/* * This file is part of Luma3DS * Copyright (C) 2016 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 of GPLv3 applies 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. */ /* * Signature patches by an unknown author * firmlaunches patching code originally by delebile * FIRM partition writes patches by delebile * ARM11 modules patching code originally by Subv * Idea for svcBreak patches from yellows8 and others on #3dsdev */ #include "patches.h" #include "fs.h" #include "memory.h" #include "config.h" #include "utils.h" #include "../build/bundled.h" static inline void pathChanger(u8 *pos) { const char *pathFile = "path.txt"; u8 path[57]; u32 pathSize = fileRead(path, pathFile, sizeof(path)); if(pathSize < 6) return; if(path[pathSize - 1] == 0xA) pathSize--; if(path[pathSize - 1] == 0xD) pathSize--; if(pathSize < 6 || pathSize > 55 || path[0] != '/' || memcmp(path + pathSize - 4, ".bin", 4) != 0) return; u16 finalPath[56]; for(u32 i = 0; i < pathSize; i++) finalPath[i] = (u16)path[i]; finalPath[pathSize] = 0; u8 *posPath = memsearch(pos, u"sd", reboot_bin_size, 4) + 0xA; memcpy(posPath, finalPath, (pathSize + 1) * 2); } u8 *getProcess9Info(u8 *pos, u32 size, u32 *process9Size, u32 *process9MemAddr) { u8 *temp = memsearch(pos, "NCCH", size, 4); if(temp == NULL) error("Failed to get Process9 data."); Cxi *off = (Cxi *)(temp - 0x100); *process9Size = (off->ncch.exeFsSize - 1) * 0x200; *process9MemAddr = off->exHeader.systemControlInfo.textCodeSet.address; return (u8 *)off + (off->ncch.exeFsOffset + 1) * 0x200; } u32 *getKernel11Info(u8 *pos, u32 size, u32 *baseK11VA, u8 **freeK11Space, u32 **arm11SvcHandler, u32 **arm11DAbtHandler, u32 **arm11ExceptionsPage) { const u8 pattern[] = {0x00, 0xB0, 0x9C, 0xE5}, pattern2[] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; *arm11ExceptionsPage = (u32 *)memsearch(pos, pattern, size, sizeof(pattern)); *freeK11Space = memsearch(pos, pattern2, size, sizeof(pattern2)); if(*arm11ExceptionsPage == NULL || *freeK11Space == NULL) error("Failed to get Kernel11 data."); u32 *arm11SvcTable; *arm11ExceptionsPage -= 0xB; u32 svcOffset = (-(((*arm11ExceptionsPage)[2] & 0xFFFFFF) << 2) & (0xFFFFFF << 2)) - 8; //Branch offset + 8 for prefetch u32 dabtOffset = (-(((*arm11ExceptionsPage)[4] & 0xFFFFFF) << 2) & (0xFFFFFF << 2)) - 8; //Branch offset + 8 for prefetch u32 pointedInstructionVA = 0xFFFF0008 - svcOffset; *baseK11VA = pointedInstructionVA & 0xFFFF0000; //This assumes that the pointed instruction has an offset < 0x10000, iirc that's always the case arm11SvcTable = *arm11SvcHandler = (u32 *)(pos + *(u32 *)(pos + pointedInstructionVA - *baseK11VA + 8) - *baseK11VA); //SVC handler address while(*arm11SvcTable) arm11SvcTable++; //Look for SVC0 (NULL) pointedInstructionVA = 0xFFFF0010 - dabtOffset; *arm11DAbtHandler = (u32 *)(pos + *(u32 *)(pos + pointedInstructionVA - *baseK11VA + 8) - *baseK11VA); (*freeK11Space)++; return arm11SvcTable; } u32 patchSignatureChecks(u8 *pos, u32 size) { //Look for signature checks const u8 pattern[] = {0xC0, 0x1C, 0x76, 0xE7}, pattern2[] = {0xB5, 0x22, 0x4D, 0x0C}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); u8 *temp = memsearch(pos, pattern2, size, sizeof(pattern2)); if(off == NULL || temp == NULL) return 1; u16 *off2 = (u16 *)(temp - 1); *off = off2[0] = 0x2000; off2[1] = 0x4770; return 0; } u32 patchOldSignatureChecks(u8 *pos, u32 size) { // Look for signature checks // Pattern 2 works for 1.x, 2.x + factory FIRM. // For patchSignatureChecks-style (temp - 1 instead of temp - 3): // 1.x+2.x: pattern2[] = {0xB5, 0x23, 0x4E, 0x0C}; // factory: pattern2[] = {0xB5, 0x16, 0x4E, 0x0C}; const u8 pattern[] = {0xC0, 0x1C, 0xBD, 0xE7}, pattern2[] = {0x4E, 0x0C, 0x00, 0x71, 0x68}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); u8 *temp = memsearch(pos, pattern2, size, sizeof(pattern2)); if(off == NULL || temp == NULL) return 1; u16 *off2 = (u16 *)(temp - 3); *off = off2[0] = 0x2000; off2[1] = 0x4770; return 0; } u32 patchFirmlaunches(u8 *pos, u32 size, u32 process9MemAddr) { //Look for firmlaunch code const u8 pattern[] = {0xE2, 0x20, 0x20, 0x90}; u8 *off = memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off -= 0x13; //Firmlaunch function offset - offset in BLX opcode (A4-16 - ARM DDI 0100E) + 1 u32 fOpenOffset = (u32)(off + 9 - (-((*(u32 *)off & 0x00FFFFFF) << 2) & (0xFFFFFF << 2)) - pos + process9MemAddr); //Copy firmlaunch code memcpy(off, reboot_bin, reboot_bin_size); //Put the fOpen offset in the right location u32 *pos_fopen = (u32 *)memsearch(off, "OPEN", reboot_bin_size, 4); *pos_fopen = fOpenOffset; if(CONFIG(USECUSTOMPATH)) pathChanger(off); return 0; } u32 patchFirmWrites(u8 *pos, u32 size) { //Look for FIRM writing code u8 *off = memsearch(pos, "exe:", size, 4); if(off == NULL) return 1; const u8 pattern[] = {0x00, 0x28, 0x01, 0xDA}; u16 *off2 = (u16 *)memsearch(off - 0x100, pattern, 0x100, sizeof(pattern)); if(off2 == NULL) return 1; off2[0] = 0x2000; off2[1] = 0x46C0; return 0; } u32 patchOldFirmWrites(u8 *pos, u32 size) { //Look for FIRM writing code const u8 pattern[] = {0x04, 0x1E, 0x1D, 0xDB}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[0] = 0x2400; off[1] = 0xE01D; return 0; } u32 patchTitleInstallMinVersionChecks(u8 *pos, u32 size, u32 firmVersion) { const u8 pattern[] = {0xFF, 0x00, 0x00, 0x02}; u8 *off = memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return firmVersion == 0xFFFFFFFF ? 0 : 1; off++; //Zero out the first TitleID in the list memset32(off, 0, 8); return 0; } u32 patchZeroKeyNcchEncryptionCheck(u8 *pos, u32 size) { const u8 pattern[] = {0x28, 0x2A, 0xD0, 0x08}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u16 *off = (u16 *)(temp - 1); *off = 0x2001; //mov r0, #1 return 0; } u32 patchNandNcchEncryptionCheck(u8 *pos, u32 size) { const u8 pattern[] = {0x07, 0xD1, 0x28, 0x7A}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off--; *off = 0x2001; //mov r0, #1 return 0; } u32 patchCheckForDevCommonKey(u8 *pos, u32 size) { const u8 pattern[] = {0x03, 0x7C, 0x28, 0x00}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; *off = 0x2301; //mov r3, #1 return 0; } u32 reimplementSvcBackdoor(u8 *pos, u32 *arm11SvcTable, u32 baseK11VA, u8 **freeK11Space) { if(arm11SvcTable[0x7B] != 0) return 0; //Official implementation of svcBackdoor const u8 svcBackdoor[] = {0xFF, 0x10, 0xCD, 0xE3, //bic r1, sp, #0xff 0x0F, 0x1C, 0x81, 0xE3, //orr r1, r1, #0xf00 0x28, 0x10, 0x81, 0xE2, //add r1, r1, #0x28 0x00, 0x20, 0x91, 0xE5, //ldr r2, [r1] 0x00, 0x60, 0x22, 0xE9, //stmdb r2!, {sp, lr} 0x02, 0xD0, 0xA0, 0xE1, //mov sp, r2 0x30, 0xFF, 0x2F, 0xE1, //blx r0 0x03, 0x00, 0xBD, 0xE8, //pop {r0, r1} 0x00, 0xD0, 0xA0, 0xE1, //mov sp, r0 0x11, 0xFF, 0x2F, 0xE1}; //bx r1 if(*(u32 *)(*freeK11Space + sizeof(svcBackdoor) - 4) != 0xFFFFFFFF) return 1; memcpy(*freeK11Space, svcBackdoor, sizeof(svcBackdoor)); arm11SvcTable[0x7B] = baseK11VA + *freeK11Space - pos; *freeK11Space += sizeof(svcBackdoor); return 0; } u32 implementSvcGetCFWInfo(u8 *pos, u32 *arm11SvcTable, u32 baseK11VA, u8 **freeK11Space, bool isSafeMode) { if(*(u32 *)(*freeK11Space + svcGetCFWInfo_bin_size - 4) != 0xFFFFFFFF) return 1; memcpy(*freeK11Space, svcGetCFWInfo_bin, svcGetCFWInfo_bin_size); struct CfwInfo { char magic[4]; u8 versionMajor; u8 versionMinor; u8 versionBuild; u8 flags; u32 commitHash; u32 config; } __attribute__((packed)) *info = (struct CfwInfo *)memsearch(*freeK11Space, "LUMA", svcGetCFWInfo_bin_size, 4); const char *rev = REVISION; info->commitHash = COMMIT_HASH; info->config = configData.config; info->versionMajor = (u8)(rev[1] - '0'); info->versionMinor = (u8)(rev[3] - '0'); bool isRelease; if(rev[4] == '.') { info->versionBuild = (u8)(rev[5] - '0'); isRelease = rev[6] == 0; } else isRelease = rev[4] == 0; if(isRelease) info->flags = 1; if(ISN3DS) info->flags |= 1 << 4; if(isSafeMode) info->flags |= 1 << 5; arm11SvcTable[0x2E] = baseK11VA + *freeK11Space - pos; //Stubbed svc *freeK11Space += svcGetCFWInfo_bin_size; return 0; } u32 patchArm9ExceptionHandlersInstall(u8 *pos, u32 size) { const u8 pattern[] = {0x80, 0xE5, 0x40, 0x1C}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u32 *off = (u32 *)(temp - 0xA); for(u32 r0 = 0x08000000; *off != 0xE3A01040; off++) //Until mov r1, #0x40 { //Discard everything that's not str rX, [r0, #imm](!) if((*off & 0xFE5F0000) != 0xE4000000) continue; u32 rD = (*off >> 12) & 0xF, offset = (*off & 0xFFF) * ((((*off >> 23) & 1) == 0) ? -1 : 1); bool writeback = ((*off >> 21) & 1) != 0, pre = ((*off >> 24) & 1) != 0; u32 addr = r0 + ((pre || !writeback) ? offset : 0); if((addr & 7) != 0 && addr != 0x08000014 && addr != 0x08000004) *off = 0xE1A00000; //nop else *off = 0xE5800000 | (rD << 12) | (addr & 0xFFF); //Preserve IRQ and SVC handlers if(!pre) addr += offset; if(writeback) r0 = addr; } return 0; } u32 getInfoForArm11ExceptionHandlers(u8 *pos, u32 size, u32 *codeSetOffset) { const u8 pattern[] = {0x1B, 0x50, 0xA0, 0xE3}, //Get TitleID from CodeSet pattern2[] = {0xE8, 0x13, 0x00, 0x02}; //Call exception dispatcher u32 *loadCodeSet = (u32 *)memsearch(pos, pattern, size, sizeof(pattern)); u8 *temp = memsearch(pos, pattern2, size, sizeof(pattern2)); if(loadCodeSet == NULL || temp == NULL) error("Failed to get ARM11 exception handlers data."); loadCodeSet -= 2; *codeSetOffset = *loadCodeSet & 0xFFF; return *(u32 *)(temp + 9); } u32 patchSvcBreak9(u8 *pos, u32 size, u32 kernel9Address) { //Stub svcBreak with "bkpt 65535" so we can debug the panic //Look for the svc handler const u8 pattern[] = {0x00, 0xE0, 0x4F, 0xE1}; //mrs lr, spsr u32 *arm9SvcTable = (u32 *)memsearch(pos, pattern, size, sizeof(pattern)); if(arm9SvcTable == NULL) return 1; while(*arm9SvcTable != 0) arm9SvcTable++; //Look for SVC0 (NULL) u32 *addr = (u32 *)(pos + arm9SvcTable[0x3C] - kernel9Address); *addr = 0xE12FFF7F; return 0; } void patchSvcBreak11(u8 *pos, u32 *arm11SvcTable) { //Same as above, for NATIVE_FIRM ARM11 u32 *addr = (u32 *)(pos + arm11SvcTable[0x3C] - 0xFFF00000); *addr = 0xE12FFF7F; } u32 patchKernel9Panic(u8 *pos, u32 size) { const u8 pattern[] = {0xFF, 0xEA, 0x04, 0xD0}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u32 *off = (u32 *)(temp - 0x12); *off = 0xE12FFF7E; return 0; } u32 patchKernel11Panic(u8 *pos, u32 size) { const u8 pattern[] = {0x02, 0x0B, 0x44, 0xE2}; u32 *off = (u32 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; *off = 0xE12FFF7E; return 0; } u32 patchP9AccessChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x00, 0x08, 0x49, 0x68}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u16 *off = (u16 *)(temp - 3); off[0] = 0x2001; //mov r0, #1 off[1] = 0x4770; //bx lr return 0; } u32 patchArm11SvcAccessChecks(u32 *arm11SvcHandler, u32 *endPos) { while(*arm11SvcHandler != 0xE11A0E1B && arm11SvcHandler < endPos) arm11SvcHandler++; //TST R10, R11,LSL LR if(arm11SvcHandler == endPos) return 1; *arm11SvcHandler = 0xE3B0A001; //MOVS R10, #1 return 0; } u32 patchK11ModuleChecks(u8 *pos, u32 size, u8 **freeK11Space, bool patchGames) { /* We have to detour a function in the ARM11 kernel because builtin modules are compressed in memory and are only decompressed at runtime */ //Check that we have enough free space if(*(u32 *)(*freeK11Space + k11modules_bin_size - 4) != 0xFFFFFFFF) return patchGames ? 1 : 0; //Look for the code that decompresses the .code section of the builtin modules const u8 pattern[] = {0xE5, 0x48, 0x00, 0x9D}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; //Inject our code into the free space memcpy(*freeK11Space, k11modules_bin, k11modules_bin_size); u32 *off = (u32 *)(temp - 0xB); //Inject a jump (BL) instruction to our code at the offset we found *off = 0xEB000000 | (((((u32)*freeK11Space) - ((u32)off + 8)) >> 2) & 0xFFFFFF); *freeK11Space += k11modules_bin_size; return 0; } u32 patchUnitInfoValueSet(u8 *pos, u32 size) { //Look for UNITINFO value being set during kernel sync const u8 pattern[] = {0x01, 0x10, 0xA0, 0x13}; u8 *off = memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[0] = ISDEVUNIT ? 0 : 1; off[3] = 0xE3; return 0; } u32 patchLgySignatureChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x47, 0xC1, 0x17, 0x49}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u16 *off = (u16 *)(temp + 1); off[0] = 0x2000; off[1] = 0xB04E; off[2] = 0xBD70; return 0; } u32 patchTwlInvalidSignatureChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x20, 0xF6, 0xE7, 0x7F}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) return 1; u16 *off = (u16 *)(temp - 1); *off = 0x2001; //mov r0, #1 return 0; } u32 patchTwlNintendoLogoChecks(u8 *pos, u32 size) { const u8 pattern[] = {0xC0, 0x30, 0x06, 0xF0}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[1] = 0x2000; off[2] = 0; return 0; } u32 patchTwlWhitelistChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x22, 0x00, 0x20, 0x30}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[2] = 0x2000; off[3] = 0; return 0; } u32 patchTwlFlashcartChecks(u8 *pos, u32 size, u32 firmVersion) { const u8 pattern[] = {0x25, 0x20, 0x00, 0x0E}; u8 *temp = memsearch(pos, pattern, size, sizeof(pattern)); if(temp == NULL) { if(firmVersion == 0xFFFFFFFF) return patchOldTwlFlashcartChecks(pos, size); return 1; } u16 *off = (u16 *)(temp + 3); off[0] = off[6] = off[0xC] = 0x2001; //mov r0, #1 off[1] = off[7] = off[0xD] = 0; //nop return 0; } u32 patchOldTwlFlashcartChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x06, 0xF0, 0xA0, 0xFD}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[0] = off[6] = 0x2001; //mov r0, #1 off[1] = off[7] = 0; //nop return 0; } u32 patchTwlShaHashChecks(u8 *pos, u32 size) { const u8 pattern[] = {0x10, 0xB5, 0x14, 0x22}; u16 *off = (u16 *)memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[0] = 0x2001; //mov r0, #1 off[1] = 0x4770; return 0; } u32 patchAgbBootSplash(u8 *pos, u32 size) { const u8 pattern[] = {0x00, 0x00, 0x01, 0xEF}; u8 *off = memsearch(pos, pattern, size, sizeof(pattern)); if(off == NULL) return 1; off[2] = 0x26; return 0; }