be2ae12b54
git-svn-id: https://svn.code.sf.net/p/freedos/svn/kernel/trunk@196 6ac86273-5f31-0410-b378-82cca8765d1b
389 lines
13 KiB
C
389 lines
13 KiB
C
/****************************************************************/
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/* */
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/* fattab.c */
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/* */
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/* FAT File System Table Functions */
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/* */
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/* Copyright (c) 1995 */
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/* Pasquale J. Villani */
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/* All Rights Reserved */
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/* */
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/* This file is part of DOS-C. */
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/* */
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/* DOS-C is free software; you can redistribute it and/or */
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/* modify it under the terms of the GNU General Public License */
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/* as published by the Free Software Foundation; either version */
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/* 2, or (at your option) any later version. */
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/* */
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/* DOS-C is distributed in the hope that it will be useful, but */
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/* WITHOUT ANY WARRANTY; without even the implied warranty of */
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/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See */
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/* the GNU General Public License for more details. */
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/* */
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/* You should have received a copy of the GNU General Public */
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/* License along with DOS-C; see the file COPYING. If not, */
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/* write to the Free Software Foundation, 675 Mass Ave, */
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/* Cambridge, MA 02139, USA. */
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/****************************************************************/
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#include "portab.h"
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#include "globals.h"
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#ifdef VERSION_STRINGS
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static BYTE *RcsId = "$Id$";
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#endif
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/*
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* $Log$
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* Revision 1.4 2001/04/15 03:21:50 bartoldeman
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* See history.txt for the list of fixes.
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*
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* Revision 1.3 2000/05/25 20:56:21 jimtabor
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* Fixed project history
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*
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* Revision 1.2 2000/05/08 04:30:00 jimtabor
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* Update CVS to 2020
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*
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* Revision 1.1.1.1 2000/05/06 19:34:53 jhall1
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* The FreeDOS Kernel. A DOS kernel that aims to be 100% compatible with
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* MS-DOS. Distributed under the GNU GPL.
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*
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* Revision 1.6 1999/08/10 18:03:42 jprice
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* ror4 2011-03 patch
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*
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* Revision 1.5 1999/05/03 06:25:45 jprice
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* Patches from ror4 and many changed of signed to unsigned variables.
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*
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* Revision 1.4 1999/04/16 00:53:33 jprice
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* Optimized FAT handling
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*
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* Revision 1.3 1999/04/11 04:33:38 jprice
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* ror4 patches
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*
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* Revision 1.1.1.1 1999/03/29 15:42:09 jprice
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* New version without IPL.SYS
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*
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* Revision 1.4 1999/02/09 02:54:23 jprice
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* Added Pat's 1937 kernel patches
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*
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* Revision 1.3 1999/02/01 01:43:28 jprice
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* Fixed findfirst function to find volume label with Windows long filenames
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*
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* Revision 1.2 1999/01/22 04:15:28 jprice
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* Formating
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*
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* Revision 1.1.1.1 1999/01/20 05:51:00 jprice
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* Imported sources
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*
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*
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* Rev 1.7 09 Feb 1998 5:41:08 patv
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* Eliminated FAT12 EOF and error returns.
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*
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* Rev 1.6 04 Jan 1998 23:14:38 patv
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* Changed Log for strip utility
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*
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* Rev 1.5 16 Jan 1997 12:46:22 patv
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* pre-Release 0.92 feature additions
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*
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* Rev 1.4 29 May 1996 21:15:14 patv
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* bug fixes for v0.91a
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*
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* Rev 1.3 19 Feb 1996 3:20:08 patv
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* Added NLS, int2f and config.sys processing
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*
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* Rev 1.2 01 Sep 1995 17:48:42 patv
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* First GPL release.
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*
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* Rev 1.1 30 Jul 1995 20:50:26 patv
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* Eliminated version strings in ipl
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*
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* Rev 1.0 02 Jul 1995 8:04:56 patv
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* Initial revision.
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*/
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#ifdef PROTO
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UCOUNT link_fat12(struct dpb FAR *, UCOUNT, UCOUNT);
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UCOUNT link_fat16(struct dpb FAR *, UCOUNT, UCOUNT);
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UWORD next_cl12(struct dpb FAR *, UCOUNT);
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UWORD next_cl16(struct dpb FAR *, UCOUNT);
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#else
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UCOUNT link_fat12();
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UCOUNT link_fat16();
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UWORD next_cl12();
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UWORD next_cl16();
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#endif
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/************************************************************************/
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/* */
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/* cluster/sector routines */
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/* */
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/************************************************************************/
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/* */
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/* The FAT file system is difficult to trace through FAT table. */
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/* There are two kinds of FAT's, 12 bit and 16 bit. The 16 bit */
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/* FAT is the easiest, since it is noting more than a series of */
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/* UWORD's. The 12 bit FAT is difficult, because it packs 3 FAT */
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/* entries into two BYTE's. The are packed as follows: */
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/* */
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/* 0x0003 0x0004 0x0005 0x0006 0x0007 0x0008 0x0009 ... */
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/* */
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/* are packed as */
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/* */
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/* 0x03 0x40 0x00 0x05 0x60 0x00 0x07 0x80 0x00 0x09 ... */
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/* */
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/* 12 bytes are compressed to 9 bytes */
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/* */
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UCOUNT link_fat(struct dpb FAR *dpbp, UCOUNT Cluster1, REG UCOUNT Cluster2)
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{
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if (ISFAT12(dpbp))
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return link_fat12(dpbp, Cluster1, Cluster2);
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else if (ISFAT16(dpbp))
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return link_fat16(dpbp, Cluster1, Cluster2);
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else
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return DE_BLKINVLD;
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}
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UCOUNT link_fat16(struct dpb FAR *dpbp, UCOUNT Cluster1, UCOUNT Cluster2)
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{
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UCOUNT idx;
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struct buffer FAR *bp;
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UWORD Cl2 = Cluster2;
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/* Get the block that this cluster is in */
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bp = getblock((ULONG) (((ULONG) Cluster1) * SIZEOF_CLST16) / dpbp->dpb_secsize + dpbp->dpb_fatstrt,
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (link_fat16)\n");
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#endif
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if (bp == NULL)
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return DE_BLKINVLD;
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bp->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp->b_flag |= BFR_FAT;
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bp->b_copies = dpbp->dpb_fats;
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bp->b_offset_lo = dpbp->dpb_fatsize;
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bp->b_offset_hi = dpbp->dpb_fatsize >> 8;
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/* form an index so that we can read the block as a */
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/* byte array */
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idx = (UWORD)((((LONG) Cluster1) * SIZEOF_CLST16) % dpbp->dpb_secsize);
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/* Finally, put the word into the buffer and mark the */
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/* buffer as dirty. */
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fputword((WORD FAR *) & Cl2, (VOID FAR *) & (bp->b_buffer[idx]));
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bp->b_flag |= BFR_DIRTY;
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/* Return successful. */
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/* update the free space count */
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if (Cluster2 == FREE)
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{
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/* update the free space count for returned */
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/* cluster */
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if (dpbp->dpb_nfreeclst != UNKNCLSTFREE)
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++dpbp->dpb_nfreeclst;
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}
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else
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{
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/* update the free space count for removed */
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/* cluster */
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if (dpbp->dpb_nfreeclst != UNKNCLSTFREE)
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--dpbp->dpb_nfreeclst;
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}
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return SUCCESS;
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}
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UCOUNT link_fat12(struct dpb FAR *dpbp, UCOUNT Cluster1, UCOUNT Cluster2)
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{
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REG UBYTE FAR *fbp0,
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FAR * fbp1;
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UCOUNT idx;
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struct buffer FAR *bp,
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FAR * bp1;
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/* Get the block that this cluster is in */
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bp = getblock((ULONG) ((((Cluster1 << 1) + Cluster1) >> 1) / dpbp->dpb_secsize + dpbp->dpb_fatstrt),
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (link_fat12)\n");
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#endif
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if (bp == NULL)
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return DE_BLKINVLD;
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bp->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp->b_flag |= BFR_FAT;
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bp->b_copies = dpbp->dpb_fats;
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bp->b_offset_lo = dpbp->dpb_fatsize;
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bp->b_offset_hi = dpbp->dpb_fatsize >> 8;
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/* form an index so that we can read the block as a */
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/* byte array */
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idx = (((Cluster1 << 1) + Cluster1) >> 1) % dpbp->dpb_secsize;
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/* Test to see if the cluster straddles the block. If */
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/* it does, get the next block and use both to form the */
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/* the FAT word. Otherwise, just point to the next */
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/* block. */
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if (idx >= dpbp->dpb_secsize - 1)
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{
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bp1 = getblock((ULONG) (dpbp->dpb_fatstrt +
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((((Cluster1 << 1) + Cluster1) >> 1) / dpbp->dpb_secsize))
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+ 1,
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (link_fat12)\n");
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#endif
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if (bp1 == (struct buffer *)0)
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return DE_BLKINVLD;
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bp1->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp1->b_flag |= BFR_FAT | BFR_DIRTY;
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bp1->b_copies = dpbp->dpb_fats;
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bp1->b_offset_lo = dpbp->dpb_fatsize;
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bp1->b_offset_hi = dpbp->dpb_fatsize >> 8;
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fbp1 = (UBYTE FAR *) & (bp1->b_buffer[0]);
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}
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else
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fbp1 = (UBYTE FAR *) & (bp->b_buffer[idx + 1]);
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fbp0 = (UBYTE FAR *) & (bp->b_buffer[idx]);
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bp->b_flag |= BFR_DIRTY;
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/* Now pack the value in */
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if (Cluster1 & 0x01)
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{
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*fbp0 = (*fbp0 & 0x0f) | ((Cluster2 & 0x0f) << 4);
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*fbp1 = (Cluster2 >> 4) & 0xff;
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}
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else
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{
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*fbp0 = Cluster2 & 0xff;
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*fbp1 = (*fbp1 & 0xf0) | ((Cluster2 >> 8) & 0x0f);
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}
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/* update the free space count */
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if (Cluster2 == FREE)
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{
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/* update the free space count for returned */
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/* cluster */
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if (dpbp->dpb_nfreeclst != UNKNCLSTFREE)
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++dpbp->dpb_nfreeclst;
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}
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else
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{
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/* update the free space count for removed */
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/* cluster */
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if (dpbp->dpb_nfreeclst != UNKNCLSTFREE)
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--dpbp->dpb_nfreeclst;
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}
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return SUCCESS;
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}
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/* Given the disk parameters, and a cluster number, this function
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looks at the FAT, and returns the next cluster in the clain. */
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UWORD next_cluster(struct dpb FAR *dpbp, REG UCOUNT ClusterNum)
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{
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if (ISFAT12(dpbp))
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return next_cl12(dpbp, ClusterNum);
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else if (ISFAT16(dpbp))
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return next_cl16(dpbp, ClusterNum);
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else
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return LONG_LAST_CLUSTER;
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}
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UWORD next_cl16(struct dpb FAR *dpbp, REG UCOUNT ClusterNum)
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{
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UCOUNT idx;
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struct buffer FAR *bp;
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UWORD RetCluster;
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/* Get the block that this cluster is in */
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bp = getblock((ULONG) (((ULONG) ClusterNum) * SIZEOF_CLST16) / dpbp->dpb_secsize + dpbp->dpb_fatstrt,
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (next_cl16)\n");
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#endif
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if (bp == NULL)
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return DE_BLKINVLD;
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bp->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp->b_flag |= BFR_FAT;
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bp->b_copies = dpbp->dpb_fats;
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bp->b_offset_lo = dpbp->dpb_fatsize;
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bp->b_offset_hi = dpbp->dpb_fatsize >> 8;
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/* form an index so that we can read the block as a */
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/* byte array */
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idx = (ClusterNum * SIZEOF_CLST16) % dpbp->dpb_secsize;
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/* Get the cluster number, */
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fgetword((VOID FAR *) & (bp->b_buffer[idx]), (WORD FAR *) & RetCluster);
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/* and return successful. */
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return RetCluster;
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}
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UWORD next_cl12(struct dpb FAR *dpbp, REG UCOUNT ClusterNum)
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{
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REG UBYTE FAR *fbp0,
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FAR * fbp1;
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UCOUNT idx;
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struct buffer FAR *bp,
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FAR * bp1;
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/* Get the block that this cluster is in */
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bp = getblock((ULONG) ((((ClusterNum << 1) + ClusterNum) >> 1) / dpbp->dpb_secsize + dpbp->dpb_fatstrt),
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (next_cl12)\n");
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#endif
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if (bp == NULL)
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return LONG_BAD;
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bp->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp->b_flag |= BFR_FAT;
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bp->b_copies = dpbp->dpb_fats;
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bp->b_offset_lo = dpbp->dpb_fatsize;
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bp->b_offset_hi = dpbp->dpb_fatsize >> 8;
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/* form an index so that we can read the block as a */
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/* byte array */
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idx = (((ClusterNum << 1) + ClusterNum) >> 1) % dpbp->dpb_secsize;
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/* Test to see if the cluster straddles the block. If it */
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/* does, get the next block and use both to form the */
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/* the FAT word. Otherwise, just point to the next */
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/* block. */
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if (idx >= dpbp->dpb_secsize - 1)
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{
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bp1 = getblock((ULONG) (dpbp->dpb_fatstrt +
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((((ClusterNum << 1) + ClusterNum) >> 1) / dpbp->dpb_secsize))
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+ 1,
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dpbp->dpb_unit);
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#ifdef DISPLAY_GETBLOCK
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printf("FAT (next_cl12)\n");
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#endif
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if (bp1 == (struct buffer *)0)
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return LONG_BAD;
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bp1->b_flag &= ~(BFR_DATA | BFR_DIR);
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bp1->b_flag |= BFR_FAT;
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bp1->b_copies = dpbp->dpb_fats;
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bp1->b_offset_lo = dpbp->dpb_fatsize;
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bp1->b_offset_hi = dpbp->dpb_fatsize >> 8;
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fbp1 = (UBYTE FAR *) & (bp1->b_buffer[0]);
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}
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else
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fbp1 = (UBYTE FAR *) & (bp->b_buffer[idx + 1]);
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fbp0 = (UBYTE FAR *) & (bp->b_buffer[idx]);
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/* Now to unpack the contents of the FAT entry. Odd and */
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/* even bytes are packed differently. */
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if (ClusterNum & 0x01)
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ClusterNum = ((*fbp0 & 0xf0) >> 4) | (*fbp1 << 4);
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else
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ClusterNum = *fbp0 | ((*fbp1 & 0x0f) << 8);
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if ((ClusterNum & MASK) == MASK)
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ClusterNum = LONG_LAST_CLUSTER;
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else if ((ClusterNum & BAD) == BAD)
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ClusterNum = LONG_BAD;
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return ClusterNum;
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}
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