/* * (C) Copyright 2002 * Stäubli Faverges - * Pierre AUBERT p.aubert@staubli.com * * See file CREDITS for list of people who contributed to this * project. * * This program 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 2 of * the License, or (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include #include #include #if (CONFIG_COMMANDS & CFG_CMD_FDOS) #include "dos.h" #include "fdos.h" static int cache_sect; static unsigned char cache [SZ_STD_SECTOR]; #define min(x,y) ((x)<(y)?(x):(y)) static int descend (Slot_t *parent, Fs_t *fs, char *path); /*----------------------------------------------------------------------------- * init_subdir -- *----------------------------------------------------------------------------- */ void init_subdir (void) { cache_sect = -1; } /*----------------------------------------------------------------------------- * basename -- *----------------------------------------------------------------------------- */ char *basename (char *name) { register char *cptr; if (!name || !*name) { return (""); } for (cptr= name; *cptr++; ); while (--cptr >= name) { if (*cptr == '/') { return (cptr + 1); } } return(name); } /*----------------------------------------------------------------------------- * root_map -- *----------------------------------------------------------------------------- */ static int root_map (Fs_t *fs, Slot_t *file, int where, int *len) { *len = min (*len, fs -> dir_len * SZ_STD_SECTOR - where); if (*len < 0 ) { *len = 0; return (-1); } return fs -> dir_start * SZ_STD_SECTOR + where; } /*----------------------------------------------------------------------------- * normal_map -- *----------------------------------------------------------------------------- */ static int normal_map (Fs_t *fs, Slot_t *file, int where, int *len) { int offset; int NrClu; unsigned short RelCluNr; unsigned short CurCluNr; unsigned short NewCluNr; unsigned short AbsCluNr; int clus_size; clus_size = fs -> cluster_size * SZ_STD_SECTOR; offset = where % clus_size; *len = min (*len, file -> FileSize - where); if (*len < 0 ) { *len = 0; return (0); } if (file -> FirstAbsCluNr < 2){ *len = 0; return (0); } RelCluNr = where / clus_size; if (RelCluNr >= file -> PreviousRelCluNr){ CurCluNr = file -> PreviousRelCluNr; AbsCluNr = file -> PreviousAbsCluNr; } else { CurCluNr = 0; AbsCluNr = file -> FirstAbsCluNr; } NrClu = (offset + *len - 1) / clus_size; while (CurCluNr <= RelCluNr + NrClu) { if (CurCluNr == RelCluNr){ /* we have reached the beginning of our zone. Save * coordinates */ file -> PreviousRelCluNr = RelCluNr; file -> PreviousAbsCluNr = AbsCluNr; } NewCluNr = fat_decode (fs, AbsCluNr); if (NewCluNr == 1 || NewCluNr == 0) { PRINTF("Fat problem while decoding %d %x\n", AbsCluNr, NewCluNr); return (-1); } if (CurCluNr == RelCluNr + NrClu) { break; } if (CurCluNr < RelCluNr && NewCluNr == FAT12_END) { *len = 0; return 0; } if (CurCluNr >= RelCluNr && NewCluNr != AbsCluNr + 1) break; CurCluNr++; AbsCluNr = NewCluNr; } *len = min (*len, (1 + CurCluNr - RelCluNr) * clus_size - offset); return (((file -> PreviousAbsCluNr - 2) * fs -> cluster_size + fs -> dir_start + fs -> dir_len) * SZ_STD_SECTOR + offset); } /*----------------------------------------------------------------------------- * open_subdir -- open the subdir containing the file *----------------------------------------------------------------------------- */ int open_subdir (File_t *desc) { char *pathname; char *tmp, *s, *path; char terminator; if ((pathname = (char *)malloc (MAX_PATH)) == NULL) { return (-1); } strcpy (pathname, desc -> name); /* Suppress file name */ tmp = basename (pathname); *tmp = '\0'; /* root directory init */ desc -> subdir.FirstAbsCluNr = 0; desc -> subdir.FileSize = -1; desc -> subdir.map = root_map; desc -> subdir.dir.attr = ATTR_DIRECTORY; tmp = pathname; for (s = tmp; ; ++s) { if (*s == '/' || *s == '\0') { path = tmp; terminator = *s; *s = '\0'; if (s != tmp && strcmp (path,".")) { if (descend (&desc -> subdir, desc -> fs, path) < 0) { free (pathname); return (-1); } } if (terminator == 0) { break; } tmp = s + 1; } } free (pathname); return (0); } /*----------------------------------------------------------------------------- * descend -- *----------------------------------------------------------------------------- */ static int descend (Slot_t *parent, Fs_t *fs, char *path) { int entry; Slot_t SubDir; if(path[0] == '\0' || strcmp (path, ".") == 0) { return (0); } entry = 0; if (vfat_lookup (parent, fs, &(SubDir.dir), &entry, 0, path, ACCEPT_DIR | SINGLE | DO_OPEN, 0, &SubDir) == 0) { *parent = SubDir; return (0); } if (strcmp(path, "..") == 0) { parent -> FileSize = -1; parent -> FirstAbsCluNr = 0; parent -> map = root_map; return (0); } return (-1); } /*----------------------------------------------------------------------------- * open_file -- *----------------------------------------------------------------------------- */ int open_file (Slot_t *file, Directory_t *dir) { int first; unsigned long size; first = __le16_to_cpu (dir -> start); if(first == 0 && (dir -> attr & ATTR_DIRECTORY) != 0) { file -> FirstAbsCluNr = 0; file -> FileSize = -1; file -> map = root_map; return (0); } if ((dir -> attr & ATTR_DIRECTORY) != 0) { size = (1UL << 31) - 1; } else { size = __le32_to_cpu (dir -> size); } file -> map = normal_map; file -> FirstAbsCluNr = first; file -> PreviousRelCluNr = 0xffff; file -> FileSize = size; return (0); } /*----------------------------------------------------------------------------- * read_file -- *----------------------------------------------------------------------------- */ int read_file (Fs_t *fs, Slot_t *file, char *buf, int where, int len) { int pos; int read, nb, sect, offset; pos = file -> map (fs, file, where, &len); if (pos < 0) { return -1; } if (len == 0) { return (0); } /* Compute sector number */ sect = pos / SZ_STD_SECTOR; offset = pos % SZ_STD_SECTOR; read = 0; if (offset) { /* Read doesn't start at the sector beginning. We need to use our */ /* cache */ if (sect != cache_sect) { if (dev_read (cache, sect, 1) < 0) { return (-1); } cache_sect = sect; } nb = min (len, SZ_STD_SECTOR - offset); memcpy (buf, cache + offset, nb); read += nb; len -= nb; sect += 1; } if (len > SZ_STD_SECTOR) { nb = (len - 1) / SZ_STD_SECTOR; if (dev_read (buf + read, sect, nb) < 0) { return ((read) ? read : -1); } /* update sector position */ sect += nb; /* Update byte position */ nb *= SZ_STD_SECTOR; read += nb; len -= nb; } if (len) { if (sect != cache_sect) { if (dev_read (cache, sect, 1) < 0) { return ((read) ? read : -1); cache_sect = -1; } cache_sect = sect; } memcpy (buf + read, cache, len); read += len; } return (read); } #endif