/* * Copyright (c) 2017 Lev Walkin . * All rights reserved. * Redistribution and modifications are permitted subject to BSD license. */ #ifndef ASN_DISABLE_OER_SUPPORT #include #include #include asn_dec_rval_t BIT_STRING_decode_oer(const asn_codec_ctx_t *opt_codec_ctx, const asn_TYPE_descriptor_t *td, const asn_oer_constraints_t *constraints, void **sptr, const void *ptr, size_t size) { BIT_STRING_t *st = (BIT_STRING_t *)*sptr; const asn_oer_constraints_t *cts = constraints ? constraints : td->encoding_constraints.oer_constraints; ssize_t ct_size = cts ? cts->size : -1; asn_dec_rval_t rval = {RC_OK, 0}; size_t expected_length = 0; (void)opt_codec_ctx; if(!st) { st = (BIT_STRING_t *)(*sptr = CALLOC(1, sizeof(*st))); if(!st) ASN__DECODE_FAILED; } if(ct_size >= 0) { expected_length = (ct_size + 7) >> 3; st->bits_unused = (8 - (ct_size & 7)) & 7; } else { /* * X.696 (08/2015) #13.3.1 * Encode length determinant as _number of octets_, but only * if upper bound is not equal to lower bound. */ ssize_t len_len = oer_fetch_length(ptr, size, &expected_length); if(len_len > 0) { ptr = (const char *)ptr + len_len; size -= len_len; } else if(len_len == 0) { ASN__DECODE_STARVED; } else if(len_len < 0) { ASN__DECODE_FAILED; } if(expected_length < 1) { ASN__DECODE_FAILED; } else if(expected_length > size) { ASN__DECODE_STARVED; } st->bits_unused = ((const uint8_t *)ptr)[0]; if(st->bits_unused & ~7) { ASN_DEBUG("%s: unused bits outside of 0..7 range", td->name); ASN__DECODE_FAILED; } ptr = (const char *)ptr + 1; size--; expected_length--; rval.consumed = len_len + 1; } if(size < expected_length) { ASN__DECODE_STARVED; } else { uint8_t *buf = MALLOC(expected_length + 1); if(buf == NULL) { ASN__DECODE_FAILED; } else { memcpy(buf, ptr, expected_length); buf[expected_length] = '\0'; } FREEMEM(st->buf); st->buf = buf; st->size = expected_length; if(expected_length > 0) { buf[expected_length - 1] &= (0xff << st->bits_unused); } rval.consumed += expected_length; return rval; } } /* * Encode as Canonical OER. */ asn_enc_rval_t BIT_STRING_encode_oer(const asn_TYPE_descriptor_t *td, const asn_oer_constraints_t *constraints, const void *sptr, asn_app_consume_bytes_f *cb, void *app_key) { const BIT_STRING_t *st = (const BIT_STRING_t *)sptr; asn_enc_rval_t erval = {0, 0, 0}; const asn_oer_constraints_t *cts = constraints ? constraints : td->encoding_constraints.oer_constraints; ssize_t ct_size = cts ? cts->size : -1; size_t trailing_zeros = 0; int fix_last_byte = 0; if(!st) ASN__ENCODE_FAILED; if(st->bits_unused & ~7) { ASN_DEBUG("BIT STRING unused bits %d out of 0..7 range", st->bits_unused); ASN__ENCODE_FAILED; } if(st->bits_unused && !(st->size && st->buf)) { ASN_DEBUG("BIT STRING %s size 0 can't support unused bits %d", td->name, st->bits_unused); ASN__ENCODE_FAILED; } if(ct_size >= 0) { size_t ct_bytes = (ct_size + 7) >> 3; if(st->size > ct_bytes) { ASN_DEBUG("More bits in BIT STRING %s (%" ASN_PRI_SSIZE ") than constrained %" ASN_PRI_SSIZE "", td->name, 8 * st->size - st->bits_unused, ct_size); ASN__ENCODE_FAILED; } trailing_zeros = ct_bytes - st->size; /* Allow larger constraint */ } else { uint8_t ub = st->bits_unused & 7; ssize_t len_len = oer_serialize_length(1 + st->size, cb, app_key); if(len_len < 0) ASN__ENCODE_FAILED; if(cb(&ub, 1, app_key) < 0) { ASN__ENCODE_FAILED; } erval.encoded += len_len + 1; } if(st->bits_unused) { if(st->buf[st->size - 1] & (0xff << st->bits_unused)) { fix_last_byte = 1; } } if(cb(st->buf, st->size - fix_last_byte, app_key) < 0) { ASN__ENCODE_FAILED; } if(fix_last_byte) { uint8_t b = st->buf[st->size - 1] & (0xff << st->bits_unused); if(cb(&b, 1, app_key) < 0) { ASN__ENCODE_FAILED; } } erval.encoded += st->size; if(trailing_zeros) { static uint8_t zeros[16]; while(trailing_zeros > 0) { int ret; if(trailing_zeros < sizeof(zeros)) { ret = cb(zeros, trailing_zeros, app_key); erval.encoded += trailing_zeros; } else { ret = cb(zeros, sizeof(zeros), app_key); erval.encoded += sizeof(zeros); } if(ret < 0) ASN__ENCODE_FAILED; } } return erval; } #endif /* ASN_DISABLE_OER_SUPPORT */