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source: trunk/minix/commands/i386/mtools-3.9.7/mformat.c@ 11

Last change on this file since 11 was 9, checked in by Mattia Monga, 14 years ago
Minix 3.1.2a
File size: 25.8 KB

Line
1	/*
2	* mformat.c
3	*/
4
5	#define DONT_NEED_WAIT
6
7	#include "sysincludes.h"
8	#include "msdos.h"
9	#include "mtools.h"
10	#include "mainloop.h"
11	#include "fsP.h"
12	#include "file.h"
13	#include "plain_io.h"
14	#include "floppyd_io.h"
15	#include "nameclash.h"
16	#include "buffer.h"
17	#ifdef USE_XDF
18	#include "xdf_io.h"
19	#endif
20	#include "partition.h"
21
22	#ifndef abs
23	#define abs(x) ((x)>0?(x):-(x))
24	#endif
25
26	#ifdef OS_linux
27	#include "linux/hdreg.h"
28
29	#define _LINUX_STRING_H_
30	#define kdev_t int
31	#include "linux/fs.h"
32	#undef _LINUX_STRING_H_
33
34	#endif
35
36
37	extern int errno;
38
39	static int init_geometry_boot(struct bootsector boot, struct device dev,
40	int sectors0, int rate_0, int rate_any,
41	int *tot_sectors, int keepBoot)
42	{
43	int i;
44	int nb_renum;
45	int sector2;
46	int size2;
47	int j;
48	int sum;
49
50	set_word(boot->nsect, dev->sectors);
51	set_word(boot->nheads, dev->heads);
52
53	tot_sectors = dev->heads dev->sectors * dev->tracks - DWORD(nhs);
54
55	if (*tot_sectors < 0x10000){
56	set_word(boot->psect, *tot_sectors);
57	set_dword(boot->bigsect, 0);
58	} else {
59	set_word(boot->psect, 0);
60	set_dword(boot->bigsect, *tot_sectors);
61	}
62
63	if (dev->use_2m & 0x7f){
64	int bootOffset;
65	strncpy(boot->banner, "2M-STV04", 8);
66	boot->ext.old.res_2m = 0;
67	boot->ext.old.fmt_2mf = 6;
68	if ( dev->sectors % ( ((1 << dev->ssize) + 3) >> 2 ))
69	boot->ext.old.wt = 1;
70	else
71	boot->ext.old.wt = 0;
72	boot->ext.old.rate_0= rate_0;
73	boot->ext.old.rate_any= rate_any;
74	if (boot->ext.old.rate_any== 2 )
75	boot->ext.old.rate_any= 1;
76	i=76;
77
78	/* Infp0 */
79	set_word(boot->ext.old.Infp0, i);
80	boot->jump[i++] = sectors0;
81	boot->jump[i++] = 108;
82	for(j=1; j<= sectors0; j++)
83	boot->jump[i++] = j;
84
85	set_word(boot->ext.old.InfpX, i);
86
87	boot->jump[i++] = 64;
88	boot->jump[i++] = 3;
89	nb_renum = i++;
90	sector2 = dev->sectors;
91	size2 = dev->ssize;
92	j=1;
93	while( sector2 ){
94	while ( sector2 < (1 << size2) >> 2 )
95	size2--;
96	boot->jump[i++] = 128 + j;
97	boot->jump[i++] = j++;
98	boot->jump[i++] = size2;
99	sector2 -= (1 << size2) >> 2;
100	}
101	boot->jump[nb_renum] = ( i - nb_renum - 1 ) / 3;
102
103	set_word(boot->ext.old.InfTm, i);
104
105	sector2 = dev->sectors;
106	size2= dev->ssize;
107	while(sector2){
108	while ( sector2 < 1 << ( size2 - 2) )
109	size2--;
110	boot->jump[i++] = size2;
111	sector2 -= 1 << (size2 - 2 );
112	}
113
114	set_word(boot->ext.old.BootP,i);
115	bootOffset = i;
116
117	/* checksum */
118	for (sum=0, j=64; j<i; j++)
119	sum += boot->jump[j];/* checksum */
120	boot->ext.old.CheckSum=-sum;
121	return bootOffset;
122	} else {
123	if(!keepBoot) {
124	boot->jump[0] = 0xeb;
125	boot->jump[1] = 0;
126	boot->jump[2] = 0x90;
127	strncpy(boot->banner, "MTOOL397", 8);
128	/* It looks like some versions of DOS are
129	* rather picky about this, and assume default
130	* parameters without this, ignoring any
131	* indication about cluster size et al. */
132	}
133	return 0;
134	}
135	}
136
137
138	static int comp_fat_bits(Fs_t *Fs, int estimate,
139	unsigned int tot_sectors, int fat32)
140	{
141	int needed_fat_bits;
142
143	needed_fat_bits = 12;
144
145	#define MAX_DISK_SIZE(bits,clusters) \
146	TOTAL_DISK_SIZE((bits), Fs->sector_size, (clusters), \
147	Fs->num_fat, MAX_SECT_PER_CLUSTER)
148
149	if(tot_sectors > MAX_DISK_SIZE(12, FAT12))
150	needed_fat_bits = 16;
151	if(fat32 \|\| tot_sectors > MAX_DISK_SIZE(16, FAT16))
152	needed_fat_bits = 32;
153
154	#undef MAX_DISK_SIZE
155
156	if(abs(estimate) && abs(estimate) < needed_fat_bits) {
157	if(fat32) {
158	fprintf(stderr,
159	"Contradiction between FAT size on command line and FAT size in conf file\n");
160	exit(1);
161	}
162	fprintf(stderr,
163	"Device too big for a %d bit FAT\n",
164	estimate);
165	exit(1);
166	}
167
168	if(needed_fat_bits == 32 && !fat32 && abs(estimate) !=32){
169	fprintf(stderr,"Warning: Using 32 bit FAT. Drive will only be accessibly by Win95 OEM / Win98\n");
170	}
171
172	if(!estimate) {
173	int min_fat16_size;
174
175	if(needed_fat_bits > 12)
176	return needed_fat_bits;
177	min_fat16_size = DISK_SIZE(16, Fs->sector_size, FAT12+1,
178	Fs->num_fat, 1);
179	if(tot_sectors < min_fat16_size)
180	return 12;
181	else if(tot_sectors >= 2* min_fat16_size)
182	return 16; /* heuristics */
183	}
184
185	return estimate;
186	}
187
188	static void calc_fat_bits2(Fs_t *Fs, unsigned int tot_sectors, int fat_bits)
189	{
190	unsigned int rem_sect;
191
192	/*
193	* the "remaining sectors" after directory and boot
194	* hasve been accounted for.
195	*/
196	rem_sect = tot_sectors - Fs->dir_len - Fs->fat_start;
197	switch(abs(fat_bits)) {
198	case 0:
199
200	#define MY_DISK_SIZE(bits,clusters) \
201	DISK_SIZE( (bits), Fs->sector_size, (clusters), \
202	Fs->num_fat, Fs->cluster_size)
203
204	if(rem_sect >= MY_DISK_SIZE(16, FAT12 + 1))
205	/* big enough for FAT16 */
206	set_fat16(Fs);
207	else if(rem_sect <= MY_DISK_SIZE(12, FAT12))
208	/* small enough for FAT12 */
209	set_fat12(Fs);
210	else {
211	/* "between two chairs",
212	* augment cluster size, and
213	* settle it */
214	if(Fs->cluster_size < MAX_SECT_PER_CLUSTER)
215	Fs->cluster_size <<= 1;
216	set_fat12(Fs);
217	}
218	break;
219	#undef MY_DISK_SIZE
220
221	case 12:
222	set_fat12(Fs);
223	break;
224	case 16:
225	set_fat16(Fs);
226	break;
227	case 32:
228	set_fat32(Fs);
229	break;
230	}
231	}
232
233	static inline void format_root(Fs_t Fs, char label, struct bootsector *boot)
234	{
235	Stream_t *RootDir;
236	char *buf;
237	int i;
238	struct ClashHandling_t ch;
239	int dirlen;
240
241	init_clash_handling(&ch);
242	ch.name_converter = label_name;
243	ch.ignore_entry = -2;
244
245	buf = safe_malloc(Fs->sector_size);
246	RootDir = OpenRoot((Stream_t *)Fs);
247	if(!RootDir){
248	fprintf(stderr,"Could not open root directory\n");
249	exit(1);
250	}
251
252	memset(buf, '\0', Fs->sector_size);
253
254	if(Fs->fat_bits == 32) {
255	/* on a FAT32 system, we only write one sector,
256	* as the directory can be extended at will...*/
257	dirlen = 1;
258	fatAllocate(Fs, Fs->rootCluster, Fs->end_fat);
259	} else
260	dirlen = Fs->dir_len;
261	for (i = 0; i < dirlen; i++)
262	WRITES(RootDir, buf, sectorsToBytes((Stream_t*)Fs, i),
263	Fs->sector_size);
264
265	ch.ignore_entry = 1;
266	if(label[0])
267	mwrite_one(RootDir,label, 0, labelit, NULL,&ch);
268
269	FREE(&RootDir);
270	if(Fs->fat_bits == 32)
271	set_word(boot->dirents, 0);
272	else
273	set_word(boot->dirents, Fs->dir_len * (Fs->sector_size / 32));
274	free(buf);
275	}
276
277
278	static void xdf_calc_fat_size(Fs_t *Fs, unsigned int tot_sectors, int fat_bits)
279	{
280	unsigned int rem_sect;
281
282	rem_sect = tot_sectors - Fs->dir_len - Fs->fat_start - 2 * Fs->fat_len;
283
284	if(Fs->fat_len) {
285	/* an XDF disk, we know the fat_size and have to find
286	* out the rest. We start with a cluster size of 1 and
287	* keep doubling until everything fits into the
288	* FAT. This will occur eventually, as our FAT has a
289	* minimal size of 1 */
290	for(Fs->cluster_size = 1; 1 ; Fs->cluster_size <<= 1) {
291	Fs->num_clus = rem_sect / Fs->cluster_size;
292	if(abs(fat_bits) == 16 \|\| Fs->num_clus > FAT12)
293	set_fat16(Fs);
294	else
295	set_fat12(Fs);
296	if (Fs->fat_len >= NEEDED_FAT_SIZE(Fs))
297	return;
298	}
299	}
300	fprintf(stderr,"Internal error while calculating Xdf fat size\n");
301	exit(1);
302	}
303
304
305	static void calc_fat_size(Fs_t *Fs, unsigned int tot_sectors)
306	{
307	unsigned int rem_sect;
308	int tries;
309	int occupied;
310
311	tries=0;
312	/* rough estimate of fat size */
313	Fs->fat_len = 1;
314	rem_sect = tot_sectors - Fs->dir_len - Fs->fat_start;
315	while(1){
316	Fs->num_clus = (rem_sect - 2 * Fs->fat_len ) /Fs->cluster_size;
317	Fs->fat_len = NEEDED_FAT_SIZE(Fs);
318	occupied = 2 * Fs->fat_len + Fs->cluster_size * Fs->num_clus;
319
320	/* if we have used up more than we have,
321	* we'll have to reloop */
322
323	if ( occupied > rem_sect )
324	continue;
325
326
327	/* if we have exactly used up all
328	* sectors, fine */
329	if ( rem_sect - occupied < Fs->cluster_size )
330	break;
331
332	/* if we have not used up all our
333	* sectors, try again. After the second
334	* try, decrease the amount of available
335	* space. This is to deal with the case of
336	* 344 or 345, ..., 1705, ... available
337	* sectors. */
338
339	switch(tries++){
340	default:
341	/* this should never happen */
342	fprintf(stderr,
343	"Internal error in cluster/fat repartition"
344	" calculation.\n");
345	exit(1);
346	case 2:
347	/* FALLTHROUGH */
348	case 1:
349	rem_sect-= Fs->cluster_size;
350	Fs->dir_len += Fs->cluster_size;
351	case 0:
352	continue;
353	}
354	}
355
356	if ( Fs->num_clus > FAT12 && Fs->fat_bits == 12 ){
357	fprintf(stderr,"Too many clusters for this fat size."
358	" Please choose a 16-bit fat in your /etc/mtools"
359	" or .mtoolsrc file\n");
360	exit(1);
361	}
362	if ( Fs->num_clus <= FAT12 && Fs->fat_bits > 12 ){
363	fprintf(stderr,"Too few clusters for this fat size."
364	" Please choose a 12-bit fat in your /etc/mtools"
365	" or .mtoolsrc file\n");
366	exit(1);
367	}
368	}
369
370
371	static unsigned char bootprog[]=
372	{0xfa, 0x31, 0xc0, 0x8e, 0xd8, 0x8e, 0xc0, 0xfc, 0xb9, 0x00, 0x01,
373	0xbe, 0x00, 0x7c, 0xbf, 0x00, 0x80, 0xf3, 0xa5, 0xea, 0x00, 0x00,
374	0x00, 0x08, 0xb8, 0x01, 0x02, 0xbb, 0x00, 0x7c, 0xba, 0x80, 0x00,
375	0xb9, 0x01, 0x00, 0xcd, 0x13, 0x72, 0x05, 0xea, 0x00, 0x7c, 0x00,
376	0x00, 0xcd, 0x19};
377
378	static inline void inst_boot_prg(struct bootsector *boot, int offset)
379	{
380	memcpy((char *) boot->jump + offset,
381	(char *) bootprog, sizeof(bootprog) /sizeof(bootprog[0]));
382	boot->jump[0] = 0xeb;
383	boot->jump[1] = offset - 1;
384	boot->jump[2] = 0x90;
385	set_word(boot->jump + offset + 20, offset + 24);
386	}
387
388	static void calc_cluster_size(struct Fs_t *Fs, unsigned int tot_sectors,
389	int fat_bits)
390
391	{
392	unsigned int max_clusters; /* maximal possible number of sectors for
393	* this FAT entry length (12/16/32) */
394	unsigned int max_fat_size; /* maximal size of the FAT for this FAT
395	* entry length (12/16/32) */
396	unsigned int rem_sect; /* remaining sectors after we accounted for
397	* the root directory and boot sector(s) */
398
399	switch(abs(fat_bits)) {
400	case 12:
401	max_clusters = FAT12;
402	max_fat_size = Fs->num_fat *
403	FAT_SIZE(12, Fs->sector_size, max_clusters);
404	break;
405	case 16:
406	case 0: /* still hesititating between 12 and 16 */
407	max_clusters = FAT16;
408	max_fat_size = Fs->num_fat *
409	FAT_SIZE(16, Fs->sector_size, max_clusters);
410	break;
411	case 32:
412	Fs->cluster_size = 8;
413	/* According to
414	* http://www.microsoft.com/kb/articles/q154/9/97.htm,
415	* Micro$oft does not support FAT32 with less than 4K
416	*/
417	return;
418	default:
419	fprintf(stderr,"Bad fat size\n");
420	exit(1);
421	}
422
423	rem_sect = tot_sectors - Fs->dir_len - Fs->fat_start;
424
425	/* double the cluster size until we can fill up the disk with
426	* the maximal number of sectors of this size */
427	while(Fs->cluster_size * max_clusters + max_fat_size < rem_sect) {
428	if(Fs->cluster_size > 64) {
429	/* bigger than 64. Should fit */
430	fprintf(stderr,
431	"Internal error while calculating cluster size\n");
432	exit(1);
433	}
434	Fs->cluster_size <<= 1;
435	}
436	}
437
438
439	struct OldDos_t old_dos[]={
440	{ 40, 9, 1, 4, 1, 2, 0xfc },
441	{ 40, 9, 2, 7, 2, 2, 0xfd },
442	{ 40, 8, 1, 4, 1, 1, 0xfe },
443	{ 40, 8, 2, 7, 2, 1, 0xff },
444	{ 80, 9, 2, 7, 2, 3, 0xf9 },
445	{ 80, 15, 2,14, 1, 7, 0xf9 },
446	{ 80, 18, 2,14, 1, 9, 0xf0 },
447	{ 80, 36, 2,15, 2, 9, 0xf0 },
448	{ 1, 8, 1, 1, 1, 1, 0xf0 },
449	};
450
451	static int old_dos_size_to_geom(int size, int cyls, int heads, int *sects)
452	{
453	int i;
454	size = size * 2;
455	for(i=0; i < sizeof(old_dos) / sizeof(old_dos[0]); i++){
456	if (old_dos[i].sectors *
457	old_dos[i].tracks *
458	old_dos[i].heads == size) {
459	*cyls = old_dos[i].tracks;
460	*heads = old_dos[i].heads;
461	*sects = old_dos[i].sectors;
462	return 0;
463	}
464	}
465	return 1;
466	}
467
468
469	static void calc_fs_parameters(struct device *dev, unsigned int tot_sectors,
470	struct Fs_t Fs, struct bootsector boot)
471	{
472	int i;
473
474	for(i=0; i < sizeof(old_dos) / sizeof(old_dos[0]); i++){
475	if (dev->sectors == old_dos[i].sectors &&
476	dev->tracks == old_dos[i].tracks &&
477	dev->heads == old_dos[i].heads &&
478	(dev->fat_bits == 0 \|\| abs(dev->fat_bits) == 12)){
479	boot->descr = old_dos[i].media;
480	Fs->cluster_size = old_dos[i].cluster_size;
481	Fs->dir_len = old_dos[i].dir_len;
482	Fs->fat_len = old_dos[i].fat_len;
483	Fs->fat_bits = 12;
484	break;
485	}
486	}
487	if (i == sizeof(old_dos) / sizeof(old_dos[0]) ){
488	/* a non-standard format */
489	if(DWORD(nhs))
490	boot->descr = 0xf8;
491	else
492	boot->descr = 0xf0;
493
494
495	if(!Fs->cluster_size) {
496	if (dev->heads == 1)
497	Fs->cluster_size = 1;
498	else {
499	Fs->cluster_size = (tot_sectors > 2000 ) ? 1:2;
500	if (dev->use_2m & 0x7f)
501	Fs->cluster_size = 1;
502	}
503	}
504
505	if(!Fs->dir_len) {
506	if (dev->heads == 1)
507	Fs->dir_len = 4;
508	else
509	Fs->dir_len = (tot_sectors > 2000) ? 11 : 7;
510	}
511
512	calc_cluster_size(Fs, tot_sectors, dev->fat_bits);
513	if(Fs->fat_len)
514	xdf_calc_fat_size(Fs, tot_sectors, dev->fat_bits);
515	else {
516	calc_fat_bits2(Fs, tot_sectors, dev->fat_bits);
517	calc_fat_size(Fs, tot_sectors);
518	}
519	}
520
521	set_word(boot->fatlen, Fs->fat_len);
522	}
523
524
525
526	static void calc_fs_parameters_32(unsigned int tot_sectors,
527	struct Fs_t Fs, struct bootsector boot)
528	{
529	if(DWORD(nhs))
530	boot->descr = 0xf8;
531	else
532	boot->descr = 0xf0;
533	if(!Fs->cluster_size)
534	/* According to
535	* http://www.microsoft.com/kb/articles/q154/9/97.htm,
536	* Micro$oft does not support FAT32 with less than 4K
537	*/
538	Fs->cluster_size = 8;
539
540	Fs->dir_len = 0;
541	Fs->num_clus = tot_sectors / Fs->cluster_size;
542	set_fat32(Fs);
543	calc_fat_size(Fs, tot_sectors);
544	set_word(boot->fatlen, 0);
545	set_dword(boot->ext.fat32.bigFat, Fs->fat_len);
546	}
547
548
549
550
551	static void usage(void)
552	{
553	fprintf(stderr,
554	"Mtools version %s, dated %s\n", mversion, mdate);
555	fprintf(stderr,
556	"Usage: %s [-t tracks] [-h heads] [-n sectors] "
557	"[-v label] [-1] [-4] [-8] [-f size] "
558	"[-N serialnumber] "
559	"[-k] [-B bootsector] [-r root_dir_len] [-L fat_len] "
560	"[-F] [-I fsVersion] [-C] [-c cluster_size] "
561	"[-H hidden_sectors] "
562	#ifdef USE_XDF
563	"[-X] "
564	#endif
565	"[-S hardsectorsize] [-M softsectorsize] [-3] "
566	"[-2 track0sectors] [-0 rate0] [-A rateany] [-a]"
567	"device\n", progname);
568	exit(1);
569	}
570
571	void mformat(int argc, char **argv, int dummy)
572	{
573	int r; /* generic return value */
574	Fs_t Fs;
575	int hs, hs_set;
576	int arguse_2m = 0;
577	int sectors0=18; /* number of sectors on track 0 */
578	int create = 0;
579	int rate_0, rate_any;
580	int mangled;
581	int argssize=0; /* sector size */
582	int msize=0;
583	int fat32 = 0;
584	struct label_blk_t *labelBlock;
585	int bootOffset;
586
587	#ifdef USE_XDF
588	int i;
589	int format_xdf = 0;
590	struct xdf_info info;
591	#endif
592	struct bootsector *boot;
593	char *bootSector=0;
594	int c;
595	int keepBoot = 0;
596	struct device used_dev;
597	int argtracks, argheads, argsectors;
598	int tot_sectors;
599	int blocksize;
600
601	char *drive, name[EXPAND_BUF];
602
603	char label[VBUFSIZE], buf[MAX_SECTOR], shortlabel[13];
604	struct device *dev;
605	char errmsg[200];
606
607	unsigned long serial;
608	int serial_set;
609	int fsVersion;
610
611	mt_off_t maxSize;
612
613	int Atari = 0; /* should we add an Atari-style serial number ? */
614	#ifdef OS_Minix
615	char *devname;
616	struct device onedevice[2];
617	struct stat stbuf;
618	#endif
619
620	hs = hs_set = 0;
621	argtracks = 0;
622	argheads = 0;
623	argsectors = 0;
624	arguse_2m = 0;
625	argssize = 0x2;
626	label[0] = '\0';
627	serial_set = 0;
628	serial = 0;
629	fsVersion = 0;
630
631	Fs.cluster_size = 0;
632	Fs.refs = 1;
633	Fs.dir_len = 0;
634	Fs.fat_len = 0;
635	Fs.Class = &FsClass;
636	rate_0 = mtools_rate_0;
637	rate_any = mtools_rate_any;
638
639	/* get command line options */
640	while ((c = getopt(argc,argv,
641	"148f:t:n:v:qub"
642	"kB:r:L:IFCc:Xh:s:l:N:H:M:S:230:Aa"))!= EOF) {
643	switch (c) {
644	/* standard DOS flags */
645	case '1':
646	argheads = 1;
647	break;
648	case '4':
649	argsectors = 9;
650	argtracks = 40;
651	break;
652	case '8':
653	argsectors = 8;
654	argtracks = 40;
655	break;
656	case 'f':
657	r=old_dos_size_to_geom(atoi(optarg),
658	&argtracks, &argheads,
659	&argsectors);
660	if(r) {
661	fprintf(stderr,
662	"Bad size %s\n", optarg);
663	exit(1);
664	}
665	break;
666	case 't':
667	argtracks = atoi(optarg);
668	break;
669
670	case 'n': /non-standard/
671	case 's':
672	argsectors = atoi(optarg);
673	break;
674
675	case 'l': /* non-standard */
676	case 'v':
677	strncpy(label, optarg, VBUFSIZE-1);
678	label[VBUFSIZE-1] = '\0';
679	break;
680
681	/* flags supported by Dos but not mtools */
682	case 'q':
683	case 'u':
684	case 'b':
685	/case 's': leave this for compatibility /
686	fprintf(stderr,
687	"Flag %c not supported by mtools\n",c);
688	exit(1);
689
690
691
692	/* flags added by mtools */
693	case 'F':
694	fat32 = 1;
695	break;
696
697
698	case 'S':
699	argssize = atoi(optarg) \| 0x80;
700	if(argssize < 0x81)
701	usage();
702	break;
703
704	#ifdef USE_XDF
705	case 'X':
706	format_xdf = 1;
707	break;
708	#endif
709
710	case '2':
711	arguse_2m = 0xff;
712	sectors0 = atoi(optarg);
713	break;
714	case '3':
715	arguse_2m = 0x80;
716	break;
717
718	case '0': /* rate on track 0 */
719	rate_0 = atoi(optarg);
720	break;
721	case 'A': /* rate on other tracks */
722	rate_any = atoi(optarg);
723	break;
724
725	case 'M':
726	msize = atoi(optarg);
727	if (msize % 256 \|\| msize > 8192 )
728	usage();
729	break;
730
731	case 'N':
732	serial = strtoul(optarg,0,16);
733	serial_set = 1;
734	break;
735	case 'a': /* Atari style serial number */
736	Atari = 1;
737	break;
738
739	case 'C':
740	create = O_CREAT;
741	break;
742
743	case 'H':
744	hs = atoi(optarg);
745	hs_set = 1;
746	break;
747
748	case 'I':
749	fsVersion = strtoul(optarg,0,0);
750	break;
751
752	case 'c':
753	Fs.cluster_size = atoi(optarg);
754	break;
755
756	case 'r':
757	Fs.dir_len = strtoul(optarg,0,0);
758	break;
759	case 'L':
760	Fs.fat_len = strtoul(optarg,0,0);
761	break;
762
763
764	case 'B':
765	bootSector = optarg;
766	break;
767	case 'k':
768	keepBoot = 1;
769	break;
770	case 'h':
771	argheads = atoi(optarg);
772	break;
773
774	default:
775	usage();
776	}
777	}
778
779	if (argc - optind != 1 \|\|
780	skip_drive(argv[optind]) == argv[optind])
781	usage();
782
783	#ifdef USE_XDF
784	if(create && format_xdf) {
785	fprintf(stderr,"Create and XDF can't be used together\n");
786	exit(1);
787	}
788	#endif
789
790	drive = get_drive(argv[argc -1], NULL);
791
792	#ifdef OS_Minix
793	devname = safe_malloc((9 + strlen(drive)) * sizeof(devname[0]));
794	strcpy(devname, "/dev/dosX");
795	if (isupper(drive[0]) && drive[1] == 0) {
796	/* single letter device name, use /dev/dos$drive */
797	devname[8]= drive[0];
798	} else
799	if (strchr(drive, '/') == NULL) {
800	/* a simple name, use /dev/$drive */
801	strcpy(devname+5, drive);
802	} else {
803	/* a pathname, use as is. */
804	strcpy(devname, drive);
805	}
806	if (stat(devname, &stbuf) != -1) {
807	memset(onedevice, 0, sizeof(onedevice));
808	onedevice[0].name = devname;
809	onedevice[0].drive = drive;
810	onedevice[1].name = NULL;
811	onedevice[1].drive = NULL;
812	dev = onedevice;
813	} else {
814	dev = devices;
815	}
816	#else
817	dev = devices;
818	#endif
819
820	/* check out a drive whose letter and parameters match */
821	sprintf(errmsg, "Drive '%s:' not supported", drive);
822	Fs.Direct = NULL;
823	blocksize = 0;
824	for(;dev->drive;dev++) {
825	FREE(&(Fs.Direct));
826	/* drive name */
827	if (strcmp(dev->drive, drive) != 0)
828	continue;
829	used_dev = *dev;
830
831	SET_INT(used_dev.tracks, argtracks);
832	SET_INT(used_dev.heads, argheads);
833	SET_INT(used_dev.sectors, argsectors);
834	SET_INT(used_dev.use_2m, arguse_2m);
835	SET_INT(used_dev.ssize, argssize);
836	if(hs_set)
837	used_dev.hidden = hs;
838
839	expand(dev->name, name);
840	#ifdef USING_NEW_VOLD
841	strcpy(name, getVoldName(dev, name));
842	#endif
843
844	#ifdef USE_XDF
845	if(!format_xdf) {
846	#endif
847	Fs.Direct = 0;
848	#ifdef USE_FLOPPYD
849	Fs.Direct = FloppydOpen(&used_dev, dev, name, O_RDWR \| create,
850	errmsg, 0, 1);
851	if(Fs.Direct) {
852	maxSize = max_off_t_31;
853	}
854	#endif
855	if(!Fs.Direct) {
856	Fs.Direct = SimpleFileOpen(&used_dev, dev, name,
857	O_RDWR \| create,
858	errmsg, 0, 1, &maxSize);
859	}
860	#ifdef USE_XDF
861	} else {
862	used_dev.misc_flags \|= USE_XDF_FLAG;
863	Fs.Direct = XdfOpen(&used_dev, name, O_RDWR,
864	errmsg, &info);
865	if(Fs.Direct && !Fs.fat_len)
866	Fs.fat_len = info.FatSize;
867	if(Fs.Direct && !Fs.dir_len)
868	Fs.dir_len = info.RootDirSize;
869	}
870	#endif
871
872	if (!Fs.Direct)
873	continue;
874
875	#ifdef OS_linux
876	if ((!used_dev.tracks \|\| !used_dev.heads \|\| !used_dev.sectors) &&
877	(!IS_SCSI(dev))) {
878	int fd= get_fd(Fs.Direct);
879	struct stat buf;
880
881	if (fstat(fd, &buf) < 0) {
882	sprintf(errmsg, "Could not stat file (%s)", strerror(errno));
883	continue;
884	}
885
886	if (S_ISBLK(buf.st_mode)) {
887	struct hd_geometry geom;
888	long size;
889	int sect_per_track;
890
891	if (ioctl(fd, HDIO_GETGEO, &geom) < 0) {
892	sprintf(errmsg, "Could not get geometry of device (%s)",
893	strerror(errno));
894	continue;
895	}
896
897	if (ioctl(fd, BLKGETSIZE, &size) < 0) {
898	sprintf(errmsg, "Could not get size of device (%s)",
899	strerror(errno));
900	continue;
901	}
902
903	sect_per_track = geom.heads * geom.sectors;
904	used_dev.heads = geom.heads;
905	used_dev.sectors = geom.sectors;
906	used_dev.hidden = geom.start % sect_per_track;
907	used_dev.tracks = (size + used_dev.hidden) / sect_per_track;
908	}
909	}
910	#endif
911
912	/* no way to find out geometry */
913	if (!used_dev.tracks \|\| !used_dev.heads \|\| !used_dev.sectors){
914	sprintf(errmsg,
915	"Unknown geometry "
916	"(You must tell the complete geometry "
917	"of the disk, \neither in /etc/mtools.conf or "
918	"on the command line) ");
919	continue;
920	}
921
922	#if 0
923	/* set parameters, if needed */
924	if(SET_GEOM(Fs.Direct, &used_dev, 0xf0, boot)){
925	sprintf(errmsg,"Can't set disk parameters: %s",
926	strerror(errno));
927	continue;
928	}
929	#endif
930	Fs.sector_size = 512;
931	if( !(used_dev.use_2m & 0x7f)) {
932	Fs.sector_size = 128 << (used_dev.ssize & 0x7f);
933	}
934
935	SET_INT(Fs.sector_size, msize);
936	{
937	int i;
938	for(i = 0; i < 31; i++) {
939	if (Fs.sector_size == 1 << i) {
940	Fs.sectorShift = i;
941	break;
942	}
943	}
944	Fs.sectorMask = Fs.sector_size - 1;
945	}
946
947	if(!used_dev.blocksize \|\| used_dev.blocksize < Fs.sector_size)
948	blocksize = Fs.sector_size;
949	else
950	blocksize = used_dev.blocksize;
951
952	if(blocksize > MAX_SECTOR)
953	blocksize = MAX_SECTOR;
954
955	/* do a "test" read */
956	if (!create &&
957	READS(Fs.Direct, (char *) buf, 0, Fs.sector_size) !=
958	Fs.sector_size) {
959	sprintf(errmsg,
960	"Error reading from '%s', wrong parameters?",
961	name);
962	continue;
963	}
964	break;
965	}
966
967
968	/* print error msg if needed */
969	if ( dev->drive == 0 ){
970	FREE(&Fs.Direct);
971	fprintf(stderr,"%s: %s\n", argv[0],errmsg);
972	exit(1);
973	}
974
975	/* the boot sector */
976	boot = (struct bootsector *) buf;
977	if(bootSector) {
978	int fd;
979
980	fd = open(bootSector, O_RDONLY);
981	if(fd < 0) {
982	perror("open boot sector");
983	exit(1);
984	}
985	read(fd, buf, blocksize);
986	keepBoot = 1;
987	}
988	if(!keepBoot) {
989	memset((char *)boot, '\0', Fs.sector_size);
990	if(Fs.sector_size == 512 && !used_dev.partition) {
991	/* install fake partition table pointing to itself */
992	struct partition partTable=(struct partition )
993	(((char*) boot) + 0x1ae);
994	setBeginEnd(&partTable[1], 0,
995	used_dev.heads * used_dev.sectors * used_dev.tracks,
996	used_dev.heads, used_dev.sectors, 1, 0);
997	}
998	}
999	set_dword(boot->nhs, used_dev.hidden);
1000
1001	Fs.Next = buf_init(Fs.Direct,
1002	blocksize * used_dev.heads * used_dev.sectors,
1003	blocksize * used_dev.heads * used_dev.sectors,
1004	blocksize);
1005	Fs.Buffer = 0;
1006
1007	boot->nfat = Fs.num_fat = 2;
1008	if(!keepBoot)
1009	set_word(boot->jump + 510, 0xaa55);
1010
1011	/* get the parameters */
1012	tot_sectors = used_dev.tracks * used_dev.heads * used_dev.sectors -
1013	DWORD(nhs);
1014
1015	set_word(boot->nsect, dev->sectors);
1016	set_word(boot->nheads, dev->heads);
1017
1018	dev->fat_bits = comp_fat_bits(&Fs,dev->fat_bits, tot_sectors, fat32);
1019
1020	if(dev->fat_bits == 32) {
1021	Fs.primaryFat = 0;
1022	Fs.writeAllFats = 1;
1023	Fs.fat_start = 32;
1024	calc_fs_parameters_32(tot_sectors, &Fs, boot);
1025
1026	Fs.clus_start = Fs.num_fat * Fs.fat_len + Fs.fat_start;
1027
1028	/* extension flags: mirror fats, and use #0 as primary */
1029	set_word(boot->ext.fat32.extFlags,0);
1030
1031	/* fs version. What should go here? */
1032	set_word(boot->ext.fat32.fsVersion,fsVersion);
1033
1034	/* root directory */
1035	set_dword(boot->ext.fat32.rootCluster, Fs.rootCluster = 2);
1036
1037	/* info sector */
1038	set_word(boot->ext.fat32.infoSector, Fs.infoSectorLoc = 1);
1039	Fs.infoSectorLoc = 1;
1040
1041	/* no backup boot sector */
1042	set_word(boot->ext.fat32.backupBoot, 6);
1043
1044	labelBlock = & boot->ext.fat32.labelBlock;
1045	} else {
1046	Fs.infoSectorLoc = 0;
1047	Fs.fat_start = 1;
1048	calc_fs_parameters(&used_dev, tot_sectors, &Fs, boot);
1049	Fs.dir_start = Fs.num_fat * Fs.fat_len + Fs.fat_start;
1050	Fs.clus_start = Fs.dir_start + Fs.dir_len;
1051	labelBlock = & boot->ext.old.labelBlock;
1052
1053	}
1054
1055	if (!keepBoot)
1056	/* only zero out physdrive if we don't have a template
1057	* bootsector */
1058	labelBlock->physdrive = 0x00;
1059	labelBlock->reserved = 0;
1060	labelBlock->dos4 = 0x29;
1061
1062	if (!serial_set \|\| Atari)
1063	srandom((long)time (0));
1064	if (!serial_set)
1065	serial=random();
1066	set_dword(labelBlock->serial, serial);
1067	if(!label[0])
1068	strncpy(shortlabel, "NO NAME ",11);
1069	else
1070	label_name(label, 0, &mangled, shortlabel);
1071	strncpy(labelBlock->label, shortlabel, 11);
1072	sprintf(labelBlock->fat_type, "FAT%2.2d ", Fs.fat_bits);
1073	labelBlock->fat_type[7] = ' ';
1074
1075	set_word(boot->secsiz, Fs.sector_size);
1076	boot->clsiz = (unsigned char) Fs.cluster_size;
1077	set_word(boot->nrsvsect, Fs.fat_start);
1078
1079	bootOffset = init_geometry_boot(boot, &used_dev, sectors0,
1080	rate_0, rate_any,
1081	&tot_sectors, keepBoot);
1082	if(!bootOffset) {
1083	bootOffset = ((char ) labelBlock) - ((char ) boot) +
1084	sizeof(struct label_blk_t);
1085	}
1086	if(Atari) {
1087	boot->banner[4] = 0;
1088	boot->banner[5] = random();
1089	boot->banner[6] = random();
1090	boot->banner[7] = random();
1091	}
1092
1093	if (create) {
1094	WRITES(Fs.Direct, (char *) buf,
1095	sectorsToBytes((Stream_t*)&Fs, tot_sectors-1),
1096	Fs.sector_size);
1097	}
1098
1099	if(!keepBoot)
1100	inst_boot_prg(boot, bootOffset);
1101	if(dev->use_2m & 0x7f)
1102	Fs.num_fat = 1;
1103	Fs.lastFatSectorNr = 0;
1104	Fs.lastFatSectorData = 0;
1105	zero_fat(&Fs, boot->descr);
1106	Fs.freeSpace = Fs.num_clus;
1107	Fs.last = 2;
1108
1109	#ifdef USE_XDF
1110	if(format_xdf)
1111	for(i=0;
1112	i < (info.BadSectors+Fs.cluster_size-1)/Fs.cluster_size;
1113	i++)
1114	fatEncode(&Fs, i+2, 0xfff7);
1115	#endif
1116
1117	format_root(&Fs, label, boot);
1118	WRITES((Stream_t )&Fs, (char ) boot, (mt_off_t) 0, Fs.sector_size);
1119	if(Fs.fat_bits == 32 && WORD(ext.fat32.backupBoot) != MAX32) {
1120	WRITES((Stream_t )&Fs, (char ) boot,
1121	sectorsToBytes((Stream_t*)&Fs, WORD(ext.fat32.backupBoot)),
1122	Fs.sector_size);
1123	}
1124	FLUSH((Stream_t )&Fs); / flushes Fs.
1125	* This triggers the writing of the FAT */
1126	FREE(&Fs.Next);
1127	Fs.Class->freeFunc((Stream_t *)&Fs);
1128	#ifdef USE_XDF
1129	if(format_xdf && isatty(0) && !getenv("MTOOLS_USE_XDF"))
1130	fprintf(stderr,
1131	"Note:\n"
1132	"Remember to set the \"MTOOLS_USE_XDF\" environmental\n"
1133	"variable before accessing this disk\n\n"
1134	"Bourne shell syntax (sh, ash, bash, ksh, zsh etc):\n"
1135	" export MTOOLS_USE_XDF=1\n\n"
1136	"C shell syntax (csh and tcsh):\n"
1137	" setenv MTOOLS_USE_XDF 1\n" );
1138	#endif
1139	exit(0);
1140	}

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