source: trunk/minix/commands/i386/mtools-3.9.7/plain_io.c@ 20

Last change on this file since 20 was 9, checked in by Mattia Monga, 14 years ago

Minix 3.1.2a

File size: 17.8 KB
Line 
1/*
2 * Io to a plain file or device
3 *
4 * written by:
5 *
6 * Alain L. Knaff
7 * alain@linux.lu
8 *
9 */
10
11#include "sysincludes.h"
12#include "stream.h"
13#include "mtools.h"
14#include "msdos.h"
15#include "plain_io.h"
16#include "scsi.h"
17#include "partition.h"
18#include "llong.h"
19
20typedef struct SimpleFile_t {
21 Class_t *Class;
22 int refs;
23 Stream_t *Next;
24 Stream_t *Buffer;
25 struct stat stat;
26 int fd;
27 mt_off_t offset;
28 mt_off_t lastwhere;
29 int seekable;
30 int privileged;
31#ifdef OS_hpux
32 int size_limited;
33#endif
34 int scsi_sector_size;
35 void *extra_data; /* extra system dependant information for scsi */
36} SimpleFile_t;
37
38
39/*
40 * Create an advisory lock on the device to prevent concurrent writes.
41 * Uses either lockf, flock, or fcntl locking methods. See the Makefile
42 * and the Configure files for how to specify the proper method.
43 */
44
45int lock_dev(int fd, int mode, struct device *dev)
46{
47#if (defined(HAVE_FLOCK) && defined (LOCK_EX) && defined(LOCK_NB))
48 /**/
49#else /* FLOCK */
50
51#if (defined(HAVE_LOCKF) && defined(F_TLOCK))
52 /**/
53#else /* LOCKF */
54
55#if (defined(F_SETLK) && defined(F_WRLCK))
56 struct flock flk;
57
58#endif /* FCNTL */
59#endif /* LOCKF */
60#endif /* FLOCK */
61
62 if(IS_NOLOCK(dev))
63 return 0;
64
65#if (defined(HAVE_FLOCK) && defined (LOCK_EX) && defined(LOCK_NB))
66 if (flock(fd, (mode ? LOCK_EX : LOCK_SH)|LOCK_NB) < 0)
67#else /* FLOCK */
68
69#if (defined(HAVE_LOCKF) && defined(F_TLOCK))
70 if (mode && lockf(fd, F_TLOCK, 0) < 0)
71#else /* LOCKF */
72
73#if (defined(F_SETLK) && defined(F_WRLCK))
74 flk.l_type = mode ? F_WRLCK : F_RDLCK;
75 flk.l_whence = 0;
76 flk.l_start = 0L;
77 flk.l_len = 0L;
78
79 if (fcntl(fd, F_SETLK, &flk) < 0)
80#endif /* FCNTL */
81#endif /* LOCKF */
82#endif /* FLOCK */
83 {
84 if(errno == EINVAL
85#ifdef EOPNOTSUPP
86 || errno == EOPNOTSUPP
87#endif
88 )
89 return 0;
90 else
91 return 1;
92 }
93 return 0;
94}
95
96typedef int (*iofn) (int, char *, int);
97
98
99
100static int file_io(Stream_t *Stream, char *buf, mt_off_t where, int len,
101 iofn io)
102{
103 DeclareThis(SimpleFile_t);
104 int ret;
105
106 where += This->offset;
107
108 if (This->seekable && where != This->lastwhere ){
109 if(mt_lseek( This->fd, where, SEEK_SET) < 0 ){
110 perror("seek");
111 This->lastwhere = (mt_off_t) -1;
112 return -1;
113 }
114 }
115
116#ifdef OS_hpux
117 /*
118 * On HP/UX, we can not write more than MAX_LEN bytes in one go.
119 * If more are written, the write fails with EINVAL
120 */
121 #define MAX_SCSI_LEN (127*1024)
122 if(This->size_limited && len > MAX_SCSI_LEN)
123 len = MAX_SCSI_LEN;
124#endif
125 ret = io(This->fd, buf, len);
126
127#ifdef OS_hpux
128 if (ret == -1 &&
129 errno == EINVAL && /* if we got EINVAL */
130 len > MAX_SCSI_LEN) {
131 This->size_limited = 1;
132 len = MAX_SCSI_LEN;
133 ret = io(This->fd, buf, len);
134 }
135#endif
136
137 if ( ret == -1 ){
138 perror("plain_io");
139 This->lastwhere = (mt_off_t) -1;
140 return -1;
141 }
142 This->lastwhere = where + ret;
143 return ret;
144}
145
146
147
148static int file_read(Stream_t *Stream, char *buf, mt_off_t where, size_t len)
149{
150 return file_io(Stream, buf, where, len, (iofn) read);
151}
152
153static int file_write(Stream_t *Stream, char *buf, mt_off_t where, size_t len)
154{
155 return file_io(Stream, buf, where, len, (iofn) write);
156}
157
158static int file_flush(Stream_t *Stream)
159{
160#if 0
161 DeclareThis(SimpleFile_t);
162
163 return fsync(This->fd);
164#endif
165 return 0;
166}
167
168static int file_free(Stream_t *Stream)
169{
170 DeclareThis(SimpleFile_t);
171
172 if (This->fd > 2)
173 return close(This->fd);
174 else
175 return 0;
176}
177
178static int file_geom(Stream_t *Stream, struct device *dev,
179 struct device *orig_dev,
180 int media, struct bootsector *boot)
181{
182 int ret;
183 DeclareThis(SimpleFile_t);
184 size_t tot_sectors;
185 int BootP, Infp0, InfpX, InfTm;
186 int sectors, j;
187 unsigned char sum;
188 int sect_per_track;
189 struct label_blk_t *labelBlock;
190
191 dev->ssize = 2; /* allow for init_geom to change it */
192 dev->use_2m = 0x80; /* disable 2m mode to begin */
193
194 if(media == 0xf0 || media >= 0x100){
195 dev->heads = WORD(nheads);
196 dev->sectors = WORD(nsect);
197 tot_sectors = DWORD(bigsect);
198 SET_INT(tot_sectors, WORD(psect));
199 sect_per_track = dev->heads * dev->sectors;
200 tot_sectors += sect_per_track - 1; /* round size up */
201 dev->tracks = tot_sectors / sect_per_track;
202
203 BootP = WORD(ext.old.BootP);
204 Infp0 = WORD(ext.old.Infp0);
205 InfpX = WORD(ext.old.InfpX);
206 InfTm = WORD(ext.old.InfTm);
207
208 if(WORD(fatlen)) {
209 labelBlock = &boot->ext.old.labelBlock;
210 } else {
211 labelBlock = &boot->ext.fat32.labelBlock;
212 }
213
214 if (boot->descr >= 0xf0 &&
215 labelBlock->dos4 == 0x29 &&
216 strncmp( boot->banner,"2M", 2 ) == 0 &&
217 BootP < 512 && Infp0 < 512 && InfpX < 512 && InfTm < 512 &&
218 BootP >= InfTm + 2 && InfTm >= InfpX && InfpX >= Infp0 &&
219 Infp0 >= 76 ){
220 for (sum=0, j=63; j < BootP; j++)
221 sum += boot->jump[j];/* checksum */
222 dev->ssize = boot->jump[InfTm];
223 if (!sum && dev->ssize <= 7){
224 dev->use_2m = 0xff;
225 dev->ssize |= 0x80; /* is set */
226 }
227 }
228 } else if (media >= 0xf8){
229 media &= 3;
230 dev->heads = old_dos[media].heads;
231 dev->tracks = old_dos[media].tracks;
232 dev->sectors = old_dos[media].sectors;
233 dev->ssize = 0x80;
234 dev->use_2m = ~1;
235 } else {
236 fprintf(stderr,"Unknown media type\n");
237 exit(1);
238 }
239
240 sectors = dev->sectors;
241 dev->sectors = dev->sectors * WORD(secsiz) / 512;
242
243#ifdef JPD
244 printf("file_geom:media=%0X=>cyl=%d,heads=%d,sects=%d,ssize=%d,use2m=%X\n",
245 media, dev->tracks, dev->heads, dev->sectors, dev->ssize,
246 dev->use_2m);
247#endif
248 ret = init_geom(This->fd,dev, orig_dev, &This->stat);
249 dev->sectors = sectors;
250#ifdef JPD
251 printf("f_geom: after init_geom(), sects=%d\n", dev->sectors);
252#endif
253 return ret;
254}
255
256
257static int file_data(Stream_t *Stream, time_t *date, mt_size_t *size,
258 int *type, int *address)
259{
260 DeclareThis(SimpleFile_t);
261
262 if(date)
263 *date = This->stat.st_mtime;
264 if(size)
265 *size = This->stat.st_size;
266 if(type)
267 *type = S_ISDIR(This->stat.st_mode);
268 if(address)
269 *address = 0;
270 return 0;
271}
272
273/* ZIP or other scsi device on Solaris or SunOS system.
274 Since Sun won't accept a non-Sun label on a scsi disk, we must
275 bypass Sun's disk interface and use low-level SCSI commands to read
276 or write the ZIP drive. We thus replace the file_read and file_write
277 routines with our own scsi_read and scsi_write routines, that use the
278 uscsi ioctl interface. By James Dugal, jpd@usl.edu, 11-96. Tested
279 under Solaris 2.5 and SunOS 4.3.1_u1 using GCC.
280
281 Note: the mtools.conf entry for a ZIP drive would look like this:
282(solaris) drive C: file="/dev/rdsk/c0t5d0s2" partition=4 FAT=16 nodelay exclusive scsi=&
283(sunos) drive C: file="/dev/rsd5c" partition=4 FAT=16 nodelay exclusive scsi=1
284
285 Note 2: Sol 2.5 wants mtools to be suid-root, to use the ioctl. SunOS is
286 happy if we just have access to the device, so making mtools sgid to a
287 group called, say, "ziprw" which has rw permission on /dev/rsd5c, is fine.
288 */
289
290#define MAXBLKSPERCMD 255
291
292static void scsi_init(SimpleFile_t *This)
293{
294 int fd = This->fd;
295 unsigned char cdb[10],buf[8];
296
297 memset(cdb, 0, sizeof cdb);
298 memset(buf,0, sizeof(buf));
299 cdb[0]=SCSI_READ_CAPACITY;
300 if (scsi_cmd(fd, (unsigned char *)cdb,
301 sizeof(cdb), SCSI_IO_READ, buf, sizeof(buf), This->extra_data)==0)
302 {
303 This->scsi_sector_size=
304 ((unsigned)buf[5]<<16)|((unsigned)buf[6]<<8)|(unsigned)buf[7];
305 if (This->scsi_sector_size != 512)
306 fprintf(stderr," (scsi_sector_size=%d)\n",This->scsi_sector_size);
307 }
308}
309
310int scsi_io(Stream_t *Stream, char *buf, mt_off_t where, size_t len, int rwcmd)
311{
312 unsigned int firstblock, nsect;
313 int clen,r,max;
314 off_t offset;
315 unsigned char cdb[10];
316 DeclareThis(SimpleFile_t);
317
318 firstblock=truncBytes32((where + This->offset)/This->scsi_sector_size);
319 /* 512,1024,2048,... bytes/sector supported */
320 offset=truncBytes32(where + This->offset -
321 firstblock*This->scsi_sector_size);
322 nsect=(offset+len+This->scsi_sector_size-1)/ This->scsi_sector_size;
323#if defined(OS_sun) && defined(OS_i386)
324 if (This->scsi_sector_size>512)
325 firstblock*=This->scsi_sector_size/512; /* work around a uscsi bug */
326#endif /* sun && i386 */
327
328 if (len>512) {
329 /* avoid buffer overruns. The transfer MUST be smaller or
330 * equal to the requested size! */
331 while (nsect*This->scsi_sector_size>len)
332 --nsect;
333 if(!nsect) {
334 fprintf(stderr,"Scsi buffer too small\n");
335 exit(1);
336 }
337 if(rwcmd == SCSI_IO_WRITE && offset) {
338 /* there seems to be no memmove before a write */
339 fprintf(stderr,"Unaligned write\n");
340 exit(1);
341 }
342 /* a better implementation should use bounce buffers.
343 * However, in normal operation no buffer overruns or
344 * unaligned writes should happen anyways, as the logical
345 * sector size is (hopefully!) equal to the physical one
346 */
347 }
348
349
350 max = scsi_max_length();
351
352 if (nsect > max)
353 nsect=max;
354
355 /* set up SCSI READ/WRITE command */
356 memset(cdb, 0, sizeof cdb);
357
358 switch(rwcmd) {
359 case SCSI_IO_READ:
360 cdb[0] = SCSI_READ;
361 break;
362 case SCSI_IO_WRITE:
363 cdb[0] = SCSI_WRITE;
364 break;
365 }
366
367 cdb[1] = 0;
368
369 if (firstblock > 0x1fffff || nsect > 0xff) {
370 /* I suspect that the ZIP drive also understands Group 1
371 * commands. If that is indeed true, we may chose Group 1
372 * more agressively in the future */
373
374 cdb[0] |= SCSI_GROUP1;
375 clen=10; /* SCSI Group 1 cmd */
376
377 /* this is one of the rare case where explicit coding is
378 * more portable than macros... The meaning of scsi command
379 * bytes is standardised, whereas the preprocessor macros
380 * handling it might be not... */
381
382 cdb[2] = (unsigned char) (firstblock >> 24) & 0xff;
383 cdb[3] = (unsigned char) (firstblock >> 16) & 0xff;
384 cdb[4] = (unsigned char) (firstblock >> 8) & 0xff;
385 cdb[5] = (unsigned char) firstblock & 0xff;
386 cdb[6] = 0;
387 cdb[7] = (unsigned char) (nsect >> 8) & 0xff;
388 cdb[8] = (unsigned char) nsect & 0xff;
389 cdb[9] = 0;
390 } else {
391 clen = 6; /* SCSI Group 0 cmd */
392 cdb[1] |= (unsigned char) ((firstblock >> 16) & 0x1f);
393 cdb[2] = (unsigned char) ((firstblock >> 8) & 0xff);
394 cdb[3] = (unsigned char) firstblock & 0xff;
395 cdb[4] = (unsigned char) nsect;
396 cdb[5] = 0;
397 }
398
399 if(This->privileged)
400 reclaim_privs();
401
402 r=scsi_cmd(This->fd, (unsigned char *)cdb, clen, rwcmd, buf,
403 nsect*This->scsi_sector_size, This->extra_data);
404
405 if(This->privileged)
406 drop_privs();
407
408 if(r) {
409 perror(rwcmd == SCSI_IO_READ ? "SCMD_READ" : "SCMD_WRITE");
410 return -1;
411 }
412#ifdef JPD
413 printf("finished %u for %u\n", firstblock, nsect);
414#endif
415
416#ifdef JPD
417 printf("zip: read or write OK\n");
418#endif
419 if (offset>0) memmove(buf,buf+offset,nsect*This->scsi_sector_size-offset);
420 if (len==256) return 256;
421 else if (len==512) return 512;
422 else return nsect*This->scsi_sector_size-offset;
423}
424
425int scsi_read(Stream_t *Stream, char *buf, mt_off_t where, size_t len)
426{
427
428#ifdef JPD
429 printf("zip: to read %d bytes at %d\n", len, where);
430#endif
431 return scsi_io(Stream, buf, where, len, SCSI_IO_READ);
432}
433
434int scsi_write(Stream_t *Stream, char *buf, mt_off_t where, size_t len)
435{
436#ifdef JPD
437 Printf("zip: to write %d bytes at %d\n", len, where);
438#endif
439 return scsi_io(Stream, buf, where, len, SCSI_IO_WRITE);
440}
441
442static Class_t ScsiClass = {
443 scsi_read,
444 scsi_write,
445 file_flush,
446 file_free,
447 file_geom,
448 file_data,
449 0 /* pre-allocate */
450};
451
452
453static Class_t SimpleFileClass = {
454 file_read,
455 file_write,
456 file_flush,
457 file_free,
458 file_geom,
459 file_data,
460 0 /* pre_allocate */
461};
462
463
464Stream_t *SimpleFileOpen(struct device *dev, struct device *orig_dev,
465 const char *name, int mode, char *errmsg,
466 int mode2, int locked, mt_size_t *maxSize)
467{
468 SimpleFile_t *This;
469#ifdef __EMX__
470HFILE FileHandle;
471ULONG Action;
472APIRET rc;
473#endif
474 This = New(SimpleFile_t);
475 if (!This){
476 printOom();
477 return 0;
478 }
479 This->scsi_sector_size = 512;
480 This->seekable = 1;
481#ifdef OS_hpux
482 This->size_limited = 0;
483#endif
484 This->Class = &SimpleFileClass;
485 if (!name || strcmp(name,"-") == 0 ){
486 if (mode == O_RDONLY)
487 This->fd = 0;
488 else
489 This->fd = 1;
490 This->seekable = 0;
491 This->refs = 1;
492 This->Next = 0;
493 This->Buffer = 0;
494 if (fstat(This->fd, &This->stat) < 0) {
495 Free(This);
496 if(errmsg)
497#ifdef HAVE_SNPRINTF
498 snprintf(errmsg,199,"Can't stat -: %s",
499 strerror(errno));
500#else
501 sprintf(errmsg,"Can't stat -: %s",
502 strerror(errno));
503#endif
504 return NULL;
505 }
506
507 return (Stream_t *) This;
508 }
509
510
511 if(dev) {
512 if(!(mode2 & NO_PRIV))
513 This->privileged = IS_PRIVILEGED(dev);
514 mode |= dev->mode;
515 }
516
517 precmd(dev);
518 if(IS_PRIVILEGED(dev) && !(mode2 & NO_PRIV))
519 reclaim_privs();
520
521#ifdef __EMX__
522#define DOSOPEN_FLAGS (OPEN_FLAGS_DASD | OPEN_FLAGS_WRITE_THROUGH | \
523 OPEN_FLAGS_NOINHERIT | OPEN_FLAGS_RANDOM | \
524 OPEN_FLAGS_NO_CACHE)
525#define DOSOPEN_FD_ACCESS (OPEN_SHARE_DENYREADWRITE | OPEN_ACCESS_READWRITE)
526#define DOSOPEN_HD_ACCESS (OPEN_SHARE_DENYNONE | OPEN_ACCESS_READONLY)
527
528 if (skip_drive(name) > name) {
529 rc = DosOpen(
530 name, &FileHandle, &Action, 0L, FILE_NORMAL,
531 OPEN_ACTION_OPEN_IF_EXISTS, DOSOPEN_FLAGS |
532 (IS_NOLOCK(dev)?DOSOPEN_HD_ACCESS:DOSOPEN_FD_ACCESS),
533 0L);
534#ifdef DEBUG
535 if (rc != NO_ERROR) fprintf (stderr, "DosOpen() returned %d\n", rc);
536#endif
537 if (!IS_NOLOCK(dev)) {
538 rc = DosDevIOCtl(
539 FileHandle, 0x08L, DSK_LOCKDRIVE, 0, 0, 0, 0, 0, 0);
540#ifdef DEBUG
541 if (rc != NO_ERROR) fprintf (stderr, "DosDevIOCtl() returned %d\n", rc);
542#endif
543 }
544 if (rc == NO_ERROR)
545 This->fd = _imphandle(FileHandle); else This->fd = -1;
546 } else
547#endif
548 {
549 if (IS_SCSI(dev))
550 This->fd = scsi_open(name, mode, IS_NOLOCK(dev)?0444:0666,
551 &This->extra_data);
552 else
553 This->fd = open(name, mode, IS_NOLOCK(dev)?0444:0666);
554 }
555
556 if(IS_PRIVILEGED(dev) && !(mode2 & NO_PRIV))
557 drop_privs();
558
559 if (This->fd < 0) {
560 Free(This);
561 if(errmsg)
562#ifdef HAVE_SNPRINTF
563 snprintf(errmsg, 199, "Can't open %s: %s",
564 name, strerror(errno));
565#else
566 sprintf(errmsg, "Can't open %s: %s",
567 name, strerror(errno));
568#endif
569 return NULL;
570 }
571
572 if(IS_PRIVILEGED(dev) && !(mode2 & NO_PRIV))
573 closeExec(This->fd);
574
575#ifdef __EMX__
576 if (*(name+1) != ':')
577#endif
578 if (fstat(This->fd, &This->stat) < 0){
579 Free(This);
580 if(errmsg) {
581#ifdef HAVE_SNPRINTF
582 snprintf(errmsg,199,"Can't stat %s: %s",
583 name, strerror(errno));
584#else
585 if(strlen(name) > 50) {
586 sprintf(errmsg,"Can't stat file: %s",
587 strerror(errno));
588 } else {
589 sprintf(errmsg,"Can't stat %s: %s",
590 name, strerror(errno));
591 }
592#endif
593 }
594 return NULL;
595 }
596#ifndef __EMX__
597 /* lock the device on writes */
598 if (locked && lock_dev(This->fd, mode == O_RDWR, dev)) {
599 if(errmsg)
600#ifdef HAVE_SNPRINTF
601 snprintf(errmsg,199,
602 "plain floppy: device \"%s\" busy (%s):",
603 dev ? dev->name : "unknown", strerror(errno));
604#else
605 sprintf(errmsg,
606 "plain floppy: device \"%s\" busy (%s):",
607 (dev && strlen(dev->name) < 50) ?
608 dev->name : "unknown", strerror(errno));
609#endif
610
611 close(This->fd);
612 Free(This);
613 return NULL;
614 }
615#endif
616 /* set default parameters, if needed */
617 if (dev){
618 if ((IS_MFORMAT_ONLY(dev) || !dev->tracks) &&
619 init_geom(This->fd, dev, orig_dev, &This->stat)){
620 close(This->fd);
621 Free(This);
622 if(errmsg)
623 sprintf(errmsg,"init: set default params");
624 return NULL;
625 }
626 This->offset = (mt_off_t) dev->offset;
627 } else
628 This->offset = 0;
629
630 This->refs = 1;
631 This->Next = 0;
632 This->Buffer = 0;
633
634 if(maxSize) {
635 if (IS_SCSI(dev)) {
636 *maxSize = MAX_OFF_T_B(31+log_2(This->scsi_sector_size));
637 } else {
638 *maxSize = max_off_t_seek;
639 }
640 if(This->offset > *maxSize) {
641 close(This->fd);
642 Free(This);
643 if(errmsg)
644 sprintf(errmsg,"init: Big disks not supported");
645 return NULL;
646 }
647
648 *maxSize -= This->offset;
649 }
650 /* partitioned drive */
651
652 /* jpd@usl.edu: assume a partitioned drive on these 2 systems is a ZIP*/
653 /* or similar drive that must be accessed by low-level scsi commands */
654 /* AK: introduce new "scsi=1" statement to specifically set
655 * this option. Indeed, there could conceivably be partitioned
656 * devices where low level scsi commands will not be needed */
657 if(IS_SCSI(dev)) {
658 This->Class = &ScsiClass;
659 if(This->privileged)
660 reclaim_privs();
661 scsi_init(This);
662 if(This->privileged)
663 drop_privs();
664 }
665 while(!(mode2 & NO_OFFSET) &&
666 dev && dev->partition && dev->partition <= 4) {
667 int has_activated, last_end, j;
668 unsigned char buf[2048];
669 struct partition *partTable=(struct partition *)(buf+ 0x1ae);
670 size_t partOff;
671
672 /* read the first sector, or part of it */
673 if (force_read((Stream_t *)This, (char*) buf, 0, 512) != 512)
674 break;
675 if( _WORD(buf+510) != 0xaa55)
676 break;
677
678 partOff = BEGIN(partTable[dev->partition]);
679 if (maxSize) {
680 if (partOff > *maxSize >> 9) {
681 close(This->fd);
682 Free(This);
683 if(errmsg)
684 sprintf(errmsg,"init: Big disks not supported");
685 return NULL;
686 }
687 *maxSize -= (mt_off_t) partOff << 9;
688 }
689
690 This->offset += (mt_off_t) partOff << 9;
691 if(!partTable[dev->partition].sys_ind) {
692 if(errmsg)
693 sprintf(errmsg,
694 "init: non-existant partition");
695 close(This->fd);
696 Free(This);
697 return NULL;
698 }
699
700 if(!dev->tracks) {
701 dev->heads = head(partTable[dev->partition].end)+1;
702 dev->sectors = sector(partTable[dev->partition].end);
703 dev->tracks = cyl(partTable[dev->partition].end) -
704 cyl(partTable[dev->partition].start)+1;
705 }
706 dev->hidden=dev->sectors*head(partTable[dev->partition].start);
707 if(!mtools_skip_check &&
708 consistencyCheck((struct partition *)(buf+0x1ae), 0, 0,
709 &has_activated, &last_end, &j, dev, 0)) {
710 fprintf(stderr,
711 "Warning: inconsistent partition table\n");
712 fprintf(stderr,
713 "Possibly unpartitioned device\n");
714 fprintf(stderr,
715 "\n*** Maybe try without partition=%d in "
716 "device definition ***\n\n",
717 dev->partition);
718 fprintf(stderr,
719 "If this is a PCMCIA card, or a disk "
720 "partitioned on another computer, this "
721 "message may be in error: add "
722 "mtools_skip_check=1 to your .mtoolsrc "
723 "file to suppress this warning\n");
724
725 }
726 break;
727 /* NOTREACHED */
728 }
729
730 This->lastwhere = -This->offset;
731 /* provoke a seek on those devices that don't start on a partition
732 * boundary */
733
734 return (Stream_t *) This;
735}
736
737int get_fd(Stream_t *Stream)
738{
739 DeclareThis(SimpleFile_t);
740
741 return This->fd;
742}
743
744void *get_extra_data(Stream_t *Stream)
745{
746 DeclareThis(SimpleFile_t);
747
748 return This->extra_data;
749}
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