FreeDOS/kernel/fatdir.c

/****************************************************************/
/*                                                              */
/*                          fatdir.c                            */
/*                            DOS-C                             */
/*                                                              */
/*                 FAT File System dir Functions                */
/*                                                              */
/*                      Copyright (c) 1995                      */
/*                      Pasquale J. Villani                     */
/*                      All Rights Reserved                     */
/*                                                              */
/* This file is part of DOS-C.                                  */
/*                                                              */
/* DOS-C is free software; you can redistribute it and/or       */
/* modify it under the terms of the GNU General Public License  */
/* as published by the Free Software Foundation; either version */
/* 2, or (at your option) any later version.                    */
/*                                                              */
/* DOS-C is distributed in the hope that it will be useful, but */
/* WITHOUT ANY WARRANTY; without even the implied warranty of   */
/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See    */
/* the GNU General Public License for more details.             */
/*                                                              */
/* You should have received a copy of the GNU General Public    */
/* License along with DOS-C; see the file COPYING.  If not,     */
/* write to the Free Software Foundation, 675 Mass Ave,         */
/* Cambridge, MA 02139, USA.                                    */
/****************************************************************/

#include "portab.h"
#include "globals.h"

#ifdef VERSION_STRINGS
static BYTE *fatdirRcsId = "$Id$";
#endif

/*
 * $Log$
 * Revision 1.2  2000/05/08 04:30:00  jimtabor
 * Update CVS to 2020
 *
 * Revision 1.12  2000/03/31 05:40:09  jtabor
 * Added Eric W. Biederman Patches
 *
 * Revision 1.11  2000/03/17 22:59:04  kernel
 * Steffen Kaiser's NLS changes
 *
 * Revision 1.10  2000/03/09 06:07:11  kernel
 * 2017f updates by James Tabor
 *
 * Revision 1.9  1999/08/25 03:18:07  jprice
 * ror4 patches to allow TC 2.01 compile.
 *
 * Revision 1.8  1999/08/10 17:57:12  jprice
 * ror4 2011-02 patch
 *
 * Revision 1.7  1999/05/03 06:25:45  jprice
 * Patches from ror4 and many changed of signed to unsigned variables.
 *
 * Revision 1.6  1999/04/16 00:53:32  jprice
 * Optimized FAT handling
 *
 * Revision 1.5  1999/04/13 15:48:20  jprice
 * no message
 *
 * Revision 1.4  1999/04/11 04:33:38  jprice
 * ror4 patches
 *
 * Revision 1.2  1999/04/04 18:51:43  jprice
 * no message
 *
 * Revision 1.1.1.1  1999/03/29 15:41:58  jprice
 * New version without IPL.SYS
 *
 * Revision 1.7  1999/03/25 05:06:57  jprice
 * Fixed findfirst & findnext functions to treat the attributes like MSDOS does.
 *
 * Revision 1.6  1999/02/14 04:27:09  jprice
 * Changed check media so that it checks if a floppy disk has been changed.
 *
 * Revision 1.5  1999/02/09 02:54:23  jprice
 * Added Pat's 1937 kernel patches
 *
 * Revision 1.4  1999/02/01 01:43:28  jprice
 * Fixed findfirst function to find volume label with Windows long filenames
 *
 * Revision 1.3  1999/01/30 08:25:34  jprice
 * Clean up; Fixed bug with set attribute function.  If you tried to
 * change the attributres of a directory, it would erase it.
 *
 * Revision 1.2  1999/01/22 04:15:28  jprice
 * Formating
 *
 * Revision 1.1.1.1  1999/01/20 05:51:00  jprice
 * Imported sources
 *
 *
 *    Rev 1.10   06 Dec 1998  8:44:36   patv
 * Bug fixes.
 *
 *    Rev 1.9   22 Jan 1998  4:09:00   patv
 * Fixed pointer problems affecting SDA
 *
 *    Rev 1.8   04 Jan 1998 23:14:36   patv
 * Changed Log for strip utility
 *
 *    Rev 1.7   03 Jan 1998  8:36:02   patv
 * Converted data area to SDA format
 *
 *    Rev 1.6   16 Jan 1997 12:46:30   patv
 * pre-Release 0.92 feature additions
 *
 *    Rev 1.5   29 May 1996 21:15:18   patv
 * bug fixes for v0.91a
 *
 *    Rev 1.4   19 Feb 1996  3:20:12   patv
 * Added NLS, int2f and config.sys processing
 *
 *    Rev 1.2   01 Sep 1995 17:48:38   patv
 * First GPL release.
 *
 *    Rev 1.1   30 Jul 1995 20:50:24   patv
 * Eliminated version strings in ipl
 *
 *    Rev 1.0   02 Jul 1995  8:04:34   patv
 * Initial revision.
 */

VOID pop_dmp(dmatch FAR *, struct f_node FAR *);

struct f_node FAR *dir_open(BYTE FAR * dirname)
{
  struct f_node FAR *fnp;
  COUNT drive;
  BYTE *p;
  WORD i,
    x;
  BYTE *s;
  struct cds FAR *cdsp;
  BYTE *pszPath = &TempCDS.cdsCurrentPath[2];

  /* Allocate an fnode if possible - error return (0) if not.     */
  if ((fnp = get_f_node()) == (struct f_node FAR *)0)
  {
    return (struct f_node FAR *)NULL;
  }

  /* Force the fnode into read-write mode                         */
  fnp->f_mode = RDWR;

  /* and initialize temporary CDS                                 */
  TempCDS.cdsFlags = 0;
  /* determine what drive we are using...                         */
  dirname = adjust_far(dirname);
  if (ParseDosName(dirname, &drive, (BYTE *) 0, (BYTE *) 0, (BYTE *) 0, FALSE)
      != SUCCESS)
  {
    release_f_node(fnp);
    return NULL;
  }

  /* If the drive was specified, drive is non-negative and        */
  /* corresponds to the one passed in, i.e., 0 = A, 1 = B, etc.   */
  /* We use that and skip the "D:" part of the string.            */
  /* Otherwise, just use the default drive                        */
  if (drive >= 0)
  {
    dirname += 2;               /* Assume FAT style drive       */
  }
  else
  {
    drive = default_drive;
  }
  if (drive > lastdrive) {
    release_f_node(fnp);
    return NULL;
  }
  TempCDS.cdsDpb = CDSp->cds_table[drive].cdsDpb;

  cdsp = &CDSp->cds_table[drive];

  TempCDS.cdsCurrentPath[0] = 'A' + drive;
  TempCDS.cdsCurrentPath[1] = ':';
  TempCDS.cdsJoinOffset = 2;

  x = cdsp->cdsJoinOffset;

  /* Generate full path name                                      */
  ParseDosPath(dirname, (COUNT *) 0, pszPath, (BYTE FAR *) & cdsp->cdsCurrentPath[x]);

  if ((cdsp->cdsFlags & CDSNETWDRV))
  {
    printf("FailSafe %x \n", Int21AX);
    return fnp;
  }

  if (TempCDS.cdsDpb == 0)
  {
    release_f_node(fnp);
    return NULL;
  }

/*  if (drive > lastdrive)
   {
   release_f_node(fnp);
   return NULL;
   }
 */
  fnp->f_dpb = (struct dpb *)TempCDS.cdsDpb;

  /* Perform all directory common handling after all special      */
  /* handling has been performed.                                 */

  if (media_check((struct dpb *)TempCDS.cdsDpb) < 0)
  {
    release_f_node(fnp);
    return (struct f_node FAR *)0;
  }

  fnp->f_dsize = DIRENT_SIZE * TempCDS.cdsDpb->dpb_dirents;

  fnp->f_diroff = 0l;
  fnp->f_flags.f_dmod = FALSE;  /* a brand new fnode            */
  fnp->f_flags.f_dnew = TRUE;
  fnp->f_flags.f_dremote = FALSE;

  fnp->f_dirstart = 0;

  /* Walk the directory tree to find the starting cluster         */
  /*                                                              */
  /* Set the root flags since we always start from the root       */

  fnp->f_flags.f_droot = TRUE;
  for (p = pszPath; *p != '\0';)
  {
    /* skip all path seperators                             */
    while (*p == '\\')
      ++p;
    /* don't continue if we're at the end                   */
    if (*p == '\0')
      break;

    /* Convert the name into an absolute name for           */
    /* comparison...                                        */
    /* first the file name with trailing spaces...          */
    for (i = 0; i < FNAME_SIZE; i++)
    {
      if (*p != '\0' && *p != '.' && *p != '/' && *p != '\\')
        TempBuffer[i] = *p++;
      else
        break;
    }

    for (; i < FNAME_SIZE; i++)
      TempBuffer[i] = ' ';

    /* and the extension (don't forget to   */
    /* add trailing spaces)...              */
    if (*p == '.')
      ++p;
    for (i = 0; i < FEXT_SIZE; i++)
    {
      if (*p != '\0' && *p != '.' && *p != '/' && *p != '\\')
        TempBuffer[i + FNAME_SIZE] = *p++;
      else
        break;
    }
    for (; i < FEXT_SIZE; i++)
      TempBuffer[i + FNAME_SIZE] = ' ';

    /* Now search through the directory to  */
    /* find the entry...                    */
    i = FALSE;

    upFMem((BYTE FAR *) TempBuffer, FNAME_SIZE + FEXT_SIZE);

    while (dir_read(fnp) == DIRENT_SIZE)
    {
      if (fnp->f_dir.dir_name[0] != '\0' && fnp->f_dir.dir_name[0] != DELETED)
      {
        if (fcmp((BYTE FAR *) TempBuffer, (BYTE FAR *) fnp->f_dir.dir_name, FNAME_SIZE + FEXT_SIZE))
        {
          i = TRUE;
          break;
        }
      }
    }

    if (!i || !(fnp->f_dir.dir_attrib & D_DIR))
    {

      release_f_node(fnp);
      return (struct f_node FAR *)0;
    }
    else
    {
      /* make certain we've moved off */
      /* root                         */
      fnp->f_flags.f_droot = FALSE;
      fnp->f_flags.f_ddir = TRUE;
      /* set up for file read/write   */
      fnp->f_offset = 0l;
      fnp->f_cluster_offset = 0l;	/*JPP */
      fnp->f_highwater = 0l;
      fnp->f_cluster = fnp->f_dir.dir_start;
      fnp->f_dirstart = fnp->f_dir.dir_start;
      /* reset the directory flags    */
      fnp->f_diroff = 0l;
      fnp->f_flags.f_dmod = FALSE;
      fnp->f_flags.f_dnew = TRUE;
      fnp->f_dsize = DIRENT_SIZE * TempCDS.cdsDpb->dpb_dirents;

    }
  }
  return fnp;
}

COUNT dir_read(REG struct f_node FAR * fnp)
{
  REG i;
  REG j;
  struct buffer FAR *bp;

  /* Directories need to point to their current offset, not for   */
  /* next op. Therefore, if it is anything other than the first   */
  /* directory entry, we will update the offset on entry rather   */
  /* than wait until exit. If it was new, clear the special new   */
  /* flag.                                                        */
  if (fnp->f_flags.f_dnew)
    fnp->f_flags.f_dnew = FALSE;
  else
    fnp->f_diroff += DIRENT_SIZE;

  /* Determine if we hit the end of the directory. If we have,    */
  /* bump the offset back to the end and exit. If not, fill the   */
  /* dirent portion of the fnode, clear the f_dmod bit and leave, */
  /* but only for root directories                                */
  if (fnp->f_flags.f_droot && fnp->f_diroff >= fnp->f_dsize)
  {
    fnp->f_diroff -= DIRENT_SIZE;
    return 0;
  }
  else
  {
    if (fnp->f_flags.f_droot)
    {
      if ((fnp->f_diroff / fnp->f_dpb->dpb_secsize
           + fnp->f_dpb->dpb_dirstrt)
          >= fnp->f_dpb->dpb_data)
      {
        fnp->f_flags.f_dfull = TRUE;
        return 0;
      }

      bp = getblock((ULONG) (fnp->f_diroff / fnp->f_dpb->dpb_secsize
                             + fnp->f_dpb->dpb_dirstrt),
                    fnp->f_dpb->dpb_unit);
      bp->b_flag &= ~(BFR_DATA | BFR_FAT);
      bp->b_flag |= BFR_DIR;
#ifdef DISPLAY_GETBLOCK
      printf("DIR (dir_read)\n");
#endif
    }
    else
    {
      REG UWORD secsize = fnp->f_dpb->dpb_secsize;

      /* Do a "seek" to the directory position        */
      fnp->f_offset = fnp->f_diroff;

      /* Search through the FAT to find the block     */
      /* that this entry is in.                       */
#ifdef DISPLAY_GETBLOCK
      printf("dir_read: ");
#endif
      if (map_cluster(fnp, XFR_READ) != SUCCESS)
      {
        fnp->f_flags.f_dfull = TRUE;
        return 0;
      }

      /* If the returned cluster is FREE, return zero */
      /* bytes read.                                  */
      if (fnp->f_cluster == FREE)
        return 0;

      /* If the returned cluster is LAST_CLUSTER or   */
      /* LONG_LAST_CLUSTER, return zero bytes read    */
      /* and set the directory as full.               */

      if (last_link(fnp))
      {
        fnp->f_diroff -= DIRENT_SIZE;
        fnp->f_flags.f_dfull = TRUE;
        return 0;
      }

      /* Compute the block within the cluster and the */
      /* offset within the block.                     */
      fnp->f_sector = (fnp->f_offset / secsize) & fnp->f_dpb->dpb_clsmask;
      fnp->f_boff = fnp->f_offset % secsize;

      /* Get the block we need from cache             */
      bp = getblock((ULONG) clus2phys(fnp->f_cluster,
                                      (fnp->f_dpb->dpb_clsmask + 1),
                                      fnp->f_dpb->dpb_data)
                    + fnp->f_sector,
                    fnp->f_dpb->dpb_unit);
      bp->b_flag &= ~(BFR_DATA | BFR_FAT);
      bp->b_flag |= BFR_DIR;
#ifdef DISPLAY_GETBLOCK
      printf("DIR (dir_read)\n");
#endif
    }

    /* Now that we have the block for our entry, get the    */
    /* directory entry.                                     */
    if (bp != NULL)
      getdirent((BYTE FAR *) & bp->b_buffer[fnp->f_diroff % fnp->f_dpb->dpb_secsize],
                (struct dirent FAR *)&fnp->f_dir);
    else
    {
      fnp->f_flags.f_dfull = TRUE;
      return 0;
    }

    /* Update the fnode's directory info                    */
    fnp->f_flags.f_dfull = FALSE;
    fnp->f_flags.f_dmod = FALSE;

    /* and for efficiency, stop when we hit the first       */
    /* unused entry.                                        */
    if (fnp->f_dir.dir_name[0] == '\0')
      return 0;
    else
      return DIRENT_SIZE;
  }
}

#ifndef IPL
COUNT dir_write(REG struct f_node FAR * fnp)
{
  struct buffer FAR *bp;

  /* Update the entry if it was modified by a write or create...  */
  if (fnp->f_flags.f_dmod)
  {
    /* Root is a consecutive set of blocks, so handling is  */
    /* simple.                                              */
    if (fnp->f_flags.f_droot)
    {
      bp = getblock(
                     (ULONG) (fnp->f_diroff / fnp->f_dpb->dpb_secsize
                              + fnp->f_dpb->dpb_dirstrt),
                     fnp->f_dpb->dpb_unit);
      bp->b_flag &= ~(BFR_DATA | BFR_FAT);
      bp->b_flag |= BFR_DIR;
#ifdef DISPLAY_GETBLOCK
      printf("DIR (dir_write)\n");
#endif
    }

    /* All other directories are just files. The only       */
    /* special handling is resetting the offset so that we  */
    /* can continually update the same directory entry.     */
    else
    {
      REG UWORD secsize = fnp->f_dpb->dpb_secsize;

      /* Do a "seek" to the directory position        */
      /* and convert the fnode to a directory fnode.  */
      fnp->f_offset = fnp->f_diroff;
      fnp->f_back = LONG_LAST_CLUSTER;
      fnp->f_cluster = fnp->f_dirstart;
      fnp->f_cluster_offset = 0l;	/*JPP */

      /* Search through the FAT to find the block     */
      /* that this entry is in.                       */
#ifdef DISPLAY_GETBLOCK
      printf("dir_write: ");
#endif
      if (map_cluster(fnp, XFR_READ) != SUCCESS)
      {
        fnp->f_flags.f_dfull = TRUE;
        release_f_node(fnp);
        return 0;
      }

      /* If the returned cluster is FREE, return zero */
      /* bytes read.                                  */
      if (fnp->f_cluster == FREE)
      {
        release_f_node(fnp);
        return 0;
      }

      /* Compute the block within the cluster and the */
      /* offset within the block.                     */
      fnp->f_sector = (fnp->f_offset / secsize) & fnp->f_dpb->dpb_clsmask;
      fnp->f_boff = fnp->f_offset % secsize;

      /* Get the block we need from cache             */
      bp = getblock((ULONG) clus2phys(fnp->f_cluster,
                                      (fnp->f_dpb->dpb_clsmask + 1),
                                      fnp->f_dpb->dpb_data)
                    + fnp->f_sector,
                    fnp->f_dpb->dpb_unit);
      bp->b_flag &= ~(BFR_DATA | BFR_FAT);
      bp->b_flag |= BFR_DIR;
#ifdef DISPLAY_GETBLOCK
      printf("DIR (dir_write)\n");
#endif
    }

    /* Now that we have a block, transfer the diectory      */
    /* entry into the block.                                */
    if (bp == NULL)
    {
      release_f_node(fnp);
      return 0;
    }
    putdirent((struct dirent FAR *)&fnp->f_dir,
    (VOID FAR *) & bp->b_buffer[fnp->f_diroff % fnp->f_dpb->dpb_secsize]);
    bp->b_flag |= BFR_DIRTY;
  }
  return DIRENT_SIZE;
}
#endif

VOID dir_close(REG struct f_node FAR * fnp)
{
  REG COUNT disk = fnp->f_dpb->dpb_unit;

  /* Test for invalid f_nodes                                     */
  if (fnp == NULL)
    return;

#ifndef IPL
  /* Write out the entry                                          */
  dir_write(fnp);

#endif
  /* Clear buffers after release                                  */
  flush_buffers(disk);

  /* and release this instance of the fnode                       */
  release_f_node(fnp);
}

#ifndef IPL
COUNT dos_findfirst(UCOUNT attr, BYTE FAR * name)
{
  REG struct f_node FAR *fnp;
  REG dmatch FAR *dmp = (dmatch FAR *) dta;
  REG COUNT i;
  COUNT nDrive;
  BYTE *p;
  struct cds FAR *cdsp;
  BYTE FAR *ptr;

  static BYTE local_name[FNAME_SIZE + 1],
    local_ext[FEXT_SIZE + 1];

  /* The findfirst/findnext calls are probably the worst of the   */
  /* DOS calls. They must work somewhat on the fly (i.e. - open   */
  /* but never close). Since we don't want to lose fnodes every   */
  /* time a directory is searched, we will initialize the DOS     */
  /* dirmatch structure and then for every find, we will open the */
  /* current directory, do a seek and read, then close the fnode. */

  /* Start out by initializing the dirmatch structure.            */
  dmp->dm_drive = default_drive;
  dmp->dm_entry = 0;
  dmp->dm_cluster = 0;

  dmp->dm_attr_srch = attr | D_RDONLY | D_ARCHIVE;

  /* Parse out the drive, file name and file extension.           */
  i = ParseDosName(name, &nDrive, &LocalPath[2], local_name, local_ext, TRUE);
  if (i != SUCCESS)
    return i;

  if (nDrive >= 0)
  {
    dmp->dm_drive = nDrive;
  }
  else
    nDrive = default_drive;

  if (nDrive > lastdrive) {
    return DE_INVLDDRV;
  }
  cdsp = &CDSp->cds_table[nDrive];

  if (cdsp->cdsFlags & CDSNETWDRV)
  {
    if (Remote_find(REM_FINDFIRST, attr, name, dmp) != 0)
      return DE_FILENOTFND;
    return SUCCESS;
  }

  /* Now build a directory.                                       */
  if (!LocalPath[2])
    strcpy(&LocalPath[2], ".");

  /* Build the match pattern out of the passed string             */
  /* copy the part of the pattern which belongs to the filename and is fixed */
  for (p = local_name, i = 0; i < FNAME_SIZE && *p && *p != '*'; ++p, ++i)
    SearchDir.dir_name[i] = *p;
  if (*p == '*')
  {
    for (; i < FNAME_SIZE; ++i)
      SearchDir.dir_name[i] = '?';
    while (*++p) ;
  }
  else
    for (; i < FNAME_SIZE; i++)
      SearchDir.dir_name[i] = ' ';

  /* and the extension (don't forget to add trailing spaces)...   */
  for (p = local_ext, i = 0; i < FEXT_SIZE && *p && *p != '*'; ++p, ++i)
    SearchDir.dir_ext[i] = *p;
  if (*p == '*')
  {
    for (; i < FEXT_SIZE; ++i)
      SearchDir.dir_ext[i] = '?';
    while (*++p) ;
  }
  else
    for (; i < FEXT_SIZE; i++)
      SearchDir.dir_ext[i] = ' ';

  /* Convert everything to uppercase. */
  upFMem(SearchDir.dir_name, FNAME_SIZE + FEXT_SIZE);

  /* Copy the raw pattern from our data segment to the DTA. */
  fbcopy((BYTE FAR *) SearchDir.dir_name, dmp->dm_name_pat,
         FNAME_SIZE + FEXT_SIZE);

  /* Now search through the directory to find the entry...        */
  /* Special handling - the volume id is only in the root         */
  /* directory and only searched for once.  So we need to open    */
  /* the root and return only the first entry that contains the   */
  /* volume id bit set.                                           */
  if ((attr & ~(D_RDONLY | D_ARCHIVE)) == D_VOLID)
  {
    /* Now open this directory so that we can read the      */
    /* fnode entry and do a match on it.                    */
    if ((fnp = dir_open((BYTE FAR *) "\\")) == NULL)
      return DE_PATHNOTFND;

    /* Now do the search                                    */
    while (dir_read(fnp) == DIRENT_SIZE)
    {
      /* Test the attribute and return first found    */
      if ((fnp->f_dir.dir_attrib & ~(D_RDONLY | D_ARCHIVE)) == D_VOLID)
      {
        pop_dmp(dmp, fnp);
        dir_close(fnp);
        return SUCCESS;
      }
    }

    /* Now that we've done our failed search, close it and  */
    /* return an error.                                     */
    dir_close(fnp);
    return DE_FILENOTFND;
  }

  /* Otherwise just do a normal find next                         */
  else
  {
    /* Complete building the directory from the passed in   */
    /* name                                                 */
    if (nDrive >= 0)
      LocalPath[0] = 'A' + nDrive;
    else
      LocalPath[0] = 'A' + default_drive;
    LocalPath[1] = ':';

    /* Now open this directory so that we can read the      */
    /* fnode entry and do a match on it.                    */
    if ((fnp = dir_open((BYTE FAR *) LocalPath)) == NULL)
      return DE_PATHNOTFND;

    pop_dmp(dmp, fnp);
    dmp->dm_entry = 0;
    if (!fnp->f_flags.f_droot)
    {
      dmp->dm_cluster = fnp->f_dirstart;
      dmp->dm_dirstart = fnp->f_dirstart;
    }
    else
    {
      dmp->dm_cluster = 0;
      dmp->dm_dirstart = 0;
    }
    dir_close(fnp);
    return dos_findnext();
  }
}

COUNT dos_findnext(void)
{
  REG dmatch FAR *dmp = (dmatch FAR *) dta;
  REG struct f_node FAR *fnp;
  BOOL found = FALSE;
  BYTE FAR *p;
  BYTE FAR *q;
  COUNT nDrive;
  struct cds FAR *cdsp;

  /* assign our match parameters pointer.                         */
  dmp = (dmatch FAR *) dta;

  nDrive = dmp->dm_drive;

  if (nDrive > lastdrive) {
    return DE_INVLDDRV;
  }
  cdsp = &CDSp->cds_table[nDrive];

#if 0
  printf("findnext: %c %s\n", 
	  nDrive + 'A', (cdsp->cdsFlags & CDSNETWDRV)?"remote":"local");
#endif

  if (cdsp->cdsFlags & CDSNETWDRV)
  {
    if (Remote_find(REM_FINDNEXT, 0, 0, dmp) != 0)
      return DE_FILENOTFND;
    return SUCCESS;
  }

  /* Allocate an fnode if possible - error return (0) if not.     */
  if ((fnp = get_f_node()) == (struct f_node FAR *)0)
  {
    return DE_FILENOTFND;
  }

  /* Force the fnode into read-write mode                         */
  fnp->f_mode = RDWR;

  if (dmp->dm_drive > lastdrive) {
    return DE_INVLDDRV;
  }
  /* Select the default to help non-drive specified path          */
  /* searches...                                                  */
  fnp->f_dpb = (struct dpb *)CDSp->cds_table[dmp->dm_drive].cdsDpb;
  if (media_check(fnp->f_dpb) < 0)
  {
    release_f_node(fnp);
    return DE_FILENOTFND;
  }

  fnp->f_dsize = DIRENT_SIZE * (fnp->f_dpb)->dpb_dirents;

  /* Search through the directory to find the entry, but do a     */
  /* seek first.                                                  */
  if (dmp->dm_entry > 0)
    fnp->f_diroff = (dmp->dm_entry - 1) * DIRENT_SIZE;

  fnp->f_offset = fnp->f_highwater = fnp->f_diroff;
  fnp->f_cluster = dmp->dm_cluster;
  fnp->f_cluster_offset = 0l;   /*JPP */
  fnp->f_flags.f_dmod = dmp->dm_flags.f_dmod;
  fnp->f_flags.f_droot = dmp->dm_flags.f_droot;
  fnp->f_flags.f_dnew = dmp->dm_flags.f_dnew;
  fnp->f_flags.f_ddir = dmp->dm_flags.f_ddir;
  fnp->f_flags.f_dfull = dmp->dm_flags.f_dfull;

  fnp->f_dirstart = dmp->dm_dirstart;

  /* Loop through the directory                                   */
  while (dir_read(fnp) == DIRENT_SIZE)
  {
    ++dmp->dm_entry;
    if (fnp->f_dir.dir_name[0] != '\0' && fnp->f_dir.dir_name[0] != DELETED)
    {
      if (fcmp_wild((BYTE FAR *) (dmp->dm_name_pat), (BYTE FAR *) fnp->f_dir.dir_name, FNAME_SIZE + FEXT_SIZE))
      {
        /* Test the attribute as the final step */
        if (!(~dmp->dm_attr_srch & fnp->f_dir.dir_attrib))
        {
          found = TRUE;
          break;
        }
        else
          continue;
      }
    }
  }

  /* If found, transfer it to the dmatch structure                */
  if (found)
    pop_dmp(dmp, fnp);

  /* return the result                                            */
  release_f_node(fnp);

  return found ? SUCCESS : DE_FILENOTFND;
}

static VOID pop_dmp(dmatch FAR * dmp, struct f_node FAR * fnp)
{
  COUNT idx;
  BYTE FAR *p;
  BYTE FAR *q;

  dmp->dm_attr_fnd = fnp->f_dir.dir_attrib;
  dmp->dm_time = fnp->f_dir.dir_time;
  dmp->dm_date = fnp->f_dir.dir_date;
  dmp->dm_size = fnp->f_dir.dir_size;
/*  dmp -> dm_cluster = fnp -> f_cluster;            /*  */
  dmp->dm_flags.f_droot = fnp->f_flags.f_droot;
  dmp->dm_flags.f_ddir = fnp->f_flags.f_ddir;
  dmp->dm_flags.f_dmod = fnp->f_flags.f_dmod;
  dmp->dm_flags.f_dnew = fnp->f_flags.f_dnew;
  p = dmp->dm_name;
  if (fnp->f_dir.dir_name[0] == '.')
  {
    for (idx = 0, q = (BYTE FAR *) fnp->f_dir.dir_name;
         idx < FNAME_SIZE; idx++)
    {
      if (*q == ' ')
        break;
      *p++ = *q++;
    }
  }
  else
  {
    for (idx = 0, q = (BYTE FAR *) fnp->f_dir.dir_name;
         idx < FNAME_SIZE; idx++)
    {
      if (*q == ' ')
        break;
      *p++ = *q++;
    }
    if (fnp->f_dir.dir_ext[0] != ' ')
    {
      *p++ = '.';
      for (idx = 0, q = (BYTE FAR *) fnp->f_dir.dir_ext; idx < FEXT_SIZE; idx++)
      {
        if (*q == ' ')
          break;
        *p++ = *q++;
      }
    }
  }
  *p++ = NULL;
}
#endif