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/*-
* Copyright (c) 2003, 2004, 2005 Lev Walkin <vlm@lionet.info>.
* All rights reserved.
* Redistribution and modifications are permitted subject to BSD license.
*/
#include <asn_internal.h>
#include <RELATIVE-OID.h>
#include <asn_codecs_prim.h> /* Encoder and decoder of a primitive type */
#include <limits.h> /* for CHAR_BIT */
#include <errno.h>
/*
* RELATIVE-OID basic type description.
*/
static ber_tlv_tag_t asn_DEF_RELATIVE_OID_tags[] = {
(ASN_TAG_CLASS_UNIVERSAL | (13 << 2))
};
asn_TYPE_descriptor_t asn_DEF_RELATIVE_OID = {
"RELATIVE-OID",
"RELATIVE_OID",
ASN__PRIMITIVE_TYPE_free,
RELATIVE_OID_print,
asn_generic_no_constraint,
ber_decode_primitive,
der_encode_primitive,
RELATIVE_OID_decode_xer,
RELATIVE_OID_encode_xer,
0, 0,
0, /* Use generic outmost tag fetcher */
asn_DEF_RELATIVE_OID_tags,
sizeof(asn_DEF_RELATIVE_OID_tags)
/ sizeof(asn_DEF_RELATIVE_OID_tags[0]),
asn_DEF_RELATIVE_OID_tags, /* Same as above */
sizeof(asn_DEF_RELATIVE_OID_tags)
/ sizeof(asn_DEF_RELATIVE_OID_tags[0]),
0, /* No PER visible constraints */
0, 0, /* No members */
0 /* No specifics */
};
static ssize_t
RELATIVE_OID__dump_body(const RELATIVE_OID_t *st, asn_app_consume_bytes_f *cb, void *app_key) {
ssize_t wrote = 0;
ssize_t ret;
int startn;
int i;
for(i = 0, startn = 0; i < st->size; i++) {
uint8_t b = st->buf[i];
if((b & 0x80)) /* Continuation expected */
continue;
if(startn) {
/* Separate arcs */
if(cb(".", 1, app_key) < 0)
return -1;
wrote++;
}
ret = OBJECT_IDENTIFIER__dump_arc(&st->buf[startn],
i - startn + 1, 0, cb, app_key);
if(ret < 0) return -1;
wrote += ret;
startn = i + 1;
}
return wrote;
}
int
RELATIVE_OID_print(asn_TYPE_descriptor_t *td, const void *sptr, int ilevel,
asn_app_consume_bytes_f *cb, void *app_key) {
const RELATIVE_OID_t *st = (const RELATIVE_OID_t *)sptr;
(void)td; /* Unused argument */
(void)ilevel; /* Unused argument */
if(!st || !st->buf)
return (cb("<absent>", 8, app_key) < 0) ? -1 : 0;
/* Dump preamble */
if(cb("{ ", 2, app_key) < 0)
return -1;
if(RELATIVE_OID__dump_body(st, cb, app_key) < 0)
return -1;
return (cb(" }", 2, app_key) < 0) ? -1 : 0;
}
static enum xer_pbd_rval
RELATIVE_OID__xer_body_decode(asn_TYPE_descriptor_t *td, void *sptr, const void *chunk_buf, size_t chunk_size) {
RELATIVE_OID_t *st = (RELATIVE_OID_t *)sptr;
const char *chunk_end = (const char *)chunk_buf + chunk_size;
const char *endptr;
long s_arcs[6];
long *arcs = s_arcs;
int arcs_count;
int ret;
(void)td;
arcs_count = OBJECT_IDENTIFIER_parse_arcs(
(const char *)chunk_buf, chunk_size,
arcs, sizeof(s_arcs)/sizeof(s_arcs[0]), &endptr);
if(arcs_count < 0) {
/* Expecting at least zero arcs */
return XPBD_BROKEN_ENCODING;
}
if(endptr < chunk_end) {
/* We have a tail of unrecognized data. Check its safety. */
if(!xer_is_whitespace(endptr, chunk_end - endptr))
return XPBD_BROKEN_ENCODING;
}
if((size_t)arcs_count > sizeof(s_arcs)/sizeof(s_arcs[0])) {
arcs = (long *)MALLOC(arcs_count * sizeof(long));
if(!arcs) return XPBD_SYSTEM_FAILURE;
ret = OBJECT_IDENTIFIER_parse_arcs(
(const char *)chunk_buf, chunk_size,
arcs, arcs_count, &endptr);
if(ret != arcs_count)
return XPBD_SYSTEM_FAILURE; /* assert?.. */
}
/*
* Convert arcs into BER representation.
*/
ret = RELATIVE_OID_set_arcs(st, arcs, sizeof(*arcs), arcs_count);
if(arcs != s_arcs) FREEMEM(arcs);
return ret ? XPBD_SYSTEM_FAILURE : XPBD_BODY_CONSUMED;
}
asn_dec_rval_t
RELATIVE_OID_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,
sptr, sizeof(RELATIVE_OID_t), opt_mname,
buf_ptr, size, RELATIVE_OID__xer_body_decode);
}
asn_enc_rval_t
RELATIVE_OID_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) {
RELATIVE_OID_t *st = (RELATIVE_OID_t *)sptr;
asn_enc_rval_t er;
(void)ilevel; /* Unused argument */
(void)flags; /* Unused argument */
if(!st || !st->buf)
_ASN_ENCODE_FAILED;
er.encoded = RELATIVE_OID__dump_body(st, cb, app_key);
if(er.encoded < 0) _ASN_ENCODE_FAILED;
_ASN_ENCODED_OK(er);
}
int
RELATIVE_OID_get_arcs(RELATIVE_OID_t *roid,
void *arcs, unsigned int arc_type_size, unsigned int arc_slots) {
void *arcs_end = (char *)arcs + (arc_slots * arc_type_size);
int num_arcs = 0;
int startn = 0;
int i;
if(!roid || !roid->buf) {
errno = EINVAL;
return -1;
}
for(i = 0; i < roid->size; i++) {
uint8_t b = roid->buf[i];
if((b & 0x80)) /* Continuation expected */
continue;
if(arcs < arcs_end) {
if(OBJECT_IDENTIFIER_get_single_arc(
&roid->buf[startn],
i - startn + 1, 0,
arcs, arc_type_size))
return -1;
arcs = ((char *)arcs) + arc_type_size;
num_arcs++;
}
startn = i + 1;
}
return num_arcs;
}
int
RELATIVE_OID_set_arcs(RELATIVE_OID_t *roid, void *arcs, unsigned int arc_type_size, unsigned int arcs_slots) {
uint8_t *buf;
uint8_t *bp;
unsigned int size;
unsigned int i;
if(roid == NULL || arcs == NULL || arc_type_size < 1) {
errno = EINVAL;
return -1;
}
/*
* Roughly estimate the maximum size necessary to encode these arcs.
*/
size = ((arc_type_size * CHAR_BIT + 6) / 7) * arcs_slots;
bp = buf = (uint8_t *)MALLOC(size + 1);
if(!buf) {
/* ENOMEM */
return -1;
}
/*
* Encode the arcs.
*/
for(i = 0; i < arcs_slots; i++, arcs = ((char *)arcs) + arc_type_size) {
bp += OBJECT_IDENTIFIER_set_single_arc(bp,
arcs, arc_type_size, 0);
}
assert((unsigned)(bp - buf) <= size);
/*
* Replace buffer.
*/
roid->size = (int)(bp - buf);
bp = roid->buf;
roid->buf = buf;
if(bp) FREEMEM(bp);
return 0;
}
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