/* * This file is part of Luma3DS * Copyright (C) 2016-2020 Aurora Wright, TuxSH * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * Additional Terms 7.b and 7.c of GPLv3 apply to this file: * * Requiring preservation of specified reasonable legal notices or * author attributions in that material or in the Appropriate Legal * Notices displayed by works containing it. * * Prohibiting misrepresentation of the origin of that material, * or requiring that modified versions of such material be marked in * reasonable ways as different from the original version. */ #include "firm.h" #include "config.h" #include "utils.h" #include "fs.h" #include "exceptions.h" #include "patches.h" #include "memory.h" #include "cache.h" #include "emunand.h" #include "crypto.h" #include "screen.h" #include "fmt.h" #include "chainloader.h" static Firm *firm = (Firm *)0x20001000; static __attribute__((noinline)) bool overlaps(u32 as, u32 ae, u32 bs, u32 be) { if(as <= bs && bs <= ae) return true; if(bs <= as && as <= be) return true; return false; } static __attribute__((noinline)) bool inRange(u32 as, u32 ae, u32 bs, u32 be) { if(as >= bs && ae <= be) return true; return false; } static bool checkFirm(u32 firmSize) { if(memcmp(firm->magic, "FIRM", 4) != 0 || firm->arm9Entry == NULL) //Allow for the Arm11 entrypoint to be zero in which case nothing is done on the Arm11 side return false; bool arm9EpFound = false, arm11EpFound = false; u32 size = 0x200; for(u32 i = 0; i < 4; i++) size += firm->section[i].size; if(firmSize < size) return false; for(u32 i = 0; i < 4; i++) { FirmSection *section = &firm->section[i]; //Allow empty sections if(section->size == 0) continue; if((section->offset < 0x200) || (section->address + section->size < section->address) || //Overflow check ((u32)section->address & 3) || (section->offset & 0x1FF) || (section->size & 0x1FF) || //Alignment check (overlaps((u32)section->address, (u32)section->address + section->size, (u32)firm, (u32)firm + size)) || ((!inRange((u32)section->address, (u32)section->address + section->size, 0x08000000, 0x08000000 + 0x00100000)) && (!inRange((u32)section->address, (u32)section->address + section->size, 0x18000000, 0x18000000 + 0x00600000)) && (!inRange((u32)section->address, (u32)section->address + section->size, 0x1FF00000, 0x1FFFFC00)) && (!inRange((u32)section->address, (u32)section->address + section->size, 0x20000000, 0x20000000 + 0x8000000)))) return false; __attribute__((aligned(4))) u8 hash[0x20]; sha(hash, (u8 *)firm + section->offset, section->size, SHA_256_MODE); if(memcmp(hash, section->hash, 0x20) != 0) return false; if(firm->arm9Entry >= section->address && firm->arm9Entry < (section->address + section->size)) arm9EpFound = true; if(firm->arm11Entry >= section->address && firm->arm11Entry < (section->address + section->size)) arm11EpFound = true; } return arm9EpFound && (firm->arm11Entry == NULL || arm11EpFound); } static inline u32 loadFirmFromStorage(FirmwareType firmType) { static const char *firmwareFiles[] = { "native.firm", "twl.firm", "agb.firm", "safe.firm", "sysupdater.firm" }, *cetkFiles[] = { "cetk", "cetk_twl", "cetk_agb", "cetk_safe", "cetk_sysupdater" }; u32 firmSize = fileRead(firm, firmwareFiles[(u32)firmType], 0x400000 + sizeof(Cxi) + 0x200); if(!firmSize) return 0; static const char *extFirmError = "The external FIRM is not valid."; if(firmSize <= sizeof(Cxi) + 0x200) error(extFirmError); if(memcmp(firm, "FIRM", 4) != 0) { if(firmSize <= sizeof(Cxi) + 0x400) error(extFirmError); u8 cetk[0xA50]; if(fileRead(cetk, cetkFiles[(u32)firmType], sizeof(cetk)) != sizeof(cetk)) error("The cetk is missing or corrupted."); firmSize = decryptNusFirm((Ticket *)(cetk + 0x140), (Cxi *)firm, firmSize); if(!firmSize) error("Unable to decrypt the external FIRM."); } if(!checkFirm(firmSize)) error("The external FIRM is invalid or corrupted."); return firmSize; } u32 loadNintendoFirm(FirmwareType *firmType, FirmwareSource nandType, bool loadFromStorage, bool isSafeMode) { u32 firmVersion, firmSize; bool ctrNandError = isSdMode && !mountFs(false, false); if(!ctrNandError) { //Load FIRM from CTRNAND firmVersion = firmRead(firm, (u32)*firmType); if(firmVersion == 0xFFFFFFFF) ctrNandError = true; else { firmSize = decryptExeFs((Cxi *)firm); if(!firmSize || !checkFirm(firmSize)) ctrNandError = true; } } bool loadedFromStorage = false; if(loadFromStorage || ctrNandError) { u32 result = loadFirmFromStorage(*firmType); if(result != 0) { loadedFromStorage = true; firmSize = result; } else if(ctrNandError) error("Unable to mount CTRNAND or load the CTRNAND FIRM.\nPlease use an external one."); } //Check that the FIRM is right for the console from the Arm9 section address if((firm->section[3].offset != 0 ? firm->section[3].address : firm->section[2].address) != (ISN3DS ? (u8 *)0x8006000 : (u8 *)0x8006800)) error("The %s FIRM is not for this console.", loadedFromStorage ? "external" : "CTRNAND"); if(!ISN3DS && *firmType == NATIVE_FIRM && firm->section[0].address == (u8 *)0x1FF80000) { //We can't boot < 3.x EmuNANDs if(nandType != FIRMWARE_SYSNAND) error("An old unsupported EmuNAND has been detected.\nLuma3DS is unable to boot it."); if(isSafeMode) error("SAFE_MODE is not supported on 1.x/2.x FIRM."); *firmType = NATIVE_FIRM1X2X; } if(loadedFromStorage || ISDEVUNIT) { firmVersion = 0xFFFFFFFF; if(!ISN3DS && *firmType == NATIVE_FIRM) { __attribute__((aligned(4))) static const u8 hashes[3][0x20] = { {0x39, 0x75, 0xB5, 0x28, 0x24, 0x5E, 0x8B, 0x56, 0xBC, 0x83, 0x79, 0x41, 0x09, 0x2C, 0x42, 0xE6, 0x26, 0xB6, 0x80, 0x59, 0xA5, 0x56, 0xF9, 0xF9, 0x6E, 0xF3, 0x63, 0x05, 0x58, 0xDF, 0x35, 0xEF}, {0x81, 0x9E, 0x71, 0x58, 0xE5, 0x44, 0x73, 0xF7, 0x48, 0x78, 0x7C, 0xEF, 0x5E, 0x30, 0xE2, 0x28, 0x78, 0x0B, 0x21, 0x23, 0x94, 0x63, 0xE8, 0x4E, 0x06, 0xBB, 0xD6, 0x8D, 0xA0, 0x99, 0xAE, 0x98}, {0x1D, 0xD5, 0xB0, 0xC2, 0xD9, 0x4A, 0x4A, 0xF3, 0x23, 0xDD, 0x2F, 0x65, 0x21, 0x95, 0x9B, 0x7E, 0xF2, 0x71, 0x7E, 0xB6, 0x7A, 0x3A, 0x74, 0x78, 0x0D, 0xE3, 0xB5, 0x0C, 0x2B, 0x7F, 0x85, 0x37} }; u32 i; for(i = 0; i < 3; i++) if(memcmp(firm->section[1].hash, hashes[i], 0x20) == 0) break; switch(i) { case 0: firmVersion = 0x18; break; case 1: firmVersion = 0x1D; break; case 2: firmVersion = 0x1F; break; } } } return firmVersion; } void loadHomebrewFirm(u32 pressed) { char path[10 + 255]; bool found = !pressed ? payloadMenu(path) : findPayload(path, pressed); if(!found) return; u32 maxPayloadSize = (u32)((u8 *)0x27FFE000 - (u8 *)firm), payloadSize = fileRead(firm, path, maxPayloadSize); if(payloadSize <= 0x200 || !checkFirm(payloadSize)) error("The payload is invalid or corrupted."); char absPath[24 + 255]; if(isSdMode) sprintf(absPath, "sdmc:/luma/%s", path); else sprintf(absPath, "nand:/rw/luma/%s", path); char *argv[2] = {absPath, (char *)fbs}; initScreens(); launchFirm((firm->reserved2[0] & 1) ? 2 : 1, argv); } static inline void mergeSection0(FirmwareType firmType, u32 firmVersion, bool loadFromStorage) { u32 srcModuleSize, nbModules = 0; struct { char name[8]; u8 *src; u32 size; } moduleList[6]; //1) Parse info concerning Nintendo's modules for(u8 *src = (u8 *)firm + firm->section[0].offset, *srcEnd = src + firm->section[0].size; src < srcEnd; src += srcModuleSize, nbModules++) { memcpy(moduleList[nbModules].name, ((Cxi *)src)->exHeader.systemControlInfo.appTitle, 8); moduleList[nbModules].src = src; srcModuleSize = moduleList[nbModules].size = ((Cxi *)src)->ncch.contentSize * 0x200; } // SAFE_FIRM only for N3DS and only if ENABLESAFEFIRMROSALINA is on if((firmType == NATIVE_FIRM || firmType == SAFE_FIRM) && (ISN3DS || firmVersion >= 0x1D)) { //2) Merge that info with our own modules' for(u8 *src = (u8 *)0x18180000; memcmp(((Cxi *)src)->ncch.magic, "NCCH", 4) == 0; src += srcModuleSize) { const char *name = ((Cxi *)src)->exHeader.systemControlInfo.appTitle; u32 i; for(i = 0; i < 5 && memcmp(name, moduleList[i].name, 8) != 0; i++); if(i == 5) { nbModules++; memcpy(moduleList[i].name, ((Cxi *)src)->exHeader.systemControlInfo.appTitle, 8); } moduleList[i].src = src; srcModuleSize = moduleList[i].size = ((Cxi *)src)->ncch.contentSize * 0x200; } } //3) Read or copy the modules u8 *dst = firm->section[0].address; const char *extModuleSizeError = "The external FIRM modules are too large."; // SAFE_FIRM only for N3DS and only if ENABLESAFEFIRMROSALINA is on u32 maxModuleSize = (firmType == NATIVE_FIRM || firmType == SAFE_FIRM) ? 0x80000 : 0x600000; for(u32 i = 0, dstModuleSize; i < nbModules; i++, dst += dstModuleSize, maxModuleSize -= dstModuleSize) { if(loadFromStorage) { char fileName[24]; //Read modules from files if they exist sprintf(fileName, "sysmodules/%.8s.cxi", moduleList[i].name); dstModuleSize = getFileSize(fileName); if(dstModuleSize != 0) { if(dstModuleSize > maxModuleSize) error(extModuleSizeError); if(dstModuleSize <= sizeof(Cxi) + 0x200 || fileRead(dst, fileName, dstModuleSize) != dstModuleSize || memcmp(((Cxi *)dst)->ncch.magic, "NCCH", 4) != 0 || memcmp(moduleList[i].name, ((Cxi *)dst)->exHeader.systemControlInfo.appTitle, sizeof(((Cxi *)dst)->exHeader.systemControlInfo.appTitle)) != 0) error("An external FIRM module is invalid or corrupted."); continue; } } dstModuleSize = moduleList[i].size; if(dstModuleSize > maxModuleSize) error(extModuleSizeError); memcpy(dst, moduleList[i].src, dstModuleSize); } //4) Patch NATIVE_FIRM/SAFE_FIRM (N3DS) if necessary if(nbModules == 6) { if(patchK11ModuleLoading(firm->section[0].size, dst - firm->section[0].address, (u8 *)firm + firm->section[1].offset, firm->section[1].size) != 0) error("Failed to inject custom sysmodule"); } } u32 patchNativeFirm(u32 firmVersion, FirmwareSource nandType, bool loadFromStorage, bool isFirmProtEnabled, bool needToInitSd, bool doUnitinfoPatch) { u8 *arm9Section = (u8 *)firm + firm->section[2].offset, *arm11Section1 = (u8 *)firm + firm->section[1].offset; if(ISN3DS) { //Decrypt Arm9Bin and patch Arm9 entrypoint to skip kernel9loader kernel9Loader((Arm9Bin *)arm9Section); firm->arm9Entry = (u8 *)0x801B01C; } //Find the Process9 .code location, size and memory address u32 process9Size, process9MemAddr; u8 *process9Offset = getProcess9Info(arm9Section, firm->section[2].size, &process9Size, &process9MemAddr); //Find the Kernel11 SVC table and handler, exceptions page and free space locations u32 baseK11VA; u8 *freeK11Space; u32 *arm11SvcHandler, *arm11ExceptionsPage, *arm11SvcTable = getKernel11Info(arm11Section1, firm->section[1].size, &baseK11VA, &freeK11Space, &arm11SvcHandler, &arm11ExceptionsPage); u32 kernel9Size = (u32)(process9Offset - arm9Section) - sizeof(Cxi) - 0x200, ret = 0; //Skip on FIRMs < 4.0 if(ISN3DS || firmVersion >= 0x1D) { ret += installK11Extension(arm11Section1, firm->section[1].size, needToInitSd, baseK11VA, arm11ExceptionsPage, &freeK11Space); ret += patchKernel11(arm11Section1, firm->section[1].size, baseK11VA, arm11SvcTable, arm11ExceptionsPage); } //Apply signature patches ret += patchSignatureChecks(process9Offset, process9Size); //Apply EmuNAND patches if(nandType != FIRMWARE_SYSNAND) ret += patchEmuNand(arm9Section, kernel9Size, process9Offset, process9Size, firm->section[2].address, firmVersion); //Apply FIRM0/1 writes patches on SysNAND to protect A9LH else if(isFirmProtEnabled) ret += patchFirmWrites(process9Offset, process9Size); //Apply firmlaunch patches ret += patchFirmlaunches(process9Offset, process9Size, process9MemAddr); //Apply dev unit check patches related to NCCH encryption if(!ISDEVUNIT) { ret += patchZeroKeyNcchEncryptionCheck(process9Offset, process9Size); ret += patchNandNcchEncryptionCheck(process9Offset, process9Size); } //Apply anti-anti-DG patches on 11.0+ if(firmVersion >= (ISN3DS ? 0x21 : 0x52)) ret += patchTitleInstallMinVersionChecks(process9Offset, process9Size, firmVersion); //Patch P9 AM ticket wrapper on 11.8+ to use 0 Key and IV, only with UNITINFO patch on to prevent NIM from actually sending any if(doUnitinfoPatch && firmVersion >= (ISN3DS ? 0x35 : 0x64)) ret += patchP9AMTicketWrapperZeroKeyIV(process9Offset, process9Size, firmVersion); //Apply UNITINFO patches if(doUnitinfoPatch) { ret += patchUnitInfoValueSet(arm9Section, kernel9Size); if(!ISDEVUNIT) ret += patchCheckForDevCommonKey(process9Offset, process9Size); } //Arm9 exception handlers ret += patchArm9ExceptionHandlersInstall(arm9Section, kernel9Size); ret += patchSvcBreak9(arm9Section, kernel9Size, (u32)firm->section[2].address); ret += patchKernel9Panic(arm9Section, kernel9Size); ret += patchP9AccessChecks(process9Offset, process9Size); mergeSection0(NATIVE_FIRM, firmVersion, loadFromStorage); firm->section[0].size = 0; return ret; } u32 patchTwlFirm(u32 firmVersion, bool loadFromStorage, bool doUnitinfoPatch) { u8 *arm9Section = (u8 *)firm + firm->section[3].offset; //On N3DS, decrypt Arm9Bin and patch Arm9 entrypoint to skip kernel9loader if(ISN3DS) { kernel9Loader((Arm9Bin *)arm9Section); firm->arm9Entry = (u8 *)0x801301C; } //Find the Process9 .code location, size and memory address u32 process9Size, process9MemAddr; u8 *process9Offset = getProcess9Info(arm9Section, firm->section[3].size, &process9Size, &process9MemAddr); u32 kernel9Size = (u32)(process9Offset - arm9Section) - sizeof(Cxi) - 0x200, ret = 0; ret += patchLgySignatureChecks(process9Offset, process9Size); ret += patchTwlInvalidSignatureChecks(process9Offset, process9Size); ret += patchTwlNintendoLogoChecks(process9Offset, process9Size); ret += patchTwlWhitelistChecks(process9Offset, process9Size); if(ISN3DS || firmVersion > 0x11) ret += patchTwlFlashcartChecks(process9Offset, process9Size, firmVersion); else if(!ISN3DS && firmVersion == 0x11) ret += patchOldTwlFlashcartChecks(process9Offset, process9Size); ret += patchTwlShaHashChecks(process9Offset, process9Size); //Apply UNITINFO patch if(doUnitinfoPatch) ret += patchUnitInfoValueSet(arm9Section, kernel9Size); if(loadFromStorage) { mergeSection0(TWL_FIRM, 0, true); firm->section[0].size = 0; } return ret; } u32 patchAgbFirm(bool loadFromStorage, bool doUnitinfoPatch) { u8 *arm9Section = (u8 *)firm + firm->section[3].offset; //On N3DS, decrypt Arm9Bin and patch Arm9 entrypoint to skip kernel9loader if(ISN3DS) { kernel9Loader((Arm9Bin *)arm9Section); firm->arm9Entry = (u8 *)0x801301C; } //Find the Process9 .code location, size and memory address u32 process9Size, process9MemAddr; u8 *process9Offset = getProcess9Info(arm9Section, firm->section[3].size, &process9Size, &process9MemAddr); u32 kernel9Size = (u32)(process9Offset - arm9Section) - sizeof(Cxi) - 0x200, ret = 0; ret += patchLgySignatureChecks(process9Offset, process9Size); if(CONFIG(SHOWGBABOOT)) ret += patchAgbBootSplash(process9Offset, process9Size); //Apply UNITINFO patch if(doUnitinfoPatch) ret += patchUnitInfoValueSet(arm9Section, kernel9Size); if(loadFromStorage) { mergeSection0(AGB_FIRM, 0, true); firm->section[0].size = 0; } return ret; } u32 patch1x2xNativeAndSafeFirm(void) { u8 *arm9Section = (u8 *)firm + firm->section[2].offset; if(ISN3DS) { //Decrypt Arm9Bin and patch Arm9 entrypoint to skip kernel9loader kernel9Loader((Arm9Bin *)arm9Section); firm->arm9Entry = (u8 *)0x801B01C; } //Find the Process9 .code location, size and memory address u32 process9Size, process9MemAddr; u8 *process9Offset = getProcess9Info(arm9Section, firm->section[2].size, &process9Size, &process9MemAddr); u32 kernel9Size = (u32)(process9Offset - arm9Section) - sizeof(Cxi) - 0x200, ret = 0; ret += ISN3DS ? patchFirmWrites(process9Offset, process9Size) : patchOldFirmWrites(process9Offset, process9Size); ret += ISN3DS ? patchSignatureChecks(process9Offset, process9Size) : patchOldSignatureChecks(process9Offset, process9Size); //Arm9 exception handlers ret += patchArm9ExceptionHandlersInstall(arm9Section, kernel9Size); ret += patchSvcBreak9(arm9Section, kernel9Size, (u32)firm->section[2].address); if(ISN3DS && CONFIG(ENABLESAFEFIRMROSALINA)) { u8 *arm11Section1 = (u8 *)firm + firm->section[1].offset; //Find the Kernel11 SVC table and handler, exceptions page and free space locations u32 baseK11VA; u8 *freeK11Space; u32 *arm11SvcHandler, *arm11ExceptionsPage, *arm11SvcTable = getKernel11Info(arm11Section1, firm->section[1].size, &baseK11VA, &freeK11Space, &arm11SvcHandler, &arm11ExceptionsPage); ret += installK11Extension(arm11Section1, firm->section[1].size, false, baseK11VA, arm11ExceptionsPage, &freeK11Space); ret += patchKernel11(arm11Section1, firm->section[1].size, baseK11VA, arm11SvcTable, arm11ExceptionsPage); // Add some other patches to the mix, as we can now launch homebrew on SAFE_FIRM: //Apply firmlaunch patches ret += patchFirmlaunches(process9Offset, process9Size, process9MemAddr); ret += patchKernel9Panic(arm9Section, kernel9Size); ret += patchP9AccessChecks(process9Offset, process9Size); mergeSection0(NATIVE_FIRM, 0x45, false); // may change in the future firm->section[0].size = 0; } return ret; } void launchFirm(int argc, char **argv) { prepareArm11ForFirmlaunch(); chainload(argc, argv, firm); }