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/cvs/Convert-BER-XS/XS.xs
Revision: 1.11
Committed: Sat Apr 20 12:25:23 2019 UTC (5 years, 1 month ago) by root
Branch: MAIN
Changes since 1.10: +7 -4 lines
Log Message: 
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File Contents

# Content
1 #include "EXTERN.h"
2 #include "perl.h"
3 #include "XSUB.h"
4
5 // C99 required
6
7 enum {
8 // ASN_TAG
9 ASN_BOOLEAN = 0x01,
10 ASN_INTEGER32 = 0x02,
11 ASN_BIT_STRING = 0x03,
12 ASN_OCTET_STRING = 0x04,
13 ASN_NULL = 0x05,
14 ASN_OBJECT_IDENTIFIER = 0x06,
15 ASN_OID = 0x06,
16 ASN_OBJECT_DESCRIPTOR = 0x07,
17 ASN_EXTERNAL = 0x08,
18 ASN_REAL = 0x09,
19 ASN_ENUMERATED = 0x0a,
20 ASN_EMBEDDED_PDV = 0x0b,
21 ASN_UTF8_STRING = 0x0c,
22 ASN_RELATIVE_OID = 0x0d,
23 ASN_SEQUENCE = 0x10,
24 ASN_SET = 0x11,
25 ASN_NUMERIC_STRING = 0x12,
26 ASN_PRINTABLE_STRING = 0x13,
27 ASN_TELETEX_STRING = 0x14,
28 ASN_T61_STRING = 0x14,
29 ASN_VIDEOTEX_STRING = 0x15,
30 ASN_IA5_STRING = 0x16,
31 ASN_ASCII_STRING = 0x16,
32 ASN_UTC_TIME = 0x17,
33 ASN_GENERALIZED_TIME = 0x18,
34 ASN_GRAPHIC_STRING = 0x19,
35 ASN_VISIBLE_STRING = 0x1a,
36 ASN_ISO646_STRING = 0x1a,
37 ASN_GENERAL_STRING = 0x1b,
38 ASN_UNIVERSAL_STRING = 0x1c,
39 ASN_CHARACTER_STRING = 0x1d,
40 ASN_BMP_STRING = 0x1e,
41
42 ASN_TAG_BER = 0x1f,
43 ASN_TAG_MASK = 0x1f,
44
45 // primitive/constructed
46 ASN_CONSTRUCTED = 0x20,
47
48 // ASN_CLASS
49 ASN_UNIVERSAL = 0x00,
50 ASN_APPLICATION = 0x01,
51 ASN_CONTEXT = 0x02,
52 ASN_PRIVATE = 0x03,
53
54 ASN_CLASS_MASK = 0xc0,
55 ASN_CLASS_SHIFT = 6,
56
57 // ASN_APPLICATION SNMP
58 SNMP_IPADDRESS = 0x00,
59 SNMP_COUNTER32 = 0x01,
60 SNMP_UNSIGNED32 = 0x02,
61 SNMP_TIMETICKS = 0x03,
62 SNMP_OPAQUE = 0x04,
63 SNMP_COUNTER64 = 0x06,
64 };
65
66 enum {
67 BER_TYPE_BYTES,
68 BER_TYPE_UTF8,
69 BER_TYPE_UCS2,
70 BER_TYPE_UCS4,
71 BER_TYPE_INT,
72 BER_TYPE_OID,
73 BER_TYPE_RELOID,
74 BER_TYPE_NULL,
75 BER_TYPE_BOOL,
76 BER_TYPE_REAL,
77 BER_TYPE_IPADDRESS,
78 BER_TYPE_CROAK,
79 };
80
81 enum {
82 BER_CLASS = 0,
83 BER_TAG = 1,
84 BER_CONSTRUCTED = 2,
85 BER_DATA = 3,
86 BER_ARRAYSIZE
87 };
88
89 #define MAX_OID_STRLEN 4096
90
91 typedef void profile_type;
92
93 static profile_type *cur_profile, *default_profile;
94 static SV *buf_sv; // encoding buffer
95 static U8 *buf, *cur, *end; // buffer start, current, end
96
97 #if PERL_VERSION < 18
98 # define utf8_to_uvchr_buf(s,e,l) utf8_to_uvchr (s, l)
99 #endif
100
101 #if __GNUC__ >= 3
102 # define expect(expr,value) __builtin_expect ((expr), (value))
103 # define INLINE static inline
104 #else
105 # define expect(expr,value) (expr)
106 # define INLINE static
107 #endif
108
109 #define expect_false(expr) expect ((expr) != 0, 0)
110 #define expect_true(expr) expect ((expr) != 0, 1)
111
112 /////////////////////////////////////////////////////////////////////////////
113
114 static SV *sviv_cache[32];
115
116 // for "small" integers, return a readonly sv, otherwise create a new one
117 static SV *newSVcacheint (int val)
118 {
119 if (expect_false (val < 0 || val >= sizeof (sviv_cache)))
120 return newSViv (val);
121
122 if (expect_false (!sviv_cache [val]))
123 {
124 sviv_cache [val] = newSVuv (val);
125 SvREADONLY_on (sviv_cache [val]);
126 }
127
128 return SvREFCNT_inc_NN (sviv_cache [val]);
129 }
130
131 /////////////////////////////////////////////////////////////////////////////
132
133 static HV *profile_stash;
134
135 static profile_type *
136 SvPROFILE (SV *profile)
137 {
138 if (!SvOK (profile))
139 return default_profile;
140
141 if (!SvROK (profile))
142 croak ("invalid profile");
143
144 profile = SvRV (profile);
145
146 if (SvSTASH (profile) != profile_stash)
147 croak ("invalid profile object");
148
149 return (void *)profile;
150 }
151
152 static int
153 profile_lookup (profile_type *profile, int klass, int tag)
154 {
155 SV *sv = (SV *)profile;
156 U32 idx = (tag << 2) + klass;
157
158 if (expect_false (idx >= SvCUR (sv)))
159 return BER_TYPE_BYTES;
160
161 return SvPVX (sv)[idx];
162 }
163
164 static void
165 profile_set (profile_type *profile, int klass, int tag, int type)
166 {
167 SV *sv = (SV *)profile;
168 U32 idx = (tag << 2) + klass;
169 STRLEN oldlen = SvCUR (sv);
170 STRLEN newlen = idx + 2;
171
172 if (idx >= oldlen)
173 {
174 sv_grow (sv, newlen);
175 memset (SvPVX (sv) + oldlen, BER_TYPE_BYTES, newlen - oldlen);
176 SvCUR_set (sv, newlen);
177 }
178
179 SvPVX (sv)[idx] = type;
180 }
181
182 static SV *
183 profile_new ()
184 {
185 SV *sv = newSVpvn ("", 0);
186
187 static const struct {
188 int klass;
189 int tag;
190 int type;
191 } *celem, default_map[] = {
192 { ASN_UNIVERSAL, ASN_BOOLEAN , BER_TYPE_BOOL },
193 { ASN_UNIVERSAL, ASN_INTEGER32 , BER_TYPE_INT },
194 { ASN_UNIVERSAL, ASN_NULL , BER_TYPE_NULL },
195 { ASN_UNIVERSAL, ASN_OBJECT_IDENTIFIER, BER_TYPE_OID },
196 { ASN_UNIVERSAL, ASN_OBJECT_DESCRIPTOR, BER_TYPE_OID },
197 { ASN_UNIVERSAL, ASN_RELATIVE_OID , BER_TYPE_RELOID },
198 { ASN_UNIVERSAL, ASN_REAL , BER_TYPE_REAL },
199 { ASN_UNIVERSAL, ASN_UTF8_STRING , BER_TYPE_UTF8 },
200 { ASN_UNIVERSAL, ASN_BMP_STRING , BER_TYPE_UCS2 },
201 { ASN_UNIVERSAL, ASN_UNIVERSAL_STRING , BER_TYPE_UCS4 },
202 };
203
204 for (celem = default_map + sizeof (default_map) / sizeof (default_map [0]); celem-- > default_map; )
205 profile_set ((profile_type *)sv, celem->klass, celem->tag, celem->type);
206
207 return sv_bless (newRV_noinc (sv), profile_stash);
208 }
209
210 /////////////////////////////////////////////////////////////////////////////
211 // decoder
212
213 static void
214 error (const char *errmsg)
215 {
216 croak ("%s at offset 0x%04x", errmsg, cur - buf);
217 }
218
219 static void
220 want (UV count)
221 {
222 if (expect_false ((uintptr_t)(end - cur) < count))
223 error ("unexpected end of message buffer");
224 }
225
226 // get_* functions fetch something from the buffer
227 // decode_* functions use get_* fun ctions to decode ber values
228
229 // get n octets
230 static U8 *
231 get_n (UV count)
232 {
233 want (count);
234 U8 *res = cur;
235 cur += count;
236 return res;
237 }
238
239 // get single octet
240 static U8
241 get_u8 (void)
242 {
243 if (cur == end)
244 error ("unexpected end of message buffer");
245
246 return *cur++;
247 }
248
249 // get ber-encoded integer (i.e. pack "w")
250 static U32
251 get_w (void)
252 {
253 U32 res = 0;
254
255 for (;;)
256 {
257 U8 c = get_u8 ();
258 res = (res << 7) | (c & 0x7f);
259
260 if (!(c & 0x80))
261 return res;
262 }
263 }
264
265 static U32
266 get_length (void)
267 {
268 U32 res = get_u8 ();
269
270 if (res & 0x80)
271 {
272 int cnt = res & 0x7f;
273 res = 0;
274
275 switch (cnt)
276 {
277 case 0:
278 error ("indefinite ASN.1 lengths not supported");
279 return 0;
280
281 default:
282 error ("ASN.1 length too long");
283 return 0;
284
285 case 4: res = (res << 8) | get_u8 ();
286 case 3: res = (res << 8) | get_u8 ();
287 case 2: res = (res << 8) | get_u8 ();
288 case 1: res = (res << 8) | get_u8 ();
289 }
290 }
291
292 return res;
293 }
294
295 static SV *
296 decode_int ()
297 {
298 int len = get_length ();
299
300 if (len <= 0)
301 {
302 error ("integer length equal to zero");
303 return 0;
304 }
305
306 U8 *data = get_n (len);
307
308 int negative = data [0] & 0x80;
309
310 UV val = negative ? -1 : 0; // copy signbit to all bits
311
312 do
313 val = (val << 8) | *data++;
314 while (--len);
315
316 // the cast to IV relies on implementation-defined behaviour (two's complement cast)
317 // but that's ok, as perl relies on it as well.
318 return negative ? newSViv ((IV)val) : newSVuv (val);
319 }
320
321 static SV *
322 decode_data (void)
323 {
324 U32 len = get_length ();
325 U8 *data = get_n (len);
326 return newSVpvn ((char *)data, len);
327 }
328
329 // gelper for decode_object_identifier
330 static char *
331 write_uv (char *buf, U32 u)
332 {
333 // the one-digit case is absolutely predominant, so this pays off (hopefully)
334 if (expect_true (u < 10))
335 *buf++ = u + '0';
336 else
337 {
338 char *beg = buf;
339
340 do
341 {
342 *buf++ = u % 10 + '0';
343 u /= 10;
344 }
345 while (u);
346
347 // reverse digits
348 char *ptr = buf;
349 while (--ptr != beg)
350 {
351 char c = *ptr;
352 *ptr = *beg;
353 *beg = c;
354 ++beg;
355 }
356 }
357
358 return buf;
359 }
360
361 static SV *
362 decode_oid (int relative)
363 {
364 U32 len = get_length ();
365
366 if (len <= 0)
367 {
368 error ("OBJECT IDENTIFIER length equal to zero");
369 return &PL_sv_undef;
370 }
371
372 U8 *end = cur + len;
373 U32 w = get_w ();
374
375 static char oid[MAX_OID_STRLEN]; // must be static
376 char *app = oid;
377
378 if (relative)
379 app = write_uv (app, w);
380 else
381 {
382 app = write_uv (app, (U8)w / 40);
383 *app++ = '.';
384 app = write_uv (app, (U8)w % 40);
385 }
386
387 // we assume an oid component is never > 64 bytes
388 while (cur < end && oid + sizeof (oid) - app > 64)
389 {
390 w = get_w ();
391 *app++ = '.';
392 app = write_uv (app, w);
393 }
394
395 return newSVpvn (oid, app - oid);
396 }
397
398 // TODO: this is unacceptably slow
399 static SV *
400 decode_ucs (int chrsize)
401 {
402 SV *res = NEWSV (0, 0);
403
404 U32 len = get_length ();
405
406 if (len & (chrsize - 1))
407 croak ("BER_TYPE_UCS has an invalid number of octets (%d)", len);
408
409 while (len)
410 {
411 U8 b1 = get_u8 ();
412 U8 b2 = get_u8 ();
413 U32 chr = (b1 << 8) | b2;
414
415 if (chrsize == 4)
416 {
417 U8 b3 = get_u8 ();
418 U8 b4 = get_u8 ();
419 chr = (chr << 16) | (b3 << 8) | b4;
420 }
421
422 U8 uchr [UTF8_MAXBYTES];
423 int uclen = uvuni_to_utf8 (uchr, chr) - uchr;
424
425 sv_catpvn (res, (const char *)uchr, uclen);
426 len -= chrsize;
427 }
428
429 SvUTF8_on (res);
430
431 return res;
432 }
433
434 static SV *
435 decode_ber ()
436 {
437 int identifier = get_u8 ();
438
439 SV *res;
440
441 int constructed = identifier & ASN_CONSTRUCTED;
442 int klass = (identifier & ASN_CLASS_MASK) >> ASN_CLASS_SHIFT;
443 int tag = identifier & ASN_TAG_MASK;
444
445 if (tag == ASN_TAG_BER)
446 tag = get_w ();
447
448 if (tag == ASN_TAG_BER)
449 tag = get_w ();
450
451 if (constructed)
452 {
453 U32 len = get_length ();
454 U32 seqend = (cur - buf) + len;
455 AV *av = (AV *)sv_2mortal ((SV *)newAV ());
456
457 while (cur < buf + seqend)
458 av_push (av, decode_ber ());
459
460 if (cur > buf + seqend)
461 croak ("constructed type %02x overflow (%x %x)\n", identifier, cur - buf, seqend);
462
463 res = newRV_inc ((SV *)av);
464 }
465 else
466 switch (profile_lookup (cur_profile, klass, tag))
467 {
468 case BER_TYPE_NULL:
469 res = &PL_sv_undef;
470 break;
471
472 case BER_TYPE_BOOL:
473 {
474 U32 len = get_length ();
475
476 if (len != 1)
477 croak ("BER_TYPE_BOOLEAN type with invalid length %d encountered", len);
478
479 res = newSVcacheint (get_u8 () ? 0 : 1);
480 }
481 break;
482
483 case BER_TYPE_OID:
484 res = decode_oid (0);
485 break;
486
487 case BER_TYPE_RELOID:
488 res = decode_oid (1);
489 break;
490
491 case BER_TYPE_INT:
492 res = decode_int ();
493 break;
494
495 case BER_TYPE_UTF8:
496 res = decode_data ();
497 SvUTF8_on (res);
498 break;
499
500 case BER_TYPE_BYTES:
501 res = decode_data ();
502 break;
503
504 case BER_TYPE_IPADDRESS:
505 {
506 U32 len = get_length ();
507
508 if (len != 4)
509 croak ("BER_TYPE_IPADDRESS type with invalid length %d encountered", len);
510
511 U8 c1 = get_u8 ();
512 U8 c2 = get_u8 ();
513 U8 c3 = get_u8 ();
514 U8 c4 = get_u8 ();
515
516 res = newSVpvf ("%d.%d.%d.%d", c1, c2, c3, c4);
517 }
518 break;
519
520 case BER_TYPE_UCS2:
521 res = decode_ucs (2);
522 break;
523
524 case BER_TYPE_UCS4:
525 res = decode_ucs (4);
526 break;
527
528 case BER_TYPE_REAL:
529 case BER_TYPE_CROAK:
530 default:
531 croak ("unconfigured/unsupported class/tag %d/%d", klass, tag);
532 }
533
534 AV *av = newAV ();
535 av_fill (av, BER_ARRAYSIZE - 1);
536 AvARRAY (av)[BER_CLASS ] = newSVcacheint (klass);
537 AvARRAY (av)[BER_TAG ] = newSVcacheint (tag);
538 AvARRAY (av)[BER_CONSTRUCTED] = newSVcacheint (constructed ? 1 : 0);
539 AvARRAY (av)[BER_DATA ] = res;
540
541 return newRV_noinc ((SV *)av);
542 }
543
544 /////////////////////////////////////////////////////////////////////////////
545 // encoder
546
547 /* adds two STRLENs together, slow, and with paranoia */
548 static STRLEN
549 strlen_sum (STRLEN l1, STRLEN l2)
550 {
551 size_t sum = l1 + l2;
552
553 if (sum < (size_t)l2 || sum != (size_t)(STRLEN)sum)
554 croak ("JSON::XS: string size overflow");
555
556 return sum;
557 }
558
559 static void
560 set_buf (SV *sv)
561 {
562 STRLEN len;
563 buf_sv = sv;
564 buf = (U8 *)SvPVbyte (buf_sv, len);
565 cur = buf;
566 end = buf + len;
567 }
568
569 /* similar to SvGROW, but somewhat safer and guarantees exponential realloc strategy */
570 static char *
571 my_sv_grow (SV *sv, size_t len1, size_t len2)
572 {
573 len1 = strlen_sum (len1, len2);
574 len1 = strlen_sum (len1, len1 >> 1);
575
576 if (len1 > 4096 - 24)
577 len1 = (len1 | 4095) - 24;
578
579 return SvGROW (sv, len1);
580 }
581
582 static void
583 need (STRLEN len)
584 {
585 if (expect_false ((uintptr_t)(end - cur) < len))
586 {
587 STRLEN pos = cur - buf;
588 buf = (U8 *)my_sv_grow (buf_sv, pos, len);
589 cur = buf + pos;
590 end = buf + SvLEN (buf_sv) - 1;
591 }
592 }
593
594 static void
595 put_u8 (int val)
596 {
597 need (1);
598 *cur++ = val;
599 }
600
601 static void
602 put_w_nocheck (U32 val)
603 {
604 *cur = (val >> 7 * 4) | 0x80; cur += val >= (1 << (7 * 4));
605 *cur = (val >> 7 * 3) | 0x80; cur += val >= (1 << (7 * 3));
606 *cur = (val >> 7 * 2) | 0x80; cur += val >= (1 << (7 * 2));
607 *cur = (val >> 7 * 1) | 0x80; cur += val >= (1 << (7 * 1));
608 *cur = val & 0x7f; cur += 1;
609 }
610
611 static void
612 put_w (U32 val)
613 {
614 need (5); // we only handle up to 5 bytes
615
616 put_w_nocheck (val);
617 }
618
619 static U8 *
620 put_length_at (U32 val, U8 *cur)
621 {
622 if (val < 0x7fU)
623 *cur++ = val;
624 else
625 {
626 U8 *lenb = cur++;
627
628 *cur = val >> 24; cur += *cur > 0;
629 *cur = val >> 16; cur += *cur > 0;
630 *cur = val >> 8; cur += *cur > 0;
631 *cur = val ; cur += 1;
632
633 *lenb = 0x80 + cur - lenb - 1;
634 }
635
636 return cur;
637 }
638
639 static void
640 put_length (U32 val)
641 {
642 need (5 + val);
643 cur = put_length_at (val, cur);
644 }
645
646 // return how many bytes the encoded length requires
647 static int length_length (U32 val)
648 {
649 return val < 0x7fU
650 ? 1
651 : 2 + (val > 0xffU) + (val > 0xffffU) + (val > 0xffffffU);
652 }
653
654 static void
655 encode_data (const char *ptr, STRLEN len)
656 {
657 put_length (len);
658 memcpy (cur, ptr, len);
659 cur += len;
660 }
661
662 static void
663 encode_uv (UV uv)
664 {
665 }
666
667 static void
668 encode_int (SV *sv)
669 {
670 need (8 + 1 + 1); // 64 bit + length + extra 0
671
672 if (expect_false (!SvIOK (sv)))
673 sv_2iv_flags (sv, 0);
674
675 U8 *lenb = cur++;
676
677 if (SvIOK_notUV (sv))
678 {
679 IV iv = SvIVX (sv);
680
681 if (expect_false (iv < 0))
682 {
683 // get two's complement bit pattern - works even on hypothetical non-2c machines
684 UV uv = iv;
685
686 #if UVSIZE > 4
687 *cur = uv >> 56; cur += !!(~uv & 0xff80000000000000U);
688 *cur = uv >> 48; cur += !!(~uv & 0xffff800000000000U);
689 *cur = uv >> 40; cur += !!(~uv & 0xffffff8000000000U);
690 *cur = uv >> 32; cur += !!(~uv & 0xffffffff80000000U);
691 #endif
692 *cur = uv >> 24; cur += !!(~uv & 0xffffffffff800000U);
693 *cur = uv >> 16; cur += !!(~uv & 0xffffffffffff8000U);
694 *cur = uv >> 8; cur += !!(~uv & 0xffffffffffffff80U);
695 *cur = uv ; cur += 1;
696
697 *lenb = cur - lenb - 1;
698
699 return;
700 }
701 }
702
703 UV uv = SvUV (sv);
704
705 // prepend an extra 0 if the high bit is 1
706 *cur = 0; cur += !!(uv & ((UV)1 << (UVSIZE * 8 - 1)));
707
708 #if UVSIZE > 4
709 *cur = uv >> 56; cur += !!(uv & 0xff80000000000000U);
710 *cur = uv >> 48; cur += !!(uv & 0xffff800000000000U);
711 *cur = uv >> 40; cur += !!(uv & 0xffffff8000000000U);
712 *cur = uv >> 32; cur += !!(uv & 0xffffffff80000000U);
713 #endif
714 *cur = uv >> 24; cur += !!(uv & 0xffffffffff800000U);
715 *cur = uv >> 16; cur += !!(uv & 0xffffffffffff8000U);
716 *cur = uv >> 8; cur += !!(uv & 0xffffffffffffff80U);
717 *cur = uv ; cur += 1;
718
719 *lenb = cur - lenb - 1;
720 }
721
722 // we don't know the length yet, so we optimistically
723 // assume the length will need one octet later. if that
724 // turns out to be wrong, we memove as needed.
725 // mark the beginning
726 static STRLEN
727 len_fixup_mark ()
728 {
729 return cur++ - buf;
730 }
731
732 // patch up the length
733 static void
734 len_fixup (STRLEN mark)
735 {
736 STRLEN reallen = (cur - buf) - mark - 1;
737 int lenlen = length_length (reallen);
738
739 if (expect_false (lenlen > 1))
740 {
741 // bad luck, we have to shift the bytes to make room for the length
742 need (5);
743 memmove (buf + mark + lenlen, buf + mark + 1, reallen);
744 cur += lenlen - 1;
745 }
746
747 put_length_at (reallen, buf + mark);
748 }
749
750 static char *
751 read_uv (char *str, UV *uv)
752 {
753 UV r = 0;
754
755 while (*str >= '0')
756 r = r * 10 + *str++ - '0';
757
758 *uv = r;
759
760 str += !!*str; // advance over any non-zero byte
761
762 return str;
763 }
764
765 static void
766 encode_oid (SV *oid, int relative)
767 {
768 STRLEN len;
769 char *ptr = SvPV (oid, len); // utf8 vs. bytes does not matter
770
771 // we need at most as many octets as the string form
772 need (len + 1);
773 STRLEN mark = len_fixup_mark ();
774
775 UV w1, w2;
776
777 if (!relative)
778 {
779 ptr = read_uv (ptr, &w1);
780 ptr = read_uv (ptr, &w2);
781
782 put_w_nocheck (w1 * 40 + w2);
783 }
784
785 while (*ptr)
786 {
787 ptr = read_uv (ptr, &w1);
788 put_w_nocheck (w1);
789 }
790
791 len_fixup (mark);
792 }
793
794 // check whether an SV is a BER tuple and returns its AV *
795 static AV *
796 ber_tuple (SV *tuple)
797 {
798 SV *rv;
799
800 if (expect_false (!SvROK (tuple) || SvTYPE ((rv = SvRV (tuple))) != SVt_PVAV))
801 croak ("BER tuple must be array-reference");
802
803 if (expect_false (SvRMAGICAL (rv)))
804 croak ("BER tuple must not be tied");
805
806 if (expect_false (AvFILL ((AV *)rv) != BER_ARRAYSIZE - 1))
807 croak ("BER tuple must contain exactly %d elements, not %d", BER_ARRAYSIZE, AvFILL ((AV *)rv) + 1);
808
809 return (AV *)rv;
810 }
811
812 static void
813 encode_ucs (SV *data, int chrsize)
814 {
815 STRLEN uchars = sv_len_utf8 (data);
816 STRLEN len;;
817 char *ptr = SvPVutf8 (data, len);
818
819 put_length (uchars * chrsize);
820
821 while (uchars--)
822 {
823 STRLEN uclen;
824 UV uchr = utf8_to_uvchr_buf ((U8 *)ptr, (U8 *)ptr + len, &uclen);
825
826 ptr += uclen;
827 len -= uclen;
828
829 if (chrsize == 4)
830 {
831 *cur++ = uchr >> 24;
832 *cur++ = uchr >> 16;
833 }
834
835 *cur++ = uchr >> 8;
836 *cur++ = uchr;
837 }
838 }
839 static void
840 encode_ber (SV *tuple)
841 {
842 AV *av = ber_tuple (tuple);
843
844 int klass = SvIV (AvARRAY (av)[BER_CLASS]);
845 int tag = SvIV (AvARRAY (av)[BER_TAG]);
846 int constructed = SvIV (AvARRAY (av)[BER_CONSTRUCTED]) ? ASN_CONSTRUCTED : 0;
847 SV *data = AvARRAY (av)[BER_DATA];
848
849 int identifier = (klass << ASN_CLASS_SHIFT) | constructed;
850
851 if (expect_false (tag >= ASN_TAG_BER))
852 {
853 put_u8 (identifier | ASN_TAG_BER);
854 put_w (tag);
855 }
856 else
857 put_u8 (identifier | tag);
858
859 if (constructed)
860 {
861 // we optimistically assume that only one length byte is needed
862 // and adjust later
863 need (1);
864 STRLEN mark = len_fixup_mark ();
865
866 if (expect_false (!SvROK (data) || SvTYPE (SvRV (data)) != SVt_PVAV))
867 croak ("BER constructed data must be array-reference");
868
869 AV *av = (AV *)SvRV (data);
870 int fill = AvFILL (av);
871
872 if (expect_false (SvRMAGICAL (av)))
873 croak ("BER constructed data must not be tied");
874
875 int i;
876 for (i = 0; i <= fill; ++i)
877 encode_ber (AvARRAY (av)[i]);
878
879 len_fixup (mark);
880 }
881 else
882 switch (profile_lookup (cur_profile, klass, tag))
883 {
884 case BER_TYPE_NULL:
885 put_length (0);
886 break;
887
888 case BER_TYPE_BOOL:
889 put_length (1);
890 *cur++ = SvTRUE (data) ? 0xff : 0x00;
891 break;
892
893 case BER_TYPE_OID:
894 encode_oid (data, 0);
895 break;
896
897 case BER_TYPE_RELOID:
898 encode_oid (data, 1);
899 break;
900
901 case BER_TYPE_INT:
902 encode_int (data);
903 break;
904
905 case BER_TYPE_BYTES:
906 {
907 STRLEN len;
908 const char *ptr = SvPVbyte (data, len);
909 encode_data (ptr, len);
910 }
911 break;
912
913 case BER_TYPE_UTF8:
914 {
915 STRLEN len;
916 const char *ptr = SvPVutf8 (data, len);
917 encode_data (ptr, len);
918 }
919 break;
920
921 case BER_TYPE_IPADDRESS:
922 {
923 U8 ip[4];
924 sscanf (SvPV_nolen (data), "%hhu.%hhu.%hhu.%hhu", ip + 0, ip + 1, ip + 2, ip + 3);
925 encode_data ((const char *)ip, sizeof (ip));
926 }
927 break;
928
929 case BER_TYPE_UCS2:
930 encode_ucs (data, 2);
931 break;
932
933 case BER_TYPE_UCS4:
934 encode_ucs (data, 4);
935 break;
936
937 case BER_TYPE_REAL:
938 case BER_TYPE_CROAK:
939 default:
940 croak ("unconfigured/unsupported class/tag %d/%d", klass, tag);
941 }
942
943 }
944
945 /////////////////////////////////////////////////////////////////////////////
946
947 MODULE = Convert::BER::XS PACKAGE = Convert::BER::XS
948
949 PROTOTYPES: ENABLE
950
951 BOOT:
952 {
953 HV *stash = gv_stashpv ("Convert::BER::XS", 1);
954
955 profile_stash = gv_stashpv ("Convert::BER::XS::Profile", 1);
956
957 static const struct {
958 const char *name;
959 IV iv;
960 } *civ, const_iv[] = {
961 #define const_iv(name) { # name, name },
962 const_iv (ASN_BOOLEAN)
963 const_iv (ASN_INTEGER32)
964 const_iv (ASN_BIT_STRING)
965 const_iv (ASN_OCTET_STRING)
966 const_iv (ASN_NULL)
967 const_iv (ASN_OBJECT_IDENTIFIER)
968 const_iv (ASN_OBJECT_DESCRIPTOR)
969 const_iv (ASN_OID)
970 const_iv (ASN_EXTERNAL)
971 const_iv (ASN_REAL)
972 const_iv (ASN_SEQUENCE)
973 const_iv (ASN_ENUMERATED)
974 const_iv (ASN_EMBEDDED_PDV)
975 const_iv (ASN_UTF8_STRING)
976 const_iv (ASN_RELATIVE_OID)
977 const_iv (ASN_SET)
978 const_iv (ASN_NUMERIC_STRING)
979 const_iv (ASN_PRINTABLE_STRING)
980 const_iv (ASN_TELETEX_STRING)
981 const_iv (ASN_T61_STRING)
982 const_iv (ASN_VIDEOTEX_STRING)
983 const_iv (ASN_IA5_STRING)
984 const_iv (ASN_ASCII_STRING)
985 const_iv (ASN_UTC_TIME)
986 const_iv (ASN_GENERALIZED_TIME)
987 const_iv (ASN_GRAPHIC_STRING)
988 const_iv (ASN_VISIBLE_STRING)
989 const_iv (ASN_ISO646_STRING)
990 const_iv (ASN_GENERAL_STRING)
991 const_iv (ASN_UNIVERSAL_STRING)
992 const_iv (ASN_CHARACTER_STRING)
993 const_iv (ASN_BMP_STRING)
994
995 const_iv (ASN_UNIVERSAL)
996 const_iv (ASN_APPLICATION)
997 const_iv (ASN_CONTEXT)
998 const_iv (ASN_PRIVATE)
999
1000 const_iv (BER_CLASS)
1001 const_iv (BER_TAG)
1002 const_iv (BER_CONSTRUCTED)
1003 const_iv (BER_DATA)
1004
1005 const_iv (BER_TYPE_BYTES)
1006 const_iv (BER_TYPE_UTF8)
1007 const_iv (BER_TYPE_UCS2)
1008 const_iv (BER_TYPE_UCS4)
1009 const_iv (BER_TYPE_INT)
1010 const_iv (BER_TYPE_OID)
1011 const_iv (BER_TYPE_RELOID)
1012 const_iv (BER_TYPE_NULL)
1013 const_iv (BER_TYPE_BOOL)
1014 const_iv (BER_TYPE_REAL)
1015 const_iv (BER_TYPE_IPADDRESS)
1016 const_iv (BER_TYPE_CROAK)
1017
1018 const_iv (SNMP_IPADDRESS)
1019 const_iv (SNMP_COUNTER32)
1020 const_iv (SNMP_UNSIGNED32)
1021 const_iv (SNMP_TIMETICKS)
1022 const_iv (SNMP_OPAQUE)
1023 const_iv (SNMP_COUNTER64)
1024 };
1025
1026 for (civ = const_iv + sizeof (const_iv) / sizeof (const_iv [0]); civ > const_iv; civ--)
1027 newCONSTSUB (stash, (char *)civ[-1].name, newSViv (civ[-1].iv));
1028 }
1029
1030 SV *
1031 ber_decode (SV *ber, SV *profile = &PL_sv_undef)
1032 CODE:
1033 {
1034 cur_profile = SvPROFILE (profile);
1035 STRLEN len;
1036 buf = (U8 *)SvPVbyte (ber, len);
1037 cur = buf;
1038 end = buf + len;
1039
1040 RETVAL = decode_ber ();
1041 }
1042 OUTPUT: RETVAL
1043
1044 void
1045 ber_is (SV *tuple, SV *klass = &PL_sv_undef, SV *tag = &PL_sv_undef, SV *constructed = &PL_sv_undef, SV *data = &PL_sv_undef)
1046 PPCODE:
1047 {
1048 if (!SvOK (tuple))
1049 XSRETURN_NO;
1050
1051 if (!SvROK (tuple) || SvTYPE (SvRV (tuple)) != SVt_PVAV)
1052 croak ("ber_is: tuple must be BER tuple (array-ref)");
1053
1054 AV *av = (AV *)SvRV (tuple);
1055
1056 XPUSHs (
1057 (!SvOK (klass) || SvIV (AvARRAY (av)[BER_CLASS ]) == SvIV (klass))
1058 && (!SvOK (tag) || SvIV (AvARRAY (av)[BER_TAG ]) == SvIV (tag))
1059 && (!SvOK (constructed) || !SvIV (AvARRAY (av)[BER_CONSTRUCTED]) == !SvIV (constructed))
1060 && (!SvOK (data) || sv_eq (AvARRAY (av)[BER_DATA ], data))
1061 ? &PL_sv_yes : &PL_sv_undef);
1062 }
1063
1064 void
1065 ber_is_seq (SV *tuple)
1066 PPCODE:
1067 {
1068 if (!SvOK (tuple))
1069 XSRETURN_UNDEF;
1070
1071 AV *av = ber_tuple (tuple);
1072
1073 XPUSHs (
1074 SvIV (AvARRAY (av)[BER_CLASS ]) == ASN_UNIVERSAL
1075 && SvIV (AvARRAY (av)[BER_TAG ]) == ASN_SEQUENCE
1076 && SvIV (AvARRAY (av)[BER_CONSTRUCTED])
1077 ? AvARRAY (av)[BER_DATA] : &PL_sv_undef);
1078 }
1079
1080 void
1081 ber_is_i32 (SV *tuple, SV *value = &PL_sv_undef)
1082 PPCODE:
1083 {
1084 if (!SvOK (tuple))
1085 XSRETURN_NO;
1086
1087 AV *av = ber_tuple (tuple);
1088
1089 IV data = SvIV (AvARRAY (av)[BER_DATA]);
1090
1091 XPUSHs (
1092 SvIV (AvARRAY (av)[BER_CLASS ]) == ASN_UNIVERSAL
1093 && SvIV (AvARRAY (av)[BER_TAG ]) == ASN_INTEGER32
1094 && !SvIV (AvARRAY (av)[BER_CONSTRUCTED])
1095 && (!SvOK (value) || data == SvIV (value))
1096 ? sv_2mortal (data ? newSViv (data) : newSVpv ("0 but true", 0))
1097 : &PL_sv_undef);
1098 }
1099
1100 void
1101 ber_is_oid (SV *tuple, SV *oid = &PL_sv_undef)
1102 PPCODE:
1103 {
1104 if (!SvOK (tuple))
1105 XSRETURN_NO;
1106
1107 AV *av = ber_tuple (tuple);
1108
1109 XPUSHs (
1110 SvIV (AvARRAY (av)[BER_CLASS ]) == ASN_UNIVERSAL
1111 && SvIV (AvARRAY (av)[BER_TAG ]) == ASN_OBJECT_IDENTIFIER
1112 && !SvIV (AvARRAY (av)[BER_CONSTRUCTED])
1113 && (!SvOK (oid) || sv_eq (AvARRAY (av)[BER_DATA], oid))
1114 ? newSVsv (AvARRAY (av)[BER_DATA]) : &PL_sv_undef);
1115 }
1116
1117 #############################################################################
1118
1119 void
1120 ber_encode (SV *tuple, SV *profile = &PL_sv_undef)
1121 PPCODE:
1122 {
1123 cur_profile = SvPROFILE (profile);
1124 buf_sv = sv_2mortal (NEWSV (0, 256));
1125 SvPOK_only (buf_sv);
1126 set_buf (buf_sv);
1127
1128 encode_ber (tuple);
1129
1130 SvCUR_set (buf_sv, cur - buf);
1131 XPUSHs (buf_sv);
1132 }
1133
1134 SV *
1135 ber_i32 (IV iv)
1136 CODE:
1137 {
1138 AV *av = newAV ();
1139 av_fill (av, BER_ARRAYSIZE - 1);
1140 AvARRAY (av)[BER_CLASS ] = newSVcacheint (ASN_UNIVERSAL);
1141 AvARRAY (av)[BER_TAG ] = newSVcacheint (ASN_INTEGER32);
1142 AvARRAY (av)[BER_CONSTRUCTED] = newSVcacheint (0);
1143 AvARRAY (av)[BER_DATA ] = newSViv (iv);
1144 RETVAL = newRV_noinc ((SV *)av);
1145 }
1146 OUTPUT: RETVAL
1147
1148 # TODO: not arrayref, but elements?
1149 SV *
1150 ber_seq (SV *arrayref)
1151 CODE:
1152 {
1153 AV *av = newAV ();
1154 av_fill (av, BER_ARRAYSIZE - 1);
1155 AvARRAY (av)[BER_CLASS ] = newSVcacheint (ASN_UNIVERSAL);
1156 AvARRAY (av)[BER_TAG ] = newSVcacheint (ASN_SEQUENCE);
1157 AvARRAY (av)[BER_CONSTRUCTED] = newSVcacheint (1);
1158 AvARRAY (av)[BER_DATA ] = newSVsv (arrayref);
1159 RETVAL = newRV_noinc ((SV *)av);
1160 }
1161 OUTPUT: RETVAL
1162
1163 MODULE = Convert::BER::XS PACKAGE = Convert::BER::XS::Profile
1164
1165 SV *
1166 new (SV *klass)
1167 CODE:
1168 RETVAL = profile_new ();
1169 OUTPUT: RETVAL
1170
1171 void
1172 set (SV *profile, int klass, int tag, int type)
1173 CODE:
1174 profile_set (SvPROFILE (profile), klass, tag, type);
1175
1176 IV
1177 get (SV *profile, int klass, int tag)
1178 CODE:
1179 RETVAL = profile_lookup (SvPROFILE (profile), klass, tag);
1180 OUTPUT: RETVAL
1181
1182 void
1183 _set_default (SV *profile)
1184 CODE:
1185 default_profile = SvPROFILE (profile);
1186
1187