/* Implementation for MSC decisions which interface to send messages out on. */ /* (C) 2016 by sysmocom s.m.f.c GmbH * * 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 Affero 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 #include #include #include #include #include #include #include #include #include #include "../../bscconfig.h" extern struct msgb *ranap_new_msg_rab_assign_voice(uint8_t rab_id, uint32_t rtp_ip, uint16_t rtp_port, bool use_x213_nsap); static int msc_tx(struct gsm_subscriber_connection *conn, struct msgb *msg) { DEBUGP(DMSC, "msc_tx %u bytes to %s via %s\n", msg->len, vlr_subscr_name(conn->vsub), ran_type_name(conn->via_ran)); switch (conn->via_ran) { case RAN_GERAN_A: msg->dst = conn; return a_tx(msg); case RAN_UTRAN_IU: msg->dst = conn->iu.ue_ctx; return iu_tx(msg, 0); default: LOGP(DMSC, LOGL_ERROR, "msc_tx(): conn->via_ran invalid (%d)\n", conn->via_ran); return -1; } } int msc_tx_dtap(struct gsm_subscriber_connection *conn, struct msgb *msg) { return msc_tx(conn, msg); } /* 9.2.5 CM service accept */ int msc_gsm48_tx_mm_serv_ack(struct gsm_subscriber_connection *conn) { struct msgb *msg = gsm48_msgb_alloc_name("GSM 04.08 SERV ACC"); struct gsm48_hdr *gh = (struct gsm48_hdr *) msgb_put(msg, sizeof(*gh)); gh->proto_discr = GSM48_PDISC_MM; gh->msg_type = GSM48_MT_MM_CM_SERV_ACC; DEBUGP(DMM, "-> CM SERVICE ACCEPT %s\n", vlr_subscr_name(conn->vsub)); return msc_tx_dtap(conn, msg); } /* 9.2.6 CM service reject */ int msc_gsm48_tx_mm_serv_rej(struct gsm_subscriber_connection *conn, enum gsm48_reject_value value) { struct msgb *msg; conn->received_cm_service_request = false; msg = gsm48_create_mm_serv_rej(value); if (!msg) { LOGP(DMM, LOGL_ERROR, "Failed to allocate CM Service Reject.\n"); return -1; } DEBUGP(DMM, "-> CM SERVICE Reject cause: %d\n", value); return msc_tx_dtap(conn, msg); } int msc_tx_common_id(struct gsm_subscriber_connection *conn) { /* Common ID is only sent over IuCS */ if (conn->via_ran != RAN_UTRAN_IU) { LOGP(DMM, LOGL_INFO, "%s: Asked to transmit Common ID, but skipping" " because this is not on UTRAN\n", vlr_subscr_name(conn->vsub)); return 0; } #ifdef BUILD_IU DEBUGP(DIUCS, "%s: tx CommonID %s\n", vlr_subscr_name(conn->vsub), conn->vsub->imsi); return iu_tx_common_id(conn->iu.ue_ctx, conn->vsub->imsi); #else LOGP(DMM, LOGL_ERROR, "Cannot send CommonID: RAN_UTRAN_IU but IuCS support not built\n"); return -ENOTSUP; #endif } #ifdef BUILD_IU static void iu_rab_act_cs(struct ue_conn_ctx *uectx, uint8_t rab_id, uint32_t rtp_ip, uint16_t rtp_port) { struct msgb *msg; bool use_x213_nsap; uint32_t conn_id = uectx->conn_id; use_x213_nsap = (uectx->rab_assign_addr_enc == NSAP_ADDR_ENC_X213); LOGP(DIUCS, LOGL_DEBUG, "Assigning RAB: conn_id=%u, rab_id=%d," " rtp=%x:%u, use_x213_nsap=%d\n", conn_id, rab_id, rtp_ip, rtp_port, use_x213_nsap); msg = ranap_new_msg_rab_assign_voice(rab_id, rtp_ip, rtp_port, use_x213_nsap); msg->l2h = msg->data; if (iu_rab_act(uectx, msg)) LOGP(DIUCS, LOGL_ERROR, "Failed to send RAB Assignment:" " conn_id=%d rab_id=%d rtp=%x:%u\n", conn_id, rab_id, rtp_ip, rtp_port); } static void mgcp_response_rab_act_cs_crcx(struct mgcp_response *r, void *priv) { struct gsm_trans *trans = priv; struct gsm_subscriber_connection *conn = trans->conn; struct ue_conn_ctx *uectx = conn->iu.ue_ctx; uint32_t rtp_ip; int rc; if (r->head.response_code != 200) { LOGP(DMGCP, LOGL_ERROR, "MGCPGW response yields error: %d %s\n", r->head.response_code, r->head.comment); goto rab_act_cs_error; } rc = mgcp_response_parse_params(r); if (rc) { LOGP(DMGCP, LOGL_ERROR, "Cannot parse MGCP response, for %s\n", vlr_subscr_name(trans->vsub)); goto rab_act_cs_error; } conn->iu.mgcp_rtp_port_cn = r->audio_port; rtp_ip = mgcpgw_client_remote_addr_n(conn->network->mgcpgw.client); iu_rab_act_cs(uectx, conn->iu.rab_id, rtp_ip, conn->iu.mgcp_rtp_port_ue); /* use_x213_nsap == 0 for ip.access nano3G */ rab_act_cs_error: /* FIXME abort call, invalidate conn, ... */ return; } static int conn_iu_rab_act_cs(struct gsm_trans *trans) { struct gsm_subscriber_connection *conn = trans->conn; struct mgcpgw_client *mgcp = conn->network->mgcpgw.client; struct msgb *msg; /* HACK. where to scope the RAB Id? At the conn / subscriber / * ue_conn_ctx? */ static uint8_t next_rab_id = 1; conn->iu.rab_id = next_rab_id ++; conn->iu.mgcp_rtp_endpoint = mgcpgw_client_next_endpoint(conn->network->mgcpgw.client); /* HACK: the addresses should be known from CRCX response * and config. */ conn->iu.mgcp_rtp_port_ue = 4000 + 2 * conn->iu.mgcp_rtp_endpoint; /* Establish the RTP stream first as looping back to the originator. * The MDCX will patch through to the counterpart. TODO: play a ring * tone instead. */ msg = mgcp_msg_crcx(mgcp, conn->iu.mgcp_rtp_endpoint, trans->callref, MGCP_CONN_LOOPBACK); return mgcpgw_client_tx(mgcp, msg, mgcp_response_rab_act_cs_crcx, trans); } #endif int msc_call_assignment(struct gsm_trans *trans) { struct gsm_subscriber_connection *conn = trans->conn; switch (conn->via_ran) { case RAN_GERAN_A: LOGP(DMSC, LOGL_ERROR, "msc_call_assignment(): A-interface BSSMAP Assignment" " Request not yet implemented\n"); return -ENOTSUP; case RAN_UTRAN_IU: #ifdef BUILD_IU return conn_iu_rab_act_cs(trans); #else LOGP(DMSC, LOGL_ERROR, "msc_call_assignment(): IuCS RAB Activation not supported" " in this build\n"); return -ENOTSUP; #endif default: LOGP(DMSC, LOGL_ERROR, "msc_tx(): conn->via_ran invalid (%d)\n", conn->via_ran); return -EINVAL; } } static void mgcp_response_bridge_mdcx(struct mgcp_response *r, void *priv); static void mgcp_bridge(struct gsm_trans *from, struct gsm_trans *to, enum bridge_state state, enum mgcp_connection_mode mode) { struct gsm_subscriber_connection *conn1 = from->conn; struct gsm_subscriber_connection *conn2 = to->conn; struct mgcpgw_client *mgcp = conn1->network->mgcpgw.client; const char *ip; struct msgb *msg; OSMO_ASSERT(mgcp); from->bridge.peer = to; from->bridge.state = state; /* Loop back to the same MGCP GW */ ip = mgcpgw_client_remote_addr_str(mgcp); msg = mgcp_msg_mdcx(mgcp, conn1->iu.mgcp_rtp_endpoint, ip, conn2->iu.mgcp_rtp_port_cn, mode); if (mgcpgw_client_tx(mgcp, msg, mgcp_response_bridge_mdcx, from)) LOGP(DMGCP, LOGL_ERROR, "Failed to send MDCX message for %s\n", vlr_subscr_name(from->vsub)); } static void mgcp_response_bridge_mdcx(struct mgcp_response *r, void *priv) { struct gsm_trans *trans = priv; struct gsm_trans *peer = trans->bridge.peer; switch (trans->bridge.state) { case BRIDGE_STATE_LOOPBACK_PENDING: trans->bridge.state = BRIDGE_STATE_LOOPBACK_ESTABLISHED; switch (peer->bridge.state) { case BRIDGE_STATE_LOOPBACK_PENDING: /* Wait until the other is done as well. */ return; case BRIDGE_STATE_LOOPBACK_ESTABLISHED: /* Now that both are in loopback, switch both to * forwarding. */ mgcp_bridge(trans, peer, BRIDGE_STATE_BRIDGE_PENDING, MGCP_CONN_RECV_SEND); mgcp_bridge(peer, trans, BRIDGE_STATE_BRIDGE_PENDING, MGCP_CONN_RECV_SEND); break; default: LOGP(DMGCP, LOGL_ERROR, "Unexpected bridge state: %d for %s\n", trans->bridge.state, vlr_subscr_name(trans->vsub)); break; } break; case BRIDGE_STATE_BRIDGE_PENDING: trans->bridge.state = BRIDGE_STATE_BRIDGE_ESTABLISHED; break; default: LOGP(DMGCP, LOGL_ERROR, "Unexpected bridge state: %d for %s\n", trans->bridge.state, vlr_subscr_name(trans->vsub)); break; } } int msc_call_bridge(struct gsm_trans *trans1, struct gsm_trans *trans2) { /* First setup as loopback and configure the counterparts' endpoints, * so that when transmission starts the originating addresses are * already known to be valid. The mgcp callback will continue. */ mgcp_bridge(trans1, trans2, BRIDGE_STATE_LOOPBACK_PENDING, MGCP_CONN_LOOPBACK); mgcp_bridge(trans2, trans1, BRIDGE_STATE_LOOPBACK_PENDING, MGCP_CONN_LOOPBACK); return 0; }