/*
* (C) 2016-2017 by Holger Hans Peter Freyther
*
* All Rights Reserved
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see .
*
*/
#include "mncc.h"
#include "mncc_protocol.h"
#include "app.h"
#include "logging.h"
#include "call.h"
#include
#include
#include
#include
#include
#include
#include
extern void *tall_mncc_ctx;
static void close_connection(struct mncc_connection *conn);
static void mncc_leg_release(struct mncc_call_leg *leg)
{
osmo_timer_del(&leg->cmd_timeout);
call_leg_release(&leg->base);
}
static void cmd_timeout(void *data)
{
struct mncc_call_leg *leg = data;
struct call_leg *other_leg;
LOGP(DMNCC, LOGL_ERROR, "command(0x%x) never arrived for leg(%u)\n",
leg->rsp_wanted, leg->callref);
other_leg = call_leg_other(&leg->base);
if (other_leg)
other_leg->release_call(other_leg);
mncc_leg_release(leg);
}
static void start_cmd_timer(struct mncc_call_leg *leg, uint32_t expected_next)
{
leg->rsp_wanted = expected_next;
leg->cmd_timeout.cb = cmd_timeout;
leg->cmd_timeout.data = leg;
LOGP(DMNCC, LOGL_DEBUG, "Starting Timer for %s\n", osmo_mncc_name(expected_next));
osmo_timer_schedule(&leg->cmd_timeout, 5, 0);
}
static void stop_cmd_timer(struct mncc_call_leg *leg, uint32_t got_res)
{
if (leg->rsp_wanted != got_res) {
LOGP(DMNCC, LOGL_ERROR, "Wanted response(%s) but got(%s) for leg(%u)\n",
osmo_mncc_name(leg->rsp_wanted), osmo_mncc_name(got_res), leg->callref);
return;
}
LOGP(DMNCC, LOGL_DEBUG,
"Got response(%s), stopping timer on leg(%u)\n",
osmo_mncc_name(got_res), leg->callref);
osmo_timer_del(&leg->cmd_timeout);
}
/* Find a MNCC Call leg (whether MO or MT) by given callref */
static struct mncc_call_leg *mncc_find_leg(uint32_t callref)
{
struct call *call;
llist_for_each_entry(call, &g_call_list, entry) {
if (call->initial && call->initial->type == CALL_TYPE_MNCC) {
struct mncc_call_leg *leg = (struct mncc_call_leg *) call->initial;
if (leg->callref == callref)
return leg;
}
if (call->remote && call->remote->type == CALL_TYPE_MNCC) {
struct mncc_call_leg *leg = (struct mncc_call_leg *) call->remote;
if (leg->callref == callref)
return leg;
}
}
return NULL;
}
/* Find a MNCC Call leg (by callref) which is not yet in release */
static struct mncc_call_leg *mncc_find_leg_not_released(uint32_t callref)
{
struct mncc_call_leg *leg = mncc_find_leg(callref);
if (!leg)
return NULL;
if (leg->base.in_release)
return NULL;
return leg;
}
static void mncc_fill_header(struct gsm_mncc *mncc, uint32_t msg_type, uint32_t callref)
{
struct mncc_call_leg *mncc_leg;
mncc->msg_type = msg_type;
mncc->callref = callref;
if (MNCC_DISC_REQ == msg_type || MNCC_REL_REQ == msg_type) {
mncc_leg = mncc_find_leg(callref);
mncc->fields |= MNCC_F_CAUSE;
mncc->cause.coding = GSM48_CAUSE_CODING_GSM;
mncc->cause.location = GSM48_CAUSE_LOC_PUN_S_LU;
mncc->cause.value = mncc_leg->base.cause;
}
}
static int mncc_write(struct mncc_connection *conn, struct gsm_mncc *mncc)
{
int rc;
LOGP(DMNCC, LOGL_DEBUG, "tx MNCC %s with SDP=%s\n", osmo_mncc_name(mncc->msg_type),
osmo_quote_str(mncc->sdp, -1));
/*
* TODO: we need to put cause in here for release or such? shall we return a
* static struct?
*/
rc = write(conn->fd.fd, mncc, sizeof(*mncc));
if (rc != sizeof(*mncc)) {
LOGP(DMNCC, LOGL_ERROR, "Failed to send message for call(%u)\n", mncc->callref);
close_connection(conn);
}
return rc;
}
static int mncc_send(struct mncc_connection *conn, uint32_t msg_type, uint32_t callref)
{
struct gsm_mncc mncc = { 0, };
mncc_fill_header(&mncc, msg_type, callref);
return mncc_write(conn, &mncc);
}
static int mncc_rtp_write(struct mncc_connection *conn, struct gsm_mncc_rtp *rtp)
{
int rc;
LOGP(DMNCC, LOGL_DEBUG, "tx MNCC %s with SDP=%s\n", osmo_mncc_name(rtp->msg_type),
osmo_quote_str(rtp->sdp, -1));
rc = write(conn->fd.fd, rtp, sizeof(*rtp));
if (rc != sizeof(*rtp)) {
LOGP(DMNCC, LOGL_ERROR, "Failed to send message for call(%u): %d\n", rtp->callref, rc);
close_connection(conn);
}
return rc;
}
static int mncc_rtp_send(struct mncc_connection *conn, uint32_t msg_type, uint32_t callref, const char *sdp)
{
struct gsm_mncc_rtp mncc = { 0, };
mncc.msg_type = msg_type;
mncc.callref = callref;
if (sdp)
OSMO_STRLCPY_ARRAY(mncc.sdp, sdp);
return mncc_rtp_write(conn, &mncc);
}
/* Send a MNCC_RTP_CONNECT to the MSC for the given call legs */
static bool send_rtp_connect(struct mncc_call_leg *leg, struct call_leg *other)
{
struct gsm_mncc_rtp mncc = { 0, };
int rc;
char ip_addr[INET6_ADDRSTRLEN];
/*
* Send RTP CONNECT and we handle the general failure of it by
* tearing down the call.
*/
mncc.msg_type = MNCC_RTP_CONNECT;
mncc.callref = leg->callref;
mncc.addr = other->addr;
mncc.payload_type = other->payload_type;
/* Forward whichever SDP was last received on the other call leg */
OSMO_STRLCPY_ARRAY(mncc.sdp, other->rx_sdp);
/*
* FIXME: mncc.payload_msg_type should already be compatible.. but
* payload_type should be different..
*/
LOGP(DMNCC, LOGL_DEBUG, "SEND rtp_connect: IP=(%s) PORT=(%u)\n",
osmo_sockaddr_ntop((const struct sockaddr*)&other->addr, ip_addr),
osmo_sockaddr_port((const struct sockaddr*)&other->addr));
rc = mncc_rtp_write(leg->conn, &mncc);
if (rc != sizeof(mncc)) {
LOGP(DMNCC, LOGL_ERROR, "Failed to send message for call(%u)\n",
leg->callref);
close_connection(leg->conn);
return false;
}
return true;
}
static void update_rtp(struct call_leg *_leg) {
struct mncc_call_leg *leg;
LOGP(DMNCC, LOGL_DEBUG, "UPDATE RTP for LEG Type (%u)\n", _leg->type);
if (_leg->type == CALL_TYPE_MNCC) {
leg = (struct mncc_call_leg *) _leg;
struct call_leg *other = call_leg_other(&leg->base);
if (!other)
goto ret_release;
send_rtp_connect(leg, other);
} else if (_leg->type == CALL_TYPE_SIP) {
leg = (struct mncc_call_leg *) call_leg_other(_leg);
if (!leg)
goto ret_release;
send_rtp_connect(leg, _leg);
} else {
OSMO_ASSERT(false);
}
return;
ret_release:
LOGP(DMNCC, LOGL_ERROR, "Failed to find other leg.\n");
_leg->release_call(_leg);
}
/* CONNECT call-back for MNCC call leg */
static void mncc_call_leg_connect(struct call_leg *_leg)
{
struct mncc_call_leg *leg;
struct call_leg *other;
OSMO_ASSERT(_leg->type == CALL_TYPE_MNCC);
leg = (struct mncc_call_leg *) _leg;
other = call_leg_other(_leg);
OSMO_ASSERT(other);
if (!send_rtp_connect(leg, other))
return;
start_cmd_timer(leg, MNCC_SETUP_COMPL_IND);
mncc_send(leg->conn, MNCC_SETUP_RSP, leg->callref);
}
/* RING call-back for MNCC call leg */
static void mncc_call_leg_ring(struct call_leg *_leg)
{
struct gsm_mncc out_mncc = { 0, };
struct mncc_call_leg *leg;
struct call_leg *other_leg;
OSMO_ASSERT(_leg->type == CALL_TYPE_MNCC);
leg = (struct mncc_call_leg *) _leg;
mncc_fill_header(&out_mncc, MNCC_ALERT_REQ, leg->callref);
/* GSM 04.08 10.5.4.21 */
out_mncc.fields |= MNCC_F_PROGRESS;
out_mncc.progress.coding = GSM48_CAUSE_CODING_GSM; /* Standard defined for the GSM PLMNS */
out_mncc.progress.location = GSM48_CAUSE_LOC_PRN_S_LU; /* Private network serving the local user */
out_mncc.progress.descr = GSM48_PROGR_IN_BAND_AVAIL; /* In-band information or appropriate pattern now available */
mncc_write(leg->conn, &out_mncc);
/*
* If we have remote IP/port let's connect it already.
* FIXME: We would like to keep this as recvonly...
*/
other_leg = call_leg_other(&leg->base);
if (other_leg && other_leg->addr.ss_family != AF_UNSPEC &&
osmo_sockaddr_port((const struct sockaddr *)&other_leg->addr) != 0)
send_rtp_connect(leg, other_leg);
}
/* RELEASE call-back for MNCC call leg */
static void mncc_call_leg_release(struct call_leg *_leg)
{
struct mncc_call_leg *leg;
OSMO_ASSERT(_leg->type == CALL_TYPE_MNCC);
leg = (struct mncc_call_leg *) _leg;
/* drop it directly, if not connected */
if (leg->conn->state != MNCC_READY) {
LOGP(DMNCC, LOGL_DEBUG,
"MNCC not connected releasing leg(%u)\n", leg->callref);
return mncc_leg_release(leg);
}
switch (leg->state) {
case MNCC_CC_INITIAL:
LOGP(DMNCC, LOGL_DEBUG,
"Releasing call in initial-state leg(%u)\n", leg->callref);
if (leg->dir == MNCC_DIR_MO) {
mncc_send(leg->conn, MNCC_REJ_REQ, leg->callref);
osmo_timer_del(&leg->cmd_timeout);
mncc_leg_release(leg);
} else {
leg->base.in_release = true;
start_cmd_timer(leg, MNCC_REL_CNF);
mncc_send(leg->conn, MNCC_REL_REQ, leg->callref);
}
break;
case MNCC_CC_PROCEEDING:
case MNCC_CC_CONNECTED:
case MNCC_CC_HOLD:
LOGP(DMNCC, LOGL_DEBUG,
"Releasing call in non-initial leg(%u) cause(%s)\n", leg->callref, gsm48_cc_cause_name(leg->base.cause));
leg->base.in_release = true;
start_cmd_timer(leg, MNCC_REL_IND);
mncc_send(leg->conn, MNCC_DISC_REQ, leg->callref);
break;
default:
LOGP(DMNCC, LOGL_ERROR, "Unknown state leg(%u) state(%d)\n",
leg->callref, leg->state);
break;
}
}
/* Close the MNCC connection/socket */
static void close_connection(struct mncc_connection *conn)
{
if (conn->fd.fd < 0)
return;
osmo_fd_unregister(&conn->fd);
close(conn->fd.fd);
conn->fd.fd = -1;
osmo_timer_schedule(&conn->reconnect, 5, 0);
conn->state = MNCC_DISCONNECTED;
if (conn->on_disconnect)
conn->on_disconnect(conn);
}
static void continue_mo_call(struct mncc_call_leg *leg)
{
char *dest, *source;
/* TODO.. continue call obviously only for MO call right now */
mncc_send(leg->conn, MNCC_CALL_PROC_REQ, leg->callref);
leg->state = MNCC_CC_PROCEEDING;
if (leg->called.type == GSM340_TYPE_INTERNATIONAL)
dest = talloc_asprintf(leg, "+%.32s", leg->called.number);
else
dest = talloc_asprintf(leg, "%.32s", leg->called.number);
if (leg->conn->app->use_imsi_as_id)
source = talloc_asprintf(leg, "%.16s", leg->imsi);
else
source = talloc_asprintf(leg, "%.32s", leg->calling.number);
app_route_call(leg->base.call, source, dest);
}
static void continue_mt_call(struct mncc_call_leg *leg)
{
struct call_leg *other_leg;
/* TODO.. check codec selection */
other_leg = call_leg_other(&leg->base);
if (!other_leg)
return;
/* assume the type is compatible */
other_leg->payload_type = leg->base.payload_type;
}
static void continue_call(struct mncc_call_leg *leg)
{
if (leg->dir == MNCC_DIR_MO)
return continue_mo_call(leg);
return continue_mt_call(leg);
}
static void check_rtp_connect(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc_rtp *rtp;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
if (rc < sizeof(*rtp)) {
LOGP(DMNCC, LOGL_ERROR, "gsm_mncc_rtp of wrong size %d < %zu\n",
rc, sizeof(*rtp));
return close_connection(conn);
}
rtp = (const struct gsm_mncc_rtp *) buf;
leg = mncc_find_leg_not_released(rtp->callref);
if (!leg) {
LOGP(DMNCC, LOGL_ERROR, "leg(%u) can not be found\n", rtp->callref);
mncc_send(conn, MNCC_REJ_REQ, rtp->callref);
return;
}
call_leg_rx_sdp(&leg->base, rtp->sdp);
/* extract information about where the RTP is */
if (rtp->addr.ss_family != AF_UNSPEC ||
osmo_sockaddr_port((const struct sockaddr *)&rtp->addr) != 0 ||
rtp->payload_type != 0)
return;
LOGP(DMNCC, LOGL_ERROR, "leg(%u) rtp connect failed\n", rtp->callref);
other_leg = call_leg_other(&leg->base);
if (other_leg)
other_leg->release_call(other_leg);
leg->base.release_call(&leg->base);
}
static void check_rtp_create(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc_rtp *rtp;
struct mncc_call_leg *leg;
char ip_addr[INET6_ADDRSTRLEN];
if (rc < sizeof(*rtp)) {
LOGP(DMNCC, LOGL_ERROR, "gsm_mncc_rtp of wrong size %d < %zu\n",
rc, sizeof(*rtp));
return close_connection(conn);
}
rtp = (const struct gsm_mncc_rtp *) buf;
leg = mncc_find_leg_not_released(rtp->callref);
if (!leg) {
LOGP(DMNCC, LOGL_ERROR, "call(%u) can not be found\n", rtp->callref);
mncc_send(conn, MNCC_REJ_REQ, rtp->callref);
return;
}
/* extract information about where the RTP is */
leg->base.addr = rtp->addr;
leg->base.payload_type = rtp->payload_type;
leg->base.payload_msg_type = rtp->payload_msg_type;
call_leg_rx_sdp(&leg->base, rtp->sdp);
/* TODO.. now we can continue with the call */
LOGP(DMNCC, LOGL_INFO,
"RTP continue leg(%u) ip(%s), port(%u) pt(%u) ptm(%u)\n",
leg->callref,
osmo_sockaddr_ntop((const struct sockaddr*)&leg->base.addr, ip_addr),
osmo_sockaddr_port((const struct sockaddr*)&leg->base.addr),
leg->base.payload_type, leg->base.payload_msg_type);
stop_cmd_timer(leg, MNCC_RTP_CREATE);
continue_call(leg);
}
static int continue_setup(struct mncc_connection *conn, const struct gsm_mncc *mncc)
{
switch (mncc->called.plan) {
case GSM340_PLAN_UNKNOWN:
case GSM340_PLAN_ISDN:
return 1;
default:
LOGP(DMNCC, LOGL_ERROR,
"leg(%u) has unsupported(%d) dial plan.\n",
mncc->callref, mncc->called.plan);
return 0;
}
}
static const struct gsm_mncc_number emergency_number = {
.type = CALL_TYPE_MNCC,
.plan = GSM48_NPI_UNKNOWN,
.number = "emergency",
};
/* Check + Process MNCC_SETUP_IND (MO call) */
static void check_setup(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
const struct gsm_mncc_number *called;
struct call *call;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
const char *sdp = NULL;
struct osmo_gcr_parsed gcr;
if (rc < sizeof(*data)) {
LOGP(DMNCC, LOGL_ERROR, "gsm_mncc of wrong size %d vs. %zu\n",
rc, sizeof(*data));
return close_connection(conn);
}
data = (const struct gsm_mncc *) buf;
called = &data->called;
/* screen arguments */
if ((data->fields & MNCC_F_CALLED) == 0) {
if (!data->emergency) {
LOGP(DMNCC, LOGL_ERROR,
"MNCC leg(%u) without called addr fields(%u)\n",
data->callref, data->fields);
mncc_send(conn, MNCC_REJ_REQ, data->callref);
return;
}
/* Emergency without a called number present. Use the standard "emergency" number. */
called = &emergency_number;
}
if ((data->fields & MNCC_F_CALLING) == 0) {
LOGP(DMNCC, LOGL_ERROR,
"MNCC leg(%u) without calling addr fields(%u)\n",
data->callref, data->fields);
mncc_send(conn, MNCC_REJ_REQ, data->callref);
return;
}
/* TODO.. bearer caps and better audio handling */
if (!continue_setup(conn, data)) {
LOGP(DMNCC, LOGL_ERROR,
"MNCC screening parameters failed leg(%u)\n", data->callref);
mncc_send(conn, MNCC_REJ_REQ, data->callref);
return;
}
/* Decode the Global Call Reference (if present) */
if (data->fields & MNCC_F_GCR) {
if (osmo_dec_gcr(&gcr, data->gcr, sizeof(data->gcr)) < 0) {
LOGP(DMNCC, LOGL_ERROR,
"MNCC leg(%u) failed to parse GCR\n", data->callref);
mncc_send(conn, MNCC_REJ_REQ, data->callref);
return;
}
}
/* Create an RTP port and then allocate a call */
call = call_mncc_create();
if (!call) {
LOGP(DMNCC, LOGL_ERROR,
"MNCC leg(%u) failed to allocate call\n", data->callref);
mncc_send(conn, MNCC_REJ_REQ, data->callref);
return;
}
leg = (struct mncc_call_leg *) call->initial;
leg->base.connect_call = mncc_call_leg_connect;
leg->base.ring_call = mncc_call_leg_ring;
leg->base.release_call = mncc_call_leg_release;
leg->base.update_rtp = update_rtp;
leg->callref = data->callref;
leg->conn = conn;
leg->state = MNCC_CC_INITIAL;
leg->dir = MNCC_DIR_MO;
memcpy(&leg->called, called, sizeof(leg->called));
memcpy(&leg->calling, &data->calling, sizeof(leg->calling));
memcpy(&leg->imsi, data->imsi, sizeof(leg->imsi));
call_leg_rx_sdp(&leg->base, data->sdp);
if (data->fields & MNCC_F_GCR) {
leg->base.call->gcr_present = true;
leg->base.call->gcr = gcr;
}
LOGP(DMNCC, LOGL_INFO,
"Created call(%u) with MNCC leg(%u) IMSI(%.16s)\n",
call->id, leg->callref, data->imsi);
other_leg = call_leg_other(&leg->base);
if (other_leg && *other_leg->rx_sdp && other_leg->rx_sdp_changed) {
sdp = other_leg->rx_sdp;
other_leg->rx_sdp_changed = false;
}
start_cmd_timer(leg, MNCC_RTP_CREATE);
mncc_rtp_send(conn, MNCC_RTP_CREATE, data->callref, sdp);
}
/*! Find MNCC Call leg by given MNCC message
* \param conn MNCC socket/connection
* \param[in] buf buffer containing MNCC message
* \param[in] rc length of message in \a buf
* \param[out] mncc return pointer to MNCC message
* \returns call leg (if found) or NULL */
static struct mncc_call_leg *find_leg(struct mncc_connection *conn,
const char *buf, int rc, const struct gsm_mncc **mncc)
{
struct mncc_call_leg *leg;
if (rc < sizeof(**mncc)) {
LOGP(DMNCC, LOGL_ERROR, "gsm_mncc of wrong size %d vs. %zu\n",
rc, sizeof(**mncc));
close_connection(conn);
return NULL;
}
*mncc = (const struct gsm_mncc *) buf;
leg = mncc_find_leg((*mncc)->callref);
if (!leg) {
LOGP(DMNCC, LOGL_ERROR, "call(%u) can not be found\n", (*mncc)->callref);
return NULL;
}
return leg;
}
static void check_disc_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
LOGP(DMNCC,
LOGL_DEBUG, "Rcvd MNCC_DISC_IND, Cause: %s\n", gsm48_cc_cause_name(data->cause.value));
LOGP(DMNCC,
LOGL_DEBUG, "leg(%u) was disconnected. Releasing\n", data->callref);
leg->base.in_release = true;
start_cmd_timer(leg, MNCC_REL_CNF);
mncc_send(leg->conn, MNCC_REL_REQ, leg->callref);
other_leg = call_leg_other(&leg->base);
if (other_leg) {
other_leg->cause = data->cause.value;
other_leg->release_call(other_leg);
}
}
static void check_rel_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
LOGP(DMNCC, LOGL_DEBUG, "Rcvd MNCC_REL_IND, Cause: %s\n", gsm48_cc_cause_name(data->cause.value));
if (leg->base.in_release)
stop_cmd_timer(leg, MNCC_REL_IND);
else {
struct call_leg *other_leg;
other_leg = call_leg_other(&leg->base);
if (other_leg) {
other_leg->cause = data->cause.value;
other_leg->release_call(other_leg);
}
}
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) was released.\n", data->callref);
mncc_leg_release(leg);
}
static void check_rel_cnf(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
stop_cmd_timer(leg, MNCC_REL_CNF);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) was cnf released.\n", data->callref);
mncc_leg_release(leg);
}
static void check_stp_cmpl_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_INFO, "leg(%u) is now connected.\n", leg->callref);
stop_cmd_timer(leg, MNCC_SETUP_COMPL_IND);
leg->state = MNCC_CC_CONNECTED;
}
static void check_rej_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
leg->cause = data->cause.value;
other_leg = call_leg_other(&leg->base);
if (other_leg) {
other_leg->cause = data->cause.value;
other_leg->release_call(other_leg);
}
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) was rejected with cause(%s).\n", data->callref, gsm48_cc_cause_name(leg->cause));
mncc_leg_release(leg);
}
static void check_cnf_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
const char *sdp = NULL;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
/* Forward SDP received from the other side */
other_leg = call_leg_other(&leg->base);
if (other_leg && *other_leg->rx_sdp && other_leg->rx_sdp_changed) {
sdp = other_leg->rx_sdp;
other_leg->rx_sdp_changed = false;
}
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) confirmed. creating RTP socket.\n",
leg->callref);
start_cmd_timer(leg, MNCC_RTP_CREATE);
mncc_rtp_send(conn, MNCC_RTP_CREATE, data->callref, sdp);
}
static void check_alrt_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) is alerting.\n", leg->callref);
other_leg = call_leg_other(&leg->base);
if (!other_leg) {
LOGP(DMNCC, LOGL_ERROR, "leg(%u) other leg gone!\n",
leg->callref);
mncc_call_leg_release(&leg->base);
return;
}
other_leg->ring_call(other_leg);
}
static void check_hold_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) is requesting hold.\n", leg->callref);
other_leg = call_leg_other(&leg->base);
if (!other_leg) {
LOGP(DMNCC, LOGL_ERROR, "leg(%u) other leg gone!\n",
leg->callref);
mncc_send(leg->conn, MNCC_HOLD_REJ, leg->callref);
return;
}
other_leg->hold_call(other_leg);
mncc_send(leg->conn, MNCC_HOLD_CNF, leg->callref);
leg->state = MNCC_CC_HOLD;
}
static void check_retrieve_ind(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
LOGP(DMNCC, LOGL_DEBUG,
"leg(%u) is requesting unhold.\n", leg->callref);
other_leg = call_leg_other(&leg->base);
if (!other_leg) {
/* The SIP leg went away while we were holding! */
LOGP(DMNCC, LOGL_ERROR, "leg(%u) other leg gone!\n",
leg->callref);
mncc_send(leg->conn, MNCC_RETRIEVE_CNF, leg->callref);
mncc_call_leg_release(&leg->base);
return;
}
other_leg->retrieve_call(other_leg);
mncc_send(leg->conn, MNCC_RETRIEVE_CNF, leg->callref);
/* In case of call waiting/swap, At this point we need to tell the MSC to send
* audio to the port of the original call
*/
leg->state = MNCC_CC_CONNECTED;
send_rtp_connect(leg, other_leg);
}
static void check_stp_cnf(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) setup completed\n", leg->callref);
other_leg = call_leg_other(&leg->base);
if (!other_leg) {
LOGP(DMNCC, LOGL_ERROR, "leg(%u) other leg gone!\n",
leg->callref);
mncc_call_leg_release(&leg->base);
return;
}
if (!send_rtp_connect(leg, other_leg))
return;
leg->state = MNCC_CC_CONNECTED;
mncc_send(leg->conn, MNCC_SETUP_COMPL_REQ, leg->callref);
other_leg->connect_call(other_leg);
}
static void check_dtmf_start(struct mncc_connection *conn, const char *buf, int rc)
{
struct gsm_mncc out_mncc = { 0, };
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
struct call_leg *other_leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) DTMF key=%c\n", leg->callref, data->keypad);
other_leg = call_leg_other(&leg->base);
if (other_leg && other_leg->dtmf)
other_leg->dtmf(other_leg, data->keypad);
mncc_fill_header(&out_mncc, MNCC_START_DTMF_RSP, leg->callref);
out_mncc.fields |= MNCC_F_KEYPAD;
out_mncc.keypad = data->keypad;
mncc_write(conn, &out_mncc);
}
static void check_dtmf_stop(struct mncc_connection *conn, const char *buf, int rc)
{
struct gsm_mncc out_mncc = { 0, };
const struct gsm_mncc *data;
struct mncc_call_leg *leg;
leg = find_leg(conn, buf, rc, &data);
if (!leg)
return;
call_leg_rx_sdp(&leg->base, data->sdp);
LOGP(DMNCC, LOGL_DEBUG, "leg(%u) DTMF key=%c\n", leg->callref, data->keypad);
mncc_fill_header(&out_mncc, MNCC_STOP_DTMF_RSP, leg->callref);
out_mncc.fields |= MNCC_F_KEYPAD;
out_mncc.keypad = data->keypad;
mncc_write(conn, &out_mncc);
}
static void check_hello(struct mncc_connection *conn, const char *buf, int rc)
{
const struct gsm_mncc_hello *hello;
if (rc != sizeof(*hello)) {
LOGP(DMNCC, LOGL_ERROR, "Hello shorter than expected %d vs. %zu\n",
rc, sizeof(*hello));
return close_connection(conn);
}
hello = (const struct gsm_mncc_hello *) buf;
LOGP(DMNCC, LOGL_NOTICE, "Got hello message version %d\n", hello->version);
if (hello->version != MNCC_SOCK_VERSION) {
LOGP(DMNCC, LOGL_NOTICE, "Incompatible version(%d) expected %d\n",
hello->version, MNCC_SOCK_VERSION);
return close_connection(conn);
}
conn->state = MNCC_READY;
}
int mncc_create_remote_leg(struct mncc_connection *conn, struct call *call)
{
struct mncc_call_leg *leg;
struct gsm_mncc mncc = { 0, };
struct msgb *msg;
int rc;
leg = talloc_zero(call, struct mncc_call_leg);
if (!leg) {
LOGP(DMNCC, LOGL_ERROR, "Failed to allocate leg call(%u)\n",
call->id);
return -1;
}
leg->base.type = CALL_TYPE_MNCC;
leg->base.connect_call = mncc_call_leg_connect;
leg->base.ring_call = mncc_call_leg_ring;
leg->base.release_call = mncc_call_leg_release;
leg->base.call = call;
leg->base.update_rtp = update_rtp;
leg->callref = call->id;
leg->conn = conn;
leg->state = MNCC_CC_INITIAL;
leg->dir = MNCC_DIR_MT;
mncc.msg_type = MNCC_SETUP_REQ;
mncc.callref = leg->callref;
mncc.fields |= MNCC_F_CALLING;
mncc.calling.plan = GSM48_NPI_ISDN_E164;
if (call->source && call->source[0] == '+') {
mncc.calling.type = GSM48_TON_INTERNATIONAL;
OSMO_STRLCPY_ARRAY(mncc.calling.number, call->source + 1);
} else {
mncc.calling.type = GSM48_TON_UNKNOWN;
OSMO_STRLCPY_ARRAY(mncc.calling.number, call->source);
}
if (conn->app->use_imsi_as_id) {
snprintf(mncc.imsi, 15, "%s", call->dest);
} else {
mncc.fields |= MNCC_F_CALLED;
mncc.called.plan = GSM48_NPI_ISDN_E164;
mncc.called.type = GSM48_TON_UNKNOWN;
OSMO_STRLCPY_ARRAY(mncc.called.number, call->dest);
}
/* Encode the Global Call Reference (if present) */
if (call->gcr_present) {
msg = msgb_alloc(sizeof(mncc.gcr), "MNCC GCR");
if (msg == NULL || (rc = osmo_enc_gcr(msg, &call->gcr)) == 0) {
LOGP(DMNCC, LOGL_ERROR, "MNCC leg(%u) failed to encode GCR\n", call->id);
} else {
memcpy(&mncc.gcr[0], msg->data, rc);
mncc.fields |= MNCC_F_GCR;
}
msgb_free(msg);
}
/* The call->initial leg is a SIP call leg that starts an MT call. There was SDP received in the SIP INVITE that
* started this call. This here will be the call->remote, always forwarding the SDP that came in on
* call->initial. */
if (call->initial && call->initial->rx_sdp_changed) {
OSMO_STRLCPY_ARRAY(mncc.sdp, call->initial->rx_sdp);
call->initial->rx_sdp_changed = false;
}
/*
* TODO/FIXME:
* - Screening, redirect?
*/
rc = mncc_write(conn, &mncc);
if (rc != sizeof(mncc)) {
LOGP(DMNCC, LOGL_ERROR, "Failed to send message leg(%u)\n",
leg->callref);
talloc_free(leg);
return -1;
}
call->remote = &leg->base;
return 0;
}
static void mncc_reconnect(void *data)
{
int rc;
struct mncc_connection *conn = data;
rc = osmo_sock_unix_init_ofd(&conn->fd, SOCK_SEQPACKET, 0,
conn->app->mncc.path, OSMO_SOCK_F_CONNECT);
if (rc < 0) {
LOGP(DMNCC, LOGL_ERROR, "Failed to connect(%s). Retrying\n",
conn->app->mncc.path);
conn->state = MNCC_DISCONNECTED;
conn->fd.fd = -1;
osmo_timer_schedule(&conn->reconnect, 5, 0);
return;
}
LOGP(DMNCC, LOGL_NOTICE, "Reconnected to %s\n", conn->app->mncc.path);
conn->state = MNCC_WAIT_VERSION;
}
static inline void log_mncc(const char *label, const uint8_t *buf, size_t buflen)
{
uint32_t msg_type;
const struct gsm_mncc *gsm_mncc;
const struct gsm_mncc_rtp *gsm_mncc_rtp;
const char *sdp = NULL;
/* Any size errors will be logged elsewhere already, so just exit here if the buffer is too small. */
if (buflen < 4)
return;
memcpy(&msg_type, buf, 4);
switch (msg_type) {
case MNCC_SETUP_IND:
case MNCC_DISC_IND:
case MNCC_REL_IND:
case MNCC_REJ_IND:
case MNCC_REL_CNF:
case MNCC_SETUP_COMPL_IND:
case MNCC_SETUP_CNF:
case MNCC_CALL_CONF_IND:
case MNCC_ALERT_IND:
case MNCC_HOLD_IND:
case MNCC_RETRIEVE_IND:
if (buflen < sizeof(gsm_mncc))
return;
gsm_mncc = (void *)buf;
sdp = gsm_mncc->sdp;
break;
case MNCC_RTP_CREATE:
case MNCC_RTP_CONNECT:
if (buflen < sizeof(gsm_mncc_rtp))
return;
gsm_mncc_rtp = (void *)buf;
sdp = gsm_mncc_rtp->sdp;
break;
default:
break;
}
if (sdp)
LOGP(DMNCC, LOGL_DEBUG, "%sMNCC %s with SDP=%s\n", label, osmo_mncc_name(msg_type),
osmo_quote_str(sdp, -1));
else
LOGP(DMNCC, LOGL_DEBUG, "%sMNCC %s\n", label, osmo_mncc_name(msg_type));
}
/* osmo-fd read call-back for MNCC socket: read MNCC message + dispatch it */
static int mncc_data(struct osmo_fd *fd, unsigned int what)
{
char buf[4096];
uint32_t msg_type;
int rc;
struct mncc_connection *conn = fd->data;
rc = read(fd->fd, buf, sizeof(buf));
if (rc <= 0) {
LOGP(DMNCC, LOGL_ERROR, "Failed to read %d/%s. Re-connecting.\n",
rc, strerror(errno));
goto bad_data;
}
if (rc <= 4) {
LOGP(DMNCC, LOGL_ERROR, "Data too short with: %d\n", rc);
goto bad_data;
}
log_mncc("rx ", (void *)buf, rc);
/* Handle the received MNCC message */
memcpy(&msg_type, buf, 4);
switch (msg_type) {
case MNCC_SOCKET_HELLO:
check_hello(conn, buf, rc);
break;
case MNCC_SETUP_IND:
check_setup(conn, buf, rc);
break;
case MNCC_RTP_CREATE:
check_rtp_create(conn, buf, rc);
break;
case MNCC_RTP_CONNECT:
check_rtp_connect(conn, buf, rc);
break;
case MNCC_DISC_IND:
check_disc_ind(conn, buf, rc);
break;
case MNCC_REL_IND:
check_rel_ind(conn, buf, rc);
break;
case MNCC_REJ_IND:
check_rej_ind(conn, buf, rc);
break;
case MNCC_REL_CNF:
check_rel_cnf(conn, buf, rc);
break;
case MNCC_SETUP_COMPL_IND:
check_stp_cmpl_ind(conn, buf, rc);
break;
case MNCC_SETUP_CNF:
check_stp_cnf(conn, buf, rc);
break;
case MNCC_CALL_CONF_IND:
check_cnf_ind(conn, buf, rc);
break;
case MNCC_ALERT_IND:
check_alrt_ind(conn, buf, rc);
break;
case MNCC_HOLD_IND:
check_hold_ind(conn, buf, rc);
break;
case MNCC_RETRIEVE_IND:
check_retrieve_ind(conn, buf, rc);
break;
case MNCC_START_DTMF_IND:
check_dtmf_start(conn, buf, rc);
break;
case MNCC_STOP_DTMF_IND:
check_dtmf_stop(conn, buf, rc);
break;
default:
LOGP(DMNCC, LOGL_ERROR, "Unhandled message type %d/0x%x\n",
msg_type, msg_type);
break;
}
return 0;
bad_data:
close_connection(conn);
return 0;
}
void mncc_connection_init(struct mncc_connection *conn, struct app_config *cfg)
{
conn->reconnect.cb = mncc_reconnect;
conn->reconnect.data = conn;
conn->fd.cb = mncc_data;
conn->fd.data = conn;
conn->fd.fd = -1;
conn->app = cfg;
conn->state = MNCC_DISCONNECTED;
}
void mncc_connection_start(struct mncc_connection *conn)
{
LOGP(DMNCC, LOGL_NOTICE, "Scheduling MNCC connect\n");
osmo_timer_schedule(&conn->reconnect, 0, 0);
}
const struct value_string mncc_conn_state_vals[] = {
{ MNCC_DISCONNECTED, "DISCONNECTED" },
{ MNCC_WAIT_VERSION, "WAITING" },
{ MNCC_READY, "READY" },
{ 0, NULL },
};