/** * Module for work with runtime (RT, NVRAM) vars, * determining default boot volume (Startup disk) * and (kid of) persistent RT support with nvram.plist on CloverEFI. * dmazar, 2012 */ #include // Only use angled for Platform, else, xcode project won't compile #include "Nvram.h" #include "BootOptions.h" #include "guid.h" #include "../gui/REFIT_MENU_SCREEN.h" #ifndef DEBUG_ALL #define DEBUG_SET 1 #else #define DEBUG_SET DEBUG_ALL #endif #if DEBUG_SET == 0 #define DBG(...) #else #define DBG(...) DebugLog (DEBUG_SET, __VA_ARGS__) #endif extern XObjArray Volumes; // for saving nvram.plist and it's data TagDict* gNvramDict; // // vars filled after call to GetEfiBootDeviceFromNvram () // // always contains original efi-boot-device-data EFI_DEVICE_PATH *gEfiBootDeviceData; // if gEfiBootDeviceData starts with MemoryMapped node, then gBootCampHD = "BootCampHD" var, otherwise == NULL EFI_DEVICE_PATH *gBootCampHD; // contains only volume dev path from gEfiBootDeviceData or gBootCampHD EFI_DEVICE_PATH *gEfiBootVolume; // contains file path from gEfiBootDeviceData or gBootCampHD (if exists) CHAR16 *gEfiBootLoaderPath; // contains GPT GUID from gEfiBootDeviceData or gBootCampHD (if exists) EFI_GUID *gEfiBootDeviceGuid; // Lilu / OpenCore //EFI_GUID gOcVendorVariableGuid = { 0x4D1FDA02, 0x38C7, 0x4A6A, { 0x9C, 0xC6, 0x4B, 0xCC, 0xA8, 0xB3, 0x01, 0x02 } }; //EFI_GUID gOcReadOnlyVariableGuid = { 0xE09B9297, 0x7928, 0x4440, { 0x9A, 0xAB, 0xD1, 0xF8, 0x53, 0x6F, 0xBF, 0x0A } }; //EFI_GUID gOcWriteOnlyVariableGuid = { 0xF0B9AF8F, 0x2222, 0x4840, { 0x8A, 0x37, 0xEC, 0xF7, 0xCC, 0x8C, 0x12, 0xE1 } }; // Ozmosis EFI_GUID mOzmosisProprietary1Guid = { 0x1F8E0C02, 0x58A9, 0x4E34, { 0xAE, 0x22, 0x2B, 0x63, 0x74, 0x5F, 0xA1, 0x01 } }; EFI_GUID mOzmosisProprietary2Guid = { 0x9480E8A1, 0x1793, 0x46C9, { 0x91, 0xD8, 0x11, 0x08, 0xDB, 0xA4, 0x73, 0x1C } }; // BootChime extern EFI_GUID gBootChimeVendorVariableGuid; //Apple variables extern EFI_GUID gAppleCoreStorageVariableGuid; extern EFI_GUID gAppleTamperResistantBootVariableGuid; extern EFI_GUID gAppleWirelessNetworkVariableGuid; extern EFI_GUID gApplePersonalizationVariableGuid; extern EFI_GUID gAppleNetbootVariableGuid; extern EFI_GUID gAppleSecureBootVariableGuid; extern EFI_GUID gAppleTamperResistantBootSecureVariableGuid; extern EFI_GUID gAppleTamperResistantBootEfiUserVariableGuid; APPLE_SMC_IO_PROTOCOL *gAppleSmc = NULL; /** returns given time as miliseconds. * assumes 31 days per month, so it's not correct, * but is enough for basic checks. */ UINT64 GetEfiTimeInMs ( IN EFI_TIME *T ) { UINT64 TimeMs; TimeMs = T->Year - 1900; // is 64bit multiply workign in 32 bit? TimeMs = MultU64x32 (TimeMs, 12) + T->Month; TimeMs = MultU64x32 (TimeMs, 31) + T->Day; // counting with 31 day TimeMs = MultU64x32 (TimeMs, 24) + T->Hour; TimeMs = MultU64x32 (TimeMs, 60) + T->Minute; TimeMs = MultU64x32 (TimeMs, 60) + T->Second; TimeMs = MultU64x32 (TimeMs, 1000) + DivU64x32(T->Nanosecond, 1000000); return TimeMs; } /** Reads and returns value of NVRAM variable. */ void *GetNvramVariable( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, OUT UINT32 *Attributes OPTIONAL, OUT UINTN *DataSize OPTIONAL) { EFI_STATUS Status; void *Data = NULL; // // Pass in a zero size buffer to find the required buffer size. // UINTN IntDataSize = 0; Status = gRT->GetVariable (VariableName, VendorGuid, Attributes, &IntDataSize, NULL); if (IntDataSize == 0) { return NULL; } if (Status == EFI_BUFFER_TOO_SMALL) { // // Allocate the buffer to return // Data = (__typeof__(Data))AllocateZeroPool(IntDataSize + 1); if (Data != NULL) { // // Read variable into the allocated buffer. // Status = gRT->GetVariable (VariableName, VendorGuid, Attributes, &IntDataSize, Data); if (EFI_ERROR(Status)) { FreePool(Data); IntDataSize = 0; Data = NULL; } } } if (DataSize != NULL) { *DataSize = IntDataSize; } return Data; } /** Reads and returns value of NVRAM variable. */ XString8 GetNvramVariableAsXString8( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, OUT UINT32 *Attributes OPTIONAL, OUT UINTN *DataSize OPTIONAL) { EFI_STATUS Status; XString8 returnValue; // // Pass in a zero size buffer to find the required buffer size. // UINTN IntDataSize = 0; Status = gRT->GetVariable (VariableName, VendorGuid, Attributes, &IntDataSize, NULL); if (IntDataSize == 0) { return NullXString8; } if (Status == EFI_BUFFER_TOO_SMALL) { // // Read variable into the allocated buffer. // Status = gRT->GetVariable(VariableName, VendorGuid, Attributes, &IntDataSize, returnValue.dataSized(IntDataSize+1)); if (EFI_ERROR(Status)) { IntDataSize = 0; returnValue.setEmpty(); } } if (DataSize != NULL) { *DataSize = IntDataSize; } *returnValue.data(IntDataSize) = 0; return returnValue; } /** Sets NVRAM variable. Does nothing if variable with the same data and attributes already exists. */ EFI_STATUS SetNvramVariable ( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, IN UINT32 Attributes, IN UINTN DataSize, IN CONST void *Data ) { //EFI_STATUS Status; void *OldData; UINTN OldDataSize = 0; UINT32 OldAttributes = 0; //DBG("SetNvramVariable (%ls, guid, 0x%X, %d):", VariableName, Attributes, DataSize); OldData = (__typeof__(OldData))GetNvramVariable(VariableName, VendorGuid, &OldAttributes, &OldDataSize); if (OldData != NULL) { // var already exists - check if it equal to new value //DBG(" exists(0x%X, %d)", OldAttributes, OldDataSize); if ((OldAttributes == Attributes) && (OldDataSize == DataSize) && (CompareMem (OldData, Data, DataSize) == 0)) { // it's the same - do nothing //DBG(", equal -> not writing again.\n"); FreePool(OldData); return EFI_SUCCESS; } //DBG(", not equal\n"); FreePool(OldData); // not the same - delete previous one if attributes are different if (OldAttributes != Attributes) { DeleteNvramVariable (VariableName, VendorGuid); //DBG(", diff. attr: deleting old (%s)", efiStrError(Status)); } } //DBG("\n"); // for debug without Status //DBG(" -> writing new (%s)\n", efiStrError(Status)); //return Status; return gRT->SetVariable(VariableName, VendorGuid, Attributes, DataSize, (void*)Data); // CONST missing in EFI_SET_VARIABLE->SetVariable } EFI_STATUS SetNvramXString8 ( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, IN UINT32 Attributes, const XString8& s ) { return SetNvramVariable(VariableName, VendorGuid, Attributes, s.sizeInBytes(), (void*)s.c_str()); } /** Sets NVRAM variable. Does nothing if variable with the same name already exists. */ EFI_STATUS AddNvramVariable ( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, IN UINT32 Attributes, IN UINTN DataSize, IN const void *Data ) { void *OldData; //DBG("SetNvramVariable (%ls, guid, 0x%X, %d):\n", VariableName, Attributes, DataSize); OldData = (__typeof__(OldData))GetNvramVariable(VariableName, VendorGuid, NULL, NULL); if (OldData == NULL) { // set new value return gRT->SetVariable(VariableName, VendorGuid, Attributes, DataSize, Data); // DBG(" -> writing new (%s)\n", efiStrError(Status)); } else { FreePool(OldData); return EFI_ABORTED; } } EFI_STATUS AddNvramXString8( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid, IN UINT32 Attributes, const XString8& s ) { return AddNvramVariable(VariableName, VendorGuid, Attributes, s.sizeInBytes(), (void*)s.c_str()); } /** Deletes NVRAM variable. */ EFI_STATUS DeleteNvramVariable ( IN CONST CHAR16 *VariableName, IN EFI_GUID *VendorGuid ) { EFI_STATUS Status; // Delete: attributes and data size = 0 Status = gRT->SetVariable (VariableName, VendorGuid, 0, 0, NULL); //DBG("DeleteNvramVariable (%ls, guid = %s):\n", VariableName, efiStrError(Status)); return Status; } BOOLEAN IsDeletableVariable ( IN CHAR16 *Name, IN EFI_GUID *Guid ) { // Apple GUIDs if (CompareGuid(Guid, &gEfiAppleVendorGuid) || CompareGuid(Guid, &gEfiAppleBootGuid) || CompareGuid(Guid, &gAppleCoreStorageVariableGuid) || CompareGuid(Guid, &gAppleTamperResistantBootVariableGuid) || CompareGuid(Guid, &gAppleWirelessNetworkVariableGuid) || CompareGuid(Guid, &gApplePersonalizationVariableGuid) || CompareGuid(Guid, &gAppleNetbootVariableGuid) || CompareGuid(Guid, &gAppleSecureBootVariableGuid) || CompareGuid(Guid, &gAppleTamperResistantBootSecureVariableGuid) || CompareGuid(Guid, &gAppleTamperResistantBootEfiUserVariableGuid)) { return TRUE; // Disable Clover Boot Options from being deleted // Global variable boot options /*} else if (CompareGuid (Guid, &gEfiGlobalVariableGuid)) { // Only erase boot and driver entries for BDS // I.e. BootOrder, Boot####, DriverOrder, Driver#### if (!StrnCmp (Name, L"Boot", StrLen(L"Boot")) || !StrnCmp (Name, L"Driver", StrLen(L"Driver"))) { return TRUE; }*/ // Lilu / OpenCore extensions } else if (CompareGuid (Guid, &gOcVendorVariableGuid) || CompareGuid(Guid, &gOcReadOnlyVariableGuid) || CompareGuid(Guid, &gOcWriteOnlyVariableGuid)) { return TRUE; // Ozmozis extensions } else if (CompareGuid (Guid, &mOzmosisProprietary1Guid) || CompareGuid (Guid, &mOzmosisProprietary2Guid)) { return TRUE; // BootChime } else if (CompareGuid (Guid, &gBootChimeVendorVariableGuid)) { return TRUE; } return FALSE; } // Reset Native NVRAM by vit9696, reworked and implemented by Sherlocks EFI_STATUS ResetNativeNvram () { EFI_STATUS Status = EFI_NOT_FOUND; EFI_GUID Guid; CHAR16 *Name; UINTN NameSize; UINTN NewNameSize; BOOLEAN Restart = TRUE; UINTN VolumeIndex; REFIT_VOLUME *Volume; EFI_FILE* FileHandle; //DbgHeader("ResetNativeNvram: cleanup NVRAM variables"); NameSize = sizeof (CHAR16); Name = (__typeof__(Name))AllocateZeroPool(NameSize); if (Name == NULL) { return Status; } while (TRUE) { if (Restart) { ZeroMem (&Guid, sizeof(Guid)); ZeroMem (Name, sizeof(Name)); Restart = FALSE; } NewNameSize = NameSize; Status = gRT->GetNextVariableName (&NewNameSize, Name, &Guid); if (Status == EFI_BUFFER_TOO_SMALL) { Name = (__typeof__(Name))ReallocatePool (NameSize, NewNameSize, Name); if (Name == NULL) { return Status; } Status = gRT->GetNextVariableName (&NewNameSize, Name, &Guid); NameSize = NewNameSize; } if (EFI_ERROR(Status)) { break; } if (!EFI_ERROR(Status)) { if (IsDeletableVariable (Name, &Guid)) { //DBG("Deleting %s:%ls...", strguid(&Guid), Name); Status = DeleteNvramVariable(Name, &Guid); if (!EFI_ERROR(Status)) { //DBG("OK\n"); Restart = TRUE; } else { //DBG("FAIL (%s)\n", efiStrError(Status)); break; } } } } if (Name) { FreePool(Name); } if (gFirmwareClover || gDriversFlags.EmuVariableLoaded) { //DBG("Searching volumes for nvram.plist\n"); for (VolumeIndex = 0; VolumeIndex < Volumes.size(); ++VolumeIndex) { Volume = &Volumes[VolumeIndex]; if (!Volume->RootDir) { continue; } Status = Volume->RootDir->Open (Volume->RootDir, &FileHandle, L"nvram.plist", EFI_FILE_MODE_READ, 0); if (EFI_ERROR(Status)) { //DBG("- [%02d]: '%ls' - no nvram.plist - skipping!\n", VolumeIndex, Volume->VolName); continue; } // find the partition where nvram.plist can be deleted and delete it if (Volume != NULL) { if (StriStr(Volume->VolName.wc_str(), L"EFI") != NULL) { //DBG("- [%02d]: '%ls' - found nvram.plist and deleted it\n", VolumeIndex, Volume->VolName); Status = DeleteFile (Volume->RootDir, L"nvram.plist"); } else { //DBG("- [%02d]: '%ls' - found nvram.plist but can't delete it\n", VolumeIndex, Volume->VolName); } } } } return Status; } /// // Print all fakesmc variables, i.e. SMC keys /// UINT32 KeyFromName(CHAR16 *Name) { //fakesmc-key-CLKT-ui32: Size = 4, Data: 00 00 8C BE UINT32 Key; Key = ((Name[12] & 0xFF) << 24) + ((Name[13] & 0xFF) << 16) + ((Name[14] & 0xFF) << 8) + ((Name[15] & 0xFF) << 0); return Key; } UINT32 TypeFromName(CHAR16 *Name) { //fakesmc-key-CLKT-ui32: Size = 4, Data: 00 00 8C BE UINT32 Key; Key = ((Name[17] & 0xFF) << 24) + ((Name[18] & 0xFF) << 16) + ((Name[19] & 0xFF) << 8) + ((Name[20] & 0xFF) << 0); if (Name[20] == L'\0') { Key += 0x20; //' ' } return Key; } UINT32 FourCharKey(CONST CHAR8 *Name) { return (Name[0] << 24) + (Name[1] << 16) + (Name[2] << 8) + Name[3]; //Big Endian } INT8 NKey[4] = {0, 0, 0, 0}; INT8 SAdr[4] = {0, 0, 3, 0}; INT8 SNum[1] = {1}; void GetSmcKeys (BOOLEAN WriteToSMC) { EFI_STATUS Status; CHAR16 *Name; EFI_GUID Guid; UINTN NameSize; UINTN NewNameSize; UINT8 *Data; UINTN DataSize; INTN NumKey = 0; STATIC UINTN Once = 0; if (Once++) { return; } NameSize = sizeof (CHAR16); Name = (__typeof__(Name))AllocateZeroPool(NameSize); if (Name == NULL) { return; } DbgHeader("Dump SMC keys from NVRAM"); Status = gBS->LocateProtocol(&gAppleSMCProtocolGuid, NULL, (void**)&gAppleSmc); if (!EFI_ERROR(Status)) { DBG("found AppleSMC protocol\n"); } else { DBG("no AppleSMC protocol\n"); gAppleSmc = NULL; } while (TRUE) { NewNameSize = NameSize; Status = gRT->GetNextVariableName (&NewNameSize, Name, &Guid); if (Status == EFI_BUFFER_TOO_SMALL) { Name = (__typeof__(Name))ReallocatePool (NameSize, NewNameSize, Name); if (Name == NULL) { return; //if something wrong then just do nothing } Status = gRT->GetNextVariableName (&NewNameSize, Name, &Guid); NameSize = NewNameSize; } if (EFI_ERROR(Status)) { break; //no more variables } if (!StrStr(Name, L"fakesmc-key")) { continue; //the variable is not interesting for us } Data = (__typeof__(Data))GetNvramVariable(Name, &Guid, NULL, &DataSize); if (Data) { /* UINTN Index; DBG(" %ls:", Name); for (Index = 0; Index < DataSize; Index++) { DBG("%02hhX ", *((UINT8*)Data + Index)); } DBG("\n"); */ if (gAppleSmc && WriteToSMC) { Status = gAppleSmc->SmcAddKey(gAppleSmc, KeyFromName(Name), (SMC_DATA_SIZE)DataSize, TypeFromName(Name), 0xC0); if (!EFI_ERROR(Status)) { Status = gAppleSmc->SmcWriteValue(gAppleSmc, KeyFromName(Name), (SMC_DATA_SIZE)DataSize, Data); // DBG("Write to AppleSMC status=%s\n", efiStrError(Status)); } NumKey++; } FreePool(Data); } } if (WriteToSMC && gAppleSmc && (gAppleSmc->Signature == NON_APPLE_SMC_SIGNATURE)) { CHAR8 Mode = SMC_MODE_APPCODE; NKey[3] = NumKey & 0xFF; NKey[2] = (NumKey >> 8) & 0xFF; //key, size, type, attr DBG("Registered %lld SMC keys\n", NumKey); Status = gAppleSmc->SmcAddKey(gAppleSmc, FourCharKey("#KEY"), 4, SmcKeyTypeUint32, 0xC0); if (!EFI_ERROR(Status)) { Status = gAppleSmc->SmcWriteValue(gAppleSmc, FourCharKey("#KEY"), 4, (SMC_DATA *)&NKey); } Status = gAppleSmc->SmcAddKey(gAppleSmc, FourCharKey("$Adr"), 4, SmcKeyTypeUint32, 0x08); if (!EFI_ERROR(Status)) { Status = gAppleSmc->SmcWriteValue(gAppleSmc, FourCharKey("$Adr"), 4, (SMC_DATA *)&SAdr); } Status = gAppleSmc->SmcAddKey(gAppleSmc, FourCharKey("$Num"), 1, SmcKeyTypeUint8, 0x08); if (!EFI_ERROR(Status)) { Status = gAppleSmc->SmcWriteValue(gAppleSmc, FourCharKey("$Num"), 1, (SMC_DATA *)&SNum); } Status = gAppleSmc->SmcAddKey(gAppleSmc, FourCharKey("RMde"), 1, SmcKeyTypeChar, 0xC0); if (!EFI_ERROR(Status)) { Status = gAppleSmc->SmcWriteValue(gAppleSmc, FourCharKey("RMde"), 1, (SMC_DATA *)&Mode); } } FreePool(Name); } #if CHECK_SMC void DumpSmcKeys() { if (!gAppleSmc || !gAppleSmc->DumpData) { return; } gAppleSmc->DumpData(gAppleSmc); } #endif /** Searches for GPT HDD dev path node and return pointer to partition GUID or NULL. */ EFI_GUID *FindGPTPartitionGuidInDevicePath ( const EFI_DEVICE_PATH_PROTOCOL *DevicePath ) { HARDDRIVE_DEVICE_PATH *HDDDevPath; EFI_GUID *Guid = NULL; if (DevicePath == NULL) { return NULL; } while (!IsDevicePathEndType(DevicePath) && !(DevicePathType(DevicePath) == MEDIA_DEVICE_PATH && DevicePathSubType (DevicePath) == MEDIA_HARDDRIVE_DP)) { DevicePath = NextDevicePathNode(DevicePath); } if (DevicePathType(DevicePath) == MEDIA_DEVICE_PATH && DevicePathSubType (DevicePath) == MEDIA_HARDDRIVE_DP) { HDDDevPath = (HARDDRIVE_DEVICE_PATH*)DevicePath; if (HDDDevPath->SignatureType == SIGNATURE_TYPE_GUID) { Guid = (EFI_GUID*)HDDDevPath->Signature; } } return Guid; } /** detailed debug for BootVolumeDevicePathEqual */ #define DBG_DP(...) //#define DBG_DP(...) DBG(__VA_ARGS__) /** Returns TRUE if dev paths are equal. Ignores some differences. */ BOOLEAN BootVolumeDevicePathEqual ( const EFI_DEVICE_PATH_PROTOCOL *DevicePath1, const EFI_DEVICE_PATH_PROTOCOL *DevicePath2 ) { BOOLEAN Equal; UINT8 Type1; UINT8 SubType1; UINT8 Type2; UINTN Len1; UINT8 SubType2; UINTN Len2; SATA_DEVICE_PATH *SataNode1; SATA_DEVICE_PATH *SataNode2; BOOLEAN ForceEqualNodes; DBG_DP (" BootVolumeDevicePathEqual:\n %s\n %s\n", FileDevicePathToStr (DevicePath1), FileDevicePathToStr (DevicePath2)); DBG_DP (" N1: (Type, Subtype, Len) N2: (Type, Subtype, Len)\n"); Equal = FALSE; while (TRUE) { Type1 = DevicePathType (DevicePath1); SubType1 = DevicePathSubType (DevicePath1); Len1 = DevicePathNodeLength (DevicePath1); Type2 = DevicePathType (DevicePath2); SubType2 = DevicePathSubType (DevicePath2); Len2 = DevicePathNodeLength (DevicePath2); ForceEqualNodes = FALSE; DBG_DP (" N1: (%d, %d, %d)", Type1, SubType1, Len1); DBG_DP (" N2: (%d, %d, %d)", Type2, SubType2, Len2); /* DBG_DP ("%s\n", DevicePathToStr (DevicePath1)); DBG_DP ("%s\n", DevicePathToStr (DevicePath2)); */ // // Some eSata device can have path: // PciRoot(0x0)/Pci(0x1C,0x5)/Pci(0x0,0x0)/VenHw(CF31FAC5-C24E-11D2-85F3-00A0C93EC93B,80) // while macOS can set it as // PciRoot(0x0)/Pci(0x1C,0x5)/Pci(0x0,0x0)/Sata(0x0,0x0,0x0) // we'll assume VenHw and Sata nodes to be equal to cover that // as well add NVME to this comparison // if (Type1 == MESSAGING_DEVICE_PATH && SubType1 == MSG_SATA_DP) { if ((Type2 == HARDWARE_DEVICE_PATH && SubType2 == HW_VENDOR_DP) || (Type2 == MESSAGING_DEVICE_PATH && SubType2 == MSG_NVME_NAMESPACE_DP)) { ForceEqualNodes = TRUE; } } else if (Type2 == MESSAGING_DEVICE_PATH && SubType2 == MSG_SATA_DP && ((Type1 == HARDWARE_DEVICE_PATH && SubType1 == HW_VENDOR_DP) || (Type1 == MESSAGING_DEVICE_PATH && SubType1 == MSG_NVME_NAMESPACE_DP))) { ForceEqualNodes = TRUE; } // // UEFI can see it as PcieRoot, while macOS could generate PciRoot // we'll assume Acpi dev path nodes to be equal to cover that // if (Type1 == ACPI_DEVICE_PATH && Type2 == ACPI_DEVICE_PATH) { ForceEqualNodes = TRUE; } if (ForceEqualNodes) { // assume equal nodes DBG_DP (" - forcing equal nodes\n"); DevicePath1 = NextDevicePathNode (DevicePath1); DevicePath2 = NextDevicePathNode (DevicePath2); continue; } if (Type1 != Type2 || SubType1 != SubType2 || Len1 != Len2) { // Not equal DBG_DP (" - not equal\n"); break; } // // Same type/subtype/len ... // if (IsDevicePathEnd (DevicePath1)) { // END node - they are the same Equal = TRUE; DBG_DP (" - END = equal\n"); break; } // // Do mem compare of nodes or special compare for selected types/subtypes // if (Type1 == MESSAGING_DEVICE_PATH && SubType1 == MSG_SATA_DP) { // // Ignore // SataNode1 = (SATA_DEVICE_PATH *)DevicePath1; SataNode2 = (SATA_DEVICE_PATH *)DevicePath2; if (SataNode1->HBAPortNumber != SataNode2->HBAPortNumber) { // not equal DBG_DP (" - not equal SataNode.HBAPortNumber\n"); break; } if (SataNode1->Lun != SataNode2->Lun) { // not equal DBG_DP (" - not equal SataNode.Lun\n"); break; } DBG_DP (" - forcing equal nodes"); } else if (CompareMem (DevicePath1, DevicePath2, DevicePathNodeLength (DevicePath1)) != 0) { // Not equal DBG_DP (" - not equal\n"); break; } DBG_DP ("\n"); // // Advance to next node // DevicePath1 = NextDevicePathNode (DevicePath1); DevicePath2 = NextDevicePathNode (DevicePath2); } return Equal; } /** Returns TRUE if dev paths contain the same MEDIA_DEVICE_PATH. */ BOOLEAN BootVolumeMediaDevicePathNodesEqual ( EFI_DEVICE_PATH_PROTOCOL *DevicePath1, EFI_DEVICE_PATH_PROTOCOL *DevicePath2 ) { DevicePath1 = Clover_FindDevicePathNodeWithType (DevicePath1, MEDIA_DEVICE_PATH, 0); if (DevicePath1 == NULL) { return FALSE; } DevicePath2 = Clover_FindDevicePathNodeWithType (DevicePath2, MEDIA_DEVICE_PATH, 0); if (DevicePath2 == NULL) { return FALSE; } return (DevicePathNodeLength (DevicePath1) == DevicePathNodeLength (DevicePath1)) && (CompareMem (DevicePath1, DevicePath2, DevicePathNodeLength (DevicePath1)) == 0); } /** Reads gEfiAppleBootGuid:efi-boot-device-data and BootCampHD NVRAM variables and parses them * into gEfiBootVolume, gEfiBootLoaderPath and gEfiBootDeviceGuid. * Vars after this call: * gEfiBootDeviceData - original efi-boot-device-data * gBootCampHD - if gEfiBootDeviceData starts with MemoryMapped node, then BootCampHD variable (device path), NULL otherwise * gEfiBootVolume - volume device path (from efi-boot-device-data or BootCampHD) * gEfiBootLoaderPath - file path (from efi-boot-device-data or BootCampHD) or NULL * gEfiBootDeviceGuid - GPT volume GUID if gEfiBootVolume or NULL */ EFI_STATUS GetEfiBootDeviceFromNvram () { UINTN Size = 0; EFI_GUID *Guid; FILEPATH_DEVICE_PATH *FileDevPath; DbgHeader("GetEfiBootDeviceFromNvram"); // DBG("GetEfiBootDeviceFromNvram:"); if (gEfiBootDeviceData != NULL) { // DBG(" - [!] already parsed\n"); return EFI_SUCCESS; } gEfiBootDeviceData = (__typeof__(gEfiBootDeviceData))GetNvramVariable(L"efi-boot-next-data", &gEfiAppleBootGuid, NULL, &Size); if (gEfiBootDeviceData != NULL) { // DBG("Got efi-boot-next-data size=%d\n", Size); if (IsDevicePathValid(gEfiBootDeviceData, Size)) { // DBG(" - efi-boot-next-data: %ls\n", FileDevicePathToStr (gEfiBootDeviceData)); } else { // DBG(" - device path for efi-boot-next-data is invalid\n"); FreePool(gEfiBootDeviceData); gEfiBootDeviceData = NULL; } } if (gEfiBootDeviceData == NULL) { void *Value; UINTN Size2=0; EFI_STATUS Status; Status = GetVariable2 (L"aptiofixflag", &gEfiAppleBootGuid, &Value, &Size2); if (EFI_ERROR(Status)) { gEfiBootDeviceData = (__typeof__(gEfiBootDeviceData))GetNvramVariable(L"efi-boot-device-data", &gEfiAppleBootGuid, NULL, &Size); } else { gEfiBootDeviceData = (__typeof__(gEfiBootDeviceData))GetNvramVariable(L"specialbootdevice", &gEfiAppleBootGuid, NULL, &Size); } if (gEfiBootDeviceData != NULL) { // DBG("Got efi-boot-device-data size=%d\n", Size); if (!IsDevicePathValid(gEfiBootDeviceData, Size)) { // DBG(" - device path for efi-boot-device-data is invalid\n"); FreePool(gEfiBootDeviceData); gEfiBootDeviceData = NULL; } } } if (gEfiBootDeviceData == NULL) { // DBG(" - [!] efi-boot-device-data not found\n"); return EFI_NOT_FOUND; } // DBG("\n"); DBG(" - efi-boot-device-data: %ls\n", FileDevicePathToXStringW(gEfiBootDeviceData).wc_str()); gEfiBootVolume = gEfiBootDeviceData; // // if gEfiBootDeviceData starts with MemoryMapped node, // then Startup Disk sets BootCampHD to Win disk dev path. // if (DevicePathType(gEfiBootDeviceData) == HARDWARE_DEVICE_PATH && DevicePathSubType (gEfiBootDeviceData) == HW_MEMMAP_DP) { gBootCampHD = (__typeof__(gBootCampHD))GetNvramVariable(L"BootCampHD", &gEfiAppleBootGuid, NULL, &Size); gEfiBootVolume = gBootCampHD; if (gBootCampHD == NULL) { // DBG(" - [!] Error: BootCampHD not found\n"); return EFI_NOT_FOUND; } if (!IsDevicePathValid(gBootCampHD, Size)) { // DBG(" Error: BootCampHD device path is invalid\n"); FreePool(gBootCampHD); gEfiBootVolume = gBootCampHD = NULL; return EFI_NOT_FOUND; } DBG(" - BootCampHD: %ls\n", FileDevicePathToXStringW(gBootCampHD).wc_str()); } // // if gEfiBootVolume contains FilePathNode, then split them into gEfiBootVolume dev path and gEfiBootLoaderPath // gEfiBootLoaderPath = NULL; FileDevPath = (FILEPATH_DEVICE_PATH *)Clover_FindDevicePathNodeWithType (gEfiBootVolume, MEDIA_DEVICE_PATH, MEDIA_FILEPATH_DP); if (FileDevPath != NULL) { gEfiBootLoaderPath = (__typeof__(gEfiBootLoaderPath))AllocateCopyPool(StrSize(FileDevPath->PathName), FileDevPath->PathName); // copy DevPath and write end of path node after in place of file path node gEfiBootVolume = DuplicateDevicePath (gEfiBootVolume); FileDevPath = (FILEPATH_DEVICE_PATH *)Clover_FindDevicePathNodeWithType (gEfiBootVolume, MEDIA_DEVICE_PATH, MEDIA_FILEPATH_DP); SetDevicePathEndNode (FileDevPath); // gEfiBootVolume now contains only Volume path } DBG(" - Volume: '%ls'\n", FileDevicePathToXStringW(gEfiBootVolume).wc_str()); DBG(" - LoaderPath: '%ls'\n", gEfiBootLoaderPath); // // if this is GPT disk, extract GUID // gEfiBootDeviceGuid can be used as a flag for GPT disk then // Guid = FindGPTPartitionGuidInDevicePath (gEfiBootVolume); if (Guid != NULL) { gEfiBootDeviceGuid = (__typeof__(gEfiBootDeviceGuid))AllocatePool (sizeof(EFI_GUID)); if (gEfiBootDeviceGuid != NULL) { CopyMem(gEfiBootDeviceGuid, Guid, sizeof(EFI_GUID)); DBG(" - Guid = %s\n", strguid(gEfiBootDeviceGuid)); } } return EFI_SUCCESS; } /** Loads and parses nvram.plist into gNvramDict. */ EFI_STATUS LoadNvramPlist( IN EFI_FILE *RootDir, IN CONST CHAR16* NVRAMPlistPath ) { EFI_STATUS Status; CHAR8 *NvramPtr = NULL; UINTN Size = 0; DBG(" begin load gNvramDict=0x%llX\n", (uintptr_t)gNvramDict); // // skip loading if already loaded // if (gNvramDict != NULL) { return EFI_SUCCESS; } // // load nvram.plist // Status = egLoadFile(RootDir, NVRAMPlistPath, (UINT8**)&NvramPtr, &Size); if(EFI_ERROR(Status)) { DBG(" not present\n"); return Status; } DBG(" loaded, size=%llu\n", Size); // // parse it into gNvramDict // Status = ParseXML((const CHAR8*)NvramPtr, &gNvramDict, Size); // if(Status != EFI_SUCCESS) { // DBG(" parsing error\n"); // } FreePool(NvramPtr); // we will leave nvram.plist loaded and parsed for later processing //FreeTag(gNvramDict); return Status; } /** Searches all volumes for the most recent nvram.plist and loads it into gNvramDict. */ EFI_STATUS LoadLatestNvramPlist() { EFI_STATUS Status; // UINTN Index; REFIT_VOLUME *Volume; // EFI_GUID *Guid; EFI_FILE* FileHandle = NULL; EFI_FILE_INFO *FileInfo = NULL; UINT64 LastModifTimeMs; UINT64 ModifTimeMs; REFIT_VOLUME *VolumeWithLatestNvramPlist = NULL; //there are debug messages not needed for users DBG("Searching volumes for latest nvram.plist ..."); // // skip loading if already loaded // if (gNvramDict != NULL) { DBG(" already loaded\n"); return EFI_SUCCESS; } DBG("\n"); // // find latest nvram.plist // LastModifTimeMs = 0; // search all volumes for (UINTN Index = 0; Index < Volumes.size(); ++Index) { Volume = &Volumes[Index]; if (!Volume->RootDir) { continue; } /* Guid = FindGPTPartitionGuidInDevicePath (Volume->DevicePath); DBG(" %2d. Volume '%ls', GUID = %s", Index, Volume->VolName, strguid(Guid)); if (Guid == NULL) { // not a GUID partition DBG(" - not GPT"); } */ // DBG("Volume[%d]\n", Index); // check if nvram.plist exists Status = Volume->RootDir->Open (Volume->RootDir, &FileHandle, L"nvram.plist", EFI_FILE_MODE_READ, 0); if (EFI_ERROR(Status)) { // DBG(" - no nvram.plist - skipping!\n"); continue; } // DBG(" Status=%s\n", efiStrError(Status)); if (GlobalConfig.FastBoot) { VolumeWithLatestNvramPlist = Volume; break; } // get nvram.plist modification date FileInfo = EfiLibFileInfo(FileHandle); // DBG("got FileInfo=0x%X\n", FileInfo); if (FileInfo == NULL) { // DBG(" - no nvram.plist file info - skipping!\n"); FileHandle->Close(FileHandle); continue; } // DBG(" Modified = "); ModifTimeMs = GetEfiTimeInMs (&(FileInfo->ModificationTime)); /* DBG("%d-%d-%d %d:%d:%d (%ld ms)\n", FileInfo->ModificationTime.Year, FileInfo->ModificationTime.Month, FileInfo->ModificationTime.Day, FileInfo->ModificationTime.Hour, FileInfo->ModificationTime.Minute, FileInfo->ModificationTime.Second, ModifTimeMs); */ FreePool(FileInfo); FileHandle->Close(FileHandle); // check if newer if (LastModifTimeMs < ModifTimeMs) { // DBG(" - newer - will use this one\n"); VolumeWithLatestNvramPlist = Volume; LastModifTimeMs = ModifTimeMs; } // else { // DBG(" - older - skipping!\n"); // } } Status = EFI_NOT_FOUND; // // if we have nvram.plist - load it // if (VolumeWithLatestNvramPlist != NULL) { DBG("Loading nvram.plist from Vol '%ls' -", VolumeWithLatestNvramPlist->VolName.wc_str()); Status = LoadNvramPlist(VolumeWithLatestNvramPlist->RootDir, L"nvram.plist"); } // else { // DBG(" nvram.plist not found!\n"); // } DBG("loaded Status=%s\n", efiStrError(Status)); return Status; } /** Puts all vars from nvram.plist to RT vars. Should be used in CloverEFI only * or if some UEFI boot uses EmuRuntimeDxe driver. */ void PutNvramPlistToRtVars () { // EFI_STATUS Status; size_t Size; const void *Value; if (gNvramDict == NULL) { /*Status = */LoadLatestNvramPlist(); if (gNvramDict == NULL) { DBG("PutNvramPlistToRtVars: nvram.plist not found\n"); return; } } if ( !gNvramDict->isDict() ) { DBG("PutNvramPlistToRtVars: MALFORMED PLIST nvram.plist. Root must be a dict\n"); return; } DbgHeader("PutNvramPlistToRtVars"); // DBG("PutNvramPlistToRtVars ...\n"); // iterate over dict elements size_t count = gNvramDict->dictKeyCount(); // ok for (size_t tagIdx = 0 ; tagIdx < count ; tagIdx++ ) { const TagKey* keyTag; const TagStruct* valueTag; if ( EFI_ERROR(gNvramDict->getKeyAndValueAtIndex(tagIdx, &keyTag, &valueTag)) ) { //If GetKeyValueAtIndex return success, key and value != NULL MsgLog("MALFORMED PLIST nvram.plist. A key is expected at pos : %zu\n", tagIdx); continue; } EFI_GUID *VendorGuid = &gEfiAppleBootGuid; Value = NULL; if ( tagIdx + 1 < gNvramDict->dictContent().size() && !gNvramDict->dictContent()[tagIdx+1].isKey() ) valueTag = &gNvramDict->dictContent()[tagIdx+1]; // process only valid tags if ( valueTag == NULL ) { DBG(" ERROR: ValTag is not NULL\n"); continue; } // DBG("tag: %s\n", Tag.stringValue()); // skip OsxAptioFixDrv-RelocBase - appears and causes trouble // in kernel and kext patcher when mixing UEFI and CloverEFI boot if ( keyTag->keyStringValue() == "OsxAptioFixDrv-RelocBase"_XS8 ) { DBG(" Skipping OsxAptioFixDrv-RelocBase\n"); continue; } else if ( keyTag->keyStringValue() == "OsxAptioFixDrv-ErrorExitingBootServices"_XS8 ) { DBG(" Skipping OsxAptioFixDrv-ErrorExitingBootServices\n"); continue; } else if ( keyTag->keyStringValue() == "EmuVariableUefiPresent"_XS8 ) { DBG(" Skipping EmuVariableUefiPresent\n"); continue; } else if ( keyTag->keyStringValue() == "aapl,panic-info"_XS8 ) { DBG(" Skipping aapl,panic-info\n"); continue; } // // key to unicode; check if key buffer is large enough // if ( Tag.keyValue().length() > sizeof(KeyBuf) - 1 ) { // DBG(" ERROR: Skipping too large key %s\n", Tag.keyValue().c_str()); // continue; // } if ( keyTag->keyStringValue() == "Boot0082"_XS8 || keyTag->keyStringValue() == "BootNext"_XS8 ) { VendorGuid = &gEfiGlobalVariableGuid; // it may happen only in this case GlobalConfig.HibernationFixup = TRUE; } // AsciiStrToUnicodeStrS(Tag.stringValue(), KeyBuf, 128); XStringW KeyBuf = keyTag->keyStringValue(); if (!GlobalConfig.DebugLog) { DBG(" Adding Key: %ls: ", KeyBuf.wc_str()); } // process value tag if (valueTag->isString()) { // element Value = (void*)valueTag->getString()->stringValue().c_str(); Size = valueTag->getString()->stringValue().length(); if (!GlobalConfig.DebugLog) { DBG("String: Size = %zu, Val = '%s'\n", Size, valueTag->getString()->stringValue().c_str()); } } else if (valueTag->isData()) { // element Size = valueTag->getData()->getData()->dataLenValue(); Value = valueTag->getData()->getData()->dataValue(); if (!GlobalConfig.DebugLog) { DBG("Size = %zu, Data: ", Size); for (size_t i = 0; i < Size; i++) { DBG("%02hhX ", *(((UINT8*)Value) + i)); } } if (!GlobalConfig.DebugLog) { DBG("\n"); } } else { DBG("ERROR: Unsupported tag type: %s\n", valueTag->getTypeAsXString8().c_str()); continue; } if (Size == 0 || !Value) { continue; } // set RT var: all vars visible in nvram.plist are gEfiAppleBootGuid /* Status = gRT->SetVariable ( KeyBuf, VendorGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS, Size, Value ); */ SetNvramVariable ( KeyBuf.wc_str(), VendorGuid, EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS, Size, Value ); } } /** Performs detailed search for Startup Disk or last Clover boot volume * by looking for gEfiAppleBootGuid:efi-boot-device-data and BootCampHD RT vars. * Returns MainMenu entry index or -1 if not found. */ INTN FindStartupDiskVolume ( REFIT_MENU_SCREEN *MainMenu ) { INTN Index; // LEGACY_ENTRY *LegacyEntry; // LOADER_ENTRY *LoaderEntry; // REFIT_VOLUME *Volume; REFIT_VOLUME *DiskVolume; BOOLEAN IsPartitionVolume; XStringW LoaderPath; XStringW EfiBootVolumeStr; // DBG("FindStartupDiskVolume ...\n"); // // search RT vars for efi-boot-device-data // and try to find that volume // GetEfiBootDeviceFromNvram (); if (gEfiBootVolume == NULL) { // DBG(" - [!] EfiBootVolume not found\n"); return -1; } DbgHeader("FindStartupDiskVolume"); // DBG("FindStartupDiskVolume searching ...\n"); // // Check if gEfiBootVolume is disk or partition volume // EfiBootVolumeStr = FileDevicePathToXStringW(gEfiBootVolume); IsPartitionVolume = NULL != Clover_FindDevicePathNodeWithType (gEfiBootVolume, MEDIA_DEVICE_PATH, 0); DBG(" - Volume: %ls = %ls\n", IsPartitionVolume ? L"partition" : L"disk", EfiBootVolumeStr.wc_str()); // // 1. gEfiBootVolume + gEfiBootLoaderPath // PciRoot(0x0)/.../Sata(...)/HD(...)/\EFI\BOOT\XXX.EFI - set by Clover // if (gEfiBootLoaderPath != NULL) { DBG(" - searching for that partition and loader '%ls'\n", gEfiBootLoaderPath); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { if (MainMenu->Entries[Index].getLOADER_ENTRY()) { LOADER_ENTRY& LoaderEntry = *MainMenu->Entries[Index].getLOADER_ENTRY(); REFIT_VOLUME* Volume = LoaderEntry.Volume; LoaderPath = LoaderEntry.LoaderPath; if (Volume != NULL && BootVolumeDevicePathEqual(gEfiBootVolume, Volume->DevicePath)) { DBG(" checking '%ls'\n", DevicePathToXStringW(Volume->DevicePath).wc_str()); DBG(" '%ls'\n", LoaderPath.wc_str()); // case insensitive cmp if ( LoaderPath.equalIC(gEfiBootLoaderPath) ) { // that's the one DBG(" - found entry %lld. '%ls', Volume '%ls', '%ls'\n", Index, LoaderEntry.Title.s(), Volume->VolName.wc_str(), LoaderPath.wc_str()); return Index; } } } } DBG(" - [!] not found\n"); // // search again, but compare only Media dev path nodes // (in case of some dev path differences we do not cover) // DBG(" - searching again, but comparing Media dev path nodes\n"); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { if (MainMenu->Entries[Index].getLOADER_ENTRY()) { LOADER_ENTRY& LoaderEntry = *MainMenu->Entries[Index].getLOADER_ENTRY(); REFIT_VOLUME* Volume = LoaderEntry.Volume; EFI_DEVICE_PATH *DevicePath = LoaderEntry.DevicePath; EFI_DEVICE_PATH *MediaPath = Clover_FindDevicePathNodeWithType(DevicePath, MEDIA_DEVICE_PATH, MEDIA_VENDOR_DP); if (MediaPath) { EFI_GUID *MediaPathGuid = (EFI_GUID *)&((VENDOR_DEVICE_PATH_WITH_DATA*)MediaPath)->VendorDefinedData; XStringW MediaPathGuidStr = GuidLEToXStringW(*MediaPathGuid); // DBG(" checking '%ls'\n", MediaPathGuidStr.wc_str()); if (StrStr(gEfiBootLoaderPath, MediaPathGuidStr.wc_str())) { DBG(" - found entry %lld. '%ls', Volume '%ls', '%ls'\n", Index, LoaderEntry.Title.s(), Volume->VolName.wc_str(), LoaderPath.wc_str()); return Index; } } } } DBG(" - [!] not found\n"); } //Slice - why all further? For legacy boot which is not working??? // // 2. gEfiBootVolume - partition volume // PciRoot(0x0)/.../Sata(...)/HD(...) - set by Clover or macOS // if (IsPartitionVolume) { DBG(" - searching for that partition\n"); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { REFIT_VOLUME* Volume = NULL; if (MainMenu->Entries[Index].getLEGACY_ENTRY()) { Volume = MainMenu->Entries[Index].getLEGACY_ENTRY()->Volume; } else if (MainMenu->Entries[Index].getLOADER_ENTRY()) { Volume = MainMenu->Entries[Index].getLOADER_ENTRY()->Volume; } if (Volume != NULL && BootVolumeDevicePathEqual (gEfiBootVolume, Volume->DevicePath)) { DBG(" - found entry %lld. '%ls', Volume '%ls'\n", Index, MainMenu->Entries[Index].Title.s(), Volume->VolName.wc_str()); return Index; } } DBG(" - [!] not found\n"); // // search again, but compare only Media dev path nodes // DBG(" - searching again, but comparing Media dev path nodes\n"); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { REFIT_VOLUME* Volume = NULL; if (MainMenu->Entries[Index].getLEGACY_ENTRY()) { Volume = MainMenu->Entries[Index].getLEGACY_ENTRY()->Volume; } else if (MainMenu->Entries[Index].getLOADER_ENTRY()) { Volume = MainMenu->Entries[Index].getLOADER_ENTRY()->Volume; } if (Volume != NULL && BootVolumeMediaDevicePathNodesEqual (gEfiBootVolume, Volume->DevicePath)) { DBG(" - found entry %lld. '%ls', Volume '%ls'\n", Index, MainMenu->Entries[Index].Title.s(), Volume->VolName.wc_str()); return Index; } } DBG(" - [!] not found\n"); return -1; } // // 3. gEfiBootVolume - disk volume // PciRoot(0x0)/.../Sata(...) - set by macOS for Win boot // // 3.1 First find disk volume in Volumes[] // DiskVolume = NULL; DBG(" - searching for that disk\n"); for (Index = 0; Index < (INTN)Volumes.size(); ++Index) { REFIT_VOLUME* Volume = &Volumes[Index]; if (BootVolumeDevicePathEqual (gEfiBootVolume, Volume->DevicePath)) { // that's the one DiskVolume = Volume; DBG(" - found disk as volume %lld. '%ls'\n", Index, Volume->VolName.wc_str()); break; } } if (DiskVolume == NULL) { DBG(" - [!] not found\n"); return -1; } // // 3.2 DiskVolume // search for first entry with win loader or win partition on that disk // DBG(" - searching for first entry with win loader or win partition on that disk\n"); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { if (MainMenu->Entries[Index].getLEGACY_ENTRY()) { LEGACY_ENTRY& LegacyEntry = (LEGACY_ENTRY&)MainMenu->Entries[Index]; REFIT_VOLUME* Volume = LegacyEntry.Volume; if (Volume != NULL && Volume->WholeDiskBlockIO == DiskVolume->BlockIO) { // check for Win //DBG(" checking legacy entry %d. %ls\n", Index, LegacyEntry.Title); //DBG(" %ls\n", DevicePathToStr (Volume->DevicePath)); //DBG(" OSType = %d\n", Volume->OSType); if (Volume->LegacyOS->Type == OSTYPE_WIN) { // that's the one - legacy win partition DBG(" - found legacy entry %lld. '%ls', Volume '%ls'\n", Index, LegacyEntry.Title.s(), Volume->VolName.wc_str()); return Index; } } } else if (MainMenu->Entries[Index].getLOADER_ENTRY()) { LOADER_ENTRY& LoaderEntry = *MainMenu->Entries[Index].getLOADER_ENTRY(); REFIT_VOLUME* Volume = LoaderEntry.Volume; if (Volume != NULL && Volume->WholeDiskBlockIO == DiskVolume->BlockIO) { // check for Win //DBG(" checking loader entry %d. %ls\n", Index, LoaderEntry.Title); //DBG(" %ls\n", DevicePathToStr (Volume->DevicePath)); //DBG(" LoaderPath = %ls\n", LoaderEntry.LoaderPath); //DBG(" LoaderType = %d\n", LoaderEntry.LoaderType); if (LoaderEntry.LoaderType == OSTYPE_WINEFI) { // that's the one - win loader entry DBG(" - found loader entry %lld. '%ls', Volume '%ls', '%ls'\n", Index, LoaderEntry.Title.s(), Volume->VolName.wc_str(), LoaderEntry.LoaderPath.wc_str()); return Index; } } } } DBG(" - [!] not found\n"); // // 3.3 DiskVolume, but no Win entry // PciRoot(0x0)/.../Sata(...) // just find first menu entry on that disk? // DBG(" - searching for any entry from disk '%ls'\n", DiskVolume->VolName.wc_str()); for (Index = 0; ((Index < (INTN)MainMenu->Entries.size()) && (MainMenu->Entries[Index].Row == 0)); ++Index) { if (MainMenu->Entries[Index].getLEGACY_ENTRY()) { LEGACY_ENTRY& LegacyEntry = (LEGACY_ENTRY&)MainMenu->Entries[Index]; REFIT_VOLUME* Volume = LegacyEntry.Volume; if (Volume != NULL && Volume->WholeDiskBlockIO == DiskVolume->BlockIO) { // that's the one DBG(" - found legacy entry %lld. '%ls', Volume '%ls'\n", Index, LegacyEntry.Title.s(), Volume->VolName.wc_str()); return Index; } } else if (MainMenu->Entries[Index].getLOADER_ENTRY()) { LOADER_ENTRY& LoaderEntry = *MainMenu->Entries[Index].getLOADER_ENTRY(); REFIT_VOLUME* Volume = LoaderEntry.Volume; if (Volume != NULL && Volume->WholeDiskBlockIO == DiskVolume->BlockIO) { // that's the one DBG(" - found loader entry %lld. '%ls', Volume '%ls', '%ls'\n", Index, LoaderEntry.Title.s(), Volume->VolName.wc_str(), LoaderEntry.LoaderPath.wc_str()); return Index; } } } DBG(" - [!] not found\n"); return -1; } /** Sets efi-boot-device-data RT var to currently selected Volume and LoadePath. */ EFI_STATUS SetStartupDiskVolume ( IN REFIT_VOLUME *Volume, IN CONST XStringW& LoaderPath ) { EFI_STATUS Status; EFI_DEVICE_PATH_PROTOCOL *DevPath; EFI_DEVICE_PATH_PROTOCOL *FileDevPath; EFI_GUID *Guid; // CHAR8 *EfiBootDevice; // CONST CHAR8 *EfiBootDeviceTmpl; // UINTN Size; UINT32 Attributes; DBG("SetStartupDiskVolume:\n"); DBG(" * Volume: '%ls'\n", Volume->VolName.wc_str()); DBG(" * LoaderPath: '%ls'\n", LoaderPath.wc_str()); // // construct dev path for Volume/LoaderPath // DevPath = Volume->DevicePath; if (LoaderPath.notEmpty()) { FileDevPath = FileDevicePath (NULL, LoaderPath); DevPath = AppendDevicePathNode (DevPath, FileDevPath); } DBG(" * DevPath: %ls\n", Volume->VolName.wc_str()/*, FileDevicePathToStr (DevPath)*/); Guid = FindGPTPartitionGuidInDevicePath (Volume->DevicePath); DBG(" * GUID = %s\n", strguid(Guid)); // // let's save it without EFI_VARIABLE_NON_VOLATILE in CloverEFI like other vars so far // if (!gFirmwareClover && !gDriversFlags.EmuVariableLoaded) { Attributes = EFI_VARIABLE_NON_VOLATILE | EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS; } else { Attributes = EFI_VARIABLE_BOOTSERVICE_ACCESS | EFI_VARIABLE_RUNTIME_ACCESS; } // // set efi-boot-device-data to volume dev path // Status = SetNvramVariable (L"efi-boot-device-data", &gEfiAppleBootGuid, Attributes, GetDevicePathSize(DevPath), DevPath); if (EFI_ERROR(Status)) { return Status; } // // set efi-boot-device to XML string // (probably not needed at all) // if (Guid != NULL) { XString8 EfiBootDevice; EfiBootDevice.S8Printf( "" "IOMatch" "" "IOProviderClassIOMedia" "IOPropertyMatch" "UUID%s" "" "", strguid(Guid)); DBG (" * efi-boot-device: %s\n", EfiBootDevice.c_str()); Status = SetNvramXString8(L"efi-boot-device", &gEfiAppleBootGuid, Attributes, EfiBootDevice); } return Status; } /** Deletes Startup disk vars: efi-boot-device, efi-boot-device-data, BootCampHD. */ void RemoveStartupDiskVolume () { // EFI_STATUS Status; // DBG("RemoveStartupDiskVolume:\n"); /*Status =*/ DeleteNvramVariable (L"efi-boot-device", &gEfiAppleBootGuid); // DBG(" * efi-boot-device = %s\n", efiStrError(Status)); /*Status =*/ DeleteNvramVariable (L"efi-boot-device-data", &gEfiAppleBootGuid); // DBG(" * efi-boot-device-data = %s\n", efiStrError(Status)); /*Status =*/ DeleteNvramVariable (L"BootCampHD", &gEfiAppleBootGuid); // DBG(" * BootCampHD = %s\n", efiStrError(Status)); // DBG("Removed efi-boot-device-data variable: %s\n", efiStrError(Status)); } void ResetNvram () { if (gFirmwareClover || gDriversFlags.EmuVariableLoaded) { if (gEmuVariableControl != NULL) { gEmuVariableControl->InstallEmulation(gEmuVariableControl); } } ResetNativeNvram (); if (gFirmwareClover || gDriversFlags.EmuVariableLoaded) { if (gEmuVariableControl != NULL) { gEmuVariableControl->UninstallEmulation(gEmuVariableControl); } } // 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(); }