServices;
/*Status = */EfiGetSystemConfigurationTable (&gEfiDxeServicesTableGuid, (void **) &gDS);
InitBooterLog();
// ConsoleInHandle = SystemTable->ConsoleInHandle;
//#define DEBUG_ERALY_CRASH
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step1");
// PauseForKey();
#endif
#ifdef DEBUG_ON_SERIAL_PORT
SerialPortInitialize();
#endif
{
EFI_LOADED_IMAGE* LoadedImage;
Status = gBS->HandleProtocol(gImageHandle, &gEfiLoadedImageProtocolGuid, (void **) &LoadedImage);
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step2");
// PauseForKey();
#endif
// if ( !EFI_ERROR(Status) ) {
// XString8 msg = S8Printf("CloverX64 : Image base = 0x%llX\n", (uintptr_t)LoadedImage->ImageBase); // do not change, it's used by grep to feed the debugger
// SerialPortWrite((UINT8*)msg.c_str(), msg.length());
// }
if ( !EFI_ERROR(Status) ) {
DBG("CloverX64 : Image base = 0x%llX\n", (uintptr_t)LoadedImage->ImageBase); // do not change, it's used by grep to feed the debugger
DBG("Clover ImageHandle = %llx\n", (uintptr_t)ImageHandle);
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step3");
// PauseForKey();
#endif
}
#ifdef JIEF_DEBUG
gBS->Stall(2500000); // to give time to gdb to connect
// PauseForKey();
#endif
}
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step4");
// PauseForKey();
#endif
#ifdef CLOVER_BUILD
// BE CAREFUL. construct_globals_objects will call ctor on every static struct and classes.
// For example, if you do "gCPUStructure.TSCCalibr = GetMemLogTscTicksPerSecond();" before this point, it will be erased by construct_globals_objects()
construct_globals_objects(gImageHandle);
#endif
MemoryTrackerInstallHook();
gCPUStructure.TSCCalibr = GetMemLogTscTicksPerSecond(); //ticks for 1second
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step5");
PauseForKey();
#endif
#ifdef JIEF_DEBUG
// all_tests();
// PauseForKey(L"press\n");
#endif
gRT->GetTime(&Now, NULL);
Status = InitRefitLib(gImageHandle); // From here, debug.log starts to be saved because InitRefitLib call self.initialize()
if (EFI_ERROR(Status))
return Status;
#ifdef DEBUG_ERALY_CRASH
SystemTable->ConOut->OutputString(SystemTable->ConOut, L"Step6");
PauseForKey();
#endif
// firmware detection
gFirmwareClover = StrCmp(gST->FirmwareVendor, L"CLOVER") == 0;
if (!gFirmwareRevision) {
// gFirmwareRevision = P__oolPrint(L"%d", gST->FirmwareRevision);
}
DataHubInstall (ImageHandle, SystemTable);
InitializeConsoleSim();
DbgHeader("Starting Clover");
if (Now.TimeZone < -1440 || Now.TimeZone > 1440) {
MsgLog("Now is %02d.%02d.%d, %02d:%02d:%02d (GMT)\n",
Now.Day, Now.Month, Now.Year, Now.Hour, Now.Minute, Now.Second);
} else {
MsgLog("Now is %02d.%02d.%d, %02d:%02d:%02d (GMT+%d)\n",
Now.Day, Now.Month, Now.Year, Now.Hour, Now.Minute, Now.Second, gSettings.GUI.Timezone);
}
//MsgLog("Starting Clover rev %ls on %ls EFI\n", gFirmwareRevision, gST->FirmwareVendor);
MsgLog("Starting %s on %ls EFI\n", gRevisionStr, gST->FirmwareVendor);
MsgLog("Build id: %s\n", gBuildId.c_str());
if ( gBuildInfo ) DBG("Build with: [%s]\n", gBuildInfo);
#ifdef JIEF_DEBUG
displayFreeMemory(""_XS8);
#endif
//dumping SETTING structure
// if you change something in Platform.h, please uncomment and test that all offsets
// are natural aligned i.e. pointers are 8 bytes aligned
/*
DBG("Settings offsets:\n");
DBG(" OEMProduct: %X\n", OFFSET_OF(SETTINGS_DATA, OEMProduct));
DBG(" DefaultVolume: %X\n", OFFSET_OF(SETTINGS_DATA, DefaultVolume));
DBG(" DefaultLoader: %X\n", OFFSET_OF(SETTINGS_DATA, DefaultLoader));
DBG(" ResetAddr: %X\n", OFFSET_OF(SETTINGS_DATA, ResetAddr));
DBG(" FixDsdt: %X\n", OFFSET_OF(SETTINGS_DATA, FixDsdt));
DBG(" FakeATI: %X\n", OFFSET_OF(SETTINGS_DATA, FakeATI));
DBG(" PatchVBiosBytes:%X\n", OFFSET_OF(SETTINGS_DATA, PatchVBiosBytes));
DBG(" VRAM: %X\n", OFFSET_OF(SETTINGS_DATA, VRAM));
DBG(" SecureBootWhiteListCount: %X\n", OFFSET_OF(SETTINGS_DATA, SecureBootWhiteListCount));
DBG(" LegacyBoot: %X\n", OFFSET_OF(SETTINGS_DATA, LegacyBoot));
DBG(" HVHideStrings: %X\n", OFFSET_OF(SETTINGS_DATA, HVHideStrings));
DBG(" PointerSpeed: %X\n", OFFSET_OF(SETTINGS_DATA, PointerSpeed));
DBG(" RtMLB: %X\n", OFFSET_OF(SETTINGS_DATA, RtMLB));
DBG(" ConfigName: %X\n", OFFSET_OF(SETTINGS_DATA, ConfigName));
DBG(" PointerSpeed: %X\n", OFFSET_OF(SETTINGS_DATA, PointerSpeed));
DBG(" PatchDsdtNum: %X\n", OFFSET_OF(SETTINGS_DATA, PatchDsdtNum));
DBG(" LenToReplace: %X\n", OFFSET_OF(SETTINGS_DATA, LenToReplace));
DBG(" ACPIDropTables: %X\n", OFFSET_OF(SETTINGS_DATA, ACPIDropTables));
DBG(" CustomEntries: %X\n", OFFSET_OF(SETTINGS_DATA, CustomEntries));
DBG(" CustomTool: %X\n", OFFSET_OF(SETTINGS_DATA, CustomTool));
DBG(" AddProperties: %X\n", OFFSET_OF(SETTINGS_DATA, AddProperties));
DBG(" BlockKexts: %X\n", OFFSET_OF(SETTINGS_DATA, BlockKexts));
*/
// disable EFI watchdog timer
gBS->SetWatchdogTimer(0x0000, 0x0000, 0x0000, NULL);
// ZeroMem((void*)&gSettings, sizeof(SETTINGS_DATA));
Status = InitializeUnicodeCollationProtocol();
if (EFI_ERROR(Status)) {
DBG("UnicodeCollation Status=%s\n", efiStrError(Status));
}
// Status = gBS->HandleProtocol(ConsoleInHandle, &gEfiSimpleTextInputExProtocolGuid, (void **)&SimpleTextEx);
// if ( EFI_ERROR(Status) ) {
// SimpleTextEx = NULL;
// }
// DBG("SimpleTextEx Status=%s\n", efiStrError(Status));
gConf.InitialisePlatform();
#ifdef JIEF_DEBUG
//DumpNvram();
#endif
/*
* saving debug.log works from here
*/
{
// UINT32 machineSignature = 0;
EFI_ACPI_2_0_FIXED_ACPI_DESCRIPTION_TABLE *FadtPointer = NULL;
EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE *Facs = NULL;
// DBG("---dump hibernations data---\n");
FadtPointer = GetFadt();
if (FadtPointer != NULL) {
Facs = (EFI_ACPI_4_0_FIRMWARE_ACPI_CONTROL_STRUCTURE*)(UINTN)(FadtPointer->FirmwareCtrl);
/*
DBG(" Firmware wake address=%08lx\n", Facs->FirmwareWakingVector);
DBG(" Firmware wake 64 addr=%16llx\n", Facs->XFirmwareWakingVector);
DBG(" Hardware signature =%08lx\n", Facs->HardwareSignature);
DBG(" GlobalLock =%08lx\n", Facs->GlobalLock);
DBG(" Flags =%08lx\n", Facs->Flags);
*/
machineSignature = Facs->HardwareSignature;
}
#if HIBERNATE_DUMP_DATA
//------------------------------------------------------
DumpVariable(L"Boot0082", gEfiGlobalVariableGuid, 8);
DumpVariable(L"boot-switch-vars", gEfiAppleBootGuid, -1);
DumpVariable(L"boot-signature", gEfiAppleBootGuid, -1);
DumpVariable(L"boot-image-key", gEfiAppleBootGuid, -1);
DumpVariable(L"boot-image", gEfiAppleBootGuid, 0);
//-----------------------------------------------------------
#endif //
}
#if 0
//testing place
{
//#define ARRAY_SIZE(Array) (sizeof (Array) / sizeof ((Array)[0]))
#define L_STR_LEN(String) (ARRAY_SIZE (String) - 1)
DBG("strlen '<' =%ld or %lld\n", L_STR_LEN("<"), AsciiStrLen("<"));
DBG(" size CHAR8=%ld\n", sizeof(CHAR8));
DBG(" size CHAR16=%ld\n", sizeof(CHAR16));
DBG(" size wchar_t=%ld\n", sizeof(wchar_t));
DBG(" size char32_t=%ld\n", sizeof(char32_t));
DBG(" size char16_t=%ld\n", sizeof(char16_t));
const CHAR16 aaa[] = L"12345 ";
const CHAR8 *bbb = "12345 ";
DBG(" string %ls, size=%lld, len=%lld sizeof=%ld iStrLen=%lld\n", aaa, StrSize(aaa), StrLen(aaa), sizeof(aaa), iStrLen(bbb, 10));
const CHAR8* ccc = "Выход ";
DBG(" string %s, size=%lld, len=%lld sizeof=%ld iStrLen=%lld\n", ccc, AsciiStrSize(ccc), AsciiStrLen(ccc), sizeof(ccc), iStrLen(ccc, 10));
XString8 ddd = "Выход "_XS8;
// size_t sizex = ddd.allocatedSize();
DBG(" xstring %s, asize=%ld, sizeinbyte=%ld sizeof=%ld lastcharat=%ld\n", ddd.c_str(), ddd.allocatedSize(),
ddd.sizeInBytes(), sizeof(ddd), ddd.indexOf(ddd.lastChar()));
CHAR8 compatible[64];
UINT32 FakeLAN = 0x0030168c;
UINT32 FakeID = FakeLAN >> 16;
UINT32 FakeVendor = FakeLAN & 0xFFFF;
snprintf(compatible, 64, "pci%x,%x", FakeVendor, FakeID);
DBG(" FakeLAN = 0x%x\n", FakeLAN);
DBG(" Compatible=%s strlen=%ld sizeof=%ld iStrLen=%lld\n", compatible,
strlen(compatible), sizeof(compatible), iStrLen(compatible, 64));
// LowCase(compatible);
// DBG(" Low Compatible=%s strlen=%ld sizeof=%ld iStrLen=%lld\n", compatible,
// strlen(compatible), sizeof(compatible), iStrLen(compatible, 64));
DBG("void*=%ld int=%ld long=%ld longlong=%ld enum=%ld\n",
sizeof(void*), sizeof(int), sizeof(long int), sizeof(long long), sizeof(EFI_ALLOCATE_TYPE));
/*
Results
1:200 0:025 size CHAR8=1
1:226 0:025 size CHAR16=2
1:251 0:024 size wchar_t=2
1:275 0:024 size char16_t=2
1:381 0:000 string 12345 , size=16, len=7 sizeof=16 iStrLen=5
1:381 0:000 string Выход , size=13, len=12 sizeof=8 iStrLen=10
1:381 0:000 xstring Выход , asize=0, sizeinbyte=11 sizeof=16 lastcharat=5
1:381 0:000 FakeLAN = 0x30168c
1:381 0:000 Compatible=pci168c,30 strlen=10 sizeof=64 iStrLen=10
1:430 0:025 void*=8 int=4 long=8 longlong=8 enum=4
*/
}
#endif
if (!GlobalConfig.isFastBoot()) {
GetListOfThemes();
GetListOfConfigs();
// SmbiosList.setEmpty();
// SmbiosList.AddReference(new XStringW(L"auto"_XSW), true);
}
// ThemeX->FillByEmbedded(); //init XTheme before EarlyUserSettings
{
void *Value = NULL;
UINTN Size = 0;
//read aptiofixflag from nvram for special boot
Status = GetVariable2(L"aptiofixflag", gEfiAppleBootGuid, &Value, &Size);
if (!EFI_ERROR(Status)) {
GlobalConfig.SpecialBootMode = true;
FreePool(Value);
DBG("Fast option enabled\n");
}
}
// for (i=0; i<2; i++) {
// if (gConfigDict[i]) {
// GetEarlyUserSettings(gConfigDict[i], gSettings);
// }
// }
#ifdef ENABLE_SECURE_BOOT
// Install secure boot shim
if (EFI_ERROR(Status = InstallSecureBoot())) {
PauseForKey("Secure boot failure!\n"_XS8);
return Status;
}
#endif // ENABLE_SECURE_BOOT
MainMenu.TimeoutSeconds = gSettings.Boot.Timeout >= 0 ? gSettings.Boot.Timeout : 0;
//DBG("LoadDrivers() start\n");
LoadDrivers();
Status = gBS->LocateProtocol(gEmuVariableControlProtocolGuid, NULL, (void**)&gEmuVariableControl);
if (EFI_ERROR(Status)) {
gEmuVariableControl = NULL;
}
if (gEmuVariableControl != NULL) {
gEmuVariableControl->InstallEmulation(gEmuVariableControl);
}
DbgHeader("InitScreen");
if (!GlobalConfig.isFastBoot()) {
// init screen and dump video modes to log
if (gDriversFlags.VideoLoaded) {
InitScreen(false);
} else {
InitScreen(!gFirmwareClover); // ? false : true);
}
//DBG("DBG: setup screen\n");
SetupScreen();
} else {
InitScreen(false);
}
//DBG("ReinitRefitLib\n");
//Now we have to reinit handles
Status = ReinitRefitLib();
if (EFI_ERROR(Status)){
// DebugLog(2, " %s", efiStrError(Status));
PauseForKey("Error reinit refit."_XS8);
#ifdef ENABLE_SECURE_BOOT
UninstallSecureBoot();
#endif // ENABLE_SECURE_BOOT
return Status;
}
ThemeX = new XTheme();
// DBG("DBG: messages\n");
if (!gSettings.Boot.NoEarlyProgress && !GlobalConfig.isFastBoot() && gSettings.Boot.Timeout>0) {
XStringW Message = SWPrintf(" Welcome to Clover %ls ", gFirmwareRevision);
BootScreen.DrawTextXY(Message, (UGAWidth >> 1), UGAHeight >> 1, X_IS_CENTER);
BootScreen.DrawTextXY(L"... testing hardware ..."_XSW, (UGAWidth >> 1), (UGAHeight >> 1) + 20, X_IS_CENTER);
}
// DumpBiosMemoryMap();
// PrintMemoryMap();
GuiEventsInitialize();
//DBG("ScanSPD() start\n");
ScanSPD();
//DBG("ScanSPD() end\n");
SetPrivateVarProto();
// GetDefaultSettings();
GetAcpiTablesList();
if (!gSettings.Boot.NoEarlyProgress && !GlobalConfig.isFastBoot() && gSettings.Boot.Timeout>0) {
XStringW Message = SWPrintf("... user settings ...");
BootScreen.EraseTextXY();
BootScreen.DrawTextXY(Message, (UGAWidth >> 1), (UGAHeight >> 1) + 20, X_IS_CENTER);
}
afterGetUserSettings(gSettings);
gFakeCPUID = gSettings.KernelAndKextPatches.FakeCPUID;
DBG("Set FakeCPUID: 0x%X\n", gFakeCPUID);
HaveDefaultVolume = gSettings.Boot.DefaultVolume.notEmpty();
if (!gFirmwareClover &&
!gDriversFlags.EmuVariableLoaded &&
!HaveDefaultVolume &&
gSettings.Boot.Timeout == 0 && !ReadAllKeyStrokes()) {
// UEFI boot: get gEfiBootDeviceGuid from NVRAM.
// if present, ScanVolumes() will skip scanning other volumes
// in the first run.
// this speeds up loading of default macOS volume.
GetEfiBootDeviceFromNvram();
}
if (!gSettings.Boot.NoEarlyProgress && !GlobalConfig.isFastBoot() && gSettings.Boot.Timeout>0) {
XStringW Message = SWPrintf("... scan entries ...");
BootScreen.EraseTextXY();
BootScreen.DrawTextXY(Message, (UGAWidth >> 1), (UGAHeight >> 1) + 20, X_IS_CENTER);
}
AfterTool = false;
gGuiIsReady = true;
GlobalConfig.gBootChanged = true;
GlobalConfig.gThemeChanged = true;
do {
if (GlobalConfig.gBootChanged && GlobalConfig.gThemeChanged) { // config changed
GetListOfDsdts(); //only after GetUserSettings
GetListOfACPI(); //ssdt and other tables
}
GlobalConfig.gBootChanged = false;
MainMenu.Entries.setEmpty();
OptionMenu.Entries.setEmpty();
InitKextList();
ScanVolumes();
// as soon as we have Volumes, find latest nvram.plist and copy it to RT vars
if (!AfterTool) {
if (gFirmwareClover || gDriversFlags.EmuVariableLoaded) {
PutNvramPlistToRtVars();
}
}
// log Audio devices in boot-log. This is for clients like Clover.app
GetOutputs();
for (i = 0; i < AudioList.size(); i++) {
if (AudioList[i].Name.notEmpty()) {
// Never change this log, otherwise clients will stop interpret the output.
MsgLog("Found Audio Device %ls (%s) at index %llu\n", AudioList[i].Name.wc_str(), AudioOutputNames[AudioList[i].Device], i);
}
}
if (!GlobalConfig.isFastBoot()) {
if (gThemeNeedInit) {
UINTN Size = 0;
CHAR8* ChoosenTheme = (CHAR8*)GetNvramVariable(L"Clover.Theme", gEfiAppleBootGuid, NULL, &Size);
InitTheme(ChoosenTheme);
FreePool(ChoosenTheme);
gThemeNeedInit = false;
} else if (GlobalConfig.gThemeChanged) {
DBG("change theme\n");
InitTheme(NULL);
AboutMenu.Entries.setEmpty();
HelpMenu.Entries.setEmpty();
}
DBG("theme inited\n");
if (ThemeX->embedded) {
DBG("Chosen embedded theme\n");
} else {
DBG("Chosen theme %ls\n", ThemeX->Theme.wc_str());
}
//now it is a time to set RtVariables
SetVariablesFromNvram();
XString8Array TmpArgs = Split<XString8Array>(gSettings.Boot.BootArgs, " ");
DBG("after NVRAM boot-args=%s\n", gSettings.Boot.BootArgs.c_str());
GlobalConfig.OptionsBits = EncodeOptions(TmpArgs);
// DBG("initial OptionsBits %X\n", GlobalConfig.OptionsBits);
FillInputs(true);
// scan for loaders and tools, add then to the menu
if (gSettings.GUI.Scan.LegacyFirst){
AddCustomLegacy();
if (!gSettings.GUI.Scan.NoLegacy) {
ScanLegacy();
}
}
}
GetSmcKeys(true);
// Add custom entries
AddCustomEntries();
if (gSettings.GUI.Scan.DisableEntryScan) {
DBG("Entry scan disabled\n");
} else {
ScanLoader();
}
if (!GlobalConfig.isFastBoot()) {
if (!gSettings.GUI.Scan.LegacyFirst) {
AddCustomLegacy();
if (!gSettings.GUI.Scan.NoLegacy) {
ScanLegacy();
}
}
// fixed other menu entries
if (!(ThemeX->HideUIFlags & HIDEUI_FLAG_TOOLS)) {
AddCustomTool();
if (!gSettings.GUI.Scan.DisableToolScan) {
ScanTool();
#ifdef ENABLE_SECURE_BOOT
// Check for secure boot setup mode
AddSecureBootTool();
#endif // ENABLE_SECURE_BOOT
}
}
MenuEntryOptions.Image = ThemeX->GetIcon(BUILTIN_ICON_FUNC_OPTIONS);
// DBG("Options: IconID=%lld name=%s empty=%s\n", MenuEntryOptions.Image.Id, MenuEntryOptions.Image.Name.c_str(),
if (gSettings.Boot.DisableCloverHotkeys)
MenuEntryOptions.ShortcutLetter = 0x00;
MainMenu.AddMenuEntry(&MenuEntryOptions, false);
MenuEntryAbout.Image = ThemeX->GetIcon((INTN)BUILTIN_ICON_FUNC_ABOUT);
// DBG("About: IconID=%lld name=%s empty=%s\n", MenuEntryAbout.Image.Id, MenuEntryAbout.Image.Name.c_str(),
if (gSettings.Boot.DisableCloverHotkeys)
MenuEntryAbout.ShortcutLetter = 0x00;
MainMenu.AddMenuEntry(&MenuEntryAbout, false);
if (!(ThemeX->HideUIFlags & HIDEUI_FLAG_FUNCS) || MainMenu.Entries.size() == 0) {
if (gSettings.Boot.DisableCloverHotkeys)
MenuEntryReset.ShortcutLetter = 0x00;
MenuEntryReset.Image = ThemeX->GetIcon(BUILTIN_ICON_FUNC_RESET);
MainMenu.AddMenuEntry(&MenuEntryReset, false);
if (gSettings.Boot.DisableCloverHotkeys)
MenuEntryShutdown.ShortcutLetter = 0x00;
MenuEntryShutdown.Image = ThemeX->GetIcon(BUILTIN_ICON_FUNC_EXIT);
MainMenu.AddMenuEntry(&MenuEntryShutdown, false);
}
}
// wait for user ACK when there were errors
FinishTextScreen(false);
#if CHECK_SMC
DumpSmcKeys();
#endif
DefaultIndex = FindDefaultEntry();
// DBG("DefaultIndex=%lld and MainMenu.Entries.size()=%llu\n", DefaultIndex, MainMenu.Entries.size());
if ((DefaultIndex >= 0) && (DefaultIndex < (INTN)MainMenu.Entries.size())) {
DefaultEntry = &MainMenu.Entries[DefaultIndex];
} else {
DefaultEntry = NULL;
}
MainLoopRunning = true;
if (DefaultEntry && (GlobalConfig.isFastBoot() ||
(gSettings.Boot.SkipHibernateTimeout &&
DefaultEntry->getLOADER_ENTRY()
&& OSFLAG_ISSET(DefaultEntry->getLOADER_ENTRY()->Flags, OSFLAG_HIBERNATED)))) {
if (DefaultEntry->getLOADER_ENTRY()) {
DefaultEntry->StartLoader();
} else if (DefaultEntry->getLEGACY_ENTRY()){
DefaultEntry->StartLegacy();
}
gSettings.Boot.FastBoot = false; //Hmm... will never be here
}
#ifdef JIEF_DEBUG
//MainMenu.TimeoutSeconds=1;
//DefaultEntry = NULL;
//DefaultIndex = MainMenu.Entries.length()-1; // this should be "Exit Clover"
#endif
AfterTool = false;
gEvent = 0; //clear to cancel loop
while (MainLoopRunning) {
if (gSettings.Boot.Timeout == 0 && DefaultEntry != NULL && !ReadAllKeyStrokes()) {
// go strait to DefaultVolume loading
MenuExit = MENU_EXIT_TIMEOUT;
} else {
MainMenu.GetAnime();
if (GlobalConfig.gThemeChanged) {
GlobalConfig.gThemeChanged = false;
ThemeX->ClearScreen();
}
#ifdef JIEF_DEBUG
displayFreeMemory("Before RunMainMenu"_XS8);
#endif
MenuExit = MainMenu.RunMainMenu(DefaultIndex, &ChosenEntry);
}
// DBG("exit from MainMenu %llu\n", MenuExit); //MENU_EXIT_ENTER=(1) MENU_EXIT_DETAILS=3
// disable default boot - have sense only in the first run
gSettings.Boot.Timeout = -1;
if ((DefaultEntry != NULL) && (MenuExit == MENU_EXIT_TIMEOUT)) {
if (DefaultEntry->getLOADER_ENTRY()) {
DefaultEntry->StartLoader();
} else if (DefaultEntry->getLEGACY_ENTRY()){
DefaultEntry->StartLegacy();
}
// if something goes wrong - break main loop to reinit volumes
break;
}
if (MenuExit == MENU_EXIT_OPTIONS){
GlobalConfig.gBootChanged = false;
OptionsMenu(&OptionEntry);
if (GlobalConfig.gBootChanged) {
AfterTool = true;
MainLoopRunning = false;
break;
}
continue;
}
if (MenuExit == MENU_EXIT_HELP){
HelpRefit();
continue;
}
// EjectVolume
if (MenuExit == MENU_EXIT_EJECT){
Status = EFI_SUCCESS;
if (ChosenEntry->getLOADER_ENTRY() ) {
Status = EjectVolume(ChosenEntry->getLOADER_ENTRY()->Volume);
}
if ( ChosenEntry->getLEGACY_ENTRY() ) {
Status = EjectVolume(ChosenEntry->getLEGACY_ENTRY()->Volume);
}
if (!EFI_ERROR(Status)) {
break; //main loop is broken so Reinit all
}
continue;
}
// Hide toggle
if (MenuExit == MENU_EXIT_HIDE_TOGGLE) {
MainMenu.Entries.includeHidden = !MainMenu.Entries.includeHidden;
continue;
}
// We don't allow exiting the main menu with the Escape key.
if (MenuExit == MENU_EXIT_ESCAPE){
break; //refresh main menu
// continue;
}
if ( ChosenEntry->getREFIT_MENU_ITEM_RESET() ) { // Restart
if (MenuExit == MENU_EXIT_DETAILS) {
//do clear cmos as for AMI BIOS
// not sure for more robust method
IoWrite8 (PCAT_RTC_ADDRESS_REGISTER, 0x10);
IoWrite8 (PCAT_RTC_DATA_REGISTER, 0x0);
IoWrite8 (PCAT_RTC_ADDRESS_REGISTER, 0x11);
IoWrite8 (PCAT_RTC_DATA_REGISTER, 0x0);
// or may be
// IoWrite8 (PCAT_RTC_ADDRESS_REGISTER, 0x17);
// IoWrite8 (PCAT_RTC_DATA_REGISTER, 0x17);
// }
}
// Attempt warm reboot
gRT->ResetSystem(EfiResetWarm, EFI_SUCCESS, 0, NULL);
// Warm reboot may not be supported attempt cold reboot
gRT->ResetSystem(EfiResetCold, EFI_SUCCESS, 0, NULL);
// Terminate the screen and just exit
TerminateScreen();
MainLoopRunning = false;
ReinitDesktop = false;
AfterTool = true;
}
if ( ChosenEntry->getREFIT_MENU_ITEM_SHUTDOWN() ) { // It is not Shut Down, it is Exit from Clover
TerminateScreen();
// gRT->ResetSystem(EfiResetShutdown, EFI_SUCCESS, 0, NULL);
MainLoopRunning = false; // just in case we get this far
ReinitDesktop = false;
AfterTool = true;
}
if ( ChosenEntry->getREFIT_MENU_ITEM_OPTIONS() ) { // Options like KernelFlags, DSDTname etc.
GlobalConfig.gBootChanged = false;
OptionsMenu(&OptionEntry);
if (GlobalConfig.gBootChanged)
AfterTool = true;
if (GlobalConfig.gBootChanged || GlobalConfig.gThemeChanged) // If theme has changed reinit the desktop
MainLoopRunning = false;
}
if ( ChosenEntry->getREFIT_MENU_ITEM_ABOUT() ) { // About rEFIt
AboutRefit();
}
/* -- not passed here
// case TAG_HELP:
HelpRefit();
break;
*/
if ( ChosenEntry->getLOADER_ENTRY() ) { // Boot OS via .EFI loader
SetBootCurrent(ChosenEntry->getLOADER_ENTRY());
ChosenEntry->StartLoader();
//if boot.efi failed we should somehow exit from the loop
TerminateScreen();
MainLoopRunning = false;
ReinitDesktop = false;
AfterTool = true;
}
if ( ChosenEntry->getLEGACY_ENTRY() ) { // Boot legacy OS
if (StrCmp(gST->FirmwareVendor, L"Phoenix Technologies Ltd.") == 0 &&
gST->Hdr.Revision >> 16 == 2 && (gST->Hdr.Revision & ((1 << 16) - 1)) == 0){
// Phoenix SecureCore Tiano 2.0 can't properly initiate LegacyBios protocol when called externally
// which results in "Operating System not found" message coming from BIOS
// in this case just quit Clover to enter BIOS again
TerminateScreen();
MainLoopRunning = false;
ReinitDesktop = false;
AfterTool = true;
} else {
SetBootCurrent(ChosenEntry->getLEGACY_ENTRY());
ChosenEntry->StartLegacy();
}
}
if ( ChosenEntry->getREFIT_MENU_ENTRY_LOADER_TOOL() ) { // Start a EFI tool
ChosenEntry->StartTool();
TerminateScreen(); //does not happen
// return EFI_SUCCESS;
// BdsLibConnectAllDriversToAllControllers();
// PauseForKey(L"Returned from StartTool\n");
MainLoopRunning = false;
AfterTool = true;
}
#ifdef ENABLE_SECURE_BOOT
//log_technical_bug("not done yet");
// if ( ChosenEntry->getREFIT_MENU_ENTRY_SECURE_BOOT() ) { // Try to enable secure boot
// EnableSecureBoot();
// MainLoopRunning = false;
// AfterTool = true;
// }
//
// if ( ChosenEntry->getREFIT_MENU_ENTRY_SECURE_BOOT_CONFIG() ) { // Configure secure boot
// MainLoopRunning = !ConfigureSecureBoot();
// AfterTool = true;
// }
#endif // ENABLE_SECURE_BOOT
// DBG("come to Clover entry with letter %c\n", ChosenEntry->ShortcutLetter);
REFIT_MENU_ENTRY_CLOVER* LoaderEntry = ChosenEntry->getREFIT_MENU_ENTRY_CLOVER();
if ((ChosenEntry->ShortcutLetter == L'C') || LoaderEntry != NULL ) { // Clover options
// DBG("enter Clover entry\n");
if (LoaderEntry->LoadOptions.notEmpty()) {
// we are uninstalling in case user selected Clover Options and EmuVar is installed
// because adding bios boot option requires access to real nvram
//Slice: sure?
/* if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
*/
// DBG(" Clover entry not empty\n");
if ( LoaderEntry->LoadOptions.contains(L"BO-ADD") ) {
// DBG(" BO-ADD");
XStringW Description;
CONST CHAR16 *LoaderName;
INTN EntryIndex, NameSize, Name2Size;
LOADER_ENTRY *Entry;
UINT8 *OptionalData;
UINTN OptionalDataSize;
UINTN BootNum;
// EFI_HANDLE UsedHandle = 0;
PrintBootOptions(false);
for (EntryIndex = 0; EntryIndex < (INTN)MainMenu.Entries.size(); EntryIndex++) {
if (MainMenu.Entries[EntryIndex].Row != 0) {
continue;
}
if (!MainMenu.Entries[EntryIndex].getLOADER_ENTRY()) {
continue;
}
Entry = (LOADER_ENTRY *)MainMenu.Entries[EntryIndex].getLOADER_ENTRY();
XStringW& VolName = Entry->Volume->VolName;
DBG("add entry for volume %ls\n", VolName.wc_str());
if (VolName.isEmpty()) {
VolName = NullXStringW;
}
NameSize = VolName.sizeInBytes();
Name2Size = 0;
if (Entry->LoaderPath.notEmpty()) {
LoaderName = Basename(Entry->LoaderPath.wc_str());
} else {
LoaderName = NULL; //legacy boot
}
if (LoaderName != NULL) {
Name2Size = StrSize(LoaderName);
}
Description = SWPrintf("Clover UEFI");
OptionalDataSize = NameSize + Name2Size + 4 + 2; //signature + VolNameSize
OptionalData = (__typeof__(OptionalData))AllocateZeroPool(OptionalDataSize);
if (OptionalData == NULL) {
break;
}
CopyMem(OptionalData, "Clvr", 4); //signature = 0x72766c43
CopyMem(OptionalData + 4, &NameSize, 2);
CopyMem(OptionalData + 6, VolName.wc_str(), VolName.sizeInBytes());
if (Name2Size != 0) {
CopyMem(OptionalData + 6 + NameSize, LoaderName, Name2Size);
}
// UsedHandle = LoaderEntry->Volume->DeviceHandle;
Status = AddBootOptionForFile (
LoaderEntry->Volume->DeviceHandle,
LoaderEntry->LoaderPath,
true,
Description.wc_str(),
OptionalData,
OptionalDataSize,
EntryIndex,
(UINT16*)&BootNum
);
if (!EFI_ERROR(Status)) {
DBG("Entry %lld assigned option %04llX\n", EntryIndex, BootNum);
Entry->BootNum = BootNum;
}
FreePool(OptionalData);
break;
} //for (EntryIndex
PrintBootOptions(false);
} else if ( LoaderEntry->LoadOptions.contains(L"BO-REMOVE") ) {
PrintBootOptions(false);
Status = DeleteBootOptionForFile (LoaderEntry->Volume->DeviceHandle,
LoaderEntry->LoaderPath
);
PrintBootOptions(false);
} else if ( LoaderEntry->LoadOptions.contains(L"BO-PRINT") ) {
PrintBootOptions(true);
}
}
MainLoopRunning = false;
AfterTool = true;
}
} //MainLoopRunning
UninitRefitLib();
if (!AfterTool) {
// PauseForKey(L"After uninit");
//reconnectAll
if (!gFirmwareClover) {
BdsLibConnectAllEfi();
}
else {
DBG("ConnectAll after refresh menu\n");
BdsLibConnectAllDriversToAllControllers();
}
// ReinitRefitLib();
// PauseForKey(L"After ReinitRefitLib");
}
if (ReinitDesktop) {
DBG("ReinitRefitLib after theme change\n");
ReinitRefitLib();
}
// PauseForKey(L"After ReinitRefitLib");
} while (ReinitDesktop);
// If we end up here, things have gone wrong. Try to reboot, and if that
// fails, go into an endless loop.
//Slice - NO!!! Return to EFI GUI
// gRT->ResetSystem(EfiResetCold, EFI_SUCCESS, 0, NULL);
// EndlessIdleLoop();
#ifdef ENABLE_SECURE_BOOT
UninstallSecureBoot();
#endif // ENABLE_SECURE_BOOT
// Unload EmuVariable before returning to EFI GUI, as it should not be present when booting other Operating Systems.
// This seems critical in some UEFI implementations, such as Phoenix UEFI 2.0
if (gEmuVariableControl != NULL) {
gEmuVariableControl->UninstallEmulation(gEmuVariableControl);
}
UninitializeConsoleSim ();
delete ThemeX; // do this before destruct_globals_objects()
FreePool(BlankLine); // Convert BlankLine to XStringW instead.
TagStruct::EmptyCache();
#ifdef CLOVER_BUILD
destruct_globals_objects(NULL);
#endif
return EFI_SUCCESS;
}
//
// main entry point
//
EFI_STATUS
EFIAPI
RefitMain (IN EFI_HANDLE ImageHandle,
IN EFI_SYSTEM_TABLE *SystemTable)
{
MemoryTrackerInit();
//MemoryTrackerInstallHook(); can't install hook before construct_globals_objects()... yet
EFI_STATUS Status = RefitMainMain(ImageHandle, SystemTable);
DBG("MT_alloc_count=%lld\n", MT_getAllocCount());
MT_outputDanglingPtr();
#ifdef TagStruct_COUNT_CACHEHIT
DBG("cache hits = %zu\n", TagStruct::cachehit);
DBG("cache miss = %zu\n", TagStruct::cachemiss);
#endif
return Status;
}