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libpri/pri_facility.c

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/*
* 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_facility.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
const char *pri_facility_error2str(int facility_error_code)
{
return rose_error2str(facility_error_code);
}
const char *pri_facility_reject2str(int facility_reject_code)
{
return rose_reject2str(facility_reject_code);
}
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;
}
/*!
* \internal
* \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 Convert the Q.931 number presentation field to Q.SIG name presentation.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param presentation Q.931 presentation/screening octet.
* \param name_present Non-zero if the name is available.
*
* \return Name presentation enumeration value.
*/
static int qsig_name_presentation_from_q931(struct pri *ctrl, int presentation, int name_present)
{
int value;
switch (presentation & PRI_PRES_RESTRICTION) {
case PRI_PRES_ALLOWED:
if (name_present) {
value = 1; /* presentation_allowed */
} else {
value = 4; /* name_not_available */
}
break;
default:
pri_message(ctrl, "!! Unsupported Q.931 number presentation value (%d)\n",
presentation);
/* fall through */
case PRI_PRES_RESTRICTED:
if (name_present) {
value = 2; /* presentation_restricted */
} else {
value = 3; /* presentation_restricted_null */
}
break;
case PRI_PRES_UNAVAILABLE:
value = 4; /* name_not_available */
break;
}
return value;
}
/*!
* \internal
* \brief Convert the Q.SIG name presentation to Q.931 presentation field value.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param presentation Q.SIG name presentation value.
*
* \return Q.931 presentation field value.
*/
static int qsig_name_presentation_for_q931(struct pri *ctrl, int presentation)
{
int value;
switch (presentation) {
case 1: /* presentation_allowed */
value = PRI_PRES_ALLOWED;
break;
default:
pri_message(ctrl,
"!! Unsupported Q.SIG name presentation to Q.931 value (%d)\n",
presentation);
/* fall through */
case 2: /* presentation_restricted */
case 3: /* presentation_restricted_null */
value = PRI_PRES_RESTRICTED;
break;
case 0: /* optional_name_not_present */
case 4: /* name_not_available */
value = PRI_PRES_UNAVAILABLE;
break;
}
return value;
}
/*!
* \internal
* \brief Convert number presentation to Q.SIG diversion subscription notification.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param presentation Number presentation value.
*
* \return Q.SIG diversion subscription notification value.
*/
static int presentation_to_subscription(struct pri *ctrl, int presentation)
{
/* derive subscription value from presentation value */
switch (presentation & PRI_PRES_RESTRICTION) {
case PRI_PRES_ALLOWED:
return QSIG_NOTIFICATION_WITH_DIVERTED_TO_NR;
case PRI_PRES_RESTRICTED:
return QSIG_NOTIFICATION_WITHOUT_DIVERTED_TO_NR;
case PRI_PRES_UNAVAILABLE: /* Number not available due to interworking */
return QSIG_NOTIFICATION_WITHOUT_DIVERTED_TO_NR; /* ?? QSIG_NO_NOTIFICATION */
default:
pri_message(ctrl, "!! Unknown Q.SIG presentationIndicator 0x%02x\n",
presentation);
return QSIG_NOTIFICATION_WITHOUT_DIVERTED_TO_NR;
}
}
/*!
* \brief Copy the given rose party number to the q931_party_number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_number Q.931 party number structure
* \param rose_number ROSE party number structure
*
* \note It is assumed that the q931_number has been initialized before calling.
*
* \return Nothing
*/
void rose_copy_number_to_q931(struct pri *ctrl, struct q931_party_number *q931_number,
const struct rosePartyNumber *rose_number)
{
//q931_party_number_init(q931_number);
libpri_copy_string(q931_number->str, (char *) rose_number->str,
sizeof(q931_number->str));
q931_number->plan = numbering_plan_for_q931(ctrl, rose_number->plan)
| typeofnumber_for_q931(ctrl, rose_number->ton);
q931_number->valid = 1;
}
/*!
* \brief Copy the given rose subaddress to the q931_party_subaddress.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_subaddress Q.931 party subaddress structure
* \param rose_subaddress ROSE subaddress structure
*
* \note It is assumed that the q931_subaddress has been initialized before calling.
*
* \return Nothing
*/
void rose_copy_subaddress_to_q931(struct pri *ctrl,
struct q931_party_subaddress *q931_subaddress,
const struct rosePartySubaddress *rose_subaddress)
{
//q931_party_subaddress_init(q931_subaddress);
if (!rose_subaddress->length) {
/* Subaddress is not present. */
return;
}
switch (rose_subaddress->type) {
case 0:/* UserSpecified */
q931_subaddress->type = 2;/* user_specified */
q931_subaddress->valid = 1;
q931_subaddress->length = rose_subaddress->length;
if (sizeof(q931_subaddress->data) <= q931_subaddress->length) {
q931_subaddress->length = sizeof(q931_subaddress->data) - 1;
}
memcpy(q931_subaddress->data, rose_subaddress->u.user_specified.information,
q931_subaddress->length);
q931_subaddress->data[q931_subaddress->length] = '\0';
if (rose_subaddress->u.user_specified.odd_count_present) {
q931_subaddress->odd_even_indicator =
rose_subaddress->u.user_specified.odd_count;
}
break;
case 1:/* NSAP */
q931_subaddress->type = 0;/* nsap */
q931_subaddress->valid = 1;
libpri_copy_string((char *) q931_subaddress->data,
(char *) rose_subaddress->u.nsap, sizeof(q931_subaddress->data));
q931_subaddress->length = strlen((char *) q931_subaddress->data);
break;
default:
/* Don't know how to encode so assume it is not present. */
break;
}
}
/*!
* \brief Copy the given rose address to the q931_party_address.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_address Q.931 party address structure
* \param rose_address ROSE address structure
*
* \note It is assumed that the q931_address has been initialized before calling.
*
* \return Nothing
*/
void rose_copy_address_to_q931(struct pri *ctrl, struct q931_party_address *q931_address,
const struct roseAddress *rose_address)
{
rose_copy_number_to_q931(ctrl, &q931_address->number, &rose_address->number);
rose_copy_subaddress_to_q931(ctrl, &q931_address->subaddress,
&rose_address->subaddress);
}
/*!
* \brief Copy the given rose address to the q931_party_id address.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_address Q.931 party id structure to fill address
* \param rose_address ROSE address structure
*
* \note It is assumed that the q931_address has been initialized before calling.
*
* \return Nothing
*/
void rose_copy_address_to_id_q931(struct pri *ctrl, struct q931_party_id *q931_address,
const struct roseAddress *rose_address)
{
rose_copy_number_to_q931(ctrl, &q931_address->number, &rose_address->number);
rose_copy_subaddress_to_q931(ctrl, &q931_address->subaddress,
&rose_address->subaddress);
}
/*!
* \brief Copy the given rose presented screened party number to the q931_party_number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_number Q.931 party number structure
* \param rose_presented ROSE presented screened party number structure
*
* \return Nothing
*/
void rose_copy_presented_number_screened_to_q931(struct pri *ctrl,
struct q931_party_number *q931_number,
const struct rosePresentedNumberScreened *rose_presented)
{
q931_party_number_init(q931_number);
q931_number->valid = 1;
q931_number->presentation = presentation_for_q931(ctrl, rose_presented->presentation);
switch (rose_presented->presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
q931_number->presentation |=
(rose_presented->screened.screening_indicator & PRI_PRES_NUMBER_TYPE);
rose_copy_number_to_q931(ctrl, q931_number,
&rose_presented->screened.number);
break;
case 2: /* numberNotAvailableDueToInterworking */
q931_number->presentation = PRES_NUMBER_NOT_AVAILABLE;
break;
default:
q931_number->presentation |= PRI_PRES_USER_NUMBER_UNSCREENED;
break;
}
}
/*!
* \brief Copy the given rose presented unscreened party number to the q931_party_number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_number Q.931 party number structure
* \param rose_presented ROSE presented unscreened party number structure
*
* \return Nothing
*/
void rose_copy_presented_number_unscreened_to_q931(struct pri *ctrl,
struct q931_party_number *q931_number,
const struct rosePresentedNumberUnscreened *rose_presented)
{
q931_party_number_init(q931_number);
q931_number->valid = 1;
q931_number->presentation = presentation_for_q931(ctrl,
rose_presented->presentation) | PRI_PRES_USER_NUMBER_UNSCREENED;
switch (rose_presented->presentation) {
case 0: /* presentationAllowedNumber */
case 3: /* presentationRestrictedNumber */
rose_copy_number_to_q931(ctrl, q931_number, &rose_presented->number);
break;
case 2: /* numberNotAvailableDueToInterworking */
q931_number->presentation = PRES_NUMBER_NOT_AVAILABLE;
break;
default:
break;
}
}
/*!
* \brief Copy the given rose presented screened party address to the q931_party_number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param q931_address Q.931 party id structure to fill the address
* \param rose_presented ROSE presented screened party address structure
*
* \return Nothing
*/
void rose_copy_presented_address_screened_to_id_q931(struct pri *ctrl,
struct q931_party_id *q931_address,
const struct rosePresentedAddressScreened *rose_presented)
{
q931_party_number_init(&q931_address->number);
q931_party_subaddress_init(&q931_address->subaddress);
q931_address->number.valid = 1;
q931_address->number.presentation = presentation_for_q931(ctrl,
rose_presented->presentation);
switch (rose_presented->presentation) {
case 0: /* presentationAllowedAddress */
case 3: /* presentationRestrictedAddress */
q931_address->number.presentation |=
(rose_presented->screened.screening_indicator & PRI_PRES_NUMBER_TYPE);
rose_copy_number_to_q931(ctrl, &q931_address->number,
&rose_presented->screened.number);
rose_copy_subaddress_to_q931(ctrl, &q931_address->subaddress,
&rose_presented->screened.subaddress);
break;
case 2: /* numberNotAvailableDueToInterworking */
q931_address->number.presentation = PRES_NUMBER_NOT_AVAILABLE;
break;
default:
q931_address->number.presentation |= PRI_PRES_USER_NUMBER_UNSCREENED;
break;
}
}
/*!
* \brief Copy the given rose party name to the q931_party_name
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param qsig_name Q.SIG party name structure
* \param rose_name Q.SIG ROSE party name structure
*
* \return Nothing
*/
void rose_copy_name_to_q931(struct pri *ctrl, struct q931_party_name *qsig_name,
const struct roseQsigName *rose_name)
{
//q931_party_name_init(qsig_name);
qsig_name->valid = 1;
qsig_name->presentation = qsig_name_presentation_for_q931(ctrl,
rose_name->presentation);
qsig_name->char_set = rose_name->char_set;
libpri_copy_string(qsig_name->str, (char *) rose_name->data, sizeof(qsig_name->str));
}
/*!
* \brief Copy the given q931_party_number to the rose party number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_number ROSE party number structure
* \param q931_number Q.931 party number structure
*
* \return Nothing
*/
void q931_copy_number_to_rose(struct pri *ctrl, struct rosePartyNumber *rose_number,
const struct q931_party_number *q931_number)
{
rose_number->plan = numbering_plan_from_q931(ctrl, q931_number->plan);
rose_number->ton = typeofnumber_from_q931(ctrl, q931_number->plan);
/* Truncate the q931_number->str if necessary. */
libpri_copy_string((char *) rose_number->str, q931_number->str,
sizeof(rose_number->str));
rose_number->length = strlen((char *) rose_number->str);
}
/*!
* \brief Copy the given q931_party_subaddress to the rose subaddress.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_subaddress ROSE subaddress structure
* \param q931_subaddress Q.931 party subaddress structure
*
* \return Nothing
*/
void q931_copy_subaddress_to_rose(struct pri *ctrl,
struct rosePartySubaddress *rose_subaddress,
const struct q931_party_subaddress *q931_subaddress)
{
if (!q931_subaddress->valid) {
/* Subaddress is not present. */
rose_subaddress->length = 0;
return;
}
switch (q931_subaddress->type) {
case 0: /* NSAP */
rose_subaddress->type = 1;/* NSAP */
libpri_copy_string((char *) rose_subaddress->u.nsap,
(char *) q931_subaddress->data, sizeof(rose_subaddress->u.nsap));
rose_subaddress->length = strlen((char *) rose_subaddress->u.nsap);
break;
case 2: /* user_specified */
rose_subaddress->type = 0;/* UserSpecified */
rose_subaddress->length = q931_subaddress->length;
if (sizeof(rose_subaddress->u.user_specified.information)
<= rose_subaddress->length) {
rose_subaddress->length =
sizeof(rose_subaddress->u.user_specified.information) - 1;
} else {
if (q931_subaddress->odd_even_indicator) {
rose_subaddress->u.user_specified.odd_count_present = 1;
rose_subaddress->u.user_specified.odd_count = 1;
}
}
memcpy(rose_subaddress->u.user_specified.information, q931_subaddress->data,
rose_subaddress->length);
rose_subaddress->u.user_specified.information[rose_subaddress->length] = '\0';
break;
default:
/* Don't know how to encode so assume it is not present. */
rose_subaddress->length = 0;
break;
}
}
/*!
* \brief Copy the given q931_party_address to the rose address.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_address ROSE address structure
* \param q931_address Q.931 party address structure
*
* \return Nothing
*/
void q931_copy_address_to_rose(struct pri *ctrl, struct roseAddress *rose_address,
const struct q931_party_address *q931_address)
{
q931_copy_number_to_rose(ctrl, &rose_address->number, &q931_address->number);
q931_copy_subaddress_to_rose(ctrl, &rose_address->subaddress,
&q931_address->subaddress);
}
/*!
* \brief Copy the given q931_party_id address to the rose address.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_address ROSE address structure
* \param q931_address Q.931 party id structure to give address
*
* \return Nothing
*/
void q931_copy_id_address_to_rose(struct pri *ctrl, struct roseAddress *rose_address,
const struct q931_party_id *q931_address)
{
q931_copy_number_to_rose(ctrl, &rose_address->number, &q931_address->number);
q931_copy_subaddress_to_rose(ctrl, &rose_address->subaddress,
&q931_address->subaddress);
}
/*!
* \brief Copy the given q931_party_number to the rose presented screened party number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_presented ROSE presented screened party number structure
* \param q931_number Q.931 party number structure
*
* \return Nothing
*/
void q931_copy_presented_number_screened_to_rose(struct pri *ctrl,
struct rosePresentedNumberScreened *rose_presented,
const struct q931_party_number *q931_number)
{
if (q931_number->valid) {
rose_presented->presentation =
presentation_from_q931(ctrl, q931_number->presentation, q931_number->str[0]);
rose_presented->screened.screening_indicator =
q931_number->presentation & PRI_PRES_NUMBER_TYPE;
q931_copy_number_to_rose(ctrl, &rose_presented->screened.number, q931_number);
} else {
rose_presented->presentation = 2;/* numberNotAvailableDueToInterworking */
}
}
/*!
* \brief Copy the given q931_party_number to the rose presented unscreened party number
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_presented ROSE presented unscreened party number structure
* \param q931_number Q.931 party number structure
*
* \return Nothing
*/
void q931_copy_presented_number_unscreened_to_rose(struct pri *ctrl,
struct rosePresentedNumberUnscreened *rose_presented,
const struct q931_party_number *q931_number)
{
if (q931_number->valid) {
rose_presented->presentation =
presentation_from_q931(ctrl, q931_number->presentation, q931_number->str[0]);
q931_copy_number_to_rose(ctrl, &rose_presented->number, q931_number);
} else {
rose_presented->presentation = 2;/* numberNotAvailableDueToInterworking */
}
}
/*!
* \brief Copy the given q931_party_number to the rose presented screened party address
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_presented ROSE presented screened party address structure
* \param q931_address Q.931 party id structure to get the address
*
* \return Nothing
*/
void q931_copy_presented_id_address_screened_to_rose(struct pri *ctrl,
struct rosePresentedAddressScreened *rose_presented,
const struct q931_party_id *q931_address)
{
if (q931_address->number.valid) {
rose_presented->presentation =
presentation_from_q931(ctrl, q931_address->number.presentation,
q931_address->number.str[0]);
rose_presented->screened.screening_indicator =
q931_address->number.presentation & PRI_PRES_NUMBER_TYPE;
q931_copy_number_to_rose(ctrl, &rose_presented->screened.number,
&q931_address->number);
q931_copy_subaddress_to_rose(ctrl, &rose_presented->screened.subaddress,
&q931_address->subaddress);
} else {
rose_presented->presentation = 2;/* numberNotAvailableDueToInterworking */
}
}
/*!
* \brief Copy the given q931_party_name to the rose party name
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param rose_name Q.SIG ROSE party name structure
* \param qsig_name Q.SIG party name structure
*
* \return Nothing
*/
void q931_copy_name_to_rose(struct pri *ctrl, struct roseQsigName *rose_name,
const struct q931_party_name *qsig_name)
{
if (qsig_name->valid) {
rose_name->presentation = qsig_name_presentation_from_q931(ctrl,
qsig_name->presentation, qsig_name->str[0]);
rose_name->char_set = qsig_name->char_set;
/* Truncate the qsig_name->str if necessary. */
libpri_copy_string((char *) rose_name->data, qsig_name->str, sizeof(rose_name->data));
rose_name->length = strlen((char *) rose_name->data);
} else {
rose_name->presentation = 4;/* name_not_available */
}
}
/*!
* \internal
* \brief Encode the Q.SIG DivertingLegInformation1 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 1.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_diverting_leg_information1(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_DivertingLegInformation1;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.DivertingLegInformation1.diversion_reason =
redirectingreason_from_q931(ctrl, call->redirecting.reason);
/* subscriptionOption is the redirecting.to.number.presentation */
msg.args.qsig.DivertingLegInformation1.subscription_option =
presentation_to_subscription(ctrl, call->redirecting.to.number.presentation);
/* nominatedNr is the redirecting.to.number */
q931_copy_number_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation1.nominated_number,
&call->redirecting.to.number);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI DivertingLegInformation1 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 1.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_diverting_leg_information1(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_ETSI_DivertingLegInformation1;
msg.invoke_id = get_invokeid(ctrl);
msg.args.etsi.DivertingLegInformation1.diversion_reason =
redirectingreason_from_q931(ctrl, call->redirecting.reason);
if (call->redirecting.to.number.valid) {
msg.args.etsi.DivertingLegInformation1.subscription_option = 2;
/* divertedToNumber is the redirecting.to.number */
msg.args.etsi.DivertingLegInformation1.diverted_to_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.etsi.DivertingLegInformation1.diverted_to,
&call->redirecting.to.number);
} else {
msg.args.etsi.DivertingLegInformation1.subscription_option = 1;
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue the DivertingLegInformation1 invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode diversion leg 1.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_diverting_leg_information1_encode(struct pri *ctrl, q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end = enc_etsi_diverting_leg_information1(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
case PRI_SWITCH_QSIG:
end = enc_qsig_diverting_leg_information1(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
/*!
* \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 is the redirecting.count */
msg.args.qsig.DivertingLegInformation2.diversion_counter = call->redirecting.count;
msg.args.qsig.DivertingLegInformation2.diversion_reason =
redirectingreason_from_q931(ctrl, call->redirecting.reason);
/* divertingNr is the redirecting.from.number */
msg.args.qsig.DivertingLegInformation2.diverting_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation2.diverting,
&call->redirecting.from.number);
/* redirectingName is the redirecting.from.name */
if (call->redirecting.from.name.valid) {
msg.args.qsig.DivertingLegInformation2.redirecting_name_present = 1;
q931_copy_name_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation2.redirecting_name,
&call->redirecting.from.name);
}
if (1 < call->redirecting.count) {
/* originalCalledNr is the redirecting.orig_called.number */
msg.args.qsig.DivertingLegInformation2.original_called_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation2.original_called,
&call->redirecting.orig_called.number);
msg.args.qsig.DivertingLegInformation2.original_diversion_reason_present = 1;
if (call->redirecting.orig_called.number.valid) {
msg.args.qsig.DivertingLegInformation2.original_diversion_reason =
redirectingreason_from_q931(ctrl, call->redirecting.orig_reason);
} else {
msg.args.qsig.DivertingLegInformation2.original_diversion_reason =
QSIG_DIVERT_REASON_UNKNOWN;
}
/* originalCalledName is the redirecting.orig_called.name */
if (call->redirecting.orig_called.name.valid) {
msg.args.qsig.DivertingLegInformation2.original_called_name_present = 1;
q931_copy_name_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation2.original_called_name,
&call->redirecting.orig_called.name);
}
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI 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_etsi_diverting_leg_information2(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_ETSI_DivertingLegInformation2;
msg.invoke_id = get_invokeid(ctrl);
/* diversionCounter is the redirecting.count */
msg.args.etsi.DivertingLegInformation2.diversion_counter = call->redirecting.count;
msg.args.etsi.DivertingLegInformation2.diversion_reason =
redirectingreason_from_q931(ctrl, call->redirecting.reason);
/* divertingNr is the redirecting.from.number */
msg.args.etsi.DivertingLegInformation2.diverting_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.etsi.DivertingLegInformation2.diverting,
&call->redirecting.from.number);
if (1 < call->redirecting.count) {
/* originalCalledNr is the redirecting.orig_called.number */
msg.args.etsi.DivertingLegInformation2.original_called_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.etsi.DivertingLegInformation2.original_called,
&call->redirecting.orig_called.number);
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the 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;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end = enc_etsi_diverting_leg_information2(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
case PRI_SWITCH_QSIG:
end = enc_qsig_diverting_leg_information2(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_SETUP, buffer, end - buffer, NULL);
}
/*!
* \internal
* \brief Encode the Q.SIG DivertingLegInformation3 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 3.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_diverting_leg_information3(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_DivertingLegInformation3;
msg.invoke_id = get_invokeid(ctrl);
/* redirecting.to.number.presentation also indicates if name presentation is allowed */
if ((call->redirecting.to.number.presentation & PRI_PRES_RESTRICTION) == PRI_PRES_ALLOWED) {
msg.args.qsig.DivertingLegInformation3.presentation_allowed_indicator = 1; /* TRUE */
/* redirectionName is the redirecting.to.name */
if (call->redirecting.to.name.valid) {
msg.args.qsig.DivertingLegInformation3.redirection_name_present = 1;
q931_copy_name_to_rose(ctrl,
&msg.args.qsig.DivertingLegInformation3.redirection_name,
&call->redirecting.to.name);
}
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI DivertingLegInformation3 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 3.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_diverting_leg_information3(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_ETSI_DivertingLegInformation3;
msg.invoke_id = get_invokeid(ctrl);
if ((call->redirecting.to.number.presentation & PRI_PRES_RESTRICTION) == PRI_PRES_ALLOWED) {
msg.args.etsi.DivertingLegInformation3.presentation_allowed_indicator = 1; /* TRUE */
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue the DivertingLegInformation3 invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode diversion leg 3.
* \param messagetype Q.931 message type to add facility ie to.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_diverting_leg_information3_encode(struct pri *ctrl, q931_call *call,
int messagetype)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end = enc_etsi_diverting_leg_information3(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
case PRI_SWITCH_QSIG:
end = enc_qsig_diverting_leg_information3(ctrl, buffer, buffer + sizeof(buffer),
call);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, messagetype, buffer, end - buffer, 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)) {
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);
}
/*!
* \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 name Name data 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, const struct q931_party_name *name)
{
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);
/* CallingName */
q931_copy_name_to_rose(ctrl, &msg.args.qsig.CallingName.name, name);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Send caller name 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->local_id.name.valid) {
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)) {
return -1;
}
/*
* We can reuse the buffer since the queue function doesn't
* need it.
*/
}
/* CallingName is the local_id.name */
end = enc_qsig_calling_name(ctrl, buffer, buffer + sizeof(buffer),
&call->local_id.name);
if (!end) {
return -1;
}
if (cpe) {
mymessage = Q931_SETUP;
} else {
mymessage = Q931_FACILITY;
}
return pri_call_apdu_queue(call, mymessage, buffer, end - buffer, NULL);
}
/* End Callername */
/* MWI related encode and decode functions */
/*!
* \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);
/* The called.number is the served user */
q931_copy_number_to_rose(ctrl, &msg.args.qsig.MWIActivate.served_user_number,
&req->called.number);
/*
* For now, we will just force the numbering plan to unknown to preserve
* the original behaviour.
*/
msg.args.qsig.MWIActivate.served_user_number.plan = 0; /* unknown */
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);
/* The called.number is the served user */
q931_copy_number_to_rose(ctrl, &msg.args.qsig.MWIDeactivate.served_user_number,
&req->called.number);
/*
* For now, we will just force the numbering plan to unknown to preserve
* the original behaviour.
*/
msg.args.qsig.MWIDeactivate.served_user_number.plan = 0; /* unknown */
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.number.valid || !req->called.number.str[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, NULL);
}
/*!
* \internal
* \brief Encode a MWI indication.
*
* \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 vm_id Controlling party number (NULL if not present).
* \param basic_service Basic service enum (-1 if not present).
* \param num_messages NumberOfMessages (-1 if not present).
* \param caller_id Controlling party privided number (NULL if not present).
* \param timestamp When message left. (Generalized Time format, NULL if not present)
* \param message_reference Message reference number (-1 if not present).
* \param message_status Message status: added(0), removed(1).
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_mwi_indicate_message(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const struct pri_party_id *vm_id, int basic_service,
int num_messages, const struct pri_party_id *caller_id, const char *timestamp,
int message_reference, int message_status)
{
struct rose_msg_invoke msg;
struct q931_party_number number;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_ETSI_MWIIndicate;
msg.invoke_id = get_invokeid(ctrl);
if (vm_id && vm_id->number.valid) {
pri_copy_party_number_to_q931(&number, &vm_id->number);
q931_copy_number_to_rose(ctrl, &msg.args.etsi.MWIIndicate.controlling_user_number,
&number);
}
if (-1 < basic_service) {
msg.args.etsi.MWIIndicate.basic_service_present = 1;
msg.args.etsi.MWIIndicate.basic_service = basic_service;
}
if (-1 < num_messages) {
msg.args.etsi.MWIIndicate.number_of_messages_present = 1;
msg.args.etsi.MWIIndicate.number_of_messages = num_messages;
}
if (caller_id && caller_id->number.valid) {
pri_copy_party_number_to_q931(&number, &caller_id->number);
q931_copy_number_to_rose(ctrl,
&msg.args.etsi.MWIIndicate.controlling_user_provided_number, &number);
}
if (timestamp && timestamp[0]) {
msg.args.etsi.MWIIndicate.time_present = 1;
libpri_copy_string((char *) msg.args.etsi.MWIIndicate.time.str, timestamp,
sizeof(msg.args.etsi.MWIIndicate.time.str));
}
if (-1 < message_reference) {
msg.args.etsi.MWIIndicate.message_id_present = 1;
msg.args.etsi.MWIIndicate.message_id.reference_number = message_reference;
msg.args.etsi.MWIIndicate.message_id.status = message_status;
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue a MWI indication.
*
* \param ctrl D channel controller.
* \param call Call leg to queue message.
* \param vm_id Voicemail system number (NULL if not present).
* \param basic_service Basic service enum (-1 if not present).
* \param num_messages NumberOfMessages (-1 if not present).
* \param caller_id Party leaving message (NULL if not present).
* \param timestamp When message left. (Generalized Time format, NULL if not present)
* \param message_reference Message reference number (-1 if not present).
* \param message_status Message status: added(0), removed(1).
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_mwi_indicate_encode(struct pri *ctrl, struct q931_call *call,
const struct pri_party_id *vm_id, int basic_service, int num_messages,
const struct pri_party_id *caller_id, const char *timestamp, int message_reference,
int message_status)
{
unsigned char buffer[255];
unsigned char *end;
end = enc_etsi_mwi_indicate_message(ctrl, buffer, buffer + sizeof(buffer), vm_id,
basic_service, num_messages, caller_id, timestamp, message_reference,
message_status);
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
int pri_mwi_indicate_v2(struct pri *ctrl, const struct pri_party_id *mailbox,
const struct pri_party_id *vm_id, int basic_service, int num_messages,
const struct pri_party_id *caller_id, const char *timestamp, int message_reference,
int message_status)
{
struct q931_call *call;
struct q931_party_id called;
if (!ctrl) {
return -1;
}
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
if (!BRI_NT_PTMP(ctrl)) {
return -1;
}
call = ctrl->link.dummy_call;
if (!call) {
return -1;
}
break;
default:
return -1;
}
pri_copy_party_id_to_q931(&called, mailbox);
q931_party_id_fixup(ctrl, &called);
if (rose_mwi_indicate_encode(ctrl, call, vm_id, basic_service, num_messages,
caller_id, timestamp, message_reference, message_status)
|| q931_facility_called(ctrl, call, &called)) {
pri_message(ctrl,
"Could not schedule facility message for MWI indicate message.\n");
return -1;
}
return 0;
}
int pri_mwi_indicate(struct pri *ctrl, const struct pri_party_id *mailbox,
int basic_service, int num_messages, const struct pri_party_id *caller_id,
const char *timestamp, int message_reference, int message_status)
{
return pri_mwi_indicate_v2(ctrl, mailbox, mailbox, basic_service, num_messages,
caller_id, timestamp, message_reference, message_status);
}
/* 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 ^ Q931_CALL_REFERENCE_FLAG;
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)) {
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 call Q.931 call leg.
* \param calling Call rerouting/deflecting updated caller data.
* \param deflection Call rerouting/deflecting redirection data.
* \param subscription_option Diverting user subscription option to specify if caller is notified.
*
* \note
* deflection->to is the new called number and must always be present.
* \note
* subscription option:
* noNotification(0),
* notificationWithoutDivertedToNr(1),
* notificationWithDivertedToNr(2)
*
* \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, q931_call *call, const struct q931_party_id *calling,
const struct q931_party_redirecting *deflection, int subscription_option)
{
struct fac_extension_header header;
struct rose_msg_invoke msg;
unsigned char *q931ie_pos;
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);
msg.args.qsig.CallRerouting.rerouting_reason =
redirectingreason_from_q931(ctrl, deflection->reason);
/* calledAddress is the passed in deflection->to address */
q931_copy_id_address_to_rose(ctrl, &msg.args.qsig.CallRerouting.called, &deflection->to);
msg.args.qsig.CallRerouting.diversion_counter = deflection->count;
/* pSS1InfoElement */
q931ie_pos = msg.args.qsig.CallRerouting.q931ie_contents;
*q931ie_pos++ = 0x04; /* Bearer Capability IE */
*q931ie_pos++ = 0x03; /* len */
*q931ie_pos++ = 0x80 | call->bc.transcapability; /* Rxed transfer capability. */
*q931ie_pos++ = 0x90; /* circuit mode, 64kbit/s */
*q931ie_pos++ = 0xa3; /* level1 protocol, a-law */
*q931ie_pos++ = 0x95; /* locking shift to codeset 5 (national use) */
*q931ie_pos++ = 0x32; /* Unknown ie */
*q931ie_pos++ = 0x01; /* Unknown ie len */
*q931ie_pos++ = 0x81; /* Unknown ie body */
msg.args.qsig.CallRerouting.q931ie.length = q931ie_pos
- msg.args.qsig.CallRerouting.q931ie_contents;
/* lastReroutingNr is the passed in deflection->from.number */
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.qsig.CallRerouting.last_rerouting, &deflection->from.number);
msg.args.qsig.CallRerouting.subscription_option = subscription_option;
/* callingNumber is the passed in calling->number */
q931_copy_presented_number_screened_to_rose(ctrl,
&msg.args.qsig.CallRerouting.calling, &calling->number);
/* callingPartySubaddress is the passed in calling->subaddress if valid */
q931_copy_subaddress_to_rose(ctrl, &msg.args.qsig.CallRerouting.calling_subaddress,
&calling->subaddress);
/* callingName is the passed in calling->name if valid */
if (calling->name.valid) {
msg.args.qsig.CallRerouting.calling_name_present = 1;
q931_copy_name_to_rose(ctrl, &msg.args.qsig.CallRerouting.calling_name,
&calling->name);
}
if (1 < deflection->count) {
/* originalCalledNr is the deflection->orig_called.number */
msg.args.qsig.CallRerouting.original_called_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.qsig.CallRerouting.original_called,
&deflection->orig_called.number);
msg.args.qsig.CallRerouting.original_rerouting_reason_present = 1;
if (deflection->orig_called.number.valid) {
msg.args.qsig.CallRerouting.original_rerouting_reason =
redirectingreason_from_q931(ctrl, deflection->orig_reason);
} else {
msg.args.qsig.CallRerouting.original_rerouting_reason =
QSIG_DIVERT_REASON_UNKNOWN;
}
/* originalCalledName is the deflection->orig_called.name */
if (deflection->orig_called.name.valid) {
msg.args.qsig.CallRerouting.original_called_name_present = 1;
q931_copy_name_to_rose(ctrl,
&msg.args.qsig.CallRerouting.original_called_name,
&deflection->orig_called.name);
}
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI 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 call Q.931 call leg.
* \param calling Call rerouting/deflecting updated caller data.
* \param deflection Call rerouting/deflecting redirection data.
* \param subscription_option Diverting user subscription option to specify if caller is notified.
*
* \note
* deflection->to is the new called number and must always be present.
* \note
* subscription option:
* noNotification(0),
* notificationWithoutDivertedToNr(1),
* notificationWithDivertedToNr(2)
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_call_rerouting(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, const struct q931_party_id *calling,
const struct q931_party_redirecting *deflection, int subscription_option)
{
struct rose_msg_invoke msg;
unsigned char *q931ie_pos;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.operation = ROSE_ETSI_CallRerouting;
msg.invoke_id = get_invokeid(ctrl);
msg.args.etsi.CallRerouting.rerouting_reason =
redirectingreason_from_q931(ctrl, deflection->reason);
/* calledAddress is the passed in deflection->to address */
q931_copy_id_address_to_rose(ctrl, &msg.args.etsi.CallRerouting.called_address,
&deflection->to);
msg.args.etsi.CallRerouting.rerouting_counter = deflection->count;
/* q931InfoElement */
q931ie_pos = msg.args.etsi.CallRerouting.q931ie_contents;
*q931ie_pos++ = 0x04; /* Bearer Capability IE */
*q931ie_pos++ = 0x03; /* len */
*q931ie_pos++ = 0x80 | call->bc.transcapability; /* Rxed transfer capability. */
*q931ie_pos++ = 0x90; /* circuit mode, 64kbit/s */
*q931ie_pos++ = 0xa3; /* level1 protocol, a-law */
msg.args.etsi.CallRerouting.q931ie.length = q931ie_pos
- msg.args.etsi.CallRerouting.q931ie_contents;
/* lastReroutingNr is the passed in deflection->from.number */
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.etsi.CallRerouting.last_rerouting, &deflection->from.number);
msg.args.etsi.CallRerouting.subscription_option = subscription_option;
/* callingPartySubaddress is the passed in calling->subaddress if valid */
q931_copy_subaddress_to_rose(ctrl, &msg.args.etsi.CallRerouting.calling_subaddress,
&calling->subaddress);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI CallDeflection 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 Q.931 call leg.
* \param deflection Call deflection address.
*
* \note
* deflection is the new called number and must always be present.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_call_deflection(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, const struct q931_party_id *deflection)
{
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_CallDeflection;
msg.invoke_id = get_invokeid(ctrl);
/* deflectionAddress is the passed in deflection->to address */
q931_copy_id_address_to_rose(ctrl, &msg.args.etsi.CallDeflection.deflection,
deflection);
msg.args.etsi.CallDeflection.presentation_allowed_to_diverted_to_user_present = 1;
switch (deflection->number.presentation & PRI_PRES_RESTRICTION) {
case PRI_PRES_ALLOWED:
msg.args.etsi.CallDeflection.presentation_allowed_to_diverted_to_user = 1;
break;
default:
case PRI_PRES_UNAVAILABLE:
case PRI_PRES_RESTRICTED:
break;
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the CallRerouting/CallDeflection message.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param caller Call rerouting/deflecting updated caller data. (NULL if data not updated.)
* \param deflection Call rerouting/deflecting redirection data.
* \param subscription_option Diverting user subscription option to specify if caller is notified.
*
* \note
* deflection->to is the new called number and must always be present.
* \note
* subscription option:
* noNotification(0),
* notificationWithoutDivertedToNr(1),
* notificationWithDivertedToNr(2)
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_reroute_request_encode(struct pri *ctrl, q931_call *call,
const struct q931_party_id *caller, const struct q931_party_redirecting *deflection,
int subscription_option)
{
unsigned char buffer[256];
unsigned char *end;
if (!caller) {
/*
* We are deflecting an incoming call back to the network.
* Therefore, the Caller-ID is the remote party.
*/
caller = &call->remote_id;
}
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
if (PTMP_MODE(ctrl)) {
end =
enc_etsi_call_deflection(ctrl, buffer, buffer + sizeof(buffer), call,
&deflection->to);
} else {
end =
enc_etsi_call_rerouting(ctrl, buffer, buffer + sizeof(buffer), call,
caller, deflection, subscription_option);
}
break;
case PRI_SWITCH_QSIG:
end =
enc_qsig_call_rerouting(ctrl, buffer, buffer + sizeof(buffer), call, caller,
deflection, subscription_option);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
/*!
* \brief Send the CallRerouting/CallDeflection message.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param caller Call rerouting/deflecting updated caller data. (NULL if data not updated.)
* \param deflection Call rerouting/deflecting redirection data.
* \param subscription_option Diverting user subscription option to specify if caller is notified.
*
* \note
* deflection->to is the new called number and must always be present.
* \note
* subscription option:
* noNotification(0),
* notificationWithoutDivertedToNr(1),
* notificationWithDivertedToNr(2)
*
* \retval 0 on success.
* \retval -1 on error.
*/
int send_reroute_request(struct pri *ctrl, q931_call *call,
const struct q931_party_id *caller, const struct q931_party_redirecting *deflection,
int subscription_option)
{
if (!deflection->to.number.str[0]) {
/* Must have a deflect to number. That is the point of deflection. */
return -1;
}
if (rose_reroute_request_encode(ctrl, call, caller, deflection, subscription_option)
|| q931_facility(ctrl, call)) {
pri_message(ctrl,
"Could not schedule facility message for CallRerouting/CallDeflection message.\n");
return -1;
}
return 0;
}
/*!
* \brief Send the Q.SIG CallRerouting invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Q.931 call leg.
* \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)
{
struct q931_party_redirecting reroute;
q931_party_redirecting_init(&reroute);
/* Rerouting to the dest number. */
reroute.to.number.valid = 1;
reroute.to.number.plan = (PRI_TON_UNKNOWN << 4) | PRI_NPI_E163_E164;
reroute.to.number.presentation = PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
libpri_copy_string(reroute.to.number.str, dest, sizeof(reroute.to.number.str));
/* Rerouting from the original number. */
if (original) {
reroute.from.number.valid = 1;
reroute.from.number.plan = (PRI_TON_UNKNOWN << 4) | PRI_NPI_E163_E164;
libpri_copy_string(reroute.from.number.str, original, sizeof(reroute.from.number.str));
} else {
q931_party_address_to_id(&reroute.from, &call->called);
}
reroute.from.number.presentation = PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
/* Decode the rerouting reason. */
reroute.reason = PRI_REDIR_UNKNOWN;
if (!reason) {
/* No reason for rerouting given. */
} else if (!strcasecmp(reason, "cfu")) {
reroute.reason = PRI_REDIR_UNCONDITIONAL;
} else if (!strcasecmp(reason, "cfb")) {
reroute.reason = PRI_REDIR_FORWARD_ON_BUSY;
} else if (!strcasecmp(reason, "cfnr")) {
reroute.reason = PRI_REDIR_FORWARD_ON_NO_REPLY;
}
reroute.count = (call->redirecting.count < PRI_MAX_REDIRECTS)
? call->redirecting.count + 1 : PRI_MAX_REDIRECTS;
if (!call->redirecting.orig_called.number.valid) {
/*
* Since we do not already have an originally called party, we
* must either be the first redirected to party or this call
* has not been redirected before.
*
* Preserve who redirected to us as the originally called party.
*/
reroute.orig_called = call->redirecting.from;
reroute.orig_reason = call->redirecting.reason;
} else {
reroute.orig_called = call->redirecting.orig_called;
reroute.orig_reason = call->redirecting.orig_reason;
}
return send_reroute_request(ctrl, call, NULL, &reroute, 0 /* noNotification */);
}
/* 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 *ctrl, q931_call *call, q931_ie *ie)
{
int res;
pri_call_apdu_queue_cleanup(call->bridged_call);
/* Send message */
res = pri_call_apdu_queue(call->bridged_call, Q931_FACILITY, ie->data, ie->len, 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->bridged_call->pri, call->bridged_call);
if (res) {
pri_message(ctrl, "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);
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);
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 */
/*!
* \internal
* \brief Encode ETSI ExplicitEctExecute 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 link_id Identifier of other call involved in transfer.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_ect_explicit_execute(struct pri *ctrl, unsigned char *pos,
unsigned char *end, int link_id)
{
struct rose_msg_invoke msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.invoke_id = get_invokeid(ctrl);
msg.operation = ROSE_ETSI_ExplicitEctExecute;
msg.args.etsi.ExplicitEctExecute.link_id = link_id;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief ECT LinkId response callback function.
*
* \param reason Reason callback is called.
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param apdu APDU queued entry. Do not change!
* \param msg APDU response message data. (NULL if was not the reason called.)
*
* \return TRUE if no more responses are expected.
*/
static int etsi_ect_link_id_rsp(enum APDU_CALLBACK_REASON reason, struct pri *ctrl,
struct q931_call *call, struct apdu_event *apdu, const struct apdu_msg_data *msg)
{
unsigned char buffer[256];
unsigned char *end;
q931_call *call_2;
switch (reason) {
case APDU_CALLBACK_REASON_MSG_RESULT:
call_2 = apdu->response.user.ptr;
if (!q931_is_call_valid(ctrl, call_2)) {
/* Call is no longer present. */
break;
}
end = enc_etsi_ect_explicit_execute(ctrl, buffer, buffer + sizeof(buffer),
msg->response.result->args.etsi.EctLinkIdRequest.link_id);
if (!end) {
break;
}
/* 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_2, Q931_FACILITY, buffer, end - buffer, NULL)
|| q931_facility(call_2->pri, call_2)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n",
call_2->cr);
}
break;
default:
break;
}
return 1;
}
/*!
* \internal
* \brief Encode ETSI ECT LinkId request 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_etsi_ect_link_id_req(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.invoke_id = get_invokeid(ctrl);
msg.operation = ROSE_ETSI_EctLinkIdRequest;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Start an Explicit Call Transfer (ECT) sequence between the two calls.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call_1 Q.931 call leg 1
* \param call_2 Q.931 call leg 2
*
* \retval 0 on success.
* \retval -1 on error.
*/
int etsi_initiate_transfer(struct pri *ctrl, q931_call *call_1, q931_call *call_2)
{
unsigned char buffer[256];
unsigned char *end;
struct apdu_callback_data response;
end = enc_etsi_ect_link_id_req(ctrl, buffer, buffer + sizeof(buffer));
if (!end) {
return -1;
}
memset(&response, 0, sizeof(response));
response.invoke_id = ctrl->last_invoke;
response.timeout_time = ctrl->timers[PRI_TIMER_T_RESPONSE];
response.callback = etsi_ect_link_id_rsp;
response.user.ptr = call_2;
/* 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_1, Q931_FACILITY, buffer, end - buffer, &response)
|| q931_facility(call_1->pri, call_1)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n",
call_1->cr);
return -1;
}
return 0;
}
/*!
* \internal
* \brief Encode ETSI ECT LinkId result respnose 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 invoke_id Invoke id to put in result message.
* \param link_id Requested link id to put in result message.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_ect_link_id_rsp(struct pri *ctrl, unsigned char *pos,
unsigned char *end, int invoke_id, int link_id)
{
struct rose_msg_result msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.invoke_id = invoke_id;
msg.operation = ROSE_ETSI_EctLinkIdRequest;
msg.args.etsi.EctLinkIdRequest.link_id = link_id;
pos = rose_encode_result(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Send EctLinkIdRequest result response message.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param invoke_id Invoke id to put in result message.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int send_ect_link_id_rsp(struct pri *ctrl, q931_call *call, int invoke_id)
{
unsigned char buffer[256];
unsigned char *end;
end = enc_etsi_ect_link_id_rsp(ctrl, buffer, buffer + sizeof(buffer), invoke_id,
call->link_id);
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)
|| q931_facility(call->pri, call)) {
pri_message(ctrl, "Could not schedule facility message for call %d\n", call->cr);
return -1;
}
return 0;
}
/*!
* \internal
* \brief Process the received ETSI EctExecute message.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param invoke_id Invoke id to put in response message.
*
* \details
* 1) Find the active call implied by the transfer request.
* 2) Create the PRI_SUBCMD_TRANSFER_CALL event.
*
* \retval ROSE_ERROR_None on success.
* \retval error_code on error.
*/
static enum rose_error_code etsi_ect_execute_transfer(struct pri *ctrl, q931_call *call, int invoke_id)
{
enum rose_error_code error_code;
struct pri_subcommand *subcmd;
q931_call *call_active;
switch (call->ourcallstate) {
case Q931_CALL_STATE_OUTGOING_CALL_PROCEEDING:
case Q931_CALL_STATE_CALL_DELIVERED:
case Q931_CALL_STATE_CALL_RECEIVED:
case Q931_CALL_STATE_CONNECT_REQUEST:
case Q931_CALL_STATE_INCOMING_CALL_PROCEEDING:
case Q931_CALL_STATE_ACTIVE:
if (call->master_call->hold_state != Q931_HOLD_STATE_CALL_HELD) {
/* EctExecute must be sent on the held call. */
error_code = ROSE_ERROR_Gen_InvalidCallState;
break;
}
/* Held call is being transferred. */
call_active = q931_find_held_active_call(ctrl, call);
if (!call_active) {
error_code = ROSE_ERROR_Gen_NotAvailable;
break;
}
/* Setup transfer subcommand */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
error_code = ROSE_ERROR_Gen_NotAvailable;
break;
}
subcmd->cmd = PRI_SUBCMD_TRANSFER_CALL;
subcmd->u.transfer.call_1 = call->master_call;
subcmd->u.transfer.call_2 = call_active;
subcmd->u.transfer.is_call_1_held = 1;
subcmd->u.transfer.is_call_2_held = 0;
subcmd->u.transfer.invoke_id = invoke_id;
error_code = ROSE_ERROR_None;
break;
default:
error_code = ROSE_ERROR_Gen_InvalidCallState;
break;
}
return error_code;
}
/*!
* \internal
* \brief Process the received ETSI ExplicitEctExecute message.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param invoke_id Invoke id to put in response message.
* \param link_id Link id of the other call involved in the transfer.
*
* \details
* 1) Find the other call specified by the link_id in transfer request.
* 2) Create the PRI_SUBCMD_TRANSFER_CALL event.
*
* \retval ROSE_ERROR_None on success.
* \retval error_code on error.
*/
static enum rose_error_code etsi_explicit_ect_execute_transfer(struct pri *ctrl, q931_call *call, int invoke_id, int link_id)
{
enum rose_error_code error_code;
struct pri_subcommand *subcmd;
q931_call *call_2;
switch (call->ourcallstate) {
case Q931_CALL_STATE_OUTGOING_CALL_PROCEEDING:
case Q931_CALL_STATE_CALL_DELIVERED:
case Q931_CALL_STATE_CALL_RECEIVED:
case Q931_CALL_STATE_CONNECT_REQUEST:
case Q931_CALL_STATE_INCOMING_CALL_PROCEEDING:
case Q931_CALL_STATE_ACTIVE:
call_2 = q931_find_link_id_call(ctrl, link_id);
if (!call_2 || call_2 == call->master_call) {
error_code = ROSE_ERROR_Gen_NotAvailable;
break;
}
/* Setup transfer subcommand */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
error_code = ROSE_ERROR_Gen_NotAvailable;
break;
}
subcmd->cmd = PRI_SUBCMD_TRANSFER_CALL;
subcmd->u.transfer.call_1 = call->master_call;
subcmd->u.transfer.call_2 = call_2;
subcmd->u.transfer.is_call_1_held =
(call->master_call->hold_state == Q931_HOLD_STATE_CALL_HELD) ? 1 : 0;
subcmd->u.transfer.is_call_2_held =
(call_2->hold_state == Q931_HOLD_STATE_CALL_HELD) ? 1 : 0;
subcmd->u.transfer.invoke_id = invoke_id;
error_code = ROSE_ERROR_None;
break;
default:
error_code = ROSE_ERROR_Gen_InvalidCallState;
break;
}
return error_code;
}
/* ===== Call Transfer Supplementary Service (ECMA-178) ===== */
/*!
* \internal
* \brief Encode the Q.SIG CallTransferComplete 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 call transfer.
* \param call_status TRUE if call is alerting.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_call_transfer_complete(struct pri *ctrl,
unsigned char *pos, unsigned char *end, q931_call *call, int call_status)
{
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_CallTransferComplete;
msg.invoke_id = get_invokeid(ctrl);
msg.args.qsig.CallTransferComplete.end_designation = 0; /* primaryEnd */
/* redirectionNumber is the local_id.number */
q931_copy_presented_number_screened_to_rose(ctrl,
&msg.args.qsig.CallTransferComplete.redirection, &call->local_id.number);
/* redirectionName is the local_id.name */
if (call->local_id.name.valid) {
msg.args.qsig.CallTransferComplete.redirection_name_present = 1;
q931_copy_name_to_rose(ctrl,
&msg.args.qsig.CallTransferComplete.redirection_name,
&call->local_id.name);
}
if (call_status) {
msg.args.qsig.CallTransferComplete.call_status = 1; /* alerting */
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the ETSI EctInform 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 inform message.
* \param call_status TRUE if call is alerting.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_ect_inform(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, int call_status)
{
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_EctInform;
msg.invoke_id = get_invokeid(ctrl);
if (!call_status) {
msg.args.etsi.EctInform.status = 1;/* active */
/*
* EctInform(active) contains the redirectionNumber
* redirectionNumber is the local_id.number
*/
msg.args.etsi.EctInform.redirection_present = 1;
q931_copy_presented_number_unscreened_to_rose(ctrl,
&msg.args.etsi.EctInform.redirection, &call->local_id.number);
}
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the CallTransferComplete/EctInform invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode call transfer.
* \param call_status TRUE if call is alerting.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_call_transfer_complete_encode(struct pri *ctrl, q931_call *call,
int call_status)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end =
enc_etsi_ect_inform(ctrl, buffer, buffer + sizeof(buffer), call, call_status);
break;
case PRI_SWITCH_QSIG:
end =
enc_qsig_call_transfer_complete(ctrl, buffer, buffer + sizeof(buffer), call,
call_status);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
/* ===== End Call Transfer Supplementary Service (ECMA-178) ===== */
/*!
* \internal
* \brief Encode the Q.SIG CalledName 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 name Name data 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_called_name(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const struct q931_party_name *name)
{
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_CalledName;
msg.invoke_id = get_invokeid(ctrl);
/* CalledName */
q931_copy_name_to_rose(ctrl, &msg.args.qsig.CalledName.name, name);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the Q.SIG CalledName invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode name.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_called_name_encode(struct pri *ctrl, q931_call *call, int messagetype)
{
unsigned char buffer[256];
unsigned char *end;
/* CalledName is the local_id.name */
end = enc_qsig_called_name(ctrl, buffer, buffer + sizeof(buffer),
&call->local_id.name);
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, messagetype, buffer, end - buffer, NULL);
}
/*!
* \internal
* \brief Encode the Q.SIG ConnectedName 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 name Name data 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_connected_name(struct pri *ctrl, unsigned char *pos,
unsigned char *end, const struct q931_party_name *name)
{
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_ConnectedName;
msg.invoke_id = get_invokeid(ctrl);
/* ConnectedName */
q931_copy_name_to_rose(ctrl, &msg.args.qsig.ConnectedName.name, name);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the Q.SIG ConnectedName invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode name.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_connected_name_encode(struct pri *ctrl, q931_call *call, int messagetype)
{
unsigned char buffer[256];
unsigned char *end;
/* ConnectedName is the local_id.name */
end = enc_qsig_connected_name(ctrl, buffer, buffer + sizeof(buffer),
&call->local_id.name);
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, messagetype, buffer, end - buffer, NULL);
}
/*!
* \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 response Sender supplied information to handle APDU response messages.
* NULL if don't care about responses.
*
* \note
* Only APDU messages with an invoke component can supply a response pointer.
* If any other APDU messages supply a response pointer then aliasing of the
* invoke_id can occur.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int pri_call_apdu_queue(q931_call *call, int messagetype, const unsigned char *apdu, int apdu_len, struct apdu_callback_data *response)
{
struct apdu_event *cur = NULL;
struct apdu_event *new_event = NULL;
if (!call || !messagetype || !apdu
|| apdu_len < 1 || sizeof(new_event->apdu) < apdu_len) {
return -1;
}
switch (messagetype) {
case Q931_FACILITY:
break;
default:
if (q931_is_dummy_call(call)) {
pri_error(call->pri, "!! Cannot send %s message on dummy call reference.\n",
msg2str(messagetype));
return -1;
}
break;
}
new_event = calloc(1, sizeof(*new_event));
if (!new_event) {
pri_error(call->pri, "!! Malloc failed!\n");
return -1;
}
/* Fill in the APDU event */
new_event->message = messagetype;
if (response) {
new_event->response = *response;
}
new_event->call = call;
new_event->apdu_len = apdu_len;
memcpy(new_event->apdu, apdu, apdu_len);
/* Append APDU event to the end of the list. */
if (call->apdus) {
for (cur = call->apdus; cur->next; cur = cur->next) {
}
cur->next = new_event;
} else {
call->apdus = new_event;
}
return 0;
}
/* Used by q931.c to cleanup the apdu queue upon destruction of a call */
void pri_call_apdu_queue_cleanup(q931_call *call)
{
struct apdu_event *cur_event;
struct apdu_event *free_event;
if (call) {
cur_event = call->apdus;
call->apdus = NULL;
while (cur_event) {
if (cur_event->response.callback) {
/* Stop any response timeout. */
pri_schedule_del(call->pri, cur_event->timer);
cur_event->timer = 0;
/* Indicate to callback that the APDU is being cleaned up. */
cur_event->response.callback(APDU_CALLBACK_REASON_CLEANUP, call->pri,
call, cur_event, NULL);
}
free_event = cur_event;
cur_event = cur_event->next;
free(free_event);
}
}
}
/*!
* \brief Find an outstanding APDU with the given invoke id.
*
* \param call Call to find APDU.
* \param invoke_id Invoke id to match outstanding APDUs in queue.
*
* \retval apdu_event if found.
* \retval NULL if not found.
*/
struct apdu_event *pri_call_apdu_find(struct q931_call *call, int invoke_id)
{
struct apdu_event *apdu;
if (invoke_id == APDU_INVALID_INVOKE_ID) {
/* No need to search the list since it cannot be in there. */
return NULL;
}
for (apdu = call->apdus; apdu; apdu = apdu->next) {
/*
* Note: The APDU cannot be sent and still in the queue without a
* callback and timeout timer active. Therefore, an invoke_id of
* zero is valid and not just the result of a memset().
*/
if (apdu->response.invoke_id == invoke_id && apdu->sent) {
break;
}
}
return apdu;
}
/*!
* \brief Extract the given APDU event from the given call.
*
* \param call Call to remove the APDU.
* \param extract APDU event to extract.
*
* \retval TRUE on success.
* \retval FALSE on error.
*/
int pri_call_apdu_extract(struct q931_call *call, struct apdu_event *extract)
{
struct apdu_event **prev;
struct apdu_event *cur;
/* Find APDU in list. */
for (prev = &call->apdus, cur = call->apdus;
cur;
prev = &cur->next, cur = cur->next) {
if (cur == extract) {
/* Stop any response timeout. */
pri_schedule_del(call->pri, cur->timer);
cur->timer = 0;
/* Remove APDU from list. */
*prev = cur->next;
/* Found and extracted APDU from list. */
return 1;
}
}
/* Did not find the APDU in the list. */
return 0;
}
/*!
* \brief Delete the given APDU event from the given call.
*
* \param call Call to remove the APDU.
* \param doomed APDU event to delete.
*
* \return Nothing
*/
void pri_call_apdu_delete(struct q931_call *call, struct apdu_event *doomed)
{
if (pri_call_apdu_extract(call, doomed)) {
free(doomed);
}
}
/*! \note Only called when sending the SETUP message. */
int pri_call_add_standard_apdus(struct pri *ctrl, q931_call *call)
{
if (!ctrl->sendfacility) {
return 0;
}
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
if (call->aoc_charging_request) {
aoc_charging_request_send(ctrl, call, call->aoc_charging_request);
}
if (PTMP_MODE(ctrl)) {
/* PTMP mode */
break;
}
/* PTP mode */
if (call->redirecting.count) {
rose_diverting_leg_information2_encode(ctrl, call);
/*
* Expect a DivertingLegInformation3 to update the COLR of the
* redirecting-to party we are attempting to call now.
*/
call->redirecting.state = Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3;
}
break;
case PRI_SWITCH_QSIG:
/* For Q.SIG it does network and cpe operations */
if (call->redirecting.count) {
rose_diverting_leg_information2_encode(ctrl, call);
/*
* Expect a DivertingLegInformation3 to update the COLR of the
* redirecting-to party we are attempting to call now.
*/
call->redirecting.state = Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3;
}
add_callername_facility_ies(ctrl, call, 1);
break;
case PRI_SWITCH_NI2:
add_callername_facility_ies(ctrl, call, (ctrl->localtype == PRI_CPE));
break;
case PRI_SWITCH_DMS100:
if (ctrl->localtype == PRI_CPE) {
add_dms100_transfer_ability_apdu(ctrl, call);
}
break;
default:
break;
}
return 0;
}
/*!
* \brief Send the CallTransferComplete/EctInform invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode call transfer.
* \param call_status TRUE if call is alerting.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int send_call_transfer_complete(struct pri *ctrl, q931_call *call, int call_status)
{
int status;
status = rose_call_transfer_complete_encode(ctrl, call, call_status);
if (!status) {
if (!call_status && call->local_id.number.valid
&& (ctrl->display_flags.send & PRI_DISPLAY_OPTION_NAME_UPDATE)) {
status = q931_facility_display_name(ctrl, call, &call->local_id.name);
} else {
status = q931_facility(ctrl, call);
}
}
if (status) {
pri_message(ctrl,
"Could not schedule facility message for call transfer completed.\n");
return -1;
}
return 0;
}
/*!
* \internal
* \brief Encode the ETSI RequestSubaddress 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_etsi_request_subaddress(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_ETSI_RequestSubaddress;
msg.invoke_id = get_invokeid(ctrl);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue the RequestSubaddress invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode message.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_request_subaddress_encode(struct pri *ctrl, struct q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end = enc_etsi_request_subaddress(ctrl, buffer, buffer + sizeof(buffer));
break;
case PRI_SWITCH_QSIG:
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
/*!
* \internal
* \brief Encode the ETSI SubaddressTransfer 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 message.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_subaddress_transfer(struct pri *ctrl, unsigned char *pos,
unsigned char *end, struct 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_ETSI_SubaddressTransfer;
msg.invoke_id = get_invokeid(ctrl);
if (!call->local_id.subaddress.valid) {
return NULL;
}
q931_copy_subaddress_to_rose(ctrl, &msg.args.etsi.SubaddressTransfer.subaddress,
&call->local_id.subaddress);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode the Q.SIG SubaddressTransfer 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 message.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_subaddress_transfer(struct pri *ctrl,
unsigned char *pos, unsigned char *end, struct 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_SubaddressTransfer;
msg.invoke_id = get_invokeid(ctrl);
if (!call->local_id.subaddress.valid) {
return NULL;
}
q931_copy_subaddress_to_rose(ctrl,
&msg.args.qsig.SubaddressTransfer.redirection_subaddress,
&call->local_id.subaddress);
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue the SubaddressTransfer invoke message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode message.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_subaddress_transfer_encode(struct pri *ctrl, struct q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end =
enc_etsi_subaddress_transfer(ctrl, buffer, buffer + sizeof(buffer), call);
break;
case PRI_SWITCH_QSIG:
end =
enc_qsig_subaddress_transfer(ctrl, buffer, buffer + sizeof(buffer), call);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, NULL);
}
/*!
* \brief Send a FACILITY SubaddressTransfer.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg
*
* \retval 0 on success.
* \retval -1 on error.
*/
int send_subaddress_transfer(struct pri *ctrl, struct q931_call *call)
{
if (rose_subaddress_transfer_encode(ctrl, call)
|| q931_facility(ctrl, call)) {
pri_message(ctrl,
"Could not schedule facility message for subaddress transfer.\n");
return -1;
}
return 0;
}
/*!
* \internal
* \brief Handle the received RequestSubaddress facility.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg
*
* \return Nothing
*/
static void etsi_request_subaddress(struct pri *ctrl, struct q931_call *call)
{
struct q931_party_name name;
int changed = 0;
switch (call->notify) {
case PRI_NOTIFY_TRANSFER_ACTIVE:
if (q931_party_number_cmp(&call->remote_id.number, &call->redirection_number)) {
/* The remote party number information changed. */
call->remote_id.number = call->redirection_number;
changed = 1;
}
/* Fall through */
case PRI_NOTIFY_TRANSFER_ALERTING:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
if (q931_display_name_get(call, &name)) {
if (q931_party_name_cmp(&call->remote_id.name, &name)) {
/* The remote party name information changed. */
call->remote_id.name = name;
changed = 1;
}
}
}
if (call->redirection_number.valid
&& q931_party_number_cmp(&call->remote_id.number, &call->redirection_number)) {
/* The remote party number information changed. */
call->remote_id.number = call->redirection_number;
changed = 1;
}
if (call->remote_id.subaddress.valid) {
/*
* Clear the subaddress as the remote party has been changed.
* Any new subaddress will arrive later.
*/
q931_party_subaddress_init(&call->remote_id.subaddress);
changed = 1;
}
if (changed) {
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
}
break;
default:
break;
}
/* Send our subaddress back if we have one. */
if (call->local_id.subaddress.valid) {
send_subaddress_transfer(ctrl, call);
}
}
/*!
* \internal
* \brief Handle the received SubaddressTransfer facility subaddress.
*
* \param ctrl D channel controller.
* \param call Q.931 call leg
* \param subaddr Received subaddress of remote party.
*
* \return Nothing
*/
static void handle_subaddress_transfer(struct pri *ctrl, struct q931_call *call, const struct rosePartySubaddress *subaddr)
{
int changed = 0;
struct q931_party_name name;
struct q931_party_subaddress q931_subaddress;
q931_party_subaddress_init(&q931_subaddress);
rose_copy_subaddress_to_q931(ctrl, &q931_subaddress, subaddr);
if (q931_party_subaddress_cmp(&call->remote_id.subaddress, &q931_subaddress)) {
call->remote_id.subaddress = q931_subaddress;
changed = 1;
}
if (call->redirection_number.valid
&& q931_party_number_cmp(&call->remote_id.number, &call->redirection_number)) {
/* The remote party number information changed. */
call->remote_id.number = call->redirection_number;
changed = 1;
}
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
if (q931_display_name_get(call, &name)) {
if (q931_party_name_cmp(&call->remote_id.name, &name)) {
/* The remote party name information changed. */
call->remote_id.name = name;
changed = 1;
}
}
}
if (changed) {
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
}
}
/*!
* \internal
* \brief Encode a plain facility ETSI error code.
*
* \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 error message response.
* \param invoke_id Invoke id to put in error message response.
* \param code Error code to put in error message response.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_error(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, int invoke_id, enum rose_error_code code)
{
struct rose_msg_error msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.invoke_id = invoke_id;
msg.code = code;
pos = rose_encode_error(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode a plain facility Q.SIG error code.
*
* \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 error message response.
* \param invoke_id Invoke id to put in error message response.
* \param code Error code to put in error message response.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_error(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, int invoke_id, enum rose_error_code code)
{
struct fac_extension_header header;
struct rose_msg_error 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.invoke_id = invoke_id;
msg.code = code;
pos = rose_encode_error(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue a plain facility error code.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode error message response.
* \param msgtype Q.931 message type to put facility ie in.
* \param invoke_id Invoke id to put in error message response.
* \param code Error code to put in error message response.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_error_msg_encode(struct pri *ctrl, q931_call *call, int msgtype, int invoke_id,
enum rose_error_code code)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end =
enc_etsi_error(ctrl, buffer, buffer + sizeof(buffer), call, invoke_id, code);
break;
case PRI_SWITCH_QSIG:
end =
enc_qsig_error(ctrl, buffer, buffer + sizeof(buffer), call, invoke_id, code);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, msgtype, buffer, end - buffer, NULL);
}
/*!
* \brief Encode and send a plain facility error code.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode error message response.
* \param invoke_id Invoke id to put in error message response.
* \param code Error code to put in error message response.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int send_facility_error(struct pri *ctrl, q931_call *call, int invoke_id,
enum rose_error_code code)
{
if (rose_error_msg_encode(ctrl, call, Q931_FACILITY, invoke_id, code)
|| q931_facility(ctrl, call)) {
pri_message(ctrl,
"Could not schedule facility message for error message.\n");
return -1;
}
return 0;
}
/*!
* \internal
* \brief Encode a plain facility ETSI result ok.
*
* \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 result ok message response.
* \param invoke_id Invoke id to put in result ok message response.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_result_ok(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, int invoke_id)
{
struct rose_msg_result msg;
pos = facility_encode_header(ctrl, pos, end, NULL);
if (!pos) {
return NULL;
}
memset(&msg, 0, sizeof(msg));
msg.invoke_id = invoke_id;
msg.operation = ROSE_None;
pos = rose_encode_result(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode a plain facility Q.SIG result ok.
*
* \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 result ok message response.
* \param invoke_id Invoke id to put in result ok message response.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_qsig_result_ok(struct pri *ctrl, unsigned char *pos,
unsigned char *end, q931_call *call, int invoke_id)
{
struct fac_extension_header header;
struct rose_msg_result 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.invoke_id = invoke_id;
msg.operation = ROSE_None;
pos = rose_encode_result(ctrl, pos, end, &msg);
return pos;
}
/*!
* \brief Encode and queue a plain ROSE result ok.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode result ok message response.
* \param msgtype Q.931 message type to put facility ie in.
* \param invoke_id Invoke id to put in result ok message response.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int rose_result_ok_encode(struct pri *ctrl, q931_call *call, int msgtype, int invoke_id)
{
unsigned char buffer[256];
unsigned char *end;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end =
enc_etsi_result_ok(ctrl, buffer, buffer + sizeof(buffer), call, invoke_id);
break;
case PRI_SWITCH_QSIG:
end =
enc_qsig_result_ok(ctrl, buffer, buffer + sizeof(buffer), call, invoke_id);
break;
default:
return -1;
}
if (!end) {
return -1;
}
return pri_call_apdu_queue(call, msgtype, buffer, end - buffer, NULL);
}
/*!
* \brief Encode and send a FACILITY message with a plain ROSE result ok.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode result ok message response.
* \param invoke_id Invoke id to put in result ok message response.
*
* \retval 0 on success.
* \retval -1 on error.
*/
int send_facility_result_ok(struct pri *ctrl, q931_call *call, int invoke_id)
{
if (rose_result_ok_encode(ctrl, call, Q931_FACILITY, invoke_id)
|| q931_facility(ctrl, call)) {
pri_message(ctrl,
"Could not schedule facility message for result OK message.\n");
return -1;
}
return 0;
}
int pri_rerouting_rsp(struct pri *ctrl, q931_call *call, int invoke_id, enum PRI_REROUTING_RSP_CODE code)
{
enum rose_error_code rose_err;
if (!ctrl || !pri_is_call_valid(ctrl, call)) {
return -1;
}
/* Convert the public rerouting response code to an error code or result ok. */
rose_err = ROSE_ERROR_Gen_ResourceUnavailable;
switch (code) {
case PRI_REROUTING_RSP_OK_CLEAR:
/*
* Send the response out on the next message which should be
* either Q931_DISCONNECT or Q931_RELEASE depending upon who
* initiates the disconnect first.
*/
return rose_result_ok_encode(ctrl, call, Q931_ANY_MESSAGE, invoke_id);
case PRI_REROUTING_RSP_OK_RETAIN:
return send_facility_result_ok(ctrl, call, invoke_id);
case PRI_REROUTING_RSP_NOT_SUBSCRIBED:
rose_err = ROSE_ERROR_Gen_NotSubscribed;
break;
case PRI_REROUTING_RSP_NOT_AVAILABLE:
rose_err = ROSE_ERROR_Gen_NotAvailable;
break;
case PRI_REROUTING_RSP_NOT_ALLOWED:
rose_err = ROSE_ERROR_Gen_SupplementaryServiceInteractionNotAllowed;
break;
case PRI_REROUTING_RSP_INVALID_NUMBER:
rose_err = ROSE_ERROR_Div_InvalidDivertedToNr;
break;
case PRI_REROUTING_RSP_SPECIAL_SERVICE_NUMBER:
rose_err = ROSE_ERROR_Div_SpecialServiceNr;
break;
case PRI_REROUTING_RSP_DIVERSION_TO_SELF:
rose_err = ROSE_ERROR_Div_DiversionToServedUserNr;
break;
case PRI_REROUTING_RSP_MAX_DIVERSIONS_EXCEEDED:
rose_err = ROSE_ERROR_Div_NumberOfDiversionsExceeded;
break;
case PRI_REROUTING_RSP_RESOURCE_UNAVAILABLE:
rose_err = ROSE_ERROR_Gen_ResourceUnavailable;
break;
}
return send_facility_error(ctrl, call, invoke_id, rose_err);
}
int pri_transfer_rsp(struct pri *ctrl, q931_call *call, int invoke_id, int is_successful)
{
if (!ctrl || !pri_is_call_valid(ctrl, call)) {
return -1;
}
if (is_successful) {
return rose_result_ok_encode(ctrl, call, Q931_DISCONNECT, invoke_id);
} else {
return send_facility_error(ctrl, call, invoke_id, ROSE_ERROR_Gen_NotAvailable);
}
}
/*!
* \internal
* \brief MCIDRequest response callback function.
*
* \param reason Reason callback is called.
* \param ctrl D channel controller.
* \param call Q.931 call leg.
* \param apdu APDU queued entry. Do not change!
* \param msg APDU response message data. (NULL if was not the reason called.)
*
* \return TRUE if no more responses are expected.
*/
static int mcid_req_response(enum APDU_CALLBACK_REASON reason, struct pri *ctrl, struct q931_call *call, struct apdu_event *apdu, const struct apdu_msg_data *msg)
{
struct pri_subcommand *subcmd;
int status;
int fail_code;
switch (reason) {
case APDU_CALLBACK_REASON_TIMEOUT:
status = 1;/* timeout */
fail_code = 0;
break;
case APDU_CALLBACK_REASON_MSG_RESULT:
status = 0;/* success */
fail_code = 0;
break;
case APDU_CALLBACK_REASON_MSG_ERROR:
status = 2;/* error */
fail_code = msg->response.error->code;
break;
case APDU_CALLBACK_REASON_MSG_REJECT:
status = 3;/* reject */
fail_code = 0;
fail_code = msg->response.reject->code;
break;
default:
return 1;
}
subcmd = q931_alloc_subcommand(ctrl);
if (subcmd) {
/* Indicate that our MCID request has completed. */
subcmd->cmd = PRI_SUBCMD_MCID_RSP;
subcmd->u.mcid_rsp.status = status;
subcmd->u.mcid_rsp.fail_code = fail_code;
} else {
/* Oh, well. */
}
return 1;
}
/*!
* \internal
* \brief Encode a MCIDRequest 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 message.
*
* \retval Start of the next ASN.1 component to encode on success.
* \retval NULL on error.
*/
static unsigned char *enc_etsi_mcid_req(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.invoke_id = get_invokeid(ctrl);
msg.operation = ROSE_ETSI_MCIDRequest;
pos = rose_encode_invoke(ctrl, pos, end, &msg);
return pos;
}
/*!
* \internal
* \brief Encode and queue a MCID request message.
*
* \param ctrl D channel controller for diagnostic messages or global options.
* \param call Call leg from which to encode message.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int rose_mcid_req_encode(struct pri *ctrl, q931_call *call)
{
unsigned char buffer[256];
unsigned char *end;
struct apdu_callback_data response;
switch (ctrl->switchtype) {
case PRI_SWITCH_EUROISDN_E1:
case PRI_SWITCH_EUROISDN_T1:
end = enc_etsi_mcid_req(ctrl, buffer, buffer + sizeof(buffer), call);
break;
default:
return -1;
}
if (!end) {
return -1;
}
memset(&response, 0, sizeof(response));
response.invoke_id = ctrl->last_invoke;
response.timeout_time = ctrl->timers[PRI_TIMER_T_RESPONSE];
response.callback = mcid_req_response;
return pri_call_apdu_queue(call, Q931_FACILITY, buffer, end - buffer, &response);
}
int pri_mcid_req_send(struct pri *ctrl, q931_call *call)
{
if (!ctrl || !pri_is_call_valid(ctrl, call)) {
return -1;
}
if (call->cc.originated) {
/* We can only send MCID if we answered the call. */
return -1;
}
if (rose_mcid_req_encode(ctrl, call) || q931_facility(ctrl, call)) {
pri_message(ctrl,
"Could not schedule facility message for MCID request message.\n");
return -1;
}
return 0;
}
void pri_mcid_enable(struct pri *ctrl, int enable)
{
if (ctrl) {
ctrl->mcid_support = enable ? 1 : 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 msgtype Q.931 message type ie is in.
* \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, int msgtype, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_reject *reject)
{
q931_call *orig_call;
struct apdu_event *apdu;
struct apdu_msg_data msg;
if (ctrl->debug & PRI_DEBUG_APDU) {
/* Gripe to the user about getting rejected. */
pri_message(ctrl, "ROSE REJECT:\n");
if (reject->invoke_id_present) {
pri_message(ctrl, "\tINVOKE ID: %d\n", reject->invoke_id);
}
pri_message(ctrl, "\tPROBLEM: %s\n", rose_reject2str(reject->code));
}
switch (ctrl->switchtype) {
case PRI_SWITCH_DMS100:
/* The DMS-100 switch apparently handles invoke_id as an invoke operation. */
return;
default:
break;
}
if (!reject->invoke_id_present) {
/*
* No invoke id to look up so we cannot match it to any outstanding APDUs.
* This REJECT is apparently meant for someone monitoring the link.
*/
return;
}
orig_call = NULL;/* To make some compilers happy. */
apdu = NULL;
if (q931_is_dummy_call(call)) {
/*
* The message was likely sent on the broadcast dummy call reference call
* and the reject came in on a specific dummy call reference call.
* Look for the original invocation message on the
* broadcast dummy call reference call first.
*/
orig_call = ctrl->link.dummy_call;
if (orig_call) {
apdu = pri_call_apdu_find(orig_call, reject->invoke_id);
}
}
if (!apdu) {
apdu = pri_call_apdu_find(call, reject->invoke_id);
if (!apdu) {
return;
}
orig_call = call;
}
msg.response.reject = reject;
msg.type = msgtype;
if (apdu->response.callback(APDU_CALLBACK_REASON_MSG_REJECT, ctrl, call, apdu, &msg)) {
pri_call_apdu_delete(orig_call, apdu);
}
}
/*!
* \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 msgtype Q.931 message type ie is in.
* \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, int msgtype, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_error *error)
{
const char *dms100_operation;
q931_call *orig_call;
struct apdu_event *apdu;
struct apdu_msg_data msg;
if (ctrl->debug & PRI_DEBUG_APDU) {
/* Gripe to the user about getting an error. */
pri_message(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_message(ctrl, "\tOPERATION: %s\n", dms100_operation);
break;
}
/* fall through */
default:
pri_message(ctrl, "\tINVOKE ID: %d\n", error->invoke_id);
break;
}
pri_message(ctrl, "\tERROR: %s\n", rose_error2str(error->code));
}
switch (ctrl->switchtype) {
case PRI_SWITCH_DMS100:
/* The DMS-100 switch apparently handles invoke_id as an invoke operation. */
return;
default:
break;
}
orig_call = NULL;/* To make some compilers happy. */
apdu = NULL;
if (q931_is_dummy_call(call)) {
/*
* The message was likely sent on the broadcast dummy call reference call
* and the error came in on a specific dummy call reference call.
* Look for the original invocation message on the
* broadcast dummy call reference call first.
*/
orig_call = ctrl->link.dummy_call;
if (orig_call) {
apdu = pri_call_apdu_find(orig_call, error->invoke_id);
}
}
if (!apdu) {
apdu = pri_call_apdu_find(call, error->invoke_id);
if (!apdu) {
return;
}
orig_call = call;
}
msg.response.error = error;
msg.type = msgtype;
if (apdu->response.callback(APDU_CALLBACK_REASON_MSG_ERROR, ctrl, call, apdu, &msg)) {
pri_call_apdu_delete(orig_call, apdu);
}
}
/*!
* \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 msgtype Q.931 message type ie is in.
* \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, int msgtype, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_result *result)
{
q931_call *orig_call;
struct apdu_event *apdu;
struct apdu_msg_data msg;
switch (ctrl->switchtype) {
case PRI_SWITCH_DMS100:
/* The DMS-100 switch apparently handles invoke_id as an invoke operation. */
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;
}
orig_call = NULL;/* To make some compilers happy. */
apdu = NULL;
if (q931_is_dummy_call(call)) {
/*
* The message was likely sent on the broadcast dummy call reference call
* and the result came in on a specific dummy call reference call.
* Look for the original invocation message on the
* broadcast dummy call reference call first.
*/
orig_call = ctrl->link.dummy_call;
if (orig_call) {
apdu = pri_call_apdu_find(orig_call, result->invoke_id);
}
}
if (!apdu) {
apdu = pri_call_apdu_find(call, result->invoke_id);
if (!apdu) {
return;
}
orig_call = call;
}
msg.response.result = result;
msg.type = msgtype;
if (apdu->response.callback(APDU_CALLBACK_REASON_MSG_RESULT, ctrl, call, apdu, &msg)) {
pri_call_apdu_delete(orig_call, apdu);
}
}
/*!
* \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 msgtype Q.931 message type ie is in.
* \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, int msgtype, q931_ie *ie,
const struct fac_extension_header *header, const struct rose_msg_invoke *invoke)
{
struct pri_cc_record *cc_record;
struct pri_subcommand *subcmd;
struct q931_party_id party_id;
struct q931_party_address party_address;
struct q931_party_redirecting deflection;
enum rose_error_code error_code;
switch (invoke->operation) {
#if 0 /* Not handled yet */
case ROSE_ETSI_ActivationDiversion:
break;
case ROSE_ETSI_DeactivationDiversion:
break;
case ROSE_ETSI_ActivationStatusNotificationDiv:
break;
case ROSE_ETSI_DeactivationStatusNotificationDiv:
break;
case ROSE_ETSI_InterrogationDiversion:
break;
case ROSE_ETSI_DiversionInformation:
break;
#endif /* Not handled yet */
case ROSE_ETSI_CallDeflection:
if (!ctrl->deflection_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotSubscribed);
break;
}
if (!q931_master_pass_event(ctrl, call, msgtype)) {
/* Some other user is further along to connecting than this call. */
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Div_IncomingCallAccepted);
break;
}
if (call->master_call->deflection_in_progress) {
/* Someone else is already doing a call deflection. */
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Div_RequestAlreadyAccepted);
break;
}
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
/*
* ROSE_ERROR_Gen_ResourceUnavailable was not in the list of allowed codes,
* but we will send it anyway.
*/
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_ResourceUnavailable);
break;
}
call->master_call->deflection_in_progress = 1;
q931_party_redirecting_init(&deflection);
/* Deflecting from the called address. */
q931_party_address_to_id(&deflection.from, &call->called);
if (invoke->args.etsi.CallDeflection.presentation_allowed_to_diverted_to_user_present) {
deflection.from.number.presentation =
invoke->args.etsi.CallDeflection.presentation_allowed_to_diverted_to_user
? PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED
: PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
} else {
deflection.from.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
}
/* Deflecting to the new address. */
rose_copy_address_to_id_q931(ctrl, &deflection.to,
&invoke->args.etsi.CallDeflection.deflection);
deflection.to.number.presentation = deflection.from.number.presentation;
deflection.count = (call->redirecting.count < PRI_MAX_REDIRECTS)
? call->redirecting.count + 1 : PRI_MAX_REDIRECTS;
deflection.reason = PRI_REDIR_DEFLECTION;
if (deflection.count == 1) {
deflection.orig_called = deflection.from;
deflection.orig_reason = deflection.reason;
} else {
deflection.orig_called = call->redirecting.orig_called;
deflection.orig_reason = call->redirecting.orig_reason;
}
subcmd->cmd = PRI_SUBCMD_REROUTING;
subcmd->u.rerouting.invoke_id = invoke->invoke_id;
subcmd->u.rerouting.subscription_option = 3;/* notApplicable */
q931_party_id_copy_to_pri(&subcmd->u.rerouting.caller, &call->local_id);
q931_party_redirecting_copy_to_pri(&subcmd->u.rerouting.deflection,
&deflection);
break;
case ROSE_ETSI_CallRerouting:
if (!ctrl->deflection_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotSubscribed);
break;
}
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_ResourceUnavailable);
break;
}
q931_party_redirecting_init(&deflection);
/* Rerouting from the last address. */
rose_copy_presented_number_unscreened_to_q931(ctrl, &deflection.from.number,
&invoke->args.etsi.CallRerouting.last_rerouting);
/* Rerouting to the new address. */
rose_copy_address_to_id_q931(ctrl, &deflection.to,
&invoke->args.etsi.CallRerouting.called_address);
switch (invoke->args.etsi.CallRerouting.subscription_option) {
default:
case 0: /* noNotification */
case 1: /* notificationWithoutDivertedToNr */
deflection.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
case 2: /* notificationWithDivertedToNr */
deflection.to.number.presentation =
PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
}
/* Calling party subaddress update. */
party_id = call->local_id;
deflection.count = invoke->args.etsi.CallRerouting.rerouting_counter;
deflection.reason = redirectingreason_for_q931(ctrl,
invoke->args.etsi.CallRerouting.rerouting_reason);
if (deflection.count == 1) {
deflection.orig_called = deflection.from;
deflection.orig_reason = deflection.reason;
} else {
deflection.orig_called = call->redirecting.orig_called;
deflection.orig_reason = call->redirecting.orig_reason;
}
subcmd->cmd = PRI_SUBCMD_REROUTING;
subcmd->u.rerouting.invoke_id = invoke->invoke_id;
subcmd->u.rerouting.subscription_option =
invoke->args.etsi.CallRerouting.subscription_option;
q931_party_id_copy_to_pri(&subcmd->u.rerouting.caller, &party_id);
q931_party_redirecting_copy_to_pri(&subcmd->u.rerouting.deflection,
&deflection);
break;
#if 0 /* Not handled yet */
case ROSE_ETSI_InterrogateServedUserNumbers:
break;
#endif /* Not handled yet */
case ROSE_ETSI_DivertingLegInformation1:
if (invoke->args.etsi.DivertingLegInformation1.diverted_to_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl, &party_id.number,
&invoke->args.etsi.DivertingLegInformation1.diverted_to);
/*
* We set the presentation value since the sender cannot know the
* presentation value preference of the destination party.
*/
if (party_id.number.str[0]) {
party_id.number.presentation =
PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
} else {
party_id.number.presentation = PRES_NUMBER_NOT_AVAILABLE;
}
} else {
q931_party_number_init(&party_id.number);
party_id.number.valid = 1;
}
/*
* Unless otherwise indicated by CONNECT, the divertedToNumber will be
* the remote_id.number.
*/
if (!call->connected_number_in_message) {
call->remote_id.number = party_id.number;
}
/* divertedToNumber is put in redirecting.to.number */
switch (invoke->args.etsi.DivertingLegInformation1.subscription_option) {
default:
case 0: /* noNotification */
case 1: /* notificationWithoutDivertedToNr */
q931_party_number_init(&call->redirecting.to.number);
call->redirecting.to.number.valid = 1;
call->redirecting.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
case 2: /* notificationWithDivertedToNr */
call->redirecting.to.number = party_id.number;
break;
}
call->redirecting.reason = redirectingreason_for_q931(ctrl,
invoke->args.etsi.DivertingLegInformation1.diversion_reason);
if (call->redirecting.count < PRI_MAX_REDIRECTS) {
++call->redirecting.count;
}
call->redirecting.state = Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3;
break;
case ROSE_ETSI_DivertingLegInformation2:
call->redirecting.state = Q931_REDIRECTING_STATE_PENDING_TX_DIV_LEG_3;
call->redirecting.count =
invoke->args.etsi.DivertingLegInformation2.diversion_counter;
if (!call->redirecting.count) {
/* To be safe, make sure that the count is non-zero. */
call->redirecting.count = 1;
}
call->redirecting.reason = redirectingreason_for_q931(ctrl,
invoke->args.etsi.DivertingLegInformation2.diversion_reason);
/* divertingNr is put in redirecting.from.number */
if (invoke->args.etsi.DivertingLegInformation2.diverting_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&call->redirecting.from.number,
&invoke->args.etsi.DivertingLegInformation2.diverting);
} else if (!call->redirecting_number_in_message) {
q931_party_number_init(&call->redirecting.from.number);
call->redirecting.from.number.valid = 1;
}
call->redirecting.orig_reason = PRI_REDIR_UNKNOWN;
/* originalCalledNr is put in redirecting.orig_called.number */
if (invoke->args.etsi.DivertingLegInformation2.original_called_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&call->redirecting.orig_called.number,
&invoke->args.etsi.DivertingLegInformation2.original_called);
} else {
q931_party_number_init(&call->redirecting.orig_called.number);
}
break;
case ROSE_ETSI_DivertingLegInformation3:
/*
* Unless otherwise indicated by CONNECT, this will be the
* remote_id.number.presentation.
*/
if (!invoke->args.etsi.DivertingLegInformation3.presentation_allowed_indicator) {
call->redirecting.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
if (!call->connected_number_in_message) {
call->remote_id.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
}
}
switch (call->redirecting.state) {
case Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3:
call->redirecting.state = Q931_REDIRECTING_STATE_IDLE;
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
/* Setup redirecting subcommand */
subcmd->cmd = PRI_SUBCMD_REDIRECTING;
q931_party_redirecting_copy_to_pri(&subcmd->u.redirecting,
&call->redirecting);
break;
default:
break;
}
break;
case ROSE_ETSI_ChargingRequest:
aoc_etsi_aoc_request(ctrl, call, invoke);
break;
case ROSE_ETSI_AOCSCurrency:
aoc_etsi_aoc_s_currency(ctrl, invoke);
break;
case ROSE_ETSI_AOCSSpecialArr:
aoc_etsi_aoc_s_special_arrangement(ctrl, invoke);
break;
case ROSE_ETSI_AOCDCurrency:
aoc_etsi_aoc_d_currency(ctrl, invoke);
break;
case ROSE_ETSI_AOCDChargingUnit:
aoc_etsi_aoc_d_charging_unit(ctrl, invoke);
break;
case ROSE_ETSI_AOCECurrency:
aoc_etsi_aoc_e_currency(ctrl, call, invoke);
break;
case ROSE_ETSI_AOCEChargingUnit:
aoc_etsi_aoc_e_charging_unit(ctrl, call, invoke);
break;
#if 0 /* Not handled yet */
case ROSE_ITU_IdentificationOfCharge:
break;
#endif /* Not handled yet */
case ROSE_ETSI_EctExecute:
if (!ctrl->transfer_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotSubscribed);
break;
}
error_code = etsi_ect_execute_transfer(ctrl, call, invoke->invoke_id);
if (error_code != ROSE_ERROR_None) {
send_facility_error(ctrl, call, invoke->invoke_id, error_code);
}
break;
case ROSE_ETSI_ExplicitEctExecute:
error_code = etsi_explicit_ect_execute_transfer(ctrl, call, invoke->invoke_id,
invoke->args.etsi.ExplicitEctExecute.link_id);
if (error_code != ROSE_ERROR_None) {
send_facility_error(ctrl, call, invoke->invoke_id, error_code);
}
break;
case ROSE_ETSI_RequestSubaddress:
etsi_request_subaddress(ctrl, call);
break;
case ROSE_ETSI_SubaddressTransfer:
handle_subaddress_transfer(ctrl, call,
&invoke->args.etsi.SubaddressTransfer.subaddress);
break;
case ROSE_ETSI_EctLinkIdRequest:
if (!ctrl->transfer_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_ResourceUnavailable);
break;
}
/*
* Use the invoke_id sequence number as a link_id.
* It should be safe enough to do this. If not then we will have to search
* the call pool to ensure that the link_id is not already in use.
*/
call->master_call->link_id = get_invokeid(ctrl);
call->master_call->is_link_id_valid = 1;
send_ect_link_id_rsp(ctrl, call, invoke->invoke_id);
break;
case ROSE_ETSI_EctInform:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
/* redirectionNumber is put in remote_id.number */
if (invoke->args.etsi.EctInform.redirection_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&call->remote_id.number, &invoke->args.etsi.EctInform.redirection);
}
/*
* Clear the subaddress as the remote party has been changed.
* Any new subaddress will arrive later.
*/
q931_party_subaddress_init(&call->remote_id.subaddress);
if (!invoke->args.etsi.EctInform.status) {
/* The remote party for the transfer has not answered yet. */
call->incoming_ct_state = INCOMING_CT_STATE_EXPECT_CT_ACTIVE;
} else {
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
}
/* Send our subaddress back if we have one. */
if (call->local_id.subaddress.valid) {
send_subaddress_transfer(ctrl, call);
}
break;
case ROSE_ETSI_EctLoopTest:
/*
* The ETS 300 369 specification does a very poor job describing
* how this message is used to detect loops.
*/
send_facility_error(ctrl, call, invoke->invoke_id, ROSE_ERROR_Gen_NotAvailable);
break;
#if defined(STATUS_REQUEST_PLACE_HOLDER)
case ROSE_ETSI_StatusRequest:
/* Not handled yet */
break;
#endif /* defined(STATUS_REQUEST_PLACE_HOLDER) */
case ROSE_ETSI_CallInfoRetain:
if (!ctrl->cc_support) {
/*
* Blocking the cc-available event effectively
* disables call completion for outgoing calls.
*/
break;
}
if (call->cc.record) {
/* Duplicate message! Should not happen. */
break;
}
cc_record = pri_cc_new_record(ctrl, call);
if (!cc_record) {
break;
}
cc_record->signaling = ctrl->link.dummy_call;
/*
* Since we received this facility, we will not be allocating any
* reference and linkage id's.
*/
cc_record->call_linkage_id =
invoke->args.etsi.CallInfoRetain.call_linkage_id & 0x7F;
cc_record->original_call = call;
call->cc.record = cc_record;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_AVAILABLE);
break;
case ROSE_ETSI_CCBSRequest:
pri_cc_ptmp_request(ctrl, call, invoke);
break;
case ROSE_ETSI_CCNRRequest:
pri_cc_ptmp_request(ctrl, call, invoke);
break;
case ROSE_ETSI_CCBSDeactivate:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSDeactivate.ccbs_reference);
if (!cc_record) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_CCBS_InvalidCCBSReference);
break;
}
send_facility_result_ok(ctrl, call, invoke->invoke_id);
pri_cc_event(ctrl, call, cc_record, CC_EVENT_LINK_CANCEL);
break;
case ROSE_ETSI_CCBSInterrogate:
pri_cc_interrogate_rsp(ctrl, call, invoke);
break;
case ROSE_ETSI_CCNRInterrogate:
pri_cc_interrogate_rsp(ctrl, call, invoke);
break;
case ROSE_ETSI_CCBSErase:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSErase.ccbs_reference);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_LINK_CANCEL);
break;
case ROSE_ETSI_CCBSRemoteUserFree:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSRemoteUserFree.ccbs_reference);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_REMOTE_USER_FREE);
break;
case ROSE_ETSI_CCBSCall:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSCall.ccbs_reference);
if (!cc_record) {
rose_error_msg_encode(ctrl, call, Q931_ANY_MESSAGE, invoke->invoke_id,
ROSE_ERROR_CCBS_InvalidCCBSReference);
call->cc.hangup_call = 1;
break;
}
/* Save off data to know how to send back any response. */
cc_record->response.signaling = call;
cc_record->response.invoke_operation = invoke->operation;
cc_record->response.invoke_id = invoke->invoke_id;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_RECALL);
break;
case ROSE_ETSI_CCBSStatusRequest:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSStatusRequest.ccbs_reference);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
/* Save off data to know how to send back any response. */
//cc_record->response.signaling = call;
cc_record->response.invoke_operation = invoke->operation;
cc_record->response.invoke_id = invoke->invoke_id;
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
subcmd->cmd = PRI_SUBCMD_CC_STATUS_REQ;
subcmd->u.cc_status_req.cc_id = cc_record->record_id;
break;
case ROSE_ETSI_CCBSBFree:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSBFree.ccbs_reference);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_B_FREE);
break;
case ROSE_ETSI_EraseCallLinkageID:
cc_record = pri_cc_find_by_linkage(ctrl,
invoke->args.etsi.EraseCallLinkageID.call_linkage_id);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
/*
* T_RETENTION expired on the network side so we will pretend
* that it expired on our side.
*/
pri_cc_event(ctrl, call, cc_record, CC_EVENT_TIMEOUT_T_RETENTION);
break;
case ROSE_ETSI_CCBSStopAlerting:
cc_record = pri_cc_find_by_reference(ctrl,
invoke->args.etsi.CCBSStopAlerting.ccbs_reference);
if (!cc_record) {
/*
* Ignore any status requests that we do not have a record.
* We will not participate in any CC requests that we did
* not initiate.
*/
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_STOP_ALERTING);
break;
case ROSE_ETSI_CCBS_T_Request:
pri_cc_ptp_request(ctrl, call, msgtype, invoke);
break;
case ROSE_ETSI_CCNR_T_Request:
pri_cc_ptp_request(ctrl, call, msgtype, invoke);
break;
case ROSE_ETSI_CCBS_T_Call:
if (msgtype != Q931_SETUP) {
/* Ignore since it did not come in on the correct message. */
break;
}
/*
* If we cannot find the cc_record we should still pass up the
* CC call indication but with a -1 for the cc_id.
* The upper layer would then need to search its records for a
* matching CC. The call may have come in on a different interface.
*/
q931_party_id_to_address(&party_address, &call->remote_id);
cc_record = pri_cc_find_by_addressing(ctrl, &party_address, &call->called,
call->cc.saved_ie_contents.length, call->cc.saved_ie_contents.data);
if (cc_record) {
pri_cc_event(ctrl, call, cc_record, CC_EVENT_RECALL);
} else {
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
subcmd->cmd = PRI_SUBCMD_CC_CALL;
subcmd->u.cc_call.cc_id = -1;
}
break;
case ROSE_ETSI_CCBS_T_Suspend:
cc_record = call->cc.record;
if (!cc_record) {
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_SUSPEND);
break;
case ROSE_ETSI_CCBS_T_Resume:
cc_record = call->cc.record;
if (!cc_record) {
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_RESUME);
break;
case ROSE_ETSI_CCBS_T_RemoteUserFree:
cc_record = call->cc.record;
if (!cc_record) {
break;
}
pri_cc_event(ctrl, call, cc_record, CC_EVENT_REMOTE_USER_FREE);
break;
case ROSE_ETSI_CCBS_T_Available:
if (!ctrl->cc_support) {
/*
* Blocking the cc-available event effectively
* disables call completion for outgoing calls.
*/
break;
}
if (call->cc.record) {
/* Duplicate message! Should not happen. */
break;
}
cc_record = pri_cc_new_record(ctrl, call);
if (!cc_record) {
break;
}
cc_record->original_call = call;
call->cc.record = cc_record;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_AVAILABLE);
break;
case ROSE_ETSI_MCIDRequest:
if (q931_is_dummy_call(call)) {
/* Don't even dignify this with a response. */
break;
}
if (!ctrl->mcid_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotSubscribed);
break;
}
if (!call->cc.originated) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotIncomingCall);
break;
}
switch (call->ourcallstate) {
case Q931_CALL_STATE_ACTIVE:
case Q931_CALL_STATE_DISCONNECT_INDICATION:
case Q931_CALL_STATE_DISCONNECT_REQUEST:/* XXX We are really in the wrong state for this mode. */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotAvailable);
break;
}
subcmd->cmd = PRI_SUBCMD_MCID_REQ;
q931_party_id_copy_to_pri(&subcmd->u.mcid_req.originator, &call->local_id);
q931_party_id_copy_to_pri(&subcmd->u.mcid_req.answerer, &call->remote_id);
send_facility_result_ok(ctrl, call, invoke->invoke_id);
break;
default:
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_InvalidCallState);
break;
}
break;
#if 0 /* Not handled yet */
case ROSE_ETSI_MWIActivate:
break;
case ROSE_ETSI_MWIDeactivate:
break;
case ROSE_ETSI_MWIIndicate:
break;
#endif /* Not handled yet */
case ROSE_QSIG_CallingName:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
/* CallingName is put in remote_id.name */
rose_copy_name_to_q931(ctrl, &call->remote_id.name,
&invoke->args.qsig.CallingName.name);
switch (msgtype) {
case Q931_SETUP:
case Q931_CONNECT:
/* The caller name will automatically be reported. */
break;
default:
/* Setup connected line subcommand */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
subcmd->cmd = PRI_SUBCMD_CONNECTED_LINE;
q931_party_id_copy_to_pri(&subcmd->u.connected_line.id, &call->remote_id);
break;
}
break;
case ROSE_QSIG_CalledName:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
/* CalledName is put in remote_id.name */
rose_copy_name_to_q931(ctrl, &call->remote_id.name,
&invoke->args.qsig.CalledName.name);
switch (msgtype) {
case Q931_SETUP:
case Q931_CONNECT:
/* The called name will automatically be reported. */
break;
default:
/* Setup connected line subcommand */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
subcmd->cmd = PRI_SUBCMD_CONNECTED_LINE;
q931_party_id_copy_to_pri(&subcmd->u.connected_line.id, &call->remote_id);
break;
}
break;
case ROSE_QSIG_ConnectedName:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
/* ConnectedName is put in remote_id.name */
rose_copy_name_to_q931(ctrl, &call->remote_id.name,
&invoke->args.qsig.ConnectedName.name);
switch (msgtype) {
case Q931_SETUP:
case Q931_CONNECT:
/* The connected line name will automatically be reported. */
break;
default:
/* Setup connected line subcommand */
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
subcmd->cmd = PRI_SUBCMD_CONNECTED_LINE;
q931_party_id_copy_to_pri(&subcmd->u.connected_line.id, &call->remote_id);
break;
}
break;
#if 0 /* Not handled yet */
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;
#endif /* Not handled yet */
case ROSE_QSIG_CallTransferActive:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
/* connectedAddress is put in remote_id */
rose_copy_presented_address_screened_to_id_q931(ctrl, &call->remote_id,
&invoke->args.qsig.CallTransferActive.connected);
/* connectedName is put in remote_id.name */
if (invoke->args.qsig.CallTransferActive.connected_name_present) {
rose_copy_name_to_q931(ctrl, &call->remote_id.name,
&invoke->args.qsig.CallTransferActive.connected_name);
}
break;
case ROSE_QSIG_CallTransferComplete:
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &call->remote_id.name);
}
/* redirectionNumber is put in remote_id.number */
rose_copy_presented_number_screened_to_q931(ctrl, &call->remote_id.number,
&invoke->args.qsig.CallTransferComplete.redirection);
/* redirectionName is put in remote_id.name */
if (invoke->args.qsig.CallTransferComplete.redirection_name_present) {
rose_copy_name_to_q931(ctrl, &call->remote_id.name,
&invoke->args.qsig.CallTransferComplete.redirection_name);
}
/*
* Clear the subaddress as the remote party has been changed.
* Any new subaddress will arrive later.
*/
q931_party_subaddress_init(&call->remote_id.subaddress);
if (invoke->args.qsig.CallTransferComplete.call_status == 1) {
/* The remote party for the transfer has not answered yet. */
call->incoming_ct_state = INCOMING_CT_STATE_EXPECT_CT_ACTIVE;
} else {
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
}
/* Send our subaddress back if we have one. */
if (call->local_id.subaddress.valid) {
send_subaddress_transfer(ctrl, call);
}
break;
case ROSE_QSIG_CallTransferUpdate:
party_id = call->remote_id;
if (ctrl->display_flags.receive & PRI_DISPLAY_OPTION_NAME_UPDATE) {
q931_display_name_get(call, &party_id.name);
}
/* redirectionNumber is put in party_id.number */
rose_copy_presented_number_screened_to_q931(ctrl, &party_id.number,
&invoke->args.qsig.CallTransferUpdate.redirection);
/* redirectionName is put in party_id.name */
if (invoke->args.qsig.CallTransferUpdate.redirection_name_present) {
rose_copy_name_to_q931(ctrl, &party_id.name,
&invoke->args.qsig.CallTransferUpdate.redirection_name);
}
if (q931_party_id_cmp(&party_id, &call->remote_id)) {
/* The remote_id data has changed. */
call->remote_id = party_id;
switch (call->incoming_ct_state) {
case INCOMING_CT_STATE_IDLE:
call->incoming_ct_state = INCOMING_CT_STATE_POST_CONNECTED_LINE;
break;
default:
break;
}
}
break;
case ROSE_QSIG_SubaddressTransfer:
handle_subaddress_transfer(ctrl, call,
&invoke->args.qsig.SubaddressTransfer.redirection_subaddress);
break;
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;
#endif /* Not handled yet */
case ROSE_QSIG_CallRerouting:
if (!ctrl->deflection_support) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_NotSubscribed);
break;
}
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
send_facility_error(ctrl, call, invoke->invoke_id,
ROSE_ERROR_Gen_ResourceUnavailable);
break;
}
q931_party_redirecting_init(&deflection);
/* Rerouting from the last address. */
rose_copy_presented_number_unscreened_to_q931(ctrl, &deflection.from.number,
&invoke->args.qsig.CallRerouting.last_rerouting);
if (invoke->args.qsig.CallRerouting.redirecting_name_present) {
rose_copy_name_to_q931(ctrl, &deflection.from.name,
&invoke->args.qsig.CallRerouting.redirecting_name);
}
/* Rerouting to the new address. */
rose_copy_address_to_id_q931(ctrl, &deflection.to,
&invoke->args.qsig.CallRerouting.called);
switch (invoke->args.qsig.CallRerouting.subscription_option) {
default:
case 0: /* noNotification */
case 1: /* notificationWithoutDivertedToNr */
deflection.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
case 2: /* notificationWithDivertedToNr */
deflection.to.number.presentation =
PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
}
/* Calling party update. */
party_id = call->local_id;
rose_copy_presented_number_screened_to_q931(ctrl, &party_id.number,
&invoke->args.qsig.CallRerouting.calling);
if (invoke->args.qsig.CallRerouting.calling_name_present) {
rose_copy_name_to_q931(ctrl, &party_id.name,
&invoke->args.qsig.CallRerouting.calling_name);
}
deflection.count = invoke->args.qsig.CallRerouting.diversion_counter;
deflection.reason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.CallRerouting.rerouting_reason);
/* Original called party update. */
if (deflection.count == 1) {
deflection.orig_called = deflection.from;
deflection.orig_reason = deflection.reason;
} else {
deflection.orig_called = call->redirecting.orig_called;
deflection.orig_reason = call->redirecting.orig_reason;
}
if (invoke->args.qsig.CallRerouting.original_called_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&deflection.orig_called.number,
&invoke->args.qsig.CallRerouting.original_called);
}
if (invoke->args.qsig.CallRerouting.original_called_name_present) {
rose_copy_name_to_q931(ctrl, &deflection.orig_called.name,
&invoke->args.qsig.CallRerouting.original_called_name);
}
if (invoke->args.qsig.CallRerouting.original_rerouting_reason_present) {
deflection.orig_reason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.CallRerouting.original_rerouting_reason);
}
subcmd->cmd = PRI_SUBCMD_REROUTING;
subcmd->u.rerouting.invoke_id = invoke->invoke_id;
subcmd->u.rerouting.subscription_option =
invoke->args.qsig.CallRerouting.subscription_option;
q931_party_id_copy_to_pri(&subcmd->u.rerouting.caller, &party_id);
q931_party_redirecting_copy_to_pri(&subcmd->u.rerouting.deflection,
&deflection);
break;
case ROSE_QSIG_DivertingLegInformation1:
q931_party_number_init(&party_id.number);
rose_copy_number_to_q931(ctrl, &party_id.number,
&invoke->args.qsig.DivertingLegInformation1.nominated_number);
if (party_id.number.str[0]) {
party_id.number.presentation =
PRI_PRES_ALLOWED | PRI_PRES_USER_NUMBER_UNSCREENED;
}
/*
* Unless otherwise indicated by CONNECT, the nominatedNr will be
* the remote_id.number.
*/
if (!call->connected_number_in_message) {
call->remote_id.number = party_id.number;
}
/* nominatedNr is put in redirecting.to.number */
switch (invoke->args.qsig.DivertingLegInformation1.subscription_option) {
default:
case QSIG_NO_NOTIFICATION:
case QSIG_NOTIFICATION_WITHOUT_DIVERTED_TO_NR:
q931_party_number_init(&call->redirecting.to.number);
call->redirecting.to.number.valid = 1;
call->redirecting.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
break;
case QSIG_NOTIFICATION_WITH_DIVERTED_TO_NR:
call->redirecting.to.number = party_id.number;
break;
}
call->redirecting.reason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation1.diversion_reason);
if (call->redirecting.count < PRI_MAX_REDIRECTS) {
++call->redirecting.count;
}
call->redirecting.state = Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3;
break;
case ROSE_QSIG_DivertingLegInformation2:
call->redirecting.state = Q931_REDIRECTING_STATE_PENDING_TX_DIV_LEG_3;
call->redirecting.count =
invoke->args.qsig.DivertingLegInformation2.diversion_counter;
if (!call->redirecting.count) {
/* To be safe, make sure that the count is non-zero. */
call->redirecting.count = 1;
}
call->redirecting.reason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.diversion_reason);
/* divertingNr is put in redirecting.from.number */
if (invoke->args.qsig.DivertingLegInformation2.diverting_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&call->redirecting.from.number,
&invoke->args.qsig.DivertingLegInformation2.diverting);
} else if (!call->redirecting_number_in_message) {
q931_party_number_init(&call->redirecting.from.number);
call->redirecting.from.number.valid = 1;
}
/* redirectingName is put in redirecting.from.name */
if (invoke->args.qsig.DivertingLegInformation2.redirecting_name_present) {
rose_copy_name_to_q931(ctrl, &call->redirecting.from.name,
&invoke->args.qsig.DivertingLegInformation2.redirecting_name);
} else {
q931_party_name_init(&call->redirecting.from.name);
}
call->redirecting.orig_reason = PRI_REDIR_UNKNOWN;
if (invoke->args.qsig.DivertingLegInformation2.original_diversion_reason_present) {
call->redirecting.orig_reason = redirectingreason_for_q931(ctrl,
invoke->args.qsig.DivertingLegInformation2.original_diversion_reason);
}
/* originalCalledNr is put in redirecting.orig_called.number */
if (invoke->args.qsig.DivertingLegInformation2.original_called_present) {
rose_copy_presented_number_unscreened_to_q931(ctrl,
&call->redirecting.orig_called.number,
&invoke->args.qsig.DivertingLegInformation2.original_called);
} else {
q931_party_number_init(&call->redirecting.orig_called.number);
}
/* originalCalledName is put in redirecting.orig_called.name */
if (invoke->args.qsig.DivertingLegInformation2.original_called_name_present) {
rose_copy_name_to_q931(ctrl, &call->redirecting.orig_called.name,
&invoke->args.qsig.DivertingLegInformation2.original_called_name);
} else {
q931_party_name_init(&call->redirecting.orig_called.name);
}
break;
case ROSE_QSIG_DivertingLegInformation3:
/*
* Unless otherwise indicated by CONNECT, this will be the
* remote_id.number.presentation.
*/
if (!invoke->args.qsig.DivertingLegInformation3.presentation_allowed_indicator) {
call->redirecting.to.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
if (!call->connected_number_in_message) {
call->remote_id.number.presentation =
PRI_PRES_RESTRICTED | PRI_PRES_USER_NUMBER_UNSCREENED;
}
}
/* redirectionName is put in redirecting.to.name */
if (invoke->args.qsig.DivertingLegInformation3.redirection_name_present) {
rose_copy_name_to_q931(ctrl, &call->redirecting.to.name,
&invoke->args.qsig.DivertingLegInformation3.redirection_name);
if (!invoke->args.qsig.DivertingLegInformation3.presentation_allowed_indicator) {
call->redirecting.to.name.presentation = PRI_PRES_RESTRICTED;
}
} else {
q931_party_name_init(&call->redirecting.to.name);
}
switch (call->redirecting.state) {
case Q931_REDIRECTING_STATE_EXPECTING_RX_DIV_LEG_3:
call->redirecting.state = Q931_REDIRECTING_STATE_IDLE;
subcmd = q931_alloc_subcommand(ctrl);
if (!subcmd) {
break;
}
/* Setup redirecting subcommand */
subcmd->cmd = PRI_SUBCMD_REDIRECTING;
q931_party_redirecting_copy_to_pri(&subcmd->u.redirecting,
&call->redirecting);
break;
default:
break;
}
break;
#if 0 /* Not handled yet */
case ROSE_QSIG_CfnrDivertedLegFailed:
break;
#endif /* Not handled yet */
case ROSE_QSIG_CcbsRequest:
pri_cc_qsig_request(ctrl, call, msgtype, invoke);
break;
case ROSE_QSIG_CcnrRequest:
pri_cc_qsig_request(ctrl, call, msgtype, invoke);
break;
case ROSE_QSIG_CcCancel:
pri_cc_qsig_cancel(ctrl, call, msgtype, invoke);
break;
case ROSE_QSIG_CcExecPossible:
pri_cc_qsig_exec_possible(ctrl, call, msgtype, invoke);
break;
case ROSE_QSIG_CcPathReserve:
/*!
* \todo It may be possible for us to accept the ccPathReserve call.
* We could certainly never initiate it.
*/
rose_error_msg_encode(ctrl, call, Q931_ANY_MESSAGE, invoke->invoke_id,
ROSE_ERROR_QSIG_FailedDueToInterworking);
call->cc.hangup_call = 1;
break;
case ROSE_QSIG_CcRingout:
if (msgtype != Q931_SETUP) {
/*
* Ignore since it did not come in on the correct message.
*
* It could come in on a FACILITY message if we supported
* incoming ccPathReserve calls.
*/
break;
}
q931_party_id_to_address(&party_address, &call->remote_id);
cc_record = pri_cc_find_by_addressing(ctrl, &party_address, &call->called,
call->cc.saved_ie_contents.length, call->cc.saved_ie_contents.data);
if (cc_record) {
/* Save off data to know how to send back any response. */
cc_record->response.signaling = call;
cc_record->response.invoke_operation = invoke->operation;
cc_record->response.invoke_id = invoke->invoke_id;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_RECALL);
} else {
rose_error_msg_encode(ctrl, call, Q931_ANY_MESSAGE, invoke->invoke_id,
ROSE_ERROR_QSIG_FailureToMatch);
call->cc.hangup_call = 1;
}
break;
case ROSE_QSIG_CcSuspend:
cc_record = call->cc.record;
if (!cc_record) {
break;
}
cc_record->fsm.qsig.msgtype = msgtype;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_SUSPEND);
break;
case ROSE_QSIG_CcResume:
cc_record = call->cc.record;
if (!cc_record) {
break;
}
cc_record->fsm.qsig.msgtype = msgtype;
pri_cc_event(ctrl, call, cc_record, CC_EVENT_RESUME);
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 invoke operation not handled on switchtype:%s! %s\n",
pri_switch2str(ctrl->switchtype), rose_operation2str(invoke->operation));
}
break;
}
}
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