FreeDOS/kernel/fcbfns.c
Bart Oldeman 3f1938d8e8 Fix bug 1953: 21h/29h returns 0 (valid) for all drive root names up to
LASTDRIVE. Also, if the drive is invalid this function no longer fills in
any values in the destination FCB.


git-svn-id: https://svn.code.sf.net/p/freedos/svn/kernel/trunk@1334 6ac86273-5f31-0410-b378-82cca8765d1b
2007-06-04 16:35:53 +00:00

697 lines
19 KiB
C

/****************************************************************/
/* */
/* fcbfns.c */
/* */
/* Old CP/M Style Function Handlers for Kernel */
/* */
/* 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 *RcsId =
"$Id$";
#endif
#define FCB_SUCCESS 0
#define FCB_ERR_NODATA 1
#define FCB_ERR_SEGMENT_WRAP 2
#define FCB_ERR_EOF 3
#define FCB_ERROR 0xff
STATIC fcb FAR *ExtFcbToFcb(xfcb FAR * lpExtFcb);
STATIC fcb FAR *CommonFcbInit(xfcb FAR * lpExtFcb, BYTE * pszBuffer,
COUNT * pCurDrive);
STATIC void FcbNameInit(fcb FAR * lpFcb, BYTE * pszBuffer, COUNT * pCurDrive);
STATIC void FcbNextRecord(fcb FAR * lpFcb);
STATIC void FcbCalcRec(xfcb FAR * lpXfcb);
#define TestCmnSeps(lpFileName) (*lpFileName && strchr(":<|>+=,", *lpFileName) != NULL)
#define TestFieldSeps(lpFileName) ((unsigned char)*lpFileName <= ' ' || strchr("/\"[]<>|.", *lpFileName) != NULL)
static dmatch Dmatch;
BYTE FAR *FatGetDrvData(UBYTE drive, UBYTE * pspc, UWORD * bps, UWORD * nc)
{
static BYTE mdb;
UWORD spc;
/* get the data available from dpb */
spc = DosGetFree(drive, NULL, bps, nc);
if (spc != 0xffff)
{
struct dpb FAR *dpbp = get_dpb(drive == 0 ? default_drive : drive - 1);
/* Point to the media desctriptor for this drive */
*pspc = (UBYTE)spc;
if (dpbp == NULL)
{
mdb = spc >> 8;
spc &= 0xff;
return &mdb;
}
else
{
return (BYTE FAR *) & (dpbp->dpb_mdb);
}
}
return NULL;
}
#define PARSE_SEP_STOP 0x01
#define PARSE_DFLT_DRIVE 0x02
#define PARSE_BLNK_FNAME 0x04
#define PARSE_BLNK_FEXT 0x08
#define PARSE_RET_NOWILD 0
#define PARSE_RET_WILD 1
#define PARSE_RET_BADDRIVE 0xff
#ifndef IPL
UWORD FcbParseFname(UBYTE *wTestMode, const BYTE FAR * lpFileName, fcb FAR * lpFcb)
{
WORD wRetCodeName = FALSE, wRetCodeExt = FALSE;
/* pjv -- ExtFcbToFcb? */
if (!(*wTestMode & PARSE_SEP_STOP))
{
lpFileName = ParseSkipWh(lpFileName);
if (TestCmnSeps(lpFileName))
++lpFileName;
}
/* Undocumented "feature," we skip white space anyway */
lpFileName = ParseSkipWh(lpFileName);
/* Now check for drive specification */
if (*(lpFileName + 1) == ':')
{
/* non-portable construct to be changed */
REG UBYTE Drive = DosUpFChar(*lpFileName) - 'A';
if (get_cds(Drive) == NULL)
{
*wTestMode = PARSE_RET_BADDRIVE;
return FP_OFF(lpFileName);
}
lpFcb->fcb_drive = Drive + 1;
lpFileName += 2;
} else if (!(*wTestMode & PARSE_DFLT_DRIVE)) {
lpFcb->fcb_drive = FDFLT_DRIVE;
}
/* Undocumented behavior, set record number & record size to 0 */
lpFcb->fcb_cublock = lpFcb->fcb_recsiz = 0;
if (!(*wTestMode & PARSE_BLNK_FNAME))
{
fmemset(lpFcb->fcb_fname, ' ', FNAME_SIZE);
}
if (!(*wTestMode & PARSE_BLNK_FEXT))
{
fmemset(lpFcb->fcb_fext, ' ', FEXT_SIZE);
}
/* special cases: '.' and '..' */
if (*lpFileName == '.')
{
lpFcb->fcb_fname[0] = '.';
++lpFileName;
if (*lpFileName == '.')
{
lpFcb->fcb_fname[1] = '.';
++lpFileName;
}
*wTestMode = PARSE_RET_NOWILD;
return FP_OFF(lpFileName);
}
/* Now to format the file name into the string */
lpFileName =
GetNameField(lpFileName, (BYTE FAR *) lpFcb->fcb_fname, FNAME_SIZE,
(BOOL *) & wRetCodeName);
/* Do we have an extension? If do, format it else return */
if (*lpFileName == '.')
lpFileName =
GetNameField(++lpFileName, (BYTE FAR *) lpFcb->fcb_fext,
FEXT_SIZE, (BOOL *) & wRetCodeExt);
*wTestMode = (wRetCodeName | wRetCodeExt) ? PARSE_RET_WILD : PARSE_RET_NOWILD;
return FP_OFF(lpFileName);
}
const BYTE FAR * ParseSkipWh(const BYTE FAR * lpFileName)
{
while (*lpFileName == ' ' || *lpFileName == '\t')
++lpFileName;
return lpFileName;
}
#if 0 /* defined above */
BOOL TestCmnSeps(BYTE FAR * lpFileName)
{
BYTE *pszTest, *pszCmnSeps = ":<|>+=,";
for (pszTest = pszCmnSeps; *pszTest != '\0'; ++pszTest)
if (*lpFileName == *pszTest)
return TRUE;
return FALSE;
}
#endif
#if 0
BOOL TestFieldSeps(BYTE FAR * lpFileName)
{
BYTE *pszTest, *pszCmnSeps = "/\"[]<>|.";
/* Another non-portable construct */
if (*lpFileName <= ' ')
return TRUE;
for (pszTest = pszCmnSeps; *pszTest != '\0'; ++pszTest)
if (*lpFileName == *pszTest)
return TRUE;
return FALSE;
}
#endif
const BYTE FAR * GetNameField(const BYTE FAR * lpFileName, BYTE FAR * lpDestField,
COUNT nFieldSize, BOOL * pbWildCard)
{
COUNT nIndex = 0;
BYTE cFill = ' ';
while (*lpFileName != '\0' && !TestFieldSeps(lpFileName)
&& nIndex < nFieldSize)
{
if (*lpFileName == ' ')
break;
if (*lpFileName == '*')
{
*pbWildCard = TRUE;
cFill = '?';
++lpFileName;
break;
}
if (*lpFileName == '?')
*pbWildCard = TRUE;
*lpDestField++ = DosUpFChar(*lpFileName++);
++nIndex;
}
/* Blank out remainder of field on exit */
fmemset(lpDestField, cFill, nFieldSize - nIndex);
return lpFileName;
}
STATIC VOID FcbNextRecord(fcb FAR * lpFcb)
{
if (++lpFcb->fcb_curec >= 128)
{
lpFcb->fcb_curec = 0;
++lpFcb->fcb_cublock;
}
}
STATIC ULONG FcbRec(fcb FAR *lpFcb)
{
return ((ULONG) lpFcb->fcb_cublock * 128) + lpFcb->fcb_curec;
}
UBYTE FcbReadWrite(xfcb FAR * lpXfcb, UCOUNT recno, int mode)
{
ULONG lPosit;
long nTransfer;
fcb FAR *lpFcb;
unsigned size;
unsigned long bigsize;
unsigned recsiz;
/* Convert to fcb if necessary */
lpFcb = ExtFcbToFcb(lpXfcb);
recsiz = lpFcb->fcb_recsiz;
bigsize = (ULONG)recsiz * recno;
if (bigsize > 0xffff)
return FCB_ERR_SEGMENT_WRAP;
size = (unsigned)bigsize;
if (FP_OFF(dta) + size < FP_OFF(dta))
return FCB_ERR_SEGMENT_WRAP;
/* Now update the fcb and compute where we need to position */
/* to. */
lPosit = FcbRec(lpFcb) * recsiz;
if ((CritErrCode = -SftSeek(lpFcb->fcb_sftno, lPosit, 0)) != SUCCESS)
return FCB_ERR_NODATA;
/* Do the read */
nTransfer = DosRWSft(lpFcb->fcb_sftno, size, dta, mode & ~XFR_FCB_RANDOM);
if (nTransfer < 0)
CritErrCode = -(int)nTransfer;
/* Now find out how we will return and do it. */
if (mode & XFR_WRITE)
lpFcb->fcb_fsize = SftGetFsize(lpFcb->fcb_sftno);
/* if end-of-file, then partial read should count last record */
if (mode & XFR_FCB_RANDOM && recsiz > 0)
lpFcb->fcb_rndm += ((unsigned)nTransfer + recsiz - 1) / recsiz;
size -= (unsigned)nTransfer;
if (size == 0)
{
FcbNextRecord(lpFcb);
return FCB_SUCCESS;
}
size %= lpFcb->fcb_recsiz;
if (mode & XFR_READ && size > 0)
{
fmemset((char FAR *)dta + (unsigned)nTransfer, 0, size);
FcbNextRecord(lpFcb);
return FCB_ERR_EOF;
}
return FCB_ERR_NODATA;
}
UBYTE FcbGetFileSize(xfcb FAR * lpXfcb)
{
int FcbDrive, sft_idx;
unsigned recsiz;
/* Build a traditional DOS file name */
fcb FAR *lpFcb = CommonFcbInit(lpXfcb, SecPathName, &FcbDrive);
recsiz = lpFcb->fcb_recsiz;
/* check for a device */
if (!lpFcb || IsDevice(SecPathName) || (recsiz == 0))
return FCB_ERROR;
sft_idx = (short)DosOpenSft(SecPathName, O_LEGACY | O_RDONLY | O_OPEN, 0);
if (sft_idx >= 0)
{
ULONG fsize;
/* Get the size */
fsize = SftGetFsize(sft_idx);
/* compute the size and update the fcb */
lpFcb->fcb_rndm = (fsize + (recsiz - 1)) / recsiz;
/* close the file and leave */
if ((CritErrCode = -DosCloseSft(sft_idx, FALSE)) == SUCCESS)
return FCB_SUCCESS;
}
else
CritErrCode = -sft_idx;
return FCB_ERROR;
}
void FcbSetRandom(xfcb FAR * lpXfcb)
{
/* Convert to fcb if necessary */
fcb FAR *lpFcb = ExtFcbToFcb(lpXfcb);
/* Now update the fcb and compute where we need to position */
/* to. */
lpFcb->fcb_rndm = FcbRec(lpFcb);
}
void FcbCalcRec(xfcb FAR * lpXfcb)
{
/* Convert to fcb if necessary */
fcb FAR *lpFcb = ExtFcbToFcb(lpXfcb);
/* Now update the fcb and compute where we need to position */
/* to. */
lpFcb->fcb_cublock = (UWORD)(lpFcb->fcb_rndm / 128);
lpFcb->fcb_curec = (UBYTE)lpFcb->fcb_rndm & 127;
}
UBYTE FcbRandomBlockIO(xfcb FAR * lpXfcb, UWORD *nRecords, int mode)
{
UBYTE nErrorCode;
fcb FAR *lpFcb;
unsigned long old;
FcbCalcRec(lpXfcb);
/* Convert to fcb if necessary */
lpFcb = ExtFcbToFcb(lpXfcb);
old = lpFcb->fcb_rndm;
nErrorCode = FcbReadWrite(lpXfcb, *nRecords, mode);
*nRecords = (UWORD)(lpFcb->fcb_rndm - old);
/* Now update the fcb */
FcbCalcRec(lpXfcb);
return nErrorCode;
}
UBYTE FcbRandomIO(xfcb FAR * lpXfcb, int mode)
{
UWORD uwCurrentBlock;
UBYTE ucCurrentRecord;
UBYTE nErrorCode;
fcb FAR *lpFcb;
FcbCalcRec(lpXfcb);
/* Convert to fcb if necessary */
lpFcb = ExtFcbToFcb(lpXfcb);
uwCurrentBlock = lpFcb->fcb_cublock;
ucCurrentRecord = lpFcb->fcb_curec;
nErrorCode = FcbReadWrite(lpXfcb, 1, mode);
lpFcb->fcb_cublock = uwCurrentBlock;
lpFcb->fcb_curec = ucCurrentRecord;
return nErrorCode;
}
/* merged fcbOpen and FcbCreate - saves ~200 byte */
UBYTE FcbOpen(xfcb FAR * lpXfcb, unsigned flags)
{
sft FAR *sftp;
COUNT sft_idx, FcbDrive;
unsigned attr = 0;
/* Build a traditional DOS file name */
fcb FAR *lpFcb = CommonFcbInit(lpXfcb, SecPathName, &FcbDrive);
if ((flags & O_CREAT) && lpXfcb->xfcb_flag == 0xff)
/* pass attribute without constraints (dangerous for directories) */
attr = lpXfcb->xfcb_attrib;
sft_idx = (short)DosOpenSft(SecPathName, flags, attr);
if (sft_idx < 0)
{
CritErrCode = -sft_idx;
return FCB_ERROR;
}
sftp = idx_to_sft(sft_idx);
sftp->sft_mode |= O_FCB;
lpFcb->fcb_sftno = sft_idx;
lpFcb->fcb_curec = 0;
lpFcb->fcb_rndm = 0;
lpFcb->fcb_recsiz = 0; /* true for devices */
if (!(sftp->sft_flags & SFT_FDEVICE)) /* check for a device */
{
lpFcb->fcb_drive = FcbDrive;
lpFcb->fcb_recsiz = 128;
}
lpFcb->fcb_fsize = sftp->sft_size;
lpFcb->fcb_date = sftp->sft_date;
lpFcb->fcb_time = sftp->sft_time;
return FCB_SUCCESS;
}
STATIC fcb FAR *ExtFcbToFcb(xfcb FAR * lpExtFcb)
{
if (*((UBYTE FAR *) lpExtFcb) == 0xff)
sda_lpFcb = &lpExtFcb->xfcb_fcb;
else
sda_lpFcb = (fcb FAR *) lpExtFcb;
return sda_lpFcb;
}
STATIC fcb FAR *CommonFcbInit(xfcb FAR * lpExtFcb, BYTE * pszBuffer,
COUNT * pCurDrive)
{
fcb FAR *lpFcb;
/* convert to fcb if needed first */
sda_lpFcb = lpFcb = ExtFcbToFcb(lpExtFcb);
/* Build a traditional DOS file name */
FcbNameInit(lpFcb, pszBuffer, pCurDrive);
/* and return the fcb pointer */
return lpFcb;
}
STATIC void FcbNameInit(fcb FAR * lpFcb, BYTE * szBuffer, COUNT * pCurDrive)
{
BYTE *pszBuffer = szBuffer;
/* Build a traditional DOS file name */
*pCurDrive = default_drive + 1;
if (lpFcb->fcb_drive != 0)
{
*pCurDrive = lpFcb->fcb_drive;
pszBuffer[0] = 'A' + lpFcb->fcb_drive - 1;
pszBuffer[1] = ':';
pszBuffer += 2;
}
ConvertName83ToNameSZ(pszBuffer, lpFcb->fcb_fname);
}
UBYTE FcbDelete(xfcb FAR * lpXfcb)
{
COUNT FcbDrive;
UBYTE result = FCB_SUCCESS;
void FAR *lpOldDta = dta;
/* Build a traditional DOS file name */
CommonFcbInit(lpXfcb, SecPathName, &FcbDrive);
/* check for a device */
if (IsDevice(SecPathName))
{
result = FCB_ERROR;
}
else
{
int attr = (lpXfcb->xfcb_flag == 0xff ? lpXfcb->xfcb_attrib : D_ALL);
dmatch Dmatch;
dta = &Dmatch;
if ((CritErrCode = -DosFindFirst(attr, SecPathName)) != SUCCESS)
{
result = FCB_ERROR;
}
else do
{
SecPathName[0] = 'A' + FcbDrive - 1;
SecPathName[1] = ':';
strcpy(&SecPathName[2], Dmatch.dm_name);
if (DosDelete(SecPathName, attr) != SUCCESS)
{
result = FCB_ERROR;
break;
}
}
while ((CritErrCode = -DosFindNext()) == SUCCESS);
}
dta = lpOldDta;
return result;
}
UBYTE FcbRename(xfcb FAR * lpXfcb)
{
rfcb FAR *lpRenameFcb;
COUNT FcbDrive;
UBYTE result = FCB_SUCCESS;
void FAR *lpOldDta = dta;
/* Build a traditional DOS file name */
lpRenameFcb = (rfcb FAR *) CommonFcbInit(lpXfcb, SecPathName, &FcbDrive);
/* check for a device */
if (IsDevice(SecPathName))
{
result = FCB_ERROR;
}
else
{
dmatch Dmatch;
COUNT result;
wAttr = (lpXfcb->xfcb_flag == 0xff ? lpXfcb->xfcb_attrib : D_ALL);
dta = &Dmatch;
if ((CritErrCode = -DosFindFirst(wAttr, SecPathName)) != SUCCESS)
{
result = FCB_ERROR;
}
else do
{
/* 'A:' + '.' + '\0' */
BYTE loc_szBuffer[2 + FNAME_SIZE + 1 + FEXT_SIZE + 1];
fcb LocalFcb;
BYTE *pToName;
const BYTE FAR *pFromPattern = Dmatch.dm_name;
int i;
UBYTE mode = 0;
FcbParseFname(&mode, pFromPattern, &LocalFcb);
/* Overlay the pattern, skipping '?' */
/* I'm cheating because this assumes that the */
/* struct alignments are on byte boundaries */
pToName = LocalFcb.fcb_fname;
pFromPattern = lpRenameFcb->renNewName;
for (i = 0; i < FNAME_SIZE + FEXT_SIZE; i++)
{
if (*pFromPattern != '?')
*pToName = *pFromPattern;
pToName++;
pFromPattern++;
}
SecPathName[0] = 'A' + FcbDrive - 1;
SecPathName[1] = ':';
strcpy(&SecPathName[2], Dmatch.dm_name);
result = truename(SecPathName, PriPathName, 0);
if (result < SUCCESS || (result & IS_DEVICE))
{
result = FCB_ERROR;
break;
}
/* now to build a dos name again */
LocalFcb.fcb_drive = FcbDrive;
FcbNameInit(&LocalFcb, loc_szBuffer, &FcbDrive);
result = truename(loc_szBuffer, SecPathName, 0);
if (result < SUCCESS || (result & (IS_NETWORK|IS_DEVICE)) == IS_DEVICE
|| DosRenameTrue(PriPathName, SecPathName, wAttr) != SUCCESS)
{
result = FCB_ERROR;
break;
}
}
while ((CritErrCode = -DosFindNext()) == SUCCESS);
}
dta = lpOldDta;
return result;
}
/* TE:the MoveDirInfo() is now done by simply copying the dirEntry into the FCB
this prevents problems with ".", ".." and saves code
BO:use global SearchDir, as produced by FindFirst/Next
*/
UBYTE FcbClose(xfcb FAR * lpXfcb)
{
sft FAR *s;
/* Convert to fcb if necessary */
fcb FAR *lpFcb = ExtFcbToFcb(lpXfcb);
/* An already closed FCB can be closed again without error */
if (lpFcb->fcb_sftno == (BYTE) 0xff)
return FCB_SUCCESS;
/* Get the SFT block that contains the SFT */
if ((s = idx_to_sft(lpFcb->fcb_sftno)) == (sft FAR *) - 1)
return FCB_ERROR;
/* change time and set file size */
s->sft_size = lpFcb->fcb_fsize;
if (!(s->sft_flags & SFT_FSHARED))
dos_setfsize(s->sft_status, lpFcb->fcb_fsize);
DosSetFtimeSft(lpFcb->fcb_sftno, lpFcb->fcb_date, lpFcb->fcb_time);
if ((CritErrCode = -DosCloseSft(lpFcb->fcb_sftno, FALSE)) == SUCCESS)
{
lpFcb->fcb_sftno = (BYTE) 0xff;
return FCB_SUCCESS;
}
return FCB_ERROR;
}
/* close all files the current process opened by FCBs */
VOID FcbCloseAll()
{
COUNT idx = 0;
sft FAR *sftp;
for (idx = 0; (sftp = idx_to_sft(idx)) != (sft FAR *) - 1; idx++)
if ((sftp->sft_mode & O_FCB) && sftp->sft_psp == cu_psp)
DosCloseSft(idx, FALSE);
}
UBYTE FcbFindFirstNext(xfcb FAR * lpXfcb, BOOL First)
{
void FAR *orig_dta = dta;
BYTE FAR *lpDir;
COUNT FcbDrive;
fcb FAR *lpFcb;
/* First, move the dta to a local and change it around to match */
/* our functions. */
lpDir = dta;
dta = &Dmatch;
/* Next initialze local variables by moving them from the fcb */
lpFcb = CommonFcbInit(lpXfcb, SecPathName, &FcbDrive);
/* Reconstrct the dirmatch structure from the fcb - doesn't hurt for first */
Dmatch.dm_drive = lpFcb->fcb_sftno;
fmemcpy(Dmatch.dm_name_pat, lpFcb->fcb_fname, FNAME_SIZE + FEXT_SIZE);
DosUpFMem((BYTE FAR *) Dmatch.dm_name_pat, FNAME_SIZE + FEXT_SIZE);
Dmatch.dm_attr_srch = wAttr;
Dmatch.dm_entry = lpFcb->fcb_strtclst;
Dmatch.dm_dircluster = lpFcb->fcb_dirclst;
wAttr = D_ALL;
if ((xfcb FAR *) lpFcb != lpXfcb)
{
wAttr = lpXfcb->xfcb_attrib;
fmemcpy(lpDir, lpXfcb, 7);
lpDir += 7;
}
CritErrCode = -(First ? DosFindFirst(wAttr, SecPathName) : DosFindNext());
if (CritErrCode != SUCCESS)
{
dta = orig_dta;
return FCB_ERROR;
}
*lpDir++ = FcbDrive;
fmemcpy(lpDir, &SearchDir, sizeof(struct dirent));
lpFcb->fcb_dirclst = (UWORD) Dmatch.dm_dircluster;
lpFcb->fcb_strtclst = Dmatch.dm_entry;
/*
This is undocumented and seen using Pcwatch and Ramview.
The First byte is the current directory count and the second seems
to be the attribute byte.
*/
lpFcb->fcb_sftno = Dmatch.dm_drive; /* MSD seems to save this @ fcb_date. */
#if 0
lpFcb->fcb_cublock = Dmatch.dm_entry;
lpFcb->fcb_cublock *= 0x100;
lpFcb->fcb_cublock += wAttr;
#endif
dta = orig_dta;
return FCB_SUCCESS;
}
#endif