/* Copyright 2016-2023 melonDS team This file is part of melonDS. melonDS 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. melonDS 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 melonDS. If not, see http://www.gnu.org/licenses/. */ #include #include #include "DSi.h" #include "DSi_AES.h" #include "DSi_NAND.h" #include "FATIO.h" #include "Platform.h" #include "sha1/sha1.hpp" #include "tiny-AES-c/aes.hpp" #include "fatfs/ff.h" using namespace Platform; namespace DSi_NAND { NANDImage::NANDImage(Platform::FileHandle* nandfile, const DSiKey& es_keyY) noexcept : NANDImage(nandfile, es_keyY.data()) { } NANDImage::NANDImage(Platform::FileHandle* nandfile, const u8* es_keyY) noexcept { if (!nandfile) return; Length = FileLength(nandfile); // read the nocash footer FileSeek(nandfile, -0x40, FileSeekOrigin::End); char nand_footer[16]; const char* nand_footer_ref = "DSi eMMC CID/CPU"; FileRead(nand_footer, 1, sizeof(nand_footer), nandfile); if (memcmp(nand_footer, nand_footer_ref, sizeof(nand_footer))) { // There is another copy of the footer at 000FF800h for the case // that by external tools the image was cut off // See https://problemkaputt.de/gbatek.htm#dsisdmmcimages FileSeek(nandfile, 0x000FF800, FileSeekOrigin::Start); FileRead(nand_footer, 1, sizeof(nand_footer), nandfile); if (memcmp(nand_footer, nand_footer_ref, sizeof(nand_footer))) { Log(LogLevel::Error, "ERROR: NAND missing nocash footer\n"); CloseFile(nandfile); return; } } FileRead(eMMC_CID.data(), 1, sizeof(eMMC_CID), nandfile); FileRead(&ConsoleID, 1, sizeof(ConsoleID), nandfile); // init NAND crypto SHA1_CTX sha; u8 tmp[20]; u8 keyX[16], keyY[16]; SHA1Init(&sha); SHA1Update(&sha, eMMC_CID.data(), sizeof(eMMC_CID)); SHA1Final(tmp, &sha); Bswap128(FATIV.data(), tmp); *(u32*)&keyX[0] = (u32)ConsoleID; *(u32*)&keyX[4] = (u32)ConsoleID ^ 0x24EE6906; *(u32*)&keyX[8] = (u32)(ConsoleID >> 32) ^ 0xE65B601D; *(u32*)&keyX[12] = (u32)(ConsoleID >> 32); *(u32*)&keyY[0] = 0x0AB9DC76; *(u32*)&keyY[4] = 0xBD4DC4D3; *(u32*)&keyY[8] = 0x202DDD1D; *(u32*)&keyY[12] = 0xE1A00005; DSi_AES::DeriveNormalKey(keyX, keyY, tmp); Bswap128(FATKey.data(), tmp); *(u32*)&keyX[0] = 0x4E00004A; *(u32*)&keyX[4] = 0x4A00004E; *(u32*)&keyX[8] = (u32)(ConsoleID >> 32) ^ 0xC80C4B72; *(u32*)&keyX[12] = (u32)ConsoleID; memcpy(keyY, es_keyY, sizeof(keyY)); DSi_AES::DeriveNormalKey(keyX, keyY, tmp); Bswap128(ESKey.data(), tmp); CurFile = nandfile; } NANDImage::~NANDImage() { if (CurFile) CloseFile(CurFile); CurFile = nullptr; } NANDImage::NANDImage(NANDImage&& other) noexcept : CurFile(other.CurFile), eMMC_CID(other.eMMC_CID), ConsoleID(other.ConsoleID), FATIV(other.FATIV), FATKey(other.FATKey), ESKey(other.ESKey) { other.CurFile = nullptr; } NANDImage& NANDImage::operator=(NANDImage&& other) noexcept { if (this != &other) { CurFile = other.CurFile; eMMC_CID = other.eMMC_CID; ConsoleID = other.ConsoleID; FATIV = other.FATIV; FATKey = other.FATKey; ESKey = other.ESKey; other.CurFile = nullptr; } return *this; } NANDMount::NANDMount(NANDImage& nand) noexcept : Image(&nand) { if (!nand) return; CurFS = std::make_unique(); ff_disk_open( [this](BYTE* buf, LBA_t sector, UINT num) { return this->FF_ReadNAND(buf, sector, num); }, [this](const BYTE* buf, LBA_t sector, UINT num) { return this->FF_WriteNAND(buf, sector, num); }, (LBA_t)(nand.GetLength()>>9) ); FRESULT res; res = f_mount(CurFS.get(), "0:", 0); if (res != FR_OK) { Log(LogLevel::Error, "NAND mounting failed: %d\n", res); f_unmount("0:"); ff_disk_close(); return; } } NANDMount::~NANDMount() noexcept { f_unmount("0:"); ff_disk_close(); } void NANDImage::SetupFATCrypto(AES_ctx* ctx, u32 ctr) { u8 iv[16]; memcpy(iv, FATIV.data(), sizeof(iv)); u32 res; res = iv[15] + (ctr & 0xFF); iv[15] = (res & 0xFF); res = iv[14] + ((ctr >> 8) & 0xFF) + (res >> 8); iv[14] = (res & 0xFF); res = iv[13] + ((ctr >> 16) & 0xFF) + (res >> 8); iv[13] = (res & 0xFF); res = iv[12] + (ctr >> 24) + (res >> 8); iv[12] = (res & 0xFF); iv[11] += (res >> 8); for (int i = 10; i >= 0; i--) { if (iv[i+1] == 0) iv[i]++; else break; } AES_init_ctx_iv(ctx, FATKey.data(), iv); } u32 NANDImage::ReadFATBlock(u64 addr, u32 len, u8* buf) { u32 ctr = (u32)(addr >> 4); AES_ctx ctx; SetupFATCrypto(&ctx, ctr); FileSeek(CurFile, addr, FileSeekOrigin::Start); u32 res = FileRead(buf, len, 1, CurFile); if (!res) return 0; for (u32 i = 0; i < len; i += 16) { u8 tmp[16]; Bswap128(tmp, &buf[i]); AES_CTR_xcrypt_buffer(&ctx, tmp, sizeof(tmp)); Bswap128(&buf[i], tmp); } return len; } u32 NANDImage::WriteFATBlock(u64 addr, u32 len, const u8* buf) { u32 ctr = (u32)(addr >> 4); AES_ctx ctx; SetupFATCrypto(&ctx, ctr); FileSeek(CurFile, addr, FileSeekOrigin::Start); for (u32 s = 0; s < len; s += 0x200) { u8 tempbuf[0x200]; for (u32 i = 0; i < 0x200; i += 16) { u8 tmp[16]; Bswap128(tmp, &buf[s+i]); AES_CTR_xcrypt_buffer(&ctx, tmp, sizeof(tmp)); Bswap128(&tempbuf[i], tmp); } u32 res = FileWrite(tempbuf, sizeof(tempbuf), 1, CurFile); if (!res) return 0; } return len; } UINT NANDMount::FF_ReadNAND(BYTE* buf, LBA_t sector, UINT num) { // TODO: allow selecting other partitions? u64 baseaddr = 0x10EE00; u64 blockaddr = baseaddr + (sector * 0x200ULL); u32 res = Image->ReadFATBlock(blockaddr, num*0x200, buf); return res >> 9; } UINT NANDMount::FF_WriteNAND(const BYTE* buf, LBA_t sector, UINT num) { // TODO: allow selecting other partitions? u64 baseaddr = 0x10EE00; u64 blockaddr = baseaddr + (sector * 0x200ULL); u32 res = Image->WriteFATBlock(blockaddr, num*0x200, buf); return res >> 9; } bool NANDImage::ESEncrypt(u8* data, u32 len) const { AES_ctx ctx; u8 iv[16]; u8 mac[16]; iv[0] = 0x02; for (int i = 0; i < 12; i++) iv[1+i] = data[len+0x1C-i]; iv[13] = 0x00; iv[14] = 0x00; iv[15] = 0x01; AES_init_ctx_iv(&ctx, ESKey.data(), iv); u32 blklen = (len + 0xF) & ~0xF; mac[0] = 0x3A; for (int i = 1; i < 13; i++) mac[i] = iv[i]; mac[13] = (blklen >> 16) & 0xFF; mac[14] = (blklen >> 8) & 0xFF; mac[15] = blklen & 0xFF; AES_ECB_encrypt(&ctx, mac); u32 coarselen = len & ~0xF; for (u32 i = 0; i < coarselen; i += 16) { u8 tmp[16]; Bswap128(tmp, &data[i]); for (int i = 0; i < 16; i++) mac[i] ^= tmp[i]; AES_CTR_xcrypt_buffer(&ctx, tmp, 16); AES_ECB_encrypt(&ctx, mac); Bswap128(&data[i], tmp); } u32 remlen = len - coarselen; if (remlen) { u8 rem[16]; memset(rem, 0, 16); for (int i = 0; i < remlen; i++) rem[15-i] = data[coarselen+i]; for (int i = 0; i < 16; i++) mac[i] ^= rem[i]; AES_CTR_xcrypt_buffer(&ctx, rem, sizeof(rem)); AES_ECB_encrypt(&ctx, mac); for (int i = 0; i < remlen; i++) data[coarselen+i] = rem[15-i]; } ctx.Iv[13] = 0x00; ctx.Iv[14] = 0x00; ctx.Iv[15] = 0x00; AES_CTR_xcrypt_buffer(&ctx, mac, sizeof(mac)); Bswap128(&data[len], mac); u8 footer[16]; iv[0] = 0x00; iv[1] = 0x00; iv[2] = 0x00; for (int i = 0; i < 12; i++) iv[3+i] = data[len+0x1C-i]; iv[15] = 0x00; footer[15] = 0x3A; footer[2] = (len >> 16) & 0xFF; footer[1] = (len >> 8) & 0xFF; footer[0] = len & 0xFF; AES_ctx_set_iv(&ctx, iv); AES_CTR_xcrypt_buffer(&ctx, footer, sizeof(footer)); data[len+0x10] = footer[15]; data[len+0x1D] = footer[2]; data[len+0x1E] = footer[1]; data[len+0x1F] = footer[0]; return true; } bool NANDImage::ESDecrypt(u8* data, u32 len) { AES_ctx ctx; u8 iv[16]; u8 mac[16]; iv[0] = 0x02; for (int i = 0; i < 12; i++) iv[1+i] = data[len+0x1C-i]; iv[13] = 0x00; iv[14] = 0x00; iv[15] = 0x01; AES_init_ctx_iv(&ctx, ESKey.data(), iv); u32 blklen = (len + 0xF) & ~0xF; mac[0] = 0x3A; for (int i = 1; i < 13; i++) mac[i] = iv[i]; mac[13] = (blklen >> 16) & 0xFF; mac[14] = (blklen >> 8) & 0xFF; mac[15] = blklen & 0xFF; AES_ECB_encrypt(&ctx, mac); u32 coarselen = len & ~0xF; for (u32 i = 0; i < coarselen; i += 16) { u8 tmp[16]; Bswap128(tmp, &data[i]); AES_CTR_xcrypt_buffer(&ctx, tmp, sizeof(tmp)); for (int i = 0; i < 16; i++) mac[i] ^= tmp[i]; AES_ECB_encrypt(&ctx, mac); Bswap128(&data[i], tmp); } u32 remlen = len - coarselen; if (remlen) { u8 rem[16]; u32 ivnum = (coarselen >> 4) + 1; iv[13] = (ivnum >> 16) & 0xFF; iv[14] = (ivnum >> 8) & 0xFF; iv[15] = ivnum & 0xFF; memset(rem, 0, 16); AES_ctx_set_iv(&ctx, iv); AES_CTR_xcrypt_buffer(&ctx, rem, 16); for (int i = 0; i < remlen; i++) rem[15-i] = data[coarselen+i]; AES_ctx_set_iv(&ctx, iv); AES_CTR_xcrypt_buffer(&ctx, rem, 16); for (int i = 0; i < 16; i++) mac[i] ^= rem[i]; AES_ECB_encrypt(&ctx, mac); for (int i = 0; i < remlen; i++) data[coarselen+i] = rem[15-i]; } ctx.Iv[13] = 0x00; ctx.Iv[14] = 0x00; ctx.Iv[15] = 0x00; AES_CTR_xcrypt_buffer(&ctx, mac, 16); u8 footer[16]; iv[0] = 0x00; iv[1] = 0x00; iv[2] = 0x00; for (int i = 0; i < 12; i++) iv[3+i] = data[len+0x1C-i]; iv[15] = 0x00; Bswap128(footer, &data[len+0x10]); AES_ctx_set_iv(&ctx, iv); AES_CTR_xcrypt_buffer(&ctx, footer, sizeof(footer)); data[len+0x10] = footer[15]; data[len+0x1D] = footer[2]; data[len+0x1E] = footer[1]; data[len+0x1F] = footer[0]; u32 footerlen = footer[0] | (footer[1] << 8) | (footer[2] << 16); if (footerlen != len) { Log(LogLevel::Error, "ESDecrypt: bad length %d (expected %d)\n", len, footerlen); return false; } for (int i = 0; i < 16; i++) { if (data[len+i] != mac[15-i]) { Log(LogLevel::Warn, "ESDecrypt: bad MAC\n"); return false; } } return true; } bool NANDMount::ReadSerialData(DSiSerialData& dataS) { FF_FIL file; FRESULT res = f_open(&file, "0:/sys/HWINFO_S.dat", FA_OPEN_EXISTING | FA_READ); if (res == FR_OK) { u32 nread; f_read(&file, &dataS, sizeof(DSiSerialData), &nread); f_close(&file); } return res == FR_OK; } bool NANDMount::ReadHardwareInfoN(DSiHardwareInfoN& dataN) { FF_FIL file; FRESULT res = f_open(&file, "0:/sys/HWINFO_N.dat", FA_OPEN_EXISTING | FA_READ); if (res == FR_OK) { u32 nread; f_read(&file, dataN.data(), sizeof(dataN), &nread); f_close(&file); } return res == FR_OK; } void NANDMount::ReadHardwareInfo(DSiSerialData& dataS, DSiHardwareInfoN& dataN) { ReadSerialData(dataS); ReadHardwareInfoN(dataN); } bool NANDMount::ReadUserData(DSiFirmwareSystemSettings& data) { FF_FIL file; FRESULT res; u32 nread; FF_FIL f1, f2; int v1, v2; res = f_open(&f1, "0:/shared1/TWLCFG0.dat", FA_OPEN_EXISTING | FA_READ); if (res != FR_OK) v1 = -1; else { u8 tmp; f_lseek(&f1, 0x81); f_read(&f1, &tmp, 1, &nread); v1 = tmp; } res = f_open(&f2, "0:/shared1/TWLCFG1.dat", FA_OPEN_EXISTING | FA_READ); if (res != FR_OK) v2 = -1; else { u8 tmp; f_lseek(&f2, 0x81); f_read(&f2, &tmp, 1, &nread); v2 = tmp; } if (v1 < 0 && v2 < 0) return false; if (v2 > v1) { file = f2; f_close(&f1); } else { file = f1; f_close(&f2); } f_lseek(&file, 0); f_read(&file, &data, sizeof(DSiFirmwareSystemSettings), &nread); f_close(&file); return true; } static bool SaveUserData(const char* filename, const DSiFirmwareSystemSettings& data) { FF_FIL file; if (FRESULT res = f_open(&file, filename, FA_OPEN_EXISTING | FA_READ | FA_WRITE); res != FR_OK) { Log(LogLevel::Error, "NAND: editing file %s failed: %d\n", filename, res); return false; } // TODO: If the file couldn't be opened, try creating a new one in its place // (after all, we have the data for that) u32 bytes_written = 0; FRESULT res = f_write(&file, &data, sizeof(DSiFirmwareSystemSettings), &bytes_written); f_close(&file); if (res != FR_OK || bytes_written != sizeof(DSiFirmwareSystemSettings)) { Log(LogLevel::Error, "NAND: editing file %s failed: %d\n", filename, res); return false; } return true; } bool NANDMount::ApplyUserData(const DSiFirmwareSystemSettings& data) { bool ok0 = SaveUserData("0:/shared1/TWLCFG0.dat", data); bool ok1 = SaveUserData("0:/shared1/TWLCFG1.dat", data); return ok0 && ok1; } void debug_listfiles(const char* path) { FF_DIR dir; FF_FILINFO info; FRESULT res; res = f_opendir(&dir, path); if (res != FR_OK) return; for (;;) { res = f_readdir(&dir, &info); if (res != FR_OK) break; if (!info.fname[0]) break; char fullname[512]; snprintf(fullname, sizeof(fullname), "%s/%s", path, info.fname); Log(LogLevel::Debug, "[%c] %s\n", (info.fattrib&AM_DIR)?'D':'F', fullname); if (info.fattrib & AM_DIR) { debug_listfiles(fullname); } } f_closedir(&dir); } bool NANDMount::ImportFile(const char* path, const u8* data, size_t len) { if (!data || !len || !path) return false; FF_FIL file; FRESULT res; res = f_open(&file, path, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { return false; } u8 buf[0x1000]; for (u32 i = 0; i < len; i += sizeof(buf)) { // For each block in the file... u32 blocklen; if ((i + sizeof(buf)) > len) blocklen = len - i; else blocklen = sizeof(buf); u32 nwrite; memcpy(buf, data + i, blocklen); f_write(&file, buf, blocklen, &nwrite); } f_close(&file); Log(LogLevel::Debug, "Imported file from memory to %s\n", path); return true; } bool NANDMount::ImportFile(const char* path, const char* in) { FF_FIL file; FRESULT res; Platform::FileHandle* fin = OpenLocalFile(in, FileMode::Read); if (!fin) return false; u32 len = FileLength(fin); res = f_open(&file, path, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { CloseFile(fin); return false; } u8 buf[0x1000]; for (u32 i = 0; i < len; i += sizeof(buf)) { u32 blocklen; if ((i + sizeof(buf)) > len) blocklen = len - i; else blocklen = sizeof(buf); u32 nwrite; FileRead(buf, blocklen, 1, fin); f_write(&file, buf, blocklen, &nwrite); } CloseFile(fin); f_close(&file); Log(LogLevel::Debug, "Imported file from %s to %s\n", in, path); return true; } bool NANDMount::ExportFile(const char* path, const char* out) { FF_FIL file; FRESULT res; res = f_open(&file, path, FA_OPEN_EXISTING | FA_READ); if (res != FR_OK) return false; u32 len = f_size(&file); Platform::FileHandle* fout = OpenLocalFile(out, FileMode::Write); if (!fout) { f_close(&file); return false; } u8 buf[0x1000]; for (u32 i = 0; i < len; i += 0x1000) { u32 blocklen; if ((i + 0x1000) > len) blocklen = len - i; else blocklen = 0x1000; u32 nread; f_read(&file, buf, blocklen, &nread); FileWrite(buf, blocklen, 1, fout); } CloseFile(fout); f_close(&file); Log(LogLevel::Debug, "Exported file from %s to %s\n", path, out); return true; } void NANDMount::RemoveFile(const char* path) { FF_FILINFO info; FRESULT res = f_stat(path, &info); if (res != FR_OK) return; if (info.fattrib & AM_RDO) f_chmod(path, 0, AM_RDO); f_unlink(path); Log(LogLevel::Debug, "Removed file at %s\n", path); } void NANDMount::RemoveDir(const char* path) { FF_DIR dir; FF_FILINFO info; FRESULT res; res = f_stat(path, &info); if (res != FR_OK) return; if (info.fattrib & AM_RDO) f_chmod(path, 0, AM_RDO); res = f_opendir(&dir, path); if (res != FR_OK) return; std::vector dirlist; std::vector filelist; for (;;) { res = f_readdir(&dir, &info); if (res != FR_OK) break; if (!info.fname[0]) break; char fullname[512]; snprintf(fullname, sizeof(fullname), "%s/%s", path, info.fname); if (info.fattrib & AM_RDO) f_chmod(path, 0, AM_RDO); if (info.fattrib & AM_DIR) dirlist.push_back(fullname); else filelist.push_back(fullname); } f_closedir(&dir); for (std::vector::iterator it = dirlist.begin(); it != dirlist.end(); it++) { const char* path = (*it).c_str(); RemoveDir(path); } for (std::vector::iterator it = filelist.begin(); it != filelist.end(); it++) { const char* path = (*it).c_str(); f_unlink(path); } f_unlink(path); Log(LogLevel::Debug, "Removed directory at %s\n", path); } u32 NANDMount::GetTitleVersion(u32 category, u32 titleid) { FRESULT res; char path[256]; snprintf(path, sizeof(path), "0:/title/%08x/%08x/content/title.tmd", category, titleid); FF_FIL file; res = f_open(&file, path, FA_OPEN_EXISTING | FA_READ); if (res != FR_OK) return 0xFFFFFFFF; u32 version; u32 nread; f_lseek(&file, 0x1E4); f_read(&file, &version, 4, &nread); version = (version >> 24) | ((version & 0xFF0000) >> 8) | ((version & 0xFF00) << 8) | (version << 24); f_close(&file); return version; } void NANDMount::ListTitles(u32 category, std::vector& titlelist) { FRESULT res; FF_DIR titledir; char path[256]; snprintf(path, sizeof(path), "0:/title/%08x", category); res = f_opendir(&titledir, path); if (res != FR_OK) { Log(LogLevel::Warn, "NAND: !! no title dir (%s)\n", path); return; } for (;;) { FF_FILINFO info; f_readdir(&titledir, &info); if (!info.fname[0]) break; if (strlen(info.fname) != 8) continue; u32 titleid; if (sscanf(info.fname, "%08x", &titleid) < 1) continue; u32 version = GetTitleVersion(category, titleid); if (version == 0xFFFFFFFF) continue; snprintf(path, sizeof(path), "0:/title/%08x/%08x/content/%08x.app", category, titleid, version); FF_FILINFO appinfo; res = f_stat(path, &appinfo); if (res != FR_OK) continue; if (appinfo.fattrib & AM_DIR) continue; if (appinfo.fsize < 0x4000) continue; // title is good, add it to the list titlelist.push_back(titleid); } f_closedir(&titledir); } bool NANDMount::TitleExists(u32 category, u32 titleid) { char path[256]; snprintf(path, sizeof(path), "0:/title/%08x/%08x/content/title.tmd", category, titleid); FRESULT res = f_stat(path, nullptr); return (res == FR_OK); } void NANDMount::GetTitleInfo(u32 category, u32 titleid, u32& version, NDSHeader* header, NDSBanner* banner) { version = GetTitleVersion(category, titleid); if (version == 0xFFFFFFFF) return; FRESULT res; char path[256]; snprintf(path, sizeof(path), "0:/title/%08x/%08x/content/%08x.app", category, titleid, version); FF_FIL file; res = f_open(&file, path, FA_OPEN_EXISTING | FA_READ); if (res != FR_OK) return; u32 nread; f_read(&file, header, sizeof(NDSHeader), &nread); if (banner) { u32 banneraddr = header->BannerOffset; if (!banneraddr) { memset(banner, 0, sizeof(NDSBanner)); } else { f_lseek(&file, banneraddr); f_read(&file, banner, sizeof(NDSBanner), &nread); } } f_close(&file); } bool NANDMount::CreateTicket(const char* path, u32 titleid0, u32 titleid1, u8 version) { FF_FIL file; FRESULT res; u32 nwrite; res = f_open(&file, path, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { Log(LogLevel::Error, "CreateTicket: failed to create file (%d)\n", res); return false; } u8 ticket[0x2C4]; memset(ticket, 0, 0x2C4); // signature, atleast make it look like we tried :P *(u32*)&ticket[0x000] = 0x01000100; strcpy((char*)&ticket[0x140], "Root-CA00000001-XS00000006"); *(u32*)&ticket[0x1DC] = titleid0; *(u32*)&ticket[0x1E0] = titleid1; ticket[0x1E6] = version; memset(&ticket[0x222], 0xFF, 0x20); Image->ESEncrypt(ticket, 0x2A4); f_write(&file, ticket, 0x2C4, &nwrite); f_close(&file); return true; } bool NANDMount::CreateSaveFile(const char* path, u32 len) { if (len == 0) return true; if (len < 0x200) return false; if (len > 0x8000000) return false; u32 clustersize, maxfiles, totsec16, fatsz16; // CHECKME! // code inspired from https://github.com/Epicpkmn11/NTM/blob/master/arm9/src/sav.c const u16 sectorsize = 0x200; // fit maximum sectors for the size const u16 maxsectors = len / sectorsize; u16 tracksize = 1; u16 headcount = 1; u16 totsec16next = 0; while (totsec16next <= maxsectors) { totsec16next = tracksize * (headcount + 1) * (headcount + 1); if (totsec16next <= maxsectors) { headcount++; totsec16 = totsec16next; tracksize++; totsec16next = tracksize * headcount * headcount; if (totsec16next <= maxsectors) { totsec16 = totsec16next; } } } totsec16next = (tracksize + 1) * headcount * headcount; if (totsec16next <= maxsectors) { tracksize++; totsec16 = totsec16next; } maxfiles = len < 0x8C000 ? 0x20 : 0x200; clustersize = (totsec16 > (8 << 10)) ? 8 : (totsec16 > (1 << 10) ? 4 : 1); #define ALIGN(v, a) (((v) % (a)) ? ((v) + (a) - ((v) % (a))) : (v)) u16 totalclusters = ALIGN(totsec16, clustersize) / clustersize; u32 fatbytes = (ALIGN(totalclusters, 2) / 2) * 3; // 2 sectors -> 3 byte fatsz16 = ALIGN(fatbytes, sectorsize) / sectorsize; FF_FIL file; FRESULT res; u32 nwrite; res = f_open(&file, path, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { Log(LogLevel::Error, "CreateSaveFile: failed to create file (%d)\n", res); return false; } u8* data = new u8[len]; memset(data, 0, len); // create FAT header data[0x000] = 0xE9; memcpy(&data[0x003], "MSWIN4.1", 8); *(u16*)&data[0x00B] = sectorsize; // bytes per sector data[0x00D] = clustersize; *(u16*)&data[0x00E] = 1; // reserved sectors data[0x010] = 2; // num FATs *(u16*)&data[0x011] = maxfiles; *(u16*)&data[0x013] = totsec16; data[0x015] = 0xF8; *(u16*)&data[0x016] = fatsz16; *(u16*)&data[0x018] = tracksize; *(u16*)&data[0x01A] = headcount; data[0x024] = 0x05; data[0x026] = 0x29; *(u32*)&data[0x027] = 0x12345678; memcpy(&data[0x02B], "VOLUMELABEL", 11); memcpy(&data[0x036], "FAT12 ", 8); *(u16*)&data[0x1FE] = 0xAA55; f_write(&file, data, len, &nwrite); f_close(&file); delete[] data; return true; } bool NANDMount::InitTitleFileStructure(const NDSHeader& header, const DSi_TMD::TitleMetadata& tmd, bool readonly) { u32 titleid0 = tmd.GetCategory(); u32 titleid1 = tmd.GetID(); FRESULT res; FF_DIR ticketdir; FF_FILINFO info; char fname[128]; FF_FIL file; u32 nwrite; // ticket snprintf(fname, sizeof(fname), "0:/ticket/%08x", titleid0); f_mkdir(fname); snprintf(fname, sizeof(fname), "0:/ticket/%08x/%08x.tik", titleid0, titleid1); if (!CreateTicket(fname, tmd.GetCategoryNoByteswap(), tmd.GetIDNoByteswap(), header.ROMVersion)) return false; if (readonly) f_chmod(fname, AM_RDO, AM_RDO); // folder snprintf(fname, sizeof(fname), "0:/title/%08x", titleid0); f_mkdir(fname); snprintf(fname, sizeof(fname), "0:/title/%08x/%08x", titleid0, titleid1); f_mkdir(fname); snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/content", titleid0, titleid1); f_mkdir(fname); snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data", titleid0, titleid1); f_mkdir(fname); // data snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/public.sav", titleid0, titleid1); if (!CreateSaveFile(fname, header.DSiPublicSavSize)) return false; snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/private.sav", titleid0, titleid1); if (!CreateSaveFile(fname, header.DSiPrivateSavSize)) return false; if (header.AppFlags & 0x04) { // custom banner file snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/banner.sav", titleid0, titleid1); res = f_open(&file, fname, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { Log(LogLevel::Error, "ImportTitle: failed to create banner.sav (%d)\n", res); return false; } u8 bannersav[0x4000]; memset(bannersav, 0, sizeof(bannersav)); f_write(&file, bannersav, sizeof(bannersav), &nwrite); f_close(&file); } // TMD snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/content/title.tmd", titleid0, titleid1); res = f_open(&file, fname, FA_CREATE_ALWAYS | FA_WRITE); if (res != FR_OK) { Log(LogLevel::Error, "ImportTitle: failed to create TMD (%d)\n", res); return false; } f_write(&file, &tmd, sizeof(DSi_TMD::TitleMetadata), &nwrite); f_close(&file); if (readonly) f_chmod(fname, AM_RDO, AM_RDO); return true; } bool NANDMount::ImportTitle(const char* appfile, const DSi_TMD::TitleMetadata& tmd, bool readonly) { NDSHeader header {}; { Platform::FileHandle* f = OpenLocalFile(appfile, FileMode::Read); if (!f) return false; FileRead(&header, sizeof(header), 1, f); CloseFile(f); } u32 version = tmd.Contents.GetVersion(); Log(LogLevel::Info, ".app version: %08x\n", version); u32 titleid0 = tmd.GetCategory(); u32 titleid1 = tmd.GetID(); Log(LogLevel::Info, "Title ID: %08x/%08x\n", titleid0, titleid1); if (!InitTitleFileStructure(header, tmd, readonly)) { Log(LogLevel::Error, "ImportTitle: failed to initialize file structure for imported title\n"); return false; } // executable char fname[128]; snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/content/%08x.app", titleid0, titleid1, version); if (!ImportFile(fname, appfile)) { Log(LogLevel::Error, "ImportTitle: failed to create executable\n"); return false; } if (readonly) f_chmod(fname, AM_RDO, AM_RDO); return true; } bool NANDMount::ImportTitle(const u8* app, size_t appLength, const DSi_TMD::TitleMetadata& tmd, bool readonly) { if (!app || appLength < sizeof(NDSHeader)) return false; NDSHeader header {}; memcpy(&header, app, sizeof(header)); u32 version = tmd.Contents.GetVersion(); Log(LogLevel::Info, ".app version: %08x\n", version); u32 titleid0 = tmd.GetCategory(); u32 titleid1 = tmd.GetID(); Log(LogLevel::Info, "Title ID: %08x/%08x\n", titleid0, titleid1); if (!InitTitleFileStructure(header, tmd, readonly)) { Log(LogLevel::Error, "ImportTitle: failed to initialize file structure for imported title\n"); return false; } // executable char fname[128]; snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/content/%08x.app", titleid0, titleid1, version); if (!ImportFile(fname, app, appLength)) { Log(LogLevel::Error, "ImportTitle: failed to create executable\n"); return false; } if (readonly) f_chmod(fname, AM_RDO, AM_RDO); return true; } void NANDMount::DeleteTitle(u32 category, u32 titleid) { char fname[128]; snprintf(fname, sizeof(fname), "0:/ticket/%08x/%08x.tik", category, titleid); RemoveFile(fname); snprintf(fname, sizeof(fname), "0:/title/%08x/%08x", category, titleid); RemoveDir(fname); } u32 NANDMount::GetTitleDataMask(u32 category, u32 titleid) { u32 version; NDSHeader header; GetTitleInfo(category, titleid, version, &header, nullptr); if (version == 0xFFFFFFFF) return 0; u32 ret = 0; if (header.DSiPublicSavSize != 0) ret |= (1 << TitleData_PublicSav); if (header.DSiPrivateSavSize != 0) ret |= (1 << TitleData_PrivateSav); if (header.AppFlags & 0x04) ret |= (1 << TitleData_BannerSav); return ret; } bool NANDMount::ImportTitleData(u32 category, u32 titleid, int type, const char* file) { char fname[128]; switch (type) { case TitleData_PublicSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/public.sav", category, titleid); break; case TitleData_PrivateSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/private.sav", category, titleid); break; case TitleData_BannerSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/banner.sav", category, titleid); break; default: return false; } RemoveFile(fname); return ImportFile(fname, file); } bool NANDMount::ExportTitleData(u32 category, u32 titleid, int type, const char* file) { char fname[128]; switch (type) { case TitleData_PublicSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/public.sav", category, titleid); break; case TitleData_PrivateSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/private.sav", category, titleid); break; case TitleData_BannerSav: snprintf(fname, sizeof(fname), "0:/title/%08x/%08x/data/banner.sav", category, titleid); break; default: return false; } return ExportFile(fname, file); } void DSiFirmwareSystemSettings::UpdateHash() { SHA1_CTX sha; SHA1Init(&sha); SHA1Update(&sha, &Bytes[0x88], 0x128); SHA1Final(Hash.data(), &sha); } }