/* * firm.c */ #include "firm.h" #include "config.h" #include "utils.h" #include "fs.h" #include "patches.h" #include "memory.h" #include "emunand.h" #include "crypto.h" #include "draw.h" #include "screen.h" #include "buttons.h" #include "../build/injector.h" static firmHeader *const firm = (firmHeader *)0x24000000; static const firmSectionHeader *section; u32 config, console, firmSource, emuOffset; void main(void) { u32 bootType, firmType, nandType, a9lhMode, updatedSys, needConfig, newConfig, emuHeader, chronoStarted = 0; //Detect the console being used console = PDN_MPCORE_CFG == 7; //Mount filesystems. CTRNAND will be mounted only if/when needed mountFs(); const char configPath[] = "/luma/config.bin"; //Attempt to read the configuration file needConfig = fileRead(&config, configPath) ? 1 : 2; //Determine if this is a firmlaunch boot if(*(vu8 *)0x23F00005) { if(needConfig == 2) mcuReboot(); bootType = 1; //'0' = NATIVE_FIRM, '1' = TWL_FIRM, '2' = AGB_FIRM firmType = *(vu8 *)0x23F00009 == '3' ? 3 : *(vu8 *)0x23F00005 - '0'; nandType = BOOTCONFIG(0, 3); firmSource = BOOTCONFIG(2, 1); a9lhMode = BOOTCONFIG(3, 1); updatedSys = a9lhMode && CONFIG(1); } else { //Get pressed buttons u32 pressed = HID_PAD; //If no configuration file exists or SELECT is held, load configuration menu if(needConfig == 2 || ((pressed & BUTTON_SELECT) && !(pressed & BUTTON_L1))) { configureCFW(configPath); //Zero the last booted FIRM flag CFG_BOOTENV = 0; chronoStarted = 1; chrono(0); chrono(2); //Update pressed buttons pressed = HID_PAD; } bootType = 0; firmType = 0; //Determine if booting with A9LH u32 a9lhBoot = !PDN_SPI_CNT; //Determine if A9LH is installed and the user has an updated sysNAND if(a9lhBoot || CONFIG(2)) { a9lhMode = 1; updatedSys = CONFIG(1); } else { a9lhMode = 0; updatedSys = 0; } newConfig = a9lhMode << 3; if(a9lhBoot) { //Retrieve the last booted FIRM u32 previousFirm = CFG_BOOTENV; //If it's a MCU reboot, try to force boot options if(previousFirm) { //Always force a sysNAND boot when quitting AGB_FIRM if(previousFirm == 7) { nandType = 0; firmSource = updatedSys ? 0 : BOOTCONFIG(2, 1); needConfig = 0; //Flag to prevent multiple boot options-forcing newConfig |= 1 << 4; } /* Else, force the last used boot options unless a button is pressed or the no-forcing flag is set */ else if(!pressed && !BOOTCONFIG(4, 1)) { nandType = BOOTCONFIG(0, 3); firmSource = BOOTCONFIG(2, 1); needConfig = 0; } } //If the SAFE MODE combo is held, force a sysNAND boot else if(pressed == SAFE_MODE) { a9lhMode = 2; nandType = 0; firmSource = 0; needConfig = 0; } } //Boot options aren't being forced if(needConfig) { /* If L and R/A/Select or one of the single payload buttons are pressed, chainload an external payload */ if((pressed & SINGLE_PAYLOAD_BUTTONS) || ((pressed & BUTTON_L1) && (pressed & L_PAYLOAD_BUTTONS))) loadPayload(pressed); //If screens are inited or the corresponding option is set, load splash screen if((PDN_GPU_CNT != 1 || CONFIG(7)) && loadSplash()) { chronoStarted = 2; chrono(0); } //If R is pressed, boot the non-updated NAND with the FIRM of the opposite one if(pressed & BUTTON_R1) { nandType = updatedSys; firmSource = !nandType; } /* Else, boot the NAND the user set to autoboot or the opposite one, depending on L, with their own FIRM */ else { nandType = CONFIG(0) != !(pressed & BUTTON_L1); firmSource = nandType; } /* If we're booting emuNAND the second emuNAND is set as default and B isn't pressed, or vice-versa, boot the second emuNAND */ if(nandType && (CONFIG(3) == !(pressed & BUTTON_B))) nandType = 2; } } //If we need to boot emuNAND, make sure it exists if(nandType) { locateEmuNAND(&emuOffset, &emuHeader, &nandType); if(!nandType) firmSource = 0; } //Same if we're using emuNAND as the FIRM source else if(firmSource) locateEmuNAND(&emuOffset, &emuHeader, &firmSource); if(!bootType) { newConfig |= nandType | (firmSource << 2); /* If the boot configuration is different from previously, overwrite it. Just the no-forcing flag being set is not enough */ if((newConfig & 0x2F) != (config & 0x3F)) { //Preserve user settings (last 26 bits) newConfig |= config & 0xFFFFFFC0; fileWrite(&newConfig, configPath, 4); } } loadFirm(firmType, !firmType && updatedSys == !firmSource); switch(firmType) { case 0: patchNativeFirm(nandType, emuHeader, a9lhMode); break; case 3: patchSafeFirm(); break; default: patchLegacyFirm(firmType); break; } if(chronoStarted) { if(chronoStarted == 2) chrono(3); stopChrono(); } launchFirm(firmType, bootType); } static inline void loadFirm(u32 firmType, u32 externalFirm) { section = firm->section; u32 externalFirmLoaded = externalFirm && fileRead(firm, "/luma/firmware.bin") && (((u32)section[2].address >> 8) & 0xFF) == (console ? 0x60 : 0x68); /* If the conditions to load the external FIRM aren't met, or reading fails, or the FIRM doesn't match the console, load FIRM from CTRNAND */ if(!externalFirmLoaded) { const char *firmFolders[4][2] = {{ "00000002", "20000002" }, { "00000102", "20000102" }, { "00000202", "20000202" }, { "00000003", "20000003" }}; firmRead(firm, firmFolders[firmType][console]); decryptExeFs((u8 *)firm); } } static inline void patchNativeFirm(u32 nandType, u32 emuHeader, u32 a9lhMode) { u8 *arm9Section = (u8 *)firm + section[2].offset; u32 nativeFirmType; if(console) { //Determine the NATIVE_FIRM version switch(arm9Section[0x53]) { case 0xFF: nativeFirmType = 0; break; case '1': nativeFirmType = 2; break; default: nativeFirmType = 1; break; } //Decrypt ARM9Bin and patch ARM9 entrypoint to skip arm9loader arm9Loader(arm9Section, nativeFirmType); firm->arm9Entry = (u8 *)0x801B01C; } else { //Determine if we're booting the 9.0 FIRM u8 firm90Hash[0x10] = {0x27, 0x2D, 0xFE, 0xEB, 0xAF, 0x3F, 0x6B, 0x3B, 0xF5, 0xDE, 0x4C, 0x41, 0xDE, 0x95, 0x27, 0x6A}; nativeFirmType = memcmp(section[2].hash, firm90Hash, 0x10) != 0; } //Find the Process9 .code location, size and memory address u32 process9Size, process9MemAddr; u8 *process9Offset = getProcess9(arm9Section + 0x15000, section[2].size - 0x15000, &process9Size, &process9MemAddr); //Apply signature patches patchSignatureChecks(process9Offset, process9Size); //Apply emuNAND patches if(nandType) { u32 branchAdditive = (u32)firm + section[2].offset - (u32)section[2].address; patchEmuNAND(arm9Section, section[2].size, process9Offset, process9Size, emuOffset, emuHeader, branchAdditive); } //Apply FIRM0/1 writes patches on sysNAND to protect A9LH else if(a9lhMode) patchFirmWrites(process9Offset, process9Size); //Apply firmlaunch patches, not on 9.0 FIRM as it breaks firmlaunchhax if(nativeFirmType || a9lhMode == 2) patchFirmlaunches(process9Offset, process9Size, process9MemAddr); if(nativeFirmType == 1) { //Apply anti-anti-DG patches for >= 11.0 firmwares patchTitleInstallMinVersionCheck(process9Offset, process9Size); //Does nothing if svcBackdoor is still there reimplementSvcBackdoor((u8 *)firm + section[1].offset, section[1].size); } } static inline void patchLegacyFirm(u32 firmType) { //On N3DS, decrypt ARM9Bin and patch ARM9 entrypoint to skip arm9loader if(console) { arm9Loader((u8 *)firm + section[3].offset, 0); firm->arm9Entry = (u8 *)0x801301C; } applyLegacyFirmPatches((u8 *)firm, firmType, console); } static inline void patchSafeFirm(void) { u8 *arm9Section = (u8 *)firm + section[2].offset; if(console) { //Decrypt ARM9Bin and patch ARM9 entrypoint to skip arm9loader arm9Loader(arm9Section, 0); firm->arm9Entry = (u8 *)0x801B01C; patchFirmWrites(arm9Section, section[2].size); } else patchFirmWriteSafe(arm9Section, section[2].size); } static inline void copySection0AndInjectLoader(void) { u8 *arm11Section0 = (u8 *)firm + section[0].offset; u32 loaderSize; u32 loaderOffset = getLoader(arm11Section0, &loaderSize); memcpy(section[0].address, arm11Section0, loaderOffset); memcpy(section[0].address + loaderOffset, injector, injector_size); memcpy(section[0].address + loaderOffset + injector_size, arm11Section0 + loaderOffset + loaderSize, section[0].size - (loaderOffset + loaderSize)); } static inline void launchFirm(u32 firmType, u32 bootType) { //If we're booting NATIVE_FIRM, section0 needs to be copied separately to inject 3ds_injector u32 sectionNum; if(!firmType) { copySection0AndInjectLoader(); sectionNum = 1; } else sectionNum = 0; //Copy FIRM sections to respective memory locations for(; sectionNum < 4 && section[sectionNum].size; sectionNum++) memcpy(section[sectionNum].address, (u8 *)firm + section[sectionNum].offset, section[sectionNum].size); //Determine the ARM11 entry to use vu32 *arm11; if(bootType) arm11 = (u32 *)0x1FFFFFFC; else { deinitScreens(); arm11 = (u32 *)0x1FFFFFF8; } cleanInvalidateDCacheAndDMB(); //Ensure that all memory transfers have completed and that the data cache has been flushed //Set ARM11 kernel entrypoint *arm11 = (u32)firm->arm11Entry; //Final jump to ARM9 kernel ((void (*)())firm->arm9Entry)(); }