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source: trunk/minix/commands/i386/mtools-3.9.7/xdf_io.c@ 9

Last change on this file since 9 was 9, checked in by Mattia Monga, 13 years ago
Minix 3.1.2a
File size: 13.9 KB

Line
1	/*
2	* Io to an xdf disk
3	*
4	* written by:
5	*
6	* Alain L. Knaff
7	* alain@linux.lu
8	*
9	*/
10
11
12	#include "sysincludes.h"
13	#ifdef OS_linux
14	#include "msdos.h"
15	#include "mtools.h"
16	#include "devices.h"
17	#include "xdf_io.h"
18
19	extern int errno;
20
21	/* Algorithms can't be patented */
22
23	typedef struct sector_map {
24	unsigned int head:1;
25	unsigned int size:7;
26	} sector_map_t;
27
28
29	struct {
30	unsigned char track_size;
31	unsigned int track0_size:7;
32	unsigned int rootskip:1;
33	unsigned char rate;
34	sector_map_t map[9];
35	} xdf_table[]= {
36	{
37	19, 16, 0, 0,
38	{ {0,3}, {0,6}, {1,2}, {0,2}, {1,6}, {1,3}, {0,0} }
39	},
40	{
41	23, 19, 0, 0,
42	{ {0,3}, {0,4}, {1,6}, {0,2}, {1,2}, {0,6}, {1,4}, {1,3}, {0,0} }
43	},
44	{
45	46, 37, 0x43, 1,
46	{ {0,3}, {0,4}, {0,5}, {0,7}, {1,3}, {1,4}, {1,5}, {1,7}, {0,0} }
47	},
48	{
49	24, 20, 0, 1,
50	{ {0,5}, {1,6}, {0,6}, {1, 5} }
51	},
52	{
53	48, 41, 0, 1,
54	{ {0,6}, {1,7}, {0,7}, {1, 6} }
55	}
56	};
57
58	#define NUMBER(x) (sizeof(x)/sizeof(x[0]))
59
60	typedef struct {
61	unsigned char begin; /* where it begins */
62	unsigned char end;
63	unsigned char sector;
64	unsigned char sizecode;
65
66	unsigned int dirty:1;
67	unsigned int phantom:2;
68	unsigned int valid:1;
69	unsigned int head:1;
70	} TrackMap_t;
71
72
73
74	typedef struct Xdf_t {
75	Class_t *Class;
76	int refs;
77	Stream_t *Next;
78	Stream_t *Buffer;
79
80	int fd;
81	char *buffer;
82
83	int current_track;
84
85	sector_map_t *map;
86
87	int track_size;
88	int track0_size;
89	int sector_size;
90	int FatSize;
91	int RootDirSize;
92	TrackMap_t *track_map;
93
94	unsigned char last_sector;
95	unsigned char rate;
96
97	unsigned int stretch:1;
98	unsigned int rootskip:1;
99	signed int drive:4;
100	} Xdf_t;
101
102	typedef struct {
103	unsigned char head;
104	unsigned char sector;
105	unsigned char ptr;
106	} Compactify_t;
107
108
109	static int analyze_reply(RawRequest_t *raw_cmd, int do_print)
110	{
111	int ret, bytes, newbytes;
112
113	bytes = 0;
114	while(1) {
115	ret = analyze_one_reply(raw_cmd, &newbytes, do_print);
116	bytes += newbytes;
117	switch(ret) {
118	case 0:
119	return bytes;
120	case 1:
121	raw_cmd++;
122	break;
123	case -1:
124	if(bytes)
125	return bytes;
126	else
127	return 0;
128	}
129	}
130	}
131
132
133
134	static int send_cmd(int fd, RawRequest_t *raw_cmd, int nr,
135	const char *message, int retries)
136	{
137	int j;
138	int ret=-1;
139
140	if(!nr)
141	return 0;
142	for (j=0; j< retries; j++){
143	switch(send_one_cmd(fd, raw_cmd, message)) {
144	case -1:
145	return -1;
146	case 1:
147	j++;
148	continue;
149	case 0:
150	break;
151	}
152	if((ret=analyze_reply(raw_cmd, j)) > 0)
153	return ret; /* ok */
154	}
155	if(j > 1 && j == retries) {
156	fprintf(stderr,"Too many errors, giving up\n");
157	return 0;
158	}
159	return -1;
160	}
161
162
163
164	#define REC (This->track_map[ptr])
165	#define END(x) (This->track_map[(x)].end)
166	#define BEGIN(x) (This->track_map[(x)].begin)
167
168	static int add_to_request(Xdf_t *This, int ptr,
169	RawRequest_t request, int nr,
170	int direction, Compactify_t *compactify)
171	{
172	#if 0
173	if(direction == MT_WRITE) {
174	printf("writing %d: %d %d %d %d [%02x]\n",
175	ptr, This->current_track,
176	REC.head, REC.sector, REC.sizecode,
177	(This->buffer + ptr This->sector_size));
178	} else
179	printf(" load %d.%d\n", This->current_track, ptr);
180	#endif
181	if(REC.phantom) {
182	if(direction== MT_READ)
183	memset(This->buffer + ptr * This->sector_size, 0,
184	128 << REC.sizecode);
185	return 0;
186	}
187
188	if(*nr &&
189	RR_SIZECODE(request+(*nr)-1) == REC.sizecode &&
190	compactify->head == REC.head &&
191	compactify->ptr + 1 == ptr &&
192	compactify->sector +1 == REC.sector) {
193	RR_SETSIZECODE(request+(*nr)-1, REC.sizecode);
194	} else {
195	if(*nr)
196	RR_SETCONT(request+(*nr)-1);
197	RR_INIT(request+(*nr));
198	RR_SETDRIVE(request+(*nr), This->drive);
199	RR_SETRATE(request+(*nr), This->rate);
200	RR_SETTRACK(request+(*nr), This->current_track);
201	RR_SETPTRACK(request+(*nr),
202	This->current_track << This->stretch);
203	RR_SETHEAD(request+(*nr), REC.head);
204	RR_SETSECTOR(request+(*nr), REC.sector);
205	RR_SETSIZECODE(request+(*nr), REC.sizecode);
206	RR_SETDIRECTION(request+(*nr), direction);
207	RR_SETDATA(request+(*nr),
208	(caddr_t) This->buffer + ptr * This->sector_size);
209	(*nr)++;
210	}
211	compactify->ptr = ptr;
212	compactify->head = REC.head;
213	compactify->sector = REC.sector;
214	return 0;
215	}
216
217
218	static void add_to_request_if_invalid(Xdf_t *This, int ptr,
219	RawRequest_t request, int nr,
220	Compactify_t *compactify)
221	{
222	if(!REC.valid)
223	add_to_request(This, ptr, request, nr, MT_READ, compactify);
224
225	}
226
227
228	static void adjust_bounds(Xdf_t This, off_t begin, off_t *end)
229	{
230	/* translates begin and end from byte to sectors */
231	begin = begin / This->sector_size;
232	end = (end + This->sector_size - 1) / This->sector_size;
233	}
234
235
236	static inline int try_flush_dirty(Xdf_t *This)
237	{
238	int ptr, nr, bytes;
239	RawRequest_t requests[100];
240	Compactify_t compactify;
241
242	if(This->current_track < 0)
243	return 0;
244
245	nr = 0;
246	for(ptr=0; ptr < This->last_sector; ptr=REC.end)
247	if(REC.dirty)
248	add_to_request(This, ptr,
249	requests, &nr,
250	MT_WRITE, &compactify);
251	#if 1
252	bytes = send_cmd(This->fd,requests, nr, "writing", 4);
253	if(bytes < 0)
254	return bytes;
255	#else
256	bytes = 0xffffff;
257	#endif
258	for(ptr=0; ptr < This->last_sector; ptr=REC.end)
259	if(REC.dirty) {
260	if(bytes >= REC.end - REC.begin) {
261	bytes -= REC.end - REC.begin;
262	REC.dirty = 0;
263	} else
264	return 1;
265	}
266	return 0;
267	}
268
269
270
271	static int flush_dirty(Xdf_t *This)
272	{
273	int ret;
274
275	while((ret = try_flush_dirty(This))) {
276	if(ret < 0)
277	return ret;
278	}
279	return 0;
280	}
281
282
283	static int load_data(Xdf_t *This, off_t begin, off_t end, int retries)
284	{
285	int ptr, nr, bytes;
286	RawRequest_t requests[100];
287	Compactify_t compactify;
288
289	adjust_bounds(This, &begin, &end);
290
291	ptr = begin;
292	nr = 0;
293	for(ptr=REC.begin; ptr < end ; ptr = REC.end)
294	add_to_request_if_invalid(This, ptr, requests, &nr,
295	&compactify);
296	bytes = send_cmd(This->fd,requests, nr, "reading", retries);
297	if(bytes < 0)
298	return bytes;
299	ptr = begin;
300	for(ptr=REC.begin; ptr < end ; ptr = REC.end) {
301	if(!REC.valid) {
302	if(bytes >= REC.end - REC.begin) {
303	bytes -= REC.end - REC.begin;
304	REC.valid = 1;
305	} else if(ptr > begin)
306	return ptr * This->sector_size;
307	else
308	return -1;
309	}
310	}
311	return end * This->sector_size;
312	}
313
314	static void mark_dirty(Xdf_t *This, off_t begin, off_t end)
315	{
316	int ptr;
317
318	adjust_bounds(This, &begin, &end);
319
320	ptr = begin;
321	for(ptr=REC.begin; ptr < end ; ptr = REC.end) {
322	REC.valid = 1;
323	if(!REC.phantom)
324	REC.dirty = 1;
325	}
326	}
327
328
329	static int load_bounds(Xdf_t *This, off_t begin, off_t end)
330	{
331	off_t lbegin, lend;
332	int endp1, endp2;
333
334	lbegin = begin;
335	lend = end;
336
337	adjust_bounds(This, &lbegin, &lend);
338
339	if(begin != BEGIN(lbegin) * This->sector_size &&
340	end != BEGIN(lend) * This->sector_size &&
341	lend < END(END(lbegin)))
342	/* contiguous end & begin, load them in one go */
343	return load_data(This, begin, end, 4);
344
345	if(begin != BEGIN(lbegin) * This->sector_size) {
346	endp1 = load_data(This, begin, begin, 4);
347	if(endp1 < 0)
348	return endp1;
349	}
350
351	if(end != BEGIN(lend) * This->sector_size) {
352	endp2 = load_data(This, end, end, 4);
353	if(endp2 < 0)
354	return BEGIN(lend) * This->sector_size;
355	}
356	return lend * This->sector_size;
357	}
358
359
360	static int fill_t0(Xdf_t This, int ptr, int size, int sector, int *head)
361	{
362	int n;
363
364	for(n = 0; n < size; ptr++,n++) {
365	REC.head = *head;
366	REC.sector = *sector + 129;
367	REC.phantom = 0;
368	(*sector)++;
369	if(!head && sector >= This->track0_size - 8) {
370	*sector = 0;
371	*head = 1;
372	}
373	}
374	return ptr;
375	}
376
377
378	static int fill_phantoms(Xdf_t *This, int ptr, int size)
379	{
380	int n;
381
382	for(n = 0; n < size; ptr++,n++)
383	REC.phantom = 1;
384	return ptr;
385	}
386
387	static void decompose(Xdf_t This, int where, int len, off_t begin,
388	off_t *end, int boot)
389	{
390	int ptr, track;
391	sector_map_t *map;
392	int lbegin, lend;
393
394	track = where / This->track_size / 1024;
395
396	begin = where - track This->track_size * 1024;
397	end = where + len - track This->track_size * 1024;
398	maximize(end, This->track_size 1024);
399
400	if(This->current_track == track && !boot)
401	/* already OK, return immediately */
402	return;
403	if(!boot)
404	flush_dirty(This);
405	This->current_track = track;
406
407	if(track) {
408	for(ptr=0, map=This->map; map->size; map++) {
409	/* iterate through all sectors */
410	lbegin = ptr;
411	lend = ptr + (128 << map->size) / This->sector_size;
412	for( ; ptr < lend ; ptr++) {
413	REC.begin = lbegin;
414	REC.end = lend;
415
416	REC.head = map->head;
417	REC.sector = map->size + 128;
418	REC.sizecode = map->size;
419
420	REC.valid = 0;
421	REC.dirty = 0;
422	REC.phantom = 0;
423	}
424	}
425	REC.begin = REC.end = ptr;
426	} else {
427	int sector, head;
428
429	head = 0;
430	sector = 0;
431
432	for(ptr=boot; ptr < 2 * This->track_size; ptr++) {
433	REC.begin = ptr;
434	REC.end = ptr+1;
435
436	REC.sizecode = 2;
437
438	REC.valid = 0;
439	REC.dirty = 0;
440	}
441
442	/* boot & 1st fat */
443	ptr=fill_t0(This, 0, 1 + This->FatSize, &sector, &head);
444
445	/* second fat */
446	ptr=fill_phantoms(This, ptr, This->FatSize);
447
448	/* root dir */
449	ptr=fill_t0(This, ptr, This->RootDirSize, &sector, &head);
450
451	/* "bad sectors" at the beginning of the fs */
452	ptr=fill_phantoms(This, ptr, 5);
453
454	if(This->rootskip)
455	sector++;
456
457	/* beginning of the file system */
458	ptr = fill_t0(This, ptr,
459	(This->track_size - This->FatSize) * 2 -
460	This->RootDirSize - 6,
461	&sector, &head);
462	}
463	This->last_sector = ptr;
464	}
465
466
467	static int xdf_read(Stream_t Stream, char buf, mt_off_t where, size_t len)
468	{
469	off_t begin, end;
470	size_t len2;
471	DeclareThis(Xdf_t);
472
473	decompose(This, truncBytes32(where), len, &begin, &end, 0);
474	len2 = load_data(This, begin, end, 4);
475	if(len2 < 0)
476	return len2;
477	len2 -= begin;
478	maximize(len, len2);
479	memcpy(buf, This->buffer + begin, len);
480	return end - begin;
481	}
482
483	static int xdf_write(Stream_t Stream, char buf, mt_off_t where, size_t len)
484	{
485	off_t begin, end;
486	size_t len2;
487	DeclareThis(Xdf_t);
488
489	decompose(This, truncBytes32(where), len, &begin, &end, 0);
490	len2 = load_bounds(This, begin, end);
491	if(len2 < 0)
492	return len2;
493	maximize(end, len2);
494	len2 -= begin;
495	maximize(len, len2);
496	memcpy(This->buffer + begin, buf, len);
497	mark_dirty(This, begin, end);
498	return end - begin;
499	}
500
501	static int xdf_flush(Stream_t *Stream)
502	{
503	DeclareThis(Xdf_t);
504
505	return flush_dirty(This);
506	}
507
508	static int xdf_free(Stream_t *Stream)
509	{
510	DeclareThis(Xdf_t);
511	Free(This->track_map);
512	Free(This->buffer);
513	return close(This->fd);
514	}
515
516
517	static int check_geom(struct device dev, int media, struct bootsector boot)
518	{
519	int sect;
520
521	if(media >= 0xfc && media <= 0xff)
522	return 1; /* old DOS */
523
524	if (!IS_MFORMAT_ONLY(dev)) {
525	if(compare(dev->sectors, 19) &&
526	compare(dev->sectors, 23) &&
527	compare(dev->sectors, 24) &&
528	compare(dev->sectors, 46) &&
529	compare(dev->sectors, 48))
530	return 1;
531
532	/* check against contradictory info from configuration file */
533	if(compare(dev->heads, 2))
534	return 1;
535	}
536
537	/* check against info from boot */
538	if(boot) {
539	sect = WORD(nsect);
540	if((sect != 19 && sect != 23 && sect != 24 &&
541	sect != 46 && sect != 48) \|\|
542	(!IS_MFORMAT_ONLY(dev) && compare(dev->sectors, sect)) \|\|
543	WORD(nheads) !=2)
544	return 1;
545	}
546	return 0;
547	}
548
549	static void set_geom(struct bootsector boot, struct device dev)
550	{
551	/* fill in config info to be returned to user */
552	dev->heads = 2;
553	dev->use_2m = 0xff;
554	if(boot) {
555	dev->sectors = WORD(nsect);
556	if(WORD(psect))
557	dev->tracks = WORD(psect) / dev->sectors / 2;
558	}
559	}
560
561	static int config_geom(Stream_t Stream, struct device dev,
562	struct device *orig_dev, int media,
563	struct bootsector *boot)
564	{
565	if(check_geom(dev, media, boot))
566	return 1;
567	set_geom(boot,dev);
568	return 0;
569	}
570
571	static Class_t XdfClass = {
572	xdf_read,
573	xdf_write,
574	xdf_flush,
575	xdf_free,
576	config_geom,
577	0, /* get_data */
578	0 /* pre-allocate */
579	};
580
581	Stream_t XdfOpen(struct device dev, char *name,
582	int mode, char errmsg, struct xdf_info info)
583	{
584	Xdf_t *This;
585	off_t begin, end;
586	struct bootsector *boot;
587	int type;
588
589	if(dev && (!SHOULD_USE_XDF(dev) \|\| check_geom(dev, 0, 0)))
590	return NULL;
591
592	This = New(Xdf_t);
593	if (!This)
594	return NULL;
595
596	This->Class = &XdfClass;
597	This->sector_size = 512;
598	This->stretch = 0;
599
600	precmd(dev);
601	This->fd = open(name, mode \| dev->mode \| O_EXCL \| O_NDELAY);
602	if(This->fd < 0) {
603	#ifdef HAVE_SNPRINTF
604	snprintf(errmsg,199,"xdf floppy: open: \"%s\"", strerror(errno));
605	#else
606	sprintf(errmsg,"xdf floppy: open: \"%s\"", strerror(errno));
607	#endif
608	goto exit_0;
609	}
610	closeExec(This->fd);
611
612	This->drive = GET_DRIVE(This->fd);
613	if(This->drive < 0)
614	goto exit_1;
615
616	/* allocate buffer */
617	This->buffer = (char ) malloc(96 512);
618	if (!This->buffer)
619	goto exit_1;
620
621	This->current_track = -1;
622	This->track_map = (TrackMap_t *)
623	calloc(96, sizeof(TrackMap_t));
624	if(!This->track_map)
625	goto exit_2;
626
627	/* lock the device on writes */
628	if (lock_dev(This->fd, mode == O_RDWR, dev)) {
629	#ifdef HAVE_SNPRINTF
630	snprintf(errmsg,199,"xdf floppy: device \"%s\" busy:",
631	dev->name);
632	#else
633	sprintf(errmsg,"xdf floppy: device \"%s\" busy:",
634	dev->name);
635	#endif
636	goto exit_3;
637	}
638
639	/* Before reading the boot sector, assume dummy values suitable
640	* for reading at least the boot sector */
641	This->track_size = 11;
642	This->track0_size = 6;
643	This->rate = 0;
644	This->FatSize = 9;
645	This->RootDirSize = 1;
646	decompose(This, 0, 512, &begin, &end, 0);
647	if (load_data(This, 0, 1, 1) < 0 ) {
648	This->rate = 0x43;
649	if(load_data(This, 0, 1, 1) < 0)
650	goto exit_3;
651	}
652
653	boot = (struct bootsector *) This->buffer;
654	This->FatSize = WORD(fatlen);
655	This->RootDirSize = WORD(dirents)/16;
656	This->track_size = WORD(nsect);
657	for(type=0; type < NUMBER(xdf_table); type++) {
658	if(xdf_table[type].track_size == This->track_size) {
659	This->map = xdf_table[type].map;
660	This->track0_size = xdf_table[type].track0_size;
661	This->rootskip = xdf_table[type].rootskip;
662	break;
663	}
664	}
665	if(type == NUMBER(xdf_table))
666	goto exit_3;
667
668	if(info) {
669	info->RootDirSize = This->RootDirSize;
670	info->FatSize = This->FatSize;
671	info->BadSectors = 5;
672	}
673	decompose(This, 0, 512, &begin, &end, 1);
674
675	This->refs = 1;
676	This->Next = 0;
677	This->Buffer = 0;
678	if(dev)
679	set_geom(boot, dev);
680	return (Stream_t *) This;
681
682	exit_3:
683	Free(This->track_map);
684	exit_2:
685	Free(This->buffer);
686	exit_1:
687	close(This->fd);
688	exit_0:
689	Free(This);
690	return NULL;
691	}
692
693	#endif
694
695	/* Algorithms can't be patented */
696

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