libpri/pri_facility.c
2009-04-21 23:32:13 +00:00

1893 lines
54 KiB
C

/*
* libpri: An implementation of Primary Rate ISDN
*
* Written by Matthew Fredrickson <creslin@digium.com>
*
* Copyright (C) 2004-2005, Digium, Inc.
* All Rights Reserved.
*/
/*
* 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.
*/
#include "compat.h"
#include "libpri.h"
#include "pri_internal.h"
#include "pri_q921.h"
#include "pri_q931.h"
#include "pri_facility.h"
#include "rose.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
static short get_invokeid(struct pri *ctrl)
{
return ++ctrl->last_invoke;
}
static int redirectingreason_from_q931(struct pri *ctrl, int redirectingreason)
{
int value;
switch (ctrl->switchtype) {
case PRI_SWITCH_QSIG:
switch (redirectingreason) {
case PRI_REDIR_UNKNOWN:
value = QSIG_DIVERT_REASON_UNKNOWN;
break;
case PRI_REDIR_FORWARD_ON_BUSY:
value = QSIG_DIVERT_REASON_CFB;
break;
case PRI_REDIR_FORWARD_ON_NO_REPLY:
value = QSIG_DIVERT_REASON_CFNR;
break;
case PRI_REDIR_UNCONDITIONAL:
value = QSIG_DIVERT_REASON_CFU;
break;
case PRI_REDIR_DEFLECTION:
case PRI_REDIR_DTE_OUT_OF_ORDER:
case PRI_REDIR_FORWARDED_BY_DTE:
pri_message(ctrl,
"!! Don't know how to convert Q.931 redirection reason %d to Q.SIG\n",
redirectingreason);
/* Fall through */
default:
value = QSIG_DIVERT_REASON_UNKNOWN;
break;
}
break;
default:
switch (redirectingreason) {
case PRI_REDIR_UNKNOWN:
value = Q952_DIVERT_REASON_UNKNOWN;
break;
case PRI_REDIR_FORWARD_ON_BUSY:
value = Q952_DIVERT_REASON_CFB;
break;
case PRI_REDIR_FORWARD_ON_NO_REPLY:
value = Q952_DIVERT_REASON_CFNR;
break;
case PRI_REDIR_DEFLECTION:
value = Q952_DIVERT_REASON_CD;
break;
case PRI_REDIR_UNCONDITIONAL:
value = Q952_DIVERT_REASON_CFU;
break;
case PRI_REDIR_DTE_OUT_OF_ORDER:
case PRI_REDIR_FORWARDED_BY_DTE:
pri_message(ctrl,
"!! Don't know how to convert Q.931 redirection reason %d to Q.952\n",
redirectingreason);
/* Fall through */
default:
value = Q952_DIVERT_REASON_UNKNOWN;
break;
}
break;
}
return value;
}
static int redirectingreason_for_q931(struct pri *ctrl, int redirectingreason)
{
int value;
switch (ctrl->switchtype) {
case PRI_SWITCH_QSIG:
switch (redirectingreason) {
case QSIG_DIVERT_REASON_UNKNOWN:
value = PRI_REDIR_UNKNOWN;
break;
case QSIG_DIVERT_REASON_CFU:
value = PRI_REDIR_UNCONDITIONAL;
break;
case QSIG_DIVERT_REASON_CFB:
value = PRI_REDIR_FORWARD_ON_BUSY;
break;
case QSIG_DIVERT_REASON_CFNR:
value = PRI_REDIR_FORWARD_ON_NO_REPLY;
break;
default:
pri_message(ctrl, "!! Unknown Q.SIG diversion reason %d\n",
redirectingreason);
value = PRI_REDIR_UNKNOWN;
break;
}
break;
default:
switch (redirectingreason) {
case Q952_DIVERT_REASON_UNKNOWN:
value = PRI_REDIR_UNKNOWN;
break;
case Q952_DIVERT_REASON_CFU:
value = PRI_REDIR_UNCONDITIONAL;
break;
case Q952_DIVERT_REASON_CFB:
value = PRI_REDIR_FORWARD_ON_BUSY;
break;
case Q952_DIVERT_REASON_CFNR:
value = PRI_REDIR_FORWARD_ON_NO_REPLY;
break;
case Q952_DIVERT_REASON_CD:
value = PRI_REDIR_DEFLECTION;
break;
case Q952_DIVERT_REASON_IMMEDIATE:
pri_message(ctrl,
"!! Dont' know how to convert Q.952 diversion reason IMMEDIATE to PRI analog\n");
value = PRI_REDIR_UNKNOWN; /* ??? */
break;
default:
pri_message(ctrl, "!! Unknown Q.952 diversion reason %d\n",
redirectingreason);
value = PRI_REDIR_UNKNOWN;
break;
}
break;
}
return value;
}
/*!
* \brief Convert the Q.931 type-of-number field to facility.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param ton Q.931 ton/plan octet.
*
* \return PartyNumber enumeration value.
*/
static int typeofnumber_from_q931(struct pri *ctrl, int ton)
{
int value;
switch ((ton >> 4) & 0x03) {
default:
pri_message(ctrl, "!! Unsupported Q.931 TypeOfNumber value (%d)\n", ton);
/* fall through */
case PRI_TON_UNKNOWN:
value = Q932_TON_UNKNOWN;
break;
case PRI_TON_INTERNATIONAL:
value = Q932_TON_INTERNATIONAL;
break;
case PRI_TON_NATIONAL:
value = Q932_TON_NATIONAL;
break;
case PRI_TON_NET_SPECIFIC:
value = Q932_TON_NET_SPECIFIC;
break;
case PRI_TON_SUBSCRIBER:
value = Q932_TON_SUBSCRIBER;
break;
case PRI_TON_ABBREVIATED:
value = Q932_TON_ABBREVIATED;
break;
}
return value;
}
static int typeofnumber_for_q931(struct pri *ctrl, int ton)
{
int value;
switch (ton) {
default:
pri_message(ctrl, "!! Invalid TypeOfNumber %d\n", ton);
/* fall through */
case Q932_TON_UNKNOWN:
value = PRI_TON_UNKNOWN;
break;
case Q932_TON_INTERNATIONAL:
value = PRI_TON_INTERNATIONAL;
break;
case Q932_TON_NATIONAL:
value = PRI_TON_NATIONAL;
break;
case Q932_TON_NET_SPECIFIC:
value = PRI_TON_NET_SPECIFIC;
break;
case Q932_TON_SUBSCRIBER:
value = PRI_TON_SUBSCRIBER;
break;
case Q932_TON_ABBREVIATED:
value = PRI_TON_ABBREVIATED;
break;
}
return value << 4;
}
/*!
* \internal
* \brief Convert the Q.931 numbering plan field to facility.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param plan Q.931 ton/plan octet.
*
* \return PartyNumber enumeration value.
*/
static int numbering_plan_from_q931(struct pri *ctrl, int plan)
{
int value;
switch (plan & 0x0F) {
default:
pri_message(ctrl, "!! Unsupported Q.931 numbering plan value (%d)\n", plan);
/* fall through */
case PRI_NPI_UNKNOWN:
value = 0; /* unknown */
break;
case PRI_NPI_E163_E164:
value = 1; /* public */
break;
case PRI_NPI_X121:
value = 3; /* data */
break;
case PRI_NPI_F69:
value = 4; /* telex */
break;
case PRI_NPI_NATIONAL:
value = 8; /* nationalStandard */
break;
case PRI_NPI_PRIVATE:
value = 5; /* private */
break;
}
return value;
}
/*!
* \internal
* \brief Convert the PartyNumber numbering plan to Q.931 plan field value.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param plan PartyNumber enumeration value.
*
* \return Q.931 plan field value.
*/
static int numbering_plan_for_q931(struct pri *ctrl, int plan)
{
int value;
switch (plan) {
default:
pri_message(ctrl,
"!! Unsupported PartyNumber to Q.931 numbering plan value (%d)\n", plan);
/* fall through */
case 0: /* unknown */
value = PRI_NPI_UNKNOWN;
break;
case 1: /* public */
value = PRI_NPI_E163_E164;
break;
case 3: /* data */
value = PRI_NPI_X121;
break;
case 4: /* telex */
value = PRI_NPI_F69;
break;
case 5: /* private */
value = PRI_NPI_PRIVATE;
break;
case 8: /* nationalStandard */
value = PRI_NPI_NATIONAL;
break;
}
return value;
}
/*!
* \internal
* \brief Convert the Q.931 number presentation field to facility.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param presentation Q.931 presentation/screening octet.
* \param number_present Non-zero if the number is available.
*
* \return Presented<Number/Address><Screened/Unscreened> enumeration value.
*/
static int presentation_from_q931(struct pri *ctrl, int presentation, int number_present)
{
int value;
switch (presentation & PRI_PRES_RESTRICTION) {
case PRI_PRES_ALLOWED:
value = 0; /* presentationAllowed<Number/Address> */
break;
default:
pri_message(ctrl, "!! Unsupported Q.931 number presentation value (%d)\n",
presentation);
/* fall through */
case PRI_PRES_RESTRICTED:
if (number_present) {
value = 3; /* presentationRestricted<Number/Address> */
} else {
value = 1; /* presentationRestricted */
}
break;
case PRI_PRES_UNAVAILABLE:
value = 2; /* numberNotAvailableDueToInterworking */
break;
}
return value;
}
/*!
* \internal
* \brief Convert the Presented<Number/Address><Screened/Unscreened> presentation
* to Q.931 presentation field value.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param presentation Presented<Number/Address><Screened/Unscreened> value.
*
* \return Q.931 presentation field value.
*/
static int presentation_for_q931(struct pri *ctrl, int presentation)
{
int value;
switch (presentation) {
case 0: /* presentationAllowed<Number/Address> */
value = PRI_PRES_ALLOWED;
break;
default:
pri_message(ctrl,
"!! Unsupported Presented<Number/Address><Screened/Unscreened> to Q.931 value (%d)\n",
presentation);
/* fall through */
case 1: /* presentationRestricted */
case 3: /* presentationRestricted<Number/Address> */
value = PRI_PRES_RESTRICTED;
break;
case 2: /* numberNotAvailableDueToInterworking */
value = PRI_PRES_UNAVAILABLE;
break;
}
return value;
}
/*!
* \internal
* \brief Encode the Q.SIG DivertingLegInformation2 invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param call Call leg from which to encode diversion leg 2.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_diverting_leg_information2(struct pri *ctrl,
unsigned char *pos, unsigned char *end, q931_call *call)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
memset(&header, 0, sizeof(header));
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
header.interpretation_present = 1;
header.interpretation = 0; /* discardAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_DivertingLegInformation2;
msg.invoke_id = get_invokeid(ctrl);
/* diversionCounter always is 1 because other isn't available in the current design */
msg.args.qsig.DivertingLegInformation2.diversion_counter = 1;
msg.args.qsig.DivertingLegInformation2.diversion_reason =
redirectingreason_from_q931(ctrl, call->redirectingreason);
/* divertingNr */
msg.args.qsig.DivertingLegInformation2.diverting_present = 1;
msg.args.qsig.DivertingLegInformation2.diverting.presentation =
presentation_from_q931(ctrl, call->redirectingpres, call->redirectingnum[0]);
msg.args.qsig.DivertingLegInformation2.diverting.number.plan =
numbering_plan_from_q931(ctrl, call->redirectingplan);
msg.args.qsig.DivertingLegInformation2.diverting.number.ton =
typeofnumber_from_q931(ctrl, call->redirectingplan);
libpri_copy_string((char *)
msg.args.qsig.DivertingLegInformation2.diverting.number.str,
call->redirectingnum,
sizeof(msg.args.qsig.DivertingLegInformation2.diverting.number.str));
msg.args.qsig.DivertingLegInformation2.diverting.number.length =
strlen((char *) msg.args.qsig.DivertingLegInformation2.diverting.number.str);
/* redirectingName */
if (call->redirectingname[0]) {
msg.args.qsig.DivertingLegInformation2.redirecting_name_present = 1;
msg.args.qsig.DivertingLegInformation2.redirecting_name.presentation = 1; /* presentation_allowed */
msg.args.qsig.DivertingLegInformation2.redirecting_name.char_set = 1; /* iso8859-1 */
libpri_copy_string((char *)
msg.args.qsig.DivertingLegInformation2.redirecting_name.data,
call->redirectingname,
sizeof(msg.args.qsig.DivertingLegInformation2.redirecting_name.data));
msg.args.qsig.DivertingLegInformation2.redirecting_name.length = strlen((char *)
msg.args.qsig.DivertingLegInformation2.redirecting_name.data);
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the Q.SIG DivertingLegInformation2 invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode diversion leg 2.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_diverting_leg_information2_encode(struct pri *ctrl, q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
end =
enc_qsig_diverting_leg_information2(ctrl, buffer, buffer + sizeof(buffer), call);
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_SETUP, buffer, end - buffer, NULL, NULL);
}
/*!
* \internal
* \brief Encode the rltThirdParty invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param callwithid Call-ID information to encode.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_dms100_rlt_initiate_transfer(struct pri *ctrl,
unsigned char *pos, unsigned char *end, const q931_call *callwithid)
{
struct rose_msg_invoke msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_DMS100_RLT_ThirdParty;
msg.invoke_id = ROSE_DMS100_RLT_THIRD_PARTY;
msg.args.dms100.RLT_ThirdParty.call_id = callwithid->rlt_call_id & 0xFFFFFF;
msg.args.dms100.RLT_ThirdParty.reason = 0; /* unused, set to 129 */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Send the rltThirdParty: Invoke.
*
* \note For PRI_SWITCH_DMS100 only.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param c1 Q.931 call leg 1
* \param c2 Q.931 call leg 2
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rlt_initiate_transfer(struct pri *ctrl, q931_call *c1, q931_call *c2)
{
unsigned char buffer[256];
unsigned char *end;
q931_call *apdubearer;
q931_call *callwithid;
if (c2->transferable) {
apdubearer = c1;
callwithid = c2;
} else if (c1->transferable) {
apdubearer = c2;
callwithid = c1;
} else {
return -1;
}
end =
enc_dms100_rlt_initiate_transfer(ctrl, buffer, buffer + sizeof(buffer),
callwithid);
if (!end) {
return -1;
}
if (pri_call_apdu_queue(apdubearer, Q931_FACILITY, buffer, end - buffer, NULL, NULL)) {
return -1;
}
if (q931_facility(apdubearer->pri, apdubearer)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n",
apdubearer->cr);
return -1;
}
return 0;
}
/*!
* \internal
* \brief Encode the rltOperationInd invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_dms100_rlt_transfer_ability(struct pri *ctrl,
unsigned char *pos, unsigned char *end)
{
struct rose_msg_invoke msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_DMS100_RLT_OperationInd;
msg.invoke_id = ROSE_DMS100_RLT_OPERATION_IND;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Send the rltOperationInd: Invoke.
*
* \note For PRI_SWITCH_DMS100 only.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Q.931 call leg
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int add_dms100_transfer_ability_apdu(struct pri *ctrl, q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
end = enc_dms100_rlt_transfer_ability(ctrl, buffer, buffer + sizeof(buffer));
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_SETUP, buffer, end - buffer, NULL, NULL);
}
/*!
* \internal
* \brief Encode the NI2 InformationFollowing invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_ni2_information_following(struct pri *ctrl, unsigned char *pos,
unsigned char *end)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
memset(&header, 0, sizeof(header));
header.interpretation_present = 1;
header.interpretation = 0; /* discardAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_NI2_InformationFollowing;
msg.invoke_id = get_invokeid(ctrl);
msg.args.ni2.InformationFollowing.value = 0;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the Q.SIG CallingName invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param call Call leg from which to encode name.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_calling_name(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
memset(&header, 0, sizeof(header));
if (ctrl->switchtype == PRI_SWITCH_QSIG) {
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
}
header.interpretation_present = 1;
header.interpretation = 0; /* discardAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_CallingName;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.CallingName.name.presentation = 1; /* presentation_allowed */
msg.args.qsig.CallingName.name.char_set = 1; /* iso8859-1 */
/* Truncate the callername if necessary. */
libpri_copy_string((char *) msg.args.qsig.CallingName.name.data, call->callername,
sizeof(msg.args.qsig.CallingName.name.data));
msg.args.qsig.CallingName.name.length =
strlen((char *) msg.args.qsig.CallingName.name.data);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Send callername information.
*
* \note For PRI_SWITCH_NI2 and PRI_SWITCH_QSIG.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode name.
* \param cpe TRUE if we are the CPE side.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int add_callername_facility_ies(struct pri *ctrl, q931_call *call, int cpe)
{
unsigned char buffer[256];
unsigned char *end;
int mymessage;
if (!call->callername[0]) {
return 0;
}
if (ctrl->switchtype == PRI_SWITCH_NI2 && !cpe) {
end = enc_ni2_information_following(ctrl, buffer, buffer + sizeof(buffer));
if (!end) {
return -1;
}
if (pri_call_apdu_queue(call, Q931_SETUP, buffer, end - buffer, NULL, NULL)) {
return -1;
}
/*
* We can reuse the buffer since the queue function doesn't
* need it.
*/
}
end = enc_qsig_calling_name(ctrl, buffer, buffer + sizeof(buffer), call);
if (!end) {
return -1;
}
if (cpe) {
mymessage = Q931_SETUP;
} else {
mymessage = Q931_FACILITY;
}
return pri_call_apdu_queue(call, mymessage, buffer, end - buffer, NULL, NULL);
}
/* End Callername */
/* MWI related encode and decode functions */
static void mwi_activate_encode_cb(void *data)
{
return;
}
/*!
* \internal
* \brief Encode the Q.SIG MWIActivate invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param req Served user setup request information.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_mwi_activate_message(struct pri *ctrl, unsigned char *pos,
unsigned char *end, struct pri_sr *req)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
memset(&header, 0, sizeof(header));
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
header.interpretation_present = 1;
header.interpretation = 0; /* discardAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_MWIActivate;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.MWIActivate.served_user_number.plan = 0; /* unknown */
libpri_copy_string((char *) msg.args.qsig.MWIActivate.served_user_number.str,
req->called, sizeof(msg.args.qsig.MWIActivate.served_user_number.str));
msg.args.qsig.MWIActivate.served_user_number.length = strlen((char *)
msg.args.qsig.MWIActivate.served_user_number.str);
msg.args.qsig.MWIActivate.basic_service = 1; /* speech */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the Q.SIG MWIDeactivate invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param req Served user setup request information.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_mwi_deactivate_message(struct pri *ctrl,
unsigned char *pos, unsigned char *end, struct pri_sr *req)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
memset(&header, 0, sizeof(header));
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
header.interpretation_present = 1;
header.interpretation = 0; /* discardAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_MWIDeactivate;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.MWIDeactivate.served_user_number.plan = 0; /* unknown */
libpri_copy_string((char *) msg.args.qsig.MWIDeactivate.served_user_number.str,
req->called, sizeof(msg.args.qsig.MWIDeactivate.served_user_number.str));
msg.args.qsig.MWIDeactivate.served_user_number.length = strlen((char *)
msg.args.qsig.MWIDeactivate.served_user_number.str);
msg.args.qsig.MWIDeactivate.basic_service = 1; /* speech */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue the Q.SIG MWIActivate/MWIDeactivate invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg to queue message.
* \param req Served user setup request information.
* \param activate Nonzero to do the activate message.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int mwi_message_send(struct pri *ctrl, q931_call *call, struct pri_sr *req, int activate)
{
unsigned char buffer[255];
unsigned char *end;
if (!req->called[0]) {
return -1;
}
if (activate) {
end = enc_qsig_mwi_activate_message(ctrl, buffer, buffer + sizeof(buffer), req);
} else {
end =
enc_qsig_mwi_deactivate_message(ctrl, buffer, buffer + sizeof(buffer), req);
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_SETUP, buffer, end - buffer,
mwi_activate_encode_cb, NULL);
}
/* End MWI */
/* EECT functions */
/*!
* \internal
* \brief Encode the NI2 InitiateTransfer invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param call Call leg from which to encode transfer information.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_ni2_initiate_transfer(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call)
{
struct rose_msg_invoke msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_NI2_InitiateTransfer;
msg.invoke_id = get_invokeid(ctrl);
/* Let's do the trickery to make sure the flag is correct */
msg.args.ni2.InitiateTransfer.call_reference = call->cr ^ 0x8000;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Start a 2BCT
*
* \note Called for PRI_SWITCH_NI2, PRI_SWITCH_LUCENT5E, and PRI_SWITCH_ATT4ESS
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param c1 Q.931 call leg 1
* \param c2 Q.931 call leg 2
*
* \retval 0 on success.
* \retval -1 on error.
*/
int eect_initiate_transfer(struct pri *ctrl, q931_call *c1, q931_call *c2)
{
unsigned char buffer[255];
unsigned char *end;
end = enc_ni2_initiate_transfer(ctrl, buffer, buffer + sizeof(buffer), c2);
if (!end) {
return -1;
}
if (pri_call_apdu_queue(c1, Q931_FACILITY, buffer, end - buffer, NULL, NULL)) {
pri_message(ctrl, "Could not queue APDU in facility message\n");
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
if (q931_facility(c1->pri, c1)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", c1->cr);
return -1;
}
return 0;
}
/* End EECT */
/* QSIG CF CallRerouting */
/*!
* \internal
* \brief Encode the Q.SIG CallRerouting invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param calling Calling number.
* \param dest Destination number.
* \param original Original called number.
* \param reason Rerouting reason: cfu, cfb, cfnr
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_call_rerouting(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const char *calling, const char *dest, const char *original,
const char *reason)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
static const unsigned char q931ie[] = {
0x04, /* Bearer Capability IE */
0x03, /* len */
0x80, /* ETSI Standard, Speech */
0x90, /* circuit mode, 64kbit/s */
0xa3, /* level1 protocol, a-law */
0x95, /* locking shift to codeset 5 (national use) */
0x32, /* Unknown ie */
0x01, /* Unknown ie len */
0x81, /* Unknown ie body */
};
memset(&header, 0, sizeof(header));
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
header.interpretation_present = 1;
header.interpretation = 2; /* rejectAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, pos, end, &header);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_CallRerouting;
msg.invoke_id = get_invokeid(ctrl);
/* The rerouting_reason defaults to unknown */
if (reason) {
if (!strcasecmp(reason, "cfu")) {
msg.args.qsig.CallRerouting.rerouting_reason = 1; /* cfu */
} else if (!strcasecmp(reason, "cfb")) {
msg.args.qsig.CallRerouting.rerouting_reason = 2; /* cfb */
} else if (!strcasecmp(reason, "cfnr")) {
msg.args.qsig.CallRerouting.rerouting_reason = 3; /* cfnr */
}
}
/* calledAddress */
msg.args.qsig.CallRerouting.called.number.plan = 1; /* public */
msg.args.qsig.CallRerouting.called.number.ton = 0; /* unknown */
libpri_copy_string((char *) msg.args.qsig.CallRerouting.called.number.str, dest,
sizeof(msg.args.qsig.CallRerouting.called.number.str));
msg.args.qsig.CallRerouting.called.number.length = strlen((char *)
msg.args.qsig.CallRerouting.called.number.str);
msg.args.qsig.CallRerouting.diversion_counter = 1;
/* pSS1InfoElement */
msg.args.qsig.CallRerouting.q931ie.length = sizeof(q931ie);
memcpy(msg.args.qsig.CallRerouting.q931ie_contents, q931ie, sizeof(q931ie));
/* lastReroutingNr */
msg.args.qsig.CallRerouting.last_rerouting.presentation = 0; /* presentationAllowedNumber */
msg.args.qsig.CallRerouting.last_rerouting.number.plan = 1; /* public */
msg.args.qsig.CallRerouting.last_rerouting.number.ton = 0; /* unknown */
libpri_copy_string((char *) msg.args.qsig.CallRerouting.last_rerouting.number.str,
original, sizeof(msg.args.qsig.CallRerouting.last_rerouting.number.str));
msg.args.qsig.CallRerouting.last_rerouting.number.length = strlen((char *)
msg.args.qsig.CallRerouting.last_rerouting.number.str);
msg.args.qsig.CallRerouting.subscription_option = 0; /* noNotification */
/* callingNumber */
msg.args.qsig.CallRerouting.calling.presentation = 0; /* presentationAllowedNumber */
msg.args.qsig.CallRerouting.calling.screened.number.plan = 1; /* public */
msg.args.qsig.CallRerouting.calling.screened.number.ton = 0; /* unknown */
libpri_copy_string((char *) msg.args.qsig.CallRerouting.calling.screened.number.str,
calling, sizeof(msg.args.qsig.CallRerouting.calling.screened.number.str));
msg.args.qsig.CallRerouting.calling.screened.number.length = strlen((char *)
msg.args.qsig.CallRerouting.calling.screened.number.str);
msg.args.qsig.CallRerouting.calling.screened.screening_indicator = 3; /* networkProvided */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Send the Q.SIG CallRerouting invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode name.
* \param dest Destination number.
* \param original Original called number.
* \param reason Rerouting reason: cfu, cfb, cfnr
*
* \retval 0 on success.
* \retval -1 on error.
*/
int qsig_cf_callrerouting(struct pri *ctrl, q931_call *call, const char *dest,
const char *original, const char *reason)
{
unsigned char buffer[255];
unsigned char *end;
int res;
end =
enc_qsig_call_rerouting(ctrl, buffer, buffer + sizeof(buffer), call->callernum,
dest, original ? original : call->callednum, reason);
if (!end) {
return -1;
}
res = pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL, NULL);
if (res) {
pri_message(ctrl, "Could not queue ADPU in facility message\n");
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
res = q931_facility(call->pri, call);
if (res) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", call->cr);
return -1;
}
return 0;
}
/* End QSIG CC-CallRerouting */
/*
* From Mantis issue 7778 description: (ETS 300 258, ISO 13863)
* After both legs of the call are setup and Asterisk has a successful "tromboned" or bridged call ...
* Asterisk sees both 'B' channels (from trombone) are on same PRI/technology and initiates "Path Replacement" events
* a. Asterisk sends "Transfer Complete" messages to both call legs
* b. QSIG Switch sends "PathReplacement" message on one of the legs (random 1-10sec timer expires - 1st leg to send is it!)
* c. Asterisk rebroadcasts "PathReplacement" message to other call leg
* d. QSIG Switch sends "Disconnect" message on one of the legs (same random timer sequence as above)
* e. Asterisk rebroadcasts "Disconnect" message to other call leg
* f. QSIG Switch disconnects Asterisk call legs - callers are now within QSIG switch
*
* Just need to resend the message to the other tromboned leg of the call.
*/
static int anfpr_pathreplacement_respond(struct pri *pri, q931_call *call, q931_ie *ie)
{
int res;
res = pri_call_apdu_queue_cleanup(call->bridged_call);
if (res) {
pri_message(pri, "Could not Clear queue ADPU\n");
return -1;
}
/* Send message */
res =
pri_call_apdu_queue(call->bridged_call, Q931_FACILITY, ie->data, ie->len, NULL,
NULL);
if (res) {
pri_message(pri, "Could not queue ADPU in facility message\n");
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
res = q931_facility(call->bridged_call->pri, call->bridged_call);
if (res) {
pri_message(pri, "Could not schedule facility message for call %d\n",
call->bridged_call->cr);
return -1;
}
return 0;
}
/* AFN-PR */
/*!
* \brief Start a Q.SIG path replacement.
*
* \note Called for PRI_SWITCH_QSIG
*
* \note Did all the tests to see if we're on the same PRI and
* are on a compatible switchtype.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param c1 Q.931 call leg 1
* \param c2 Q.931 call leg 2
*
* \retval 0 on success.
* \retval -1 on error.
*/
int anfpr_initiate_transfer(struct pri *ctrl, q931_call *c1, q931_call *c2)
{
unsigned char buffer[255];
unsigned char *pos;
unsigned char *end;
int res;
struct fac_extension_header header;
struct rose_msg_invoke msg;
end = buffer + sizeof(buffer);
memset(&header, 0, sizeof(header));
header.nfe_present = 1;
header.nfe.source_entity = 0; /* endPINX */
header.nfe.destination_entity = 0; /* endPINX */
header.interpretation_present = 1;
header.interpretation = 2; /* rejectAnyUnrecognisedInvokePdu */
pos = facility_encode_header(ctrl, buffer, end, &header);
if (!pos) {
return -1;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_QSIG_CallTransferComplete;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.CallTransferComplete.end_designation = 0; /* primaryEnd */
msg.args.qsig.CallTransferComplete.redirection.presentation = 1; /* presentationRestricted */
msg.args.qsig.CallTransferComplete.call_status = 1; /* alerting */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
if (!pos) {
return -1;
}
res = pri_call_apdu_queue(c1, Q931_FACILITY, buffer, pos - buffer, NULL, NULL);
if (res) {
pri_message(ctrl, "Could not queue ADPU in facility message\n");
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
res = q931_facility(c1->pri, c1);
if (res) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", c1->cr);
return -1;
}
/* Reuse the previous message header */
pos = facility_encode_header(ctrl, buffer, end, &header);
if (!pos) {
return -1;
}
/* Update the previous message */
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.CallTransferComplete.end_designation = 1; /* secondaryEnd */
pos = rose_encode_invoke(ctrl, pos, end, &msg);
if (!pos) {
return -1;
}
res = pri_call_apdu_queue(c2, Q931_FACILITY, buffer, pos - buffer, NULL, NULL);
if (res) {
pri_message(ctrl, "Could not queue ADPU in facility message\n");
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
res = q931_facility(c2->pri, c2);
if (res) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", c2->cr);
return -1;
}
return 0;
}
/* End AFN-PR */
/* AOC */
/*!
* \internal
* \brief Encode the ETSI AOCEChargingUnit invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param pos Starting position to encode the facility ie contents.
* \param end End of facility ie contents encoding data buffer.
* \param chargedunits Number of units charged to encode.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_aoce_charging_unit(struct pri *ctrl, unsigned char *pos,
unsigned char *end, long chargedunits)
{
struct rose_msg_invoke msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_ETSI_AOCEChargingUnit;
msg.invoke_id = get_invokeid(ctrl);
msg.args.etsi.AOCEChargingUnit.type = 1; /* charging_unit */
if (chargedunits <= 0) {
msg.args.etsi.AOCEChargingUnit.charging_unit.free_of_charge = 1;
} else {
msg.args.etsi.AOCEChargingUnit.charging_unit.specific.recorded.num_records = 1;
msg.args.etsi.AOCEChargingUnit.charging_unit.specific.recorded.list[0].
number_of_units = chargedunits;
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Send the ETSI AOCEChargingUnit invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode AOC.
* \param chargedunits Number of units charged to encode.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int aoc_aoce_charging_unit_encode(struct pri *ctrl, q931_call *call,
long chargedunits)
{
unsigned char buffer[255];
unsigned char *end;
/* sample data: [ 91 a1 12 02 02 3a 78 02 01 24 30 09 30 07 a1 05 30 03 02 01 01 ] */
end =
enc_etsi_aoce_charging_unit(ctrl, buffer, buffer + sizeof(buffer), chargedunits);
if (!end) {
return -1;
}
/* Remember that if we queue a facility IE for a facility message we
* have to explicitly send the facility message ourselves */
if (pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL, NULL)
|| q931_facility(call->pri, call)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", call->cr);
return -1;
}
return 0;
}
/* End AOC */
/* ===== Call Transfer Supplementary Service (ECMA-178) ===== */
/* ===== End Call Transfer Supplementary Service (ECMA-178) ===== */
/*!
* \brief Put the APDU on the call queue.
*
* \param call Call to enqueue message.
* \param messagetype Q.931 message type.
* \param apdu Facility ie contents buffer.
* \param apdu_len Length of the contents buffer.
* \param function Callback function for when response is received. (Not implemented)
* \param data Parameter to callback function.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int pri_call_apdu_queue(q931_call *call, int messagetype, void *apdu, int apdu_len,
void (*function)(void *data), void *data)
{
struct apdu_event *cur = NULL;
struct apdu_event *new_event = NULL;
if (!call || !messagetype || !apdu || (apdu_len < 1) || (apdu_len > 255))
return -1;
if (!(new_event = calloc(1, sizeof(*new_event)))) {
pri_error(call->pri, "!! Malloc failed!\n");
return -1;
}
new_event->message = messagetype;
new_event->callback = function;
new_event->data = data;
memcpy(new_event->apdu, apdu, apdu_len);
new_event->apdu_len = apdu_len;
if (call->apdus) {
cur = call->apdus;
while (cur->next) {
cur = cur->next;
}
cur->next = new_event;
} else
call->apdus = new_event;
return 0;
}
int pri_call_apdu_queue_cleanup(q931_call *call)
{
struct apdu_event *cur_event = NULL, *free_event = NULL;
if (call && call->apdus) {
cur_event = call->apdus;
while (cur_event) {
/* TODO: callbacks, some way of giving return res on status of apdu */
free_event = cur_event;
cur_event = cur_event->next;
free(free_event);
}
call->apdus = NULL;
}
return 0;
}
/*! \note Only called when sending the SETUP message. */
int pri_call_add_standard_apdus(struct pri *pri, q931_call *call)
{
if (!pri->sendfacility)
return 0;
if (pri->switchtype == PRI_SWITCH_QSIG) {
/* For Q.SIG it does network and cpe operations */
if (call->redirectingnum[0])
rose_diverting_leg_information2_encode(pri, call);
add_callername_facility_ies(pri, call, 1);
return 0;
}
#if 0
if (pri->localtype == PRI_NETWORK) {
switch (pri->switchtype) {
case PRI_SWITCH_NI2:
add_callername_facility_ies(pri, call, 0);
break;
default:
break;
}
return 0;
} else if (pri->localtype == PRI_CPE) {
switch (pri->switchtype) {
case PRI_SWITCH_NI2:
add_callername_facility_ies(pri, call, 1);
break;
default:
break;
}
return 0;
}
#else
if (pri->switchtype == PRI_SWITCH_NI2)
add_callername_facility_ies(pri, call, (pri->localtype == PRI_CPE));
#endif
if ((pri->switchtype == PRI_SWITCH_DMS100) && (pri->localtype == PRI_CPE)) {
add_dms100_transfer_ability_apdu(pri, call);
}
return 0;
}
/*!
* \brief Handle the ROSE reject message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which the message came.
* \param ie Raw ie contents.
* \param header Decoded facility header before ROSE.
* \param reject Decoded ROSE reject message contents.
*
* \return Nothing
*/
void rose_handle_reject(struct pri *ctrl, q931_call *call, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_reject *reject)
{
pri_error(ctrl, "ROSE REJECT:\n");
if (reject->invoke_id_present) {
pri_error(ctrl, "\tINVOKE ID: %d\n", reject->invoke_id);
}
pri_error(ctrl, "\tPROBLEM: %s\n", rose_reject2str(reject->code));
}
/*!
* \brief Handle the ROSE error message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which the message came.
* \param ie Raw ie contents.
* \param header Decoded facility header before ROSE.
* \param error Decoded ROSE error message contents.
*
* \return Nothing
*/
void rose_handle_error(struct pri *ctrl, q931_call *call, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_error *error)
{
const char *dms100_operation;
pri_error(ctrl, "ROSE RETURN ERROR:\n");
switch (ctrl->switchtype) {
case PRI_SWITCH_DMS100:
switch (error->invoke_id) {
case ROSE_DMS100_RLT_OPERATION_IND:
dms100_operation = "RLT_OPERATION_IND";
break;
case ROSE_DMS100_RLT_THIRD_PARTY:
dms100_operation = "RLT_THIRD_PARTY";
break;
default:
dms100_operation = NULL;
break;
}
if (dms100_operation) {
pri_error(ctrl, "\tOPERATION: %s\n", dms100_operation);
break;
}
/* fall through */
default:
pri_error(ctrl, "\tINVOKE ID: %d\n", error->invoke_id);
break;
}
pri_error(ctrl, "\tERROR: %s\n", rose_error2str(error->code));
}
/*!
* \brief Handle the ROSE result message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which the message came.
* \param ie Raw ie contents.
* \param header Decoded facility header before ROSE.
* \param result Decoded ROSE result message contents.
*
* \return Nothing
*/
void rose_handle_result(struct pri *ctrl, q931_call *call, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_result *result)
{
switch (ctrl->switchtype) {
case PRI_SWITCH_DMS100:
switch (result->invoke_id) {
case ROSE_DMS100_RLT_OPERATION_IND:
if (result->operation != ROSE_DMS100_RLT_OperationInd) {
pri_message(ctrl, "Invalid Operation value in return result! %s\n",
rose_operation2str(result->operation));
break;
}
/* We have enough data to transfer the call */
call->rlt_call_id = result->args.dms100.RLT_OperationInd.call_id;
call->transferable = 1;
break;
case ROSE_DMS100_RLT_THIRD_PARTY:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, "Successfully completed RLT transfer!\n");
}
break;
default:
pri_message(ctrl, "Could not parse invoke of type %d!\n", result->invoke_id);
break;
}
return;
default:
break;
}
switch (result->operation) {
#if 0 /* Not handled yet */
case ROSE_None:
/*
* This is simply a positive ACK to the invoke request.
* The invoke ID must be used to distinguish between outstanding
* invoke requests.
*/
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_ETSI_ChargingRequest:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_ChargeRequest:
break;
case ROSE_QSIG_AocComplete:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_CallTransferIdentify:
break;
case ROSE_QSIG_CallTransferInitiate:
break;
case ROSE_QSIG_CallTransferSetup:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_ActivateDiversionQ:
break;
case ROSE_QSIG_DeactivateDiversionQ:
break;
case ROSE_QSIG_InterrogateDiversionQ:
break;
case ROSE_QSIG_CheckRestriction:
break;
#endif /* Not handled yet */
case ROSE_QSIG_CallRerouting:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, "Successfully completed QSIG CF callRerouting!\n");
}
break;
#if 0 /* Not handled yet */
case ROSE_QSIG_MWIActivate:
break;
case ROSE_QSIG_MWIDeactivate:
break;
case ROSE_QSIG_MWIInterrogate:
break;
#endif /* Not handled yet */
default:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, "!! ROSE result operation not handled! %s\n",
rose_operation2str(result->operation));
}
break;
}
}
/*!
* \brief Handle the ROSE invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which the message came.
* \param ie Raw ie contents.
* \param header Decoded facility header before ROSE.
* \param invoke Decoded ROSE invoke message contents.
*
* \return Nothing
*/
void rose_handle_invoke(struct pri *ctrl, q931_call *call, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_invoke *invoke)
{
switch (invoke->operation) {
case ROSE_ETSI_ChargingRequest:
/* Ignore messsage */
break;
#if 0 /* Not handled yet */
case ROSE_ETSI_AOCSCurrency:
break;
case ROSE_ETSI_AOCSSpecialArr:
break;
case ROSE_ETSI_AOCDCurrency:
break;
case ROSE_ETSI_AOCDChargingUnit:
break;
case ROSE_ETSI_AOCECurrency:
break;
#endif /* Not handled yet */
case ROSE_ETSI_AOCEChargingUnit:
call->aoc_units = 0;
if (invoke->args.etsi.AOCEChargingUnit.type == 1
&& !invoke->args.etsi.AOCEChargingUnit.charging_unit.free_of_charge) {
unsigned index;
for (index =
invoke->args.etsi.AOCEChargingUnit.charging_unit.specific.recorded.
num_records; index--;) {
if (!invoke->args.etsi.AOCEChargingUnit.charging_unit.specific.recorded.
list[index].not_available) {
call->aoc_units +=
invoke->args.etsi.AOCEChargingUnit.charging_unit.specific.
recorded.list[index].number_of_units;
}
}
}
/* the following function is currently not used - just to make the compiler happy */
if (0) {
/* use this function to forward the aoc-e on a bridged channel */
aoc_aoce_charging_unit_encode(ctrl, call, call->aoc_units);
}
break;
#if 0 /* Not handled yet */
case ROSE_ITU_IdentificationOfCharge:
break;
#endif /* Not handled yet */
case ROSE_QSIG_CallingName:
if (invoke->args.qsig.CallingName.name.presentation == 1) {
libpri_copy_string(call->callername,
(char *) invoke->args.qsig.CallingName.name.data,
sizeof(call->callername));
} else {
call->callername[0] = '\0';
}
break;
#if 0 /* Not handled yet */
case ROSE_QSIG_CalledName:
break;
case ROSE_QSIG_ConnectedName:
break;
case ROSE_QSIG_BusyName:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_ChargeRequest:
break;
case ROSE_QSIG_GetFinalCharge:
break;
case ROSE_QSIG_AocFinal:
break;
case ROSE_QSIG_AocInterim:
break;
case ROSE_QSIG_AocRate:
break;
case ROSE_QSIG_AocComplete:
break;
case ROSE_QSIG_AocDivChargeReq:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_CallTransferIdentify:
break;
case ROSE_QSIG_CallTransferAbandon:
break;
case ROSE_QSIG_CallTransferInitiate:
break;
case ROSE_QSIG_CallTransferSetup:
break;
case ROSE_QSIG_CallTransferActive:
break;
#endif /* Not handled yet */
#if 0 /* This was incomplete */
case ROSE_QSIG_CallTransferComplete:
switch (invoke->args.qsig.CallTransferComplete.redirection.presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
libpri_copy_string(call->callernum, (char *)
invoke->args.qsig.CallTransferComplete.redirection.screened.number.str,
sizeof(call->callernum));
break;
default:
call->callernum[0] = '\0';
break;
}
call->callername[0] = '\0';
if (invoke->args.qsig.CallTransferComplete.redirection_name_present) {
switch (invoke->args.qsig.CallTransferComplete.redirection_name.presentation) {
case 1: /* presentation_allowed */
case 2: /* presentation_restricted */
libpri_copy_string(call->callername,
(char *) invoke->args.qsig.CallTransferComplete.redirection_name.
data, sizeof(call->callername));
break;
default:
break;
}
}
break;
#endif /* This was incomplete */
#if 0 /* This was incomplete */
case ROSE_QSIG_CallTransferUpdate:
switch (invoke->args.qsig.CallTransferUpdate.redirection.presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
libpri_copy_string(call->callernum, (char *)
invoke->args.qsig.CallTransferUpdate.redirection.screened.number.str,
sizeof(call->callernum));
break;
default:
call->callernum[0] = '\0';
break;
}
call->callername[0] = '\0';
if (invoke->args.qsig.CallTransferUpdate.redirection_name_present) {
switch (invoke->args.qsig.CallTransferUpdate.redirection_name.presentation) {
case 1: /* presentation_allowed */
case 2: /* presentation_restricted */
libpri_copy_string(call->callername,
(char *) invoke->args.qsig.CallTransferUpdate.redirection_name.data,
sizeof(call->callername));
break;
default:
break;
}
}
break;
#endif /* This was incomplete */
#if 0 /* Not handled yet */
case ROSE_QSIG_SubaddressTransfer:
break;
#endif /* Not handled yet */
case ROSE_QSIG_PathReplacement:
anfpr_pathreplacement_respond(ctrl, call, ie);
break;
#if 0 /* Not handled yet */
case ROSE_QSIG_ActivateDiversionQ:
break;
case ROSE_QSIG_DeactivateDiversionQ:
break;
case ROSE_QSIG_InterrogateDiversionQ:
break;
case ROSE_QSIG_CheckRestriction:
break;
case ROSE_QSIG_CallRerouting:
break;
case ROSE_QSIG_DivertingLegInformation1:
break;
#endif /* Not handled yet */
case ROSE_QSIG_DivertingLegInformation2:
call->origredirectingreason = QSIG_DIVERT_REASON_UNKNOWN;
if (invoke->args.qsig.DivertingLegInformation2.original_diversion_reason_present) {
call->origredirectingreason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.original_diversion_reason);
}
call->redirectingreason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.diversion_reason);
call->redirectingpres = PRI_PRES_UNAVAILABLE;
call->redirectingnum[0] = '\0';
call->redirectingplan = (PRI_TON_UNKNOWN << 4) | PRI_NPI_E163_E164;
if (invoke->args.qsig.DivertingLegInformation2.diverting_present) {
call->redirectingpres =
presentation_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.diverting.presentation);
switch (invoke->args.qsig.DivertingLegInformation2.diverting.presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
libpri_copy_string(call->redirectingnum, (char *)
invoke->args.qsig.DivertingLegInformation2.diverting.number.str,
sizeof(call->redirectingnum));
call->redirectingplan =
numbering_plan_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.diverting.number.plan)
| typeofnumber_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.diverting.number.ton);
break;
default:
break;
}
}
if (invoke->args.qsig.DivertingLegInformation2.original_called_present) {
call->origcalledpres =
presentation_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.original_called.
presentation);
switch (invoke->args.qsig.DivertingLegInformation2.original_called.
presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
libpri_copy_string(call->origcallednum, (char *)
invoke->args.qsig.DivertingLegInformation2.original_called.number.
str, sizeof(call->origcallednum));
call->origcalledplan =
numbering_plan_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.original_called.
number.plan)
| typeofnumber_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.original_called.
number.ton);
break;
default:
call->origcallednum[0] = '\0';
call->origcalledplan = (PRI_TON_UNKNOWN << 4) | PRI_NPI_E163_E164;
break;
}
}
call->redirectingname[0] = '\0';
if (invoke->args.qsig.DivertingLegInformation2.redirecting_name_present) {
switch (invoke->args.qsig.DivertingLegInformation2.redirecting_name.
presentation) {
case 1: /* presentation_allowed */
libpri_copy_string(call->redirectingname, (char *)
invoke->args.qsig.DivertingLegInformation2.redirecting_name.data,
sizeof(call->redirectingname));
break;
default:
break;
}
}
call->origcalledname[0] = '\0';
if (invoke->args.qsig.DivertingLegInformation2.original_called_name_present) {
switch (invoke->args.qsig.DivertingLegInformation2.original_called_name.
presentation) {
case 1: /* presentation_allowed */
libpri_copy_string(call->origcalledname, (char *)
invoke->args.qsig.DivertingLegInformation2.original_called_name.data,
sizeof(call->origcalledname));
break;
default:
break;
}
}
break;
#if 0 /* Not handled yet */
case ROSE_QSIG_DivertingLegInformation3:
break;
case ROSE_QSIG_CfnrDivertedLegFailed:
break;
#endif /* Not handled yet */
#if 0 /* Not handled yet */
case ROSE_QSIG_MWIActivate:
break;
case ROSE_QSIG_MWIDeactivate:
break;
case ROSE_QSIG_MWIInterrogate:
break;
#endif /* Not handled yet */
default:
if (ctrl->debug & PRI_DEBUG_APDU) {
pri_message(ctrl, "!! ROSE invoke operation not handled! %s\n",
rose_operation2str(invoke->operation));
}
break;
}
}