1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3  * BER and PER decoding library for H.323 conntrack/NAT module.
4  *
5  * Copyright (c) 2006 by Jing Min Zhao <zhaojingmin@users.sourceforge.net>
6  *
7  * See nf_conntrack_helper_h323_asn1.h for details.
8  */
9 
10 #ifdef __KERNEL__
11 #include <linux/kernel.h>
12 #else
13 #include <stdio.h>
14 #endif
15 #include <linux/netfilter/nf_conntrack_h323_asn1.h>
16 
17 /* Trace Flag */
18 #ifndef H323_TRACE
19 #define H323_TRACE 0
20 #endif
21 
22 #if H323_TRACE
23 #define TAB_SIZE 4
24 #define IFTHEN(cond, act) if(cond){act;}
25 #ifdef __KERNEL__
26 #define PRINT printk
27 #else
28 #define PRINT printf
29 #endif
30 #define FNAME(name) name,
31 #else
32 #define IFTHEN(cond, act)
33 #define PRINT(fmt, args...)
34 #define FNAME(name)
35 #endif
36 
37 /* ASN.1 Types */
38 #define NUL 0
39 #define BOOL 1
40 #define OID 2
41 #define INT 3
42 #define ENUM 4
43 #define BITSTR 5
44 #define NUMSTR 6
45 #define NUMDGT 6
46 #define TBCDSTR 6
47 #define OCTSTR 7
48 #define PRTSTR 7
49 #define IA5STR 7
50 #define GENSTR 7
51 #define BMPSTR 8
52 #define SEQ 9
53 #define SET 9
54 #define SEQOF 10
55 #define SETOF 10
56 #define CHOICE 11
57 
58 /* Constraint Types */
59 #define FIXD 0
60 /* #define BITS 1-8 */
61 #define BYTE 9
62 #define WORD 10
63 #define CONS 11
64 #define SEMI 12
65 #define UNCO 13
66 
67 /* ASN.1 Type Attributes */
68 #define SKIP 0
69 #define STOP 1
70 #define DECODE 2
71 #define EXT 4
72 #define OPEN 8
73 #define OPT 16
74 
75 
76 /* ASN.1 Field Structure */
77 typedef struct field_t {
78 #if H323_TRACE
79 	char *name;
80 #endif
81 	unsigned char type;
82 	unsigned char sz;
83 	unsigned char lb;
84 	unsigned char ub;
85 	unsigned short attr;
86 	unsigned short offset;
87 	const struct field_t *fields;
88 } field_t;
89 
90 /* Bit Stream */
91 struct bitstr {
92 	unsigned char *buf;
93 	unsigned char *beg;
94 	unsigned char *end;
95 	unsigned char *cur;
96 	unsigned int bit;
97 };
98 
99 /* Tool Functions */
100 #define INC_BIT(bs) if((++(bs)->bit)>7){(bs)->cur++;(bs)->bit=0;}
101 #define INC_BITS(bs,b) if(((bs)->bit+=(b))>7){(bs)->cur+=(bs)->bit>>3;(bs)->bit&=7;}
102 #define BYTE_ALIGN(bs) if((bs)->bit){(bs)->cur++;(bs)->bit=0;}
103 static unsigned int get_len(struct bitstr *bs);
104 static unsigned int get_bit(struct bitstr *bs);
105 static unsigned int get_bits(struct bitstr *bs, unsigned int b);
106 static unsigned int get_bitmap(struct bitstr *bs, unsigned int b);
107 static unsigned int get_uint(struct bitstr *bs, int b);
108 
109 /* Decoder Functions */
110 static int decode_nul(struct bitstr *bs, const struct field_t *f, char *base, int level);
111 static int decode_bool(struct bitstr *bs, const struct field_t *f, char *base, int level);
112 static int decode_oid(struct bitstr *bs, const struct field_t *f, char *base, int level);
113 static int decode_int(struct bitstr *bs, const struct field_t *f, char *base, int level);
114 static int decode_enum(struct bitstr *bs, const struct field_t *f, char *base, int level);
115 static int decode_bitstr(struct bitstr *bs, const struct field_t *f, char *base, int level);
116 static int decode_numstr(struct bitstr *bs, const struct field_t *f, char *base, int level);
117 static int decode_octstr(struct bitstr *bs, const struct field_t *f, char *base, int level);
118 static int decode_bmpstr(struct bitstr *bs, const struct field_t *f, char *base, int level);
119 static int decode_seq(struct bitstr *bs, const struct field_t *f, char *base, int level);
120 static int decode_seqof(struct bitstr *bs, const struct field_t *f, char *base, int level);
121 static int decode_choice(struct bitstr *bs, const struct field_t *f, char *base, int level);
122 
123 /* Decoder Functions Vector */
124 typedef int (*decoder_t)(struct bitstr *, const struct field_t *, char *, int);
125 static const decoder_t Decoders[] = {
126 	decode_nul,
127 	decode_bool,
128 	decode_oid,
129 	decode_int,
130 	decode_enum,
131 	decode_bitstr,
132 	decode_numstr,
133 	decode_octstr,
134 	decode_bmpstr,
135 	decode_seq,
136 	decode_seqof,
137 	decode_choice,
138 };
139 
140 /*
141  * H.323 Types
142  */
143 #include "nf_conntrack_h323_types.c"
144 
145 /*
146  * Functions
147  */
148 
149 /* Assume bs is aligned && v < 16384 */
get_len(struct bitstr * bs)150 static unsigned int get_len(struct bitstr *bs)
151 {
152 	unsigned int v;
153 
154 	v = *bs->cur++;
155 
156 	if (v & 0x80) {
157 		v &= 0x3f;
158 		v <<= 8;
159 		v += *bs->cur++;
160 	}
161 
162 	return v;
163 }
164 
nf_h323_error_boundary(struct bitstr * bs,size_t bytes,size_t bits)165 static int nf_h323_error_boundary(struct bitstr *bs, size_t bytes, size_t bits)
166 {
167 	bits += bs->bit;
168 	bytes += bits / BITS_PER_BYTE;
169 	if (bits % BITS_PER_BYTE > 0)
170 		bytes++;
171 
172 	if (bs->cur + bytes > bs->end)
173 		return 1;
174 
175 	return 0;
176 }
177 
get_bit(struct bitstr * bs)178 static unsigned int get_bit(struct bitstr *bs)
179 {
180 	unsigned int b = (*bs->cur) & (0x80 >> bs->bit);
181 
182 	INC_BIT(bs);
183 
184 	return b;
185 }
186 
187 /* Assume b <= 8 */
get_bits(struct bitstr * bs,unsigned int b)188 static unsigned int get_bits(struct bitstr *bs, unsigned int b)
189 {
190 	unsigned int v, l;
191 
192 	v = (*bs->cur) & (0xffU >> bs->bit);
193 	l = b + bs->bit;
194 
195 	if (l < 8) {
196 		v >>= 8 - l;
197 		bs->bit = l;
198 	} else if (l == 8) {
199 		bs->cur++;
200 		bs->bit = 0;
201 	} else {		/* l > 8 */
202 
203 		v <<= 8;
204 		v += *(++bs->cur);
205 		v >>= 16 - l;
206 		bs->bit = l - 8;
207 	}
208 
209 	return v;
210 }
211 
212 /* Assume b <= 32 */
get_bitmap(struct bitstr * bs,unsigned int b)213 static unsigned int get_bitmap(struct bitstr *bs, unsigned int b)
214 {
215 	unsigned int v, l, shift, bytes;
216 
217 	if (!b)
218 		return 0;
219 
220 	l = bs->bit + b;
221 
222 	if (l < 8) {
223 		v = (unsigned int)(*bs->cur) << (bs->bit + 24);
224 		bs->bit = l;
225 	} else if (l == 8) {
226 		v = (unsigned int)(*bs->cur++) << (bs->bit + 24);
227 		bs->bit = 0;
228 	} else {
229 		for (bytes = l >> 3, shift = 24, v = 0; bytes;
230 		     bytes--, shift -= 8)
231 			v |= (unsigned int)(*bs->cur++) << shift;
232 
233 		if (l < 32) {
234 			v |= (unsigned int)(*bs->cur) << shift;
235 			v <<= bs->bit;
236 		} else if (l > 32) {
237 			v <<= bs->bit;
238 			v |= (*bs->cur) >> (8 - bs->bit);
239 		}
240 
241 		bs->bit = l & 0x7;
242 	}
243 
244 	v &= 0xffffffff << (32 - b);
245 
246 	return v;
247 }
248 
249 /*
250  * Assume bs is aligned and sizeof(unsigned int) == 4
251  */
get_uint(struct bitstr * bs,int b)252 static unsigned int get_uint(struct bitstr *bs, int b)
253 {
254 	unsigned int v = 0;
255 
256 	switch (b) {
257 	case 4:
258 		v |= *bs->cur++;
259 		v <<= 8;
260 		fallthrough;
261 	case 3:
262 		v |= *bs->cur++;
263 		v <<= 8;
264 		fallthrough;
265 	case 2:
266 		v |= *bs->cur++;
267 		v <<= 8;
268 		fallthrough;
269 	case 1:
270 		v |= *bs->cur++;
271 		break;
272 	}
273 	return v;
274 }
275 
decode_nul(struct bitstr * bs,const struct field_t * f,char * base,int level)276 static int decode_nul(struct bitstr *bs, const struct field_t *f,
277                       char *base, int level)
278 {
279 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
280 
281 	return H323_ERROR_NONE;
282 }
283 
decode_bool(struct bitstr * bs,const struct field_t * f,char * base,int level)284 static int decode_bool(struct bitstr *bs, const struct field_t *f,
285                        char *base, int level)
286 {
287 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
288 
289 	INC_BIT(bs);
290 	if (nf_h323_error_boundary(bs, 0, 0))
291 		return H323_ERROR_BOUND;
292 	return H323_ERROR_NONE;
293 }
294 
decode_oid(struct bitstr * bs,const struct field_t * f,char * base,int level)295 static int decode_oid(struct bitstr *bs, const struct field_t *f,
296                       char *base, int level)
297 {
298 	int len;
299 
300 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
301 
302 	BYTE_ALIGN(bs);
303 	if (nf_h323_error_boundary(bs, 1, 0))
304 		return H323_ERROR_BOUND;
305 
306 	len = *bs->cur++;
307 	bs->cur += len;
308 	if (nf_h323_error_boundary(bs, 0, 0))
309 		return H323_ERROR_BOUND;
310 
311 	return H323_ERROR_NONE;
312 }
313 
decode_int(struct bitstr * bs,const struct field_t * f,char * base,int level)314 static int decode_int(struct bitstr *bs, const struct field_t *f,
315                       char *base, int level)
316 {
317 	unsigned int len;
318 
319 	PRINT("%*.s%s", level * TAB_SIZE, " ", f->name);
320 
321 	switch (f->sz) {
322 	case BYTE:		/* Range == 256 */
323 		BYTE_ALIGN(bs);
324 		bs->cur++;
325 		break;
326 	case WORD:		/* 257 <= Range <= 64K */
327 		BYTE_ALIGN(bs);
328 		bs->cur += 2;
329 		break;
330 	case CONS:		/* 64K < Range < 4G */
331 		if (nf_h323_error_boundary(bs, 0, 2))
332 			return H323_ERROR_BOUND;
333 		len = get_bits(bs, 2) + 1;
334 		BYTE_ALIGN(bs);
335 		if (base && (f->attr & DECODE)) {	/* timeToLive */
336 			unsigned int v = get_uint(bs, len) + f->lb;
337 			PRINT(" = %u", v);
338 			*((unsigned int *)(base + f->offset)) = v;
339 		}
340 		bs->cur += len;
341 		break;
342 	case UNCO:
343 		BYTE_ALIGN(bs);
344 		if (nf_h323_error_boundary(bs, 2, 0))
345 			return H323_ERROR_BOUND;
346 		len = get_len(bs);
347 		bs->cur += len;
348 		break;
349 	default:		/* 2 <= Range <= 255 */
350 		INC_BITS(bs, f->sz);
351 		break;
352 	}
353 
354 	PRINT("\n");
355 
356 	if (nf_h323_error_boundary(bs, 0, 0))
357 		return H323_ERROR_BOUND;
358 	return H323_ERROR_NONE;
359 }
360 
decode_enum(struct bitstr * bs,const struct field_t * f,char * base,int level)361 static int decode_enum(struct bitstr *bs, const struct field_t *f,
362                        char *base, int level)
363 {
364 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
365 
366 	if ((f->attr & EXT) && get_bit(bs)) {
367 		INC_BITS(bs, 7);
368 	} else {
369 		INC_BITS(bs, f->sz);
370 	}
371 
372 	if (nf_h323_error_boundary(bs, 0, 0))
373 		return H323_ERROR_BOUND;
374 	return H323_ERROR_NONE;
375 }
376 
decode_bitstr(struct bitstr * bs,const struct field_t * f,char * base,int level)377 static int decode_bitstr(struct bitstr *bs, const struct field_t *f,
378                          char *base, int level)
379 {
380 	unsigned int len;
381 
382 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
383 
384 	BYTE_ALIGN(bs);
385 	switch (f->sz) {
386 	case FIXD:		/* fixed length > 16 */
387 		len = f->lb;
388 		break;
389 	case WORD:		/* 2-byte length */
390 		if (nf_h323_error_boundary(bs, 2, 0))
391 			return H323_ERROR_BOUND;
392 		len = (*bs->cur++) << 8;
393 		len += (*bs->cur++) + f->lb;
394 		break;
395 	case SEMI:
396 		if (nf_h323_error_boundary(bs, 2, 0))
397 			return H323_ERROR_BOUND;
398 		len = get_len(bs);
399 		break;
400 	default:
401 		len = 0;
402 		break;
403 	}
404 
405 	bs->cur += len >> 3;
406 	bs->bit = len & 7;
407 
408 	if (nf_h323_error_boundary(bs, 0, 0))
409 		return H323_ERROR_BOUND;
410 	return H323_ERROR_NONE;
411 }
412 
decode_numstr(struct bitstr * bs,const struct field_t * f,char * base,int level)413 static int decode_numstr(struct bitstr *bs, const struct field_t *f,
414                          char *base, int level)
415 {
416 	unsigned int len;
417 
418 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
419 
420 	/* 2 <= Range <= 255 */
421 	if (nf_h323_error_boundary(bs, 0, f->sz))
422 		return H323_ERROR_BOUND;
423 	len = get_bits(bs, f->sz) + f->lb;
424 
425 	BYTE_ALIGN(bs);
426 	INC_BITS(bs, (len << 2));
427 
428 	if (nf_h323_error_boundary(bs, 0, 0))
429 		return H323_ERROR_BOUND;
430 	return H323_ERROR_NONE;
431 }
432 
decode_octstr(struct bitstr * bs,const struct field_t * f,char * base,int level)433 static int decode_octstr(struct bitstr *bs, const struct field_t *f,
434                          char *base, int level)
435 {
436 	unsigned int len;
437 
438 	PRINT("%*.s%s", level * TAB_SIZE, " ", f->name);
439 
440 	switch (f->sz) {
441 	case FIXD:		/* Range == 1 */
442 		if (f->lb > 2) {
443 			BYTE_ALIGN(bs);
444 			if (base && (f->attr & DECODE)) {
445 				/* The IP Address */
446 				IFTHEN(f->lb == 4,
447 				       PRINT(" = %d.%d.%d.%d:%d",
448 					     bs->cur[0], bs->cur[1],
449 					     bs->cur[2], bs->cur[3],
450 					     bs->cur[4] * 256 + bs->cur[5]));
451 				*((unsigned int *)(base + f->offset)) =
452 				    bs->cur - bs->buf;
453 			}
454 		}
455 		len = f->lb;
456 		break;
457 	case BYTE:		/* Range == 256 */
458 		BYTE_ALIGN(bs);
459 		if (nf_h323_error_boundary(bs, 1, 0))
460 			return H323_ERROR_BOUND;
461 		len = (*bs->cur++) + f->lb;
462 		break;
463 	case SEMI:
464 		BYTE_ALIGN(bs);
465 		if (nf_h323_error_boundary(bs, 2, 0))
466 			return H323_ERROR_BOUND;
467 		len = get_len(bs) + f->lb;
468 		break;
469 	default:		/* 2 <= Range <= 255 */
470 		if (nf_h323_error_boundary(bs, 0, f->sz))
471 			return H323_ERROR_BOUND;
472 		len = get_bits(bs, f->sz) + f->lb;
473 		BYTE_ALIGN(bs);
474 		break;
475 	}
476 
477 	bs->cur += len;
478 
479 	PRINT("\n");
480 
481 	if (nf_h323_error_boundary(bs, 0, 0))
482 		return H323_ERROR_BOUND;
483 	return H323_ERROR_NONE;
484 }
485 
decode_bmpstr(struct bitstr * bs,const struct field_t * f,char * base,int level)486 static int decode_bmpstr(struct bitstr *bs, const struct field_t *f,
487                          char *base, int level)
488 {
489 	unsigned int len;
490 
491 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
492 
493 	switch (f->sz) {
494 	case BYTE:		/* Range == 256 */
495 		BYTE_ALIGN(bs);
496 		if (nf_h323_error_boundary(bs, 1, 0))
497 			return H323_ERROR_BOUND;
498 		len = (*bs->cur++) + f->lb;
499 		break;
500 	default:		/* 2 <= Range <= 255 */
501 		if (nf_h323_error_boundary(bs, 0, f->sz))
502 			return H323_ERROR_BOUND;
503 		len = get_bits(bs, f->sz) + f->lb;
504 		BYTE_ALIGN(bs);
505 		break;
506 	}
507 
508 	bs->cur += len << 1;
509 
510 	if (nf_h323_error_boundary(bs, 0, 0))
511 		return H323_ERROR_BOUND;
512 	return H323_ERROR_NONE;
513 }
514 
decode_seq(struct bitstr * bs,const struct field_t * f,char * base,int level)515 static int decode_seq(struct bitstr *bs, const struct field_t *f,
516                       char *base, int level)
517 {
518 	unsigned int ext, bmp, i, opt, len = 0, bmp2, bmp2_len;
519 	int err;
520 	const struct field_t *son;
521 	unsigned char *beg = NULL;
522 
523 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
524 
525 	/* Decode? */
526 	base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
527 
528 	/* Extensible? */
529 	if (nf_h323_error_boundary(bs, 0, 1))
530 		return H323_ERROR_BOUND;
531 	ext = (f->attr & EXT) ? get_bit(bs) : 0;
532 
533 	/* Get fields bitmap */
534 	if (nf_h323_error_boundary(bs, 0, f->sz))
535 		return H323_ERROR_BOUND;
536 	if (f->sz > 32)
537 		return H323_ERROR_RANGE;
538 	bmp = get_bitmap(bs, f->sz);
539 	if (base)
540 		*(unsigned int *)base = bmp;
541 
542 	/* Decode the root components */
543 	for (i = opt = 0, son = f->fields; i < f->lb; i++, son++) {
544 		if (son->attr & STOP) {
545 			PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
546 			      son->name);
547 			return H323_ERROR_STOP;
548 		}
549 
550 		if (son->attr & OPT) {	/* Optional component */
551 			if (!((0x80000000U >> (opt++)) & bmp))	/* Not exist */
552 				continue;
553 		}
554 
555 		/* Decode */
556 		if (son->attr & OPEN) {	/* Open field */
557 			if (nf_h323_error_boundary(bs, 2, 0))
558 				return H323_ERROR_BOUND;
559 			len = get_len(bs);
560 			if (nf_h323_error_boundary(bs, len, 0))
561 				return H323_ERROR_BOUND;
562 			if (!base || !(son->attr & DECODE)) {
563 				PRINT("%*.s%s\n", (level + 1) * TAB_SIZE,
564 				      " ", son->name);
565 				bs->cur += len;
566 				continue;
567 			}
568 			beg = bs->cur;
569 
570 			/* Decode */
571 			if ((err = (Decoders[son->type]) (bs, son, base,
572 							  level + 1)) <
573 			    H323_ERROR_NONE)
574 				return err;
575 
576 			bs->cur = beg + len;
577 			bs->bit = 0;
578 		} else if ((err = (Decoders[son->type]) (bs, son, base,
579 							 level + 1)) <
580 			   H323_ERROR_NONE)
581 			return err;
582 	}
583 
584 	/* No extension? */
585 	if (!ext)
586 		return H323_ERROR_NONE;
587 
588 	/* Get the extension bitmap */
589 	if (nf_h323_error_boundary(bs, 0, 7))
590 		return H323_ERROR_BOUND;
591 	bmp2_len = get_bits(bs, 7) + 1;
592 	if (nf_h323_error_boundary(bs, 0, bmp2_len))
593 		return H323_ERROR_BOUND;
594 	if (bmp2_len > 32)
595 		return H323_ERROR_RANGE;
596 	bmp2 = get_bitmap(bs, bmp2_len);
597 	bmp |= bmp2 >> f->sz;
598 	if (base)
599 		*(unsigned int *)base = bmp;
600 	BYTE_ALIGN(bs);
601 
602 	/* Decode the extension components */
603 	for (opt = 0; opt < bmp2_len; opt++, i++, son++) {
604 		/* Check Range */
605 		if (i >= f->ub) {	/* Newer Version? */
606 			if (nf_h323_error_boundary(bs, 2, 0))
607 				return H323_ERROR_BOUND;
608 			len = get_len(bs);
609 			if (nf_h323_error_boundary(bs, len, 0))
610 				return H323_ERROR_BOUND;
611 			bs->cur += len;
612 			continue;
613 		}
614 
615 		if (son->attr & STOP) {
616 			PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
617 			      son->name);
618 			return H323_ERROR_STOP;
619 		}
620 
621 		if (!((0x80000000 >> opt) & bmp2))	/* Not present */
622 			continue;
623 
624 		if (nf_h323_error_boundary(bs, 2, 0))
625 			return H323_ERROR_BOUND;
626 		len = get_len(bs);
627 		if (nf_h323_error_boundary(bs, len, 0))
628 			return H323_ERROR_BOUND;
629 		if (!base || !(son->attr & DECODE)) {
630 			PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
631 			      son->name);
632 			bs->cur += len;
633 			continue;
634 		}
635 		beg = bs->cur;
636 
637 		if ((err = (Decoders[son->type]) (bs, son, base,
638 						  level + 1)) <
639 		    H323_ERROR_NONE)
640 			return err;
641 
642 		bs->cur = beg + len;
643 		bs->bit = 0;
644 	}
645 	return H323_ERROR_NONE;
646 }
647 
decode_seqof(struct bitstr * bs,const struct field_t * f,char * base,int level)648 static int decode_seqof(struct bitstr *bs, const struct field_t *f,
649                         char *base, int level)
650 {
651 	unsigned int count, effective_count = 0, i, len = 0;
652 	int err;
653 	const struct field_t *son;
654 	unsigned char *beg = NULL;
655 
656 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
657 
658 	/* Decode? */
659 	base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
660 
661 	/* Decode item count */
662 	switch (f->sz) {
663 	case BYTE:
664 		BYTE_ALIGN(bs);
665 		if (nf_h323_error_boundary(bs, 1, 0))
666 			return H323_ERROR_BOUND;
667 		count = *bs->cur++;
668 		break;
669 	case WORD:
670 		BYTE_ALIGN(bs);
671 		if (nf_h323_error_boundary(bs, 2, 0))
672 			return H323_ERROR_BOUND;
673 		count = *bs->cur++;
674 		count <<= 8;
675 		count += *bs->cur++;
676 		break;
677 	case SEMI:
678 		BYTE_ALIGN(bs);
679 		if (nf_h323_error_boundary(bs, 2, 0))
680 			return H323_ERROR_BOUND;
681 		count = get_len(bs);
682 		break;
683 	default:
684 		if (nf_h323_error_boundary(bs, 0, f->sz))
685 			return H323_ERROR_BOUND;
686 		count = get_bits(bs, f->sz);
687 		break;
688 	}
689 	count += f->lb;
690 
691 	/* Write Count */
692 	if (base) {
693 		effective_count = count > f->ub ? f->ub : count;
694 		*(unsigned int *)base = effective_count;
695 		base += sizeof(unsigned int);
696 	}
697 
698 	/* Decode nested field */
699 	son = f->fields;
700 	if (base)
701 		base -= son->offset;
702 	for (i = 0; i < count; i++) {
703 		if (son->attr & OPEN) {
704 			BYTE_ALIGN(bs);
705 			if (nf_h323_error_boundary(bs, 2, 0))
706 				return H323_ERROR_BOUND;
707 			len = get_len(bs);
708 			if (nf_h323_error_boundary(bs, len, 0))
709 				return H323_ERROR_BOUND;
710 			if (!base || !(son->attr & DECODE)) {
711 				PRINT("%*.s%s\n", (level + 1) * TAB_SIZE,
712 				      " ", son->name);
713 				bs->cur += len;
714 				continue;
715 			}
716 			beg = bs->cur;
717 
718 			if ((err = (Decoders[son->type]) (bs, son,
719 							  i <
720 							  effective_count ?
721 							  base : NULL,
722 							  level + 1)) <
723 			    H323_ERROR_NONE)
724 				return err;
725 
726 			bs->cur = beg + len;
727 			bs->bit = 0;
728 		} else
729 			if ((err = (Decoders[son->type]) (bs, son,
730 							  i <
731 							  effective_count ?
732 							  base : NULL,
733 							  level + 1)) <
734 			    H323_ERROR_NONE)
735 				return err;
736 
737 		if (base)
738 			base += son->offset;
739 	}
740 
741 	return H323_ERROR_NONE;
742 }
743 
decode_choice(struct bitstr * bs,const struct field_t * f,char * base,int level)744 static int decode_choice(struct bitstr *bs, const struct field_t *f,
745                          char *base, int level)
746 {
747 	unsigned int type, ext, len = 0;
748 	int err;
749 	const struct field_t *son;
750 	unsigned char *beg = NULL;
751 
752 	PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
753 
754 	/* Decode? */
755 	base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
756 
757 	/* Decode the choice index number */
758 	if (nf_h323_error_boundary(bs, 0, 1))
759 		return H323_ERROR_BOUND;
760 	if ((f->attr & EXT) && get_bit(bs)) {
761 		ext = 1;
762 		if (nf_h323_error_boundary(bs, 0, 7))
763 			return H323_ERROR_BOUND;
764 		type = get_bits(bs, 7) + f->lb;
765 	} else {
766 		ext = 0;
767 		if (nf_h323_error_boundary(bs, 0, f->sz))
768 			return H323_ERROR_BOUND;
769 		type = get_bits(bs, f->sz);
770 		if (type >= f->lb)
771 			return H323_ERROR_RANGE;
772 	}
773 
774 	/* Write Type */
775 	if (base)
776 		*(unsigned int *)base = type;
777 
778 	/* Check Range */
779 	if (type >= f->ub) {	/* Newer version? */
780 		BYTE_ALIGN(bs);
781 		if (nf_h323_error_boundary(bs, 2, 0))
782 			return H323_ERROR_BOUND;
783 		len = get_len(bs);
784 		if (nf_h323_error_boundary(bs, len, 0))
785 			return H323_ERROR_BOUND;
786 		bs->cur += len;
787 		return H323_ERROR_NONE;
788 	}
789 
790 	/* Transfer to son level */
791 	son = &f->fields[type];
792 	if (son->attr & STOP) {
793 		PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ", son->name);
794 		return H323_ERROR_STOP;
795 	}
796 
797 	if (ext || (son->attr & OPEN)) {
798 		BYTE_ALIGN(bs);
799 		if (nf_h323_error_boundary(bs, len, 0))
800 			return H323_ERROR_BOUND;
801 		len = get_len(bs);
802 		if (nf_h323_error_boundary(bs, len, 0))
803 			return H323_ERROR_BOUND;
804 		if (!base || !(son->attr & DECODE)) {
805 			PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
806 			      son->name);
807 			bs->cur += len;
808 			return H323_ERROR_NONE;
809 		}
810 		beg = bs->cur;
811 
812 		if ((err = (Decoders[son->type]) (bs, son, base, level + 1)) <
813 		    H323_ERROR_NONE)
814 			return err;
815 
816 		bs->cur = beg + len;
817 		bs->bit = 0;
818 	} else if ((err = (Decoders[son->type]) (bs, son, base, level + 1)) <
819 		   H323_ERROR_NONE)
820 		return err;
821 
822 	return H323_ERROR_NONE;
823 }
824 
DecodeRasMessage(unsigned char * buf,size_t sz,RasMessage * ras)825 int DecodeRasMessage(unsigned char *buf, size_t sz, RasMessage *ras)
826 {
827 	static const struct field_t ras_message = {
828 		FNAME("RasMessage") CHOICE, 5, 24, 32, DECODE | EXT,
829 		0, _RasMessage
830 	};
831 	struct bitstr bs;
832 
833 	bs.buf = bs.beg = bs.cur = buf;
834 	bs.end = buf + sz;
835 	bs.bit = 0;
836 
837 	return decode_choice(&bs, &ras_message, (char *) ras, 0);
838 }
839 
DecodeH323_UserInformation(unsigned char * buf,unsigned char * beg,size_t sz,H323_UserInformation * uuie)840 static int DecodeH323_UserInformation(unsigned char *buf, unsigned char *beg,
841 				      size_t sz, H323_UserInformation *uuie)
842 {
843 	static const struct field_t h323_userinformation = {
844 		FNAME("H323-UserInformation") SEQ, 1, 2, 2, DECODE | EXT,
845 		0, _H323_UserInformation
846 	};
847 	struct bitstr bs;
848 
849 	bs.buf = buf;
850 	bs.beg = bs.cur = beg;
851 	bs.end = beg + sz;
852 	bs.bit = 0;
853 
854 	return decode_seq(&bs, &h323_userinformation, (char *) uuie, 0);
855 }
856 
DecodeMultimediaSystemControlMessage(unsigned char * buf,size_t sz,MultimediaSystemControlMessage * mscm)857 int DecodeMultimediaSystemControlMessage(unsigned char *buf, size_t sz,
858 					 MultimediaSystemControlMessage *
859 					 mscm)
860 {
861 	static const struct field_t multimediasystemcontrolmessage = {
862 		FNAME("MultimediaSystemControlMessage") CHOICE, 2, 4, 4,
863 		DECODE | EXT, 0, _MultimediaSystemControlMessage
864 	};
865 	struct bitstr bs;
866 
867 	bs.buf = bs.beg = bs.cur = buf;
868 	bs.end = buf + sz;
869 	bs.bit = 0;
870 
871 	return decode_choice(&bs, &multimediasystemcontrolmessage,
872 			     (char *) mscm, 0);
873 }
874 
DecodeQ931(unsigned char * buf,size_t sz,Q931 * q931)875 int DecodeQ931(unsigned char *buf, size_t sz, Q931 *q931)
876 {
877 	unsigned char *p = buf;
878 	int len;
879 
880 	if (!p || sz < 1)
881 		return H323_ERROR_BOUND;
882 
883 	/* Protocol Discriminator */
884 	if (*p != 0x08) {
885 		PRINT("Unknown Protocol Discriminator\n");
886 		return H323_ERROR_RANGE;
887 	}
888 	p++;
889 	sz--;
890 
891 	/* CallReferenceValue */
892 	if (sz < 1)
893 		return H323_ERROR_BOUND;
894 	len = *p++;
895 	sz--;
896 	if (sz < len)
897 		return H323_ERROR_BOUND;
898 	p += len;
899 	sz -= len;
900 
901 	/* Message Type */
902 	if (sz < 2)
903 		return H323_ERROR_BOUND;
904 	q931->MessageType = *p++;
905 	sz--;
906 	PRINT("MessageType = %02X\n", q931->MessageType);
907 	if (*p & 0x80) {
908 		p++;
909 		sz--;
910 	}
911 
912 	/* Decode Information Elements */
913 	while (sz > 0) {
914 		if (*p == 0x7e) {	/* UserUserIE */
915 			if (sz < 3)
916 				break;
917 			p++;
918 			len = *p++ << 8;
919 			len |= *p++;
920 			sz -= 3;
921 			if (sz < len)
922 				break;
923 			p++;
924 			len--;
925 			return DecodeH323_UserInformation(buf, p, len,
926 							  &q931->UUIE);
927 		}
928 		p++;
929 		sz--;
930 		if (sz < 1)
931 			break;
932 		len = *p++;
933 		sz--;
934 		if (sz < len)
935 			break;
936 		p += len;
937 		sz -= len;
938 	}
939 
940 	PRINT("Q.931 UUIE not found\n");
941 
942 	return H323_ERROR_BOUND;
943 }
944