#include <3ds.h> #include "patcher.h" #include "memory.h" #include "strings.h" #include "fsldr.h" #include "ifile.h" #include "CFWInfo.h" #include "../build/bundled.h" static CFWInfo info; static u32 patchMemory(u8 *start, u32 size, const void *pattern, u32 patSize, int offset, const void *replace, u32 repSize, u32 count) { u32 i; for(i = 0; i < count; i++) { u8 *found = memsearch(start, pattern, size, patSize); if(found == NULL) break; memcpy(found + offset, replace, repSize); u32 at = (u32)(found - start); if(at + patSize > size) break; size -= at + patSize; start = found + patSize; } return i; } static Result fileOpen(IFile *file, FS_ArchiveID archiveId, const char *path, int flags) { FS_Path filePath = {PATH_ASCII, strnlen(path, 255) + 1, path}, archivePath = {PATH_EMPTY, 1, (u8 *)""}; return IFile_Open(file, archiveId, archivePath, filePath, flags); } static u32 dirCheck(FS_ArchiveID archiveId, const char *path) { u32 ret; Handle handle; FS_Archive archive; FS_Path dirPath = {PATH_ASCII, strnlen(path, 255) + 1, path}, archivePath = {PATH_EMPTY, 1, (u8 *)""}; if(R_FAILED(FSLDR_OpenArchive(&archive, archiveId, archivePath))) ret = 1; else { ret = R_SUCCEEDED(FSLDR_OpenDirectory(&handle, archive, dirPath)) ? 0 : 2; if(ret) FSDIRLDR_Close(handle); FSLDR_CloseArchive(archive); } return ret; } static bool openLumaFile(IFile *file, const char *path) { Result res = fileOpen(file, ARCHIVE_SDMC, path, FS_OPEN_READ); if(R_SUCCEEDED(res)) return true; //Returned if SD is not mounted return (u32)res == 0xC88044AB && R_SUCCEEDED(fileOpen(file, ARCHIVE_NAND_RW, path, FS_OPEN_READ)); } static u32 checkLumaDir(const char *path) { u32 res = dirCheck(ARCHIVE_SDMC, path); if(!res) return ARCHIVE_SDMC; return res == 1 && !dirCheck(ARCHIVE_NAND_RW, path) ? ARCHIVE_NAND_RW : 0; } static inline void loadCFWInfo(void) { static bool infoLoaded = false; if(infoLoaded) return; svcGetCFWInfo(&info); IFile file; if(LOADERFLAG(ISSAFEMODE) && R_SUCCEEDED(fileOpen(&file, ARCHIVE_SDMC, "/", FS_OPEN_READ))) //Init SD card if SAFE_MODE is being booted IFile_Close(&file); infoLoaded = true; } static inline bool secureInfoExists(void) { static bool exists = false; if(exists) return true; IFile file; if(R_SUCCEEDED(fileOpen(&file, ARCHIVE_NAND_RW, "/sys/SecureInfo_C", FS_OPEN_READ))) { exists = true; IFile_Close(&file); } return exists; } static inline void loadCustomVerString(u16 *out, u32 *verStringSize, u32 currentNand) { static const char *paths[] = { "/luma/customversion_sys.txt", "/luma/customversion_emu.txt", "/luma/customversion_emu2.txt", "/luma/customversion_emu3.txt", "/luma/customversion_emu4.txt" }; IFile file; if(!openLumaFile(&file, paths[currentNand])) return; u64 fileSize; if(R_FAILED(IFile_GetSize(&file, &fileSize)) || fileSize > 62) goto exit; u8 buf[62]; u64 total; if(R_FAILED(IFile_Read(&file, &total, buf, fileSize))) goto exit; static const u8 bom[] = {0xEF, 0xBB, 0xBF}; u32 finalSize = 0; //Convert from UTF-8 to UTF-16 (Nintendo doesn't support 4-byte UTF-16, so 4-byte UTF-8 is unsupported) for(u32 increase, fileSizeTmp = (u32)fileSize, i = (fileSizeTmp > 2 && memcmp(buf, bom, 3) == 0) ? 3 : 0; i < fileSizeTmp && finalSize < 19; i += increase, finalSize++) { if((buf[i] & 0x80) == 0 && !(buf[i] == 0xA || buf[i] == 0xD)) { increase = 1; out[finalSize] = (u16)buf[i]; } else if((buf[i] & 0xE0) == 0xC0 && i + 1 < fileSizeTmp && (buf[i + 1] & 0xC0) == 0x80) { increase = 2; out[finalSize] = (u16)(((buf[i] & 0x1F) << 6) | (buf[i + 1] & 0x3F)); } else if((buf[i] & 0xF0) == 0xE0 && i + 2 < fileSizeTmp && (buf[i + 1] & 0xC0) == 0x80 && (buf[i + 2] & 0xC0) == 0x80) { increase = 3; out[finalSize] = (u16)(((buf[i] & 0xF) << 12) | ((buf[i + 1] & 0x3F) << 6) | (buf[i + 2] & 0x3F)); } else break; } if(finalSize > 0) { if(finalSize > 5 && finalSize < 19) out[finalSize++] = 0; *verStringSize = finalSize * 2; } exit: IFile_Close(&file); } static inline u8 *getCfgOffsets(u8 *code, u32 size, u32 *CFGUHandleOffset) { /* HANS: Look for error code which is known to be stored near cfg:u handle this way we can find the right candidate (handle should also be stored right after end of candidate function) */ u32 n = 0, possible[24]; for(u8 *pos = code + 16; n < 24 && pos <= code + size - 16; pos += 4) { if(*(u32 *)pos != 0xD8A103F9) continue; for(u32 *l = (u32 *)pos - 4; n < 24 && l < (u32 *)pos + 4; l++) if(*l <= 0x10000000) possible[n++] = *l; } if(!n) return NULL; for(u8 *CFGU_GetConfigInfoBlk2_endPos = code; CFGU_GetConfigInfoBlk2_endPos <= code + size - 12; CFGU_GetConfigInfoBlk2_endPos += 4) { static const u32 CFGU_GetConfigInfoBlk2_endPattern[] = {0xE8BD8010, 0x00010082}; //There might be multiple implementations of GetConfigInfoBlk2 but let's search for the one we want u32 *cmp = (u32 *)CFGU_GetConfigInfoBlk2_endPos; if(cmp[0] != CFGU_GetConfigInfoBlk2_endPattern[0] || cmp[1] != CFGU_GetConfigInfoBlk2_endPattern[1]) continue; for(u32 i = 0; i < n; i++) if(possible[i] == cmp[2]) { *CFGUHandleOffset = cmp[2]; return CFGU_GetConfigInfoBlk2_endPos; } CFGU_GetConfigInfoBlk2_endPos += 4; } return NULL; } static inline bool patchCfgGetLanguage(u8 *code, u32 size, u8 languageId, u8 *CFGU_GetConfigInfoBlk2_endPos) { u8 *CFGU_GetConfigInfoBlk2_startPos; //Let's find STMFD SP (there might be a NOP before, but nevermind) for(CFGU_GetConfigInfoBlk2_startPos = CFGU_GetConfigInfoBlk2_endPos - 4; *((u16 *)CFGU_GetConfigInfoBlk2_startPos + 1) != 0xE92D; CFGU_GetConfigInfoBlk2_startPos -= 4) if(CFGU_GetConfigInfoBlk2_startPos < code + 4) return false; for(u8 *languageBlkIdPos = code; languageBlkIdPos <= code + size - 4; languageBlkIdPos += 4) { if(*(u32 *)languageBlkIdPos != 0xA0002) continue; for(u8 *instr = languageBlkIdPos - 8; instr >= languageBlkIdPos - 0x1008 && instr >= code + 4; instr -= 4) //Should be enough { if(instr[3] != 0xEB) continue; //We're looking for BL u8 *calledFunction = instr; u32 i = 0; do { u32 low24 = (*(u32 *)calledFunction & 0x00FFFFFF) << 2; u32 signMask = (u32)(-(low24 >> 25)) & 0xFC000000; //Sign extension s32 offset = (s32)(low24 | signMask) + 8; //Branch offset + 8 for prefetch calledFunction += offset; if(calledFunction >= CFGU_GetConfigInfoBlk2_startPos - 4 && calledFunction <= CFGU_GetConfigInfoBlk2_endPos) { *((u32 *)instr - 1) = 0xE3A00000 | languageId; //mov r0, sp => mov r0, =languageId *(u32 *)instr = 0xE5CD0000; //bl CFGU_GetConfigInfoBlk2 => strb r0, [sp] *((u32 *)instr + 1) = 0xE3B00000; //(1 or 2 instructions) => movs r0, 0 (result code) //We're done return true; } i++; } while(i < 2 && calledFunction[3] == 0xEA); } } return false; } static inline void patchCfgGetRegion(u8 *code, u32 size, u8 regionId, u32 CFGUHandleOffset) { for(u8 *cmdPos = code; cmdPos <= code + size - 28; cmdPos += 4) { static const u32 cfgSecureInfoGetRegionCmdPattern[] = {0xEE1D0F70, 0xE3A00802}; u32 *cmp = (u32 *)cmdPos; if(*cmp != cfgSecureInfoGetRegionCmdPattern[1]) continue; for(u32 i = 1; i < 3; i++) if((*(cmp - i) & 0xFFFF0FFF) == cfgSecureInfoGetRegionCmdPattern[0] && *((u16 *)cmdPos + 5) == 0xE59F && *(u32 *)(cmdPos + 16 + *((u16 *)cmdPos + 4)) == CFGUHandleOffset) { cmp[3] = 0xE3A00000 | regionId; //mov r0, =regionId cmp[4] = 0xE5C40008; //strb r0, [r4, #8] cmp[5] = 0xE3A00000; //mov r0, #0 (result code) cmp[6] = 0xE5840004; //str r0, [r4, #4] //The remaining, not patched, function code will do the rest for us return; } } } static u32 findFunctionStart(u8* code, u32 pos) { while(pos >= 4) { pos -= 4; if(*(u16 *)(code + pos + 2) == 0xE92D) return pos; } return 0xFFFFFFFF; } static bool findLayeredFsSymbols(u8* code, u32 size, u32 *fsMountArchive, u32 *fsRegisterArchive, u32 *fsTryOpenFile, u32 *fsOpenFileDirectly, u32 *throwFatalError) { bool found = false; u32 svcConnectToPort = 0xFFFFFFFF; for(u32 addr = 0; !found && addr <= size - 4; addr += 4) { if(*fsMountArchive == 0xFFFFFFFF) { if(addr <= size - 12 && *(u32 *)(code + addr) == 0xE5970010) { if((*(u32 *)(code + addr + 4) == 0xE1CD20D8) && ((*(u32 *)(code + addr + 8) & 0xFFFFFF) == 0x008D0000)) *fsMountArchive = findFunctionStart(code, addr); } else if(addr <= size - 16 && *(u32 *)(code + addr) == 0xE24DD028) { if((*(u32 *)(code + addr + 4) == 0xE1A04000) && (*(u32 *)(code + addr + 8) == 0xE59F60A8) && (*(u32 *)(code + addr + 0xC) == 0xE3A0C001)) *fsMountArchive = findFunctionStart(code, addr); } } if(addr <= size - 12 && *fsRegisterArchive == 0xFFFFFFFF && *(u32 *)(code + addr) == 0xE3500008 && (*(u32 *)(code + addr + 4) & 0xFFF00FF0) == 0xE1800400 && (*(u32 *)(code + addr + 8) & 0xFFF00FF0) == 0xE1800FC0) *fsRegisterArchive = findFunctionStart(code, addr); if(addr <= size - 16 && *fsTryOpenFile == 0xFFFFFFFF && *(u32 *)(code + addr + 0xC) == 0xE12FFF3C && ((*(u32 *)(code + addr) == 0xE1A0100D) || (*(u32 *)(code + addr) == 0xE28D1010)) && (*(u32 *)(code + addr + 4) == 0xE590C000) && ((*(u32 *)(code + addr + 8) == 0xE1A00004) || (*(u32 *)(code + addr + 8) == 0xE1A00005))) *fsTryOpenFile = findFunctionStart(code, addr); if(*fsOpenFileDirectly == 0xFFFFFFFF && *(u32 *)(code + addr) == 0x08030204) *fsOpenFileDirectly = findFunctionStart(code, addr); if(addr >= 4 && svcConnectToPort == 0xFFFFFFFF && *(u32 *)(code + addr) == 0xEF00002D) svcConnectToPort = addr - 4; if(svcConnectToPort != 0xFFFFFFFF && *fsMountArchive != 0xFFFFFFFF && *fsRegisterArchive != 0xFFFFFFFF && *fsTryOpenFile != 0xFFFFFFFF && *fsOpenFileDirectly != 0xFFFFFFFF) found = true; } if(found) { u32 func = 0xFFFFFFFF; for(u32 i = 4; func == 0xFFFFFFFF && i <= size - 4; i += 4) { if(*(u32 *)(code + i) != MAKE_BRANCH_LINK(i, svcConnectToPort)) continue; func = findFunctionStart(code, i); for(u32 pos = func + 4; func != 0xFFFFFFFF && pos <= size - 4 && *(u16 *)(code + pos + 2) != 0xE92D; pos += 4) if(*(u32 *)(code + pos) == 0xE200167E) func = 0xFFFFFFFF; } *throwFatalError = func; if(func != 0xFFFFFFFF) return true; } return false; } static inline bool applyCodeIpsPatch(u64 progId, u8 *code, u32 size) { /* Here we look for "/luma/titles/[u64 titleID in hex, uppercase]/code.ips" If it exists it should be an IPS format patch */ char path[] = "/luma/titles/0000000000000000/code.ips"; progIdToStr(path + 28, progId); IFile file; if(!openLumaFile(&file, path)) return true; bool ret = false; u8 buffer[5]; u64 total; if(R_FAILED(IFile_Read(&file, &total, buffer, 5)) || total != 5 || memcmp(buffer, "PATCH", 5) != 0) goto exit; while(R_SUCCEEDED(IFile_Read(&file, &total, buffer, 3)) && total == 3) { if(memcmp(buffer, "EOF", 3) == 0) { ret = true; break; } u32 offset = (buffer[0] << 16) | (buffer[1] << 8) | buffer[2]; if(R_FAILED(IFile_Read(&file, &total, buffer, 2)) || total != 2) break; u32 patchSize = (buffer[0] << 8) | buffer[1]; if(!patchSize) { if(R_FAILED(IFile_Read(&file, &total, buffer, 2)) || total != 2) break; u32 rleSize = (buffer[0] << 8) | buffer[1]; if(offset + rleSize > size) break; if(R_FAILED(IFile_Read(&file, &total, buffer, 1)) || total != 1) break; for(u32 i = 0; i < rleSize; i++) code[offset + i] = buffer[0]; continue; } if(offset + patchSize > size) break; if(R_FAILED(IFile_Read(&file, &total, code + offset, patchSize)) || total != patchSize) break; } exit: IFile_Close(&file); return ret; } static inline bool loadTitleCodeSection(u64 progId, u8 *code, u32 size) { /* Here we look for "/luma/titles/[u64 titleID in hex, uppercase]/code.bin" If it exists it should be a decrypted and decompressed binary code file */ char path[] = "/luma/titles/0000000000000000/code.bin"; progIdToStr(path + 28, progId); IFile file; if(!openLumaFile(&file, path)) return true; bool ret; u64 fileSize; if(R_FAILED(IFile_GetSize(&file, &fileSize)) || fileSize > size) ret = false; else { u64 total; ret = R_SUCCEEDED(IFile_Read(&file, &total, code, fileSize)) && total == fileSize; } IFile_Close(&file); return ret; } static inline bool loadTitleLocaleConfig(u64 progId, u8 *regionId, u8 *languageId) { /* Here we look for "/luma/titles/[u64 titleID in hex, uppercase]/locale.txt" If it exists it should contain, for example, "EUR IT" */ char path[] = "/luma/titles/0000000000000000/locale.txt"; progIdToStr(path + 28, progId); IFile file; if(!openLumaFile(&file, path)) return true; bool ret = false; u64 fileSize; if(R_FAILED(IFile_GetSize(&file, &fileSize)) || fileSize < 6 || fileSize > 8) goto exit; char buf[8]; u64 total; if(R_FAILED(IFile_Read(&file, &total, buf, fileSize))) goto exit; u32 i, j; for(i = 0; i < 7; i++) { static const char *regions[] = {"JPN", "USA", "EUR", "AUS", "CHN", "KOR", "TWN"}; if(memcmp(buf, regions[i], 3) == 0) { *regionId = (u8)i; break; } } for(j = 0; j < 12; j++) { static const char *languages[] = {"JP", "EN", "FR", "DE", "IT", "ES", "ZH", "KO", "NL", "PT", "RU", "TW"}; if(memcmp(buf + 4, languages[j], 2) == 0) { *languageId = (u8)j; break; } } ret = i != 7 && j != 12; exit: IFile_Close(&file); return ret; } static inline bool patchLayeredFs(u64 progId, u8* code, u32 size) { /* Here we look for "/luma/titles/[u64 titleID in hex, uppercase]/romfs" If it exists it should be a folder containing ROMFS files */ char path[] = "/luma/titles/0000000000000000/romfs"; progIdToStr(path + 28, progId); u32 archive = checkLumaDir(path); if(!archive) return true; const char *mount = archive == ARCHIVE_SDMC ? "sdmc:" : "nand:"; u32 fsMountArchive = 0xFFFFFFFF, fsRegisterArchive = 0xFFFFFFFF, fsTryOpenFile = 0xFFFFFFFF, fsOpenFileDirectly = 0xFFFFFFFF, throwFatalError; if(!findLayeredFsSymbols(code, size, &fsMountArchive, &fsRegisterArchive, &fsTryOpenFile, &fsOpenFileDirectly, &throwFatalError)) return false; //Setup the payload u8 *payload = code + throwFatalError; memcpy(payload, romfsredir_bin, romfsredir_bin_size); //Insert symbols in the payload u32 *payload32 = (u32 *)payload; for(u32 i = 0; i < romfsredir_bin_size / 4; i++) { switch (payload32[i]) { case 0xdead0000: payload32[i] = *(u32 *)(code + fsOpenFileDirectly); break; case 0xdead0001: payload32[i] = MAKE_BRANCH(throwFatalError + i * 4, fsOpenFileDirectly + 4); break; case 0xdead0002: payload32[i] = *(u32 *)(code + fsTryOpenFile); break; case 0xdead0003: payload32[i] = MAKE_BRANCH(throwFatalError + i * 4, fsTryOpenFile + 4); break; case 0xdead0004: memcpy(payload32 + i, mount, 5); memcpy((u8 *)(payload32 + i) + 5, path, sizeof(path)); break; case 0xdead0005: payload32[i] = 0x100000 + fsMountArchive; break; case 0xdead0006: payload32[i] = 0x100000 + fsRegisterArchive; break; case 0xdead0007: memcpy(payload32 + i, mount, 4); break; case 0xdead0008: payload32[i] = archive; break; } } //Place the hooks *(u32 *)(code + fsOpenFileDirectly) = MAKE_BRANCH(fsOpenFileDirectly, throwFatalError); *(u32 *)(code + fsTryOpenFile) = MAKE_BRANCH(fsTryOpenFile, throwFatalError + 12); return true; } void patchCode(u64 progId, u16 progVer, u8 *code, u32 size) { loadCFWInfo(); if(((progId == 0x0004003000008F02LL || //USA Home Menu progId == 0x0004003000008202LL || //JPN Home Menu progId == 0x0004003000009802LL) //EUR Home Menu && progVer > 4) || (progId == 0x000400300000A902LL //KOR Home Menu && progVer > 0) || progId == 0x000400300000A102LL || //CHN Home Menu progId == 0x000400300000B102LL) //TWN Home Menu { static const u8 pattern[] = { 0x0A, 0x0C, 0x00, 0x10 }, patch[] = { 0x01, 0x00, 0xA0, 0xE3, 0x1E, 0xFF, 0x2F, 0xE1 }; //Patch SMDH region checks if(!patchMemory(code, size, pattern, sizeof(pattern), -31, patch, sizeof(patch), 1 )) goto error; } else if(progId == 0x0004013000003202LL) //FRIENDS { static const u8 pattern[] = { 0x42, 0xE0, 0x1E, 0xFF }; u8 mostRecentFpdVer = 10; u8 *off = memsearch(code, pattern, size, sizeof(pattern)); if(off == NULL) goto error; //Allow online access to work with old friends modules if(off[0xA] < mostRecentFpdVer) off[0xA] = mostRecentFpdVer; } else if((progId == 0x0004001000021000LL || //USA MSET progId == 0x0004001000020000LL || //JPN MSET progId == 0x0004001000022000LL || //EUR MSET progId == 0x0004001000026000LL || //CHN MSET progId == 0x0004001000027000LL || //KOR MSET progId == 0x0004001000028000LL) //TWN MSET && CONFIG(PATCHVERSTRING)) { static const u16 pattern[] = u"Ve"; static u16 *patch; u32 patchSize = 0, currentNand = BOOTCFG_NAND; u16 customVerString[19]; loadCustomVerString(customVerString, &patchSize, currentNand); if(patchSize != 0) patch = customVerString; else { patchSize = 8; u32 currentFirm = BOOTCFG_FIRM; static u16 *verStringsNands[] = { u" Sys", u" Emu", u"Emu2", u"Emu3", u"Emu4" }, *verStringsEmuSys[] = { u"EmuS", u"Em2S", u"Em3S", u"Em4S" }, *verStringsSysEmu[] = { u"SysE", u"SyE2", u"SyE3", u"SyE4" }; patch = (currentFirm != 0) == (currentNand != 0) ? verStringsNands[currentNand] : (!currentNand ? verStringsSysEmu[currentFirm - 1] : verStringsEmuSys[currentNand - 1]); } //Patch Ver. string if(!patchMemory(code, size, pattern, sizeof(pattern) - 2, 0, patch, patchSize, 1 )) goto error; } else if(progId == 0x0004013000008002LL) //NS { if(progVer > 4) { static const u8 pattern[] = { 0x0C, 0x18, 0xE1, 0xD8 }, patch[] = { 0x0B, 0x18, 0x21, 0xC8 }; //Disable updates from foreign carts (makes carts region-free) u32 ret = patchMemory(code, size, pattern, sizeof(pattern), 0, patch, sizeof(patch), 2 ); if(ret == 0 || (ret == 1 && progVer > 0xB)) goto error; } if(LOADERFLAG(ISN3DS)) { u32 cpuSetting = MULTICONFIG(NEWCPU); if(cpuSetting != 0) { static const u8 pattern[] = { 0x0C, 0x00, 0x94, 0x15 }; u32 *off = (u32 *)memsearch(code, pattern, size, sizeof(pattern)); if(off == NULL) goto error; //Patch N3DS CPU Clock and L2 cache setting *(off - 4) = *(off - 3); *(off - 3) = *(off - 1); memcpy(off - 1, off, 16); *(off + 3) = 0xE3800000 | cpuSetting; } } } else if(progId == 0x0004013000001702LL) //CFG { static const u8 pattern[] = { 0x06, 0x46, 0x10, 0x48 }, patch[] = { 0x00, 0x26 }; //Disable SecureInfo signature check if(!patchMemory(code, size, pattern, sizeof(pattern), 0, patch, sizeof(patch), 1 )) goto error; if(secureInfoExists()) { static const u16 pattern[] = u"Sec", patch[] = u"C"; //Use SecureInfo_C if(patchMemory(code, size, pattern, sizeof(pattern) - 2, 22, patch, sizeof(patch) - 2, 2 ) != 2) goto error; } } else if(progId == 0x0004013000003702LL && progVer > 0) //RO { static const u8 pattern[] = { 0x20, 0xA0, 0xE1, 0x8B }, pattern2[] = { 0xE1, 0x30, 0x40, 0x2D }, pattern3[] = { 0x2D, 0xE9, 0x01, 0x70 }, patch[] = { 0x00, 0x00, 0xA0, 0xE3, 0x1E, 0xFF, 0x2F, 0xE1 //mov r0, #0; bx lr }; //Disable CRR0 signature (RSA2048 with SHA256) check and CRO0/CRR0 SHA256 hash checks (section hashes, and hash table) if(!patchMemory(code, size, pattern, sizeof(pattern), -9, patch, sizeof(patch), 1 ) || !patchMemory(code, size, pattern2, sizeof(pattern2), 1, patch, sizeof(patch), 1 ) || !patchMemory(code, size, pattern3, sizeof(pattern3), -2, patch, sizeof(patch), 1 )) goto error; } else if(progId == 0x0004003000008A02LL && CONFIG(ENABLEEXCEPTIONHANDLERS) && !CONFIG(PATCHUNITINFO)) //ErrDisp { static const u8 pattern[] = { 0x00, 0xD0, 0xE5, 0xDB }, pattern2[] = { 0x14, 0x00, 0xD0, 0xE5, 0x01 }, patch[] = { 0x00, 0x00, 0xA0, 0xE3 }; //Patch UNITINFO checks to make ErrDisp more verbose if(!patchMemory(code, size, pattern, sizeof(pattern), -1, patch, sizeof(patch), 1 ) || patchMemory(code, size, pattern2, sizeof(pattern2), 0, patch, sizeof(patch), 3 ) != 3) goto error; } else if(progId == 0x0004013000002802LL) //DLP { static const u8 pattern[] = { 0x0C, 0xAC, 0xC0, 0xD8 }, patch[] = { 0x00, 0x00, 0x00, 0x00 }; //Patch DLP region checks if(!patchMemory(code, size, pattern, sizeof(pattern), 0, patch, sizeof(patch), 1 )) goto error; } if(CONFIG(PATCHGAMES) && (u32)((progId >> 0x20) & 0xFFFFFFEDULL) == 0x00040000) { u8 regionId = 0xFF, languageId; if(!loadTitleCodeSection(progId, code, size) || !applyCodeIpsPatch(progId, code, size) || !loadTitleLocaleConfig(progId, ®ionId, &languageId) || !patchLayeredFs(progId, code, size)) goto error; if(regionId != 0xFF) { u32 CFGUHandleOffset; u8 *CFGU_GetConfigInfoBlk2_endPos = getCfgOffsets(code, size, &CFGUHandleOffset); if(CFGU_GetConfigInfoBlk2_endPos == NULL || !patchCfgGetLanguage(code, size, languageId, CFGU_GetConfigInfoBlk2_endPos)) goto error; patchCfgGetRegion(code, size, regionId, CFGUHandleOffset); } } return; error: svcBreak(USERBREAK_ASSERT); while(true); }