/*************************************************************************** * Copyright (C) 2011 by Miigotu * (C) 2012 by OverjoY * * Rewritten code from Mighty Channels and Triiforce * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any * damages arising from the use of this software. * * Permission is granted to anyone to use this software for any * purpose, including commercial applications, and to alter it and * redistribute it freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you * must not claim that you wrote the original software. If you use * this software in a product, an acknowledgment in the product * documentation would be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and * must not be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source * distribution. * * Nand/Emulation Handling Class for Wiiflow * ***************************************************************************/ #include #include #include #include #include #include #include #include #include "nand.hpp" #include "identify.h" #include "fileOps/fileOps.h" #include "gecko/gecko.hpp" #include "gui/text.hpp" #include "loader/alt_ios.h" #include "loader/cios.h" #include "loader/fs.h" #include "loader/sys.h" #include "loader/wbfs.h" #include "memory/memory.h" #include "wiiuse/wpad.h" u8 *confbuffer ATTRIBUTE_ALIGN(32); u8 CCode[0x1008]; char SCode[4]; char *txtbuffer ATTRIBUTE_ALIGN(32); config_header *cfg_hdr; bool tbdec = false; bool configloaded = false; bool emu_enabled = false; Nand NandHandle; static NandDevice NandDeviceList[] = { { "Disable", 0, 0x00, 0x00 }, { "SD/SDHC Card", 1, 0xF0, 0xF1 }, { "USB 2.0 Mass Storage Device", 2, 0xF2, 0xF3 }, }; void Nand::Init() { MountedDevice = 0; EmuDevice = REAL_NAND; AccessPatched = false; Partition = 0; FullMode = 0x100; memset(NandPath, 0, sizeof(NandPath)); } bool Nand::LoadDefaultIOS(void) { Patch_AHB(); s32 ret = __IOS_LoadStartupIOS(); loadIOS(IOS_GetVersion(), false); Init_ISFS(); return (ret == 0); } void Nand::SetNANDEmu(u32 partition) { EmuDevice = partition == 0 ? EMU_SD : EMU_USB; Partition = partition > 0 ? partition - 1 : partition; } s32 Nand::Nand_Mount(NandDevice *Device) { gprintf("Device: %s\n", Device->Name); s32 fd = IOS_Open("fat", 0); if(fd < 0) return fd; static ioctlv vector[1] ATTRIBUTE_ALIGN(32); vector[0].data = &Partition; vector[0].len = sizeof(u32); s32 ret = IOS_Ioctlv(fd, Device->Mount, 1, 0, vector); IOS_Close(fd); return ret; } s32 Nand::Nand_Unmount(NandDevice *Device) { s32 fd = IOS_Open("fat", 0); if(fd < 0) return fd; s32 ret = IOS_Ioctlv(fd, Device->Unmount, 0, 0, NULL); IOS_Close(fd); return ret; } s32 Nand::Nand_Enable(NandDevice *Device) { gprintf("Enabling NAND Emulator..."); s32 fd = IOS_Open("/dev/fs", 0); if(fd < 0) { gprintf(" failed!\n"); return fd; } int NandPathlen = strlen(NandPath) + 1; static ioctlv vector[2] ATTRIBUTE_ALIGN(32); static u32 mode ATTRIBUTE_ALIGN(32) = Device->Mode | FullMode; vector[0].data = &mode; vector[0].len = sizeof(u32); vector[1].data = NandPath; vector[1].len = NandPathlen; s32 ret = IOS_Ioctlv(fd, 100, 2, 0, vector); IOS_Close(fd); gprintf(" %s!\n", ret < 0 ? "failed" : "OK"); return ret; } s32 Nand::Nand_Disable(void) { gprintf("Disabling NAND Emulator\n"); s32 fd = IOS_Open("/dev/fs", 0); if(fd < 0) return fd; u32 inbuf ATTRIBUTE_ALIGN(32) = 0; s32 ret = IOS_Ioctl(fd, 100, &inbuf, sizeof(inbuf), NULL, 0); IOS_Close(fd); return ret; } s32 Nand::Enable_Emu() { if(emu_enabled) return 0; NandDevice *Device = &NandDeviceList[EmuDevice]; s32 ret = Nand_Mount(Device); if(ret < 0) return ret; ret = Nand_Enable(Device); if(ret < 0) return ret; MountedDevice = EmuDevice; emu_enabled = true; return 0; } s32 Nand::Disable_Emu() { if(MountedDevice == 0 || !emu_enabled) { emu_enabled = false; return 0; } emu_enabled = false; NandDevice *Device = &NandDeviceList[MountedDevice]; Nand_Disable(); Nand_Unmount(Device); MountedDevice = 0; return 0; } bool Nand::EmulationEnabled(void) { return emu_enabled; } void Nand::__Dec_Enc_TB(void) { u32 key = 0x73B5DBFA; int i; for( i=0; i < 0x100; ++i ) { txtbuffer[i] ^= key&0xFF; key = (key<<1) | (key>>31); } tbdec = tbdec ? false : true; } void Nand::__configshifttxt(char *str) { const char *ptr = str; char *ctr = str; int i; int j = strlen(str); for( i=0; incnt; ++i) { if(memcmp(confbuffer+(cfg_hdr->noff[i] + 1), item, strlen(item)) == 0) { *(u8*)(confbuffer+cfg_hdr->noff[i] + 1 + strlen(item)) = val; break; } } return 0; } u32 Nand::__configsetbigarray(const char *item, void *val, u32 size) { u32 i; for(i=0; incnt; ++i) { if(memcmp(confbuffer+(cfg_hdr->noff[i] + 1), item, strlen(item)) == 0) { memcpy(confbuffer+cfg_hdr->noff[i] + 3 + strlen(item), val, size); break; } } return 0; } u32 Nand::__configsetsetting(const char *item, const char *val) { char *curitem = strstr(txtbuffer, item); char *curstrt, *curend; if(curitem == NULL) return 0; curstrt = strchr(curitem, '='); curend = strchr(curitem, 0x0d); if(curstrt && curend) { curstrt += 1; u32 len = curend - curstrt; if(strlen(val) > len) { static char buffer[0x100]; u32 nlen; nlen = txtbuffer-(curstrt+strlen(val)); strcpy( buffer, txtbuffer+nlen ); strncpy( curstrt, val, strlen(val)); curstrt += strlen(val); strncpy(curstrt, buffer, strlen(buffer)); } else { strncpy(curstrt, val, strlen(val)); } __configshifttxt(txtbuffer); return 1; } return 0; } void Nand::__FATify(char *ptr, const char *str) { char ctr; while((ctr = *(str++)) != '\0') { const char *esc; switch(ctr) { case '"': esc = "&qt;"; break; case '*': esc = "&st;"; break; case ':': esc = "&cl;"; break; case '<': esc = "<"; break; case '>': esc = ">"; break; case '?': esc = "&qm;"; break; case '|': esc = "&vb;"; break; default: *(ptr++) = ctr; continue; } strcpy(ptr, esc); ptr += 4; } *ptr = '\0'; } void Nand::__NANDify(char *str) { char *src = str; char *dst = str; char c; while((c = *(src++)) != '\0') { if(c == '&') { if(!strncmp(src, "qt;", 3)) c = '"'; else if(!strncmp(src, "st;", 3)) c = '*'; else if(!strncmp(src, "cl;", 3)) c = ':'; else if(!strncmp(src, "lt;", 3)) c = '<'; else if(!strncmp(src, "gt;", 3)) c = '>'; else if(!strncmp(src, "qm;", 3)) c = '?'; else if(!strncmp(src, "vb;", 3)) c = '|'; if (c != '&') src += 3; } *(dst++) = c; } *dst = '\0'; } s32 Nand::__FlashNandFile(const char *source, const char *dest) { s32 ret; FILE *file = fopen(source, "rb"); if(!file) { gprintf("Error opening source: \"%s\"\n", source); return 0; } fseek(file, 0, SEEK_END); u32 fsize = ftell(file); fseek(file, 0, SEEK_SET); if(fake) { NandSize += fsize; if(showprogress) dumper(NandSize, 0x1f400000, 0x1f400000, NandSize, FilesDone, FoldersDone, (char *)"", data); fclose(file); return 0; } gprintf("Flashing: %s (%uKB) to nand...", dest, (fsize / 0x400)+1); ISFS_Delete(dest); ISFS_CreateFile(dest, 0, 3, 3, 3); s32 fd = ISFS_Open(dest, ISFS_OPEN_RW); if(fd < 0) { gprintf(" failed\nError: ISFS_OPEN(%s, %d) %d\n", dest, ISFS_OPEN_RW, fd); fclose(file); return fd; } u8 *buffer = (u8 *)memalign(32, ALIGN32(BLOCK)); if(buffer == NULL) return -1; u32 toread = fsize; while(toread > 0) { u32 size = BLOCK; if(toread < BLOCK) size = toread; ret = fread(buffer, 1, size, file); if(ret <= 0) { gprintf(" failed\nError: fread(%p, 1, %d, %s) %d\n", buffer, size, source, ret); ISFS_Close(fd); fclose(file); free(buffer); return ret; } ret = ISFS_Write(fd, buffer, size); if(ret <= 0) { gprintf(" failed\nError: ISFS_Write(%d, %p, %d) %d\n", fd, buffer, size, ret); ISFS_Close(fd); fclose(file); free(buffer); return ret; } toread -= size; NandDone += size; FileDone += size; if(showprogress) { const char *file = strrchr(dest, '/')+1; dumper(NandDone, NandSize, fsize, FileDone, FilesDone, FoldersDone, (char *)file, data); } } gprintf(" done!\n"); FilesDone++; if(showprogress) { const char *file = strrchr(dest, '/')+1; dumper(NandDone, NandSize, fsize, FileDone, FilesDone, FoldersDone, (char *)file, data); } ISFS_Close(fd); free(buffer); fclose(file); return 1; } s32 Nand::__DumpNandFile(const char *source, const char *dest) { FileDone = 0; s32 fd = ISFS_Open(source, ISFS_OPEN_READ); if (fd < 0) { gprintf("Error: IOS_OPEN(%s, %d) %d\n", source, ISFS_OPEN_READ, fd); return fd; } fstats *status = (fstats *)memalign(32, ALIGN32(sizeof(fstats))); if(status == NULL) return -1; s32 ret = ISFS_GetFileStats(fd, status); if(ret < 0) { gprintf("Error: ISFS_GetFileStats(%d) %d\n", fd, ret); ISFS_Close(fd); free(status); return ret; } if(fake) { NandSize += status->file_length; if(showprogress) dumper(NandSize, 0x1f400000, 0x1f400000, NandSize, FilesDone, FoldersDone, (char *)"", data); ISFS_Close(fd); free(status); return 0; } if(fsop_FileExist(dest)) fsop_deleteFile(dest); FILE *file = fopen(dest, "wb"); if(!file) { gprintf("Error opening destination: \"%s\"\n", dest); ISFS_Close(fd); free(status); return 0; } gprintf("Dumping: %s (%ukb)...", source, (status->file_length / 0x400)+1); u8 *buffer = (u8 *)memalign(32, ALIGN32(BLOCK)); if(buffer == NULL) { free(status); return -1; } u32 toread = status->file_length; while(toread > 0) { u32 size = BLOCK; if (toread < BLOCK) size = toread; ret = ISFS_Read(fd, buffer, size); if (ret < 0) { gprintf(" failed\nError: ISFS_Read(%d, %p, %d) %d\n", fd, buffer, size, ret); ISFS_Close(fd); fclose(file); free(status); free(buffer); return ret; } ret = fwrite(buffer, 1, size, file); if(ret < 0) { gprintf(" failed\nError writing to destination: \"%s\" (%d)\n", dest, ret); ISFS_Close(fd); fclose(file); free(status); free(buffer); return ret; } toread -= size; NandDone += size; FileDone += size; if(showprogress) { const char *file = strrchr(source, '/')+1; dumper(NandDone, NandSize, status->file_length, FileDone, FilesDone, FoldersDone, (char *)file, data); } } FilesDone++; if(showprogress) { const char *file = strrchr(source, '/')+1; dumper(NandDone, NandSize, status->file_length, FileDone, FilesDone, FoldersDone, (char *)file, data); } gprintf(" done!\n"); fclose(file); ISFS_Close(fd); free(status); free(buffer); return 0; } s32 Nand::__FlashNandFolder(const char *source, const char *dest) { char nsource[MAX_FAT_PATH]; char ndest[ISFS_MAXPATH]; DIR *dir_iter; struct dirent *ent; dir_iter = opendir(source); if (!dir_iter) return 1; while((ent = readdir(dir_iter)) != NULL) { if(ent->d_name[0] == '.') continue; if(dest[strlen(dest)-1] == '/') snprintf(ndest, sizeof(ndest), "%s%s", dest, ent->d_name); else snprintf(ndest, sizeof(ndest), "%s/%s", dest, ent->d_name); if(source[strlen(source)-1] == '/') snprintf(nsource, sizeof(nsource), "%s%s", source, ent->d_name); else snprintf(nsource, sizeof(nsource), "%s/%s", source, ent->d_name); if(ent->d_type == DT_DIR) { __NANDify(ndest); if(!fake) { ISFS_CreateDir(ndest, 0, 3, 3, 3); FoldersDone++; } __FlashNandFolder(nsource, ndest); } else { __NANDify(ndest); __FlashNandFile(nsource, ndest); } } return 0; } s32 Nand::__DumpNandFolder(const char *source, const char *dest) { namelist *names = NULL; int cnt, i; char nsource[ISFS_MAXPATH]; char ndest[MAX_FAT_PATH]; char tdest[MAX_FAT_PATH]; __GetNameList(source, &names, &cnt); for(i = 0; i < cnt; i++) { if(source[strlen(source)-1] == '/') snprintf(nsource, sizeof(nsource), "%s%s", source, names[i].name); else snprintf(nsource, sizeof(nsource), "%s/%s", source, names[i].name); if(!names[i].type) { __FATify(tdest, nsource); snprintf(ndest, sizeof(ndest), "%s%s", dest, tdest); __DumpNandFile(nsource, ndest); } else { if(!fake) { __FATify(tdest, nsource); CreatePath("%s%s", dest, tdest); FoldersDone++; } __DumpNandFolder(nsource, dest); } } free(names); return 0; } void Nand::CreatePath(const char *path, ...) { char *folder = NULL; va_list args; va_start(args, path); if((vasprintf(&folder, path, args) >= 0) && folder) { if(folder[strlen(folder)-1] == '/') folder[strlen(folder)-1] = 0; char *check = folder; while(true) { check = strstr(folder, "//"); if (check != NULL) strcpy(check, check + 1); else break; } __makedir(folder); free(folder); } va_end(args); } void Nand::CreateTitleTMD(dir_discHdr *hdr) { wbfs_disc_t *disc = WBFS_OpenDisc((u8 *)&hdr->id, (char *)hdr->path); if(!disc) return; u8 *titleTMD = NULL; u32 tmd_size = wbfs_extract_file(disc, (char *) "TMD", (void **)&titleTMD); WBFS_CloseDisc(disc); if(titleTMD == NULL) return; u32 highTID = *(u32*)(titleTMD+0x18c); u32 lowTID = *(u32*)(titleTMD+0x190); CreatePath("%s/title/%08x/%08x/data", FullNANDPath, highTID, lowTID); CreatePath("%s/title/%08x/%08x/content", FullNANDPath, highTID, lowTID); char nandpath[MAX_FAT_PATH]; snprintf(nandpath, sizeof(nandpath), "%s/title/%08x/%08x/content/title.tmd", FullNANDPath, highTID, lowTID); struct stat filestat; if(stat(nandpath, &filestat) == 0) { free(titleTMD); gprintf("%s Exists!\n", nandpath); return; } gprintf("Creating title TMD: %s\n", nandpath); FILE *file = fopen(nandpath, "wb"); if(file) { fwrite(titleTMD, 1, tmd_size, file); gprintf("Title TMD written to: %s\n", nandpath); fclose(file); } else gprintf("Creating title TMD: %s failed (%i)\n", nandpath, file); free(titleTMD); } s32 Nand::FlashToNAND(const char *source, const char *dest, dump_callback_t i_dumper, void *i_data) { ISFS_CreateDir(dest, 0, 3, 3, 3); data = i_data; dumper = i_dumper; fake = false; showprogress = true; __FlashNandFolder(source, dest); return 0; } s32 Nand::DoNandDump(const char *source, const char *dest, dump_callback_t i_dumper, void *i_data) { data = i_data; dumper = i_dumper; fake = false; showprogress = true; u32 temp = 0; s32 ret = ISFS_ReadDir(source, NULL, &temp); if(ret < 0) { char ndest[MAX_FAT_PATH]; snprintf(ndest, sizeof(ndest), "%s%s", dest, source); CreatePath(dest); __DumpNandFile(source, ndest); } else __DumpNandFolder(source, dest); return 0; } s32 Nand::CalcFlashSize(const char *source, dump_callback_t i_dumper, void *i_data) { data = i_data; dumper = i_dumper; fake = true; showprogress = true; __FlashNandFolder(source, ""); return NandSize; } s32 Nand::CalcDumpSpace(const char *source, dump_callback_t i_dumper, void *i_data) { data = i_data; dumper = i_dumper; fake = true; showprogress = true; u32 temp = 0; s32 ret = ISFS_ReadDir(source, NULL, &temp); if(ret < 0) __DumpNandFile(source, ""); else __DumpNandFolder(source, ""); return NandSize; } void Nand::ResetCounters(void) { NandSize = 0; FilesDone = 0; FoldersDone = 0; NandDone = 0; } s32 Nand::CreateConfig() { CreatePath(FullNANDPath); CreatePath("%s/shared2", FullNANDPath); CreatePath("%s/shared2/sys", FullNANDPath); CreatePath("%s/title", FullNANDPath); CreatePath("%s/title/00000001", FullNANDPath); CreatePath("%s/title/00000001/00000002", FullNANDPath); CreatePath("%s/title/00000001/00000002/data", FullNANDPath); fake = false; showprogress = false; memset(cfgpath, 0, sizeof(cfgpath)); snprintf(cfgpath, sizeof(cfgpath), "%s%s", FullNANDPath, SYSCONFPATH); __DumpNandFile(SYSCONFPATH, cfgpath); memset(settxtpath, 0, sizeof(settxtpath)); snprintf(settxtpath, sizeof(settxtpath), "%s%s", FullNANDPath, TXTPATH); __DumpNandFile(TXTPATH, settxtpath); return 0; } s32 Nand::PreNandCfg(bool miis, bool realconfig) { CreatePath(FullNANDPath); CreatePath("%s/shared2", FullNANDPath); CreatePath("%s/shared2/sys", FullNANDPath); CreatePath("%s/shared2/menu", FullNANDPath); CreatePath("%s/shared2/menu/FaceLib", FullNANDPath); CreatePath("%s/title", FullNANDPath); CreatePath("%s/title/00000001", FullNANDPath); CreatePath("%s/title/00000001/00000002", FullNANDPath); CreatePath("%s/title/00000001/00000002/data", FullNANDPath); char dest[MAX_FAT_PATH]; fake = false; showprogress = false; if(realconfig) { snprintf(dest, sizeof(dest), "%s%s", FullNANDPath, SYSCONFPATH); __DumpNandFile(SYSCONFPATH, dest); snprintf(dest, sizeof(dest), "%s%s", FullNANDPath, TXTPATH); __DumpNandFile(TXTPATH, dest); } if(miis) { snprintf(dest, sizeof(dest), "%s%s", FullNANDPath, MIIPATH); __DumpNandFile(MIIPATH, dest); } return 0; } s32 Nand::Do_Region_Change(string id) { if(__configread()) { switch(id[3]) { case 'J': gprintf("Switching region to NTSC-J \n"); CCode[0] = 1; __configsetbyte( "IPL.LNG", 0 ); __configsetbigarray( "SADR.LNG", CCode, 0x1007 ); __configsetsetting( "AREA", "JPN" ); __configsetsetting( "MODEL", "RVL-001(JPN)" ); __configsetsetting( "CODE", "LJM" ); __configsetsetting( "VIDEO", "NTSC" ); __configsetsetting( "GAME", "JP" ); break; case 'E': gprintf("Switching region to NTSC-U \n"); CCode[0] = 31; __configsetbyte( "IPL.LNG", 1 ); __configsetbigarray( "IPL.SADR", CCode, 0x1007 ); __configsetsetting( "AREA", "USA" ); __configsetsetting( "MODEL", "RVL-001(USA)" ); __configsetsetting( "CODE", "LU" ); __configsetsetting( "VIDEO", "NTSC" ); __configsetsetting( "GAME", "US" ); break; case 'D': case 'F': case 'I': case 'M': case 'P': case 'S': case 'U': gprintf("Switching region to PAL \n"); CCode[0] = 110; __configsetbyte( "IPL.LNG", 1 ); __configsetbigarray( "IPL.SADR", CCode, 0x1007 ); __configsetsetting( "AREA", "EUR" ); __configsetsetting( "MODEL", "RVL-001(EUR)" ); __configsetsetting( "CODE", "LEH" ); __configsetsetting( "VIDEO", "PAL" ); __configsetsetting( "GAME", "EU" ); break; case 'K': gprintf("Switching region to NTSC-K \n"); CCode[0] = 137; __configsetbyte( "IPL.LNG", 9 ); __configsetbigarray( "IPL.SADR", CCode, 0x1007 ); __configsetsetting( "AREA", "KOR" ); __configsetsetting( "MODEL", "RVL-001(KOR)" ); __configsetsetting( "CODE", "LKM" ); __configsetsetting( "VIDEO", "NTSC" ); __configsetsetting( "GAME", "KR" ); break; } } __configwrite(); return 1; } void Nand::Init_ISFS() { if(IOS_GetVersion() < 222) { Patch_ISFS_Permission(true); AccessPatched = true; } usleep(1000); gprintf("Init ISFS\n"); ISFS_Initialize(); } void Nand::DeInit_ISFS(bool KeepPatches) { gprintf("Deinit ISFS\n"); ISFS_Deinitialize(); usleep(1000); if(AccessPatched && !KeepPatches) { Patch_ISFS_Permission(false); AccessPatched = false; } } /* Thanks to postloader for that patch */ #define ES_MODULE_START (u16*)0x939F0000 static const u16 ticket_check[] = { 0x685B, // ldr r3,[r3,#4] ; get TMD pointer 0x22EC, 0x0052, // movls r2, 0x1D8 0x189B, // adds r3, r3, r2; add offset of access rights field in TMD 0x681B, // ldr r3, [r3] ; load access rights (haxxme!) 0x4698, // mov r8, r3 ; store it for the DVD video bitcheck later 0x07DB // lsls r3, r3, #31; check AHBPROT bit }; void Nand::PatchAHB() { for(u16 *patchme = ES_MODULE_START; patchme < ES_MODULE_START + 0x4000; patchme++) { if(!memcmp(patchme, ticket_check, sizeof(ticket_check))) { // write16/uncached poke doesn't work for this. Go figure. patchme[4] = 0x23FF; // li r3, 0xFF DCFlushRange(patchme + 4, 2); break; } } } void Nand::Patch_AHB() { if(AHBRPOT_Patched()) { // Disable memory protection write16(MEM_PROT, 0); // Do patches PatchAHB(); // Enable memory protection write16(MEM_PROT, 1); } } u8 *Nand::GetEmuFile(const char *path, u32 *size, s32 len) { u32 filesize = 0; const char *tmp_path = fmt("%s%s", FullNANDPath, path); bool ret = fsop_GetFileSizeBytes(tmp_path, &filesize); if(ret == false || filesize == 0) return NULL; if(len > 0) filesize = min(filesize, (u32)len); u8 *tmp_buf = (u8*)MEM2_alloc(filesize); FILE *f = fopen(tmp_path, "rb"); fread(tmp_buf, filesize, 1, f); fclose(f); DCFlushRange(tmp_buf, filesize); *size = filesize; return tmp_buf; } u64 *Nand::GetChannels(u32 *count) { u32 size = 0; u8 *uid_buf = GetEmuFile("/sys/uid.sys", &size); if(uid_buf == NULL || size == 0) return NULL; uid *uid_file = (uid*)uid_buf; u32 chans = size/sizeof(uid); u64 *title_buf = (u64*)MEM2_alloc(chans*sizeof(u64)); for(u32 i = 0; i < chans; ++i) title_buf[i] = uid_file[i].TitleID; MEM2_free(uid_buf); DCFlushRange(title_buf, chans); *count = chans; return title_buf; } u8 *Nand::GetTMD(u64 title, u32 *size) { u32 tmd_size = 0; const char *tmd_path = fmt("/title/%08x/%08x/content/title.tmd", TITLE_UPPER(title), TITLE_LOWER(title)); u8 *tmd_buf = GetEmuFile(tmd_path, &tmd_size); *size = tmd_size; return tmd_buf; } void Nand::SetPaths(const char *emuPath, const char *currentPart) { memset(&NandPath, 0, sizeof(NandPath)); if(emuPath[0] == '\0' || emuPath[0] == ' ') return; else if(emuPath[0] != '/' && emuPath[1] != '\0') //missing / before path strcat(NandPath, "/"); for(u32 i = 0; emuPath[i] != '\0'; i++) { if(emuPath[i] == '/' && emuPath[i+1] == '\0') break; strncat(NandPath, &emuPath[i], 1); } /* Our WiiFlow handle Path */ memset(&FullNANDPath, 0, sizeof(FullNANDPath)); strcat(FullNANDPath, fmt("%s:%s", currentPart, NandPath)); gprintf("Emu NAND Full Path = %s\n", FullNANDPath); /* For d2x IOS Path */ if(strlen(NandPath) == 0) strcat(NandPath, "/"); gprintf("IOS Compatible NAND Path = %s\n", NandPath); } /* part of miniunz.c Version 1.01e, February 12th, 2005 Copyright (C) 1998-2005 Gilles Vollant */ #include #include #include struct stat exists; static int mymkdir(const char* dirname) { if(stat(dirname, &exists) == 0) return 0; return mkdir(dirname, S_IREAD | S_IWRITE); } int Nand::__makedir(char *newdir) { if(stat(newdir, &exists) == 0) return 0; int len = (int)strlen(newdir); if(len <= 0) return 0; char *buffer = (char*)MEM2_alloc(len + 1); strcpy(buffer, newdir); if(buffer[len-1] == '/') buffer[len-1] = '\0'; if(mymkdir(buffer) == 0) { MEM2_free(buffer); return 1; } char *p = buffer + 1; while(1) { char hold; while(*p && *p != '\\' && *p != '/') p++; hold = *p; *p = 0; if((mymkdir(buffer) == -1) && (errno == ENOENT)) { gprintf("couldn't create directory %s\n",buffer); MEM2_free(buffer); return 0; } if(hold == 0) break; *p++ = hold; } MEM2_free(buffer); return 1; }