#include "fsutil.h" #include "fsinit.h" #include "fsdrive.h" #include "fsperm.h" #include "sddata.h" #include "vff.h" #include "virtual.h" #include "image.h" #include "sha.h" #include "sdmmc.h" #include "ff.h" #include "ui.h" #define SKIP_CUR (1UL<< 9) #define OVERWRITE_CUR (1UL<<10) #define _MAX_FS_OPT 8 // max file selector options // Volume2Partition resolution table PARTITION VolToPart[] = { {0, 0}, {1, 0}, {2, 0}, {3, 0}, {4, 0}, {5, 0}, {6, 0}, {7, 0}, {8, 0}, {9, 0} }; uint64_t GetSDCardSize() { if (sdmmc_sdcard_init() != 0) return 0; return (u64) getMMCDevice(1)->total_size * 512; } bool FormatSDCard(u64 hidden_mb, u32 cluster_size, const char* label) { u8 mbr[0x200] = { 0 }; u8 ncsd[0x200] = { 0 }; u8 mbrdata[0x42] = { 0x80, 0x01, 0x01, 0x00, 0x0C, 0xFE, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0x01, 0x01, 0x00, 0xDA, 0xFE, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x55, 0xAA }; u32 sd_size = getMMCDevice(1)->total_size; u32 emu_sector = 1; u32 emu_size = (u32) ((hidden_mb * 1024 * 1024) / 512); u32 fat_sector = align(emu_sector + emu_size, 0x2000); // align to 4MB u32 fat_size = (fat_sector < sd_size) ? sd_size - fat_sector : 0; // FAT size check if (fat_size < 0x80000) { // minimum free space: 256MB ShowPrompt(false, "Error: SD card is too small"); return false; } // build the MBR memcpy(mbrdata + 0x08, &fat_sector, 4); memcpy(mbrdata + 0x0C, &fat_size, 4); memcpy(mbrdata + 0x18, &emu_sector, 4); memcpy(mbrdata + 0x1C, &emu_size, 4); memcpy(mbr + 0x1BE, mbrdata, 0x42); if (hidden_mb) memcpy(mbr, "GATEWAYNAND", 12); // legacy else memset(mbr + 0x1CE, 0, 0x10); // one last warning.... // 0:/Nintendo 3DS/ write permission is ignored here, this warning is enough if (!ShowUnlockSequence(5, "!WARNING!\n \nProceeding will format this SD.\nThis will irreversibly delete\nALL data on it.")) return false; ShowString("Formatting SD, please wait..."); // write the MBR to disk // !this assumes a fully deinitialized file system! if ((sdmmc_sdcard_init() != 0) || (sdmmc_sdcard_writesectors(0, 1, mbr) != 0) || (emu_size && ((sdmmc_nand_readsectors(0, 1, ncsd) != 0) || (sdmmc_sdcard_writesectors(1, 1, ncsd) != 0)))) { ShowPrompt(false, "Error: SD card i/o failure"); return false; } // format the SD card VolToPart[0].pt = 1; // workaround to prevent FatFS rebuilding the MBR InitSDCardFS(); UINT c_size = cluster_size; u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) bkpt; // will not happen bool ret = ((f_mkfs("0:", FM_FAT32, c_size, buffer, STD_BUFFER_SIZE) == FR_OK) || (f_mkfs("0:", FM_FAT32, 0, buffer, STD_BUFFER_SIZE) == FR_OK)) && (f_setlabel((label) ? label : "0:GM9SD") == FR_OK); free(buffer); DeinitSDCardFS(); VolToPart[0].pt = 0; // revert workaround to prevent SD mount problems return ret; } bool SetupBonusDrive(void) { if (!ShowUnlockSequence(3, "Format the bonus drive?\nThis will irreversibly delete\nALL data on it.")) return false; ShowString("Formatting drive, please wait..."); if (GetMountState() & IMG_NAND) InitImgFS(NULL); u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) bkpt; bool ret = (f_mkfs("8:", FM_ANY, 0, buffer, STD_BUFFER_SIZE) == FR_OK); free(buffer); if (ret) { f_setlabel("8:BONUS"); InitExtFS(); } return ret; } bool FileUnlock(const char* path) { FIL file; FRESULT res; if (!(DriveType(path) & DRV_FAT)) return true; // can't really check this if ((res = fx_open(&file, path, FA_READ | FA_OPEN_EXISTING)) != FR_OK) { char pathstr[32 + 1]; TruncateString(pathstr, path, 32, 8); if (GetMountState() && (res == FR_LOCKED) && (ShowPrompt(true, "%s\nFile is currently mounted.\nUnmount to unlock?", pathstr))) { InitImgFS(NULL); if (fx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return false; } else return false; } fx_close(&file); return true; } bool FileSetData(const char* path, const void* data, size_t size, size_t foffset, bool create) { UINT bw; if (!CheckWritePermissions(path)) return false; if ((DriveType(path) & DRV_FAT) && create) f_unlink(path); return (fvx_qwrite(path, data, foffset, size, &bw) == FR_OK) && (bw == size); } size_t FileGetData(const char* path, void* data, size_t size, size_t foffset) { UINT br; if (fvx_qread(path, data, foffset, size, &br) != FR_OK) br = 0; return br; } size_t FileGetSize(const char* path) { FILINFO fno; if (fvx_stat(path, &fno) != FR_OK) return 0; return fno.fsize; } bool FileGetSha256(const char* path, u8* sha256, u64 offset, u64 size) { bool ret = true; FIL file; u64 fsize; if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return false; fsize = fvx_size(&file); if (offset + size > fsize) return false; if (!size) size = fsize - offset; fvx_lseek(&file, offset); u32 bufsiz = min(STD_BUFFER_SIZE, fsize); u8* buffer = (u8*) malloc(bufsiz); if (!buffer) return false; ShowProgress(0, 0, path); sha_init(SHA256_MODE); for (u64 pos = 0; (pos < size) && ret; pos += bufsiz) { UINT read_bytes = min(bufsiz, size - pos); UINT bytes_read = 0; if (fvx_read(&file, buffer, read_bytes, &bytes_read) != FR_OK) ret = false; if (!ShowProgress(pos + bytes_read, size, path)) ret = false; sha_update(buffer, bytes_read); } sha_get(sha256); fvx_close(&file); free(buffer); ShowProgress(1, 1, path); return ret; } u32 FileFindData(const char* path, u8* data, u32 size_data, u32 offset_file) { FIL file; // used for FAT & virtual u64 found = (u64) -1; u64 fsize = FileGetSize(path); if (fvx_open(&file, path, FA_READ | FA_OPEN_EXISTING) != FR_OK) return found; u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) return false; // main routine for (u32 pass = 0; pass < 2; pass++) { bool show_progress = false; u64 pos = (pass == 0) ? offset_file : 0; u64 search_end = (pass == 0) ? fsize : offset_file + size_data; search_end = (search_end > fsize) ? fsize : search_end; for (; (pos < search_end) && (found == (u64) -1); pos += STD_BUFFER_SIZE - (size_data - 1)) { UINT read_bytes = min(STD_BUFFER_SIZE, search_end - pos); UINT btr; fvx_lseek(&file, pos); if ((fvx_read(&file, buffer, read_bytes, &btr) != FR_OK) || (btr != read_bytes)) break; for (u32 i = 0; i + size_data <= read_bytes; i++) { if (memcmp(buffer + i, data, size_data) == 0) { found = pos + i; break; } } if (!show_progress && (found == (u64) -1) && (pos + read_bytes < fsize)) { ShowProgress(0, 0, path); show_progress = true; } if (show_progress && (!ShowProgress(pos + read_bytes, fsize, path))) break; } } free(buffer); fvx_close(&file); return found; } bool FileInjectFile(const char* dest, const char* orig, u64 off_dest, u64 off_orig, u64 size, u32* flags) { FIL ofile; FIL dfile; bool allow_expand = (flags && (*flags & ALLOW_EXPAND)); if (!CheckWritePermissions(dest)) return false; if (strncasecmp(dest, orig, 256) == 0) { ShowPrompt(false, "Error: Can't inject file into itself"); return false; } // open destination / origin if (fvx_open(&dfile, dest, FA_WRITE | ((allow_expand) ? FA_OPEN_ALWAYS : FA_OPEN_EXISTING)) != FR_OK) return false; if ((fvx_open(&ofile, orig, FA_READ | FA_OPEN_EXISTING) != FR_OK) && (!FileUnlock(orig) || (fvx_open(&ofile, orig, FA_READ | FA_OPEN_EXISTING) != FR_OK))) { fvx_close(&dfile); return false; } fvx_lseek(&dfile, off_dest); fvx_lseek(&ofile, off_orig); if (!size && (off_orig < fvx_size(&ofile))) size = fvx_size(&ofile) - off_orig; // check file limits if (!allow_expand && (off_dest + size > fvx_size(&dfile))) { ShowPrompt(false, "Operation would write beyond end of file"); fvx_close(&dfile); fvx_close(&ofile); return false; } else if (off_orig + size > fvx_size(&ofile)) { ShowPrompt(false, "Not enough data in file"); fvx_close(&dfile); fvx_close(&ofile); return false; } u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) return false; bool ret = true; ShowProgress(0, 0, orig); for (u64 pos = 0; (pos < size) && ret; pos += STD_BUFFER_SIZE) { UINT read_bytes = min(STD_BUFFER_SIZE, size - pos); UINT bytes_read = read_bytes; UINT bytes_written = read_bytes; if ((fvx_read(&ofile, buffer, read_bytes, &bytes_read) != FR_OK) || (fvx_write(&dfile, buffer, read_bytes, &bytes_written) != FR_OK) || (bytes_read != bytes_written)) ret = false; if (ret && !ShowProgress(pos + bytes_read, size, orig)) { if (flags && (*flags & NO_CANCEL)) { ShowPrompt(false, "Cancel is not allowed here"); } else ret = !ShowPrompt(true, "B button detected. Cancel?"); ShowProgress(0, 0, orig); ShowProgress(pos + bytes_read, size, orig); } } ShowProgress(1, 1, orig); free(buffer); fvx_close(&dfile); fvx_close(&ofile); return ret; } bool FileSetByte(const char* dest, u64 offset, u64 size, u8 fillbyte, u32* flags) { FIL dfile; bool allow_expand = (flags && (*flags & ALLOW_EXPAND)); if (!CheckWritePermissions(dest)) return false; // open destination if (fvx_open(&dfile, dest, FA_WRITE | ((allow_expand) ? FA_OPEN_ALWAYS : FA_OPEN_EXISTING)) != FR_OK) return false; fvx_lseek(&dfile, offset); if (!size && (offset < fvx_size(&dfile))) size = fvx_size(&dfile) - offset; // check file limits if (!allow_expand && (offset + size > fvx_size(&dfile))) { ShowPrompt(false, "Operation would write beyond end of file"); fvx_close(&dfile); return false; } u32 bufsiz = min(STD_BUFFER_SIZE, size); u8* buffer = (u8*) malloc(bufsiz); if (!buffer) return false; memset(buffer, fillbyte, bufsiz); bool ret = true; ShowProgress(0, 0, dest); for (u64 pos = 0; (pos < size) && ret; pos += bufsiz) { UINT write_bytes = min(bufsiz, size - pos); UINT bytes_written = write_bytes; if ((fvx_write(&dfile, buffer, write_bytes, &bytes_written) != FR_OK) || (write_bytes != bytes_written)) ret = false; if (ret && !ShowProgress(pos + bytes_written, size, dest)) { if (flags && (*flags & NO_CANCEL)) { ShowPrompt(false, "Cancel is not allowed here"); } else ret = !ShowPrompt(true, "B button detected. Cancel?"); ShowProgress(0, 0, dest); ShowProgress(pos + bytes_written, size, dest); } } ShowProgress(1, 1, dest); free(buffer); fvx_close(&dfile); return ret; } bool FileCreateDummy(const char* cpath, const char* filename, u64 size) { char npath[256]; // 256 is the maximum length of a full path if (!CheckWritePermissions(cpath)) return false; if (filename) snprintf(npath, 255, "%s/%s", cpath, filename); else snprintf(npath, 255, "%s", cpath); // create dummy file (fail if already existing) // then, expand the file size via cluster preallocation FIL dfile; if (fx_open(&dfile, npath, FA_WRITE | FA_CREATE_NEW) != FR_OK) return false; f_lseek(&dfile, size > 0xFFFFFFFF ? 0xFFFFFFFF : (FSIZE_t) size); f_sync(&dfile); fx_close(&dfile); return true; } bool DirCreate(const char* cpath, const char* dirname) { char npath[256]; // 256 is the maximum length of a full path if (!CheckWritePermissions(cpath)) return false; snprintf(npath, 255, "%s/%s", cpath, dirname); return (fa_mkdir(npath) == FR_OK); } bool DirInfoWorker(char* fpath, bool virtual, u64* tsize, u32* tdirs, u32* tfiles) { char* fname = fpath + strnlen(fpath, 256 - 1); bool ret = true; if (virtual) { VirtualDir vdir; VirtualFile vfile; if (!GetVirtualDir(&vdir, fpath)) return false; // get dir reader object while (ReadVirtualDir(&vfile, &vdir)) { if (vfile.flags & VFLAG_DIR) { (*tdirs)++; *(fname++) = '/'; GetVirtualFilename(fname, &vfile, (256 - 1) - (fname - fpath)); if (!DirInfoWorker(fpath, virtual, tsize, tdirs, tfiles)) ret = false; *(--fname) = '\0'; } else { *tsize += vfile.size; (*tfiles)++; } } } else { DIR pdir; FILINFO fno; if (fa_opendir(&pdir, fpath) != FR_OK) return false; // get dir reader object while (f_readdir(&pdir, &fno) == FR_OK) { if ((strncmp(fno.fname, ".", 2) == 0) || (strncmp(fno.fname, "..", 3) == 0)) continue; // filter out virtual entries if (fno.fname[0] == 0) break; // end of dir if (fno.fattrib & AM_DIR) { (*tdirs)++; *(fname++) = '/'; strncpy(fname, fno.fname, (256 - 1) - (fname - fpath)); if (!DirInfoWorker(fpath, virtual, tsize, tdirs, tfiles)) ret = false; *(--fname) = '\0'; } else { *tsize += fno.fsize; (*tfiles)++; } } f_closedir(&pdir); } return ret; } bool DirInfo(const char* path, u64* tsize, u32* tdirs, u32* tfiles) { bool virtual = (DriveType(path) & DRV_VIRTUAL); char fpath[256]; strncpy(fpath, path, 255); *tsize = *tdirs = *tfiles = 0; bool res = DirInfoWorker(fpath, virtual, tsize, tdirs, tfiles); return res; } bool PathExist(const char* path) { return (fvx_stat(path, NULL) == FR_OK); } bool PathMoveCopyRec(char* dest, char* orig, u32* flags, bool move, u8* buffer, u32 bufsiz) { bool to_virtual = GetVirtualSource(dest); bool silent = (flags && (*flags & SILENT)); bool ret = false; // check destination write permission (special paths only) if (((*dest == '1') || (strncmp(dest, "0:/Nintendo 3DS", 16) == 0)) && (!flags || !(*flags & OVERRIDE_PERM)) && !CheckWritePermissions(dest)) return false; FILINFO fno; if (fvx_stat(orig, &fno) != FR_OK) return false; // origin does not exist if (move && (to_virtual || fno.fattrib & AM_VRT)) return false; // trying to move a virtual file // path string (for output) char deststr[36 + 1]; TruncateString(deststr, dest, 36, 8); // the copy process takes place here if (!ShowProgress(0, 0, orig) && !(flags && (*flags & NO_CANCEL))) { if (ShowPrompt(true, "%s\nB button detected. Cancel?", deststr)) return false; ShowProgress(0, 0, orig); } if (move && fvx_stat(dest, NULL) != FR_OK) { // moving if dest not existing ret = (fvx_rename(orig, dest) == FR_OK); } else if (fno.fattrib & AM_DIR) { // processing folders (same for move & copy) DIR pdir; char* fname = orig + strnlen(orig, 256); // create the destination folder if it does not already exist if (fvx_opendir(&pdir, dest) != FR_OK) { if (fvx_mkdir(dest) != FR_OK) { if (!silent) ShowPrompt(false, "%s\nError: Overwriting file with dir", deststr); return false; } } else fvx_closedir(&pdir); if (fvx_opendir(&pdir, orig) != FR_OK) return false; *(fname++) = '/'; while (fvx_readdir(&pdir, &fno) == FR_OK) { if ((strncmp(fno.fname, ".", 2) == 0) || (strncmp(fno.fname, "..", 3) == 0)) continue; // filter out virtual entries strncpy(fname, fno.fname, 256 - (fname - orig)); if (fno.fname[0] == 0) { ret = true; break; } else { // recursively process directory char* oname = strrchr(orig, '/'); char* dname = dest + strnlen(dest, 255); if (oname == NULL) return false; // not a proper origin path *(dname++) = '/'; strncpy(dname, oname++, 256 - (dname - dest)); bool res = PathMoveCopyRec(dest, orig, flags, move, buffer, bufsiz); *(--dname) = '\0'; if (!res) break; } } fvx_closedir(&pdir); *(--fname) = '\0'; } else if (move) { // moving if destination exists if (fvx_stat(dest, &fno) != FR_OK) return false; if (fno.fattrib & AM_DIR) { if (!silent) ShowPrompt(false, "%s\nError: Overwriting dir with file", deststr); return false; } if (fvx_unlink(dest) != FR_OK) return false; ret = (fvx_rename(orig, dest) == FR_OK); } else { // copying files FIL ofile; FIL dfile; u64 fsize; if (fvx_open(&ofile, orig, FA_READ | FA_OPEN_EXISTING) != FR_OK) { if (!FileUnlock(orig) || (fvx_open(&ofile, orig, FA_READ | FA_OPEN_EXISTING) != FR_OK)) return false; ShowProgress(0, 0, orig); // reinit progress bar } if (fvx_open(&dfile, dest, FA_WRITE | FA_CREATE_ALWAYS) != FR_OK) { if (!silent) ShowPrompt(false, "%s\nError: Cannot open destination file", deststr); fvx_close(&ofile); return false; } ret = true; // destination file exists by now, so we need to handle deletion fsize = fvx_size(&ofile); // check space via cluster preallocation if ((fvx_lseek(&dfile, fsize) != FR_OK) || (fvx_sync(&dfile) != FR_OK)) { if (!silent) ShowPrompt(false, "%s\nError: Not enough space available", deststr); ret = false; } fvx_lseek(&dfile, 0); fvx_sync(&dfile); fvx_lseek(&ofile, 0); fvx_sync(&ofile); if (flags && (*flags & CALC_SHA)) sha_init(SHA256_MODE); for (u64 pos = 0; (pos < fsize) && ret; pos += bufsiz) { UINT bytes_read = 0; UINT bytes_written = 0; if ((fvx_read(&ofile, buffer, bufsiz, &bytes_read) != FR_OK) || (fvx_write(&dfile, buffer, bytes_read, &bytes_written) != FR_OK) || (bytes_read != bytes_written)) ret = false; if (ret && !ShowProgress(pos + bytes_read, fsize, orig)) { if (flags && (*flags & NO_CANCEL)) { ShowPrompt(false, "%s\nCancel is not allowed here", deststr); } else ret = !ShowPrompt(true, "%s\nB button detected. Cancel?", deststr); ShowProgress(0, 0, orig); ShowProgress(pos + bytes_read, fsize, orig); } if (flags && (*flags & CALC_SHA)) sha_update(buffer, bytes_read); } ShowProgress(1, 1, orig); fvx_close(&ofile); fvx_close(&dfile); if (!ret) fvx_unlink(dest); else if (!to_virtual && flags && (*flags & CALC_SHA)) { u8 sha256[0x20]; char* ext_sha = dest + strnlen(dest, 256); strncpy(ext_sha, ".sha", 256 - (ext_sha - dest)); sha_get(sha256); FileSetData(dest, sha256, 0x20, 0, true); } } return ret; } bool PathMoveCopy(const char* dest, const char* orig, u32* flags, bool move) { // check permissions if (!flags || !(*flags & OVERRIDE_PERM)) { if (!CheckWritePermissions(dest)) return false; if (move && !CheckDirWritePermissions(orig)) return false; } // reset local flags if (flags) *flags = *flags & ~(SKIP_CUR|OVERWRITE_CUR); // preparations int ddrvtype = DriveType(dest); int odrvtype = DriveType(orig); char ldest[256]; // 256 is the maximum length of a full path char lorig[256]; strncpy(ldest, dest, 255); strncpy(lorig, orig, 255); char deststr[36 + 1]; TruncateString(deststr, ldest, 36, 8); // moving only for regular FAT drives (= not alias drives) if (move && !(ddrvtype & odrvtype & DRV_STDFAT)) { ShowPrompt(false, "Error: Only FAT files can be moved"); return false; } // is destination part of origin? u32 olen = strnlen(lorig, 255); if ((strncasecmp(ldest, lorig, olen) == 0) && (ldest[olen] == '/')) { ShowPrompt(false, "%s\nError: Destination is part of origin", deststr); return false; } if (!(ddrvtype & DRV_VIRTUAL)) { // FAT destination handling // get destination name char* dname = strrchr(ldest, '/'); if (!dname) return false; dname++; // check & fix destination == origin while (strncasecmp(ldest, lorig, 255) == 0) { if (!ShowStringPrompt(dname, 255 - (dname - ldest), "%s\nDestination equals origin\nChoose another name?", deststr)) return false; } // check if destination exists if (flags && !(*flags & (OVERWRITE_CUR|OVERWRITE_ALL)) && (fa_stat(ldest, NULL) == FR_OK)) { if (*flags & SKIP_ALL) { *flags |= SKIP_CUR; return true; } const char* optionstr[5] = {"Choose new name", "Overwrite file(s)", "Skip file(s)", "Overwrite all", "Skip all"}; u32 user_select = ShowSelectPrompt((*flags & ASK_ALL) ? 5 : 3, optionstr, "Destination already exists:\n%s", deststr); if (user_select == 1) { do { if (!ShowStringPrompt(dname, 255 - (dname - ldest), "Choose new destination name")) return false; } while (fa_stat(ldest, NULL) == FR_OK); } else if (user_select == 2) { *flags |= OVERWRITE_CUR; } else if (user_select == 3) { *flags |= SKIP_CUR; return true; } else if (user_select == 4) { *flags |= OVERWRITE_ALL; } else if (user_select == 5) { *flags |= (SKIP_CUR|SKIP_ALL); return true; } else { return false; } } // ensure the destination path exists if (flags && (*flags & BUILD_PATH)) fvx_rmkpath(ldest); // setup buffer u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) { ShowPrompt(false, "Out of memory."); return false; } // actual move / copy operation bool same_drv = (strncasecmp(lorig, ldest, 2) == 0); bool res = PathMoveCopyRec(ldest, lorig, flags, move && same_drv, buffer, STD_BUFFER_SIZE); if (move && res && (!flags || !(*flags&SKIP_CUR))) PathDelete(lorig); free(buffer); return res; } else { // virtual destination handling // can't write an SHA file to a virtual destination if (flags) *flags |= ~CALC_SHA; bool force_unmount = false; // handle NAND image unmounts if (ddrvtype & (DRV_SYSNAND|DRV_EMUNAND|DRV_IMAGE)) { FILINFO fno; // virtual NAND files over 4 MB require unmount, totally arbitrary limit (hacky!) if ((fvx_stat(ldest, &fno) == FR_OK) && (fno.fsize > 4 * 1024 * 1024)) force_unmount = true; } // prevent illegal operations if (force_unmount && (odrvtype & ddrvtype & (DRV_SYSNAND|DRV_EMUNAND|DRV_IMAGE))) { ShowPrompt(false, "Copy operation is not allowed"); return false; } // check destination == origin if (strncasecmp(ldest, lorig, 255) == 0) { ShowPrompt(false, "%s\nDestination equals origin", deststr); return false; } // setup buffer u8* buffer = (u8*) malloc(STD_BUFFER_SIZE); if (!buffer) { ShowPrompt(false, "Out of memory."); return false; } // actual virtual copy operation if (force_unmount) DismountDriveType(DriveType(ldest)&(DRV_SYSNAND|DRV_EMUNAND|DRV_IMAGE)); bool res = PathMoveCopyRec(ldest, lorig, flags, false, buffer, STD_BUFFER_SIZE); if (force_unmount) InitExtFS(); free(buffer); return res; } } bool PathCopy(const char* destdir, const char* orig, u32* flags) { // build full destination path (on top of destination directory) char dest[256]; // maximum path name length in FAT char* oname = strrchr(orig, '/'); if (oname == NULL) return false; // not a proper origin path snprintf(dest, 255, "%s/%s", destdir, (++oname)); // virtual destination special handling if (GetVirtualSource(destdir)) { u64 osize = FileGetSize(orig); VirtualFile dvfile; if (!osize) return false; if (!GetVirtualFile(&dvfile, dest)) { VirtualDir vdir; if (!GetVirtualDir(&vdir, destdir)) return false; while (true) { // search by size should be a last resort solution if (!ReadVirtualDir(&dvfile, &vdir)) return false; if (dvfile.size == osize) break; // file found } if (!ShowPrompt(true, "Entry not found: %s\nInject into %s instead?", dest, dvfile.name)) return false; snprintf(dest, 255, "%s/%s", destdir, dvfile.name); } else if (osize < dvfile.size) { // if origin is smaller than destination... char deststr[36 + 1]; char origstr[36 + 1]; char osizestr[32]; char dsizestr[32]; TruncateString(deststr, dest, 36, 8); TruncateString(origstr, orig, 36, 8); FormatBytes(osizestr, osize); FormatBytes(dsizestr, dvfile.size); if (dvfile.size > osize) { if (!ShowPrompt(true, "File smaller than available space:\n%s (%s)\n%s (%s)\nContinue?", origstr, osizestr, deststr, dsizestr)) return false; } } } return PathMoveCopy(dest, orig, flags, false); } bool PathMove(const char* destdir, const char* orig, u32* flags) { // build full destination path (on top of destination directory) char dest[256]; // maximum path name length in FAT char* oname = strrchr(orig, '/'); if (oname == NULL) return false; // not a proper origin path snprintf(dest, 255, "%s/%s", destdir, (++oname)); return PathMoveCopy(dest, orig, flags, true); } bool PathDelete(const char* path) { if (!CheckDirWritePermissions(path)) return false; return (fvx_runlink(path) == FR_OK); } bool PathRename(const char* path, const char* newname) { char npath[256]; // 256 is the maximum length of a full path char* oldname = strrchr(path, '/'); if (!CheckDirWritePermissions(path)) return false; if (!oldname) return false; oldname++; strncpy(npath, path, oldname - path); strncpy(npath + (oldname - path), newname, 255 - (oldname - path)); return (f_rename(path, npath) == FR_OK); } bool PathAttr(const char* path, u8 attr, u8 mask) { if (!CheckDirWritePermissions(path)) return false; return (f_chmod(path, attr, mask) == FR_OK); } bool FileSelectorWorker(char* result, const char* text, const char* path, const char* pattern, u32 flags, void* buffer) { DirStruct* contents = (DirStruct*) buffer; char path_local[256]; strncpy(path_local, path, 256); bool no_dirs = flags & NO_DIRS; bool no_files = flags & NO_FILES; bool hide_ext = flags & HIDE_EXT; bool select_dirs = flags & SELECT_DIRS; // main loop while (true) { u32 n_found = 0; u32 pos = 0; GetDirContents(contents, path_local); while (pos < contents->n_entries) { char opt_names[_MAX_FS_OPT+1][32+1]; DirEntry* res_entry[_MAX_FS_OPT+1] = { NULL }; u32 n_opt = 0; for (; pos < contents->n_entries; pos++) { DirEntry* entry = &(contents->entry[pos]); if (((entry->type == T_DIR) && no_dirs) || ((entry->type == T_FILE) && (no_files || (fvx_match_name(entry->name, pattern) != FR_OK))) || (entry->type == T_DOTDOT) || (strncmp(entry->name, "._", 2) == 0)) continue; if (n_opt == _MAX_FS_OPT) { snprintf(opt_names[n_opt++], 32, "[more...]"); break; } char temp_str[256]; snprintf(temp_str, 256, entry->name); if (hide_ext && (entry->type == T_FILE)) { char* dot = strrchr(temp_str, '.'); if (dot) *dot = '\0'; } TruncateString(opt_names[n_opt], temp_str, 32, 8); res_entry[n_opt++] = entry; n_found++; } if ((pos >= contents->n_entries) && (n_opt < n_found)) snprintf(opt_names[n_opt++], 32, "[more...]"); if (!n_opt) break; const char* optionstr[_MAX_FS_OPT+1] = { NULL }; for (u32 i = 0; i <= _MAX_FS_OPT; i++) optionstr[i] = opt_names[i]; u32 user_select = ShowSelectPrompt(n_opt, optionstr, text); if (!user_select) return false; DirEntry* res_local = res_entry[user_select-1]; if (res_local && (res_local->type == T_DIR)) { // selected dir if (select_dirs) { strncpy(result, res_local->path, 256); return true; } else if (FileSelectorWorker(result, text, res_local->path, pattern, flags, buffer)) { return true; } break; } else if (res_local && (res_local->type == T_FILE)) { // selected file strncpy(result, res_local->path, 256); return true; } } if (!n_found) { // not a single matching entry found char pathstr[32+1]; TruncateString(pathstr, path_local, 32, 8); ShowPrompt(false, "%s\nNo usable entries found.", pathstr); return false; } } } bool FileSelector(char* result, const char* text, const char* path, const char* pattern, u32 flags) { void* buffer = (void*) malloc(sizeof(DirStruct)); if (!buffer) return false; bool ret = FileSelectorWorker(result, text, path, pattern, flags, buffer); free(buffer); return ret; } void CreateScreenshot() { const u32 snap_size = 54 + (400 * 240 * 3 * 2); const u8 bmp_header[54] = { 0x42, 0x4D, 0x36, 0xCA, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x36, 0x00, 0x00, 0x00, 0x28, 0x00, 0x00, 0x00, 0x90, 0x01, 0x00, 0x00, 0xE0, 0x01, 0x00, 0x00, 0x01, 0x00, 0x18, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xCA, 0x08, 0x00, 0x12, 0x0B, 0x00, 0x00, 0x12, 0x0B, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; char filename[64]; static u32 n = 0; fvx_rmkdir(OUTPUT_PATH); for (; n < 1000; n++) { snprintf(filename, 64, OUTPUT_PATH "/snap%03i.bmp", (int) n); if (fa_stat(filename, NULL) != FR_OK) break; } if (n >= 1000) return; u8* buffer = (u8*) malloc(snap_size); if (!buffer) return; u8* buffer_b = buffer + 54; u8* buffer_t = buffer_b + (400 * 240 * 3); memset(buffer, 0x1F, snap_size); // gray background memcpy(buffer, bmp_header, 54); for (u32 x = 0; x < 400; x++) for (u32 y = 0; y < 240; y++) memcpy(buffer_t + (y*400 + x) * 3, TOP_SCREEN + (x*240 + y) * 3, 3); for (u32 x = 0; x < 320; x++) for (u32 y = 0; y < 240; y++) memcpy(buffer_b + (y*400 + x + 40) * 3, BOT_SCREEN + (x*240 + y) * 3, 3); FileSetData(filename, buffer, snap_size, 0, true); free(buffer); }