File Coverage

diskimage.c

Criterion	Covered	Total	%
statement	364	722	50.4
branch	124	266	46.6
condition			n/a
subroutine			n/a
pod			n/a
total	488	988	49.3

line	stmt	bran	code
1			#include
2			#include
3			#include
4			#include "diskimage.h"
5
6
7			typedef struct errormessage {
8			signed int number;
9			char *string;
10			} ErrorMessage;
11
12
13			ErrorMessage error_msg[] = {
14			/* non-errors */
15			{ 0, "ok" },
16			{ 1, "files scratched" },
17			{ 2, "partition selected" },
18			/* errors */
19			{ 20, "read error (block header not found)" },
20			{ 21, "read error (drive not ready)" },
21			{ 22, "read error (data block not found)" },
22			{ 23, "read error (crc error in data block)" },
23			{ 24, "read error (byte sector header)" },
24			{ 25, "write error (write-verify error)" },
25			{ 26, "write protect on" },
26			{ 27, "read error (crc error in header)" },
27			{ 30, "syntax error (general syntax)" },
28			{ 31, "syntax error (invalid command)" },
29			{ 32, "syntax error (long line)" },
30			{ 33, "syntax error (invalid file name)" },
31			{ 34, "syntax error (no file given)" },
32			{ 39, "syntax error (invalid command)" },
33			{ 50, "record not present" },
34			{ 51, "overflow in record" },
35			{ 52, "file too large" },
36			{ 60, "write file open" },
37			{ 61, "file not open" },
38			{ 62, "file not found" },
39			{ 63, "file exists" },
40			{ 64, "file type mismatch" },
41			{ 65, "no block" },
42			{ 66, "illegal track and sector" },
43			{ 67, "illegal system t or s" },
44			{ 70, "no channel" },
45			{ 71, "directory error" },
46			{ 72, "disk full" },
47			{ 73, "dos mismatch" },
48			{ 74, "drive not ready" },
49			{ 75, "format error" },
50			{ 76, "controller error" },
51			{ 77, "selected partition illegal" },
52			{ -1, NULL }
53			};
54
55
56			/* convert to rawname */
57	57		int di_rawname_from_name(unsigned char rawname, char name) {
58			int i;
59
60	57		memset(rawname, 0xa0, 16);
61	621	100	for (i = 0; i < 16 && name[i]; ++i) {
		100
62	564		rawname[i] = name[i];
63			}
64	57		return(i);
65			}
66
67
68			/* convert from rawname */
69	25		int di_name_from_rawname(char name, unsigned char rawname) {
70			int i;
71
72	244	100	for (i = 0; i < 16 && rawname[i] != 0xa0; ++i) {
		100
73	219		name[i] = rawname[i];
74			}
75	25		name[i] = 0;
76	25		return(i);
77			}
78
79
80			/* return status string */
81	3		int di_status(DiskImage di, char status) {
82	3		ErrorMessage *err = error_msg;
83
84			/* special case for power up */
85	3	100	if (di->status == 254) {
86	1		switch (di->type) {
87			case D64:
88	1		sprintf(status, "73,cbm dos v2.6 1541,00,00");
89	1		break;
90			case D71:
91	0		sprintf(status, "73,cbm dos v3.0 1571,00,00");
92	0		break;
93			case D81:
94	0		sprintf(status, "73,copyright cbm dos v10 1581,00,00");
95	0		break;
96			}
97	1		return(73);
98			}
99
100	2	50	while (err->number >= 0) {
101	2	50	if (di->status == err->number) {
102	2		sprintf(status, "%02d,%s,%02d,%02d", di->status, err->string, di->statusts.track, di->statusts.sector);
103	2		return(di->status);
104			}
105	0		err->number++;
106			}
107	0		sprintf(status, "%02d,unknown error,%02d,%02d", di->status, di->statusts.track, di->statusts.sector);
108	0		return(di->status);
109			}
110
111
112	95		int set_status(DiskImage *di, int status, int track, int sector) {
113	95		di->status = status;
114	95		di->statusts.track = track;
115	95		di->statusts.sector = sector;
116	95		return(status);
117			}
118
119
120			/* return write interleave */
121	12		int interleave(ImageType type) {
122	12		switch (type) {
123			case D64:
124	12		return(10);
125			break;
126			case D71:
127	0		return(6);
128			break;
129			default:
130	0		return(1);
131			break;
132			}
133			}
134
135
136			/* return number of tracks for image type */
137	2761		int di_tracks(ImageType type) {
138	2761		switch (type) {
139			case D64:
140	2759		return(35);
141			break;
142			case D71:
143	1		return(70);
144			break;
145			case D81:
146	1		return(80);
147			break;
148			}
149	0		return(0);
150			}
151
152
153			/* return disk geometry for track */
154	16585		int di_sectors_per_track(ImageType type, int track) {
155	16585		switch (type) {
156			case D71:
157	2	100	if (track > 35) {
158	1		track -= 35;
159			}
160			// fall through
161			case D64:
162	16583	100	if (track < 18) {
163	8633		return(21);
164	7950	100	} else if (track < 25) {
165	3256		return(19);
166	4694	100	} else if (track < 31) {
167	2622		return(18);
168			} else {
169	2072		return(17);
170			}
171			break;
172			case D81:
173	2		return(40);
174			break;
175			}
176	0		return(0);
177			}
178
179			/* convert track, sector to blocknum */
180	17703		int get_block_num(ImageType type, TrackSector ts) {
181			int block;
182
183	17703		switch (type) {
184			case D64:
185	17703	100	if (ts.track < 18) {
186	18		block = (ts.track - 1) * 21;
187	17685	50	} else if (ts.track < 25) {
188	17685		block = (ts.track - 18) * 19 + 17 * 21;
189	0	0	} else if (ts.track < 31) {
190	0		block = (ts.track - 25) * 18 + 17 * 21 + 7 * 19;
191			} else {
192	0		block = (ts.track - 31) * 17 + 17 * 21 + 7 * 19 + 6 * 18;
193			}
194	17703		return(block + ts.sector);
195			break;
196			case D71:
197	0	0	if (ts.track > 35) {
198	0		block = 683;
199	0		ts.track -= 35;
200			} else {
201	0		block = 0;
202			}
203	0	0	if (ts.track < 18) {
204	0		block += (ts.track - 1) * 21;
205	0	0	} else if (ts.track < 25) {
206	0		block += (ts.track - 18) * 19 + 17 * 21;
207	0	0	} else if (ts.track < 31) {
208	0		block += (ts.track - 25) * 18 + 17 * 21 + 7 * 19;
209			} else {
210	0		block += (ts.track - 31) * 17 + 17 * 21 + 7 * 19 + 6 * 18;
211			}
212	0		return(block + ts.sector);
213			break;
214			case D81:
215	0		return((ts.track - 1) * 40 + ts.sector);
216			break;
217			}
218	0		return(0);
219			}
220
221
222			/* get a pointer to block data */
223	17703		unsigned char get_ts_addr(DiskImage di, TrackSector ts) {
224	17703		return(di->image + get_block_num(di->type, ts) * 256);
225			}
226
227
228			/* return a pointer to the next block in the chain */
229	53		TrackSector next_ts_in_chain(DiskImage *di, TrackSector ts) {
230			unsigned char *p;
231			TrackSector newts;
232
233	53		p = get_ts_addr(di, ts);
234	53		newts.track = p[0];
235	53		newts.sector = p[1];
236	53	50	if (p[0] > di_tracks(di->type)) {
237	0		newts.track = 0;
238	0		newts.sector = 0;
239	53	100	} else if (p[1] > di_sectors_per_track(di->type, p[0])) {
240	17		newts.track = 0;
241	17		newts.sector = 0;
242			}
243	53		return(newts);
244			}
245
246
247			/* return a pointer to the disk title */
248	2		unsigned char di_title(DiskImage di) {
249	2	50	switch (di->type) {
250			default:
251			case D64:
252			case D71:
253	2		return(get_ts_addr(di, di->dir) + 144);
254			break;
255			case D81:
256	0		return(get_ts_addr(di, di->dir) + 4);
257			break;
258			}
259			}
260
261
262			/* return number of free blocks in track */
263	1771		int di_track_blocks_free(DiskImage *di, int track) {
264			unsigned char *bam;
265
266	1771		switch (di->type) {
267			default:
268			case D64:
269	1771		bam = get_ts_addr(di, di->bam);
270	1771		break;
271			case D71:
272	0		bam = get_ts_addr(di, di->bam);
273	0	0	if (track >= 36) {
274	0		return(bam[track + 185]);
275			}
276	0		break;
277			case D81:
278	0	0	if (track <= 40) {
279	0		bam = get_ts_addr(di, di->bam);
280			} else {
281	0		bam = get_ts_addr(di, di->bam2);
282	0		track -= 40;
283			}
284	0		return(bam[track * 6 + 10]);
285			break;
286			}
287	1771		return(bam[track * 4]);
288			}
289
290
291			/* count number of free blocks */
292	52		int blocks_free(DiskImage *di) {
293			int track;
294	52		int blocks = 0;
295
296	1872	100	for (track = 1; track <= di_tracks(di->type); ++track) {
297	1820	100	if (track != di->dir.track) {
298	1768		blocks += di_track_blocks_free(di, track);
299			}
300			}
301	52		return(blocks);
302			}
303
304
305			/* check if track, sector is free in BAM */
306	15		int di_is_ts_free(DiskImage *di, TrackSector ts) {
307			unsigned char mask;
308			unsigned char *bam;
309
310	15		switch (di->type) {
311			case D64:
312	15		bam = get_ts_addr(di, di->bam);
313	15	50	if (bam[ts.track * 4]) {
314	15		mask = 1<<(ts.sector & 7);
315	15		return(bam[ts.track * 4 + ts.sector / 8 + 1] & mask ? 1 : 0);
316			} else {
317	0		return(0);
318			}
319			break;
320			case D71:
321	0		mask = 1<<(ts.sector & 7);
322	0	0	if (ts.track < 36) {
323	0		bam = get_ts_addr(di, di->bam);
324	0		return(bam[ts.track * 4 + ts.sector / 8 + 1] & mask ? 1 : 0);
325			} else {
326	0		bam = get_ts_addr(di, di->bam2);
327	0		return(bam[(ts.track - 35) * 3 + ts.sector / 8 - 3] & mask ? 1 : 0);
328			}
329			break;
330			case D81:
331	0		mask = 1<<(ts.sector & 7);
332	0	0	if (ts.track < 41) {
333	0		bam = get_ts_addr(di, di->bam);
334			} else {
335	0		bam = get_ts_addr(di, di->bam2);
336	0		ts.track -= 40;
337			}
338	0		return(bam[ts.track * 6 + ts.sector / 8 + 11] & mask ? 1 : 0);
339			break;
340			}
341	0		return(0);
342			}
343
344
345			/* allocate track, sector in BAM */
346	62		void di_alloc_ts(DiskImage *di, TrackSector ts) {
347			unsigned char mask;
348			unsigned char *bam;
349
350	62		di->modified = 1;
351	62		switch (di->type) {
352			case D64:
353	62		bam = get_ts_addr(di, di->bam);
354	62		bam[ts.track * 4] -= 1;
355	62		mask = 1<<(ts.sector & 7);
356	62		bam[ts.track * 4 + ts.sector / 8 + 1] &= ~mask;
357	62		break;
358			case D71:
359	0		mask = 1<<(ts.sector & 7);
360	0	0	if (ts.track < 36) {
361	0		bam = get_ts_addr(di, di->bam);
362	0		bam[ts.track * 4] -= 1;
363	0		bam[ts.track * 4 + ts.sector / 8 + 1] &= ~mask;
364			} else {
365	0		bam = get_ts_addr(di, di->bam);
366	0		bam[ts.track + 185] -= 1;
367	0		bam = get_ts_addr(di, di->bam2);
368	0		bam[(ts.track - 35) * 3 + ts.sector / 8 - 3] &= ~mask;
369			}
370	0		break;
371			case D81:
372	0	0	if (ts.track < 41) {
373	0		bam = get_ts_addr(di, di->bam);
374			} else {
375	0		bam = get_ts_addr(di, di->bam2);
376	0		ts.track -= 40;
377			}
378	0		bam[ts.track * 6 + 10] -= 1;
379	0		mask = 1<<(ts.sector & 7);
380	0		bam[ts.track * 6 + ts.sector / 8 + 11] &= ~mask;
381	0		break;
382			}
383	62		}
384
385
386			/* allocate next available block */
387	12		TrackSector alloc_next_ts(DiskImage *di, TrackSector prevts) {
388			unsigned char *bam;
389			int spt, s1, s2, t1, t2, bpt, boff, res1, res2;
390			TrackSector ts;
391
392	12		switch (di->type) {
393			default:
394			case D64:
395	12		s1 = 1;
396	12		t1 = 35;
397	12		s2 = 1;
398	12		t2 = 35;
399	12		res1 = 18;
400	12		res2 = 0;
401	12		bpt = 4;
402	12		boff = 0;
403	12		break;
404			case D71:
405	0		s1 = 1;
406	0		t1 = 35;
407	0		s2 = 36;
408	0		t2 = 70;
409	0		res1 = 18;
410	0		res2 = 53;
411	0		bpt = 4;
412	0		boff = 0;
413	0		break;
414			case D81:
415	0		s1 = 1;
416	0		t1 = 40;
417	0		s2 = 41;
418	0		t2 = 80;
419	0		res1 = 40;
420	0		res2 = 0;
421	0		bpt = 6;
422	0		boff = 10;
423	0		break;
424			}
425
426	12		bam = get_ts_addr(di, di->bam);
427	12	50	for (ts.track = s1; ts.track <= t1; ++ts.track) {
428	12	50	if (ts.track != res1) {
429	12	50	if (bam[ts.track * bpt + boff]) {
430	12		spt = di_sectors_per_track(di->type, ts.track);
431	12		ts.sector = (prevts.sector + interleave(di->type)) % spt;
432	0		for (; ; ts.sector = (ts.sector + 1) % spt) {
433	12	50	if (di_is_ts_free(di, ts)) {
434	12		di_alloc_ts(di, ts);
435	12		return(ts);
436			}
437	0		}
438			}
439			}
440			}
441
442	0	0	if (di->type == D71 \|\| di->type == D81) {
		0
443	0		bam = get_ts_addr(di, di->bam2);
444	0	0	for (ts.track = s2; ts.track <= t2; ++ts.track) {
445	0	0	if (ts.track != res2) {
446	0	0	if (bam[(ts.track - t1) * bpt + boff]) {
447	0		spt = di_sectors_per_track(di->type, ts.track);
448	0		ts.sector = (prevts.sector + interleave(di->type)) % spt;
449	0		for (; ; ts.sector = (ts.sector + 1) % spt) {
450	0	0	if (di_is_ts_free(di, ts)) {
451	0		di_alloc_ts(di, ts);
452	0		return(ts);
453			}
454	0		}
455			}
456			}
457			}
458			}
459
460	0		ts.track = 0;
461	0		ts.sector = 0;
462	12		return(ts);
463			}
464
465
466			/* allocate next available directory block */
467	0		TrackSector alloc_next_dir_ts(DiskImage *di) {
468			unsigned char *p;
469			int spt;
470			TrackSector ts, lastts;
471
472	0	0	if (di_track_blocks_free(di, di->bam.track)) {
473	0		ts.track = di->bam.track;
474	0		ts.sector = 0;
475	0	0	while (ts.track) {
476	0		lastts = ts;
477	0		ts = next_ts_in_chain(di, ts);
478			}
479	0		ts.track = lastts.track;
480	0		ts.sector = lastts.sector + 3;
481	0		spt = di_sectors_per_track(di->type, ts.track);
482	0		for (; ; ts.sector = (ts.sector + 1) % spt) {
483	0	0	if (di_is_ts_free(di, ts)) {
484	0		di_alloc_ts(di, ts);
485	0		p = get_ts_addr(di, lastts);
486	0		p[0] = ts.track;
487	0		p[1] = ts.sector;
488	0		p = get_ts_addr(di, ts);
489	0		memset(p, 0, 256);
490	0		p[1] = 0xff;
491	0		di->modified = 1;
492	0		return(ts);
493			}
494	0		}
495			} else {
496	0		ts.track = 0;
497	0		ts.sector = 0;
498	0		return(ts);
499			}
500			}
501
502
503			/* free a block in the BAM */
504	15712		void di_free_ts(DiskImage *di, TrackSector ts) {
505			unsigned char mask;
506			unsigned char *bam;
507
508	15712		di->modified = 1;
509	15712		switch (di->type) {
510			case D64:
511	15712		mask = 1<<(ts.sector & 7);
512	15712		bam = get_ts_addr(di, di->bam);
513	15712		bam[ts.track * 4 + ts.sector / 8 + 1] \|= mask;
514	15712		bam[ts.track * 4] += 1;
515	15712		break;
516			case D71:
517	0		mask = 1<<(ts.sector & 7);
518	0	0	if (ts.track < 36) {
519	0		bam = get_ts_addr(di, di->bam);
520	0		bam[ts.track * 4 + ts.sector / 8 + 1] \|= mask;
521	0		bam[ts.track * 4] += 1;
522			} else {
523	0		bam = get_ts_addr(di, di->bam);
524	0		bam[ts.track + 185] += 1;
525	0		bam = get_ts_addr(di, di->bam2);
526	0		bam[(ts.track - 35) * 3 + ts.sector / 8 - 3] \|= mask;
527			}
528	0		break;
529			case D81:
530	0	0	if (ts.track < 41) {
531	0		bam = get_ts_addr(di, di->bam);
532			} else {
533	0		bam = get_ts_addr(di, di->bam2);
534	0		ts.track -= 40;
535			}
536	0		mask = 1<<(ts.sector & 7);
537	0		bam[ts.track * 6 + ts.sector / 8 + 11] \|= mask;
538	0		bam[ts.track * 6 + 10] += 1;
539	0		break;
540			default:
541	0		break;
542			}
543	15712		}
544
545
546			/* free a chain of blocks */
547	1		void free_chain(DiskImage *di, TrackSector ts) {
548	2	100	while (ts.track) {
549	1		di_free_ts(di, ts);
550	1		ts = next_ts_in_chain(di, ts);
551			}
552	1		}
553
554
555	1		DiskImage di_load_image(char name) {
556			FILE *file;
557			int filesize, l, read;
558			DiskImage *di;
559
560			/* open image */
561	1	50	if ((file = fopen(name, "rb")) == NULL) {
562			//puts("fopen failed");
563	0		return(NULL);
564			}
565
566			/* get file size*/
567	1	50	if (fseek(file, 0, SEEK_END)) {
568			//puts("fseek failed");
569	0		fclose(file);
570	0		return(NULL);
571			}
572	1		filesize = ftell(file);
573	1		fseek(file, 0, SEEK_SET);
574
575	1	50	if ((di = malloc(sizeof(*di))) == NULL) {
576			//puts("malloc failed");
577	0		fclose(file);
578	0		return(NULL);
579			}
580
581			/* check image type */
582	1		switch (filesize) {
583			case 174848: // standard D64
584			case 175531: // D64 with error info (which we just ignore)
585	1		di->type = D64;
586	1		di->bam.track = 18;
587	1		di->bam.sector = 0;
588	1		di->dir = di->bam;
589	1		break;
590			case 349696:
591	0		di->type = D71;
592	0		di->bam.track = 18;
593	0		di->bam.sector = 0;
594	0		di->bam2.track = 53;
595	0		di->bam2.sector = 0;
596	0		di->dir = di->bam;
597	0		break;
598			case 819200:
599	0		di->type = D81;
600	0		di->bam.track = 40;
601	0		di->bam.sector = 1;
602	0		di->bam2.track = 40;
603	0		di->bam2.sector = 2;
604	0		di->dir.track = 40;
605	0		di->dir.sector = 0;
606	0		break;
607			default:
608			//puts("unknown type");
609	0		free(di);
610	0		fclose(file);
611	0		return(NULL);
612			}
613
614	1		di->size = filesize;
615
616			/* allocate buffer for image */
617	1	50	if ((di->image = malloc(filesize)) == NULL) {
618			//puts("image malloc failed");
619	0		free(di);
620	0		fclose(file);
621	0		return(NULL);
622			}
623
624			/* read file into buffer */
625	1		read = 0;
626	2	100	while (read < filesize) {
627	1	50	if ((l = fread(di->image, 1, filesize - read, file))) {
628	1		read += l;
629			} else {
630			//puts("fread failed");
631	0		free(di->image);
632	0		free(di);
633	0		fclose(file);
634	0		return(NULL);
635			}
636			}
637
638	1		di->filename = malloc(strlen(name) + 1);
639	1		strcpy(di->filename, name);
640	1		di->openfiles = 0;
641	1		di->blocksfree = blocks_free(di);
642	1		di->modified = 0;
643	1		fclose(file);
644	1		set_status(di, 254, 0, 0);
645	1		return(di);
646			}
647
648
649	28		DiskImage di_create_image(char name, int size) {
650			DiskImage *di;
651
652	28	50	if ((di = malloc(sizeof(*di))) == NULL) {
653			//puts("malloc failed");
654	0		return(NULL);
655			}
656
657			/* check image type */
658	28		switch (size) {
659			case 174848: // standard D64
660			case 175531: // D64 with error info (which we just ignore)
661	28		di->type = D64;
662	28		di->bam.track = 18;
663	28		di->bam.sector = 0;
664	28		di->dir = di->bam;
665	28		break;
666			case 349696:
667	0		di->type = D71;
668	0		di->bam.track = 18;
669	0		di->bam.sector = 0;
670	0		di->bam2.track = 53;
671	0		di->bam2.sector = 0;
672	0		di->dir = di->bam;
673	0		break;
674			case 819200:
675	0		di->type = D81;
676	0		di->bam.track = 40;
677	0		di->bam.sector = 1;
678	0		di->bam2.track = 40;
679	0		di->bam2.sector = 2;
680	0		di->dir.track = 40;
681	0		di->dir.sector = 0;
682	0		break;
683			default:
684			//puts("unknown type");
685	0		free(di);
686	0		return(NULL);
687			}
688
689	28		di->size = size;
690
691			/* allocate buffer for image */
692	28	50	if ((di->image = malloc(size)) == NULL) {
693			//puts("image malloc failed");
694	0		free(di);
695	0		return(NULL);
696			}
697	28		memset(di->image, 0, size);
698
699	28		di->filename = malloc(strlen(name) + 1);
700	28		strcpy(di->filename, name);
701	28		di->openfiles = 0;
702	28		di->blocksfree = blocks_free(di);
703	28		di->modified = 1;
704	28		set_status(di, 254, 0, 0);
705	28		return(di);
706			}
707
708
709	28		void di_sync(DiskImage *di) {
710			FILE *file;
711			int l, left;
712			unsigned char *image;
713
714	28	50	if ((file = fopen(di->filename, "wb"))) {
715	28		image = di->image;
716	28		left = di->size;
717	28		l = 0;
718	56	100	while (left) {
719	28	50	if ((l = fwrite(image, 1, left, file)) == 0) {
720	0		fclose(file);
721	0		return;
722			}
723	28		left -= l;
724	28		image += l;
725			}
726	28		fclose(file);
727	28		di->modified = 0;
728			}
729			}
730
731
732	29		void di_free_image(DiskImage *di) {
733	29	100	if (di->modified) {
734	27		di_sync(di);
735			}
736	29	50	if (di->filename) {
737	29		free(di->filename);
738			}
739	29		free(di->image);
740	29		free(di);
741	29		}
742
743
744	9		int match_pattern(unsigned char rawpattern, unsigned char rawname) {
745			int i;
746
747	76	50	for (i = 0; i < 16; ++i) {
748	76	50	if (rawpattern[i] == '*') {
749	0		return(1);
750			}
751	76	100	if (rawname[i] == 0xa0) {
752	8	50	if (rawpattern[i] == 0xa0) {
753	8		return(1);
754			} else {
755	0		return(0);
756			}
757			} else {
758	68	50	if (rawpattern[i] == '?' \|\| rawpattern[i] == rawname[i]) {
		100
759			} else {
760	1		return(0);
761			}
762			}
763			}
764	0		return(1);
765			}
766
767
768	12		RawDirEntry find_file_entry(DiskImage di, unsigned char *rawpattern, FileType type) {
769			unsigned char *buffer;
770			TrackSector ts;
771			RawDirEntry *rde;
772			int offset;
773
774	12		ts = next_ts_in_chain(di, di->bam);
775	16	100	while (ts.track) {
776	12		buffer = get_ts_addr(di, ts);
777	44	100	for (offset = 0; offset < 256; offset += 32) {
778	40		rde = (RawDirEntry *)(buffer + offset);
779	40	100	if ((rde->type & ~0x40) == (type \| 0x80)) {
780	9	100	if (match_pattern(rawpattern, rde->rawname)) {
781	8		return(rde);
782			}
783			}
784			}
785	4		ts = next_ts_in_chain(di, ts);
786			}
787	12		return(NULL);
788			}
789
790
791	12		RawDirEntry alloc_file_entry(DiskImage di, unsigned char *rawname, FileType type) {
792			unsigned char *buffer;
793			TrackSector ts, lastts;
794			RawDirEntry *rde;
795			int offset;
796
797			/* check if file already exists */
798	12		ts = next_ts_in_chain(di, di->bam);
799	24	100	while (ts.track) {
800	12		buffer = get_ts_addr(di, ts);
801	108	100	for (offset = 0; offset < 256; offset += 32) {
802	96		rde = (RawDirEntry *)(buffer + offset);
803	96	50	if (rde->type) {
804	0	0	if (strncmp(rawname, rde->rawname, 16) == 0) {
805	0		set_status(di, 63, 0, 0);
806			//puts("file exists");
807	0		return(NULL);
808			}
809			}
810			}
811	12		ts = next_ts_in_chain(di, ts);
812			}
813
814			/* allocate empty slot */
815	12		ts = next_ts_in_chain(di, di->bam);
816	12	50	while (ts.track) {
817	12		buffer = get_ts_addr(di, ts);
818	12	50	for (offset = 0; offset < 256; offset += 32) {
819	12		rde = (RawDirEntry *)(buffer + offset);
820	12	50	if (rde->type == 0) {
821	12		memset((unsigned char *)rde + 2, 0, 30);
822	12		memcpy(rde->rawname, rawname, 16);
823	12		rde->type = type;
824	12		di->modified = 1;
825	12		return(rde);
826			}
827			}
828	0		lastts = ts;
829	0		ts = next_ts_in_chain(di, ts);
830			}
831
832			/* allocate new dir block */
833	0		ts = alloc_next_dir_ts(di);
834	0	0	if (ts.track) {
835	0		rde = (RawDirEntry *)get_ts_addr(di, ts);
836	0		memset((unsigned char *)rde + 2, 0, 30);
837	0		memcpy(rde->rawname, rawname, 16);
838	0		rde->type = type;
839	0		di->modified = 1;
840	0		return(rde);
841			} else {
842	0		set_status(di, 72, 0, 0);
843			//puts("directory full");
844	12		return(NULL);
845			}
846			}
847
848
849			/* open a file */
850	20		ImageFile di_open(DiskImage di, unsigned char rawname, FileType type, char mode) {
851			ImageFile *imgfile;
852			RawDirEntry *rde;
853			unsigned char *p;
854
855	20		set_status(di, 255, 0, 0);
856
857	20	100	if (strcmp("rb", mode) == 0) {
858
859	8	50	if ((imgfile = malloc(sizeof(*imgfile))) == NULL) {
860			//puts("malloc failed");
861	0		return(NULL);
862			}
863	8	50	if (strcmp("$", rawname) == 0) {
864	0		imgfile->mode = 'r';
865	0		imgfile->ts = di->dir;
866	0		p = get_ts_addr(di, di->dir);
867	0		imgfile->buffer = p + 2;
868	0	0	if ((di->type == D64) \|\| (di->type == D71)) {
		0
869	0		imgfile->nextts.track = 18; // 1541/71 ignores bam t/s link
870	0		imgfile->nextts.sector = 1;
871			} else {
872	0		imgfile->nextts.track = p[0];
873	0		imgfile->nextts.sector = p[1];
874			}
875	0		imgfile->buflen = 254;
876	0		rde = NULL;
877			} else {
878	8	100	if ((rde = find_file_entry(di, rawname, type)) == NULL) {
879	3		set_status(di, 62, 0, 0);
880			//puts("find_file_entry failed");
881	3		free(imgfile);
882	3		return(NULL);
883			}
884	5		imgfile->mode = 'r';
885	5		imgfile->ts = rde->startts;
886	5	50	if (imgfile->ts.track > di_tracks(di->type)) {
887	0		return(NULL);
888			}
889	5		p = get_ts_addr(di, rde->startts);
890	5		imgfile->buffer = p + 2;
891	5		imgfile->nextts.track = p[0];
892	5		imgfile->nextts.sector = p[1];
893	5	50	if (imgfile->nextts.track == 0) {
894	5		imgfile->buflen = imgfile->nextts.sector - 1;
895			} else {
896	5		imgfile->buflen = 254;
897			}
898			}
899
900	12	50	} else if (strcmp("wb", mode) == 0) {
901
902	12	50	if ((rde = alloc_file_entry(di, rawname, type)) == NULL) {
903			//puts("alloc_file_entry failed");
904	0		return(NULL);
905			}
906	12	50	if ((imgfile = malloc(sizeof(*imgfile))) == NULL) {
907			//puts("malloc failed");
908	0		return(NULL);
909			}
910	12		imgfile->mode = 'w';
911	12		imgfile->ts.track = 0;
912	12		imgfile->ts.sector = 0;
913	12	50	if ((imgfile->buffer = malloc(254)) == NULL) {
914	0		free(imgfile);
915			//puts("malloc failed");
916	0		return(NULL);
917			}
918	12		imgfile->buflen = 254;
919	12		di->modified = 1;
920
921			} else {
922	0		return(NULL);
923			}
924
925	17		imgfile->diskimage = di;
926	17		imgfile->rawdirentry = rde;
927	17		imgfile->position = 0;
928	17		imgfile->bufptr = 0;
929
930	17		++(di->openfiles);
931	17		set_status(di, 0, 0, 0);
932	17		return(imgfile);
933			}
934
935
936	3		int di_read(ImageFile imgfile, unsigned char buffer, int len) {
937			unsigned char *p;
938			int bytesleft;
939	3		int counter = 0;
940
941	6	100	while (len) {
942	5		bytesleft = imgfile->buflen - imgfile->bufptr;
943	5	100	if (bytesleft == 0) {
944	2	50	if (imgfile->nextts.track == 0) {
945	2		return(counter);
946			}
947	0	0	if (((imgfile->diskimage->type == D64) \|\| (imgfile->diskimage->type == D71)) && imgfile->ts.track == 18 && imgfile->ts.sector == 0) {
		0
		0
		0
948	0		imgfile->ts.track = 18;
949	0		imgfile->ts.sector = 1;
950			} else {
951	0		imgfile->ts = next_ts_in_chain(imgfile->diskimage, imgfile->ts);
952			}
953	0	0	if (imgfile->ts.track == 0) {
954	0		return(counter);
955			}
956	0		p = get_ts_addr(imgfile->diskimage, imgfile->ts);
957	0		imgfile->buffer = p + 2;
958	0		imgfile->nextts.track = p[0];
959	0		imgfile->nextts.sector = p[1];
960	0	0	if (imgfile->nextts.track == 0) {
961	0		imgfile->buflen = imgfile->nextts.sector - 1;
962			} else {
963	0		imgfile->buflen = 254;
964			}
965	0		imgfile->bufptr = 0;
966			} else {
967	3	100	if (len >= bytesleft) {
968	510	100	while (bytesleft) {
969	508		*buffer++ = imgfile->buffer[imgfile->bufptr++];
970	508		--len;
971	508		--bytesleft;
972	508		++counter;
973	508		++(imgfile->position);
974			}
975			} else {
976	6	100	while (len) {
977	5		*buffer++ = imgfile->buffer[imgfile->bufptr++];
978	5		--len;
979	5		--bytesleft;
980	5		++counter;
981	5		++(imgfile->position);
982			}
983			}
984			}
985			}
986	1		return(counter);
987			}
988
989
990	12		int di_write(ImageFile imgfile, unsigned char buffer, int len) {
991			unsigned char *p;
992			int bytesleft;
993	12		int counter = 0;
994
995	24	100	while (len) {
996	12		bytesleft = imgfile->buflen - imgfile->bufptr;
997	12	50	if (bytesleft == 0) {
998	0	0	if (imgfile->diskimage->blocksfree == 0) {
999	0		set_status(imgfile->diskimage, 72, 0, 0);
1000	0		return(counter);
1001			}
1002	0		imgfile->nextts = alloc_next_ts(imgfile->diskimage, imgfile->ts);
1003	0	0	if (imgfile->ts.track == 0) {
1004	0		imgfile->rawdirentry->startts = imgfile->nextts;
1005			} else {
1006	0		p = get_ts_addr(imgfile->diskimage, imgfile->ts);
1007	0		p[0] = imgfile->nextts.track;
1008	0		p[1] = imgfile->nextts.sector;
1009			}
1010	0		imgfile->ts = imgfile->nextts;
1011	0		p = get_ts_addr(imgfile->diskimage, imgfile->ts);
1012	0		p[0] = 0;
1013	0		p[1] = 0xff;
1014	0		memcpy(p + 2, imgfile->buffer, 254);
1015	0		imgfile->bufptr = 0;
1016	0	0	if (++(imgfile->rawdirentry->sizelo) == 0) {
1017	0		++(imgfile->rawdirentry->sizehi);
1018			}
1019	0		--(imgfile->diskimage->blocksfree);
1020			} else {
1021	12	50	if (len >= bytesleft) {
1022	0	0	while (bytesleft) {
1023	0		imgfile->buffer[imgfile->bufptr++] = *buffer++;
1024	0		--len;
1025	0		--bytesleft;
1026	0		++counter;
1027	0		++(imgfile->position);
1028			}
1029			} else {
1030	110	100	while (len) {
1031	98		imgfile->buffer[imgfile->bufptr++] = *buffer++;
1032	98		--len;
1033	98		--bytesleft;
1034	98		++counter;
1035	98		++(imgfile->position);
1036			}
1037			}
1038			}
1039			}
1040	12		return(counter);
1041			}
1042
1043
1044	16		void di_close(ImageFile *imgfile) {
1045			unsigned char *p;
1046
1047	16	100	if (imgfile->mode == 'w') {
1048	12	50	if (imgfile->bufptr) {
1049	12	50	if (imgfile->diskimage->blocksfree) {
1050	12		imgfile->nextts = alloc_next_ts(imgfile->diskimage, imgfile->ts);
1051	12	50	if (imgfile->ts.track == 0) {
1052	12		imgfile->rawdirentry->startts = imgfile->nextts;
1053			} else {
1054	0		p = get_ts_addr(imgfile->diskimage, imgfile->ts);
1055	0		p[0] = imgfile->nextts.track;
1056	0		p[1] = imgfile->nextts.sector;
1057			}
1058	12		imgfile->ts = imgfile->nextts;
1059	12		p = get_ts_addr(imgfile->diskimage, imgfile->ts);
1060	12		p[0] = 0;
1061	12		p[1] = 0xff;
1062	12		memcpy(p + 2, imgfile->buffer, 254);
1063	12		imgfile->bufptr = 0;
1064	12	50	if (++(imgfile->rawdirentry->sizelo) == 0) {
1065	0		++(imgfile->rawdirentry->sizehi);
1066			}
1067	12		--(imgfile->diskimage->blocksfree);
1068	12		imgfile->rawdirentry->type \|= 0x80;
1069			}
1070			} else {
1071	0		imgfile->rawdirentry->type \|= 0x80;
1072			}
1073	12		free(imgfile->buffer);
1074			}
1075	16		--(imgfile->diskimage->openfiles);
1076	16		free(imgfile);
1077	16		}
1078
1079
1080	23		int di_format(DiskImage di, unsigned char rawname, unsigned char *rawid) {
1081			unsigned char *p;
1082			TrackSector ts;
1083
1084	23		di->modified = 1;
1085
1086	23		switch (di->type) {
1087
1088			case D64:
1089			/* erase disk */
1090	23	50	if (rawid) {
1091	23		memset(di->image, 0, 174848);
1092			}
1093
1094			/* get ptr to bam */
1095	23		p = get_ts_addr(di, di->bam);
1096
1097			/* setup header */
1098	23		p[0] = 18;
1099	23		p[1] = 1;
1100	23		p[2] = 'A';
1101	23		p[3] = 0;
1102
1103			/* clear bam */
1104	23		memset(p + 4, 0, 0x8c);
1105
1106			/* free blocks */
1107	828	100	for (ts.track = 1; ts.track <= di_tracks(di->type); ++ts.track) {
1108	16514	100	for (ts.sector = 0; ts.sector < di_sectors_per_track(di->type, ts.track); ++ts.sector) {
1109	15709		di_free_ts(di, ts);
1110			}
1111			}
1112
1113			/* allocate bam and dir */
1114	23		ts.track = 18;
1115	23		ts.sector = 0;
1116	23		di_alloc_ts(di, ts);
1117	23		ts.sector = 1;
1118	23		di_alloc_ts(di, ts);
1119
1120			/* copy name */
1121	23		memcpy(p + 0x90, rawname, 16);
1122
1123			/* set id */
1124	23		memset(p + 0xa0, 0xa0, 2);
1125	23	50	if (rawid) {
1126	23		memcpy(p + 0xa2, rawid, 2);
1127			}
1128	23		memset(p + 0xa4, 0xa0, 7);
1129	23		p[0xa5] = '2';
1130	23		p[0xa6] = 'A';
1131
1132			/* clear unused bytes */
1133	23		memset(p + 0xab, 0, 0x55);
1134
1135			/* clear first dir block */
1136	23		memset(p + 256, 0, 256);
1137	23		p[257] = 0xff;
1138	23		break;
1139
1140			case D71:
1141			/* erase disk */
1142	0	0	if (rawid) {
1143	0		memset(di->image, 0, 349696);
1144			}
1145
1146			/* get ptr to bam2 */
1147	0		p = get_ts_addr(di, di->bam2);
1148
1149			/* clear bam2 */
1150	0		memset(p, 0, 256);
1151
1152			/* get ptr to bam */
1153	0		p = get_ts_addr(di, di->bam);
1154
1155			/* setup header */
1156	0		p[0] = 18;
1157	0		p[1] = 1;
1158	0		p[2] = 'A';
1159	0		p[3] = 0x80;
1160
1161			/* clear bam */
1162	0		memset(p + 4, 0, 0x8c);
1163
1164			/* clear bam2 counters */
1165	0		memset(p + 0xdd, 0, 0x23);
1166
1167			/* free blocks */
1168	0	0	for (ts.track = 1; ts.track <= di_tracks(di->type); ++ts.track) {
1169	0	0	if (ts.track != 53) {
1170	0	0	for (ts.sector = 0; ts.sector < di_sectors_per_track(di->type, ts.track); ++ts.sector) {
1171	0		di_free_ts(di, ts);
1172			}
1173			}
1174			}
1175
1176			/* allocate bam and dir */
1177	0		ts.track = 18;
1178	0		ts.sector = 0;
1179	0		di_alloc_ts(di, ts);
1180	0		ts.sector = 1;
1181	0		di_alloc_ts(di, ts);
1182
1183			/* copy name */
1184	0		memcpy(p + 0x90, rawname, 16);
1185
1186			/* set id */
1187	0		memset(p + 0xa0, 0xa0, 2);
1188	0	0	if (rawid) {
1189	0		memcpy(p + 0xa2, rawid, 2);
1190			}
1191	0		memset(p + 0xa4, 0xa0, 7);
1192	0		p[0xa5] = '2';
1193	0		p[0xa6] = 'A';
1194
1195			/* clear unused bytes */
1196	0		memset(p + 0xab, 0, 0x32);
1197
1198			/* clear first dir block */
1199	0		memset(p + 256, 0, 256);
1200	0		p[257] = 0xff;
1201	0		break;
1202
1203			case D81:
1204			/* erase disk */
1205	0	0	if (rawid) {
1206	0		memset(di->image, 0, 819200);
1207			}
1208
1209			/* get ptr to bam */
1210	0		p = get_ts_addr(di, di->bam);
1211
1212			/* setup header */
1213	0		p[0] = 0x28;
1214	0		p[1] = 0x02;
1215	0		p[2] = 0x44;
1216	0		p[3] = 0xbb;
1217	0		p[6] = 0xc0;
1218
1219			/* set id */
1220	0	0	if (rawid) {
1221	0		memcpy(p + 4, rawid, 2);
1222			}
1223
1224			/* clear bam */
1225	0		memset(p + 7, 0, 0xfa);
1226
1227			/* get ptr to bam2 */
1228	0		p = get_ts_addr(di, di->bam2);
1229
1230			/* setup header */
1231	0		p[0] = 0x00;
1232	0		p[1] = 0xff;
1233	0		p[2] = 0x44;
1234	0		p[3] = 0xbb;
1235	0		p[6] = 0xc0;
1236
1237			/* set id */
1238	0	0	if (rawid) {
1239	0		memcpy(p + 4, rawid, 2);
1240			}
1241
1242			/* clear bam2 */
1243	0		memset(p + 7, 0, 0xfa);
1244
1245			/* free blocks */
1246	0	0	for (ts.track = 1; ts.track <= di_tracks(di->type); ++ts.track) {
1247	0	0	for (ts.sector = 0; ts.sector < di_sectors_per_track(di->type, ts.track); ++ts.sector) {
1248	0		di_free_ts(di, ts);
1249			}
1250			}
1251
1252			/* allocate bam and dir */
1253	0		ts.track = 40;
1254	0		ts.sector = 0;
1255	0		di_alloc_ts(di, ts);
1256	0		ts.sector = 1;
1257	0		di_alloc_ts(di, ts);
1258	0		ts.sector = 2;
1259	0		di_alloc_ts(di, ts);
1260	0		ts.sector = 3;
1261	0		di_alloc_ts(di, ts);
1262
1263			/* get ptr to dir */
1264	0		p = get_ts_addr(di, di->dir);
1265
1266			/* copy name */
1267	0		memcpy(p + 4, rawname, 16);
1268
1269			/* set id */
1270	0		memset(p + 0x14, 0xa0, 2);
1271	0	0	if (rawid) {
1272	0		memcpy(p + 0x16, rawid, 2);
1273			}
1274	0		memset(p + 0x18, 0xa0, 5);
1275	0		p[0x19] = '3';
1276	0		p[0x1a] = 'D';
1277
1278			/* clear unused bytes */
1279	0		memset(p + 0x1d, 0, 0xe3);
1280
1281			/* clear first dir block */
1282	0		memset(p + 768, 0, 256);
1283	0		p[769] = 0xff;
1284	0		break;
1285
1286			}
1287
1288	23		di->blocksfree = blocks_free(di);
1289
1290	23		return(set_status(di, 0, 0, 0));
1291			}
1292
1293
1294	1		int di_delete(DiskImage di, unsigned char rawpattern, FileType type) {
1295			RawDirEntry *rde;
1296	1		int delcount = 0;
1297
1298	1	50	switch (type) {
1299
1300			case T_SEQ:
1301			case T_PRG:
1302			case T_USR:
1303	2	100	while ((rde = find_file_entry(di, rawpattern, type))) {
1304	1		free_chain(di, rde->startts);
1305	1		rde->type = 0;
1306	1		++delcount;
1307			}
1308	1	50	if (delcount) {
1309	1		return(set_status(di, 1, delcount, 0));
1310			} else {
1311	0		return(set_status(di, 62, 0, 0));
1312			}
1313			break;
1314
1315			default:
1316	0		return(set_status(di, 64, 0, 0));
1317			break;
1318
1319			}
1320			}
1321
1322
1323	2		int di_rename(DiskImage di, unsigned char oldrawname, unsigned char *newrawname, FileType type) {
1324			RawDirEntry *rde;
1325
1326	2	50	if ((rde = find_file_entry(di, oldrawname, type))) {
1327	2		memcpy(rde->rawname, newrawname, 16);
1328	2		return(set_status(di, 0, 0, 0));
1329			} else {
1330	0		return(set_status(di, 62, 0, 0));
1331			}
1332			}