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a5b65058d5
that use it. Specifically, vop_stdlock uses the lock pointed to by vp->v_vnlock. By default, getnewvnode sets up vp->v_vnlock to reference vp->v_lock. Filesystems that wish to use the default do not need to allocate a lock at the front of their node structure (as some still did) or do a lockinit. They can simply start using vn_lock/VOP_UNLOCK. Filesystems that wish to manage their own locks, but still use the vop_stdlock functions (such as nullfs) can simply replace vp->v_vnlock with a pointer to the lock that they wish to have used for the vnode. Such filesystems are responsible for setting the vp->v_vnlock back to the default in their vop_reclaim routine (e.g., vp->v_vnlock = &vp->v_lock). In theory, this set of changes cleans up the existing filesystem lock interface and should have no function change to the existing locking scheme. Sponsored by: DARPA & NAI Labs.
399 lines
11 KiB
C
399 lines
11 KiB
C
/*-
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* Copyright (c) 1998, 1999 Semen Ustimenko (semenu@FreeBSD.org)
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* 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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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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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* $FreeBSD$
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*/
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/*#define HPFS_DEBUG 10*/
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typedef u_int32_t lsn_t; /* Logical Sector Number */
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typedef struct {
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lsn_t lsn1;
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lsn_t lsn2;
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} rsp_t; /* Redundant Sector Pointer */
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typedef struct {
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u_int32_t cnt;
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lsn_t lsn;
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} sptr_t; /* Storage Pointer */
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#define SUBLOCK 0x10
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#define SUSIZE DEV_BSIZE
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#define SPBLOCK 0x11
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#define SPSIZE DEV_BSIZE
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#define BMSIZE (4 * DEV_BSIZE)
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#define HPFS_MAXFILENAME 255
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#define SU_MAGIC ((u_int64_t)0xFA53E9C5F995E849)
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struct sublock {
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u_int64_t su_magic;
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u_int8_t su_hpfsver;
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u_int8_t su_fnctver;
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u_int16_t unused;
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lsn_t su_rootfno; /* Root Fnode */
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u_int32_t su_btotal; /* Total blocks */
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u_int32_t su_badbtotal; /* Bad Sectors total */
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rsp_t su_bitmap;
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rsp_t su_badbl;
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u_long su_chkdskdate;
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u_long su_dskoptdate;
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u_int32_t su_dbbsz; /* Sectors in DirBlock Band */
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lsn_t su_dbbstart;
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lsn_t su_dbbend;
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lsn_t su_dbbbitmap;
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char su_volname[0x20];
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lsn_t su_uidt; /* Ptr to User ID Table (8 sect) */
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};
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#define SP_MAGIC ((u_int64_t)0xFA5229C5F9911849)
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#define SP_DIRTY 0x0001
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#define SP_SPDBINUSE 0x0002
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#define SP_HFINUSE 0x0004
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#define SP_BADSECT 0x0008
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#define SP_BADBMBL 0x0010
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#define SP_FASTFRMT 0x0020
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#define SP_OLDHPFS 0x0080
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#define SP_IDASD 0x0100
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#define SP_RDASD 0x0200
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#define SP_DASD 0x0400
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#define SP_MMACTIVE 0x0800
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#define SP_DCEACLS 0x1000
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#define SP_DSADDIRTY 0x2000
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struct spblock {
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u_int64_t sp_magic;
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u_int16_t sp_flag;
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u_int8_t sp_mmcontf;
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u_int8_t unused;
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lsn_t sp_hf; /* HotFix list */
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u_int32_t sp_hfinuse; /* HotFixes in use */
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u_int32_t sp_hfavail; /* HotFixes available */
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u_int32_t sp_spdbavail; /* Spare DirBlocks available */
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u_int32_t sp_spdbmax; /* Spare DirBlocks maximum */
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lsn_t sp_cpi;
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u_int32_t sp_cpinum;
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u_int32_t sp_suchecksum;
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u_int32_t sp_spchecksum;
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u_int8_t reserved[0x3C];
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lsn_t sp_spdb[0x65];
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};
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#define DE_SPECIAL 0x0001
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#define DE_ACL 0x0002
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#define DE_DOWN 0x0004
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#define DE_END 0x0008
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#define DE_EALIST 0x0010
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#define DE_EPERM 0x0020
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#define DE_EXPLACL 0x0040
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#define DE_NEEDEA 0x0080
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#define DE_RONLY 0x0100
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#define DE_HIDDEN 0x0200
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#define DE_SYSTEM 0x0400
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#define DE_VOLLABEL 0x0800
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#define DE_DIR 0x1000
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#define DE_ARCHIV 0x2000
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#define DE_DOWNLSN(dep) (*(lsn_t *)((caddr_t)(dep) + (dep)->de_reclen - sizeof(lsn_t)))
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#define DE_NEXTDE(dep) ((struct hpfsdirent *)((caddr_t)(dep) + (dep)->de_reclen))
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typedef struct hpfsdirent {
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u_int16_t de_reclen;
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u_int16_t de_flag;
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lsn_t de_fnode;
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u_long de_mtime;
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u_int32_t de_size;
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u_long de_atime;
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u_long de_ctime;
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u_int32_t de_ealen;
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u_int8_t de_flexflag;
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u_int8_t de_cpid;
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u_int8_t de_namelen;
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char de_name[1];
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/* ... de_flex; */
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/* lsn_t de_down; */
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} hpfsdirent_t;
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#define D_BSIZE (DEV_BSIZE*4)
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#define D_MAGIC 0x77E40AAE
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#define D_DIRENT(dbp) ((hpfsdirent_t *)((caddr_t)dbp + sizeof(dirblk_t)))
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#define D_DE(dbp, deoff) ((hpfsdirent_t *)((caddr_t)dbp + sizeof(dirblk_t) + (deoff)))
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typedef struct dirblk {
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u_int32_t d_magic;
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u_int32_t d_freeoff; /* Offset of first free byte */
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u_int32_t d_chcnt; /* Change count */
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lsn_t d_parent;
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lsn_t d_self;
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} dirblk_t;
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/*
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* Allocation Block (ALBLK)
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*/
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#define AB_HBOFFEO 0x01
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#define AB_FNPARENT 0x20
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#define AB_SUGGBSCH 0x40
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#define AB_NODES 0x80
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#define AB_ALLEAF(abp) ((alleaf_t *)((caddr_t)(abp) + sizeof(alblk_t)))
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#define AB_ALNODE(abp) ((alnode_t *)((caddr_t)(abp) + sizeof(alblk_t)))
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#define AB_FREEALP(abp) ((alleaf_t *)((caddr_t)(abp) + (abp)->ab_freeoff))
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#define AB_FREEANP(abp) ((alnode_t *)((caddr_t)(abp) + (abp)->ab_freeoff))
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#define AB_LASTALP(abp) (AB_ALLEAF(abp) + (abp)->ab_busycnt - 1)
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#define AB_LASTANP(abp) (AB_ALNODE(abp) + (abp)->ab_busycnt - 1)
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#define AB_ADDNREC(abp, sz, n) { \
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(abp)->ab_busycnt += (n); \
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(abp)->ab_freecnt -= (n); \
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(abp)->ab_freeoff += (n) * (sz); \
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}
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#define AB_RMNREC(abp, sz, n) { \
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(abp)->ab_busycnt -= (n); \
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(abp)->ab_freecnt += (n); \
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(abp)->ab_freeoff -= (n) * (sz);\
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}
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#define AB_ADDAL(abp) AB_ADDNREC(abp,sizeof(alleaf_t), 1)
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#define AB_ADDAN(abp) AB_ADDNREC(abp,sizeof(alnode_t), 1)
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#define AB_RMAL(abp) AB_RMNREC(abp,sizeof(alleaf_t), 1)
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#define AB_RMAN(abp) AB_RMNREC(abp,sizeof(alnode_t), 1)
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typedef struct alblk {
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u_int8_t ab_flag;
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u_int8_t ab_res[3];
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u_int8_t ab_freecnt;
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u_int8_t ab_busycnt;
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u_int16_t ab_freeoff;
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} alblk_t;
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/*
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* FNode
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*/
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#define FNODESIZE DEV_BSIZE
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#define FN_MAGIC 0xF7E40AAE
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struct fnode {
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u_int32_t fn_magic;
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u_int64_t fn_readhist;
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u_int8_t fn_namelen;
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char fn_name[0xF]; /* First 15 symbols or less */
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lsn_t fn_parent;
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sptr_t fn_extacl;
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u_int16_t fn_acllen;
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u_int8_t fn_extaclflag;
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u_int8_t fn_histbitcount;
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sptr_t fn_extea;
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u_int16_t fn_ealen; /* Len of EAs in Fnode */
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u_int8_t fn_exteaflag; /* EAs in exteas */
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u_int8_t fn_flag;
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alblk_t fn_ab;
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u_int8_t fn_abd[0x60];
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u_int32_t fn_size;
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u_int32_t fn_reqea;
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u_int8_t fn_uid[0x10];
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u_int16_t fn_intoff;
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u_int8_t fn_1dasdthr;
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u_int8_t fn_dasdthr;
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u_int32_t fn_dasdlim;
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u_int32_t fn_dasdusage;
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u_int8_t fn_int[0x13c];
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};
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#define EA_NAME(eap) ((char *)(((caddr_t)(eap)) + sizeof(struct ea)))
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struct ea {
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u_int8_t ea_type; /* 0 - plain val */
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/* 1 - sptr to val */
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/* 3 - lsn point to AlSec, cont. val */
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u_int8_t ea_namelen;
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u_int16_t ea_vallen;
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/*u_int8_t ea_name[]; */
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/*u_int8_t ea_val[]; */
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};
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/*
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* Allocation Block Data (ALNODE)
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*
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* NOTE: AlNodes are used when there are too many fragments
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* to represent the data in the AlBlk
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*/
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#define AN_SET(anp,nextoff,lsn) { \
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(anp)->an_nextoff = (nextoff); \
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(anp)->an_lsn = (lsn); \
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}
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typedef struct alnode {
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u_int32_t an_nextoff; /* next node offset in blocks */
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lsn_t an_lsn; /* position of AlSec structure */
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} alnode_t;
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/*
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* Allocaion Block Data (ALLEAF)
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*
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* NOTE: Leaves are used to point at contiguous block of data
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* (a fragment or an "extent");
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*/
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#define AL_SET(alp,off,len,lsn) { \
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(alp)->al_off = (off); \
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(alp)->al_len = (len); \
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(alp)->al_lsn = (lsn); \
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}
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typedef struct alleaf {
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u_int32_t al_off; /* offset in blocks */
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u_int32_t al_len; /* len in blocks */
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lsn_t al_lsn; /* phys position */
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} alleaf_t;
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/*
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* Allocation Sector
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*
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* NOTE: AlSecs are not initialized before use, so they ussually
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* look full of junk. Use the AlBlk tto validate the data.
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*/
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#define AS_MAGIC 0x37E40AAE
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typedef struct alsec {
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u_int32_t as_magic;
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lsn_t as_self;
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lsn_t as_parent;
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alblk_t as_ab;
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u_int8_t as_abd[0x1E0];
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} alsec_t;
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/*
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* Code Page structures
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*/
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struct cpdblk {
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u_int16_t b_country; /* Country code */
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u_int16_t b_cpid; /* CP ID */
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u_int16_t b_dbcscnt; /* Count of DBCS ranges in CP */
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char b_upcase[0x80]; /* Case conversion table */
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u_int16_t b_dbcsrange; /* Start/End DBCS range pairs */
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};
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#define CPD_MAGIC ((u_int32_t)0x894521F7)
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struct cpdsec {
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u_int32_t d_magic;
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u_int16_t d_cpcnt; /* CP Data count */
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u_int16_t d_cpfirst; /* Index of first CP Data */
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u_int32_t d_checksum[3]; /* CP Data checksumms */
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u_int16_t d_offset[3]; /* Offsets of CP Data blocks */
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struct cpdblk d_cpdblk[3]; /* Array of CP Data Blocks */
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};
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struct cpiblk {
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u_int16_t b_country; /* Country code */
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u_int16_t b_cpid; /* CP ID */
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u_int32_t b_checksum;
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lsn_t b_cpdsec; /* Pointer to CP Data Sector */
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u_int16_t b_vcpid; /* Volume spec. CP ID */
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u_int16_t b_dbcscnt; /* Count of DBCS ranges in CP */
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};
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#define CPI_MAGIC ((u_int32_t)0x494521F7)
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struct cpisec {
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u_int32_t s_magic;
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u_int32_t s_cpicnt; /* Count of CPI's in this sector */
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u_int32_t s_cpifirst; /* Index of first CPI in this sector */
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lsn_t s_next; /* Pointer to next CPI Sector */
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struct cpiblk s_cpi[0x1F]; /* Array of CPI blocks */
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};
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struct hpfsmount {
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struct sublock hpm_su;
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struct spblock hpm_sp;
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struct mount * hpm_mp;
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struct vnode * hpm_devvp;
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dev_t hpm_dev;
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uid_t hpm_uid;
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gid_t hpm_gid;
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mode_t hpm_mode;
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lsn_t * hpm_bmind;
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struct cpdblk * hpm_cpdblk; /* Array of CP Data Blocks */
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u_char hpm_u2d[0x80]; /* Unix to DOS Table*/
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u_char hpm_d2u[0x80]; /* DOS to Unix Table*/
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u_long hpm_bavail; /* Blocks available */
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u_long hpm_dbnum; /* Data Band number */
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u_int8_t * hpm_bitmap;
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};
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#define H_HASHED 0x0001 /* Present in hash */
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#define H_PARVALID 0x0002 /* parent info is valid */
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#define H_CHANGE 0x0004 /* node date was changed */
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#define H_PARCHANGE 0x0008 /* parent node date was changed */
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#define H_INVAL 0x0010 /* Invalid node */
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struct hpfsnode {
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struct mtx h_interlock;
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LIST_ENTRY(hpfsnode) h_hash;
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struct hpfsmount *h_hpmp;
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struct fnode h_fn;
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struct vnode * h_vp;
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struct vnode * h_devvp;
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dev_t h_dev;
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lsn_t h_no;
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uid_t h_uid;
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gid_t h_gid;
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mode_t h_mode;
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u_int32_t h_flag;
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/* parent dir information */
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u_long h_mtime;
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u_long h_atime;
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u_long h_ctime;
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char h_name[HPFS_MAXFILENAME+1]; /* Used to speedup dirent */
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int h_namelen; /* lookup */
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};
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/* This overlays the fid structure (see <sys/mount.h>) */
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struct hpfid {
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u_int16_t hpfid_len; /* Length of structure. */
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u_int16_t hpfid_pad; /* Force 32-bit alignment. */
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lsn_t hpfid_ino; /* File number (ino). */
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int32_t hpfid_gen; /* Generation number. */
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};
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#if defined(HPFS_DEBUG)
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#define dprintf(a) printf a
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#if HPFS_DEBUG > 1
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#define ddprintf(a) printf a
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#else
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#define ddprintf(a)
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#endif
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#else
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#define dprintf(a)
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#define ddprintf(a)
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#endif
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#if __FreeBSD_version >= 300000
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MALLOC_DECLARE(M_HPFSMNT);
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MALLOC_DECLARE(M_HPFSNO);
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#endif
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#define VFSTOHPFS(mp) ((struct hpfsmount *)((mp)->mnt_data))
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#define VTOHP(v) ((struct hpfsnode *)((v)->v_data))
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#define HPTOV(h) ((struct vnode *)((h)->h_vp))
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#define FID(f) (*((lsn_t *)(f)->fid_data))
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extern vop_t ** hpfs_vnodeop_p;
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/* Hash routines, too small to be separate header */
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void hpfs_hphashinit(void);
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void hpfs_hphashdestroy(void);
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struct hpfsnode *hpfs_hphashlookup(dev_t, lsn_t);
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struct hpfsnode *hpfs_hphashget(dev_t, lsn_t);
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int hpfs_hphashvget(dev_t, lsn_t, int, struct vnode **, struct thread *);
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void hpfs_hphashins(register struct hpfsnode *);
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void hpfs_hphashrem(register struct hpfsnode *);
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extern struct lock hpfs_hphash_lock;
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