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398 lines
16 KiB
C
398 lines
16 KiB
C
/*-
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* Copyright (c) 1991, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)lfs.h 8.9 (Berkeley) 5/8/95
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* $Id: lfs.h,v 1.9 1997/02/22 09:47:15 peter Exp $
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*/
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#ifndef _UFS_LFS_LFS_H_
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#define _UFS_LFS_LFS_H_
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#define LFS_LABELPAD 8192 /* LFS label size */
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#define LFS_SBPAD 8192 /* LFS superblock size */
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/*
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* XXX
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* This is a kluge and NEEDS to go away.
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*
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* Right now, ufs code handles most of the calls for directory operations
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* such as create, mkdir, link, etc. As a result VOP_UPDATE is being
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* called with waitfor set (since ffs does these things synchronously).
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* Since LFS does not want to do these synchronously, we treat the last
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* argument to lfs_update as a set of flags. If LFS_SYNC is set, then
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* the update should be synchronous, if not, do it asynchronously.
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* Unfortunately, this means that LFS won't work with NFS yet because
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* NFS goes through paths that will make normal calls to ufs which will
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* call lfs with a last argument of 1.
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*/
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#define LFS_SYNC 0x02
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/* On-disk and in-memory checkpoint segment usage structure. */
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typedef struct segusage SEGUSE;
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struct segusage {
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u_int32_t su_nbytes; /* number of live bytes */
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u_int32_t su_lastmod; /* SEGUSE last modified timestamp */
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u_int16_t su_nsums; /* number of summaries in segment */
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u_int16_t su_ninos; /* number of inode blocks in seg */
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#define SEGUSE_ACTIVE 0x01 /* segment is currently being written */
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#define SEGUSE_DIRTY 0x02 /* segment has data in it */
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#define SEGUSE_SUPERBLOCK 0x04 /* segment contains a superblock */
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u_int32_t su_flags;
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};
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#define SEGUPB(fs) (1 << (fs)->lfs_sushift)
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#define SEGTABSIZE_SU(fs) \
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(((fs)->lfs_nseg + SEGUPB(fs) - 1) >> (fs)->lfs_sushift)
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/* On-disk file information. One per file with data blocks in the segment. */
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typedef struct finfo FINFO;
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struct finfo {
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u_int32_t fi_nblocks; /* number of blocks */
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u_int32_t fi_version; /* version number */
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u_int32_t fi_ino; /* inode number */
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u_int32_t fi_lastlength; /* length of last block in array */
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ufs_daddr_t fi_blocks[1]; /* array of logical block numbers */
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};
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/* On-disk and in-memory super block. */
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struct lfs {
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#define LFS_MAGIC 0x070162
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u_int32_t lfs_magic; /* magic number */
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#define LFS_VERSION 1
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u_int32_t lfs_version; /* version number */
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u_int32_t lfs_size; /* number of blocks in fs */
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u_int32_t lfs_ssize; /* number of blocks per segment */
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u_int32_t lfs_dsize; /* number of disk blocks in fs */
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u_int32_t lfs_bsize; /* file system block size */
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u_int32_t lfs_fsize; /* size of frag blocks in fs */
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u_int32_t lfs_frag; /* number of frags in a block in fs */
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/* Checkpoint region. */
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ino_t lfs_free; /* start of the free list */
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u_int32_t lfs_bfree; /* number of free disk blocks */
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u_int32_t lfs_nfiles; /* number of allocated inodes */
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int32_t lfs_avail; /* blocks available for writing */
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u_int32_t lfs_uinodes; /* inodes in cache not yet on disk */
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ufs_daddr_t lfs_idaddr; /* inode file disk address */
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ino_t lfs_ifile; /* inode file inode number */
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ufs_daddr_t lfs_lastseg; /* address of last segment written */
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ufs_daddr_t lfs_nextseg; /* address of next segment to write */
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ufs_daddr_t lfs_curseg; /* current segment being written */
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ufs_daddr_t lfs_offset; /* offset in curseg for next partial */
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ufs_daddr_t lfs_lastpseg; /* address of last partial written */
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u_int32_t lfs_tstamp; /* time stamp */
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/* These are configuration parameters. */
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u_int32_t lfs_minfree; /* minimum percentage of free blocks */
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/* These fields can be computed from the others. */
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u_int64_t lfs_maxfilesize; /* maximum representable file size */
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u_int32_t lfs_dbpseg; /* disk blocks per segment */
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u_int32_t lfs_inopb; /* inodes per block */
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u_int32_t lfs_ifpb; /* IFILE entries per block */
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u_int32_t lfs_sepb; /* SEGUSE entries per block */
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u_int32_t lfs_nindir; /* indirect pointers per block */
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u_int32_t lfs_nseg; /* number of segments */
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u_int32_t lfs_nspf; /* number of sectors per fragment */
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u_int32_t lfs_cleansz; /* cleaner info size in blocks */
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u_int32_t lfs_segtabsz; /* segment table size in blocks */
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u_int32_t lfs_segmask; /* calculate offset within a segment */
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u_int32_t lfs_segshift; /* fast mult/div for segments */
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u_int64_t lfs_bmask; /* calc block offset from file offset */
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u_int32_t lfs_bshift; /* calc block number from file offset */
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u_int64_t lfs_ffmask; /* calc frag offset from file offset */
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u_int32_t lfs_ffshift; /* fast mult/div for frag from file */
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u_int64_t lfs_fbmask; /* calc frag offset from block offset */
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u_int32_t lfs_fbshift; /* fast mult/div for frag from block */
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u_int32_t lfs_fsbtodb; /* fsbtodb and dbtofsb shift constant */
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u_int32_t lfs_sushift; /* fast mult/div for segusage table */
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int32_t lfs_maxsymlinklen; /* max length of an internal symlink */
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#define LFS_MIN_SBINTERVAL 5 /* minimum superblock segment spacing */
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#define LFS_MAXNUMSB 10 /* superblock disk offsets */
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ufs_daddr_t lfs_sboffs[LFS_MAXNUMSB];
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/* Checksum -- last valid disk field. */
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u_int32_t lfs_cksum; /* checksum for superblock checking */
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/* These fields are set at mount time and are meaningless on disk. */
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struct segment *lfs_sp; /* current segment being written */
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struct vnode *lfs_ivnode; /* vnode for the ifile */
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u_long lfs_seglock; /* single-thread the segment writer */
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pid_t lfs_lockpid; /* pid of lock holder */
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u_long lfs_iocount; /* number of ios pending */
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u_long lfs_writer; /* don't allow any dirops to start */
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u_long lfs_dirops; /* count of active directory ops */
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u_long lfs_doifile; /* Write ifile blocks on next write */
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u_long lfs_nactive; /* Number of segments since last ckp */
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int8_t lfs_fmod; /* super block modified flag */
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int8_t lfs_clean; /* file system is clean flag */
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int8_t lfs_ronly; /* mounted read-only flag */
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int8_t lfs_flags; /* currently unused flag */
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u_char lfs_fsmnt[MNAMELEN]; /* name mounted on */
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int32_t lfs_pad[40]; /* round to 512 bytes */
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};
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/*
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* Inode 0: out-of-band inode number
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* Inode 1: IFILE inode number
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* Inode 2: root inode
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* Inode 3: lost+found inode number
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*/
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#define LFS_UNUSED_INUM 0 /* out of band inode number */
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#define LFS_IFILE_INUM 1 /* IFILE inode number */
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#define LOSTFOUNDINO 3 /* lost+found inode number */
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#define LFS_FIRST_INUM 4 /* first free inode number */
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/* Address calculations for metadata located in the inode */
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#define S_INDIR(fs) -NDADDR
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#define D_INDIR(fs) (S_INDIR(fs) - NINDIR(fs) - 1)
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#define T_INDIR(fs) (D_INDIR(fs) - NINDIR(fs) * NINDIR(fs) - 1)
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/* Unassigned disk address. */
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#define UNASSIGNED -1
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/* Unused logical block number */
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#define LFS_UNUSED_LBN -1
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typedef struct ifile IFILE;
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struct ifile {
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u_int32_t if_version; /* inode version number */
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#define LFS_UNUSED_DADDR 0 /* out-of-band daddr */
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ufs_daddr_t if_daddr; /* inode disk address */
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ino_t if_nextfree; /* next-unallocated inode */
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};
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/*
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* Cleaner information structure. This resides in the ifile and is used
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* to pass information between the cleaner and the kernel.
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*/
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typedef struct _cleanerinfo {
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u_int32_t clean; /* K: number of clean segments */
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u_int32_t dirty; /* K: number of dirty segments */
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} CLEANERINFO;
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#define CLEANSIZE_SU(fs) \
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((sizeof(CLEANERINFO) + (fs)->lfs_bsize - 1) >> (fs)->lfs_bshift)
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/*
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* All summary blocks are the same size, so we can always read a summary
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* block easily from a segment.
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*/
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#define LFS_SUMMARY_SIZE 512
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/* On-disk segment summary information */
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typedef struct segsum SEGSUM;
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struct segsum {
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u_int32_t ss_sumsum; /* check sum of summary block */
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u_int32_t ss_datasum; /* check sum of data */
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u_int32_t ss_magic; /* segment summary magic number */
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#define SS_MAGIC 0x061561
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ufs_daddr_t ss_next; /* next segment */
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u_int32_t ss_create; /* creation time stamp */
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u_int16_t ss_nfinfo; /* number of file info structures */
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u_int16_t ss_ninos; /* number of inodes in summary */
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#define SS_DIROP 0x01 /* segment begins a dirop */
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#define SS_CONT 0x02 /* more partials to finish this write*/
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u_int16_t ss_flags; /* used for directory operations */
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u_int16_t ss_pad; /* extra space */
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/* FINFO's and inode daddr's... */
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};
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/* NINDIR is the number of indirects in a file system block. */
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#define NINDIR(fs) ((fs)->lfs_nindir)
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/* INOPB is the number of inodes in a secondary storage block. */
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#define INOPB(fs) ((fs)->lfs_inopb)
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#define blksize(fs, ip, lbn) \
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(((lbn) >= NDADDR || (ip)->i_size >= ((lbn) + 1) << (fs)->lfs_bshift) \
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? (fs)->lfs_bsize \
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: (fragroundup(fs, blkoff(fs, (ip)->i_size))))
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#define blkoff(fs, loc) ((int)((loc) & (fs)->lfs_bmask))
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#define fragoff(fs, loc) /* calculates (loc % fs->lfs_fsize) */ \
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((int)((loc) & (fs)->lfs_ffmask))
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#define fsbtodb(fs, b) ((b) << (fs)->lfs_fsbtodb)
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#define dbtofsb(fs, b) ((b) >> (fs)->lfs_fsbtodb)
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#define fragstodb(fs, b) ((b) << (fs)->lfs_fsbtodb - (fs)->lfs_fbshift)
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#define dbtofrags(fs, b) ((b) >> (fs)->lfs_fsbtodb - (fs)->lfs_fbshift)
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#define lblkno(fs, loc) ((loc) >> (fs)->lfs_bshift)
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#define lblktosize(fs, blk) ((blk) << (fs)->lfs_bshift)
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#define numfrags(fs, loc) /* calculates (loc / fs->lfs_fsize) */ \
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((loc) >> (fs)->lfs_ffshift)
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#define blkroundup(fs, size) /* calculates roundup(size, fs->lfs_bsize) */ \
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((int)(((size) + (fs)->lfs_bmask) & (~(fs)->lfs_bmask)))
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#define fragroundup(fs, size) /* calculates roundup(size, fs->lfs_fsize) */ \
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((int)(((size) + (fs)->lfs_ffmask) & (~(fs)->lfs_ffmask)))
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#define fragstoblks(fs, frags) /* calculates (frags / fs->lfs_frag) */ \
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((frags) >> (fs)->lfs_fbshift)
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#define blkstofrags(fs, blks) /* calculates (blks * fs->lfs_frag) */ \
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((blks) << (fs)->lfs_fbshift)
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#define fragnum(fs, fsb) /* calculates (fsb % fs->lfs_frag) */ \
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((fsb) & ((fs)->lfs_frag - 1))
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#define blknum(fs, fsb) /* calculates rounddown(fsb, fs->lfs_frag) */ \
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((fsb) &~ ((fs)->lfs_frag - 1))
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#define dblksize(fs, dip, lbn) \
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(((lbn) >= NDADDR || (dip)->di_size >= ((lbn) + 1) << (fs)->lfs_bshift)\
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? (fs)->lfs_bsize \
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: (fragroundup(fs, blkoff(fs, (dip)->di_size))))
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#define datosn(fs, daddr) /* disk address to segment number */ \
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(((daddr) - (fs)->lfs_sboffs[0]) / fsbtodb((fs), (fs)->lfs_ssize))
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#define sntoda(fs, sn) /* segment number to disk address */ \
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((ufs_daddr_t)((sn) * ((fs)->lfs_ssize << (fs)->lfs_fsbtodb) + \
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(fs)->lfs_sboffs[0]))
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/* Read in the block with the cleaner info from the ifile. */
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#define LFS_CLEANERINFO(CP, F, BP) { \
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VTOI((F)->lfs_ivnode)->i_flag |= IN_ACCESS; \
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if (bread((F)->lfs_ivnode, \
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(ufs_daddr_t)0, (F)->lfs_bsize, NOCRED, &(BP))) \
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panic("lfs: ifile read"); \
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(CP) = (CLEANERINFO *)(BP)->b_data; \
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}
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/* Read in the block with a specific inode from the ifile. */
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#define LFS_IENTRY(IP, F, IN, BP) { \
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int _e; \
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VTOI((F)->lfs_ivnode)->i_flag |= IN_ACCESS; \
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if (_e = bread((F)->lfs_ivnode, \
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(IN) / (F)->lfs_ifpb + (F)->lfs_cleansz + (F)->lfs_segtabsz,\
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(F)->lfs_bsize, NOCRED, &(BP))) \
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panic("lfs: ifile read %d", _e); \
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(IP) = (IFILE *)(BP)->b_data + (IN) % (F)->lfs_ifpb; \
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}
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/* Read in the block with a specific segment usage entry from the ifile. */
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#define LFS_SEGENTRY(SP, F, IN, BP) { \
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int _e; \
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VTOI((F)->lfs_ivnode)->i_flag |= IN_ACCESS; \
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_e = bread((F)->lfs_ivnode, \
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((IN) >> (F)->lfs_sushift) + (F)->lfs_cleansz, \
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(F)->lfs_bsize, NOCRED, &(BP)); \
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if (_e) \
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panic("lfs: ifile read: %d", _e); \
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(SP) = (SEGUSE *)(BP)->b_data + ((IN) & (F)->lfs_sepb - 1); \
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}
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#ifdef CC_WALL
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/* The above ^^^^^^^^^^^^^^^^^^^^^^^^^^^
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* looks like a potential bug to me.
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*/
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#endif
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/*
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* Determine if there is enough room currently available to write db
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* disk blocks. We need enough blocks for the new blocks, the current,
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* inode blocks, a summary block, plus potentially the ifile inode and
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* the segment usage table, plus an ifile page.
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*/
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#define LFS_FITS(fs, db) \
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((int32_t)((db + ((fs)->lfs_uinodes + INOPB((fs))) / \
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INOPB((fs)) + fsbtodb(fs, 1) + LFS_SUMMARY_SIZE / DEV_BSIZE + \
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(fs)->lfs_segtabsz)) < (fs)->lfs_avail)
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/* Determine if a buffer belongs to the ifile */
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#define IS_IFILE(bp) (VTOI(bp->b_vp)->i_number == LFS_IFILE_INUM)
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/*
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* Structures used by lfs_bmapv and lfs_markv to communicate information
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* about inodes and data blocks.
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*/
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typedef struct block_info {
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ino_t bi_inode; /* inode # */
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ufs_daddr_t bi_lbn; /* logical block w/in file */
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ufs_daddr_t bi_daddr; /* disk address of block */
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time_t bi_segcreate; /* origin segment create time */
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int bi_version; /* file version number */
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void *bi_bp; /* data buffer */
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int bi_size; /* size of the block (if fragment) */
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} BLOCK_INFO;
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/* In-memory description of a segment about to be written. */
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struct segment {
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struct lfs *fs; /* file system pointer */
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struct buf **bpp; /* pointer to buffer array */
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struct buf **cbpp; /* pointer to next available bp */
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struct buf **start_bpp; /* pointer to first bp in this set */
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struct buf *ibp; /* buffer pointer to inode page */
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struct finfo *fip; /* current fileinfo pointer */
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struct vnode *vp; /* vnode being gathered */
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void *segsum; /* segment summary info */
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u_int32_t ninodes; /* number of inodes in this segment */
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u_int32_t seg_bytes_left; /* bytes left in segment */
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u_int32_t sum_bytes_left; /* bytes left in summary block */
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u_int32_t seg_number; /* number of this segment */
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ufs_daddr_t *start_lbp; /* beginning lbn for this set */
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#define SEGM_CKP 0x01 /* doing a checkpoint */
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#define SEGM_CLEAN 0x02 /* cleaner call; don't sort */
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#define SEGM_SYNC 0x04 /* wait for segment */
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u_int16_t seg_flags; /* run-time flags for this segment */
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};
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#define ISSPACE(F, BB, C) \
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(((C)->cr_uid == 0 && (F)->lfs_bfree >= (BB)) || \
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((C)->cr_uid != 0 && IS_FREESPACE(F, BB)))
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#define IS_FREESPACE(F, BB) \
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((F)->lfs_bfree > ((F)->lfs_dsize * (F)->lfs_minfree / 100 + (BB)))
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#define ISSPACE_XXX(F, BB) \
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((F)->lfs_bfree >= (BB))
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#define DOSTATS
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#ifdef DOSTATS
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/* Statistics Counters */
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struct lfs_stats {
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u_int segsused;
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u_int psegwrites;
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u_int psyncwrites;
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u_int pcleanwrites;
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u_int blocktot;
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u_int cleanblocks;
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u_int ncheckpoints;
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u_int nwrites;
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u_int nsync_writes;
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u_int wait_exceeded;
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u_int write_exceeded;
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|
u_int flush_invoked;
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};
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extern struct lfs_stats lfs_stats;
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#endif
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#endif
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