/****************************************************************/ /* */ /* 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 1.23 2001/09/23 20:39:44 bartoldeman * FAT32 support, misc fixes, INT2F/AH=12 support, drive B: handling * * Revision 1.22 2001/08/19 12:58:36 bartoldeman * Time and date fixes, Ctrl-S/P, findfirst/next, FCBs, buffers, tsr unloading * * Revision 1.21 2001/07/28 18:13:06 bartoldeman * Fixes for FORMAT+SYS, FATFS, get current dir, kernel init memory situation. * * Revision 1.20 2001/07/24 16:56:29 bartoldeman * fixes for FCBs, DJGPP ls, DBLBYTE, dyninit allocation (2024e). * * Revision 1.19 2001/07/23 12:47:42 bartoldeman * FCB fixes and clean-ups, exec int21/ax=4b01, initdisk.c printf * * Revision 1.18 2001/07/22 01:58:58 bartoldeman * Support for Brian's FORMAT, DJGPP libc compilation, cleanups, MSCDEX * * Revision 1.17 2001/07/09 22:19:33 bartoldeman * LBA/FCB/FAT/SYS/Ctrl-C/ioctl fixes + memory savings * * Revision 1.16 2001/06/03 14:16:17 bartoldeman * BUFFERS tuning and misc bug fixes/cleanups (2024c). * * Revision 1.15 2001/04/29 17:34:40 bartoldeman * A new SYS.COM/config.sys single stepping/console output/misc fixes. * * Revision 1.14 2001/04/15 03:21:50 bartoldeman * See history.txt for the list of fixes. * * Revision 1.13 2001/04/02 23:18:30 bartoldeman * Misc, zero terminated device names and redirector bugs fixed. * * Revision 1.12 2001/03/30 22:27:42 bartoldeman * Saner lastdrive handling. * * Revision 1.11 2001/03/21 02:56:25 bartoldeman * See history.txt for changes. Bug fixes and HMA support are the main ones. * * Revision 1.10 2001/03/08 21:00:00 bartoldeman * Fix handling of very long path names (Tom Ehlert) * * Revision 1.9 2000/08/06 05:50:17 jimtabor * Add new files and update cvs with patches and changes * * Revision 1.8 2000/06/21 18:16:46 jimtabor * Add UMB code, patch, and code fixes * * Revision 1.7 2000/06/01 06:46:57 jimtabor * Removed Debug printf * * Revision 1.6 2000/06/01 06:37:38 jimtabor * Read History for Changes * * Revision 1.5 2000/05/26 19:25:19 jimtabor * Read History file for Change info * * Revision 1.4 2000/05/25 20:56:21 jimtabor * Fixed project history * * Revision 1.3 2000/05/17 19:15:12 jimtabor * Cleanup, add and fix source. * * Revision 1.2 2000/05/08 04:30:00 jimtabor * Update CVS to 2020 * * Revision 1.1.1.1 2000/05/06 19:34:53 jhall1 * The FreeDOS Kernel. A DOS kernel that aims to be 100% compatible with * MS-DOS. Distributed under the GNU GPL. * * 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. */ f_node_ptr dir_open(BYTE * dirname) { f_node_ptr fnp; COUNT drive; BYTE *p; WORD i; struct cds FAR *cdsp; BYTE *pszPath = dirname + 2; /* Allocate an fnode if possible - error return (0) if not. */ if ((fnp = get_f_node()) == (f_node_ptr)0) { return (f_node_ptr)0; } /* Force the fnode into read-write mode */ fnp->f_mode = RDWR; /* determine what drive we are using... */ 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; } cdsp = &CDSp->cds_table[drive]; /* Generate full path name */ /* not necessary anymore, since truename did that already i = cdsp->cdsJoinOffset; ParseDosPath(dirname, (COUNT *) 0, pszPath, (BYTE FAR *) & cdsp->cdsCurrentPath[i]); */ /* for testing only for now */ #if 0 if ((cdsp->cdsFlags & CDSNETWDRV)) { printf("FailSafe %x \n", Int21AX); return fnp; } #endif if (cdsp->cdsDpb == 0) { release_f_node(fnp); return NULL; } fnp->f_dpb = cdsp->cdsDpb; /* Perform all directory common handling after all special */ /* handling has been performed. */ if (media_check(fnp->f_dpb) < 0) { release_f_node(fnp); return (f_node_ptr)0; } fnp->f_dsize = DIRENT_SIZE * fnp->f_dpb->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; #ifdef WITHFAT32 if (ISFAT32(fnp->f_dpb)) { fnp->f_flags.f_droot = FALSE; fnp->f_flags.f_ddir = TRUE; fnp->f_offset = 0l; fnp->f_cluster_offset = 0l; fnp->f_highwater = 0l; fnp->f_cluster = fnp->f_dpb->dpb_xrootclst; fnp->f_dirstart = fnp->f_dpb->dpb_xrootclst; } #endif 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... */ memset(TempBuffer, ' ', FNAME_SIZE+FEXT_SIZE); for (i = 0; i < FNAME_SIZE; i++) { if (*p != '\0' && *p != '.' && *p != '/' && *p != '\\') TempBuffer[i] = *p++; else break; } /* 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; } /* Now search through the directory to */ /* find the entry... */ i = FALSE; DosUpFMem((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(TempBuffer, (BYTE *)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 (f_node_ptr)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 = getdstart(fnp->f_dir); fnp->f_dirstart = fnp->f_cluster; /* 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 * fnp->f_dpb->dpb_dirents; } } return fnp; } COUNT dir_read(REG f_node_ptr fnp) { /* REG i; */ /* REG j; */ struct buffer FAR *bp; REG UWORD secsize = fnp->f_dpb->dpb_secsize; /* 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 / 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 / secsize + fnp->f_dpb->dpb_dirstrt), fnp->f_dpb->dpb_unit); #ifdef DISPLAY_GETBLOCK printf("DIR (dir_read)\n"); #endif } else { /* 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); #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) { fnp->f_flags.f_dfull = TRUE; return 0; } bp->b_flag &= ~(BFR_DATA | BFR_FAT); bp->b_flag |= BFR_DIR | BFR_VALID; getdirent((BYTE FAR *) & bp->b_buffer[((UWORD)fnp->f_diroff) % fnp->f_dpb->dpb_secsize], (struct dirent FAR *)&fnp->f_dir); /* 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 f_node_ptr fnp) { struct buffer FAR *bp; REG UWORD secsize = fnp->f_dpb->dpb_secsize; /* 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) ((UWORD)fnp->f_diroff / secsize + fnp->f_dpb->dpb_dirstrt), fnp->f_dpb->dpb_unit); #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 { /* 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 | BFR_VALID; #ifdef DISPLAY_GETBLOCK printf("DIR (dir_write)\n"); #endif } /* Now that we have a block, transfer the directory */ /* entry into the block. */ if (bp == NULL) { release_f_node(fnp); return 0; } if (fnp->f_flags.f_dnew && fnp->f_dir.dir_attrib != D_LFN) fmemset(&fnp->f_dir.dir_case, 0, 8); putdirent((struct dirent FAR *)&fnp->f_dir, (VOID FAR *) & bp->b_buffer[(UWORD)fnp->f_diroff % fnp->f_dpb->dpb_secsize]); bp->b_flag &= ~(BFR_DATA | BFR_FAT); bp->b_flag |= BFR_DIR | BFR_DIRTY | BFR_VALID; } return DIRENT_SIZE; } #endif VOID dir_close(REG f_node_ptr 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 *name) { REG f_node_ptr fnp; REG dmatch *dmp = (dmatch *) TempBuffer; REG COUNT i; COUNT nDrive; BYTE *p; BYTE local_name[FNAME_SIZE + 1], local_ext[FEXT_SIZE + 1]; /* printf("ff %Fs\n", name);*/ /* 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. */ /* Parse out the drive, file name and file extension. */ i = ParseDosName(name, &nDrive, &szDirName[2], local_name, local_ext, TRUE); if (i != SUCCESS) return i; /* printf("\nff %s", Tname); printf("ff %s", local_name); printf("ff %s\n", local_ext); */ /* Now build a directory. */ if (!szDirName[2]) fstrcpy(&szDirName[0], current_ldt->cdsCurrentPath); /* 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; for (; i < FNAME_SIZE; ++i) SearchDir.dir_name[i] = *p == '*' ? '?' : ' '; /* 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; for (; i < FEXT_SIZE; ++i) SearchDir.dir_ext[i] = *p == '*' ? '?' : ' '; /* Convert everything to uppercase. */ DosUpFMem(SearchDir.dir_name, FNAME_SIZE + FEXT_SIZE); /* Now search through the directory to find the entry... */ /* Complete building the directory from the passed in */ /* name */ szDirName[0] = 'A' + nDrive; szDirName[1] = ':'; /* 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_VOLID) { szDirName[2] = '\\'; szDirName[3] = '\0'; } /* Now open this directory so that we can read the */ /* fnode entry and do a match on it. */ /* printf("dir_open %s\n", szDirName);*/ if ((fnp = dir_open(szDirName)) == NULL) return DE_PATHNOTFND; /* Now initialize the dirmatch structure. */ nDrive=get_verify_drive(name); if (nDrive < 0) return nDrive; dmp->dm_drive = nDrive; dmp->dm_attr_srch = attr; /* 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); if (attr == D_VOLID) { /* 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) { dmp->dm_dircluster = fnp->f_dirstart; /* TE */ memcpy(&SearchDir, &fnp->f_dir, sizeof(struct dirent)); 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 { dmp->dm_entry = 0; if (!fnp->f_flags.f_droot) dmp->dm_dircluster = fnp->f_dirstart; else dmp->dm_dircluster = 0; dir_close(fnp); return dos_findnext(); } } /* BUGFIX TE 06/28/01 when using FcbFindXxx, the only information available is the cluster number + entrycount. everything else MUST\ be recalculated. a good test for this is MSDOS CHKDSK, which now (seems too) work */ COUNT dos_findnext(void) { REG dmatch *dmp = (dmatch *) TempBuffer; REG f_node_ptr fnp; BOOL found = FALSE; /* Allocate an fnode if possible - error return (0) if not. */ if ((fnp = get_f_node()) == (f_node_ptr)0) { return DE_NFILES; } memset(fnp, 0, sizeof(*fnp)); /* Force the fnode into read-write mode */ fnp->f_mode = RDWR; /* Select the default to help non-drive specified path */ /* searches... */ fnp->f_dpb = CDSp->cds_table[dmp->dm_drive].cdsDpb; if (media_check(fnp->f_dpb) < 0) { release_f_node(fnp); return DE_NFILES; } 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_flags.f_dnew = FALSE; } else { fnp->f_diroff = 0; fnp->f_flags.f_dnew = TRUE; } fnp->f_offset = fnp->f_diroff; fnp->f_dir.dir_start = dmp->dm_dircluster; #ifdef WITHFAT32 fnp->f_dir.dir_start_high = dmp->dm_dircluster >> 16; #endif fnp->f_cluster = fnp->f_dirstart = dmp->dm_dircluster; fnp->f_flags.f_droot = fnp->f_dirstart == 0; fnp->f_flags.f_ddir = TRUE; fnp->f_flags.f_dfull = FALSE; fnp->f_cluster_offset = 0l; /*JPP */ /* 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 && (fnp->f_dir.dir_attrib & D_VOLID) != D_VOLID ) { if (fcmp_wild((BYTE FAR *)dmp->dm_name_pat, (BYTE FAR *)fnp->f_dir.dir_name, FNAME_SIZE + FEXT_SIZE)) { /* MSD Command.com uses FCB FN 11 & 12 with attrib set to 0x16. Bits 0x21 seem to get set some where in MSD so Rd and Arc files are returned. RdOnly + Archive bits are ignored */ /* Test the attribute as the final step */ if (!(fnp->f_dir.dir_attrib & D_VOLID) && ((~dmp->dm_attr_srch & fnp->f_dir.dir_attrib & (D_DIR | D_SYSTEM | D_HIDDEN)) == 0)) { found = TRUE; break; } else continue; } } } /* If found, transfer it to the dmatch structure */ if (found) { dmp->dm_dircluster = fnp->f_dirstart; memcpy(&SearchDir, &fnp->f_dir, sizeof(struct dirent)); } /* return the result */ release_f_node(fnp); return found ? SUCCESS : DE_NFILES; } #endif /* this receives a name in 11 char field NAME+EXT and builds a zeroterminated string unfortunately, blanks are allowed in filenames. like "test e", " test .y z",... so we have to work from the last blank backward */ void ConvertName83ToNameSZ(BYTE FAR *destSZ, BYTE FAR *srcFCBName) { int loop; int noExtension = FALSE; if (*srcFCBName == '.') { noExtension = TRUE; } fmemcpy(destSZ,srcFCBName,FNAME_SIZE); srcFCBName += FNAME_SIZE; for (loop = FNAME_SIZE; --loop >= 0; ) { if (destSZ[loop] != ' ') break; } destSZ += loop + 1; if (!noExtension) /* not for ".", ".." */ { for (loop = FEXT_SIZE; --loop >= 0; ) { if (srcFCBName[loop] != ' ') break; } if (loop >= 0) { *destSZ++ = '.'; fmemcpy(destSZ,srcFCBName,loop+1); destSZ += loop+1; } } *destSZ = '\0'; } /* returns the asciiSZ length of a 8.3 filename */ int FileName83Length(BYTE *filename83) { BYTE buff[13]; ConvertName83ToNameSZ(buff, filename83); return strlen(buff); }