/**************************************************************************** * FCE Ultra 0.98.12 * Nintendo Wii/Gamecube Port * * Tantric September 2008 * * fileop.c * * File operations ****************************************************************************/ #include #include #include #include #include #include #include "common.h" #include "fceuconfig.h" #include "fileop.h" #include "gcunzip.h" #include "menudraw.h" #include "filesel.h" // FAT file pointer - the only one we should ever use! FILE * fatfile; /**************************************************************************** * MountFAT * Attempts to mount the FAT device specified * Sets libfat to use the device by default * Enables read-ahead cache for SD/USB ***************************************************************************/ bool MountFAT(PARTITION_INTERFACE part) { bool mounted = fatMountNormalInterface(part, 8); if(mounted) { fatSetDefaultInterface(part); #ifdef HW_RVL if(part == PI_INTERNAL_SD || part == PI_USBSTORAGE) fatEnableReadAhead (part, 6, 64); #endif } return mounted; } /**************************************************************************** * UnmountFAT * Unmounts the FAT device specified ***************************************************************************/ void UnmountFAT(PARTITION_INTERFACE part) { if(!fatUnmount(part)) fatUnsafeUnmount(part); } /**************************************************************************** * UnmountAllFAT * Unmounts all FAT devices ***************************************************************************/ void UnmountAllFAT() { #ifdef HW_RVL UnmountFAT(PI_INTERNAL_SD); UnmountFAT(PI_USBSTORAGE); #endif UnmountFAT(PI_SDGECKO_A); UnmountFAT(PI_SDGECKO_B); } /**************************************************************************** * ChangeFATInterface * Unmounts all devices and attempts to mount/configure the device specified ***************************************************************************/ bool ChangeFATInterface(int method, bool silent) { bool mounted = false; // unmount all FAT devices UnmountAllFAT(); if(method == METHOD_SD) { #ifdef HW_RVL mounted = MountFAT(PI_INTERNAL_SD); // try Wii internal SD #endif if(!mounted) // internal SD not found mounted = MountFAT(PI_SDGECKO_A); // try SD Gecko on slot A if(!mounted) // internal SD and SD Gecko (on slot A) not found mounted = MountFAT(PI_SDGECKO_B); // try SD Gecko on slot B if(!mounted && !silent) // no SD device found WaitPrompt ((char *)"SD card not found!"); } else if(method == METHOD_USB) { #ifdef HW_RVL mounted = MountFAT(PI_USBSTORAGE); if(!mounted && !silent) WaitPrompt ((char *)"USB drive not found!"); #endif } return mounted; } /*************************************************************************** * Browse FAT subdirectories ***************************************************************************/ int ParseFATdirectory(int method) { int nbfiles = 0; DIR_ITER *fatdir; char filename[MAXPATHLEN]; struct stat filestat; char msg[128]; // initialize selection selection = offset = 0; // Clear any existing values memset (&filelist, 0, sizeof (FILEENTRIES) * MAXFILES); // open the directory fatdir = diropen(currentdir); if (fatdir == NULL) { sprintf(msg, "Couldn't open %s", currentdir); WaitPrompt(msg); // if we can't open the dir, open root dir sprintf(currentdir,"%s",ROOTFATDIR); fatdir = diropen(currentdir); if (fatdir == NULL) { sprintf(msg, "Error opening %s", currentdir); WaitPrompt(msg); return 0; } } // index files/folders while(dirnext(fatdir,filename,&filestat) == 0) { if(strcmp(filename,".") != 0) { memset(&filelist[nbfiles], 0, sizeof(FILEENTRIES)); strncpy(filelist[nbfiles].filename, filename, MAXPATHLEN); strncpy(filelist[nbfiles].displayname, filename, MAXDISPLAY+1); // crop name for display filelist[nbfiles].length = filestat.st_size; filelist[nbfiles].flags = (filestat.st_mode & _IFDIR) == 0 ? 0 : 1; // flag this as a dir filelist[nbfiles].offset = 0; nbfiles++; } } // close directory dirclose(fatdir); // Sort the file list qsort(filelist, nbfiles, sizeof(FILEENTRIES), FileSortCallback); return nbfiles; } /**************************************************************************** * LoadFATFile * length > 0 - partial file read (starting from start) * length = 0 - full read ***************************************************************************/ int LoadFATFile (char * rbuffer, int length) { char zipbuffer[2048]; char filepath[MAXPATHLEN]; u32 size; if (!MakeROMPath(filepath, METHOD_SD)) { WaitPrompt((char*) "Maximum filepath length reached!"); return -1; } fatfile = fopen (filepath, "rb"); if (fatfile > 0) { if(length > 0) // do a partial read (eg: to check file header) { fread (rbuffer, 1, length, fatfile); size = length; } else // load whole file { fread (zipbuffer, 1, 2048, fatfile); if (IsZipFile (zipbuffer)) { size = UnZipBuffer ((unsigned char *)rbuffer, METHOD_SD); // unzip from FAT } else { // Just load the file up fseek(fatfile, 0, SEEK_END); size = ftell(fatfile); // get filesize fseek(fatfile, 2048, SEEK_SET); // seek back to point where we left off memcpy (rbuffer, zipbuffer, 2048); // copy what we already read fread (rbuffer + 2048, 1, size - 2048, fatfile); } } fclose (fatfile); return size; } else { WaitPrompt((char*) "Error opening file"); return 0; } } /**************************************************************************** * LoadFATSzFile * Loads the selected file # from the specified 7z into rbuffer * Returns file size ***************************************************************************/ int LoadFATSzFile(char * filepath, unsigned char * rbuffer) { u32 size; fatfile = fopen (filepath, "rb"); if (fatfile > 0) { size = SzExtractFile(filelist[selection].offset, rbuffer); fclose (fatfile); return size; } else { WaitPrompt((char*) "Error opening file"); return 0; } } /**************************************************************************** * Load savebuffer from FAT file ***************************************************************************/ // no buffer is specified - so use savebuffer int LoadSaveBufferFromFAT (char *filepath, bool silent) { return LoadBufferFromFAT((char *)savebuffer, filepath, silent); } int LoadBufferFromFAT (char * sbuffer, char *filepath, bool silent) { int size = 0; fatfile = fopen (filepath, "rb"); if (fatfile <= 0) { if ( !silent ) { char msg[100]; sprintf(msg, "Couldn't open %s", filepath); WaitPrompt (msg); } return 0; } // Just load the file up fseek(fatfile, 0, SEEK_END); // go to end of file size = ftell(fatfile); // get filesize fseek(fatfile, 0, SEEK_SET); // go to start of file fread (sbuffer, 1, size, fatfile); fclose (fatfile); return size; } /**************************************************************************** * Write savebuffer to FAT card file ****************************************************************************/ int SaveBufferToFAT (char *filepath, int datasize, bool silent) { if (datasize) { fatfile = fopen (filepath, "wb"); if (fatfile <= 0) { char msg[100]; sprintf(msg, "Couldn't save %s", filepath); WaitPrompt (msg); return 0; } fwrite (savebuffer, 1, datasize, fatfile); fclose (fatfile); } return datasize; }