/* * Copyright (c) 2011-2012 Frank Peng. All rights reserved. * */ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #ifdef __cplusplus } #endif #include #include // Only use angled for Platform, else, xcode project won't compile #include "kernel_patcher.h" #include "kext_inject.h" #include "../gui/menu_items/menu_items.h" #include "MemoryOperation.h" #define OLD_METHOD 0 #ifndef DEBUG_ALL #define KEXT_DEBUG 1 #else #define KEXT_DEBUG DEBUG_ALL #endif #if KEXT_DEBUG == 2 #define DBG(...) printf(__VA_ARGS__); #elif KEXT_DEBUG == 1 #define DBG(...) DebugLog(KEXT_DEBUG, __VA_ARGS__) #else #define DBG(...) #endif // search a pattern like // call task or jmp address //return the address next to the command // 0 if not found UINTN FindRelative32(const UINT8 *Source, UINTN Start, UINTN SourceSize, UINTN taskLocation) { INT32 Offset; //can be negative, so 0xFFFFFFFF == -1 for (UINTN i = Start; i < Start + SourceSize - 4; ++i) { Offset = (INT32)((UINT32)Source[i] + ((UINT32)Source[i+1]<<8) + ((UINT32)Source[i+2]<<16) + ((UINT32)Source[i+3]<<24)); //should not use *(UINT32*) because of alignment if (taskLocation == i + Offset + 4) { return (i+4); } } return 0; } /* UINTN FindSection(const UINT8 *Source, UINTN len, const UINT8* seg, const UINT8* sec) { BOOLEAN eq; for (UINTN i = 0x20; i < len; i++) { eq = TRUE; for (UINTN j = 0; j < 16 && (sec[j] != 0); j++) { if (Source[i + j] != sec[j]) { eq = FALSE; break; } } if (eq) { for (UINTN j = 0; j < 16 && (seg[j] != 0); j++) { if (Source[i + 0x10 + j] != seg[j]) { eq = FALSE; break; } } if (eq) return i + 16; } } return 0; } */ /** Global for storing KextBundleIdentifier */ CHAR8 gKextBundleIdentifier[256]; /** Extracts kext BundleIdentifier from given Plist into gKextBundleIdentifier */ void ExtractKextBundleIdentifier(CHAR8 *Plist) { CHAR8 *Tag; CHAR8 *BIStart; CHAR8 *BIEnd; INTN DictLevel = 0; gKextBundleIdentifier[0] = '\0'; // start with first Tag = AsciiStrStr(Plist, ""); if (Tag == NULL) { return; } Tag += 6; DictLevel++; while (*Tag != '\0') { if (strncmp(Tag, "", 6) == 0) { // opening dict DictLevel++; Tag += 6; } else if (strncmp(Tag, "", 7) == 0) { // closing dict DictLevel--; Tag += 7; } else if (DictLevel == 1 && strncmp(Tag, "CFBundleIdentifier", 29) == 0) { // BundleIdentifier is next ... BIStart = AsciiStrStr(Tag + 29, ""); if (BIStart != NULL) { BIStart += 8; // skip "" BIEnd = AsciiStrStr(BIStart, ""); if (BIEnd != NULL && (UINTN)(BIEnd - BIStart + 1) < sizeof(gKextBundleIdentifier)) { // (UINTN)(BIEnd - BIStart + 1) = valid cast because BIEnd is > BIStart CopyMem(gKextBundleIdentifier, BIStart, BIEnd - BIStart); gKextBundleIdentifier[BIEnd - BIStart] = '\0'; return; } } Tag++; } else { Tag++; } // advance to next tag while (*Tag != '<' && *Tag != '\0') { Tag++; } } } BOOLEAN isPatchNameMatch (CHAR8 *BundleIdentifier, CHAR8 *Name) { BOOLEAN isBundle = (AsciiStrStr(Name, ".") != NULL); return isBundle ? (AsciiStrCmp(BundleIdentifier, Name) == 0) : (AsciiStrStr(BundleIdentifier, Name) != NULL); } //////////////////////////////////// // // ATIConnectors patch // // bcc9's patch: http://www.insanelymac.com/forum/index.php?showtopic=249642 // // inited or not? BOOLEAN ATIConnectorsPatchInited = FALSE; // ATIConnectorsController's boundle IDs for // 0: ATI version - Lion, SnowLeo 10.6.7 2011 MBP // 1: AMD version - ML CHAR8 ATIKextBundleId[2][64]; // // Inits patcher: prepares ATIKextBundleIds. // void LOADER_ENTRY::ATIConnectorsPatchInit() { // // prepar boundle ids // // Lion, SnowLeo 10.6.7 2011 MBP snprintf(ATIKextBundleId[0], sizeof(ATIKextBundleId[0]), "com.apple.kext.ATI%sController", // when it was AsciiSPrint, %a was used with KPATIConnectorsController which is CHAR16 ??? Result is printing stop at first char <= 255 //now it is CHAR8* KernelAndKextPatches.KPATIConnectorsController.c_str() ); // ML snprintf(ATIKextBundleId[1], sizeof(ATIKextBundleId[1]), "com.apple.kext.AMD%sController", // when it was AsciiSPrint, %a was used with KPATIConnectorsController which is CHAR16 ??? Result is printing stop at first char <= 255 KernelAndKextPatches.KPATIConnectorsController.c_str() ); ATIConnectorsPatchInited = TRUE; //DBG(L"Bundle1: %s\n", ATIKextBundleId[0]); //DBG(L"Bundle2: %s\n", ATIKextBundleId[1]); //gBS->Stall(10000000); } // // Registers kexts that need force-load during WithKexts boot. // void LOADER_ENTRY::ATIConnectorsPatchRegisterKexts(void *FSInject_v, void *ForceLoadKexts_v) { FSINJECTION_PROTOCOL *FSInject = (FSINJECTION_PROTOCOL *)FSInject_v; FSI_STRING_LIST *ForceLoadKexts = (FSI_STRING_LIST *)ForceLoadKexts_v; // for future? FSInject->AddStringToList(ForceLoadKexts, SWPrintf("\\AMD%sController.kext\\Contents\\Info.plist", KernelAndKextPatches.KPATIConnectorsController.c_str()).wc_str() ); // Lion, ML, SnowLeo 10.6.7 2011 MBP FSInject->AddStringToList(ForceLoadKexts, SWPrintf("\\ATI%sController.kext\\Contents\\Info.plist", KernelAndKextPatches.KPATIConnectorsController.c_str()).wc_str() ); // SnowLeo FSInject->AddStringToList(ForceLoadKexts, L"\\ATIFramebuffer.kext\\Contents\\Info.plist"); FSInject->AddStringToList(ForceLoadKexts, L"\\AMDFramebuffer.kext\\Contents\\Info.plist"); // dependencies FSInject->AddStringToList(ForceLoadKexts, L"\\IOGraphicsFamily.kext\\Info.plist"); FSInject->AddStringToList(ForceLoadKexts, L"\\ATISupport.kext\\Contents\\Info.plist"); FSInject->AddStringToList(ForceLoadKexts, L"\\AMDSupport.kext\\Contents\\Info.plist"); FSInject->AddStringToList(ForceLoadKexts, L"\\AppleGraphicsControl.kext\\Info.plist"); FSInject->AddStringToList(ForceLoadKexts, L"\\AppleGraphicsControl.kext\\Contents\\PlugIns\\AppleGraphicsDeviceControl.kext\\Info.plist"); //as well IOAcceleratorFamily2 } // // Patch function. // void LOADER_ENTRY::ATIConnectorsPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { UINTN Num = 0; DBG_RT("\nATIConnectorsPatch: driverAddr = %llx, driverSize = %x\nController = %s\n", (UINTN)Driver, DriverSize, KernelAndKextPatches.KPATIConnectorsController.c_str()); ExtractKextBundleIdentifier(InfoPlist); DBG_RT("Kext: %s\n", gKextBundleIdentifier); // number of occurences od Data should be 1 Num = SearchAndCount(Driver, DriverSize, KernelAndKextPatches.KPATIConnectorsData.data(), KernelAndKextPatches.KPATIConnectorsData.size()); if (Num > 1) { // error message - shoud always be printed printf("==> KPATIConnectorsData found %llu times in %s - skipping patching!\n", Num, gKextBundleIdentifier); Stall(5*1000000); return; } // patch Num = SearchAndReplace(Driver, DriverSize, KernelAndKextPatches.KPATIConnectorsData.data(), KernelAndKextPatches.KPATIConnectorsData.size(), KernelAndKextPatches.KPATIConnectorsPatch.data(), 1); if (Num > 0) { DBG_RT("==> patched %llu times!\n", Num); } else { DBG_RT("==> NOT patched!\n"); } Stall(5000000); } //////////////////////////////////// // // AppleIntelCPUPM patch // // fLaked's SpeedStepper patch for Asus (and some other) boards: // http://www.insanelymac.com/forum/index.php?showtopic=258611 // // Credits: Samantha/RevoGirl/DHP // http://www.insanelymac.com/forum/topic/253642-dsdt-for-asus-p8p67-m-pro/page__st__200#entry1681099 // Rehabman corrections 2014 // const UINT8 MovlE2ToEcx[] = { 0xB9, 0xE2, 0x00, 0x00, 0x00 }; const UINT8 MovE2ToCx[] = { 0x66, 0xB9, 0xE2, 0x00 }; const UINT8 Wrmsr[] = { 0x0F, 0x30 }; void LOADER_ENTRY::AppleIntelCPUPMPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { UINTN Index1; UINTN Index2; UINTN Count = 0; UINTN Start = 0; UINTN Size = DriverSize; DBG_RT("\nAppleIntelCPUPMPatch: driverAddr = %llx, driverSize = %x\n", (UINTN)Driver, DriverSize); // if (KernelAndKextPatches->KPDebug) { // ExtractKextBundleIdentifier(InfoPlist); // } // DBG_RT("Kext: %s\n", gKextBundleIdentifier); // we should scan only __text __TEXT | Slice -> do this INTN textName = FindMem(Driver, DriverSize, kPrelinkTextSection, sizeof(kPrelinkTextSection)); if (textName > 0) { SEGMENT *textSeg = (SEGMENT *)&Driver[textName]; Start = textSeg->fileoff; Size = textSeg->filesize; DBG("found __text [%llX,%llX]\n",Start, Size); if (Start > DriverSize) Start = 0; if (Size > DriverSize) { Size = DriverSize; } } for (Index1 = Start; Index1 < Start + Size; Index1++) { // search for MovlE2ToEcx if (CompareMem(Driver + Index1, MovlE2ToEcx, sizeof(MovlE2ToEcx)) == 0) { // search for wrmsr in next few bytes for (Index2 = Index1 + sizeof(MovlE2ToEcx); Index2 < Index1 + sizeof(MovlE2ToEcx) + 32; Index2++) { if (Driver[Index2] == Wrmsr[0] && Driver[Index2 + 1] == Wrmsr[1]) { // found it - patch it with nops Count++; Driver[Index2] = 0x90; Driver[Index2 + 1] = 0x90; DBG_RT(" %llu. patched at 0x%llx\n", Count, Index2); break; } else if ((Driver[Index2] == 0xC9 && Driver[Index2 + 1] == 0xC3) || (Driver[Index2] == 0x5D && Driver[Index2 + 1] == 0xC3) || (Driver[Index2] == 0xB9 && Driver[Index2 + 3] == 0 && Driver[Index2 + 4] == 0) || (Driver[Index2] == 0x66 && Driver[Index2 + 1] == 0xB9 && Driver[Index2 + 3] == 0)) { // a leave/ret will cancel the search // so will an intervening "mov[l] $xx, [e]cx" break; } } } else if (CompareMem(Driver + Index1, MovE2ToCx, sizeof(MovE2ToCx)) == 0) { // search for wrmsr in next few bytes for (Index2 = Index1 + sizeof(MovE2ToCx); Index2 < Index1 + sizeof(MovE2ToCx) + 32; Index2++) { if (Driver[Index2] == Wrmsr[0] && Driver[Index2 + 1] == Wrmsr[1]) { // found it - patch it with nops Count++; Driver[Index2] = 0x90; Driver[Index2 + 1] = 0x90; DBG_RT(" %llu. patched CX at 0x%llx\n", Count, Index2); break; } else if ((Driver[Index2] == 0xC9 && Driver[Index2 + 1] == 0xC3) || (Driver[Index2] == 0x5D && Driver[Index2 + 1] == 0xC3) || (Driver[Index2] == 0xB9 && Driver[Index2 + 3] == 0 && Driver[Index2 + 4] == 0) || (Driver[Index2] == 0x66 && Driver[Index2 + 1] == 0xB9 && Driver[Index2 + 3] == 0)) { // a leave/ret will cancel the search // so will an intervening "mov[l] $xx, [e]cx" break; } } } } DBG_RT("= %llu patches\n", Count); Stall(5000000); } //////////////////////////////////// // // AppleRTC patch to prevent CMOS reset // // http://www.insanelymac.com/forum/index.php?showtopic=253992 // http://www.insanelymac.com/forum/index.php?showtopic=276066 // #if OLD_METHOD const UINT8 LionSearch_X64[] = { 0x75, 0x30, 0x44, 0x89, 0xf8 }; const UINT8 LionReplace_X64[] = { 0xeb, 0x30, 0x44, 0x89, 0xf8 }; const UINT8 LionSearch_i386[] = { 0x75, 0x3d, 0x8b, 0x75, 0x08 }; const UINT8 LionReplace_i386[] = { 0xeb, 0x3d, 0x8b, 0x75, 0x08 }; const UINT8 MLSearch[] = { 0x75, 0x30, 0x89, 0xd8 }; const UINT8 MLReplace[] = { 0xeb, 0x30, 0x89, 0xd8 }; // SunKi: 10.9 - 10.14.3 const UINT8 MavMoj3Search[] = { 0x75, 0x2e, 0x0f, 0xb6 }; const UINT8 MavMoj3Replace[] = { 0xeb, 0x2e, 0x0f, 0xb6 }; // RodionS: 10.14.4+ / 10.15 DB1 const UINT8 Moj4CataSearch[] = { 0x75, 0x33, 0x0f, 0xb7 }; const UINT8 Moj4CataReplace[] = { 0xeb, 0x33, 0x0f, 0xb7 }; #endif // // We can not rely on OSVersion global variable for OS version detection, // since in some cases it is not correct (install of ML from Lion, for example). -- AppleRTC patch is not needed for installation // So, we'll use "brute-force" method - just try to patch. // Actually, we'll at least check that if we can find only one instance of code that // we are planning to patch. // void LOADER_ENTRY::AppleRTCPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { #if OLD_METHOD UINTN Num = 0; UINTN NumLion_X64 = 0; UINTN NumLion_i386 = 0; UINTN NumML = 0; UINTN NumMavMoj3 = 0; UINTN NumMoj4 = 0; DBG_RT("\nAppleRTCPatch: driverAddr = %llx, driverSize = %x\n", (UINTN)Driver, DriverSize); if (KernelAndKextPatches->KPDebug) { ExtractKextBundleIdentifier(InfoPlist); } DBG_RT("Kext: %s\n", gKextBundleIdentifier); if (is64BitKernel) { NumLion_X64 = SearchAndCount(Driver, DriverSize, LionSearch_X64, sizeof(LionSearch_X64)); NumML = SearchAndCount(Driver, DriverSize, MLSearch, sizeof(MLSearch)); NumMavMoj3 = SearchAndCount(Driver, DriverSize, MavMoj3Search, sizeof(MavMoj3Search)); NumMoj4 = SearchAndCount(Driver, DriverSize, Moj4CataSearch, sizeof(Moj4CataSearch)); } else { NumLion_i386 = SearchAndCount(Driver, DriverSize, LionSearch_i386, sizeof(LionSearch_i386)); } if (NumLion_X64 + NumLion_i386 + NumML + NumMavMoj3 + NumMoj4 > 1) { // more then one pattern found - we do not know what to do with it // and we'll skip it DBG_RT("AppleRTCPatch: ERROR: multiple patterns found (LionX64: %llu, Lioni386: %llu, ML: %llu, MavMoj3: %llu, Moj4: %llu) - skipping patching!\n", NumLion_X64, NumLion_i386, NumML, NumMavMoj3, NumMoj4); Stall(5000000); return; } if (NumLion_X64 == 1) { Num = SearchAndReplace(Driver, DriverSize, LionSearch_X64, sizeof(LionSearch_X64), LionReplace_X64, 1); DBG_RT("==> Lion X64: %llu replaces done.\n", Num); } else if (NumLion_i386 == 1) { Num = SearchAndReplace(Driver, DriverSize, LionSearch_i386, sizeof(LionSearch_i386), LionReplace_i386, 1); DBG_RT("==> Lion i386: %llu replaces done.\n", Num); } else if (NumML == 1) { Num = SearchAndReplace(Driver, DriverSize, MLSearch, sizeof(MLSearch), MLReplace, 1); DBG_RT("==> MountainLion X64: %llu replaces done.\n", Num); } else if (NumMavMoj3 == 1) { Num = SearchAndReplace(Driver, DriverSize, MavMoj3Search, sizeof(MavMoj3Search), MavMoj3Replace, 1); DBG_RT("==> Mav/Yos/El/Sie/HS/Moj3 X64: %llu replaces done.\n", Num); } else if (NumMoj4 == 1) { Num = SearchAndReplace(Driver, DriverSize, Moj4CataSearch, sizeof(Moj4CataSearch), Moj4CataReplace, 1); DBG_RT("==> Mojave4 X64: %llu replaces done.\n", Num); } else { DBG_RT("==> Patterns not found - patching NOT done.\n"); } #else //RodionS UINTN procLocation = searchProcInDriver(Driver, DriverSize, "updateChecksum"_XS8); DBG("updateChecksum at 0x%llx\n", procLocation); if (procLocation != 0) { if ((((struct mach_header_64*)KernelData)->filetype) == MH_KERNEL_COLLECTION) { DBG("procedure in kernel space\n"); for (int j = 0; j < 20; ++j) { DBG("%02X", KernelData[procLocation + j]); } DBG("\n"); KernelData[procLocation] = 0xC3; } else { DBG("procedure in Driver space\n"); for (int j = 0; j < 20; ++j) { DBG("%02X", Driver[procLocation + j]); } DBG("\n"); Driver[procLocation] = 0xC3; } DBG_RT("AppleRTC: patched\n"); } else { DBG_RT("AppleRTC: not patched\n"); } #endif Stall(5000000); } /////////////////////////////////// // // InjectKexts if no FakeSMC: Detect FakeSMC and if present then // disable kext injection InjectKexts() // // not used since 4242 #if 0 void LOADER_ENTRY::CheckForFakeSMC(CHAR8 *InfoPlist) { if (OSFLAG_ISSET(Flags, OSFLAG_CHECKFAKESMC) && OSFLAG_ISSET(Flags, OSFLAG_WITHKEXTS)) { if (AsciiStrStr(InfoPlist, "org.netkas.driver.FakeSMC") != NULL || AsciiStrStr(InfoPlist, "org.netkas.FakeSMC") != NULL || AsciiStrStr(InfoPlist, "as.vit9696.VirtualSMC") != NULL) { Flags = OSFLAG_UNSET(Flags, OSFLAG_WITHKEXTS); DBG_RT("\nFakeSMC or VirtualSMC found, UNSET WITHKEXTS\n"); Stall(5000000); } } } #endif //////////////////////////////////// // // Dell SMBIOS Patch by syscl // // Remap SMBIOS Table 1 for both AppleSMBIOS and AppleACPIPlatform // // EB9D2D31-2D88-11D3-9A16-0090273F -> EB9D2D35-2D88-11D3-9A16-0090273F // STATIC UINT8 DELL_SMBIOS_GUID_Search[] = { 0x45, 0x42, 0x39, 0x44, 0x32, 0x44, 0x33, 0x31 }; STATIC UINT8 DELL_SMBIOS_GUID_Replace[] = { 0x45, 0x42, 0x39, 0x44, 0x32, 0x44, 0x33, 0x35 }; // // EB9D2D31-2D88-11D3-9A16-0090273F is the standard SMBIOS Table Type 1 for // all computers even though Apple.Inc should obey the rule // that's why we can be so confident to write patch pattern this way - syscl // void LOADER_ENTRY::DellSMBIOSPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { // // syscl // Note, smbios truncate issue only affects Broadwell platform and platform // later than Broadwell thus we don't need to consider OS versinos earlier // than Yosemite, they are all pure 64bit platforms // UINTN gPatchCount = 0; DBG_RT("\nDellSMBIOSPatch: driverAddr = %llx, driverSize = %x\n", (UINTN)Driver, DriverSize); if (KernelAndKextPatches.KPDebug) { ExtractKextBundleIdentifier(InfoPlist); } DBG_RT("Kext: %s\n", gKextBundleIdentifier); // // now, let's patch it! // gPatchCount = SearchAndReplace(Driver, DriverSize, DELL_SMBIOS_GUID_Search, sizeof(DELL_SMBIOS_GUID_Search), DELL_SMBIOS_GUID_Replace, 1); if (gPatchCount >= 1) { DBG_RT("==> AppleSMBIOS: %llu replaces done.\n", gPatchCount); } else { DBG_RT("==> Patterns not found - patching NOT done.\n"); } Stall(5000000); } //////////////////////////////////// // // SNBE_AICPUPatch implemented by syscl // Fix AppleIntelCPUPowerManagement on SandyBridge-E (c) omni, stinga11 // void LOADER_ENTRY::SNBE_AICPUPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { UINT32 i; UINT64 os_ver = AsciiOSVersionToUint64(OSVersion); DBG_RT("\nSNBE_AICPUPatch: driverAddr = %llx, driverSize = %x\n", (UINTN)Driver, DriverSize); if (KernelAndKextPatches.KPDebug) { ExtractKextBundleIdentifier(InfoPlist); } DBG_RT("Kext: %s\n", gKextBundleIdentifier); // now let's patch it if (os_ver < AsciiOSVersionToUint64("10.9"_XS8) || os_ver >= AsciiOSVersionToUint64("10.14"_XS8)) { DBG("Unsupported macOS.\nSandyBridge-E requires macOS 10.9 - 10.13.x, aborted\n"); DBG("SNBE_AICPUPatch() <===FALSE\n"); return; } if (os_ver < AsciiOSVersionToUint64("10.10"_XS8)) { // 10.9.x const UINT8 find[][3] = { { 0x84, 0x2F, 0x01 }, { 0x3E, 0x75, 0x3A }, { 0x84, 0x5F, 0x01 }, { 0x74, 0x10, 0xB9 }, { 0x75, 0x07, 0xB9 }, { 0xFC, 0x02, 0x74 }, { 0x01, 0x74, 0x58 } }; const UINT8 repl[][3] = { { 0x85, 0x2F, 0x01 }, { 0x3E, 0x90, 0x90 }, { 0x85, 0x5F, 0x01 }, { 0xEB, 0x10, 0xB9 }, { 0xEB, 0x07, 0xB9 }, { 0xFC, 0x02, 0xEB }, { 0x01, 0xEB, 0x58 } }; for (i = 0; i < 7; i++) { if (SearchAndReplace(Driver, DriverSize, find[i], sizeof(find[i]), repl[i], 0)) { DBG("SNBE_AICPUPatch (%d/7) applied\n", i); } else { DBG("SNBE_AICPUPatch (%d/7) not apply\n", i); } } } else if (os_ver < AsciiOSVersionToUint64("10.11"_XS8)) { // 10.10.x const UINT8 find[][3] = { { 0x3E, 0x75, 0x39 }, { 0x74, 0x11, 0xB9 }, { 0x01, 0x74, 0x56 } }; const UINT8 repl[][3] = { { 0x3E, 0x90, 0x90 }, { 0xEB, 0x11, 0xB9 }, { 0x01, 0xEB, 0x56 } }; for (i = 0; i < 3; i++) { if (SearchAndReplace(Driver, DriverSize, find[i], sizeof(find[i]), repl[i], 0)) { DBG("SNBE_AICPUPatch (%d/7) applied\n", i); } else { DBG("SNBE_AICPUPatch (%d/7) not apply\n", i); } } const UINT8 find_1[] = { 0xFF, 0x0F, 0x84, 0x2D }; const UINT8 repl_1[] = { 0xFF, 0x0F, 0x85, 0x2D }; if (SearchAndReplace(Driver, DriverSize, find_1, sizeof(find_1), repl_1, 0)) { DBG("SNBE_AICPUPatch (4/7) applied\n"); } else { DBG("SNBE_AICPUPatch (4/7) not apply\n"); } const UINT8 find_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x84 }; const UINT8 repl_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x85 }; if (SearchAndReplace(Driver, DriverSize, find_2, sizeof(find_2), repl_2, 0)) { DBG("SNBE_AICPUPatch (5/7) applied\n"); } else { DBG("SNBE_AICPUPatch (5/7) not apply\n"); } const UINT8 find_3[] = { 0x02, 0x74, 0x0B, 0x41, 0x83, 0xFC, 0x03, 0x75, 0x22, 0xB9, 0x02, 0x06 }; const UINT8 repl_3[] = { 0x02, 0xEB, 0x0B, 0x41, 0x83, 0xFC, 0x03, 0x75, 0x22, 0xB9, 0x02, 0x06 }; if (SearchAndReplace(Driver, DriverSize, find_3, sizeof(find_3), repl_3, 0)) { DBG("SNBE_AICPUPatch (6/7) applied\n"); } else { DBG("SNBE_AICPUPatch (6/7) not apply\n"); } const UINT8 find_4[] = { 0x74, 0x0B, 0x41, 0x83, 0xFC, 0x03, 0x75, 0x11, 0xB9, 0x42, 0x06, 0x00 }; const UINT8 repl_4[] = { 0xEB, 0x0B, 0x41, 0x83, 0xFC, 0x03, 0x75, 0x11, 0xB9, 0x42, 0x06, 0x00 }; if (SearchAndReplace(Driver, DriverSize, find_4, sizeof(find_4), repl_4, 0)) { DBG("SNBE_AICPUPatch (7/7) applied\n"); } else { DBG("SNBE_AICPUPatch (7/7) not apply\n"); } } else if (os_ver < AsciiOSVersionToUint64("10.12"_XS8)) { // 10.11 const UINT8 find[][3] = { { 0x3E, 0x75, 0x39 }, { 0x75, 0x11, 0xB9 }, { 0x01, 0x74, 0x5F } }; const UINT8 repl[][3] = { { 0x3E, 0x90, 0x90 }, { 0xEB, 0x11, 0xB9 }, { 0x01, 0xEB, 0x5F } }; for (i = 0; i < 3; i++) { if (SearchAndReplace(Driver, DriverSize, find[i], sizeof(find[i]), repl[i], 0)) { DBG("SNBE_AICPUPatch (%d/7) applied\n", i); } else { DBG("SNBE_AICPUPatch (%d/7) not apply\n", i); } } const UINT8 find_1[] = { 0xFF, 0x0F, 0x84, 0x2D }; const UINT8 repl_1[] = { 0xFF, 0x0F, 0x85, 0x2D }; if (SearchAndReplace(Driver, DriverSize, find_1, sizeof(find_1), repl_1, 0)) { DBG("SNBE_AICPUPatch (4/7) applied\n"); } else { DBG("SNBE_AICPUPatch (4/7) not apply\n"); } const UINT8 find_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x84 }; const UINT8 repl_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x85 }; if (SearchAndReplace(Driver, DriverSize, find_2, sizeof(find_2), repl_2, 0)) { DBG("SNBE_AICPUPatch (5/7) applied\n"); } else { DBG("SNBE_AICPUPatch (5/7) not apply\n"); } const UINT8 find_3[] = { 0xC9, 0x74, 0x16, 0x0F, 0x32, 0x48, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x48 }; const UINT8 repl_3[] = { 0xC9, 0xEB, 0x16, 0x0F, 0x32, 0x48, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x48 }; if (SearchAndReplace(Driver, DriverSize, find_3, sizeof(find_3), repl_3, 0)) { DBG("SNBE_AICPUPatch (6/7) applied\n"); } else { DBG("SNBE_AICPUPatch (6/7) not apply\n"); } const UINT8 find_4[] = { 0xC9, 0x74, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; const UINT8 repl_4[] = { 0xC9, 0xEB, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; if (SearchAndReplace(Driver, DriverSize, find_4, sizeof(find_4), repl_4, 0)) { DBG("SNBE_AICPUPatch (7/7) applied\n"); } else { DBG("SNBE_AICPUPatch (7/7) not apply\n"); } } else if (os_ver < AsciiOSVersionToUint64("10.13"_XS8)) { // 10.12 const UINT8 find[][3] = { { 0x01, 0x74, 0x61 }, { 0x3E, 0x75, 0x38 }, { 0x75, 0x11, 0xB9 } }; const UINT8 repl[][3] = { { 0x01, 0xEB, 0x61 }, { 0x3E, 0x90, 0x90 }, { 0xEB, 0x11, 0xB9 } }; for (i = 0; i < 3; i++) { if (SearchAndReplace(Driver, DriverSize, find[i], sizeof(find[i]), repl[i], 0)) { DBG("SNBE_AICPUPatch (%d/7) applied\n", i); } else { DBG("SNBE_AICPUPatch (%d/7) not apply\n", i); } } const UINT8 find_1[] = { 0xFF, 0x0F, 0x84, 0x2D }; const UINT8 repl_1[] = { 0xFF, 0x0F, 0x85, 0x2D }; if (SearchAndReplace(Driver, DriverSize, find_1, sizeof(find_1), repl_1, 0)) { DBG("SNBE_AICPUPatch (4/7) applied\n"); } else { DBG("SNBE_AICPUPatch (4/7) not apply\n"); } const UINT8 find_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x84 }; const UINT8 repl_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x85 }; if (SearchAndReplace(Driver, DriverSize, find_2, sizeof(find_2), repl_2, 0)) { DBG("SNBE_AICPUPatch (5/7) applied\n"); } else { DBG("SNBE_AICPUPatch (5/7) not apply\n"); } const UINT8 find_3[] = { 0xC9, 0x74, 0x15, 0x0F, 0x32, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x48 }; const UINT8 repl_3[] = { 0xC9, 0xEB, 0x15, 0x0F, 0x32, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x48 }; if (SearchAndReplace(Driver, DriverSize, find_3, sizeof(find_3), repl_3, 0)) { DBG("SNBE_AICPUPatch (6/7) applied\n"); } else { DBG("SNBE_AICPUPatch (6/7) not apply\n"); } const UINT8 find_4[] = { 0xC9, 0x74, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; const UINT8 repl_4[] = { 0xC9, 0xEB, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; if (SearchAndReplace(Driver, DriverSize, find_4, sizeof(find_4), repl_4, 0)) { DBG("SNBE_AICPUPatch (7/7) applied\n"); } else { DBG("SNBE_AICPUPatch (7/7) not apply\n"); } } else if (os_ver < AsciiOSVersionToUint64("10.15"_XS8)) { // 10.13/10.14 const UINT8 find[][3] = { { 0x01, 0x74, 0x61 }, { 0x3E, 0x75, 0x38 }, { 0x75, 0x11, 0xB9 } }; const UINT8 repl[][3] = { { 0x01, 0xEB, 0x61 }, { 0x3E, 0x90, 0x90 }, { 0xEB, 0x11, 0xB9 } }; for (i = 0; i < 3; i++) { if (SearchAndReplace(Driver, DriverSize, find[i], sizeof(find[i]), repl[i], 0)) { DBG("SNBE_AICPUPatch (%d/7) applied\n", i); } else { DBG("SNBE_AICPUPatch (%d/7) not apply\n", i); } } const UINT8 find_1[] = { 0xFF, 0x0F, 0x84, 0xD3 }; const UINT8 repl_1[] = { 0xFF, 0x0F, 0x85, 0xD3 }; if (SearchAndReplace(Driver, DriverSize, find_1, sizeof(find_1), repl_1, 0)) { DBG("SNBE_AICPUPatch (4/7) applied\n"); } else { DBG("SNBE_AICPUPatch (4/7) not apply\n"); } const UINT8 find_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x84 }; const UINT8 repl_2[] = { 0x01, 0x00, 0x01, 0x0F, 0x85 }; if (SearchAndReplace(Driver, DriverSize, find_2, sizeof(find_2), repl_2, 0)) { DBG("SNBE_AICPUPatch (5/7) applied\n"); } else { DBG("SNBE_AICPUPatch (5/7) not apply\n"); } const UINT8 find_3[] = { 0xC9, 0x74, 0x14, 0x0F, 0x32, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x6B }; const UINT8 repl_3[] = { 0xC9, 0xEB, 0x14, 0x0F, 0x32, 0x25, 0xFF, 0x0F, 0x00, 0x00, 0x6B}; if (SearchAndReplace(Driver, DriverSize, find_3, sizeof(find_3), repl_3, 0)) { DBG("SNBE_AICPUPatch (6/7) applied\n"); } else { DBG("SNBE_AICPUPatch (6/7) not apply\n"); } const UINT8 find_4[] = { 0xC9, 0x74, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; const UINT8 repl_4[] = { 0xC9, 0xEB, 0x0C, 0x0F, 0x32, 0x83, 0xE0, 0x1F, 0x42, 0x89, 0x44, 0x3B }; if (SearchAndReplace(Driver, DriverSize, find_4, sizeof(find_4), repl_4, 0)) { DBG("SNBE_AICPUPatch (7/7) applied\n"); } else { DBG("SNBE_AICPUPatch (7/7) not apply\n"); } } Stall(5000000); } //////////////////////////////////// // // BDWE_IOPCIPatch implemented by syscl // Fix Broadwell-E IOPCIFamily issue // // El Capitan const UINT8 BroadwellE_IOPCI_Find_El[] = { 0x48, 0x81, 0xF9, 0x01, 0x00, 0x00, 0x40 }; const UINT8 BroadwellE_IOPCI_Repl_El[] = { 0x48, 0x81, 0xF9, 0x01, 0x00, 0x00, 0x80 }; // Sierra/High Sierra const UINT8 BroadwellE_IOPCI_Find_SieHS[] = { 0x48, 0x81, 0xFB, 0x00, 0x00, 0x00, 0x40 }; const UINT8 BroadwellE_IOPCI_Repl_SieHS[] = { 0x48, 0x81, 0xFB, 0x00, 0x00, 0x00, 0x80 }; // Mojave const UINT8 BroadwellE_IOPCI_Find_MojCata[] = { 0x48, 0x3D, 0x00, 0x00, 0x00, 0x40 }; const UINT8 BroadwellE_IOPCI_Repl_MojCata[] = { 0x48, 0x3D, 0x00, 0x00, 0x00, 0x80 }; void LOADER_ENTRY::BDWE_IOPCIPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { UINTN count = 0; UINT64 os_ver = AsciiOSVersionToUint64(OSVersion); DBG_RT("\nBDWE_IOPCIPatch: driverAddr = %llx, driverSize = %x\n", (UINTN)Driver, DriverSize); if (KernelAndKextPatches.KPDebug) { ExtractKextBundleIdentifier(InfoPlist); } DBG_RT("Kext: %s\n", gKextBundleIdentifier); // // now, let's patch it! // if (os_ver < AsciiOSVersionToUint64("10.12"_XS8)) { count = SearchAndReplace(Driver, DriverSize, BroadwellE_IOPCI_Find_El, sizeof(BroadwellE_IOPCI_Find_El), BroadwellE_IOPCI_Repl_El, 0); } else if (os_ver < AsciiOSVersionToUint64("10.14"_XS8)) { count = SearchAndReplace(Driver, DriverSize, BroadwellE_IOPCI_Find_SieHS, sizeof(BroadwellE_IOPCI_Find_SieHS), BroadwellE_IOPCI_Repl_SieHS, 0); } else { count = SearchAndReplace(Driver, DriverSize, BroadwellE_IOPCI_Find_MojCata, sizeof(BroadwellE_IOPCI_Find_MojCata), BroadwellE_IOPCI_Repl_MojCata, 0); } if (count) { DBG_RT("==> IOPCIFamily: %llu replaces done.\n", count); } else { DBG_RT("==> Patterns not found - patching NOT done.\n"); } Stall(5000000); } void LOADER_ENTRY::EightApplePatch(UINT8 *Driver, UINT32 DriverSize) { // UINTN procLen = 0; DBG("8 apple patch\n"); UINTN procAddr = searchProcInDriver(Driver, DriverSize, "initFB"_XS8); UINTN verbose = searchProcInDriver(Driver, DriverSize, "gIOFBVerboseBoot"_XS8); if (procAddr != 0) { UINTN patchLoc; if ((((struct mach_header_64*)KernelData)->filetype) == MH_KERNEL_COLLECTION) { DBG("procedure in kernel space\n"); patchLoc = FindRelative32(KernelData, procAddr, 0x300, verbose-1); for (int j = 0; j < 20; ++j) { DBG("%02X", KernelData[procAddr + j]); } DBG("\n"); if (patchLoc != 0 && KernelData[patchLoc + 1] == 0x75) { KernelData[patchLoc + 1] = 0xEB; DBG("8 apples patch success\n"); } else { DBG("8 apples patch not found, loc=0x%llx\n", patchLoc); } } else { DBG("procedure in Driver space\n"); patchLoc = FindRelative32(Driver, procAddr, 0x300, verbose-1); for (int j = 0; j < 20; ++j) { DBG("%02X", Driver[patchLoc + j]); } DBG("\n"); if (patchLoc != 0 && Driver[patchLoc + 1] == 0x75) { Driver[patchLoc + 1] = 0xEB; DBG("8 apples patch success\n"); } else { DBG("8 apples patch not found, loc=0x%llx\n", patchLoc); } } DBG_RT("AppleRTC: patched\n"); } else { DBG_RT("AppleRTC: not patched\n"); } Stall(5000000); } //////////////////////////////////// // // Place other kext patches here // // ... //////////////////////////////////// // // Generic kext patch functions // // void LOADER_ENTRY::AnyKextPatch(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize, size_t N) { UINTN Num = 0; // if we modify value directly at KernelAndKextPatches->KextPatches[N].SearchLen, it will be wrong for next driver const KEXT_PATCH& kextpatch = KernelAndKextPatches.KextPatches[N]; UINTN SearchLen = kextpatch.SearchLen; DBG_RT("\nAnyKextPatch %zu: driverAddr = %llx, driverSize = %x\n Label = %s\n", N, (UINTN)Driver, DriverSize, kextpatch.Label.c_str()); DBG("\nAnyKextPatch %zu: driverAddr = %llx, driverSize = %x\n Label = %s\n", N, (UINTN)Driver, DriverSize, kextpatch.Label.c_str()); if (!kextpatch.MenuItem.BValue) { return; } if (!SearchLen || (SearchLen > DriverSize)) { SearchLen = DriverSize; } if (KernelAndKextPatches.KPDebug) { ExtractKextBundleIdentifier(InfoPlist); } DBG_RT("Kext: %s\n", gKextBundleIdentifier); if (!kextpatch.IsPlistPatch) { // kext binary patch DBG_RT("Binary patch\n"); bool once = false; UINTN procLen = 0; UINTN procAddr = searchProcInDriver(Driver, DriverSize, kextpatch.ProcedureName); if (SearchLen == DriverSize) { procLen = DriverSize - procAddr; once = true; } else { procLen = SearchLen; } UINT8 * curs = &Driver[procAddr]; UINTN j = 0; while (j < DriverSize) { if (kextpatch.StartPattern.isEmpty() || //old behavior CompareMemMask((const UINT8*)curs, kextpatch.StartPattern.data(), kextpatch.StartPattern.size(), kextpatch.StartMask.data(), kextpatch.StartPattern.size())) { DBG_RT(" StartPattern found\n"); Num = SearchAndReplaceMask(curs, procLen, kextpatch.Data.data(), kextpatch.MaskFind.data(), kextpatch.Data.size(), kextpatch.Patch.data(), kextpatch.MaskReplace.data(), kextpatch.Count, kextpatch.Skip); if (Num) { curs += SearchLen - 1; j += SearchLen - 1; } } if ( once || kextpatch.StartPattern.isEmpty() ) { break; } j++; curs++; } } else { // Info plist patch DBG_RT("Info.plist data : '"); for (size_t Ind = 0; Ind < kextpatch.Data.size(); Ind++) { DBG_RT("%c", kextpatch.Data[Ind]); } DBG_RT("' ->\n"); DBG_RT("Info.plist patch: '"); for (size_t Ind = 0; Ind < kextpatch.Data.size(); Ind++) { DBG_RT("%c", kextpatch.Patch[Ind]); } DBG_RT("' \n"); Num = SearchAndReplaceTxt((UINT8*)InfoPlist, InfoPlistSize, kextpatch.Data.data(), kextpatch.Data.size(), kextpatch.Patch.data(), -1); } if (KernelAndKextPatches.KPDebug) { if (Num > 0) { DBG_RT("==> patched %llu times!\n", Num); } else { DBG_RT("==> NOT patched!\n"); } gBS->Stall(2000000); } } // // Called from SetFSInjection(), before boot.efi is started, // to allow patchers to prepare FSInject to force load needed kexts. // void LOADER_ENTRY::KextPatcherRegisterKexts(void *FSInject_v, void *ForceLoadKexts) { FSINJECTION_PROTOCOL *FSInject = (FSINJECTION_PROTOCOL *)FSInject_v; if (KernelAndKextPatches.KPATIConnectorsController.notEmpty()) { ATIConnectorsPatchRegisterKexts(FSInject_v, ForceLoadKexts); } for (size_t i = 0; i < KernelAndKextPatches.KextPatches.size(); i++) { FSInject->AddStringToList((FSI_STRING_LIST*)ForceLoadKexts, SWPrintf("\\%s.kext\\Contents\\Info.plist", KernelAndKextPatches.KextPatches[i].Name.c_str()).wc_str() ); } } // // PatchKext is called for every kext from prelinked kernel (kernelcache) or from DevTree (booting with drivers). // Add kext detection code here and call kext specific patch function. // void LOADER_ENTRY::PatchKext(UINT8 *Driver, UINT32 DriverSize, CHAR8 *InfoPlist, UINT32 InfoPlistSize) { if (KernelAndKextPatches.KPATIConnectorsController.notEmpty()) { // // ATIConnectors // if (!ATIConnectorsPatchInited) { ATIConnectorsPatchInit(); } if ( AsciiStrStr(InfoPlist, ATIKextBundleId[0]) != NULL // ATI boundle id || AsciiStrStr(InfoPlist, ATIKextBundleId[1]) != NULL // AMD boundle id || AsciiStrStr(InfoPlist, "com.apple.kext.ATIFramebuffer") != NULL // SnowLeo || AsciiStrStr(InfoPlist, "com.apple.kext.AMDFramebuffer") != NULL //Maverics ) { ATIConnectorsPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); return; } } ExtractKextBundleIdentifier(InfoPlist); if (KernelAndKextPatches.KPAppleIntelCPUPM && (AsciiStrStr(InfoPlist, "com.apple.driver.AppleIntelCPUPowerManagement") != NULL)) { // // AppleIntelCPUPM // AppleIntelCPUPMPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (KernelAndKextPatches.KPAppleRTC && (AsciiStrStr(InfoPlist, "com.apple.driver.AppleRTC") != NULL)) { // // AppleRTC // AppleRTCPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (KernelAndKextPatches.KPDELLSMBIOS && (AsciiStrStr(InfoPlist, "com.apple.driver.AppleSMBIOS") != NULL)) { // // DellSMBIOSPatch // DBG_RT("Remap SMBIOS Table require, AppleSMBIOS...\n"); DellSMBIOSPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (KernelAndKextPatches.KPDELLSMBIOS && (AsciiStrStr(InfoPlist, "com.apple.driver.AppleACPIPlatform") != NULL)) { // // DellSMBIOS // // AppleACPIPlatform // DellSMBIOSPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (gBDWEIOPCIFixRequire && (AsciiStrStr(InfoPlist, "com.apple.iokit.IOPCIFamily") != NULL)) { // // Broadwell-E IOPCIFamily Patch // BDWE_IOPCIPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (gSNBEAICPUFixRequire && (AsciiStrStr(InfoPlist, "com.apple.driver.AppleIntelCPUPowerManagement") != NULL)) { // // SandyBridge-E AppleIntelCPUPowerManagement Patch implemented by syscl // SNBE_AICPUPatch(Driver, DriverSize, InfoPlist, InfoPlistSize); } else if (KernelAndKextPatches.EightApple && /* (AsciiStrStr(InfoPlist, "com.apple.iokit.IOGraphicsFamily") != NULL) && */ (AsciiStrStr(InfoPlist, "I/O Kit Graphics Family") != NULL)) { // // Patch against 8 apple glitch // DBG_RT("Patch 8 apple required, IOGraphicsFamily...\n"); EightApplePatch(Driver, DriverSize); Stall(10000000); } //com.apple.iokit.IOGraphicsFamily for (size_t i = 0; i < KernelAndKextPatches.KextPatches.size(); i++) { XString8& Name = KernelAndKextPatches.KextPatches[i].Name; BOOLEAN isBundle = Name.contains("."); if ((KernelAndKextPatches.KextPatches[i].Data.size() > 0) && isBundle?(AsciiStrCmp(gKextBundleIdentifier, Name.c_str()) == 0):(AsciiStrStr(gKextBundleIdentifier, Name.c_str()) != NULL)) { // (AsciiStrStr(InfoPlist, KernelAndKextPatches.KextPatches[i].Name) != NULL)) { DBG_RT("\n\nPatch kext: %s\n", KernelAndKextPatches.KextPatches[i].Name.c_str()); AnyKextPatch(Driver, DriverSize, InfoPlist, InfoPlistSize, i); } } } // // Returns parsed hex integer key. // Plist - kext pist // Key - key to find // WholePlist - _PrelinkInfoDictionary, used to find referenced values // // Searches for Key in Plist and it's value: // a) 0x2b000 // returns 0x2b000 // b) // searches for IntTag = AsciiStrStr(Value, ""); //this is decimal value if (IntTag != NULL) { IntTag += 9; //next after ">" if ((IntTag[1] == 'x') || (IntTag[1] == 'X')) { return AsciiStrHexToUintn(IntTag); } if (IntTag[0] == '-') { return (UINTN)(-(INTN)AsciiStrDecimalToUintn(IntTag + 1)); } return AsciiStrDecimalToUintn((IntTag[0] == '+') ? (IntTag + 1) : IntTag); } // search for "); if (Value == NULL) { // DBG("\nNo Value = AsciiStrStr(IntTag, " 8) { DBG("\nIDLen too big\n"); return 0; } AsciiStrCpyS(Buffer, 48, " /* if (DbgCount < 3) { AsciiStrnCpy(Buffer, IntTag, sizeof(Buffer) - 1); DBG(L"Found: '%s'\n", Buffer); } */ Value = AsciiStrStr(IntTag, ">"); if (Value == NULL) { DBG("\nNo Stall(10000000); } DbgCount++; */ return NumValue; } // // Iterates over kexts in kernelcache // and calls PatchKext() for each. // // PrelinkInfo section contains following plist, without spaces: // // _PrelinkInfoDictionary // // // // CFBundleName //No! we have CFBundleIdentifier // MAC Framework Pseudoextension // _PrelinkExecutableLoadAddr // 0xffffff7f8072f000 || -549736448000 // // _PrelinkExecutableSize // 0x3d0 || 49152 // // _PrelinkExecutableSourceAddr // 0xffffff80009a3000 // ... // OSBundleUUID // // rVVMo9l6M9K/lZm/X2BzEA== // // // // // ... // // ... void LOADER_ENTRY::PatchPrelinkedKexts() { CHAR8 *WholePlist; CHAR8 *DictPtr; CHAR8 *InfoPlistStart = NULL; CHAR8 *InfoPlistEnd = NULL; INTN DictLevel = 0; CHAR8 SavedValue; //INTN DbgCount = 0; UINT64 KextAddr = 0; UINT32 KextSize; WholePlist = (CHAR8*)(UINTN)PrelinkInfoAddr; // // Detect FakeSMC and if present then // disable kext injection InjectKexts(). // There is some bug in the folowing code that // searches for individual kexts in prelink info // and FakeSMC is not found on my SnowLeo although // it is present in kernelcache. // But searching through the whole prelink info // works and that's the reason why it is here. // //Slice // I see no reason to disable kext injection if FakeSMC found in cache //since rev4240 we have manual kext inject disable // CheckForFakeSMC(WholePlist); DBG("dump begin of WholePlist: "); for (int j=0; j<20; ++j) { DBG("%c", WholePlist[j]); } DBG("\n"); DictPtr = WholePlist; //new dict is the new kext while ((DictPtr = strstr(DictPtr, "dict>")) != NULL) { if (DictPtr[-1] == '<') { // opening dict DictLevel++; if (DictLevel == 2) { // kext start InfoPlistStart = DictPtr - 1; } } else if (DictPtr[-2] == '<' && DictPtr[-1] == '/') { // closing dict if (DictLevel == 2 && InfoPlistStart != NULL) { // kext end InfoPlistEnd = DictPtr + 5 /* "dict>" */; // terminate Info.plist with 0 SavedValue = *InfoPlistEnd; *InfoPlistEnd = '\0'; // get kext address from _PrelinkExecutableSourceAddr // truncate to 32 bit to get physical addr? Yes! KextAddr = (UINT32)GetPlistHexValue(InfoPlistStart, kPrelinkExecutableSourceKey, WholePlist); // KextAddr is always relative to 0x200000 // and if KernelSlide is != 0 then KextAddr must be adjusted KextAddr += KernelSlide; // and adjust for AptioFixDrv's KernelRelocBase KextAddr += KernelRelocBase; KextSize = (UINT32)GetPlistHexValue(InfoPlistStart, kPrelinkExecutableSizeKey, WholePlist); // DBG("found kext addr=0x%llX size=0x%X\n", KextAddr, KextSize); /*if (DbgCount < 3 || DbgCount == 100 || DbgCount == 101 || DbgCount == 102 ) { DBG(L"\n\nKext: St = %hhX, Size = %hhX\n", KextAddr, KextSize); DBG(L"Info: St = %p, End = %p\n%s\n", InfoPlistStart, InfoPlistEnd, InfoPlistStart); gBS->Stall(20000000); } */ // patch it PatchKext( (UINT8*)(UINTN)KextAddr, KextSize, InfoPlistStart, (UINT32)(InfoPlistEnd - InfoPlistStart) ); // return saved char *InfoPlistEnd = SavedValue; //DbgCount++; } DictLevel--; } DictPtr += 5; } } // // Iterates over kexts loaded by booter // and calls PatchKext() for each. // void LOADER_ENTRY::PatchLoadedKexts() { DTEntry MMEntry; _BooterKextFileInfo *KextFileInfo; CHAR8 *PropName; _DeviceTreeBuffer *PropEntry; CHAR8 SavedValue; CHAR8 *InfoPlist; OpaqueDTPropertyIterator OPropIter; DTPropertyIterator PropIter = &OPropIter; //UINTN DbgCount = 0; DBG("\nPatchLoadedKexts ... dtRoot = %llx\n", (UINTN)dtRoot); if (!dtRoot || !dtLength) { return; } DTInit(dtRoot, dtLength); if (!EFI_ERROR(DTLookupEntry(NULL,"/chosen/memory-map", &MMEntry))) { if (!EFI_ERROR(DTCreatePropertyIterator(MMEntry, PropIter))) { while (!EFI_ERROR(DTIterateProperties(PropIter, &PropName))) { //DBG(L"Prop: %s\n", PropName); if (AsciiStrStr(PropName,"Driver-")) { // PropEntry _DeviceTreeBuffer is the value of Driver-XXXXXX property PropEntry = (_DeviceTreeBuffer*)(((UINT8*)PropIter->CurrentProperty) + sizeof(DTProperty)); //if (DbgCount < 3) DBG(L"%s: paddr = %hhX, length = %hhX\n", PropName, PropEntry->paddr, PropEntry->length); // PropEntry->paddr points to _BooterKextFileInfo KextFileInfo = (_BooterKextFileInfo *)(UINTN)PropEntry->paddr; // Info.plist should be terminated with 0, but will also do it just in case InfoPlist = (CHAR8*)(UINTN)KextFileInfo->infoDictPhysAddr; SavedValue = InfoPlist[KextFileInfo->infoDictLength]; InfoPlist[KextFileInfo->infoDictLength] = '\0'; PatchKext( (UINT8*)(UINTN)KextFileInfo->executablePhysAddr, KextFileInfo->executableLength, InfoPlist, KextFileInfo->infoDictLength ); InfoPlist[KextFileInfo->infoDictLength] = SavedValue; } //if(AsciiStrStr(PropName,"DriversPackage-")!=0) //{ // DBG(L"Found %s\n", PropName); // break; //} } } } } // // Entry for all kext patches. // Will iterate through kext in prelinked kernel (kernelcache) // or DevTree (drivers boot) and do patches. // void LOADER_ENTRY::KextPatcherStart() { // if (isKernelcache) { DBG_RT("Patching kernelcache ...\n"); Stall(2000000); PatchPrelinkedKexts(); // } else { DBG_RT("Patching loaded kexts ...\n"); Stall(2000000); PatchLoadedKexts(); // } }