/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_FS_PC_FS_H #define _SYS_FS_PC_FS_H #pragma ident "%Z%%M% %I% %E% SMI" #include #ifdef __cplusplus extern "C" { #endif typedef uint16_t pc_cluster16_t; typedef uint32_t pc_cluster32_t; /* * PC (MSDOS) compatible virtual file system. * * A main goal of the implementation was to maintain statelessness * except while files are open. Thus mounting and unmounting merely * declared the file system name. The user may change disks at almost * any time without concern (just like the PC). It is assumed that when * files are open for writing the disk access light will be on, as a * warning not to change disks. The implementation must, however, detect * disk change and recover gracefully. It does this by comparing the * in core entry for a directory to the on disk entry whenever a directory * is searched. If a discrepancy is found active directories become root and * active files are marked invalid. * * There are only two type of nodes on the PC file system; files and * directories. These are represented by two separate vnode op vectors, * and they are kept in two separate tables. Files are known by the * disk block number and block (cluster) offset of the files directory * entry. Directories are known by the starting cluster number. * * The file system is locked for during each user operation. This is * done to simplify disk verification error conditions. * * Notes on FAT32 support * ---------------------- * The basic difference between FAT32 and FAT16 is that cluster numbers are now * 32-bit instead of 16-bit. The FAT is thus an array of 32-bit cluster numbers, * and because of this the cluster size can be much smaller on a large disk * (4k, say, on a 1 Gig drive instead of 16k). Unfortunately, the FAT is not * the only place cluster numbers are stored - the starting cluster is stored * in the directory entry for a file, and of course it's only 16-bit. Luckily, * there's a 16-bit OS/2 Extended Attribute field that is now used to store the * upper 16-bits of the starting cluster number. * * Most of the FAT32 changes to pcfs are under 'if it's FAT32' to minimize the * effect on non-FAT32 filesystems (and still share the code), except for the * starting cluster changes. It seemed easier to make common functions to * handle that. * * Other changes: * * 1. FAT32 partitions are indicated by partition types 0xB and 0xC. * 2. The boot sector is now 2 sectors, to make room for FAT32 extensions. * 3. The root directory is no longer stored in a fixed location. Its' * starting cluster is stored in the extended boot sector. * 4. "Summary information" is now stored and we need to (at least) maintain * the number of free clusters or scandisk will be upset. Though the * sector this info is in is pointed to by the extensions in the boot * sector, the magic offset of this information is just that so * far - magic. 0x1e0. * 5. FAT32 can use the alternate FAT. But we don't. * * FAT32 also exposed a latent bug: we bread() each copy of the FAT in one * big chunk. This is not good on a large FAT32 drive, such as a 1 Gig * Jaz drive that has 4k clusters, since the FAT becomes 1 Meg in size and * bread blocks forever. So now we read the FAT in chunks. */ /* * pre-FAT32 boot sector. */ struct bootsec { uchar_t instr[3]; uchar_t version[8]; uchar_t bps[2]; /* bytes per sector */ uchar_t spcl; /* sectors per allocation unit */ uchar_t res_sec[2]; /* reserved sectors, starting at 0 */ uchar_t nfat; /* number of FATs */ uchar_t rdirents[2]; /* number of root directory entries */ uchar_t numsect[2]; /* old total sectors in logical image */ uchar_t mediadesriptor; /* media descriptor byte */ ushort_t fatsec; /* number of sectors per FAT */ ushort_t spt; /* sectors per track */ ushort_t nhead; /* number of heads */ ushort_t hiddensec; /* number of hidden sectors */ uint_t totalsec; /* total sectors in logical image */ }; /* * FAT32 volumes have a bigger boot sector. They include the normal * boot sector. */ struct fat32_bootsec { struct bootsec f_bs; uint32_t f_fatlength; /* size of FAT */ uint16_t f_flags; uint8_t f_major; /* major filesystem version #? */ uint8_t f_minor; /* minor filesystem version #? */ uint32_t f_rootcluster; /* first cluster in root directory */ uint16_t f_infosector; /* where summary info is */ uint16_t f_backupboot; /* backup boot sector */ uint16_t f_reserved2[6]; }; #define FAT32_FS_SIGN 0x61417272 #define FAT32_BOOT_FSINFO_OFF 0x1e0 /* * summary information for fat32 volumes. We need to maintain fs_free_clusters * or Microsoft Scandisk will be upset. */ struct fat32_boot_fsinfo { uint32_t fs_reserved1; uint32_t fs_signature; /* 0x61417272 */ uint32_t fs_free_clusters; /* # free clusters. -1 if unknown */ uint32_t fs_next_cluster; /* unused by pcfs */ uint32_t fs_reserved2[4]; }; #define FSINFO_UNKNOWN (-1) struct pcfs { struct vfs *pcfs_vfs; /* vfs for this fs */ int pcfs_flags; /* flags */ int pcfs_ldrv; /* logical DOS drive number */ dev_t pcfs_xdev; /* actual device that is mounted */ struct vnode *pcfs_devvp; /* and a vnode for it */ int pcfs_secsize; /* sector size in bytes */ int pcfs_spcl; /* sectors per cluster */ int pcfs_spt; /* sectors per track */ int pcfs_sdshift; /* shift to convert sector into */ /* DEV_BSIZE "sectors"; assume */ /* pcfs_secsize is 2**n times of */ /* DEV_BSIZE */ int pcfs_fatsec; /* number of sec per FAT */ int pcfs_numfat; /* number of FAT copies */ int pcfs_rdirsec; /* number of sec in root dir */ daddr_t pcfs_dosstart; /* start blkno of DOS partition */ daddr_t pcfs_fatstart; /* start blkno of first FAT */ daddr_t pcfs_rdirstart; /* start blkno of root dir */ daddr_t pcfs_datastart; /* start blkno of data area */ int pcfs_clsize; /* cluster size in bytes */ int pcfs_ncluster; /* number of clusters in fs */ int pcfs_entps; /* number of dir entry per sector */ int pcfs_nrefs; /* number of active pcnodes */ int pcfs_frefs; /* number of active file pcnodes */ int pcfs_nxfrecls; /* next free cluster */ uchar_t *pcfs_fatp; /* ptr to FAT data */ uchar_t *pcfs_fat_changemap; /* map of changed fat data */ int pcfs_fatsize; /* size of FAT data */ int pcfs_fat_changemapsize; /* size of FAT changemap */ time_t pcfs_fattime; /* time FAT becomes invalid */ time_t pcfs_verifytime; /* time to reverify disk */ kmutex_t pcfs_lock; /* per filesystem lock */ kthread_id_t pcfs_owner; /* id of thread locking pcfs */ int pcfs_count; /* # of pcfs locks for pcfs_owner */ struct fat32_boot_fsinfo fsinfo_native; /* native fsinfo for fat32 */ uint32_t f32fsinfo_sector; /* where to read/write fsinfo */ struct pcfs *pcfs_nxt; /* linked list of all mounts */ int pcfs_fatjustread; /* Used to flag a freshly found FAT */ }; /* * flags */ #define PCFS_FATMOD 0x01 /* FAT has been modified */ #define PCFS_LOCKED 0x02 /* fs is locked */ #define PCFS_WANTED 0x04 /* locked fs is wanted */ #define PCFS_FAT16 0x400 /* 16 bit FAT */ #define PCFS_NOCHK 0x800 /* don't resync fat on error */ #define PCFS_BOOTPART 0x1000 /* boot partition type */ #define PCFS_HIDDEN 0x2000 /* show hidden files */ #define PCFS_PCMCIA_NO_CIS 0x4000 /* PCMCIA psuedo floppy */ #define PCFS_FOLDCASE 0x8000 /* fold all names from media to */ /* lowercase */ #define PCFS_FAT32 0x10000 /* 32 bit FAT */ #define PCFS_IRRECOV 0x20000 /* FS was messed with during write */ /* for compatibility */ struct old_pcfs_args { int secondswest; /* seconds west of Greenwich */ int dsttime; /* type of dst correction */ }; struct pcfs_args { int secondswest; /* seconds west of Greenwich */ int dsttime; /* type of dst correction */ int flags; }; /* * flags for the pcfs_args 'flags' field. * * Note that PCFS_MNT_HIDDEN is private - you should not be using it. */ #define PCFS_MNT_HIDDEN 0x01 /* show hidden files */ #define PCFS_MNT_FOLDCASE 0x02 /* fold all names from media to */ /* lowercase */ /* * pcfs mount options. * * Note that hidden/nohidden is private - you should not use it. */ #define MNTOPT_PCFS_HIDDEN "hidden" #define MNTOPT_PCFS_NOHIDDEN "nohidden" #define MNTOPT_PCFS_FOLDCASE "foldcase" #define MNTOPT_PCFS_NOFOLDCASE "nofoldcase" /* * Disk timeout value in sec. * This is used to time out the in core FAT and to re-verify the disk. * This should be less than the time it takes to change floppys */ #define PCFS_DISKTIMEOUT 2 #define VFSTOPCFS(VFSP) ((struct pcfs *)((VFSP)->vfs_data)) #define PCFSTOVFS(FSP) ((FSP)->pcfs_vfs) /* * special cluster numbers in FAT */ #define PCF_FREECLUSTER 0x00 /* cluster is available */ #define PCF_ERRORCLUSTER 0x01 /* error occurred allocating cluster */ #define PCF_12BCLUSTER 0xFF0 /* 12-bit version of reserved cluster */ #define PCF_RESCLUSTER 0xFFF0 /* 16-bit version of reserved cluster */ #define PCF_RESCLUSTER32 0xFFFFFF0 /* 32-bit version */ #define PCF_BADCLUSTER 0xFFF7 /* bad cluster, do not use */ #define PCF_BADCLUSTER32 0xFFFFFF7 /* 32-bit version */ #define PCF_LASTCLUSTER 0xFFF8 /* >= means last cluster in file */ #define PCF_LASTCLUSTER32 0xFFFFFF8 /* 32-bit version */ #define PCF_LASTCLUSTERMARK 0xFFFF /* value used to mark last cluster */ #define PCF_LASTCLUSTERMARK32 0xFFFFFFF /* 32-bit version */ #define PCF_FIRSTCLUSTER 2 /* first valid cluster number */ /* * file system constants */ #define PC_MAXFATSEC 256 /* maximum number of sectors in FAT */ /* * file system parameter macros */ #define IS_FAT32(PCFS) \ (((PCFS)->pcfs_flags & PCFS_FAT32) == PCFS_FAT32) #define IS_FAT16(PCFS) \ (((PCFS)->pcfs_flags & PCFS_FAT16) == PCFS_FAT16) #define IS_FAT12(PCFS) \ (((PCFS)->pcfs_flags & (PCFS_FAT16 | PCFS_FAT32)) == 0) #define pc_clear_fatchanges(PCFS) \ bzero((PCFS)->pcfs_fat_changemap, (PCFS)->pcfs_fat_changemapsize) #define pc_blksize(PCFS, PCP, OFF) /* file system block size */ \ (((PCTOV(PCP)->v_flag & VROOT) && !IS_FAT32(PCFS)) ? \ ((OFF) >= \ ((PCFS)->pcfs_rdirsec & \ ~((PCFS)->pcfs_spcl - 1)) * ((PCFS)->pcfs_secsize)? \ ((PCFS)->pcfs_rdirsec & \ ((PCFS)->pcfs_spcl - 1)) * ((PCFS)->pcfs_secsize): \ (PCFS)->pcfs_clsize): \ (PCFS)->pcfs_clsize) #define pc_blkoff(PCFS, OFF) /* offset within block */ \ ((int)((OFF) & ((PCFS)->pcfs_clsize - 1))) #define pc_lblkno(PCFS, OFF) /* logical block (cluster) no */ \ ((daddr_t)((OFF) / (PCFS)->pcfs_clsize)) #define pc_dbtocl(PCFS, DB) /* disk blks to clusters */ \ ((int)((DB) / (PCFS)->pcfs_spcl)) #define pc_cltodb(PCFS, CL) /* clusters to disk blks */ \ ((daddr_t)((CL) * (PCFS)->pcfs_spcl)) #define pc_cldaddr(PCFS, CL) /* DEV_BSIZE "sector" addr for cluster */ \ (((daddr_t)((PCFS)->pcfs_datastart + \ ((CL) - PCF_FIRSTCLUSTER) * (PCFS)->pcfs_spcl)) << \ (PCFS)->pcfs_sdshift) #define pc_daddrcl(PCFS, DADDR) /* cluster for disk address */ \ ((int)(((((DADDR) >> (PCFS)->pcfs_sdshift) - (PCFS)->pcfs_datastart) / \ (PCFS)->pcfs_spcl) + 2)) #define pc_dbdaddr(PCFS, DB) /* sector to DEV_BSIZE "sector" addr */ \ ((DB) << (PCFS)->pcfs_sdshift) #define pc_daddrdb(PCFS, DADDR) /* DEV_BSIZE "sector" addr to sector addr */ \ ((DADDR) >> (PCFS)->pcfs_sdshift) #define pc_validcl(PCFS, CL) /* check that cluster no is legit */ \ ((int)(CL) >= PCF_FIRSTCLUSTER && \ (int)(CL) <= (PCFS)->pcfs_ncluster) /* * external routines. */ extern int pc_lockfs(struct pcfs *, int, int); /* lock fs and get fat */ extern void pc_unlockfs(struct pcfs *); /* ulock the fs */ extern int pc_getfat(struct pcfs *); /* get fat from disk */ extern void pc_invalfat(struct pcfs *); /* invalidate incore fat */ extern int pc_syncfat(struct pcfs *); /* sync fat to disk */ extern int pc_freeclusters(struct pcfs *); /* num free clusters in fs */ extern pc_cluster32_t pc_alloccluster(struct pcfs *, int); extern void pc_setcluster(struct pcfs *, pc_cluster32_t, pc_cluster32_t); extern void pc_mark_fat_updated(struct pcfs *fsp, pc_cluster32_t cn); extern int pc_fat_is_changed(struct pcfs *fsp, pc_cluster32_t bn); /* * debugging */ extern int pcfsdebuglevel; #define PC_DPRINTF0(level, A) \ if (pcfsdebuglevel >= level) \ cmn_err(CE_CONT, (A)) #define PC_DPRINTF1(level, A, B) \ if (pcfsdebuglevel >= level) \ cmn_err(CE_CONT, (A), (B)) #define PC_DPRINTF2(level, A, B, C) \ if (pcfsdebuglevel >= level) \ cmn_err(CE_CONT, (A), (B), (C)) #define PC_DPRINTF3(level, A, B, C, D) \ if (pcfsdebuglevel >= level) \ cmn_err(CE_CONT, (A), (B), (C), (D)) #define PC_DPRINTF4(level, A, B, C, D, E) \ if (pcfsdebuglevel >= level) \ cmn_err(CE_CONT, (A), (B), (C), (D), (E)) #ifdef __cplusplus } #endif #endif /* _SYS_FS_PC_FS_H */