linux-vybrid_public/include/linux/ufs_fs.h

/*
 *  linux/include/linux/ufs_fs.h
 *
 * Copyright (C) 1996
 * Adrian Rodriguez (adrian@franklins-tower.rutgers.edu)
 * Laboratory for Computer Science Research Computing Facility
 * Rutgers, The State University of New Jersey
 *
 * Clean swab support by Fare <fare@tunes.org>
 * just hope no one is using NNUUXXI on __?64 structure elements
 * 64-bit clean thanks to Maciej W. Rozycki <macro@ds2.pg.gda.pl>
 *
 * 4.4BSD (FreeBSD) support added on February 1st 1998 by
 * Niels Kristian Bech Jensen <nkbj@image.dk> partially based
 * on code by Martin von Loewis <martin@mira.isdn.cs.tu-berlin.de>.
 *
 * NeXTstep support added on February 5th 1998 by
 * Niels Kristian Bech Jensen <nkbj@image.dk>.
 *
 * Write support by Daniel Pirkl <daniel.pirkl@email.cz>
 *
 * HP/UX hfs filesystem support added by
 * Martin K. Petersen <mkp@mkp.net>, August 1999
 *
 * UFS2 (of FreeBSD 5.x) support added by
 * Niraj Kumar <niraj17@iitbombay.org>  , Jan 2004
 *
 */

#ifndef __LINUX_UFS_FS_H
#define __LINUX_UFS_FS_H

#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/stat.h>
#include <linux/fs.h>

#ifndef __KERNEL__
typedef __u64 __fs64;
typedef __u32 __fs32;
typedef __u16 __fs16;
#else
typedef __u64 __bitwise __fs64;
typedef __u32 __bitwise __fs32;
typedef __u16 __bitwise __fs16;
#endif

#include <linux/ufs_fs_i.h>
#include <linux/ufs_fs_sb.h>

#define UFS_BBLOCK 0
#define UFS_BBSIZE 8192
#define UFS_SBLOCK 8192
#define UFS_SBSIZE 8192

#define UFS_SECTOR_SIZE 512
#define UFS_SECTOR_BITS 9
#define UFS_MAGIC  0x00011954
#define UFS2_MAGIC 0x19540119
#define UFS_CIGAM  0x54190100 /* byteswapped MAGIC */

/* Copied from FreeBSD */
/*
 * Each disk drive contains some number of filesystems.
 * A filesystem consists of a number of cylinder groups.
 * Each cylinder group has inodes and data.
 *
 * A filesystem is described by its super-block, which in turn
 * describes the cylinder groups.  The super-block is critical
 * data and is replicated in each cylinder group to protect against
 * catastrophic loss.  This is done at `newfs' time and the critical
 * super-block data does not change, so the copies need not be
 * referenced further unless disaster strikes.
 *
 * For filesystem fs, the offsets of the various blocks of interest
 * are given in the super block as:
 *      [fs->fs_sblkno]         Super-block
 *      [fs->fs_cblkno]         Cylinder group block
 *      [fs->fs_iblkno]         Inode blocks
 *      [fs->fs_dblkno]         Data blocks
 * The beginning of cylinder group cg in fs, is given by
 * the ``cgbase(fs, cg)'' macro.
 *
 * Depending on the architecture and the media, the superblock may
 * reside in any one of four places. For tiny media where every block
 * counts, it is placed at the very front of the partition. Historically,
 * UFS1 placed it 8K from the front to leave room for the disk label and
 * a small bootstrap. For UFS2 it got moved to 64K from the front to leave
 * room for the disk label and a bigger bootstrap, and for really piggy
 * systems we check at 256K from the front if the first three fail. In
 * all cases the size of the superblock will be SBLOCKSIZE. All values are
 * given in byte-offset form, so they do not imply a sector size. The
 * SBLOCKSEARCH specifies the order in which the locations should be searched.
 */
#define SBLOCK_FLOPPY        0
#define SBLOCK_UFS1       8192
#define SBLOCK_UFS2      65536
#define SBLOCK_PIGGY    262144
#define SBLOCKSIZE        8192
#define SBLOCKSEARCH \
        { SBLOCK_UFS2, SBLOCK_UFS1, SBLOCK_FLOPPY, SBLOCK_PIGGY, -1 }


/* HP specific MAGIC values */

#define UFS_MAGIC_LFN   0x00095014 /* fs supports filenames > 14 chars */
#define UFS_CIGAM_LFN   0x14500900 /* srahc 41 < semanelif stroppus sf */

#define UFS_MAGIC_SEC   0x00612195 /* B1 security fs */
#define UFS_CIGAM_SEC   0x95216100

#define UFS_MAGIC_FEA   0x00195612 /* fs_featurebits supported */
#define UFS_CIGAM_FEA   0x12561900

#define UFS_MAGIC_4GB   0x05231994 /* fs > 4 GB && fs_featurebits */
#define UFS_CIGAM_4GB   0x94192305

/* Seems somebody at HP goofed here. B1 and lfs are both 0x2 !?! */
#define UFS_FSF_LFN     0x00000001 /* long file names */
#define UFS_FSF_B1      0x00000002 /* B1 security */
#define UFS_FSF_LFS     0x00000002 /* large files */
#define UFS_FSF_LUID    0x00000004 /* large UIDs */

/* End of HP stuff */


#define UFS_BSIZE	8192
#define UFS_MINBSIZE	4096
#define UFS_FSIZE	1024
#define UFS_MAXFRAG	(UFS_BSIZE / UFS_FSIZE)

#define UFS_NDADDR 12
#define UFS_NINDIR 3

#define UFS_IND_BLOCK	(UFS_NDADDR + 0)
#define UFS_DIND_BLOCK	(UFS_NDADDR + 1)
#define UFS_TIND_BLOCK	(UFS_NDADDR + 2)

#define UFS_NDIR_FRAGMENT (UFS_NDADDR << uspi->s_fpbshift)
#define UFS_IND_FRAGMENT (UFS_IND_BLOCK << uspi->s_fpbshift)
#define UFS_DIND_FRAGMENT (UFS_DIND_BLOCK << uspi->s_fpbshift)
#define UFS_TIND_FRAGMENT (UFS_TIND_BLOCK << uspi->s_fpbshift)

#define UFS_ROOTINO 2
#define UFS_FIRST_INO (UFS_ROOTINO + 1)

#define UFS_USEEFT  ((__u16)65535)

#define UFS_FSOK      0x7c269d38
#define UFS_FSACTIVE  ((__s8)0x00)
#define UFS_FSCLEAN   ((__s8)0x01)
#define UFS_FSSTABLE  ((__s8)0x02)
#define UFS_FSOSF1    ((__s8)0x03)	/* is this correct for DEC OSF/1? */
#define UFS_FSBAD     ((__s8)0xff)

/* From here to next blank line, s_flags for ufs_sb_info */
/* directory entry encoding */
#define UFS_DE_MASK		0x00000010	/* mask for the following */
#define UFS_DE_OLD		0x00000000
#define UFS_DE_44BSD		0x00000010
/* uid encoding */
#define UFS_UID_MASK		0x00000060	/* mask for the following */
#define UFS_UID_OLD		0x00000000
#define UFS_UID_44BSD		0x00000020
#define UFS_UID_EFT		0x00000040
/* superblock state encoding */
#define UFS_ST_MASK		0x00000700	/* mask for the following */
#define UFS_ST_OLD		0x00000000
#define UFS_ST_44BSD		0x00000100
#define UFS_ST_SUN		0x00000200
#define UFS_ST_SUNx86		0x00000400
/*cylinder group encoding */
#define UFS_CG_MASK		0x00003000	/* mask for the following */
#define UFS_CG_OLD		0x00000000
#define UFS_CG_44BSD		0x00002000
#define UFS_CG_SUN		0x00001000
/* filesystem type encoding */
#define UFS_TYPE_MASK		0x00010000	/* mask for the following */
#define UFS_TYPE_UFS1		0x00000000
#define UFS_TYPE_UFS2		0x00010000


/* fs_inodefmt options */
#define UFS_42INODEFMT	-1
#define UFS_44INODEFMT	2

/* mount options */
#define UFS_MOUNT_ONERROR		0x0000000F
#define UFS_MOUNT_ONERROR_PANIC		0x00000001
#define UFS_MOUNT_ONERROR_LOCK		0x00000002
#define UFS_MOUNT_ONERROR_UMOUNT	0x00000004
#define UFS_MOUNT_ONERROR_REPAIR	0x00000008

#define UFS_MOUNT_UFSTYPE		0x0000FFF0
#define UFS_MOUNT_UFSTYPE_OLD		0x00000010
#define UFS_MOUNT_UFSTYPE_44BSD		0x00000020
#define UFS_MOUNT_UFSTYPE_SUN		0x00000040
#define UFS_MOUNT_UFSTYPE_NEXTSTEP	0x00000080
#define UFS_MOUNT_UFSTYPE_NEXTSTEP_CD	0x00000100
#define UFS_MOUNT_UFSTYPE_OPENSTEP	0x00000200
#define UFS_MOUNT_UFSTYPE_SUNx86	0x00000400
#define UFS_MOUNT_UFSTYPE_HP	        0x00000800
#define UFS_MOUNT_UFSTYPE_UFS2		0x00001000

#define ufs_clear_opt(o,opt)	o &= ~UFS_MOUNT_##opt
#define ufs_set_opt(o,opt)	o |= UFS_MOUNT_##opt
#define ufs_test_opt(o,opt)	((o) & UFS_MOUNT_##opt)

/*
 * MINFREE gives the minimum acceptable percentage of file system
 * blocks which may be free. If the freelist drops below this level
 * only the superuser may continue to allocate blocks. This may
 * be set to 0 if no reserve of free blocks is deemed necessary,
 * however throughput drops by fifty percent if the file system
 * is run at between 95% and 100% full; thus the minimum default
 * value of fs_minfree is 5%. However, to get good clustering
 * performance, 10% is a better choice. hence we use 10% as our
 * default value. With 10% free space, fragmentation is not a
 * problem, so we choose to optimize for time.
 */
#define UFS_MINFREE         5
#define UFS_DEFAULTOPT      UFS_OPTTIME

/*
 * Debug code
 */
#ifdef CONFIG_UFS_DEBUG
#	define UFSD(f, a...)	{					\
		printk ("UFSD (%s, %d): %s:",				\
			__FILE__, __LINE__, __FUNCTION__);		\
		printk (f, ## a);					\
	}
#else
#	define UFSD(f, a...)	/**/
#endif
            
/*
 * Turn file system block numbers into disk block addresses.
 * This maps file system blocks to device size blocks.
 */
#define ufs_fsbtodb(uspi, b)	((b) << (uspi)->s_fsbtodb)
#define	ufs_dbtofsb(uspi, b)	((b) >> (uspi)->s_fsbtodb)

/*
 * Cylinder group macros to locate things in cylinder groups.
 * They calc file system addresses of cylinder group data structures.
 */
#define	ufs_cgbase(c)	(uspi->s_fpg * (c))
#define ufs_cgstart(c)	((uspi)->fs_magic == UFS2_MAGIC ?  ufs_cgbase(c) : \
	(ufs_cgbase(c)  + uspi->s_cgoffset * ((c) & ~uspi->s_cgmask)))
#define	ufs_cgsblock(c)	(ufs_cgstart(c) + uspi->s_sblkno)	/* super blk */
#define	ufs_cgcmin(c)	(ufs_cgstart(c) + uspi->s_cblkno)	/* cg block */
#define	ufs_cgimin(c)	(ufs_cgstart(c) + uspi->s_iblkno)	/* inode blk */
#define	ufs_cgdmin(c)	(ufs_cgstart(c) + uspi->s_dblkno)	/* 1st data */

/*
 * Macros for handling inode numbers:
 *     inode number to file system block offset.
 *     inode number to cylinder group number.
 *     inode number to file system block address.
 */
#define	ufs_inotocg(x)		((x) / uspi->s_ipg)
#define	ufs_inotocgoff(x)	((x) % uspi->s_ipg)
#define	ufs_inotofsba(x)	(ufs_cgimin(ufs_inotocg(x)) + ufs_inotocgoff(x) / uspi->s_inopf)
#define	ufs_inotofsbo(x)	((x) % uspi->s_inopf)

/*
 * Give cylinder group number for a file system block.
 * Give cylinder group block number for a file system block.
 */
#define	ufs_dtog(d)	((d) / uspi->s_fpg)
#define	ufs_dtogd(d)	((d) % uspi->s_fpg)

/*
 * Compute the cylinder and rotational position of a cyl block addr.
 */
#define ufs_cbtocylno(bno) \
	((bno) * uspi->s_nspf / uspi->s_spc)
#define ufs_cbtorpos(bno) \
	((((bno) * uspi->s_nspf % uspi->s_spc / uspi->s_nsect \
	* uspi->s_trackskew + (bno) * uspi->s_nspf % uspi->s_spc \
	% uspi->s_nsect * uspi->s_interleave) % uspi->s_nsect \
	* uspi->s_nrpos) / uspi->s_npsect)

/*
 * The following macros optimize certain frequently calculated
 * quantities by using shifts and masks in place of divisions
 * modulos and multiplications.
 */
#define ufs_blkoff(loc)		((loc) & uspi->s_qbmask)
#define ufs_fragoff(loc)	((loc) & uspi->s_qfmask)
#define ufs_lblktosize(blk)	((blk) << uspi->s_bshift)
#define ufs_lblkno(loc)		((loc) >> uspi->s_bshift)
#define ufs_numfrags(loc)	((loc) >> uspi->s_fshift)
#define ufs_blkroundup(size)	(((size) + uspi->s_qbmask) & uspi->s_bmask)
#define ufs_fragroundup(size)	(((size) + uspi->s_qfmask) & uspi->s_fmask)
#define ufs_fragstoblks(frags)	((frags) >> uspi->s_fpbshift)
#define ufs_blkstofrags(blks)	((blks) << uspi->s_fpbshift)
#define ufs_fragnum(fsb)	((fsb) & uspi->s_fpbmask)
#define ufs_blknum(fsb)		((fsb) & ~uspi->s_fpbmask)

#define	UFS_MAXNAMLEN 255
#define UFS_MAXMNTLEN 512
#define UFS2_MAXMNTLEN 468
#define UFS2_MAXVOLLEN 32
/* #define UFS_MAXCSBUFS 31 */
#define UFS_LINK_MAX 32000
/*
#define	UFS2_NOCSPTRS	((128 / sizeof(void *)) - 4)
*/
#define	UFS2_NOCSPTRS	28

/*
 * UFS_DIR_PAD defines the directory entries boundaries
 * (must be a multiple of 4)
 */
#define UFS_DIR_PAD			4
#define UFS_DIR_ROUND			(UFS_DIR_PAD - 1)
#define UFS_DIR_REC_LEN(name_len)	(((name_len) + 1 + 8 + UFS_DIR_ROUND) & ~UFS_DIR_ROUND)

struct ufs_timeval {
	__fs32	tv_sec;
	__fs32	tv_usec;
};

struct ufs_dir_entry {
	__fs32  d_ino;			/* inode number of this entry */
	__fs16  d_reclen;		/* length of this entry */
	union {
		__fs16	d_namlen;		/* actual length of d_name */
		struct {
			__u8	d_type;		/* file type */
			__u8	d_namlen;	/* length of string in d_name */
		} d_44;
	} d_u;
	__u8	d_name[UFS_MAXNAMLEN + 1];	/* file name */
};

struct ufs_csum {
	__fs32	cs_ndir;	/* number of directories */
	__fs32	cs_nbfree;	/* number of free blocks */
	__fs32	cs_nifree;	/* number of free inodes */
	__fs32	cs_nffree;	/* number of free frags */
};
struct ufs2_csum_total {
	__fs64	cs_ndir;	/* number of directories */
	__fs64	cs_nbfree;	/* number of free blocks */
	__fs64	cs_nifree;	/* number of free inodes */
	__fs64	cs_nffree;	/* number of free frags */
	__fs64   cs_numclusters;	/* number of free clusters */
	__fs64   cs_spare[3];	/* future expansion */
};

#if 0
/*
 * This is the actual superblock, as it is laid out on the disk.
 * Do NOT use this structure, because of sizeof(ufs_super_block) > 512 and
 * it may occupy several blocks, use
 * struct ufs_super_block_(first,second,third) instead.
 */
struct ufs_super_block {
	__fs32	fs_link;	/* UNUSED */
	__fs32	fs_rlink;	/* UNUSED */
	__fs32	fs_sblkno;	/* addr of super-block in filesys */
	__fs32	fs_cblkno;	/* offset of cyl-block in filesys */
	__fs32	fs_iblkno;	/* offset of inode-blocks in filesys */
	__fs32	fs_dblkno;	/* offset of first data after cg */
	__fs32	fs_cgoffset;	/* cylinder group offset in cylinder */
	__fs32	fs_cgmask;	/* used to calc mod fs_ntrak */
	__fs32	fs_time;	/* last time written -- time_t */
	__fs32	fs_size;	/* number of blocks in fs */
	__fs32	fs_dsize;	/* number of data blocks in fs */
	__fs32	fs_ncg;		/* number of cylinder groups */
	__fs32	fs_bsize;	/* size of basic blocks in fs */
	__fs32	fs_fsize;	/* size of frag blocks in fs */
	__fs32	fs_frag;	/* number of frags in a block in fs */
/* these are configuration parameters */
	__fs32	fs_minfree;	/* minimum percentage of free blocks */
	__fs32	fs_rotdelay;	/* num of ms for optimal next block */
	__fs32	fs_rps;		/* disk revolutions per second */
/* these fields can be computed from the others */
	__fs32	fs_bmask;	/* ``blkoff'' calc of blk offsets */
	__fs32	fs_fmask;	/* ``fragoff'' calc of frag offsets */
	__fs32	fs_bshift;	/* ``lblkno'' calc of logical blkno */
	__fs32	fs_fshift;	/* ``numfrags'' calc number of frags */
/* these are configuration parameters */
	__fs32	fs_maxcontig;	/* max number of contiguous blks */
	__fs32	fs_maxbpg;	/* max number of blks per cyl group */
/* these fields can be computed from the others */
	__fs32	fs_fragshift;	/* block to frag shift */
	__fs32	fs_fsbtodb;	/* fsbtodb and dbtofsb shift constant */
	__fs32	fs_sbsize;	/* actual size of super block */
	__fs32	fs_csmask;	/* csum block offset */
	__fs32	fs_csshift;	/* csum block number */
	__fs32	fs_nindir;	/* value of NINDIR */
	__fs32	fs_inopb;	/* value of INOPB */
	__fs32	fs_nspf;	/* value of NSPF */
/* yet another configuration parameter */
	__fs32	fs_optim;	/* optimization preference, see below */
/* these fields are derived from the hardware */
	union {
		struct {
			__fs32	fs_npsect;	/* # sectors/track including spares */
		} fs_sun;
		struct {
			__fs32	fs_state;	/* file system state time stamp */
		} fs_sunx86;
	} fs_u1;
	__fs32	fs_interleave;	/* hardware sector interleave */
	__fs32	fs_trackskew;	/* sector 0 skew, per track */
/* a unique id for this filesystem (currently unused and unmaintained) */
/* In 4.3 Tahoe this space is used by fs_headswitch and fs_trkseek */
/* Neither of those fields is used in the Tahoe code right now but */
/* there could be problems if they are.                            */
	__fs32	fs_id[2];	/* file system id */
/* sizes determined by number of cylinder groups and their sizes */
	__fs32	fs_csaddr;	/* blk addr of cyl grp summary area */
	__fs32	fs_cssize;	/* size of cyl grp summary area */
	__fs32	fs_cgsize;	/* cylinder group size */
/* these fields are derived from the hardware */
	__fs32	fs_ntrak;	/* tracks per cylinder */
	__fs32	fs_nsect;	/* sectors per track */
	__fs32	fs_spc;		/* sectors per cylinder */
/* this comes from the disk driver partitioning */
	__fs32	fs_ncyl;	/* cylinders in file system */
/* these fields can be computed from the others */
	__fs32	fs_cpg;		/* cylinders per group */
	__fs32	fs_ipg;		/* inodes per cylinder group */
	__fs32	fs_fpg;		/* blocks per group * fs_frag */
/* this data must be re-computed after crashes */
	struct ufs_csum fs_cstotal;	/* cylinder summary information */
/* these fields are cleared at mount time */
	__s8	fs_fmod;	/* super block modified flag */
	__s8	fs_clean;	/* file system is clean flag */
	__s8	fs_ronly;	/* mounted read-only flag */
	__s8	fs_flags;	/* currently unused flag */
	union {
		struct {
			__s8	fs_fsmnt[UFS_MAXMNTLEN];/* name mounted on */
			__fs32	fs_cgrotor;	/* last cg searched */
			__fs32	fs_csp[UFS_MAXCSBUFS];/*list of fs_cs info buffers */
			__fs32	fs_maxcluster;
			__fs32	fs_cpc;		/* cyl per cycle in postbl */
			__fs16	fs_opostbl[16][8]; /* old rotation block list head */
		} fs_u1;
		struct {
			__s8  fs_fsmnt[UFS2_MAXMNTLEN];	/* name mounted on */
			__u8   fs_volname[UFS2_MAXVOLLEN]; /* volume name */
			__fs64  fs_swuid;		/* system-wide uid */
			__fs32  fs_pad;	/* due to alignment of fs_swuid */
			__fs32   fs_cgrotor;     /* last cg searched */
			__fs32   fs_ocsp[UFS2_NOCSPTRS]; /*list of fs_cs info buffers */
			__fs32   fs_contigdirs;/*# of contiguously allocated dirs */
			__fs32   fs_csp;	/* cg summary info buffer for fs_cs */
			__fs32   fs_maxcluster;
			__fs32   fs_active;/* used by snapshots to track fs */
			__fs32   fs_old_cpc;	/* cyl per cycle in postbl */
			__fs32   fs_maxbsize;/*maximum blocking factor permitted */
			__fs64   fs_sparecon64[17];/*old rotation block list head */
			__fs64   fs_sblockloc; /* byte offset of standard superblock */
			struct  ufs2_csum_total fs_cstotal;/*cylinder summary information*/
			struct  ufs_timeval    fs_time;		/* last time written */
			__fs64    fs_size;		/* number of blocks in fs */
			__fs64    fs_dsize;	/* number of data blocks in fs */
			__fs64   fs_csaddr;	/* blk addr of cyl grp summary area */
			__fs64    fs_pendingblocks;/* blocks in process of being freed */
			__fs32    fs_pendinginodes;/*inodes in process of being freed */
		} fs_u2;
	}  fs_u11;
	union {
		struct {
			__fs32	fs_sparecon[53];/* reserved for future constants */
			__fs32	fs_reclaim;
			__fs32	fs_sparecon2[1];
			__fs32	fs_state;	/* file system state time stamp */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
		} fs_sun;
		struct {
			__fs32	fs_sparecon[53];/* reserved for future constants */
			__fs32	fs_reclaim;
			__fs32	fs_sparecon2[1];
			__fs32	fs_npsect;	/* # sectors/track including spares */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
		} fs_sunx86;
		struct {
			__fs32	fs_sparecon[50];/* reserved for future constants */
			__fs32	fs_contigsumsize;/* size of cluster summary array */
			__fs32	fs_maxsymlinklen;/* max length of an internal symlink */
			__fs32	fs_inodefmt;	/* format of on-disk inodes */
			__fs32	fs_maxfilesize[2];	/* max representable file size */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
			__fs32	fs_state;	/* file system state time stamp */
		} fs_44;
	} fs_u2;
	__fs32	fs_postblformat;	/* format of positional layout tables */
	__fs32	fs_nrpos;		/* number of rotational positions */
	__fs32	fs_postbloff;		/* (__s16) rotation block list head */
	__fs32	fs_rotbloff;		/* (__u8) blocks for each rotation */
	__fs32	fs_magic;		/* magic number */
	__u8	fs_space[1];		/* list of blocks for each rotation */
};
#endif/*struct ufs_super_block*/

/*
 * Preference for optimization.
 */
#define UFS_OPTTIME	0	/* minimize allocation time */
#define UFS_OPTSPACE	1	/* minimize disk fragmentation */

/*
 * Rotational layout table format types
 */
#define UFS_42POSTBLFMT		-1	/* 4.2BSD rotational table format */
#define UFS_DYNAMICPOSTBLFMT	1	/* dynamic rotational table format */

/*
 * Convert cylinder group to base address of its global summary info.
 */
#define fs_cs(indx) s_csp[(indx)]

/*
 * Cylinder group block for a file system.
 *
 * Writable fields in the cylinder group are protected by the associated
 * super block lock fs->fs_lock.
 */
#define	CG_MAGIC	0x090255
#define ufs_cg_chkmagic(sb, ucg) \
	(fs32_to_cpu((sb), (ucg)->cg_magic) == CG_MAGIC)

/*
 * size of this structure is 172 B
 */
struct	ufs_cylinder_group {
	__fs32	cg_link;		/* linked list of cyl groups */
	__fs32	cg_magic;		/* magic number */
	__fs32	cg_time;		/* time last written */
	__fs32	cg_cgx;			/* we are the cgx'th cylinder group */
	__fs16	cg_ncyl;		/* number of cyl's this cg */
	__fs16	cg_niblk;		/* number of inode blocks this cg */
	__fs32	cg_ndblk;		/* number of data blocks this cg */
	struct	ufs_csum cg_cs;		/* cylinder summary information */
	__fs32	cg_rotor;		/* position of last used block */
	__fs32	cg_frotor;		/* position of last used frag */
	__fs32	cg_irotor;		/* position of last used inode */
	__fs32	cg_frsum[UFS_MAXFRAG];	/* counts of available frags */
	__fs32	cg_btotoff;		/* (__u32) block totals per cylinder */
	__fs32	cg_boff;		/* (short) free block positions */
	__fs32	cg_iusedoff;		/* (char) used inode map */
	__fs32	cg_freeoff;		/* (u_char) free block map */
	__fs32	cg_nextfreeoff;		/* (u_char) next available space */
	union {
		struct {
			__fs32	cg_clustersumoff;	/* (u_int32) counts of avail clusters */
			__fs32	cg_clusteroff;		/* (u_int8) free cluster map */
			__fs32	cg_nclusterblks;	/* number of clusters this cg */
			__fs32	cg_sparecon[13];	/* reserved for future use */
		} cg_44;
		struct {
			__fs32	cg_clustersumoff;/* (u_int32) counts of avail clusters */
			__fs32	cg_clusteroff;	/* (u_int8) free cluster map */
			__fs32	cg_nclusterblks;/* number of clusters this cg */
			__fs32   cg_niblk; /* number of inode blocks this cg */
			__fs32   cg_initediblk;	/* last initialized inode */
			__fs32   cg_sparecon32[3];/* reserved for future use */
			__fs64   cg_time;	/* time last written */
			__fs64	cg_sparecon[3];	/* reserved for future use */
		} cg_u2;
		__fs32	cg_sparecon[16];	/* reserved for future use */
	} cg_u;
	__u8	cg_space[1];		/* space for cylinder group maps */
/* actually longer */
};

/*
 * structure of an on-disk inode
 */
struct ufs_inode {
	__fs16	ui_mode;		/*  0x0 */
	__fs16	ui_nlink;		/*  0x2 */
	union {
		struct {
			__fs16	ui_suid;	/*  0x4 */
			__fs16	ui_sgid;	/*  0x6 */
		} oldids;
		__fs32	ui_inumber;		/*  0x4 lsf: inode number */
		__fs32	ui_author;		/*  0x4 GNU HURD: author */
	} ui_u1;
	__fs64	ui_size;		/*  0x8 */
	struct ufs_timeval ui_atime;	/* 0x10 access */
	struct ufs_timeval ui_mtime;	/* 0x18 modification */
	struct ufs_timeval ui_ctime;	/* 0x20 creation */
	union {
		struct {
			__fs32	ui_db[UFS_NDADDR];/* 0x28 data blocks */
			__fs32	ui_ib[UFS_NINDIR];/* 0x58 indirect blocks */
		} ui_addr;
		__u8	ui_symlink[4*(UFS_NDADDR+UFS_NINDIR)];/* 0x28 fast symlink */
	} ui_u2;
	__fs32	ui_flags;		/* 0x64 immutable, append-only... */
	__fs32	ui_blocks;		/* 0x68 blocks in use */
	__fs32	ui_gen;			/* 0x6c like ext2 i_version, for NFS support */
	union {
		struct {
			__fs32	ui_shadow;	/* 0x70 shadow inode with security data */
			__fs32	ui_uid;		/* 0x74 long EFT version of uid */
			__fs32	ui_gid;		/* 0x78 long EFT version of gid */
			__fs32	ui_oeftflag;	/* 0x7c reserved */
		} ui_sun;
		struct {
			__fs32	ui_uid;		/* 0x70 File owner */
			__fs32	ui_gid;		/* 0x74 File group */
			__fs32	ui_spare[2];	/* 0x78 reserved */
		} ui_44;
		struct {
			__fs32	ui_uid;		/* 0x70 */
			__fs32	ui_gid;		/* 0x74 */
			__fs16	ui_modeh;	/* 0x78 mode high bits */
			__fs16	ui_spare;	/* 0x7A unused */
			__fs32	ui_trans;	/* 0x7c filesystem translator */
		} ui_hurd;
	} ui_u3;
};

#define UFS_NXADDR  2            /* External addresses in inode. */
struct ufs2_inode {
	__fs16     ui_mode;        /*   0: IFMT, permissions; see below. */
	__fs16     ui_nlink;       /*   2: File link count. */
	__fs32     ui_uid;         /*   4: File owner. */
	__fs32     ui_gid;         /*   8: File group. */
	__fs32     ui_blksize;     /*  12: Inode blocksize. */
	__fs64     ui_size;        /*  16: File byte count. */
	__fs64     ui_blocks;      /*  24: Bytes actually held. */
	struct ufs_timeval   ui_atime;       /*  32: Last access time. */
	struct ufs_timeval   ui_mtime;       /*  40: Last modified time. */
	struct ufs_timeval   ui_ctime;       /*  48: Last inode change time. */
	struct ufs_timeval   ui_birthtime;   /*  56: Inode creation time. */
	__fs32     ui_mtimensec;   /*  64: Last modified time. */
	__fs32     ui_atimensec;   /*  68: Last access time. */
	__fs32     ui_ctimensec;   /*  72: Last inode change time. */
	__fs32     ui_birthnsec;   /*  76: Inode creation time. */
	__fs32     ui_gen;         /*  80: Generation number. */
	__fs32     ui_kernflags;   /*  84: Kernel flags. */
	__fs32     ui_flags;       /*  88: Status flags (chflags). */
	__fs32     ui_extsize;     /*  92: External attributes block. */
	__fs64     ui_extb[UFS_NXADDR];/*  96: External attributes block. */
	union {
		struct {
			__fs64     ui_db[UFS_NDADDR]; /* 112: Direct disk blocks. */
			__fs64     ui_ib[UFS_NINDIR];/* 208: Indirect disk blocks.*/
		} ui_addr;
	__u8	ui_symlink[2*4*(UFS_NDADDR+UFS_NINDIR)];/* 0x28 fast symlink */
	} ui_u2;
	__fs64     ui_spare[3];    /* 232: Reserved; currently unused */
};


/* FreeBSD has these in sys/stat.h */
/* ui_flags that can be set by a file owner */
#define UFS_UF_SETTABLE   0x0000ffff
#define UFS_UF_NODUMP     0x00000001  /* do not dump */
#define UFS_UF_IMMUTABLE  0x00000002  /* immutable (can't "change") */
#define UFS_UF_APPEND     0x00000004  /* append-only */
#define UFS_UF_OPAQUE     0x00000008  /* directory is opaque (unionfs) */
#define UFS_UF_NOUNLINK   0x00000010  /* can't be removed or renamed */
/* ui_flags that only root can set */
#define UFS_SF_SETTABLE   0xffff0000
#define UFS_SF_ARCHIVED   0x00010000  /* archived */
#define UFS_SF_IMMUTABLE  0x00020000  /* immutable (can't "change") */
#define UFS_SF_APPEND     0x00040000  /* append-only */
#define UFS_SF_NOUNLINK   0x00100000  /* can't be removed or renamed */

/*
 * This structure is used for reading disk structures larger
 * than the size of fragment.
 */
struct ufs_buffer_head {
	__u64 fragment;			/* first fragment */
	__u64 count;				/* number of fragments */
	struct buffer_head * bh[UFS_MAXFRAG];	/* buffers */
};

struct ufs_cg_private_info {
	struct ufs_buffer_head c_ubh;
	__u32	c_cgx;		/* number of cylidner group */
	__u16	c_ncyl;		/* number of cyl's this cg */
	__u16	c_niblk;	/* number of inode blocks this cg */
	__u32	c_ndblk;	/* number of data blocks this cg */
	__u32	c_rotor;	/* position of last used block */
	__u32	c_frotor;	/* position of last used frag */
	__u32	c_irotor;	/* position of last used inode */
	__u32	c_btotoff;	/* (__u32) block totals per cylinder */
	__u32	c_boff;		/* (short) free block positions */
	__u32	c_iusedoff;	/* (char) used inode map */
	__u32	c_freeoff;	/* (u_char) free block map */
	__u32	c_nextfreeoff;	/* (u_char) next available space */
	__u32	c_clustersumoff;/* (u_int32) counts of avail clusters */
	__u32	c_clusteroff;	/* (u_int8) free cluster map */
	__u32	c_nclusterblks;	/* number of clusters this cg */
};	

struct ufs_sb_private_info {
	struct ufs_buffer_head s_ubh; /* buffer containing super block */
	__u32	s_sblkno;	/* offset of super-blocks in filesys */
	__u32	s_cblkno;	/* offset of cg-block in filesys */
	__u32	s_iblkno;	/* offset of inode-blocks in filesys */
	__u32	s_dblkno;	/* offset of first data after cg */
	__u32	s_cgoffset;	/* cylinder group offset in cylinder */
	__u32	s_cgmask;	/* used to calc mod fs_ntrak */
	__u32	s_size;		/* number of blocks (fragments) in fs */
	__u32	s_dsize;	/* number of data blocks in fs */
	__u64	s_u2_size;	/* ufs2: number of blocks (fragments) in fs */
	__u64	s_u2_dsize;	/*ufs2:  number of data blocks in fs */
	__u32	s_ncg;		/* number of cylinder groups */
	__u32	s_bsize;	/* size of basic blocks */
	__u32	s_fsize;	/* size of fragments */
	__u32	s_fpb;		/* fragments per block */
	__u32	s_minfree;	/* minimum percentage of free blocks */
	__u32	s_bmask;	/* `blkoff'' calc of blk offsets */
	__u32	s_fmask;	/* s_fsize mask */
	__u32	s_bshift;	/* `lblkno'' calc of logical blkno */
	__u32   s_fshift;	/* s_fsize shift */
	__u32	s_fpbshift;	/* fragments per block shift */
	__u32	s_fsbtodb;	/* fsbtodb and dbtofsb shift constant */
	__u32	s_sbsize;	/* actual size of super block */
	__u32   s_csmask;	/* csum block offset */
	__u32	s_csshift;	/* csum block number */
	__u32	s_nindir;	/* value of NINDIR */
	__u32	s_inopb;	/* value of INOPB */
	__u32	s_nspf;		/* value of NSPF */
	__u32	s_npsect;	/* # sectors/track including spares */
	__u32	s_interleave;	/* hardware sector interleave */
	__u32	s_trackskew;	/* sector 0 skew, per track */
	__u32	s_csaddr;	/* blk addr of cyl grp summary area */
	__u32	s_cssize;	/* size of cyl grp summary area */
	__u32	s_cgsize;	/* cylinder group size */
	__u32	s_ntrak;	/* tracks per cylinder */
	__u32	s_nsect;	/* sectors per track */
	__u32	s_spc;		/* sectors per cylinder */
	__u32	s_ipg;		/* inodes per cylinder group */
	__u32	s_fpg;		/* fragments per group */
	__u32	s_cpc;		/* cyl per cycle in postbl */
	__s32	s_contigsumsize;/* size of cluster summary array, 44bsd */
	__s64	s_qbmask;	/* ~usb_bmask */
	__s64	s_qfmask;	/* ~usb_fmask */
	__s32	s_postblformat;	/* format of positional layout tables */
	__s32	s_nrpos;	/* number of rotational positions */
        __s32	s_postbloff;	/* (__s16) rotation block list head */
	__s32	s_rotbloff;	/* (__u8) blocks for each rotation */

	__u32	s_fpbmask;	/* fragments per block mask */
	__u32	s_apb;		/* address per block */
	__u32	s_2apb;		/* address per block^2 */
	__u32	s_3apb;		/* address per block^3 */
	__u32	s_apbmask;	/* address per block mask */
	__u32	s_apbshift;	/* address per block shift */
	__u32	s_2apbshift;	/* address per block shift * 2 */
	__u32	s_3apbshift;	/* address per block shift * 3 */
	__u32	s_nspfshift;	/* number of sector per fragment shift */
	__u32	s_nspb;		/* number of sector per block */
	__u32	s_inopf;	/* inodes per fragment */
	__u32	s_sbbase;	/* offset of NeXTstep superblock */
	__u32	s_bpf;		/* bits per fragment */
	__u32	s_bpfshift;	/* bits per fragment shift*/
	__u32	s_bpfmask;	/* bits per fragment mask */

	__u32	s_maxsymlinklen;/* upper limit on fast symlinks' size */
	__s32	fs_magic;       /* filesystem magic */
};

/*
 * Sizes of this structures are:
 *	ufs_super_block_first	512
 *	ufs_super_block_second	512
 *	ufs_super_block_third	356
 */
struct ufs_super_block_first {
	__fs32	fs_link;
	__fs32	fs_rlink;
	__fs32	fs_sblkno;
	__fs32	fs_cblkno;
	__fs32	fs_iblkno;
	__fs32	fs_dblkno;
	__fs32	fs_cgoffset;
	__fs32	fs_cgmask;
	__fs32	fs_time;
	__fs32	fs_size;
	__fs32	fs_dsize;
	__fs32	fs_ncg;
	__fs32	fs_bsize;
	__fs32	fs_fsize;
	__fs32	fs_frag;
	__fs32	fs_minfree;
	__fs32	fs_rotdelay;
	__fs32	fs_rps;
	__fs32	fs_bmask;
	__fs32	fs_fmask;
	__fs32	fs_bshift;
	__fs32	fs_fshift;
	__fs32	fs_maxcontig;
	__fs32	fs_maxbpg;
	__fs32	fs_fragshift;
	__fs32	fs_fsbtodb;
	__fs32	fs_sbsize;
	__fs32	fs_csmask;
	__fs32	fs_csshift;
	__fs32	fs_nindir;
	__fs32	fs_inopb;
	__fs32	fs_nspf;
	__fs32	fs_optim;
	union {
		struct {
			__fs32	fs_npsect;
		} fs_sun;
		struct {
			__fs32	fs_state;
		} fs_sunx86;
	} fs_u1;
	__fs32	fs_interleave;
	__fs32	fs_trackskew;
	__fs32	fs_id[2];
	__fs32	fs_csaddr;
	__fs32	fs_cssize;
	__fs32	fs_cgsize;
	__fs32	fs_ntrak;
	__fs32	fs_nsect;
	__fs32	fs_spc;
	__fs32	fs_ncyl;
	__fs32	fs_cpg;
	__fs32	fs_ipg;
	__fs32	fs_fpg;
	struct ufs_csum fs_cstotal;
	__s8	fs_fmod;
	__s8	fs_clean;
	__s8	fs_ronly;
	__s8	fs_flags;
	__s8	fs_fsmnt[UFS_MAXMNTLEN - 212];

};

struct ufs_super_block_second {
	union {
		struct {
			__s8	fs_fsmnt[212];
			__fs32	fs_cgrotor;
			__fs32	fs_csp[UFS_MAXCSBUFS];
			__fs32	fs_maxcluster;
			__fs32	fs_cpc;
			__fs16	fs_opostbl[82];
		} fs_u1;
		struct {
			__s8  fs_fsmnt[UFS2_MAXMNTLEN - UFS_MAXMNTLEN + 212];
			__u8   fs_volname[UFS2_MAXVOLLEN];
			__fs64  fs_swuid;
			__fs32  fs_pad;
			__fs32   fs_cgrotor;
			__fs32   fs_ocsp[UFS2_NOCSPTRS];
			__fs32   fs_contigdirs;
			__fs32   fs_csp;
			__fs32   fs_maxcluster;
			__fs32   fs_active;
			__fs32   fs_old_cpc;
			__fs32   fs_maxbsize;
			__fs64   fs_sparecon64[17];
			__fs64   fs_sblockloc;
			__fs64	cs_ndir;
			__fs64	cs_nbfree;
		} fs_u2;
	} fs_un;
};

struct ufs_super_block_third {
	union {
		struct {
			__fs16	fs_opostbl[46];
		} fs_u1;
		struct {
			__fs64	cs_nifree;	/* number of free inodes */
			__fs64	cs_nffree;	/* number of free frags */
			__fs64   cs_numclusters;	/* number of free clusters */
			__fs64   cs_spare[3];	/* future expansion */
			struct  ufs_timeval    fs_time;		/* last time written */
			__fs64    fs_size;		/* number of blocks in fs */
			__fs64    fs_dsize;	/* number of data blocks in fs */
			__fs64   fs_csaddr;	/* blk addr of cyl grp summary area */
			__fs64    fs_pendingblocks;/* blocks in process of being freed */
			__fs32    fs_pendinginodes;/*inodes in process of being freed */
		} fs_u2;
	} fs_un1;
	union {
		struct {
			__fs32	fs_sparecon[53];/* reserved for future constants */
			__fs32	fs_reclaim;
			__fs32	fs_sparecon2[1];
			__fs32	fs_state;	/* file system state time stamp */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
		} fs_sun;
		struct {
			__fs32	fs_sparecon[53];/* reserved for future constants */
			__fs32	fs_reclaim;
			__fs32	fs_sparecon2[1];
			__fs32	fs_npsect;	/* # sectors/track including spares */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
		} fs_sunx86;
		struct {
			__fs32	fs_sparecon[50];/* reserved for future constants */
			__fs32	fs_contigsumsize;/* size of cluster summary array */
			__fs32	fs_maxsymlinklen;/* max length of an internal symlink */
			__fs32	fs_inodefmt;	/* format of on-disk inodes */
			__fs32	fs_maxfilesize[2];	/* max representable file size */
			__fs32	fs_qbmask[2];	/* ~usb_bmask */
			__fs32	fs_qfmask[2];	/* ~usb_fmask */
			__fs32	fs_state;	/* file system state time stamp */
		} fs_44;
	} fs_un2;
	__fs32	fs_postblformat;
	__fs32	fs_nrpos;
	__fs32	fs_postbloff;
	__fs32	fs_rotbloff;
	__fs32	fs_magic;
	__u8	fs_space[1];
};

#ifdef __KERNEL__

/* balloc.c */
extern void ufs_free_fragments (struct inode *, unsigned, unsigned);
extern void ufs_free_blocks (struct inode *, unsigned, unsigned);
extern unsigned ufs_new_fragments(struct inode *, __fs32 *, unsigned, unsigned,
				  unsigned, int *, struct page *);

/* cylinder.c */
extern struct ufs_cg_private_info * ufs_load_cylinder (struct super_block *, unsigned);
extern void ufs_put_cylinder (struct super_block *, unsigned);

/* dir.c */
extern struct inode_operations ufs_dir_inode_operations;
extern int ufs_add_link (struct dentry *, struct inode *);
extern ino_t ufs_inode_by_name(struct inode *, struct dentry *);
extern int ufs_make_empty(struct inode *, struct inode *);
extern struct ufs_dir_entry *ufs_find_entry(struct inode *, struct dentry *, struct page **);
extern int ufs_delete_entry(struct inode *, struct ufs_dir_entry *, struct page *);
extern int ufs_empty_dir (struct inode *);
extern struct ufs_dir_entry *ufs_dotdot(struct inode *, struct page **);
extern void ufs_set_link(struct inode *dir, struct ufs_dir_entry *de,
			 struct page *page, struct inode *inode);

/* file.c */
extern struct inode_operations ufs_file_inode_operations;
extern const struct file_operations ufs_file_operations;

extern struct address_space_operations ufs_aops;

/* ialloc.c */
extern void ufs_free_inode (struct inode *inode);
extern struct inode * ufs_new_inode (struct inode *, int);

/* inode.c */
extern u64  ufs_frag_map (struct inode *, sector_t);
extern void ufs_read_inode (struct inode *);
extern void ufs_put_inode (struct inode *);
extern int ufs_write_inode (struct inode *, int);
extern int ufs_sync_inode (struct inode *);
extern void ufs_delete_inode (struct inode *);
extern struct buffer_head * ufs_getfrag (struct inode *, unsigned, int, int *);
extern struct buffer_head * ufs_bread (struct inode *, unsigned, int, int *);
extern int ufs_getfrag_block (struct inode *inode, sector_t fragment, struct buffer_head *bh_result, int create);

/* namei.c */
extern const struct file_operations ufs_dir_operations;
        
/* super.c */
extern void ufs_warning (struct super_block *, const char *, const char *, ...) __attribute__ ((format (printf, 3, 4)));
extern void ufs_error (struct super_block *, const char *, const char *, ...) __attribute__ ((format (printf, 3, 4)));
extern void ufs_panic (struct super_block *, const char *, const char *, ...) __attribute__ ((format (printf, 3, 4)));

/* symlink.c */
extern struct inode_operations ufs_fast_symlink_inode_operations;

/* truncate.c */
extern void ufs_truncate (struct inode *);

static inline struct ufs_sb_info *UFS_SB(struct super_block *sb)
{
	return sb->s_fs_info;
}

static inline struct ufs_inode_info *UFS_I(struct inode *inode)
{
	return container_of(inode, struct ufs_inode_info, vfs_inode);
}

#endif	/* __KERNEL__ */

#endif /* __LINUX_UFS_FS_H */