359 lines
10 KiB
C
359 lines
10 KiB
C
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/*-
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* Copyright (c) 2003, 2004, 2006 Lev Walkin <vlm@lionet.info>.
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* All rights reserved.
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* Redistribution and modifications are permitted subject to BSD license.
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*/
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#include <asn_internal.h>
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#include <constr_SEQUENCE_OF.h>
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#include <asn_SEQUENCE_OF.h>
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/*
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* The DER encoder of the SEQUENCE OF type.
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*/
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asn_enc_rval_t
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SEQUENCE_OF_encode_der(const asn_TYPE_descriptor_t *td, const void *ptr,
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int tag_mode, ber_tlv_tag_t tag,
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asn_app_consume_bytes_f *cb, void *app_key) {
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asn_TYPE_member_t *elm = td->elements;
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const asn_anonymous_sequence_ *list = _A_CSEQUENCE_FROM_VOID(ptr);
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size_t computed_size = 0;
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ssize_t encoding_size = 0;
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asn_enc_rval_t erval = {0,0,0};
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int edx;
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ASN_DEBUG("Estimating size of SEQUENCE OF %s", td->name);
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/*
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* Gather the length of the underlying members sequence.
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*/
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for(edx = 0; edx < list->count; edx++) {
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void *memb_ptr = list->array[edx];
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if(!memb_ptr) continue;
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erval = elm->type->op->der_encoder(elm->type, memb_ptr,
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0, elm->tag,
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0, 0);
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if(erval.encoded == -1)
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return erval;
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computed_size += erval.encoded;
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}
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/*
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* Encode the TLV for the sequence itself.
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*/
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encoding_size = der_write_tags(td, computed_size, tag_mode, 1, tag,
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cb, app_key);
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if(encoding_size == -1) {
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erval.encoded = -1;
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erval.failed_type = td;
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erval.structure_ptr = ptr;
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return erval;
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}
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computed_size += encoding_size;
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if(!cb) {
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erval.encoded = computed_size;
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ASN__ENCODED_OK(erval);
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}
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ASN_DEBUG("Encoding members of SEQUENCE OF %s", td->name);
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/*
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* Encode all members.
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*/
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for(edx = 0; edx < list->count; edx++) {
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void *memb_ptr = list->array[edx];
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if(!memb_ptr) continue;
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erval = elm->type->op->der_encoder(elm->type, memb_ptr,
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0, elm->tag,
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cb, app_key);
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if(erval.encoded == -1)
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return erval;
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encoding_size += erval.encoded;
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}
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if(computed_size != (size_t)encoding_size) {
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/*
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* Encoded size is not equal to the computed size.
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*/
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erval.encoded = -1;
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erval.failed_type = td;
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erval.structure_ptr = ptr;
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} else {
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erval.encoded = computed_size;
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erval.structure_ptr = 0;
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erval.failed_type = 0;
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}
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return erval;
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}
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asn_enc_rval_t
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SEQUENCE_OF_encode_xer(const asn_TYPE_descriptor_t *td, const void *sptr,
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int ilevel, enum xer_encoder_flags_e flags,
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asn_app_consume_bytes_f *cb, void *app_key) {
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asn_enc_rval_t er = {0,0,0};
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const asn_SET_OF_specifics_t *specs = (const asn_SET_OF_specifics_t *)td->specifics;
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const asn_TYPE_member_t *elm = td->elements;
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const asn_anonymous_sequence_ *list = _A_CSEQUENCE_FROM_VOID(sptr);
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const char *mname = specs->as_XMLValueList
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? 0
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: ((*elm->name) ? elm->name : elm->type->xml_tag);
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size_t mlen = mname ? strlen(mname) : 0;
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int xcan = (flags & XER_F_CANONICAL);
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int i;
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if(!sptr) ASN__ENCODE_FAILED;
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er.encoded = 0;
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for(i = 0; i < list->count; i++) {
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asn_enc_rval_t tmper = {0,0,0};
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void *memb_ptr = list->array[i];
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if(!memb_ptr) continue;
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if(mname) {
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if(!xcan) ASN__TEXT_INDENT(1, ilevel);
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ASN__CALLBACK3("<", 1, mname, mlen, ">", 1);
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}
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tmper = elm->type->op->xer_encoder(elm->type, memb_ptr, ilevel + 1,
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flags, cb, app_key);
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if(tmper.encoded == -1) return tmper;
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er.encoded += tmper.encoded;
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if(tmper.encoded == 0 && specs->as_XMLValueList) {
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const char *name = elm->type->xml_tag;
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size_t len = strlen(name);
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if(!xcan) ASN__TEXT_INDENT(1, ilevel + 1);
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ASN__CALLBACK3("<", 1, name, len, "/>", 2);
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}
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if(mname) {
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ASN__CALLBACK3("</", 2, mname, mlen, ">", 1);
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}
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}
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if(!xcan) ASN__TEXT_INDENT(1, ilevel - 1);
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ASN__ENCODED_OK(er);
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cb_failed:
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ASN__ENCODE_FAILED;
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}
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#ifndef ASN_DISABLE_PER_SUPPORT
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asn_enc_rval_t
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SEQUENCE_OF_encode_uper(const asn_TYPE_descriptor_t *td,
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const asn_per_constraints_t *constraints,
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const void *sptr, asn_per_outp_t *po) {
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const asn_anonymous_sequence_ *list;
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const asn_per_constraint_t *ct;
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asn_enc_rval_t er = {0,0,0};
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const asn_TYPE_member_t *elm = td->elements;
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size_t encoded_edx;
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if(!sptr) ASN__ENCODE_FAILED;
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list = _A_CSEQUENCE_FROM_VOID(sptr);
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er.encoded = 0;
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ASN_DEBUG("Encoding %s as SEQUENCE OF (%d)", td->name, list->count);
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if(constraints) ct = &constraints->size;
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else if(td->encoding_constraints.per_constraints)
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ct = &td->encoding_constraints.per_constraints->size;
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else ct = 0;
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/* If extensible constraint, check if size is in root */
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if(ct) {
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int not_in_root =
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(list->count < ct->lower_bound || list->count > ct->upper_bound);
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ASN_DEBUG("lb %ld ub %ld %s", ct->lower_bound, ct->upper_bound,
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ct->flags & APC_EXTENSIBLE ? "ext" : "fix");
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if(ct->flags & APC_EXTENSIBLE) {
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/* Declare whether size is in extension root */
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if(per_put_few_bits(po, not_in_root, 1)) ASN__ENCODE_FAILED;
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if(not_in_root) ct = 0;
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} else if(not_in_root && ct->effective_bits >= 0) {
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ASN__ENCODE_FAILED;
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}
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}
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if(ct && ct->effective_bits >= 0) {
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/* X.691, #19.5: No length determinant */
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if(per_put_few_bits(po, list->count - ct->lower_bound,
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ct->effective_bits))
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ASN__ENCODE_FAILED;
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} else if(list->count == 0) {
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/* When the list is empty add only the length determinant
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* X.691, #20.6 and #11.9.4.1
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*/
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if (uper_put_length(po, 0, 0)) {
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ASN__ENCODE_FAILED;
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}
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ASN__ENCODED_OK(er);
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}
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for(encoded_edx = 0; (ssize_t)encoded_edx < list->count;) {
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ssize_t may_encode;
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size_t edx;
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int need_eom = 0;
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if(ct && ct->effective_bits >= 0) {
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may_encode = list->count;
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} else {
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may_encode =
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uper_put_length(po, list->count - encoded_edx, &need_eom);
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if(may_encode < 0) ASN__ENCODE_FAILED;
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}
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for(edx = encoded_edx; edx < encoded_edx + may_encode; edx++) {
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void *memb_ptr = list->array[edx];
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if(!memb_ptr) ASN__ENCODE_FAILED;
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er = elm->type->op->uper_encoder(
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elm->type, elm->encoding_constraints.per_constraints, memb_ptr,
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po);
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if(er.encoded == -1) ASN__ENCODE_FAILED;
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}
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if(need_eom && uper_put_length(po, 0, 0))
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ASN__ENCODE_FAILED; /* End of Message length */
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encoded_edx += may_encode;
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}
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ASN__ENCODED_OK(er);
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}
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asn_enc_rval_t
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SEQUENCE_OF_encode_aper(const asn_TYPE_descriptor_t *td,
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const asn_per_constraints_t *constraints,
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const void *sptr, asn_per_outp_t *po) {
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const asn_anonymous_sequence_ *list;
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const asn_per_constraint_t *ct;
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asn_enc_rval_t er = {0,0,0};
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asn_TYPE_member_t *elm = td->elements;
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int seq;
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if(!sptr) ASN__ENCODE_FAILED;
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list = _A_CSEQUENCE_FROM_VOID(sptr);
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er.encoded = 0;
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ASN_DEBUG("Encoding %s as SEQUENCE OF size (%d) using ALIGNED PER", td->name, list->count);
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if(constraints) ct = &constraints->size;
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else if(td->encoding_constraints.per_constraints)
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ct = &td->encoding_constraints.per_constraints->size;
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else ct = 0;
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/* If extensible constraint, check if size is in root */
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if(ct) {
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int not_in_root = (list->count < ct->lower_bound
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|| list->count > ct->upper_bound);
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ASN_DEBUG("lb %ld ub %ld %s",
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ct->lower_bound, ct->upper_bound,
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ct->flags & APC_EXTENSIBLE ? "ext" : "fix");
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if(ct->flags & APC_EXTENSIBLE) {
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/* Declare whether size is in extension root */
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if(per_put_few_bits(po, not_in_root, 1))
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ASN__ENCODE_FAILED;
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if(not_in_root) ct = 0;
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} else if(not_in_root && ct->effective_bits >= 0)
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ASN__ENCODE_FAILED;
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}
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if(ct && ct->effective_bits >= 0) {
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/* X.691, #19.5: No length determinant */
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/* if(per_put_few_bits(po, list->count - ct->lower_bound,
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ct->effective_bits))
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ASN__ENCODE_FAILED;
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*/
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if (aper_put_length(po, ct->upper_bound - ct->lower_bound + 1, list->count - ct->lower_bound) < 0)
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ASN__ENCODE_FAILED;
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}
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for(seq = -1; seq < list->count;) {
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ssize_t mayEncode;
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if(seq < 0) seq = 0;
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if(ct && ct->effective_bits >= 0) {
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mayEncode = list->count;
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} else {
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mayEncode = aper_put_length(po, -1, list->count - seq);
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if(mayEncode < 0) ASN__ENCODE_FAILED;
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}
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while(mayEncode--) {
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void *memb_ptr = list->array[seq++];
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if(!memb_ptr) ASN__ENCODE_FAILED;
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er = elm->type->op->aper_encoder(elm->type,
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elm->encoding_constraints.per_constraints, memb_ptr, po);
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if(er.encoded == -1)
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ASN__ENCODE_FAILED;
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}
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}
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ASN__ENCODED_OK(er);
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}
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#endif /* ASN_DISABLE_PER_SUPPORT */
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int
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SEQUENCE_OF_compare(const asn_TYPE_descriptor_t *td, const void *aptr,
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const void *bptr) {
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const asn_anonymous_sequence_ *a = _A_CSEQUENCE_FROM_VOID(aptr);
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const asn_anonymous_sequence_ *b = _A_CSEQUENCE_FROM_VOID(bptr);
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ssize_t idx;
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if(a && b) {
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ssize_t common_length = (a->count < b->count ? a->count : b->count);
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for(idx = 0; idx < common_length; idx++) {
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int ret = td->elements->type->op->compare_struct(
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td->elements->type, a->array[idx], b->array[idx]);
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if(ret) return ret;
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}
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if(idx < b->count) /* more elements in b */
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return -1; /* a is shorter, so put it first */
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if(idx < a->count) return 1;
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} else if(!a) {
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return -1;
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} else if(!b) {
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return 1;
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}
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return 0;
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}
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asn_TYPE_operation_t asn_OP_SEQUENCE_OF = {
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SEQUENCE_OF_free,
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SEQUENCE_OF_print,
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SEQUENCE_OF_compare,
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SEQUENCE_OF_decode_ber,
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SEQUENCE_OF_encode_der,
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SEQUENCE_OF_decode_xer,
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SEQUENCE_OF_encode_xer,
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#ifdef ASN_DISABLE_OER_SUPPORT
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0,
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0,
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#else
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SEQUENCE_OF_decode_oer, /* Same as SET OF decoder. */
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SEQUENCE_OF_encode_oer, /* Same as SET OF encoder */
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#endif /* ASN_DISABLE_OER_SUPPORT */
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#ifdef ASN_DISABLE_PER_SUPPORT
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0,
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0,
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0,
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0,
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#else
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SEQUENCE_OF_decode_uper, /* Same as SET OF decoder */
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SEQUENCE_OF_encode_uper,
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SEQUENCE_OF_decode_aper,
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SEQUENCE_OF_encode_aper,
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#endif /* ASN_DISABLE_PER_SUPPORT */
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SEQUENCE_OF_random_fill,
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0 /* Use generic outmost tag fetcher */
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};
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