libpri/rose_qsig_ct.c
Richard Mudgett ba45095c5a ROSE ASN.1 facility encode and decode rewrite of existing messages.
Several components are now parsed correctly.  Most notably:
PartyNumber and Q.SIG Name.


git-svn-id: https://origsvn.digium.com/svn/libpri/branches/1.4@766 2fbb986a-6c06-0410-b554-c9c1f0a7f128
2009-04-21 22:08:45 +00:00

884 lines
30 KiB
C

/*
* libpri: An implementation of Primary Rate ISDN
*
* Copyright (C) 2009 Digium, Inc.
*
* Richard Mudgett <rmudgett@digium.com>
*
* 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-Transfer-Operations (CT)
*
* Call-Transfer-Operations ECMA-178 Annex F Table F.1
*
* \author Richard Mudgett <rmudgett@digium.com>
*/
#include "compat.h"
#include "libpri.h"
#include "pri_internal.h"
#include "rose.h"
#include "rose_internal.h"
#include "asn1.h"
/* ------------------------------------------------------------------- */
/*!
* \brief Encode the Q.SIG CallTransferIdentify 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_CallTransferIdentify_RES(struct pri *ctrl,
unsigned char *pos, unsigned char *end, const union rose_msg_result_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTIdentifyRes_RES *call_transfer_identify;
call_transfer_identify = &args->qsig.CallTransferIdentify;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, asn1_enc_string_max(pos, end, ASN1_TYPE_NUMERIC_STRING,
call_transfer_identify->call_id, sizeof(call_transfer_identify->call_id) - 1));
ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end,
&call_transfer_identify->rerouting_number));
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG CallTransferInitiate 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_CallTransferInitiate_ARG(struct pri *ctrl,
unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTInitiateArg_ARG *call_transfer_initiate;
call_transfer_initiate = &args->qsig.CallTransferInitiate;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, asn1_enc_string_max(pos, end, ASN1_TYPE_NUMERIC_STRING,
call_transfer_initiate->call_id, sizeof(call_transfer_initiate->call_id) - 1));
ASN1_CALL(pos, rose_enc_PartyNumber(ctrl, pos, end,
&call_transfer_initiate->rerouting_number));
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG CallTransferSetup 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_CallTransferSetup_ARG(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTSetupArg_ARG *call_transfer_setup;
call_transfer_setup = &args->qsig.CallTransferSetup;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, asn1_enc_string_max(pos, end, ASN1_TYPE_NUMERIC_STRING,
call_transfer_setup->call_id, sizeof(call_transfer_setup->call_id) - 1));
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG CallTransferActive 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_CallTransferActive_ARG(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTActiveArg_ARG *call_transfer_active;
call_transfer_active = &args->qsig.CallTransferActive;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, rose_enc_PresentedAddressScreened(ctrl, pos, end,
&call_transfer_active->connected));
if (call_transfer_active->q931ie.length) {
ASN1_CALL(pos, rose_enc_Q931ie(ctrl, pos, end, ASN1_CLASS_APPLICATION | 0,
&call_transfer_active->q931ie));
}
if (call_transfer_active->connected_name_present) {
ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end,
&call_transfer_active->connected_name));
}
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG CallTransferComplete 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_CallTransferComplete_ARG(struct pri *ctrl,
unsigned char *pos, unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTCompleteArg_ARG *call_transfer_complete;
call_transfer_complete = &args->qsig.CallTransferComplete;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED,
call_transfer_complete->end_designation));
ASN1_CALL(pos, rose_enc_PresentedNumberScreened(ctrl, pos, end,
&call_transfer_complete->redirection));
if (call_transfer_complete->q931ie.length) {
ASN1_CALL(pos, rose_enc_Q931ie(ctrl, pos, end, ASN1_CLASS_APPLICATION | 0,
&call_transfer_complete->q931ie));
}
if (call_transfer_complete->redirection_name_present) {
ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end,
&call_transfer_complete->redirection_name));
}
if (call_transfer_complete->call_status) {
/* Not the DEFAULT value */
ASN1_CALL(pos, asn1_enc_int(pos, end, ASN1_TYPE_ENUMERATED,
call_transfer_complete->call_status));
}
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG CallTransferUpdate 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_CallTransferUpdate_ARG(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigCTUpdateArg_ARG *call_transfer_update;
call_transfer_update = &args->qsig.CallTransferUpdate;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, rose_enc_PresentedNumberScreened(ctrl, pos, end,
&call_transfer_update->redirection));
if (call_transfer_update->redirection_name_present) {
ASN1_CALL(pos, rose_enc_qsig_Name(ctrl, pos, end,
&call_transfer_update->redirection_name));
}
if (call_transfer_update->q931ie.length) {
ASN1_CALL(pos, rose_enc_Q931ie(ctrl, pos, end, ASN1_CLASS_APPLICATION | 0,
&call_transfer_update->q931ie));
}
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG SubaddressTransfer 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_SubaddressTransfer_ARG(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_invoke_args *args)
{
unsigned char *seq_len;
const struct roseQsigSubaddressTransferArg_ARG *subaddress_transfer;
subaddress_transfer = &args->qsig.SubaddressTransfer;
ASN1_CONSTRUCTED_BEGIN(seq_len, pos, end, ASN1_TAG_SEQUENCE);
ASN1_CALL(pos, rose_enc_PartySubaddress(ctrl, pos, end,
&subaddress_transfer->redirection_subaddress));
/* No extension to encode */
ASN1_CONSTRUCTED_END(seq_len, pos, end);
return pos;
}
/*!
* \brief Encode the Q.SIG DummyArg 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.
*
* \details
* DummyArg ::= CHOICE {
* none NULL,
* extension [1] IMPLICIT Extension,
* multipleExtension [2] IMPLICIT SEQUENCE OF Extension
* }
*/
unsigned char *rose_enc_qsig_DummyArg_ARG(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_invoke_args *args)
{
return asn1_enc_null(pos, end, ASN1_TYPE_NULL);
}
/*!
* \brief Encode the Q.SIG DummyRes 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.
*
* \details
* DummyRes ::= CHOICE {
* none NULL,
* extension [1] IMPLICIT Extension,
* multipleExtension [2] IMPLICIT SEQUENCE OF Extension
* }
*/
unsigned char *rose_enc_qsig_DummyRes_RES(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const union rose_msg_result_args *args)
{
return asn1_enc_null(pos, end, ASN1_TYPE_NULL);
}
/*!
* \brief Decode the Q.SIG CallTransferIdentify 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_CallTransferIdentify_RES(struct pri *ctrl,
unsigned tag, const unsigned char *pos, const unsigned char *end,
union rose_msg_result_args *args)
{
size_t str_len;
int length;
int seq_offset;
const unsigned char *seq_end;
struct roseQsigCTIdentifyRes_RES *call_transfer_identify;
call_transfer_identify = &args->qsig.CallTransferIdentify;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferIdentify %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 & ~ASN1_PC_MASK, tag, ASN1_TYPE_NUMERIC_STRING);
ASN1_CALL(pos, asn1_dec_string_max(ctrl, "callIdentity", tag, pos, seq_end,
sizeof(call_transfer_identify->call_id), call_transfer_identify->call_id,
&str_len));
ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag));
ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "reroutingNumber", tag, pos, seq_end,
&call_transfer_identify->rerouting_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 CallTransferInitiate 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_CallTransferInitiate_ARG(struct pri *ctrl,
unsigned tag, const unsigned char *pos, const unsigned char *end,
union rose_msg_invoke_args *args)
{
size_t str_len;
int length;
int seq_offset;
const unsigned char *seq_end;
struct roseQsigCTInitiateArg_ARG *call_transfer_initiate;
call_transfer_initiate = &args->qsig.CallTransferInitiate;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferInitiate %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 & ~ASN1_PC_MASK, tag, ASN1_TYPE_NUMERIC_STRING);
ASN1_CALL(pos, asn1_dec_string_max(ctrl, "callIdentity", tag, pos, seq_end,
sizeof(call_transfer_initiate->call_id), call_transfer_initiate->call_id,
&str_len));
ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag));
ASN1_CALL(pos, rose_dec_PartyNumber(ctrl, "reroutingNumber", tag, pos, seq_end,
&call_transfer_initiate->rerouting_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 CallTransferSetup 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_CallTransferSetup_ARG(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args)
{
size_t str_len;
int length;
int seq_offset;
const unsigned char *seq_end;
struct roseQsigCTSetupArg_ARG *call_transfer_setup;
call_transfer_setup = &args->qsig.CallTransferSetup;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferSetup %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 & ~ASN1_PC_MASK, tag, ASN1_TYPE_NUMERIC_STRING);
ASN1_CALL(pos, asn1_dec_string_max(ctrl, "callIdentity", tag, pos, seq_end,
sizeof(call_transfer_setup->call_id), call_transfer_setup->call_id, &str_len));
/* 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 CallTransferActive 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_CallTransferActive_ARG(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args)
{
int length;
int seq_offset;
const unsigned char *seq_end;
const unsigned char *save_pos;
struct roseQsigCTActiveArg_ARG *call_transfer_active;
call_transfer_active = &args->qsig.CallTransferActive;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferActive %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_PresentedAddressScreened(ctrl, "connectedAddress", tag, pos,
seq_end, &call_transfer_active->connected));
/*
* A sequence specifies an ordered list of component types.
* However, for simplicity we are not checking the order of
* the remaining optional components.
*/
call_transfer_active->q931ie.length = 0;
call_transfer_active->connected_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 & ~ASN1_PC_MASK) {
case ASN1_CLASS_APPLICATION | 0:
ASN1_CALL(pos, rose_dec_Q931ie(ctrl, "basicCallInfoElements", tag, pos,
seq_end, &call_transfer_active->q931ie,
sizeof(call_transfer_active->q931ie_contents)));
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | 0:
case ASN1_CLASS_CONTEXT_SPECIFIC | 1:
case ASN1_CLASS_CONTEXT_SPECIFIC | 2:
case ASN1_CLASS_CONTEXT_SPECIFIC | 3:
case ASN1_CLASS_CONTEXT_SPECIFIC | 4:
case ASN1_CLASS_CONTEXT_SPECIFIC | 7:
ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "connectedName", tag, pos, seq_end,
&call_transfer_active->connected_name));
call_transfer_active->connected_name_present = 1;
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | 9:
case ASN1_CLASS_CONTEXT_SPECIFIC | 10:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " argumentExtension %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 CallTransferComplete 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_CallTransferComplete_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;
const unsigned char *save_pos;
struct roseQsigCTCompleteArg_ARG *call_transfer_complete;
call_transfer_complete = &args->qsig.CallTransferComplete;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferComplete %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, "endDesignation", tag, pos, seq_end, &value));
call_transfer_complete->end_designation = value;
ASN1_CALL(pos, asn1_dec_tag(pos, seq_end, &tag));
ASN1_CALL(pos, rose_dec_PresentedNumberScreened(ctrl, "redirectionNumber", tag, pos,
seq_end, &call_transfer_complete->redirection));
/*
* A sequence specifies an ordered list of component types.
* However, for simplicity we are not checking the order of
* the remaining optional components.
*/
call_transfer_complete->q931ie.length = 0;
call_transfer_complete->redirection_name_present = 0;
call_transfer_complete->call_status = 0; /* DEFAULT answered */
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_CLASS_APPLICATION | 0:
ASN1_CALL(pos, rose_dec_Q931ie(ctrl, "basicCallInfoElements", tag, pos,
seq_end, &call_transfer_complete->q931ie,
sizeof(call_transfer_complete->q931ie_contents)));
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | 0:
case ASN1_CLASS_CONTEXT_SPECIFIC | 1:
case ASN1_CLASS_CONTEXT_SPECIFIC | 2:
case ASN1_CLASS_CONTEXT_SPECIFIC | 3:
case ASN1_CLASS_CONTEXT_SPECIFIC | 4:
case ASN1_CLASS_CONTEXT_SPECIFIC | 7:
ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "redirectionName", tag, pos, seq_end,
&call_transfer_complete->redirection_name));
call_transfer_complete->redirection_name_present = 1;
break;
case ASN1_TYPE_ENUMERATED:
/* Must not be constructed but we will not check for it for simplicity. */
ASN1_CALL(pos, asn1_dec_int(ctrl, "callStatus", tag, pos, seq_end, &value));
call_transfer_complete->call_status = value;
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | 9:
case ASN1_CLASS_CONTEXT_SPECIFIC | 10:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " argumentExtension %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 CallTransferUpdate 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_CallTransferUpdate_ARG(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args)
{
int length;
int seq_offset;
const unsigned char *seq_end;
const unsigned char *save_pos;
struct roseQsigCTUpdateArg_ARG *call_transfer_update;
call_transfer_update = &args->qsig.CallTransferUpdate;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " CallTransferUpdate %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_PresentedNumberScreened(ctrl, "redirectionNumber", tag, pos,
seq_end, &call_transfer_update->redirection));
/*
* A sequence specifies an ordered list of component types.
* However, for simplicity we are not checking the order of
* the remaining optional components.
*/
call_transfer_update->redirection_name_present = 0;
call_transfer_update->q931ie.length = 0;
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_CLASS_CONTEXT_SPECIFIC | 0:
case ASN1_CLASS_CONTEXT_SPECIFIC | 1:
case ASN1_CLASS_CONTEXT_SPECIFIC | 2:
case ASN1_CLASS_CONTEXT_SPECIFIC | 3:
case ASN1_CLASS_CONTEXT_SPECIFIC | 4:
case ASN1_CLASS_CONTEXT_SPECIFIC | 7:
ASN1_CALL(pos, rose_dec_qsig_Name(ctrl, "redirectionName", tag, pos, seq_end,
&call_transfer_update->redirection_name));
call_transfer_update->redirection_name_present = 1;
break;
case ASN1_CLASS_APPLICATION | 0:
ASN1_CALL(pos, rose_dec_Q931ie(ctrl, "basicCallInfoElements", tag, pos,
seq_end, &call_transfer_update->q931ie,
sizeof(call_transfer_update->q931ie_contents)));
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | 9:
case ASN1_CLASS_CONTEXT_SPECIFIC | 10:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " argumentExtension %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 SubaddressTransfer 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_SubaddressTransfer_ARG(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args)
{
int length;
int seq_offset;
const unsigned char *seq_end;
struct roseQsigSubaddressTransferArg_ARG *subaddress_transfer;
subaddress_transfer = &args->qsig.SubaddressTransfer;
ASN1_CHECK_TAG(ctrl, tag, tag, ASN1_TAG_SEQUENCE);
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " SubaddressTransfer %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_PartySubaddress(ctrl, "redirectionSubaddress", tag, pos,
seq_end, &subaddress_transfer->redirection_subaddress));
/* 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 DummyArg 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.
*
* \details
* DummyArg ::= CHOICE {
* none NULL,
* extension [1] IMPLICIT Extension,
* multipleExtension [2] IMPLICIT SEQUENCE OF Extension
* }
*/
const unsigned char *rose_dec_qsig_DummyArg_ARG(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_invoke_args *args)
{
const char *name;
int length;
int seq_offset;
const unsigned char *seq_end;
switch (tag) {
case ASN1_TYPE_NULL:
return asn1_dec_null(ctrl, "none", tag, pos, end);
case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 1:
name = "extension Extension";
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 2:
name = "multipleExtension SEQUENCE OF Extension";
break;
default:
ASN1_DID_NOT_EXPECT_TAG(ctrl, tag);
return NULL;
}
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " %s %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);
/* Fixup will skip over the manufacturer extension information */
ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end);
return pos;
}
/*!
* \brief Decode the Q.SIG DummyRes 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.
*
* \details
* DummyRes ::= CHOICE {
* none NULL,
* extension [1] IMPLICIT Extension,
* multipleExtension [2] IMPLICIT SEQUENCE OF Extension
* }
*/
const unsigned char *rose_dec_qsig_DummyRes_RES(struct pri *ctrl, unsigned tag,
const unsigned char *pos, const unsigned char *end, union rose_msg_result_args *args)
{
const char *name;
int length;
int seq_offset;
const unsigned char *seq_end;
switch (tag) {
case ASN1_TYPE_NULL:
return asn1_dec_null(ctrl, "none", tag, pos, end);
case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 1:
name = "extension Extension";
break;
case ASN1_CLASS_CONTEXT_SPECIFIC | ASN1_PC_CONSTRUCTED | 2:
name = "multipleExtension SEQUENCE OF Extension";
break;
default:
ASN1_DID_NOT_EXPECT_TAG(ctrl, tag);
return NULL;
}
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, " %s %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);
/* Fixup will skip over the manufacturer extension information */
ASN1_END_FIXUP(ctrl, pos, seq_offset, seq_end, end);
return pos;
}
/* ------------------------------------------------------------------- */
/* end rose_qsig_ct.c */