/* Copyright 1986-1992 Emmet P. Gray. * Copyright 1996-2002,2006-2009 Alain Knaff. * This file is part of mtools. * * Mtools 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. * * Mtools 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 Mtools. If not, see . * * Initialize an MSDOS diskette. Read the boot sector, and switch to the * proper floppy disk device to match the format on the disk. Sets a bunch * of global variables. Returns 0 on success, or 1 on failure. */ #include "sysincludes.h" #include "msdos.h" #include "stream.h" #include "mtools.h" #include "fsP.h" #include "plain_io.h" #include "floppyd_io.h" #include "xdf_io.h" #include "buffer.h" #include "file_name.h" #define FULL_CYL /* * Read the boot sector. We glean the disk parameters from this sector. */ static int read_boot(Stream_t *Stream, union bootsector * boot, int size) { size_t boot_sector_size; /* sector size, as stored in boot sector */ /* read the first sector, or part of it */ if(!size) size = BOOTSIZE; if(size > MAX_BOOT) size = MAX_BOOT; if (force_read(Stream, boot->characters, 0, size) != size) return -1; boot_sector_size = WORD(secsiz); if(boot_sector_size < sizeof(boot->bytes)) { /* zero rest of in-memory boot sector */ memset(boot->bytes+boot_sector_size, 0, sizeof(boot->bytes) - boot_sector_size); } return 0; } static int fs_flush(Stream_t *Stream) { DeclareThis(Fs_t); fat_write(This); return 0; } static doscp_t *get_dosConvert(Stream_t *Stream) { DeclareThis(Fs_t); return This->cp; } Class_t FsClass = { read_pass_through, /* read */ write_pass_through, /* write */ fs_flush, fs_free, /* free */ 0, /* set geometry */ get_data_pass_through, 0, /* pre allocate */ get_dosConvert, /* dosconvert */ 0 /* discard */ }; /** * Get media type byte from boot sector (BIOS Parameter Block 2) or * from FAT (if media byte from BPB 2 looks fishy) * Return the media byte + 0x100 if found in BPB 2, or as is if found in FAT. */ static int get_media_type(Stream_t *St, union bootsector *boot) { int media; media = boot->boot.descr; if(media < 0xf0){ char temp[512]; /* old DOS disk. Media descriptor in the first FAT byte */ /* we assume 512-byte sectors here */ if (force_read(St,temp,(mt_off_t) 512,512) == 512) media = (unsigned char) temp[0]; else media = 0; } else media += 0x100; return media; } Stream_t *GetFs(Stream_t *Fs) { while(Fs && Fs->Class != &FsClass) Fs = Fs->Next; return Fs; } /** * Tries out all device definitions for the given drive number, until one * is found that is able to read from the device * Parameters * - drive: drive letter to check * - mode: file open mode * - out_dev: device parameters (geometry, etc.) are returned here * - boot: boot sector is read from the disk into this structure * - name: "name" of device definition (returned) * - media: media byte is returned here (ored with 0x100 if there is a * BIOS Parameter block present) * - maxSize: maximal size supported by (physical) drive returned here * - isRop: whether device is read-only is returned here * Return value: * - a Stream allowing to read from this device, must be closed by caller */ Stream_t *find_device(char drive, int mode, struct device *out_dev, union bootsector *boot, char *name, int *media, mt_size_t *maxSize, int *isRop) { char errmsg[200]; Stream_t *Stream; struct device *dev; int r; int isRo=0; Stream = NULL; sprintf(errmsg, "Drive '%c:' not supported", drive); /* open the device */ for (dev=devices; dev->name; dev++) { FREE(&Stream); if (dev->drive != drive) continue; *out_dev = *dev; expand(dev->name,name); #ifdef USING_NEW_VOLD strcpy(name, getVoldName(dev, name)); #endif Stream = 0; if(out_dev->misc_flags & FLOPPYD_FLAG) { Stream = 0; #ifdef USE_FLOPPYD Stream = FloppydOpen(out_dev, name, mode, errmsg, maxSize); #endif } else { #ifdef USE_XDF Stream = XdfOpen(out_dev, name, mode, errmsg, 0); if(Stream) { out_dev->use_2m = 0x7f; if(maxSize) *maxSize = max_off_t_31; } #endif if (!Stream) Stream = SimpleFileOpen(out_dev, dev, name, isRop ? mode | O_RDWR: mode, errmsg, 0, 1, maxSize); if(Stream) { isRo=0; } else if(isRop && (errno == EPERM || errno == EACCES || errno == EROFS)) { Stream = SimpleFileOpen(out_dev, dev, name, mode | O_RDONLY, errmsg, 0, 1, maxSize); if(Stream) { isRo=1; } } } if( !Stream) continue; /* read the boot sector */ if ((r=read_boot(Stream, boot, out_dev->blocksize)) < 0){ sprintf(errmsg, "init %c: could not read boot sector", drive); continue; } if((*media= get_media_type(Stream, boot)) <= 0xf0 ){ if (boot->boot.jump[2]=='L') sprintf(errmsg, "diskette %c: is Linux LILO, not DOS", drive); else sprintf(errmsg,"init %c: non DOS media", drive); continue; } /* set new parameters, if needed */ errno = 0; if(SET_GEOM(Stream, out_dev, dev, *media, boot)){ if(errno) #ifdef HAVE_SNPRINTF snprintf(errmsg, 199, "Can't set disk parameters for %c: %s", drive, strerror(errno)); #else sprintf(errmsg, "Can't set disk parameters for %c: %s", drive, strerror(errno)); #endif else sprintf(errmsg, "Can't set disk parameters for %c", drive); continue; } break; } /* print error msg if needed */ if ( dev->drive == 0 ){ FREE(&Stream); fprintf(stderr,"%s\n",errmsg); return NULL; } if(isRop) *isRop = isRo; return Stream; } Stream_t *fs_init(char drive, int mode, int *isRop) { int blocksize; int media; int disk_size = 0; /* In case we don't happen to set this below */ size_t tot_sectors; char name[EXPAND_BUF]; int cylinder_size; struct device dev; mt_size_t maxSize; union bootsector boot; Fs_t *This; This = New(Fs_t); if (!This) return NULL; This->Direct = NULL; This->Next = NULL; This->refs = 1; This->Buffer = 0; This->Class = &FsClass; This->preallocatedClusters = 0; This->lastFatSectorNr = 0; This->lastFatAccessMode = 0; This->lastFatSectorData = 0; This->drive = drive; This->last = 0; This->Direct = find_device(drive, mode, &dev, &boot, name, &media, &maxSize, isRop); if(!This->Direct) return NULL; cylinder_size = dev.heads * dev.sectors; This->serialized = 0; if ((media & ~7) == 0xf8){ /* This bit of code is only entered if there is no BPB, or * else result of the AND would be 0x1xx */ struct OldDos_t *params=getOldDosByMedia(media); if(params == NULL) return NULL; This->cluster_size = params->cluster_size; tot_sectors = cylinder_size * params->tracks; This->fat_start = 1; This->fat_len = params->fat_len; This->dir_len = params->dir_len; This->num_fat = 2; This->sector_size = 512; This->sectorShift = 9; This->sectorMask = 511; This->fat_bits = 12; } else { struct label_blk_t *labelBlock; int i; This->sector_size = WORD_S(secsiz); if(This->sector_size > MAX_SECTOR){ fprintf(stderr,"init %c: sector size too big\n", drive); return NULL; } i = log_2(This->sector_size); if(i == 24) { fprintf(stderr, "init %c: sector size (%d) not a small power of two\n", drive, This->sector_size); return NULL; } This->sectorShift = i; This->sectorMask = This->sector_size - 1; /* * all numbers are in sectors, except num_clus * (which is in clusters) */ tot_sectors = WORD_S(psect); if(!tot_sectors) tot_sectors = DWORD_S(bigsect); This->cluster_size = boot.boot.clsiz; This->fat_start = WORD_S(nrsvsect); This->fat_len = WORD_S(fatlen); This->dir_len = WORD_S(dirents) * MDIR_SIZE / This->sector_size; This->num_fat = boot.boot.nfat; if (This->fat_len) { labelBlock = &boot.boot.ext.old.labelBlock; } else { labelBlock = &boot.boot.ext.fat32.labelBlock; } if(has_BPB4) { This->serialized = 1; This->serial_number = _DWORD(labelBlock->serial); } } if (tot_sectors >= (maxSize >> This->sectorShift)) { fprintf(stderr, "Big disks not supported on this architecture\n"); exit(1); } /* full cylinder buffering */ #ifdef FULL_CYL disk_size = (dev.tracks) ? cylinder_size : 512; #else /* FULL_CYL */ disk_size = (dev.tracks) ? dev.sectors : 512; #endif /* FULL_CYL */ #if (defined OS_sysv4 && !defined OS_solaris) /* * The driver in Dell's SVR4 v2.01 is unreliable with large writes. */ disk_size = 0; #endif /* (defined sysv4 && !defined(solaris)) */ #ifdef OS_linux disk_size = cylinder_size; #endif #if 1 if(disk_size > 256) { disk_size = dev.sectors; if(dev.sectors % 2) disk_size <<= 1; } #endif if (disk_size % 2) disk_size *= 2; if(!dev.blocksize || dev.blocksize < This->sector_size) blocksize = This->sector_size; else blocksize = dev.blocksize; if (disk_size) This->Next = buf_init(This->Direct, 8 * disk_size * blocksize, disk_size * blocksize, This->sector_size); else This->Next = This->Direct; if (This->Next == NULL) { perror("init: allocate buffer"); This->Next = This->Direct; } /* read the FAT sectors */ if(fat_read(This, &boot, tot_sectors, dev.use_2m&0x7f)){ This->num_fat = 1; FREE(&This->Next); Free(This->Next); return NULL; } /* Set the codepage */ This->cp = cp_open(dev.codepage); if(This->cp == NULL) { fs_free((Stream_t *)This); FREE(&This->Next); Free(This->Next); return NULL; } return (Stream_t *) This; } char getDrive(Stream_t *Stream) { DeclareThis(Fs_t); if(This->Class != &FsClass) return getDrive(GetFs(Stream)); else return This->drive; } int fsPreallocateClusters(Fs_t *Fs, long size) { if(size > 0 && getfreeMinClusters((Stream_t *)Fs, size) != 1) return -1; Fs->preallocatedClusters += size; return 0; }