#ifndef MTOOLS_MSDOS_H #define MTOOLS_MSDOS_H /* Copyright 1986-1992 Emmet P. Gray. * Copyright 1996-1998,2000-2003,2006,2007,2009 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 . * * msdos common header file */ #define MAX_SECTOR 8192 /* largest sector size */ #define MDIR_SIZE 32 /* MSDOS directory entry size in bytes*/ #define MAX_CLUSTER 8192 /* largest cluster size */ #ifndef MAX_PATH #define MAX_PATH 128 /* largest MSDOS path length */ #endif #define MAX_DIR_SECS 64 /* largest directory (in sectors) */ #define MSECTOR_SIZE msector_size #define NEW 1 #define OLD 0 #define WORD(x) ((uint16_t)((unsigned char)(x)[0] + (((unsigned char)(x)[1]) << 8))) #define DWORD(x) ((uint32_t)(WORD(x) + (WORD((x)+2) << 16))) #define DELMARK ((char) 0xe5) #define ENDMARK ((char) 0x00) struct directory { char name[8]; /* 0 file name */ char ext[3]; /* 8 file extension */ unsigned char attr; /* 11 attribute byte */ unsigned char Case; /* 12 case of short filename */ unsigned char ctime_ms; /* 13 creation time, milliseconds (?) */ unsigned char ctime[2]; /* 14 creation time */ unsigned char cdate[2]; /* 16 creation date */ unsigned char adate[2]; /* 18 last access date */ unsigned char startHi[2]; /* 20 start cluster, Hi */ unsigned char time[2]; /* 22 time stamp */ unsigned char date[2]; /* 24 date stamp */ unsigned char start[2]; /* 26 starting cluster number */ unsigned char size[4]; /* 28 size of the file */ }; #define EXTCASE 0x10 #define BASECASE 0x8 #define MAX16 0xffff #define MAX32 0xffffffff #define MAX_SIZE 0x7fffffff #define FILE_SIZE(dir) (DWORD((dir)->size)) #define START(dir) (WORD((dir)->start)) #define STARTHI(dir) (WORD((dir)->startHi)) /* ASSUMPTION: long is at least 32 bits */ static inline void set_dword(unsigned char *data, uint32_t value) { data[3] = (value >> 24) & 0xff; data[2] = (value >> 16) & 0xff; data[1] = (value >> 8) & 0xff; data[0] = (value >> 0) & 0xff; } /* ASSUMPTION: short is at least 16 bits */ static inline void set_word(unsigned char *data, unsigned short value) { data[1] = (value >> 8) & 0xff; data[0] = (value >> 0) & 0xff; } /* * hi byte | low byte * |7|6|5|4|3|2|1|0|7|6|5|4|3|2|1|0| * | | | | | | | | | | | | | | | | | * \ 7 bits /\4 bits/\ 5 bits / * year +80 month day */ #define DOS_YEAR(dir) (((dir)->date[1] >> 1) + 1980) #define DOS_MONTH(dir) (((((dir)->date[1]&0x1) << 3) + ((dir)->date[0] >> 5))) #define DOS_DAY(dir) ((dir)->date[0] & 0x1f) /* * hi byte | low byte * |7|6|5|4|3|2|1|0|7|6|5|4|3|2|1|0| * | | | | | | | | | | | | | | | | | * \ 5 bits /\ 6 bits /\ 5 bits / * hour minutes sec*2 */ #define DOS_HOUR(dir) ((dir)->time[1] >> 3) #define DOS_MINUTE(dir) (((((dir)->time[1]&0x7) << 3) + ((dir)->time[0] >> 5))) #define DOS_SEC(dir) (((dir)->time[0] & 0x1f) * 2) typedef struct InfoSector_t { unsigned char signature1[4]; unsigned char filler1[0x1e0]; unsigned char signature2[4]; unsigned char count[4]; unsigned char pos[4]; unsigned char filler2[14]; unsigned char signature3[2]; } InfoSector_t; #define INFOSECT_SIGNATURE1 0x41615252 #define INFOSECT_SIGNATURE2 0x61417272 typedef struct label_blk_t { unsigned char physdrive; /* 36 physical drive ? */ unsigned char reserved; /* 37 reserved */ unsigned char dos4; /* 38 dos > 4.0 diskette */ unsigned char serial[4]; /* 39 serial number */ char label[11]; /* 43 disk label */ char fat_type[8]; /* 54 FAT type */ } label_blk_t; #define has_BPB4 (labelBlock->dos4 == 0x28 || labelBlock->dos4 == 0x29) /* FAT32 specific info in the bootsector */ struct fat32_t { unsigned char bigFat[4]; /* 36 nb of sectors per FAT */ unsigned char extFlags[2]; /* 40 extension flags */ unsigned char fsVersion[2]; /* 42 ? */ unsigned char rootCluster[4]; /* 44 start cluster of root dir */ unsigned char infoSector[2]; /* 48 changeable global info */ unsigned char backupBoot[2]; /* 50 back up boot sector */ unsigned char reserved[6]; /* 52 ? */ unsigned char reserved2[6]; /* 58 ? */ struct label_blk_t labelBlock; }; /* ends at 58 */ typedef struct oldboot_t { struct label_blk_t labelBlock; unsigned char res_2m; /* 62 reserved by 2M */ unsigned char CheckSum; /* 63 2M checksum (not used) */ unsigned char fmt_2mf; /* 64 2MF format version */ unsigned char wt; /* 65 1 if write track after format */ unsigned char rate_0; /* 66 data transfer rate on track 0 */ unsigned char rate_any; /* 67 data transfer rate on track<>0 */ unsigned char BootP[2]; /* 68 offset to boot program */ unsigned char Infp0[2]; /* 70 T1: information for track 0 */ unsigned char InfpX[2]; /* 72 T2: information for track<>0 */ unsigned char InfTm[2]; /* 74 T3: track sectors size table */ unsigned char DateF[2]; /* 76 Format date */ unsigned char TimeF[2]; /* 78 Format time */ unsigned char junk[1024 - 80]; /* 80 remaining data */ } oldboot_t; struct bootsector_s { unsigned char jump[3]; /* 0 Jump to boot code */ char banner[8] NONULLTERM; /* 3 OEM name & version */ unsigned char secsiz[2]; /* 11 Bytes per sector hopefully 512 */ unsigned char clsiz; /* 13 Cluster size in sectors */ unsigned char nrsvsect[2]; /* 14 Number of reserved (boot) sectors */ unsigned char nfat; /* 16 Number of FAT tables hopefully 2 */ unsigned char dirents[2]; /* 17 Number of directory slots */ unsigned char psect[2]; /* 19 Total sectors on disk */ unsigned char descr; /* 21 Media descriptor=first byte of FAT */ unsigned char fatlen[2]; /* 22 Sectors in FAT */ unsigned char nsect[2]; /* 24 Sectors/track */ unsigned char nheads[2]; /* 26 Heads */ unsigned char nhs[4]; /* 28 number of hidden sectors */ unsigned char bigsect[4]; /* 32 big total sectors */ union { struct fat32_t fat32; struct oldboot_t old; } ext; }; #define MAX_BOOT 4096 union bootsector { unsigned char bytes[MAX_BOOT]; char characters[MAX_BOOT]; struct bootsector_s boot; }; #define CHAR(x) (boot->x[0]) #define BOOT_WORD(x) (WORD(boot->boot.x)) #define BOOT_DWORD(x) (DWORD(boot->boot.x)) #define WORD_S(x) (WORD(boot.boot.x)) #define DWORD_S(x) (DWORD(boot.boot.x)) #define OFFSET(x) (((char *) (boot->x)) - ((char *)(boot->jump))) /* max FAT12/FAT16 sizes, according to https://staff.washington.edu/dittrich/misc/fatgen103.pdf https://download.microsoft.com/download/1/6/1/161ba512-40e2-4cc9-843a-923143f3456c/fatgen103.doc interestingly enough, another Microsoft document [http://support.microsoft.com/default.aspx?scid=kb%3ben-us%3b67321] gives different values, but the first seems to be more sure about itself, so we believe that one ;-) */ #define FAT12 0x0ff5 /* max. number + 1 of clusters described by a 12 bit FAT */ #define FAT16 0xfff5 /* max number + 1 of clusters for a 16 bit FAT */ #define FAT32 0xffffff5 /* max number + 1 of clusters for a 32 bit FAT */ #define ATTR_ARCHIVE 0x20 #define ATTR_DIR 0x10 #define ATTR_LABEL 0x8 #define ATTR_SYSTEM 0x4 #define ATTR_HIDDEN 0x2 #define ATTR_READONLY 0x1 #define HAS_BIT(entry,x) ((entry)->dir.attr & (x)) #define IS_ARCHIVE(entry) (HAS_BIT((entry),ATTR_ARCHIVE)) #define IS_DIR(entry) (HAS_BIT((entry),ATTR_DIR)) #define IS_LABEL(entry) (HAS_BIT((entry),ATTR_LABEL)) #define IS_SYSTEM(entry) (HAS_BIT((entry),ATTR_SYSTEM)) #define IS_HIDDEN(entry) (HAS_BIT((entry),ATTR_HIDDEN)) #define IS_READONLY(entry) (HAS_BIT((entry),ATTR_READONLY)) #define MAX_BYTES_PER_CLUSTER (32*1024) /* Experimentally, it turns out that DOS only accepts cluster sizes * which are powers of two, and less than 128 sectors (else it gets a * divide overflow) */ #define FAT_SIZE(bits, sec_siz, clusters) \ ((((clusters)+2) * ((bits)/4) - 1) / 2 / (sec_siz) + 1) #define NEEDED_FAT_SIZE(x) FAT_SIZE((x)->fat_bits, (x)->sector_size, \ (x)->num_clus) /* disk size taken by FAT and clusters */ #define DISK_SIZE(bits, sec_siz, clusters, n, cluster_size) \ ((n) * FAT_SIZE(bits, sec_siz, clusters) + \ (clusters) * (cluster_size)) /* approx. total disk size: assume 1 boot sector and one directory sector */ #endif