/* * libpri: An implementation of Primary Rate ISDN * * Copyright (C) 2009 Digium, Inc. * * Richard Mudgett * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2 as published by the * Free Software Foundation. See the LICENSE file included with * this program for more details. * * In addition, when this program is distributed with Asterisk in * any form that would qualify as a 'combined work' or as a * 'derivative work' (but not mere aggregation), you can redistribute * and/or modify the combination under the terms of the license * provided with that copy of Asterisk, instead of the license * terms granted here. */ /*! * \file * \brief Q.SIG ROSE Call-Diversion-Operations * * Call-Diversion-Operations ECMA-174 Annex F Table F.1 * * \author Richard Mudgett */ #include "compat.h" #include "libpri.h" #include "pri_internal.h" #include "rose.h" #include "rose_internal.h" #include "asn1.h" /* ------------------------------------------------------------------- */ /*! * \internal * \brief Encode the IntResult type. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param tag Component tag to identify the encoded component. * The tag should be ASN1_TAG_SEQUENCE unless the caller implicitly * tags it otherwise. * \param int_result Forwarding record information to encode. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ static unsigned char *rose_enc_qsig_IntResult(struct pri *ctrl, unsigned char *pos, unsigned char *end, unsigned tag, const struct roseQsigForwardingRecord *int_result) { unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, tag); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &int_result->served_user_number)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, int_result->basic_service)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, int_result->procedure)); ASN1_CALL(pos, rose_enc_Address(ctrl, pos, end, ASN1_TAG_SEQUENCE, &int_result->diverted_to)); if (int_result->remote_enabled) { /* Not the DEFAULT value */ ASN1_CALL(pos, asn1_enc_boolean(pos, end, ASN1_TYPE_BOOLEAN, int_result->remote_enabled)); } /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \internal * \brief Encode the IntResultList type. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param tag Component tag to identify the encoded component. * The tag should be ASN1_TAG_SET unless the caller implicitly * tags it otherwise. * \param int_result_list Forwarding record list information to encode. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ static unsigned char *rose_enc_qsig_IntResultList(struct pri *ctrl, unsigned char *pos, unsigned char *end, unsigned tag, const struct roseQsigForwardingList *int_result_list) { unsigned index; unsigned char *set_len; ASN1_CONSTRUCTED_BEGIN(set_len, pos, end, tag); for (index = 0; index < int_result_list->num_records; ++index) { ASN1_CALL(pos, rose_enc_qsig_IntResult(ctrl, pos, end, ASN1_TAG_SEQUENCE, &int_result_list->list[index])); } ASN1_CONSTRUCTED_END(set_len, pos, end); return pos; } /*! * \brief Encode the ActivateDiversionQ invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_ActivateDiversionQ_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigActivateDiversionQ_ARG *activate_diversion_q; unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); activate_diversion_q = &args->qsig.ActivateDiversionQ; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, activate_diversion_q->procedure)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, activate_diversion_q->basic_service)); ASN1_CALL(pos, rose_enc_Address(ctrl, pos, end, ASN1_TAG_SEQUENCE, &activate_diversion_q->diverted_to)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &activate_diversion_q->served_user_number)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &activate_diversion_q->activating_user_number)); /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the DeactivateDiversionQ invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_DeactivateDiversionQ_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigDeactivateDiversionQ_ARG *deactivate_diversion_q; unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); deactivate_diversion_q = &args->qsig.DeactivateDiversionQ; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, deactivate_diversion_q->procedure)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, deactivate_diversion_q->basic_service)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &deactivate_diversion_q->served_user_number)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &deactivate_diversion_q->deactivating_user_number)); /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the InterrogateDiversionQ invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_InterrogateDiversionQ_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigInterrogateDiversionQ_ARG *interrogate_diversion_q; unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); interrogate_diversion_q = &args->qsig.InterrogateDiversionQ; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, interrogate_diversion_q->procedure)); if (interrogate_diversion_q->basic_service) { /* Not the DEFAULT value */ ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, interrogate_diversion_q->basic_service)); } ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &interrogate_diversion_q->served_user_number)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &interrogate_diversion_q->interrogating_user_number)); /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the InterrogateDiversionQ result facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_InterrogateDiversionQ_RES(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_result_args *args) { return rose_enc_qsig_IntResultList(ctrl, pos, end, ASN1_TAG_SET, &args->qsig.InterrogateDiversionQ); } /*! * \brief Encode the CheckRestriction invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_CheckRestriction_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigCheckRestriction_ARG *check_restriction; unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); check_restriction = &args->qsig.CheckRestriction; ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &check_restriction->served_user_number)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, check_restriction->basic_service)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &check_restriction->diverted_to_number)); /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the CallRerouting invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_CallRerouting_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigCallRerouting_ARG *call_rerouting; unsigned char *seq_len; unsigned char *exp_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); call_rerouting = &args->qsig.CallRerouting; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, call_rerouting->rerouting_reason)); if (call_rerouting->original_rerouting_reason_present) { ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 0, call_rerouting->original_rerouting_reason)); } ASN1_CALL(pos, rose_enc_Address(ctrl, pos, end, ASN1_TAG_SEQUENCE, &call_rerouting->called)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_INTEGER, call_rerouting->diversion_counter)); ASN1_CALL(pos, rose_enc_Q931ie(ctrl, pos, end, ASN1_CLASS_APPLICATION | 0, &call_rerouting->q931ie)); /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 1); ASN1_CALL(pos, rose_enc_PresentedNumberUnscreened(ctrl, pos, end, &call_rerouting->last_rerouting)); ASN1_CONSTRUCTED_END(exp_len, pos, end); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 2, call_rerouting->subscription_option)); if (call_rerouting->calling_subaddress.length) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 3); ASN1_CALL(pos, rose_enc_PartySubaddress(ctrl, pos, end, &call_rerouting->calling_subaddress)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 4); ASN1_CALL(pos, rose_enc_PresentedNumberScreened(ctrl, pos, end, &call_rerouting->calling)); ASN1_CONSTRUCTED_END(exp_len, pos, end); if (call_rerouting->calling_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 5); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &call_rerouting->calling_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (call_rerouting->original_called_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 6); ASN1_CALL(pos, rose_enc_PresentedNumberUnscreened(ctrl, pos, end, &call_rerouting->original_called)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (call_rerouting->redirecting_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 7); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &call_rerouting->redirecting_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (call_rerouting->original_called_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 8); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &call_rerouting->original_called_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the DivertingLegInformation1 invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_DivertingLegInformation1_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigDivertingLegInformation1_ARG *diverting_leg_information_1; unsigned char *seq_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); diverting_leg_information_1 = &args->qsig.DivertingLegInformation1; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, diverting_leg_information_1->diversion_reason)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, diverting_leg_information_1->subscription_option)); ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end, &diverting_leg_information_1->nominated_number)); /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the DivertingLegInformation2 invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_DivertingLegInformation2_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigDivertingLegInformation2_ARG *diverting_leg_information_2; unsigned char *seq_len; unsigned char *exp_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); diverting_leg_information_2 = &args->qsig.DivertingLegInformation2; ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_INTEGER, diverting_leg_information_2->diversion_counter)); ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED, diverting_leg_information_2->diversion_reason)); if (diverting_leg_information_2->original_diversion_reason_present) { ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 0, diverting_leg_information_2->original_diversion_reason)); } if (diverting_leg_information_2->diverting_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 1); ASN1_CALL(pos, rose_enc_PresentedNumberUnscreened(ctrl, pos, end, &diverting_leg_information_2->diverting)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (diverting_leg_information_2->original_called_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 2); ASN1_CALL(pos, rose_enc_PresentedNumberUnscreened(ctrl, pos, end, &diverting_leg_information_2->original_called)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (diverting_leg_information_2->redirecting_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 3); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &diverting_leg_information_2->redirecting_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } if (diverting_leg_information_2->original_called_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 4); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &diverting_leg_information_2->original_called_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \brief Encode the DivertingLegInformation3 invoke facility ie arguments. * * \param ctrl D channel controller for diagnostic messages or global options. * \param pos Starting position to encode ASN.1 component. * \param end End of ASN.1 encoding data buffer. * \param args Arguments to encode in the buffer. * * \retval Start of the next ASN.1 component to encode on success. * \retval NULL on error. */ unsigned char *rose_enc_qsig_DivertingLegInformation3_ARG(struct pri *ctrl, unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args) { const struct roseQsigDivertingLegInformation3_ARG *diverting_leg_information_3; unsigned char *seq_len; unsigned char *exp_len; ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE); diverting_leg_information_3 = &args->qsig.DivertingLegInformation3; ASN1_CALL(pos, asn1_enc_boolean(pos, end, ASN1_TYPE_BOOLEAN, diverting_leg_information_3->presentation_allowed_indicator)); if (diverting_leg_information_3->redirection_name_present) { /* EXPLICIT tag */ ASN1_CONSTRUCTED_BEGIN(exp_len, pos, end, ASN1_CLASS_CONTEXT_SPECIFIC | 0); ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end, &diverting_leg_information_3->redirection_name)); ASN1_CONSTRUCTED_END(exp_len, pos, end); } /* No extension to encode */ ASN1_CONSTRUCTED_END(seq_len, pos, end); return pos; } /*! * \internal * \brief Decode the IntResult argument parameters. * * \param ctrl D channel controller for any diagnostic messages. * \param name Field name * \param tag Component tag that identified this production. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param int_result Parameter storage to fill. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ static const unsigned char *rose_dec_qsig_IntResult(struct pri *ctrl, const char *name, unsigned tag, const unsigned char *pos, const unsigned char *end, struct roseQsigForwardingRecord *int_result) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; const unsigned char *save_pos; if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " %s IntResult %s\n", name, asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "servedUserNr", tag, pos, seq_end, &int_result->served_user_number)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "basicService", tag, pos, seq_end, &value)); int_result->basic_service = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "procedure", tag, pos, seq_end, &value)); int_result->procedure = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); ASN1_CALL(pos, rose_dec_Address(ctrl, "divertedToAddress", tag, pos, seq_end, &int_result->diverted_to)); /* * A sequence specifies an ordered list of component types. * However, for simplicity we are not checking the order of * the remaining optional components. */ int_result->remote_enabled = 0; /* DEFAULT FALSE */ while (pos < seq_end && *pos != ASN1_INDEF_TERM) { save_pos = pos; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); switch (tag & ~ASN1_PC_MASK) { case ASN1_TYPE_BOOLEAN: /* Must not be constructed but we will not check for it for simplicity. */ ASN1_CALL(pos, asn1_dec_boolean(ctrl, "remoteEnabled", tag, pos, seq_end, &value)); int_result->remote_enabled = value; break; case ASN1_CLASS_CONTEXT_SPECIFIC | 1: case ASN1_CLASS_CONTEXT_SPECIFIC | 2: if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " extension %s\n", asn1_tag2str(tag)); } /* Fixup will skip over the manufacturer extension information */ default: pos = save_pos; goto cancel_options; } } cancel_options:; ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \internal * \brief Decode the IntResultList argument parameters. * * \param ctrl D channel controller for any diagnostic messages. * \param name Field name * \param tag Component tag that identified this production. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param int_result_list Parameter storage to fill. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ static const unsigned char *rose_dec_qsig_IntResultList(struct pri *ctrl, const char *name, unsigned tag, const unsigned char *pos, const unsigned char *end, struct roseQsigForwardingList *int_result_list) { int length; int set_offset; const unsigned char *set_end; if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " %s IntResultList %s\n", name, asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(set_end, set_offset, length, pos, end); int_result_list->num_records = 0; while (pos < set_end && *pos != ASN1_INDEF_TERM) { if (int_result_list->num_records < ARRAY_LEN(int_result_list->list)) { ASN1_CALL(pos, asn1_dec_tag(pos, set_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); ASN1_CALL(pos, rose_dec_qsig_IntResult(ctrl, "listEntry", tag, pos, set_end, &int_result_list->list[int_result_list->num_records])); ++int_result_list->num_records; } else { /* Too many records */ return NULL; } } ASN1_END_FIXUP(ctrl, pos, set_offset, set_end, end); return pos; } /*! * \brief Decode the Q.SIG ActivateDiversionQ invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_ActivateDiversionQ_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; struct roseQsigActivateDiversionQ_ARG *activate_diversion_q; activate_diversion_q = &args->qsig.ActivateDiversionQ; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " ActivateDiversionQ %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "procedure", tag, pos, seq_end, &value)); activate_diversion_q->procedure = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "basicService", tag, pos, seq_end, &value)); activate_diversion_q->basic_service = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); ASN1_CALL(pos, rose_dec_Address(ctrl, "divertedToAddress", tag, pos, seq_end, &activate_diversion_q->diverted_to)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "servedUserNr", tag, pos, seq_end, &activate_diversion_q->served_user_number)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "activatingUserNr", tag, pos, seq_end, &activate_diversion_q->activating_user_number)); /* Fixup will skip over any OPTIONAL manufacturer extension information */ ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG DeactivateDiversionQ invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_DeactivateDiversionQ_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; struct roseQsigDeactivateDiversionQ_ARG *deactivate_diversion_q; deactivate_diversion_q = &args->qsig.DeactivateDiversionQ; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " DeactivateDiversionQ %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "procedure", tag, pos, seq_end, &value)); deactivate_diversion_q->procedure = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "basicService", tag, pos, seq_end, &value)); deactivate_diversion_q->basic_service = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "servedUserNr", tag, pos, seq_end, &deactivate_diversion_q->served_user_number)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "deactivatingUserNr", tag, pos, seq_end, &deactivate_diversion_q->deactivating_user_number)); /* Fixup will skip over any OPTIONAL manufacturer extension information */ ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG InterrogateDiversionQ invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_InterrogateDiversionQ_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; struct roseQsigInterrogateDiversionQ_ARG *interrogate_diversion_q; interrogate_diversion_q = &args->qsig.InterrogateDiversionQ; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " InterrogateDiversionQ %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "procedure", tag, pos, seq_end, &value)); interrogate_diversion_q->procedure = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); if (tag == ASN1_TYPE_ENUMERATED) { ASN1_CALL(pos, asn1_dec_int(ctrl, "basicService", tag, pos, seq_end, &value)); interrogate_diversion_q->basic_service = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); } else { interrogate_diversion_q->basic_service = 0; /* allServices */ } ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "servedUserNr", tag, pos, seq_end, &interrogate_diversion_q->served_user_number)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "interrogatingUserNr", tag, pos, seq_end, &interrogate_diversion_q->interrogating_user_number)); /* Fixup will skip over any OPTIONAL manufacturer extension information */ ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG InterrogateDiversionQ result argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_InterrogateDiversionQ_RES(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_result_args *args) { ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SET); return rose_dec_qsig_IntResultList(ctrl, "InterrogateDiversionQ", tag, pos, end, &args->qsig.InterrogateDiversionQ); } /*! * \brief Decode the Q.SIG CheckRestriction invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_CheckRestriction_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; struct roseQsigCheckRestriction_ARG *check_restriction; check_restriction = &args->qsig.CheckRestriction; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " CheckRestriction %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "servedUserNr", tag, pos, seq_end, &check_restriction->served_user_number)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "basicService", tag, pos, seq_end, &value)); check_restriction->basic_service = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "divertedToNr", tag, pos, seq_end, &check_restriction->diverted_to_number)); /* Fixup will skip over any OPTIONAL manufacturer extension information */ ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG CallRerouting invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_CallRerouting_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; int explicit_offset; const unsigned char *explicit_end; const unsigned char *seq_end; const unsigned char *save_pos; struct roseQsigCallRerouting_ARG *call_rerouting; call_rerouting = &args->qsig.CallRerouting; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " CallRerouting %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "reroutingReason", tag, pos, seq_end, &value)); call_rerouting->rerouting_reason = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); if (tag == (ASN1_CLASS_CONTEXT_SPECIFIC | 0)) { ASN1_CALL(pos, asn1_dec_int(ctrl, "originalReroutingReason", tag, pos, seq_end, &value)); call_rerouting->original_rerouting_reason = value; call_rerouting->original_rerouting_reason_present = 1; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); } else { call_rerouting->original_rerouting_reason_present = 0; } ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); ASN1_CALL(pos, rose_dec_Address(ctrl, "calledAddress", tag, pos, seq_end, &call_rerouting->called)); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_INTEGER); ASN1_CALL(pos, asn1_dec_int(ctrl, "diversionCounter", tag, pos, seq_end, &value)); call_rerouting->diversion_counter = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag & ~ASN1_PC_MASK, ASN1_CLASS_APPLICATION | 0); ASN1_CALL(pos, rose_dec_Q931ie(ctrl, "pSS1InfoElement", tag, pos, seq_end, &call_rerouting->q931ie, sizeof(call_rerouting->q931ie_contents))); /* Remove EXPLICIT tag */ ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 1); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PresentedNumberUnscreened(ctrl, "lastReroutingNr", tag, pos, explicit_end, &call_rerouting->last_rerouting)); ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_CLASS_CONTEXT_SPECIFIC | 2); ASN1_CALL(pos, asn1_dec_int(ctrl, "subscriptionOption", tag, pos, seq_end, &value)); call_rerouting->subscription_option = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); if (tag == (ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 3)) { /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PartySubaddress(ctrl, "callingPartySubaddress", tag, pos, explicit_end, &call_rerouting->calling_subaddress)); ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); } else { call_rerouting->calling_subaddress.length = 0; } /* Remove EXPLICIT tag */ ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 4); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PresentedNumberScreened(ctrl, "callingNumber", tag, pos, explicit_end, &call_rerouting->calling)); ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); /* * A sequence specifies an ordered list of component types. * However, for simplicity we are not checking the order of * the remaining optional components. */ call_rerouting->calling_name_present = 0; call_rerouting->redirecting_name_present = 0; call_rerouting->original_called_name_present = 0; call_rerouting->original_called_present = 0; while (pos < seq_end && *pos != ASN1_INDEF_TERM) { save_pos = pos; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); switch (tag) { case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 5: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "callingName", tag, pos, explicit_end, &call_rerouting->calling_name)); call_rerouting->calling_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 6: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PresentedNumberUnscreened(ctrl, "originalCalledNr", tag, pos, explicit_end, &call_rerouting->original_called)); call_rerouting->original_called_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 7: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "redirectingName", tag, pos, explicit_end, &call_rerouting->redirecting_name)); call_rerouting->redirecting_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 8: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "originalCalledName", tag, pos, explicit_end, &call_rerouting->original_called_name)); call_rerouting->original_called_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | 9: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 9: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 10: if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " extension %s\n", asn1_tag2str(tag)); } /* Fixup will skip over the manufacturer extension information */ default: pos = save_pos; goto cancel_options; } } cancel_options:; ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG DivertingLegInformation1 invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_DivertingLegInformation1_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; const unsigned char *seq_end; struct roseQsigDivertingLegInformation1_ARG *diverting_leg_information_1; diverting_leg_information_1 = &args->qsig.DivertingLegInformation1; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " DivertingLegInformation1 %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "diversionReason", tag, pos, seq_end, &value)); diverting_leg_information_1->diversion_reason = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "subscriptionOption", tag, pos, seq_end, &value)); diverting_leg_information_1->subscription_option = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "nominatedNr", tag, pos, seq_end, &diverting_leg_information_1->nominated_number)); /* Fixup will skip over any OPTIONAL manufacturer extension information */ ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG DivertingLegInformation2 invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_DivertingLegInformation2_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; int explicit_offset; const unsigned char *explicit_end; const unsigned char *seq_end; const unsigned char *save_pos; struct roseQsigDivertingLegInformation2_ARG *diverting_leg_information_2; diverting_leg_information_2 = &args->qsig.DivertingLegInformation2; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " DivertingLegInformation2 %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_INTEGER); ASN1_CALL(pos, asn1_dec_int(ctrl, "diversionCounter", tag, pos, seq_end, &value)); diverting_leg_information_2->diversion_counter = value; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_ENUMERATED); ASN1_CALL(pos, asn1_dec_int(ctrl, "diversionReason", tag, pos, seq_end, &value)); diverting_leg_information_2->diversion_reason = value; /* * A sequence specifies an ordered list of component types. * However, for simplicity we are not checking the order of * the remaining optional components. */ diverting_leg_information_2->original_diversion_reason_present = 0; diverting_leg_information_2->diverting_present = 0; diverting_leg_information_2->original_called_present = 0; diverting_leg_information_2->redirecting_name_present = 0; diverting_leg_information_2->original_called_name_present = 0; while (pos < seq_end && *pos != ASN1_INDEF_TERM) { save_pos = pos; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); switch (tag) { case ASN1_CLASS_CONTEXT_SPECIFIC | 0: ASN1_CALL(pos, asn1_dec_int(ctrl, "originalDiversionReason", tag, pos, seq_end, &value)); diverting_leg_information_2->original_diversion_reason = value; diverting_leg_information_2->original_diversion_reason_present = 1; break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 1: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PresentedNumberUnscreened(ctrl, "divertingNr", tag, pos, explicit_end, &diverting_leg_information_2->diverting)); diverting_leg_information_2->diverting_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 2: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_PresentedNumberUnscreened(ctrl, "originalCalledNr", tag, pos, explicit_end, &diverting_leg_information_2->original_called)); diverting_leg_information_2->original_called_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 3: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "redirectingName", tag, pos, explicit_end, &diverting_leg_information_2->redirecting_name)); diverting_leg_information_2->redirecting_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 4: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "originalCalledName", tag, pos, explicit_end, &diverting_leg_information_2->original_called_name)); diverting_leg_information_2->original_called_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | 5: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 5: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 6: if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " extension %s\n", asn1_tag2str(tag)); } /* Fixup will skip over the manufacturer extension information */ default: pos = save_pos; goto cancel_options; } } cancel_options:; ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /*! * \brief Decode the Q.SIG DivertingLegInformation3 invoke argument parameters. * * \param ctrl D channel controller for diagnostic messages or global options. * \param tag Component tag that identified this structure. * \param pos Starting position of the ASN.1 component length. * \param end End of ASN.1 decoding data buffer. * \param args Arguments to fill in from the decoded buffer. * * \retval Start of the next ASN.1 component on success. * \retval NULL on error. */ const unsigned char *rose_dec_qsig_DivertingLegInformation3_ARG(struct pri *ctrl, unsigned tag, const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args) { int32_t value; int length; int seq_offset; int explicit_offset; const unsigned char *explicit_end; const unsigned char *seq_end; const unsigned char *save_pos; struct roseQsigDivertingLegInformation3_ARG *diverting_leg_information_3; diverting_leg_information_3 = &args->qsig.DivertingLegInformation3; ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE); if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " DivertingLegInformation3 %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, end, &length)); ASN1_END_SETUP(seq_end, seq_offset, length, pos, end); ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TYPE_BOOLEAN); ASN1_CALL(pos, asn1_dec_boolean(ctrl, "presentationAllowedIndicator", tag, pos, seq_end, &value)); diverting_leg_information_3->presentation_allowed_indicator = value; /* * A sequence specifies an ordered list of component types. * However, for simplicity we are not checking the order of * the remaining optional components. */ diverting_leg_information_3->redirection_name_present = 0; while (pos < seq_end && *pos != ASN1_INDEF_TERM) { save_pos = pos; ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag)); switch (tag) { case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 0: /* Remove EXPLICIT tag */ if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " Explicit %s\n", asn1_tag2str(tag)); } ASN1_CALL(pos, asn1_dec_length(pos, seq_end, &length)); ASN1_END_SETUP(explicit_end, explicit_offset, length, pos, seq_end); ASN1_CALL(pos, asn1_dec_tag(pos, explicit_end, &tag)); ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "redirectionName", tag, pos, explicit_end, &diverting_leg_information_3->redirection_name)); diverting_leg_information_3->redirection_name_present = 1; ASN1_END_FIXUP(ctrl, pos, explicit_offset, explicit_end, seq_end); break; case ASN1_CLASS_CONTEXT_SPECIFIC | 1: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 1: case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 2: if (ctrl->debug & PRI_DEBUG_APDU) { pri_message(ctrl, " extension %s\n", asn1_tag2str(tag)); } /* Fixup will skip over the manufacturer extension information */ default: pos = save_pos; goto cancel_options; } } cancel_options:; ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end); return pos; } /* ------------------------------------------------------------------- */ /* end rose_qsig_diversion.c */