X-Git-Url: https://git.stg.codes/stg.git/blobdiff_plain/46b0747592074017ff0ea4b33d4a7194235886e5..73bee151e048054bde9a39c5ad2efec25af9c77b:/libs/smux/INTEGER.c?ds=inline diff --git a/libs/smux/INTEGER.c b/libs/smux/INTEGER.c index ba455f07..2b43cdf7 100644 --- a/libs/smux/INTEGER.c +++ b/libs/smux/INTEGER.c @@ -1,5 +1,5 @@ -/*- - * Copyright (c) 2003, 2004, 2005, 2006 Lev Walkin . +/* + * Copyright (c) 2003-2019 Lev Walkin . * All rights reserved. * Redistribution and modifications are permitted subject to BSD license. */ @@ -11,27 +11,43 @@ /* * INTEGER basic type description. */ -static ber_tlv_tag_t asn_DEF_INTEGER_tags[] = { +static const ber_tlv_tag_t asn_DEF_INTEGER_tags[] = { (ASN_TAG_CLASS_UNIVERSAL | (2 << 2)) }; -asn_TYPE_descriptor_t asn_DEF_INTEGER = { - "INTEGER", - "INTEGER", - ASN__PRIMITIVE_TYPE_free, +asn_TYPE_operation_t asn_OP_INTEGER = { + INTEGER_free, INTEGER_print, - asn_generic_no_constraint, + INTEGER_compare, ber_decode_primitive, INTEGER_encode_der, INTEGER_decode_xer, INTEGER_encode_xer, +#ifdef ASN_DISABLE_OER_SUPPORT + 0, + 0, +#else + INTEGER_decode_oer, /* OER decoder */ + INTEGER_encode_oer, /* Canonical OER encoder */ +#endif /* ASN_DISABLE_OER_SUPPORT */ +#ifdef ASN_DISABLE_PER_SUPPORT + 0, + 0, +#else INTEGER_decode_uper, /* Unaligned PER decoder */ INTEGER_encode_uper, /* Unaligned PER encoder */ - 0, /* Use generic outmost tag fetcher */ +#endif /* ASN_DISABLE_PER_SUPPORT */ + INTEGER_random_fill, + 0 /* Use generic outmost tag fetcher */ +}; +asn_TYPE_descriptor_t asn_DEF_INTEGER = { + "INTEGER", + "INTEGER", + &asn_OP_INTEGER, asn_DEF_INTEGER_tags, sizeof(asn_DEF_INTEGER_tags) / sizeof(asn_DEF_INTEGER_tags[0]), asn_DEF_INTEGER_tags, /* Same as above */ sizeof(asn_DEF_INTEGER_tags) / sizeof(asn_DEF_INTEGER_tags[0]), - 0, /* No PER visible constraints */ + { 0, 0, asn_generic_no_constraint }, 0, 0, /* No members */ 0 /* No specifics */ }; @@ -40,10 +56,12 @@ asn_TYPE_descriptor_t asn_DEF_INTEGER = { * Encode INTEGER type using DER. */ asn_enc_rval_t -INTEGER_encode_der(asn_TYPE_descriptor_t *td, void *sptr, - int tag_mode, ber_tlv_tag_t tag, - asn_app_consume_bytes_f *cb, void *app_key) { - INTEGER_t *st = (INTEGER_t *)sptr; +INTEGER_encode_der(const asn_TYPE_descriptor_t *td, const void *sptr, + int tag_mode, ber_tlv_tag_t tag, asn_app_consume_bytes_f *cb, + void *app_key) { + const INTEGER_t *st = (const INTEGER_t *)sptr; + asn_enc_rval_t rval; + INTEGER_t effective_integer; ASN_DEBUG("%s %s as INTEGER (tm=%d)", cb?"Encoding":"Estimating", td->name, tag_mode); @@ -80,75 +98,60 @@ INTEGER_encode_der(asn_TYPE_descriptor_t *td, void *sptr, /* Remove leading superfluous bytes from the integer */ shift = buf - st->buf; if(shift) { - uint8_t *nb = st->buf; - uint8_t *end; - - st->size -= shift; /* New size, minus bad bytes */ - end = nb + st->size; - - for(; nb < end; nb++, buf++) - *nb = *buf; - } - - } /* if(1) */ - - return der_encode_primitive(td, sptr, tag_mode, tag, cb, app_key); + union { + const uint8_t *c_buf; + uint8_t *nc_buf; + } unconst; + unconst.c_buf = st->buf; + effective_integer.buf = unconst.nc_buf + shift; + effective_integer.size = st->size - shift; + + st = &effective_integer; + } + } + + rval = der_encode_primitive(td, st, tag_mode, tag, cb, app_key); + if(rval.structure_ptr == &effective_integer) { + rval.structure_ptr = sptr; + } + return rval; } -static const asn_INTEGER_enum_map_t *INTEGER_map_enum2value(asn_INTEGER_specifics_t *specs, const char *lstart, const char *lstop); +static const asn_INTEGER_enum_map_t *INTEGER_map_enum2value( + const asn_INTEGER_specifics_t *specs, const char *lstart, + const char *lstop); /* * INTEGER specific human-readable output. */ static ssize_t -INTEGER__dump(asn_TYPE_descriptor_t *td, const INTEGER_t *st, asn_app_consume_bytes_f *cb, void *app_key, int plainOrXER) { - asn_INTEGER_specifics_t *specs=(asn_INTEGER_specifics_t *)td->specifics; - char scratch[32]; /* Enough for 64-bit integer */ +INTEGER__dump(const asn_TYPE_descriptor_t *td, const INTEGER_t *st, asn_app_consume_bytes_f *cb, void *app_key, int plainOrXER) { + const asn_INTEGER_specifics_t *specs = + (const asn_INTEGER_specifics_t *)td->specifics; + char scratch[32]; uint8_t *buf = st->buf; uint8_t *buf_end = st->buf + st->size; - signed long accum; + intmax_t value; ssize_t wrote = 0; char *p; + int ret; - /* - * Advance buf pointer until the start of the value's body. - * This will make us able to process large integers using simple case, - * when the actual value is small - * (0x0000000000abcdef would yield a fine 0x00abcdef) - */ - /* Skip the insignificant leading bytes */ - for(; buf < buf_end-1; buf++) { - switch(*buf) { - case 0x00: if((buf[1] & 0x80) == 0) continue; break; - case 0xff: if((buf[1] & 0x80) != 0) continue; break; - } - break; - } + if(specs && specs->field_unsigned) + ret = asn_INTEGER2umax(st, (uintmax_t *)&value); + else + ret = asn_INTEGER2imax(st, &value); /* Simple case: the integer size is small */ - if((size_t)(buf_end - buf) <= sizeof(accum)) { + if(ret == 0) { const asn_INTEGER_enum_map_t *el; - size_t scrsize; - int ret; - char *scr; - - if(buf == buf_end) { - accum = 0; - } else { - accum = (*buf & 0x80) ? -1 : 0; - for(; buf < buf_end; buf++) - accum = (accum << 8) | *buf; - } - - el = INTEGER_map_value2enum(specs, accum); + el = (value >= 0 || !specs || !specs->field_unsigned) + ? INTEGER_map_value2enum(specs, value) : 0; if(el) { - scrsize = el->enum_len + 32; - scr = (char *)alloca(scrsize); if(plainOrXER == 0) - ret = snprintf(scr, scrsize, - "%ld (%s)", accum, el->enum_name); + return asn__format_to_callback(cb, app_key, + "%" ASN_PRIdMAX " (%s)", value, el->enum_name); else - ret = snprintf(scr, scrsize, + return asn__format_to_callback(cb, app_key, "<%s/>", el->enum_name); } else if(plainOrXER && specs && specs->strict_enumeration) { ASN_DEBUG("ASN.1 forbids dealing with " @@ -156,12 +159,12 @@ INTEGER__dump(asn_TYPE_descriptor_t *td, const INTEGER_t *st, asn_app_consume_by errno = EPERM; return -1; } else { - scrsize = sizeof(scratch); - scr = scratch; - ret = snprintf(scr, scrsize, "%ld", accum); - } - assert(ret > 0 && (size_t)ret < scrsize); - return (cb(scr, ret, app_key) < 0) ? -1 : ret; + return asn__format_to_callback(cb, app_key, + (specs && specs->field_unsigned) + ? "%" ASN_PRIuMAX + : "%" ASN_PRIdMAX, + value); + } } else if(plainOrXER && specs && specs->strict_enumeration) { /* * Here and earlier, we cannot encode the ENUMERATED values @@ -176,7 +179,7 @@ INTEGER__dump(asn_TYPE_descriptor_t *td, const INTEGER_t *st, asn_app_consume_by /* Output in the long xx:yy:zz... format */ /* TODO: replace with generic algorithm (Knuth TAOCP Vol 2, 4.3.1) */ for(p = scratch; buf < buf_end; buf++) { - static const char *h2c = "0123456789ABCDEF"; + const char * const h2c = "0123456789ABCDEF"; if((p - scratch) >= (ssize_t)(sizeof(scratch) - 4)) { /* Flush buffer */ if(cb(scratch, p - scratch, app_key) < 0) @@ -199,12 +202,11 @@ INTEGER__dump(asn_TYPE_descriptor_t *td, const INTEGER_t *st, asn_app_consume_by * INTEGER specific human-readable output. */ int -INTEGER_print(asn_TYPE_descriptor_t *td, const void *sptr, int ilevel, - asn_app_consume_bytes_f *cb, void *app_key) { - const INTEGER_t *st = (const INTEGER_t *)sptr; +INTEGER_print(const asn_TYPE_descriptor_t *td, const void *sptr, int ilevel, + asn_app_consume_bytes_f *cb, void *app_key) { + const INTEGER_t *st = (const INTEGER_t *)sptr; ssize_t ret; - (void)td; (void)ilevel; if(!st || !st->buf) @@ -218,8 +220,8 @@ INTEGER_print(asn_TYPE_descriptor_t *td, const void *sptr, int ilevel, struct e2v_key { const char *start; const char *stop; - asn_INTEGER_enum_map_t *vemap; - unsigned int *evmap; + const asn_INTEGER_enum_map_t *vemap; + const unsigned int *evmap; }; static int INTEGER__compar_enum2value(const void *kp, const void *am) { @@ -233,7 +235,7 @@ INTEGER__compar_enum2value(const void *kp, const void *am) { /* Compare strings */ for(ptr = key->start, end = key->stop, name = el->enum_name; ptr < end; ptr++, name++) { - if(*ptr != *name) + if(*ptr != *name || !*name) return *(const unsigned char *)ptr - *(const unsigned char *)name; } @@ -241,8 +243,9 @@ INTEGER__compar_enum2value(const void *kp, const void *am) { } static const asn_INTEGER_enum_map_t * -INTEGER_map_enum2value(asn_INTEGER_specifics_t *specs, const char *lstart, const char *lstop) { - asn_INTEGER_enum_map_t *el_found; +INTEGER_map_enum2value(const asn_INTEGER_specifics_t *specs, const char *lstart, + const char *lstop) { + const asn_INTEGER_enum_map_t *el_found; int count = specs ? specs->map_count : 0; struct e2v_key key; const char *lp; @@ -289,7 +292,7 @@ INTEGER__compar_value2enum(const void *kp, const void *am) { } const asn_INTEGER_enum_map_t * -INTEGER_map_value2enum(asn_INTEGER_specifics_t *specs, long value) { +INTEGER_map_value2enum(const asn_INTEGER_specifics_t *specs, long value) { int count = specs ? specs->map_count : 0; if(!count) return 0; return (asn_INTEGER_enum_map_t *)bsearch(&value, specs->value2enum, @@ -315,59 +318,74 @@ INTEGER_st_prealloc(INTEGER_t *st, int min_size) { * Decode the chunk of XML text encoding INTEGER. */ static enum xer_pbd_rval -INTEGER__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chunk_buf, size_t chunk_size) { - INTEGER_t *st = (INTEGER_t *)sptr; - long sign = 1; - long value; +INTEGER__xer_body_decode(const asn_TYPE_descriptor_t *td, void *sptr, + const void *chunk_buf, size_t chunk_size) { + INTEGER_t *st = (INTEGER_t *)sptr; + intmax_t dec_value; + intmax_t hex_value = 0; const char *lp; const char *lstart = (const char *)chunk_buf; const char *lstop = lstart + chunk_size; enum { - ST_SKIPSPACE, + ST_LEADSPACE, ST_SKIPSPHEX, ST_WAITDIGITS, ST_DIGITS, + ST_DIGITS_TRAILSPACE, ST_HEXDIGIT1, ST_HEXDIGIT2, + ST_HEXDIGITS_TRAILSPACE, ST_HEXCOLON, - ST_EXTRASTUFF - } state = ST_SKIPSPACE; + ST_END_ENUM, + ST_UNEXPECTED + } state = ST_LEADSPACE; + const char *dec_value_start = 0; /* INVARIANT: always !0 in ST_DIGITS */ + const char *dec_value_end = 0; if(chunk_size) - ASN_DEBUG("INTEGER body %d 0x%2x..0x%2x", - chunk_size, *lstart, lstop[-1]); + ASN_DEBUG("INTEGER body %ld 0x%2x..0x%2x", + (long)chunk_size, *lstart, lstop[-1]); + + if(INTEGER_st_prealloc(st, (chunk_size/3) + 1)) + return XPBD_SYSTEM_FAILURE; /* * We may have received a tag here. It will be processed inline. * Use strtoul()-like code and serialize the result. */ - for(value = 0, lp = lstart; lp < lstop; lp++) { + for(lp = lstart; lp < lstop; lp++) { int lv = *lp; switch(lv) { case 0x09: case 0x0a: case 0x0d: case 0x20: switch(state) { - case ST_SKIPSPACE: + case ST_LEADSPACE: + case ST_DIGITS_TRAILSPACE: + case ST_HEXDIGITS_TRAILSPACE: case ST_SKIPSPHEX: continue; + case ST_DIGITS: + dec_value_end = lp; + state = ST_DIGITS_TRAILSPACE; + continue; case ST_HEXCOLON: - if(xer_is_whitespace(lp, lstop - lp)) { - lp = lstop - 1; - continue; - } - break; + state = ST_HEXDIGITS_TRAILSPACE; + continue; default: break; } break; case 0x2d: /* '-' */ - if(state == ST_SKIPSPACE) { - sign = -1; + if(state == ST_LEADSPACE) { + dec_value = 0; + dec_value_start = lp; state = ST_WAITDIGITS; continue; } break; case 0x2b: /* '+' */ - if(state == ST_SKIPSPACE) { + if(state == ST_LEADSPACE) { + dec_value = 0; + dec_value_start = lp; state = ST_WAITDIGITS; continue; } @@ -375,57 +393,41 @@ INTEGER__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chun case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: case 0x35: case 0x36: case 0x37: case 0x38: case 0x39: switch(state) { - case ST_DIGITS: break; + case ST_DIGITS: continue; case ST_SKIPSPHEX: /* Fall through */ case ST_HEXDIGIT1: - value = (lv - 0x30) << 4; + hex_value = (lv - 0x30) << 4; state = ST_HEXDIGIT2; continue; case ST_HEXDIGIT2: - value += (lv - 0x30); + hex_value += (lv - 0x30); state = ST_HEXCOLON; - st->buf[st->size++] = value; + st->buf[st->size++] = (uint8_t)hex_value; continue; case ST_HEXCOLON: return XPBD_BROKEN_ENCODING; - default: + case ST_LEADSPACE: + dec_value = 0; + dec_value_start = lp; + /* FALL THROUGH */ + case ST_WAITDIGITS: state = ST_DIGITS; + continue; + default: break; } - - { - long new_value = value * 10; - - if(new_value / 10 != value) - /* Overflow */ - return XPBD_DECODER_LIMIT; - - value = new_value + (lv - 0x30); - /* Check for two's complement overflow */ - if(value < 0) { - /* Check whether it is a LONG_MIN */ - if(sign == -1 - && (unsigned long)value - == ~((unsigned long)-1 >> 1)) { - sign = 1; - } else { - /* Overflow */ - return XPBD_DECODER_LIMIT; - } - } - } - continue; - case 0x3c: /* '<' */ - if(state == ST_SKIPSPACE) { + break; + case 0x3c: /* '<', start of XML encoded enumeration */ + if(state == ST_LEADSPACE) { const asn_INTEGER_enum_map_t *el; el = INTEGER_map_enum2value( - (asn_INTEGER_specifics_t *) + (const asn_INTEGER_specifics_t *) td->specifics, lstart, lstop); if(el) { ASN_DEBUG("Found \"%s\" => %ld", el->enum_name, el->nat_value); - state = ST_DIGITS; - value = el->nat_value; + dec_value = el->nat_value; + state = ST_END_ENUM; lp = lstop - 1; continue; } @@ -443,13 +445,12 @@ INTEGER__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chun * places as a decimal value. * Switch decoding mode. */ ASN_DEBUG("INTEGER re-evaluate as hex form"); - if(INTEGER_st_prealloc(st, (chunk_size/3) + 1)) - return XPBD_SYSTEM_FAILURE; state = ST_SKIPSPHEX; + dec_value_start = 0; lp = lstart - 1; continue; } else { - ASN_DEBUG("state %d at %d", state, lp - lstart); + ASN_DEBUG("state %d at %ld", state, (long)(lp - lstart)); break; } /* [A-Fa-f] */ @@ -457,24 +458,23 @@ INTEGER__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chun case 0x61:case 0x62:case 0x63:case 0x64:case 0x65:case 0x66: switch(state) { case ST_SKIPSPHEX: - case ST_SKIPSPACE: /* Fall through */ + case ST_LEADSPACE: /* Fall through */ case ST_HEXDIGIT1: - value = lv - ((lv < 0x61) ? 0x41 : 0x61); - value += 10; - value <<= 4; + hex_value = lv - ((lv < 0x61) ? 0x41 : 0x61); + hex_value += 10; + hex_value <<= 4; state = ST_HEXDIGIT2; continue; case ST_HEXDIGIT2: - value += lv - ((lv < 0x61) ? 0x41 : 0x61); - value += 10; - st->buf[st->size++] = value; + hex_value += lv - ((lv < 0x61) ? 0x41 : 0x61); + hex_value += 10; + st->buf[st->size++] = (uint8_t)hex_value; state = ST_HEXCOLON; continue; case ST_DIGITS: ASN_DEBUG("INTEGER re-evaluate as hex form"); - if(INTEGER_st_prealloc(st, (chunk_size/3) + 1)) - return XPBD_SYSTEM_FAILURE; state = ST_SKIPSPHEX; + dec_value_start = 0; lp = lstart - 1; continue; default: @@ -484,127 +484,177 @@ INTEGER__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chun } /* Found extra non-numeric stuff */ - ASN_DEBUG("Found non-numeric 0x%2x at %d", - lv, lp - lstart); - state = ST_EXTRASTUFF; + ASN_DEBUG("INTEGER :: Found non-numeric 0x%2x at %ld", + lv, (long)(lp - lstart)); + state = ST_UNEXPECTED; break; } switch(state) { + case ST_END_ENUM: + /* Got a complete and valid enumeration encoded as a tag. */ + break; case ST_DIGITS: - /* Everything is cool */ + dec_value_end = lstop; + /* FALL THROUGH */ + case ST_DIGITS_TRAILSPACE: + /* The last symbol encountered was a digit. */ + switch(asn_strtoimax_lim(dec_value_start, &dec_value_end, &dec_value)) { + case ASN_STRTOX_OK: + if(dec_value >= LONG_MIN && dec_value <= LONG_MAX) { + break; + } else { + /* + * We model INTEGER on long for XER, + * to avoid rewriting all the tests at once. + */ + ASN_DEBUG("INTEGER exceeds long range"); + } + /* Fall through */ + case ASN_STRTOX_ERROR_RANGE: + ASN_DEBUG("INTEGER decode %s hit range limit", td->name); + return XPBD_DECODER_LIMIT; + case ASN_STRTOX_ERROR_INVAL: + case ASN_STRTOX_EXPECT_MORE: + case ASN_STRTOX_EXTRA_DATA: + return XPBD_BROKEN_ENCODING; + } break; case ST_HEXCOLON: + case ST_HEXDIGITS_TRAILSPACE: st->buf[st->size] = 0; /* Just in case termination */ return XPBD_BODY_CONSUMED; case ST_HEXDIGIT1: case ST_HEXDIGIT2: case ST_SKIPSPHEX: return XPBD_BROKEN_ENCODING; - default: - if(xer_is_whitespace(lp, lstop - lp)) { - if(state != ST_EXTRASTUFF) - return XPBD_NOT_BODY_IGNORE; - break; - } else { - ASN_DEBUG("INTEGER: No useful digits (state %d)", - state); - return XPBD_BROKEN_ENCODING; /* No digits */ - } - break; + case ST_LEADSPACE: + /* Content not found */ + return XPBD_NOT_BODY_IGNORE; + case ST_WAITDIGITS: + case ST_UNEXPECTED: + ASN_DEBUG("INTEGER: No useful digits (state %d)", state); + return XPBD_BROKEN_ENCODING; /* No digits */ } - value *= sign; /* Change sign, if needed */ - - if(asn_long2INTEGER(st, value)) + /* + * Convert the result of parsing of enumeration or a straight + * decimal value into a BER representation. + */ + if(asn_imax2INTEGER(st, dec_value)) { + ASN_DEBUG("INTEGER decode %s conversion failed", td->name); return XPBD_SYSTEM_FAILURE; + } return XPBD_BODY_CONSUMED; } asn_dec_rval_t -INTEGER_decode_xer(asn_codec_ctx_t *opt_codec_ctx, - asn_TYPE_descriptor_t *td, void **sptr, const char *opt_mname, - const void *buf_ptr, size_t size) { - - return xer_decode_primitive(opt_codec_ctx, td, +INTEGER_decode_xer(const asn_codec_ctx_t *opt_codec_ctx, + const asn_TYPE_descriptor_t *td, void **sptr, + const char *opt_mname, const void *buf_ptr, size_t size) { + return xer_decode_primitive(opt_codec_ctx, td, sptr, sizeof(INTEGER_t), opt_mname, buf_ptr, size, INTEGER__xer_body_decode); } asn_enc_rval_t -INTEGER_encode_xer(asn_TYPE_descriptor_t *td, void *sptr, - int ilevel, enum xer_encoder_flags_e flags, - asn_app_consume_bytes_f *cb, void *app_key) { - const INTEGER_t *st = (const INTEGER_t *)sptr; +INTEGER_encode_xer(const asn_TYPE_descriptor_t *td, const void *sptr, + int ilevel, enum xer_encoder_flags_e flags, + asn_app_consume_bytes_f *cb, void *app_key) { + const INTEGER_t *st = (const INTEGER_t *)sptr; asn_enc_rval_t er; (void)ilevel; (void)flags; if(!st || !st->buf) - _ASN_ENCODE_FAILED; + ASN__ENCODE_FAILED; er.encoded = INTEGER__dump(td, st, cb, app_key, 1); - if(er.encoded < 0) _ASN_ENCODE_FAILED; + if(er.encoded < 0) ASN__ENCODE_FAILED; - _ASN_ENCODED_OK(er); + ASN__ENCODED_OK(er); } +#ifndef ASN_DISABLE_PER_SUPPORT + asn_dec_rval_t -INTEGER_decode_uper(asn_codec_ctx_t *opt_codec_ctx, asn_TYPE_descriptor_t *td, - asn_per_constraints_t *constraints, void **sptr, asn_per_data_t *pd) { - asn_dec_rval_t rval = { RC_OK, 0 }; +INTEGER_decode_uper(const asn_codec_ctx_t *opt_codec_ctx, + const asn_TYPE_descriptor_t *td, + const asn_per_constraints_t *constraints, void **sptr, + asn_per_data_t *pd) { + const asn_INTEGER_specifics_t *specs = + (const asn_INTEGER_specifics_t *)td->specifics; + asn_dec_rval_t rval = { RC_OK, 0 }; INTEGER_t *st = (INTEGER_t *)*sptr; - asn_per_constraint_t *ct; + const asn_per_constraint_t *ct; int repeat; (void)opt_codec_ctx; if(!st) { st = (INTEGER_t *)(*sptr = CALLOC(1, sizeof(*st))); - if(!st) _ASN_DECODE_FAILED; + if(!st) ASN__DECODE_FAILED; } - if(!constraints) constraints = td->per_constraints; + if(!constraints) constraints = td->encoding_constraints.per_constraints; ct = constraints ? &constraints->value : 0; if(ct && ct->flags & APC_EXTENSIBLE) { int inext = per_get_few_bits(pd, 1); - if(inext < 0) _ASN_DECODE_STARVED; + if(inext < 0) ASN__DECODE_STARVED; if(inext) ct = 0; } FREEMEM(st->buf); + st->buf = 0; + st->size = 0; if(ct) { if(ct->flags & APC_SEMI_CONSTRAINED) { st->buf = (uint8_t *)CALLOC(1, 2); - if(!st->buf) _ASN_DECODE_FAILED; + if(!st->buf) ASN__DECODE_FAILED; st->size = 1; } else if(ct->flags & APC_CONSTRAINED && ct->range_bits >= 0) { size_t size = (ct->range_bits + 7) >> 3; st->buf = (uint8_t *)MALLOC(1 + size + 1); - if(!st->buf) _ASN_DECODE_FAILED; + if(!st->buf) ASN__DECODE_FAILED; st->size = size; - } else { - st->size = 0; } - } else { - st->size = 0; } - /* X.691, #12.2.2 */ + /* X.691-2008/11, #13.2.2, constrained whole number */ if(ct && ct->flags != APC_UNCONSTRAINED) { - /* #10.5.6 */ + /* #11.5.6 */ ASN_DEBUG("Integer with range %d bits", ct->range_bits); if(ct->range_bits >= 0) { - long value = per_get_few_bits(pd, ct->range_bits); - if(value < 0) _ASN_DECODE_STARVED; - ASN_DEBUG("Got value %ld + low %ld", - value, ct->lower_bound); - value += ct->lower_bound; - if(asn_long2INTEGER(st, value)) - _ASN_DECODE_FAILED; + if((size_t)ct->range_bits > 8 * sizeof(unsigned long)) + ASN__DECODE_FAILED; + + if(specs && specs->field_unsigned) { + unsigned long uvalue = 0; + if(uper_get_constrained_whole_number(pd, + &uvalue, ct->range_bits)) + ASN__DECODE_STARVED; + ASN_DEBUG("Got value %lu + low %ld", + uvalue, ct->lower_bound); + uvalue += ct->lower_bound; + if(asn_ulong2INTEGER(st, uvalue)) + ASN__DECODE_FAILED; + } else { + unsigned long uvalue = 0; + long svalue; + if(uper_get_constrained_whole_number(pd, + &uvalue, ct->range_bits)) + ASN__DECODE_STARVED; + ASN_DEBUG("Got value %lu + low %ld", + uvalue, ct->lower_bound); + if(per_long_range_unrebase(uvalue, ct->lower_bound, + ct->upper_bound, &svalue) + || asn_long2INTEGER(st, svalue)) { + ASN__DECODE_FAILED; + } + } return rval; } } else { @@ -613,20 +663,20 @@ INTEGER_decode_uper(asn_codec_ctx_t *opt_codec_ctx, asn_TYPE_descriptor_t *td, /* X.691, #12.2.3, #12.2.4 */ do { - ssize_t len; - void *p; - int ret; + ssize_t len = 0; + void *p = NULL; + int ret = 0; /* Get the PER length */ - len = uper_get_length(pd, -1, &repeat); - if(len < 0) _ASN_DECODE_STARVED; + len = uper_get_length(pd, -1, 0, &repeat); + if(len < 0) ASN__DECODE_STARVED; p = REALLOC(st->buf, st->size + len + 1); - if(!p) _ASN_DECODE_FAILED; + if(!p) ASN__DECODE_FAILED; st->buf = (uint8_t *)p; ret = per_get_many_bits(pd, &st->buf[st->size], 0, 8 * len); - if(ret < 0) _ASN_DECODE_STARVED; + if(ret < 0) ASN__DECODE_STARVED; st->size += len; } while(repeat); st->buf[st->size] = 0; /* JIC */ @@ -636,94 +686,143 @@ INTEGER_decode_uper(asn_codec_ctx_t *opt_codec_ctx, asn_TYPE_descriptor_t *td, /* * TODO: replace by in-place arithmetics. */ - long value; + long value = 0; if(asn_INTEGER2long(st, &value)) - _ASN_DECODE_FAILED; - if(asn_long2INTEGER(st, value + ct->lower_bound)) - _ASN_DECODE_FAILED; + ASN__DECODE_FAILED; + if(asn_imax2INTEGER(st, value + ct->lower_bound)) + ASN__DECODE_FAILED; } return rval; } asn_enc_rval_t -INTEGER_encode_uper(asn_TYPE_descriptor_t *td, - asn_per_constraints_t *constraints, void *sptr, asn_per_outp_t *po) { - asn_enc_rval_t er; - INTEGER_t *st = (INTEGER_t *)sptr; +INTEGER_encode_uper(const asn_TYPE_descriptor_t *td, + const asn_per_constraints_t *constraints, const void *sptr, + asn_per_outp_t *po) { + const asn_INTEGER_specifics_t *specs = + (const asn_INTEGER_specifics_t *)td->specifics; + asn_enc_rval_t er; + const INTEGER_t *st = (const INTEGER_t *)sptr; const uint8_t *buf; const uint8_t *end; - asn_per_constraint_t *ct; + const asn_per_constraint_t *ct; long value = 0; - if(!st || st->size == 0) _ASN_ENCODE_FAILED; + if(!st || st->size == 0) ASN__ENCODE_FAILED; - if(!constraints) constraints = td->per_constraints; + if(!constraints) constraints = td->encoding_constraints.per_constraints; ct = constraints ? &constraints->value : 0; er.encoded = 0; if(ct) { int inext = 0; - if(asn_INTEGER2long(st, &value)) - _ASN_ENCODE_FAILED; - /* Check proper range */ - if(ct->flags & APC_SEMI_CONSTRAINED) { - if(value < ct->lower_bound) - inext = 1; - } else if(ct->range_bits >= 0) { - if(value < ct->lower_bound - || value > ct->upper_bound) - inext = 1; + if(specs && specs->field_unsigned) { + unsigned long uval; + if(asn_INTEGER2ulong(st, &uval)) + ASN__ENCODE_FAILED; + /* Check proper range */ + if(ct->flags & APC_SEMI_CONSTRAINED) { + if(uval < (unsigned long)ct->lower_bound) + inext = 1; + } else if(ct->range_bits >= 0) { + if(uval < (unsigned long)ct->lower_bound + || uval > (unsigned long)ct->upper_bound) + inext = 1; + } + ASN_DEBUG("Value %lu (%02x/%" ASN_PRI_SIZE ") lb %lu ub %lu %s", + uval, st->buf[0], st->size, + ct->lower_bound, ct->upper_bound, + inext ? "ext" : "fix"); + value = uval; + } else { + if(asn_INTEGER2long(st, &value)) + ASN__ENCODE_FAILED; + /* Check proper range */ + if(ct->flags & APC_SEMI_CONSTRAINED) { + if(value < ct->lower_bound) + inext = 1; + } else if(ct->range_bits >= 0) { + if(value < ct->lower_bound + || value > ct->upper_bound) + inext = 1; + } + ASN_DEBUG("Value %ld (%02x/%" ASN_PRI_SIZE ") lb %ld ub %ld %s", + value, st->buf[0], st->size, + ct->lower_bound, ct->upper_bound, + inext ? "ext" : "fix"); } - ASN_DEBUG("Value %ld (%02x/%d) lb %ld ub %ld %s", - value, st->buf[0], st->size, - ct->lower_bound, ct->upper_bound, - inext ? "ext" : "fix"); if(ct->flags & APC_EXTENSIBLE) { if(per_put_few_bits(po, inext, 1)) - _ASN_ENCODE_FAILED; + ASN__ENCODE_FAILED; if(inext) ct = 0; } else if(inext) { - _ASN_ENCODE_FAILED; + ASN__ENCODE_FAILED; } } - /* X.691, #12.2.2 */ + /* X.691-11/2008, #13.2.2, test if constrained whole number */ if(ct && ct->range_bits >= 0) { - /* #10.5.6 */ - ASN_DEBUG("Encoding integer with range %d bits", - ct->range_bits); - if(per_put_few_bits(po, value - ct->lower_bound, - ct->range_bits)) - _ASN_ENCODE_FAILED; - _ASN_ENCODED_OK(er); + unsigned long v; + /* #11.5.6 -> #11.3 */ + ASN_DEBUG("Encoding integer %ld (%lu) with range %d bits", + value, value - ct->lower_bound, ct->range_bits); + if(per_long_range_rebase(value, ct->lower_bound, ct->upper_bound, &v)) { + ASN__ENCODE_FAILED; + } + if(uper_put_constrained_whole_number_u(po, v, ct->range_bits)) + ASN__ENCODE_FAILED; + ASN__ENCODED_OK(er); } if(ct && ct->lower_bound) { ASN_DEBUG("Adjust lower bound to %ld", ct->lower_bound); /* TODO: adjust lower bound */ - _ASN_ENCODE_FAILED; + ASN__ENCODE_FAILED; } for(buf = st->buf, end = st->buf + st->size; buf < end;) { - ssize_t mayEncode = uper_put_length(po, end - buf); - if(mayEncode < 0) - _ASN_ENCODE_FAILED; + int need_eom = 0; + ssize_t mayEncode = uper_put_length(po, end - buf, &need_eom); + if(mayEncode < 0) + ASN__ENCODE_FAILED; if(per_put_many_bits(po, buf, 8 * mayEncode)) - _ASN_ENCODE_FAILED; + ASN__ENCODE_FAILED; buf += mayEncode; - } + if(need_eom && uper_put_length(po, 0, 0)) ASN__ENCODE_FAILED; + } - _ASN_ENCODED_OK(er); + ASN__ENCODED_OK(er); +} + +#endif /* ASN_DISABLE_PER_SUPPORT */ + +static intmax_t +asn__integer_convert(const uint8_t *b, const uint8_t *end) { + uintmax_t value; + + /* Perform the sign initialization */ + /* Actually value = -(*b >> 7); gains nothing, yet unreadable! */ + if((*b >> 7)) { + value = (uintmax_t)(-1); + } else { + value = 0; + } + + /* Conversion engine */ + for(; b < end; b++) { + value = (value << 8) | *b; + } + + return value; } int -asn_INTEGER2long(const INTEGER_t *iptr, long *lptr) { +asn_INTEGER2imax(const INTEGER_t *iptr, intmax_t *lptr) { uint8_t *b, *end; size_t size; - long l; /* Sanity checking */ if(!iptr || !iptr->buf || !lptr) { @@ -736,26 +835,26 @@ asn_INTEGER2long(const INTEGER_t *iptr, long *lptr) { size = iptr->size; end = b + size; /* Where to stop */ - if(size > sizeof(long)) { + if(size > sizeof(intmax_t)) { uint8_t *end1 = end - 1; /* * Slightly more advanced processing, - * able to >sizeof(long) bytes, - * when the actual value is small - * (0x0000000000abcdef would yield a fine 0x00abcdef) + * able to process INTEGERs with >sizeof(intmax_t) bytes + * when the actual value is small, e.g. for intmax_t == int32_t + * (0x0000000000abcdef INTEGER would yield a fine 0x00abcdef int32_t) */ /* Skip out the insignificant leading bytes */ for(; b < end1; b++) { switch(*b) { - case 0x00: if((b[1] & 0x80) == 0) continue; break; - case 0xff: if((b[1] & 0x80) != 0) continue; break; + case 0x00: if((b[1] & 0x80) == 0) continue; break; + case 0xff: if((b[1] & 0x80) != 0) continue; break; } break; } size = end - b; - if(size > sizeof(long)) { - /* Still cannot fit the long */ + if(size > sizeof(intmax_t)) { + /* Still cannot fit the sizeof(intmax_t) */ errno = ERANGE; return -1; } @@ -767,20 +866,71 @@ asn_INTEGER2long(const INTEGER_t *iptr, long *lptr) { return 0; } - /* Perform the sign initialization */ - /* Actually l = -(*b >> 7); gains nothing, yet unreadable! */ - if((*b >> 7)) l = -1; else l = 0; + *lptr = asn__integer_convert(b, end); + return 0; +} + +/* FIXME: negative INTEGER values are silently interpreted as large unsigned ones. */ +int +asn_INTEGER2umax(const INTEGER_t *iptr, uintmax_t *lptr) { + uint8_t *b, *end; + uintmax_t value; + size_t size; + + if(!iptr || !iptr->buf || !lptr) { + errno = EINVAL; + return -1; + } + + b = iptr->buf; + size = iptr->size; + end = b + size; + + /* If all extra leading bytes are zeroes, ignore them */ + for(; size > sizeof(value); b++, size--) { + if(*b) { + /* Value won't fit into uintmax_t */ + errno = ERANGE; + return -1; + } + } /* Conversion engine */ - for(; b < end; b++) - l = (l << 8) | *b; + for(value = 0; b < end; b++) + value = (value << 8) | *b; - *lptr = l; + *lptr = value; return 0; } int -asn_long2INTEGER(INTEGER_t *st, long value) { +asn_umax2INTEGER(INTEGER_t *st, uintmax_t value) { + uint8_t *buf; + uint8_t *end; + uint8_t *b; + int shr; + + if(value <= ((~(uintmax_t)0) >> 1)) { + return asn_imax2INTEGER(st, value); + } + + buf = (uint8_t *)MALLOC(1 + sizeof(value)); + if(!buf) return -1; + + end = buf + (sizeof(value) + 1); + buf[0] = 0; /* INTEGERs are signed. 0-byte indicates positive. */ + for(b = buf + 1, shr = (sizeof(value) - 1) * 8; b < end; shr -= 8, b++) + *b = (uint8_t)(value >> shr); + + if(st->buf) FREEMEM(st->buf); + st->buf = buf; + st->size = 1 + sizeof(value); + + return 0; +} + +int +asn_imax2INTEGER(INTEGER_t *st, intmax_t value) { uint8_t *buf, *bp; uint8_t *p; uint8_t *pstart; @@ -793,7 +943,7 @@ asn_long2INTEGER(INTEGER_t *st, long value) { return -1; } - buf = (uint8_t *)MALLOC(sizeof(value)); + buf = (uint8_t *)(long *)MALLOC(sizeof(value)); if(!buf) return -1; if(*(char *)&littleEndian) { @@ -824,7 +974,7 @@ asn_long2INTEGER(INTEGER_t *st, long value) { break; } /* Copy the integer body */ - for(pstart = p, bp = buf, pend1 += add; p != pend1; p += add) + for(bp = buf, pend1 += add; p != pend1; p += add) *bp++ = *p; if(st->buf) FREEMEM(st->buf); @@ -833,3 +983,371 @@ asn_long2INTEGER(INTEGER_t *st, long value) { return 0; } + +int +asn_INTEGER2long(const INTEGER_t *iptr, long *l) { + intmax_t v; + if(asn_INTEGER2imax(iptr, &v) == 0) { + if(v < LONG_MIN || v > LONG_MAX) { + errno = ERANGE; + return -1; + } + *l = v; + return 0; + } else { + return -1; + } +} + +int +asn_INTEGER2ulong(const INTEGER_t *iptr, unsigned long *l) { + uintmax_t v; + if(asn_INTEGER2umax(iptr, &v) == 0) { + if(v > ULONG_MAX) { + errno = ERANGE; + return -1; + } + *l = v; + return 0; + } else { + return -1; + } +} + +int +asn_long2INTEGER(INTEGER_t *st, long value) { + return asn_imax2INTEGER(st, value); +} + +int +asn_ulong2INTEGER(INTEGER_t *st, unsigned long value) { + return asn_imax2INTEGER(st, value); +} + +/* + * Parse the number in the given string until the given *end position, + * returning the position after the last parsed character back using the + * same (*end) pointer. + * WARNING: This behavior is different from the standard strtol/strtoimax(3). + */ +enum asn_strtox_result_e +asn_strtoimax_lim(const char *str, const char **end, intmax_t *intp) { + int sign = 1; + intmax_t value; + + const intmax_t asn1_intmax_max = ((~(uintmax_t)0) >> 1); + const intmax_t upper_boundary = asn1_intmax_max / 10; + intmax_t last_digit_max = asn1_intmax_max % 10; + + if(str >= *end) return ASN_STRTOX_ERROR_INVAL; + + switch(*str) { + case '-': + last_digit_max++; + sign = -1; + /* FALL THROUGH */ + case '+': + str++; + if(str >= *end) { + *end = str; + return ASN_STRTOX_EXPECT_MORE; + } + } + + for(value = 0; str < (*end); str++) { + if(*str >= 0x30 && *str <= 0x39) { + int d = *str - '0'; + if(value < upper_boundary) { + value = value * 10 + d; + } else if(value == upper_boundary) { + if(d <= last_digit_max) { + if(sign > 0) { + value = value * 10 + d; + } else { + sign = 1; + value = -value * 10 - d; + } + str += 1; + if(str < *end) { + // If digits continue, we're guaranteed out of range. + *end = str; + if(*str >= 0x30 && *str <= 0x39) { + return ASN_STRTOX_ERROR_RANGE; + } else { + *intp = sign * value; + return ASN_STRTOX_EXTRA_DATA; + } + } + break; + } else { + *end = str; + return ASN_STRTOX_ERROR_RANGE; + } + } else { + *end = str; + return ASN_STRTOX_ERROR_RANGE; + } + } else { + *end = str; + *intp = sign * value; + return ASN_STRTOX_EXTRA_DATA; + } + } + + *end = str; + *intp = sign * value; + return ASN_STRTOX_OK; +} + +/* + * Parse the number in the given string until the given *end position, + * returning the position after the last parsed character back using the + * same (*end) pointer. + * WARNING: This behavior is different from the standard strtoul/strtoumax(3). + */ +enum asn_strtox_result_e +asn_strtoumax_lim(const char *str, const char **end, uintmax_t *uintp) { + uintmax_t value; + + const uintmax_t asn1_uintmax_max = ((~(uintmax_t)0)); + const uintmax_t upper_boundary = asn1_uintmax_max / 10; + uintmax_t last_digit_max = asn1_uintmax_max % 10; + + if(str >= *end) return ASN_STRTOX_ERROR_INVAL; + + switch(*str) { + case '-': + return ASN_STRTOX_ERROR_INVAL; + case '+': + str++; + if(str >= *end) { + *end = str; + return ASN_STRTOX_EXPECT_MORE; + } + } + + for(value = 0; str < (*end); str++) { + if(*str >= 0x30 && *str <= 0x39) { + unsigned int d = *str - '0'; + if(value < upper_boundary) { + value = value * 10 + d; + } else if(value == upper_boundary) { + if(d <= last_digit_max) { + value = value * 10 + d; + str += 1; + if(str < *end) { + // If digits continue, we're guaranteed out of range. + *end = str; + if(*str >= 0x30 && *str <= 0x39) { + return ASN_STRTOX_ERROR_RANGE; + } else { + *uintp = value; + return ASN_STRTOX_EXTRA_DATA; + } + } + break; + } else { + *end = str; + return ASN_STRTOX_ERROR_RANGE; + } + } else { + *end = str; + return ASN_STRTOX_ERROR_RANGE; + } + } else { + *end = str; + *uintp = value; + return ASN_STRTOX_EXTRA_DATA; + } + } + + *end = str; + *uintp = value; + return ASN_STRTOX_OK; +} + +enum asn_strtox_result_e +asn_strtol_lim(const char *str, const char **end, long *lp) { + intmax_t value; + switch(asn_strtoimax_lim(str, end, &value)) { + case ASN_STRTOX_ERROR_RANGE: + return ASN_STRTOX_ERROR_RANGE; + case ASN_STRTOX_ERROR_INVAL: + return ASN_STRTOX_ERROR_INVAL; + case ASN_STRTOX_EXPECT_MORE: + return ASN_STRTOX_EXPECT_MORE; + case ASN_STRTOX_OK: + if(value >= LONG_MIN && value <= LONG_MAX) { + *lp = value; + return ASN_STRTOX_OK; + } else { + return ASN_STRTOX_ERROR_RANGE; + } + case ASN_STRTOX_EXTRA_DATA: + if(value >= LONG_MIN && value <= LONG_MAX) { + *lp = value; + return ASN_STRTOX_EXTRA_DATA; + } else { + return ASN_STRTOX_ERROR_RANGE; + } + } + + assert(!"Unreachable"); + return ASN_STRTOX_ERROR_INVAL; +} + +enum asn_strtox_result_e +asn_strtoul_lim(const char *str, const char **end, unsigned long *ulp) { + uintmax_t value; + switch(asn_strtoumax_lim(str, end, &value)) { + case ASN_STRTOX_ERROR_RANGE: + return ASN_STRTOX_ERROR_RANGE; + case ASN_STRTOX_ERROR_INVAL: + return ASN_STRTOX_ERROR_INVAL; + case ASN_STRTOX_EXPECT_MORE: + return ASN_STRTOX_EXPECT_MORE; + case ASN_STRTOX_OK: + if(value <= ULONG_MAX) { + *ulp = value; + return ASN_STRTOX_OK; + } else { + return ASN_STRTOX_ERROR_RANGE; + } + case ASN_STRTOX_EXTRA_DATA: + if(value <= ULONG_MAX) { + *ulp = value; + return ASN_STRTOX_EXTRA_DATA; + } else { + return ASN_STRTOX_ERROR_RANGE; + } + } + + assert(!"Unreachable"); + return ASN_STRTOX_ERROR_INVAL; +} + +int +INTEGER_compare(const asn_TYPE_descriptor_t *td, const void *aptr, + const void *bptr) { + const INTEGER_t *a = aptr; + const INTEGER_t *b = bptr; + + (void)td; + + if(a && b) { + if(a->size && b->size) { + int sign_a = (a->buf[0] & 0x80) ? -1 : 1; + int sign_b = (b->buf[0] & 0x80) ? -1 : 1; + + if(sign_a < sign_b) return -1; + if(sign_a > sign_b) return 1; + + /* The shortest integer wins, unless comparing negatives */ + if(a->size < b->size) { + return -1 * sign_a; + } else if(a->size > b->size) { + return 1 * sign_b; + } + + return sign_a * memcmp(a->buf, b->buf, a->size); + } else if(a->size) { + int sign = (a->buf[0] & 0x80) ? -1 : 1; + return (1) * sign; + } else if(b->size) { + int sign = (a->buf[0] & 0x80) ? -1 : 1; + return (-1) * sign; + } else { + return 0; + } + } else if(!a && !b) { + return 0; + } else if(!a) { + return -1; + } else { + return 1; + } + +} + +asn_random_fill_result_t +INTEGER_random_fill(const asn_TYPE_descriptor_t *td, void **sptr, + const asn_encoding_constraints_t *constraints, + size_t max_length) { + const asn_INTEGER_specifics_t *specs = + (const asn_INTEGER_specifics_t *)td->specifics; + asn_random_fill_result_t result_ok = {ARFILL_OK, 1}; + asn_random_fill_result_t result_failed = {ARFILL_FAILED, 0}; + asn_random_fill_result_t result_skipped = {ARFILL_SKIPPED, 0}; + INTEGER_t *st = *sptr; + const asn_INTEGER_enum_map_t *emap; + size_t emap_len; + intmax_t value; + int find_inside_map; + + if(max_length == 0) return result_skipped; + + if(st == NULL) { + st = (INTEGER_t *)CALLOC(1, sizeof(*st)); + if(st == NULL) { + return result_failed; + } + } + + if(specs) { + emap = specs->value2enum; + emap_len = specs->map_count; + if(specs->strict_enumeration) { + find_inside_map = emap_len > 0; + } else { + find_inside_map = emap_len ? asn_random_between(0, 1) : 0; + } + } else { + emap = 0; + emap_len = 0; + find_inside_map = 0; + } + + if(find_inside_map) { + assert(emap_len > 0); + value = emap[asn_random_between(0, emap_len - 1)].nat_value; + } else { + const asn_per_constraints_t *ct; + + static const long variants[] = { + -65536, -65535, -65534, -32769, -32768, -32767, -16385, -16384, + -16383, -257, -256, -255, -254, -129, -128, -127, + -126, -1, 0, 1, 126, 127, 128, 129, + 254, 255, 256, 257, 16383, 16384, 16385, 32767, + 32768, 32769, 65534, 65535, 65536, 65537}; + if(specs && specs->field_unsigned) { + assert(variants[18] == 0); + value = variants[asn_random_between( + 18, sizeof(variants) / sizeof(variants[0]) - 1)]; + } else { + value = variants[asn_random_between( + 0, sizeof(variants) / sizeof(variants[0]) - 1)]; + } + + if(!constraints) constraints = &td->encoding_constraints; + ct = constraints ? constraints->per_constraints : 0; + if(ct && (ct->value.flags & APC_CONSTRAINED)) { + if(value < ct->value.lower_bound || value > ct->value.upper_bound) { + value = asn_random_between(ct->value.lower_bound, + ct->value.upper_bound); + } + } + } + + if(asn_imax2INTEGER(st, value)) { + if(st == *sptr) { + ASN_STRUCT_RESET(*td, st); + } else { + ASN_STRUCT_FREE(*td, st); + } + return result_failed; + } else { + *sptr = st; + result_ok.length = st->size; + return result_ok; + } +}