/* (C) 2017 by sysmocom s.f.m.c. GmbH * (C) 2018 by Harald Welte * All Rights Reserved * * Author: Philipp Maier * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #define LOGPCONN LOG_RAN_CONN /* A pointer to the GSM network we work with. By the current paradigm, * there can only be one gsm_network per MSC. The pointer is set once * when calling a_init() */ static struct gsm_network *gsm_network = NULL; /* A struct to track currently active connections. We need that information * to handle failure sitautions. In case of a problem, we must know which * connections are currently open and which BSC is responsible. We also need * the data to perform our connection checks (a_reset). All other logic will * look at the connection ids and addresses that are supplied by the * primitives */ struct bsc_conn { struct llist_head list; uint32_t conn_id; /* Connection identifier */ struct bsc_context *bsc; }; /* Internal list with connections we currently maintain. This * list is of type struct bsc_conn (see above) */ static LLIST_HEAD(active_connections); /* Record info of a new active connection in the active connection list */ static void record_bsc_con(const void *ctx, struct bsc_context *bsc, uint32_t conn_id) { struct bsc_conn *conn; conn = talloc_zero(ctx, struct bsc_conn); OSMO_ASSERT(conn); conn->conn_id = conn_id; conn->bsc = bsc; llist_add_tail(&conn->list, &active_connections); } /* Delete info of a closed connection from the active connection list */ void a_delete_bsc_con(uint32_t conn_id) { struct bsc_conn *conn; struct bsc_conn *conn_temp; llist_for_each_entry_safe(conn, conn_temp, &active_connections, list) { if (conn->conn_id == conn_id) { LOGP(DBSSAP, LOGL_DEBUG, "(conn%u) Removing A-interface conn\n", conn->conn_id); llist_del(&conn->list); talloc_free(conn); } } } /* Find a specified connection id */ static struct bsc_conn *find_bsc_con(uint32_t conn_id) { struct bsc_conn *conn; /* Find the address for the current connection id */ llist_for_each_entry(conn, &active_connections, list) { if (conn->conn_id == conn_id) { return conn; } } return NULL; } /* Check if a specified connection id has an active SCCP connection */ static bool check_connection_active(uint32_t conn_id) { if (find_bsc_con(conn_id)) return true; else return false; } /* Get the context for a specific calling (BSC) address */ static struct bsc_context *get_bsc_context_by_sccp_addr(const struct osmo_sccp_addr *addr) { struct bsc_context *bsc_ctx; struct osmo_ss7_instance *ss7; if (!addr) return NULL; llist_for_each_entry(bsc_ctx, &gsm_network->a.bscs, list) { if (memcmp(&bsc_ctx->bsc_addr, addr, sizeof(*addr)) == 0) return bsc_ctx; } ss7 = osmo_ss7_instance_find(gsm_network->a.cs7_instance); OSMO_ASSERT(ss7); LOGP(DBSSAP, LOGL_NOTICE, "The calling BSC (%s) is unknown to this MSC ...\n", osmo_sccp_addr_name(ss7, addr)); return NULL; } /* Send DTAP message via A-interface, take ownership of msg */ int a_iface_tx_dtap(struct msgb *msg) { struct ran_conn *conn; struct msgb *msg_resp; uint8_t link_id = OMSC_LINKID_CB(msg); OSMO_ASSERT(msg); conn = (struct ran_conn *)msg->dst; OSMO_ASSERT(conn); OSMO_ASSERT(conn->a.scu); LOGPCONN(conn, LOGL_DEBUG, "Passing DTAP message (DLCI=0x%02x) from MSC to BSC\n", link_id); msg->l3h = msg->data; msg_resp = gsm0808_create_dtap(msg, link_id); /* gsm0808_create_dtap() has copied the data to msg_resp, * so msg has served its purpose now */ msgb_free(msg); if (!msg_resp) { LOGPCONN(conn, LOGL_ERROR, "Unable to generate BSSMAP DTAP message!\n"); return -EINVAL; } LOGPCONN(conn, LOGL_DEBUG, "N-DATA.req(%s)\n", msgb_hexdump_l2(msg_resp)); /* osmo_sccp_tx_data_msg() takes ownership of msg_resp */ return osmo_sccp_tx_data_msg(conn->a.scu, conn->a.conn_id, msg_resp); } /* Send Cipher mode command via A-interface */ int a_iface_tx_cipher_mode(const struct ran_conn *conn, struct gsm0808_encrypt_info *ei, int include_imeisv) { /* TODO generalize for A- and Iu interfaces, don't name after 08.08 */ struct msgb *msg_resp; uint8_t crm = 0x01; OSMO_ASSERT(conn); LOGPCONN(conn, LOGL_DEBUG, "Tx BSSMAP CIPHER MODE COMMAND to BSC, %u ciphers (%s)", ei->perm_algo_len, osmo_hexdump_nospc(ei->perm_algo, ei->perm_algo_len)); LOGPC(DBSSAP, LOGL_DEBUG, " key %s\n", osmo_hexdump_nospc(ei->key, ei->key_len)); msg_resp = gsm0808_create_cipher(ei, include_imeisv ? &crm : NULL); LOGPCONN(conn, LOGL_DEBUG, "N-DATA.req(%s)\n", msgb_hexdump_l2(msg_resp)); return osmo_sccp_tx_data_msg(conn->a.scu, conn->a.conn_id, msg_resp); } /* Page a subscriber via A-interface */ int a_iface_tx_paging(const char *imsi, uint32_t tmsi, uint16_t lac) { struct bsc_context *bsc_ctx; struct gsm0808_cell_id_list2 cil; struct msgb *msg; int page_count = 0; struct osmo_ss7_instance *ss7; OSMO_ASSERT(imsi); cil.id_discr = CELL_IDENT_LAC; cil.id_list[0].lac = lac; cil.id_list_len = 1; ss7 = osmo_ss7_instance_find(gsm_network->a.cs7_instance); OSMO_ASSERT(ss7); /* Deliver paging request to all known BSCs */ llist_for_each_entry(bsc_ctx, &gsm_network->a.bscs, list) { if (a_reset_conn_ready(bsc_ctx->reset_fsm)) { LOGP(DBSSAP, LOGL_DEBUG, "Tx BSSMAP paging message from MSC %s to BSC %s (imsi=%s, tmsi=0x%08x, lac=%u)\n", osmo_sccp_addr_name(ss7, &bsc_ctx->msc_addr), osmo_sccp_addr_name(ss7, &bsc_ctx->bsc_addr), imsi, tmsi, lac); msg = gsm0808_create_paging2(imsi, &tmsi, &cil, NULL); osmo_sccp_tx_unitdata_msg(bsc_ctx->sccp_user, &bsc_ctx->msc_addr, &bsc_ctx->bsc_addr, msg); page_count++; } else { LOGP(DBSSAP, LOGL_DEBUG, "Connection down, dropping paging from MSC %s to BSC %s (imsi=%s, tmsi=0x%08x, lac=%u)\n", osmo_sccp_addr_name(ss7, &bsc_ctx->msc_addr), osmo_sccp_addr_name(ss7, &bsc_ctx->bsc_addr), imsi, tmsi, lac); } } if (page_count <= 0) LOGP(DBSSAP, LOGL_ERROR, "Could not deliver paging because none of the associated BSCs is available!\n"); return page_count; } /* Convert speech version field */ static uint8_t convert_speech_version_l3_to_A(int speech_ver) { /* The speech versions that are transmitted in the Bearer capability * information element, that is transmitted on the Layer 3 (CC) * use a different encoding than the permitted speech version * identifier, that is signalled in the channel type element on the A * interface. (See also 3GPP TS 48.008, 3.2.2.1 and 3GPP TS 24.008, * 10.5.103 */ switch (speech_ver) { case GSM48_BCAP_SV_FR: return GSM0808_PERM_FR1; case GSM48_BCAP_SV_HR: return GSM0808_PERM_HR1; case GSM48_BCAP_SV_EFR: return GSM0808_PERM_FR2; case GSM48_BCAP_SV_AMR_F: return GSM0808_PERM_FR3; case GSM48_BCAP_SV_AMR_H: return GSM0808_PERM_HR3; case GSM48_BCAP_SV_AMR_OFW: return GSM0808_PERM_FR4; case GSM48_BCAP_SV_AMR_OHW: return GSM0808_PERM_HR4; case GSM48_BCAP_SV_AMR_FW: return GSM0808_PERM_FR5; case GSM48_BCAP_SV_AMR_OH: return GSM0808_PERM_HR6; } /* If nothing matches, tag the result as invalid */ LOGP(DBSSAP, LOGL_ERROR, "Invalid permitted speech version: %d\n", speech_ver); return 0xFF; } /* Convert speech preference field */ static uint8_t convert_speech_pref_l3_to_A(int radio) { /* The Radio channel requirement field that is transmitted in the * Bearer capability information element, that is transmitted on the * Layer 3 (CC) uses a different encoding than the Channel rate and * type field that is signalled in the channel type element on the A * interface. (See also 3GPP TS 48.008, 3.2.2.1 and 3GPP TS 24.008, * 10.5.102 */ switch (radio) { case GSM48_BCAP_RRQ_FR_ONLY: return GSM0808_SPEECH_FULL_BM; case GSM48_BCAP_RRQ_DUAL_FR: return GSM0808_SPEECH_FULL_PREF; case GSM48_BCAP_RRQ_DUAL_HR: return GSM0808_SPEECH_HALF_PREF; } LOGP(DBSSAP, LOGL_ERROR, "Invalid radio channel preference: %d; defaulting to full rate.\n", radio); return GSM0808_SPEECH_FULL_BM; } /* Assemble the channel type field */ static int enc_channel_type(struct gsm0808_channel_type *ct, const struct gsm_mncc_bearer_cap *bc) { unsigned int i; uint8_t sv; unsigned int count = 0; bool only_gsm_hr = true; OSMO_ASSERT(ct); OSMO_ASSERT(bc); ct->ch_indctr = GSM0808_CHAN_SPEECH; for (i = 0; i < ARRAY_SIZE(bc->speech_ver); i++) { if (bc->speech_ver[i] == -1) break; sv = convert_speech_version_l3_to_A(bc->speech_ver[i]); if (sv != 0xFF) { /* Detect if something else than * GSM HR V1 is supported */ if (sv == GSM0808_PERM_HR2 || sv == GSM0808_PERM_HR3 || sv == GSM0808_PERM_HR4 || sv == GSM0808_PERM_HR6) only_gsm_hr = false; ct->perm_spch[count] = sv; count++; } } ct->perm_spch_len = count; if (only_gsm_hr) /* Note: We must avoid the usage of GSM HR1 as this * codec only offers very poor audio quality. If the * MS only supports GSM HR1 (and full rate), and has * a preference for half rate. Then we will ignore the * preference and assume a preference for full rate. */ ct->ch_rate_type = GSM0808_SPEECH_FULL_BM; else ct->ch_rate_type = convert_speech_pref_l3_to_A(bc->radio); if (count) return 0; else return -EINVAL; } /* Assemble the speech codec field */ static int enc_speech_codec_list(struct gsm0808_speech_codec_list *scl, const struct gsm0808_channel_type *ct) { unsigned int i; int rc; memset(scl, 0, sizeof(*scl)); for (i = 0; i < ct->perm_spch_len; i++) { rc = gsm0808_speech_codec_from_chan_type(&scl->codec[i], ct->perm_spch[i]); if (rc != 0) return -EINVAL; } scl->len = i; return 0; } /* Send assignment request via A-interface */ int a_iface_tx_assignment(const struct gsm_trans *trans) { struct ran_conn *conn; struct gsm0808_channel_type ct; struct gsm0808_speech_codec_list scl; struct msgb *msg; struct sockaddr_storage rtp_addr; struct sockaddr_in rtp_addr_in; int rc; OSMO_ASSERT(trans); conn = trans->conn; OSMO_ASSERT(conn); LOGPCONN(conn, LOGL_DEBUG, "Tx BSSMAP ASSIGNMENT COMMAND to BSC\n"); /* Channel type */ rc = enc_channel_type(&ct, &trans->bearer_cap); if (rc < 0) { LOGPCONN(conn, LOGL_ERROR, "Not sending Assignment to BSC: failed to generate channel type\n"); return -EINVAL; } /* Speech codec list */ rc = enc_speech_codec_list(&scl, &ct); if (rc < 0) { LOGPCONN(conn, LOGL_ERROR, "Not sending Assignment to BSC: failed to generate speech codec list\n"); return -EINVAL; } /* Package RTP-Address data */ memset(&rtp_addr_in, 0, sizeof(rtp_addr_in)); rtp_addr_in.sin_family = AF_INET; rtp_addr_in.sin_port = osmo_htons(conn->rtp.local_port_ran); rtp_addr_in.sin_addr.s_addr = inet_addr(conn->rtp.local_addr_ran); if (rtp_addr_in.sin_addr.s_addr == INADDR_NONE) { LOGPCONN(conn, LOGL_ERROR, "Invalid RTP-Address -- assignment not sent!\n"); return -EINVAL; } if (rtp_addr_in.sin_port == 0) { LOGPCONN(conn, LOGL_ERROR, "Invalid RTP-Port -- assignment not sent!\n"); return -EINVAL; } memset(&rtp_addr, 0, sizeof(rtp_addr)); memcpy(&rtp_addr, &rtp_addr_in, sizeof(rtp_addr_in)); msg = gsm0808_create_ass(&ct, NULL, &rtp_addr, &scl, NULL); LOGPCONN(conn, LOGL_DEBUG, "N-DATA.req(%s)\n", msgb_hexdump_l2(msg)); return osmo_sccp_tx_data_msg(conn->a.scu, conn->a.conn_id, msg); } /* Send clear command via A-interface */ int a_iface_tx_clear_cmd(struct ran_conn *conn) { struct msgb *msg; LOGPCONN(conn, LOGL_INFO, "Tx BSSMAP CLEAR COMMAND to BSC\n"); msg = gsm0808_create_clear_command(GSM0808_CAUSE_CALL_CONTROL); return osmo_sccp_tx_data_msg(conn->a.scu, conn->a.conn_id, msg); } int a_iface_tx_classmark_request(const struct ran_conn *conn) { struct msgb *msg; LOGPCONN(conn, LOGL_INFO, "Tx BSSMAP CLASSMARK REQUEST to BSC\n"); msg = gsm0808_create_classmark_request(); return osmo_sccp_tx_data_msg(conn->a.scu, conn->a.conn_id, msg); } /* Callback function: Close all open connections */ static void a_reset_cb(const void *priv) { struct msgb *msg; struct bsc_context *bsc_ctx = (struct bsc_context*) priv; struct osmo_ss7_instance *ss7; /* Skip if the A interface is not properly initalized yet */ if (!gsm_network) return; /* Clear all now orphaned RAN connections */ a_clear_all(bsc_ctx->sccp_user, &bsc_ctx->bsc_addr); /* Send reset to the remote BSC */ ss7 = osmo_ss7_instance_find(gsm_network->a.cs7_instance); OSMO_ASSERT(ss7); LOGP(DBSSAP, LOGL_NOTICE, "Tx BSSMAP RESET to BSC %s\n", osmo_sccp_addr_name(ss7, &bsc_ctx->bsc_addr)); msg = gsm0808_create_reset(); osmo_sccp_tx_unitdata_msg(bsc_ctx->sccp_user, &bsc_ctx->msc_addr, &bsc_ctx->bsc_addr, msg); } /* Add a new BSC connection to our internal list with known BSCs */ static struct bsc_context *add_bsc(const struct osmo_sccp_addr *msc_addr, const struct osmo_sccp_addr *bsc_addr, struct osmo_sccp_user *scu) { struct bsc_context *bsc_ctx; struct osmo_ss7_instance *ss7; ss7 = osmo_ss7_instance_find(gsm_network->a.cs7_instance); OSMO_ASSERT(ss7); LOGP(DBSSAP, LOGL_NOTICE, "Adding new BSC connection for BSC %s...\n", osmo_sccp_addr_name(ss7, bsc_addr)); /* Generate and fill up a new bsc context */ bsc_ctx = talloc_zero(gsm_network, struct bsc_context); OSMO_ASSERT(bsc_ctx); memcpy(&bsc_ctx->bsc_addr, bsc_addr, sizeof(*bsc_addr)); memcpy(&bsc_ctx->msc_addr, msc_addr, sizeof(*msc_addr)); bsc_ctx->sccp_user = scu; llist_add_tail(&bsc_ctx->list, &gsm_network->a.bscs); return bsc_ctx; } /* start the BSSMAP RESET fsm */ void a_start_reset(struct bsc_context *bsc_ctx, bool already_connected) { char bsc_name[32]; OSMO_ASSERT(bsc_ctx->reset_fsm == NULL); /* Start reset procedure to make the new connection active */ snprintf(bsc_name, sizeof(bsc_name), "bsc-%i", bsc_ctx->bsc_addr.pc); bsc_ctx->reset_fsm = a_reset_alloc(bsc_ctx, bsc_name, a_reset_cb, bsc_ctx, already_connected); } /* determine if given msg is BSSMAP RESET related (true) or not (false) */ static bool bssmap_is_reset(struct msgb *msg) { struct bssmap_header *bs = (struct bssmap_header *)msgb_l2(msg); if (msgb_l2len(msg) < sizeof(*bs)) return false; if (bs->type != BSSAP_MSG_BSS_MANAGEMENT) return false; if (msg->l2h[sizeof(*bs)] == BSS_MAP_MSG_RESET) return true; if (msg->l2h[sizeof(*bs)] == BSS_MAP_MSG_RESET_ACKNOWLEDGE) return true; return false; } /* Callback function, called by the SSCP stack when data arrives */ static int sccp_sap_up(struct osmo_prim_hdr *oph, void *_scu) { struct osmo_sccp_user *scu = _scu; struct osmo_scu_prim *scu_prim = (struct osmo_scu_prim *)oph; int rc = 0; struct a_conn_info a_conn_info; struct bsc_conn *bsc_con; memset(&a_conn_info, 0, sizeof(a_conn_info)); a_conn_info.network = gsm_network; switch (OSMO_PRIM_HDR(&scu_prim->oph)) { case OSMO_PRIM(OSMO_SCU_PRIM_N_CONNECT, PRIM_OP_INDICATION): /* Handle inbound connection indication */ a_conn_info.conn_id = scu_prim->u.connect.conn_id; a_conn_info.bsc = get_bsc_context_by_sccp_addr(&scu_prim->u.unitdata.calling_addr); if (!a_conn_info.bsc) { /* We haven't heard from this BSC before, allocate it */ a_conn_info.bsc = add_bsc(&scu_prim->u.connect.called_addr, &scu_prim->u.connect.calling_addr, scu); a_start_reset(a_conn_info.bsc, false); } else { /* This BSC is already known to us, check if we have been through reset yet */ if (a_reset_conn_ready(a_conn_info.bsc->reset_fsm) == false) { LOGP(DBSSAP, LOGL_NOTICE, "Refusing N-CONNECT.ind(%u, %s), BSC not reset yet\n", scu_prim->u.connect.conn_id, msgb_hexdump_l2(oph->msg)); rc = osmo_sccp_tx_disconn(scu, a_conn_info.conn_id, &a_conn_info.bsc->msc_addr, SCCP_RETURN_CAUSE_UNQUALIFIED); break; } osmo_sccp_tx_conn_resp(scu, scu_prim->u.connect.conn_id, &scu_prim->u.connect.called_addr, NULL, 0); if (msgb_l2len(oph->msg) > 0) { LOGP(DBSSAP, LOGL_DEBUG, "N-CONNECT.ind(%u, %s)\n", scu_prim->u.connect.conn_id, msgb_hexdump_l2(oph->msg)); rc = a_sccp_rx_dt(scu, &a_conn_info, oph->msg); } else { LOGP(DBSSAP, LOGL_DEBUG, "N-CONNECT.ind(%u)\n", scu_prim->u.connect.conn_id); rc = -ENODATA; } if (rc < 0) { /* initial message (COMPL L3) caused some error, we didn't allocate * a subscriber_conn and must close the connection again */ rc = osmo_sccp_tx_disconn(scu, a_conn_info.conn_id, &a_conn_info.bsc->msc_addr, SCCP_RETURN_CAUSE_UNQUALIFIED); } else record_bsc_con(scu, a_conn_info.bsc, scu_prim->u.connect.conn_id); } break; case OSMO_PRIM(OSMO_SCU_PRIM_N_DATA, PRIM_OP_INDICATION): /* Handle incoming connection oriented data */ bsc_con = find_bsc_con(scu_prim->u.data.conn_id); if (!bsc_con) { LOGP(DBSSAP, LOGL_ERROR, "N-DATA.ind(%u, %s) for unknown conn_id\n", scu_prim->u.data.conn_id, msgb_hexdump_l2(oph->msg)); break; } a_conn_info.conn_id = scu_prim->u.data.conn_id; a_conn_info.bsc = bsc_con->bsc; LOGP(DBSSAP, LOGL_DEBUG, "N-DATA.ind(%u, %s)\n", scu_prim->u.data.conn_id, msgb_hexdump_l2(oph->msg)); a_sccp_rx_dt(scu, &a_conn_info, oph->msg); break; case OSMO_PRIM(OSMO_SCU_PRIM_N_UNITDATA, PRIM_OP_INDICATION): /* Handle inbound UNITDATA */ /* Get BSC context, create a new one if necessary */ a_conn_info.bsc = get_bsc_context_by_sccp_addr(&scu_prim->u.unitdata.calling_addr); if (!a_conn_info.bsc) { /* We haven't heard from this BSC before, allocate it */ a_conn_info.bsc = add_bsc(&scu_prim->u.unitdata.called_addr, &scu_prim->u.unitdata.calling_addr, scu); /* Make sure that reset procedure is started */ a_start_reset(a_conn_info.bsc, false); } /* As long as we are in the reset phase, only reset related BSSMAP messages may pass * beond here. */ if (!bssmap_is_reset(oph->msg) && a_reset_conn_ready(a_conn_info.bsc->reset_fsm) == false) { LOGP(DBSSAP, LOGL_NOTICE, "Ignoring N-UNITDATA.ind(%s), BSC not reset yet\n", msgb_hexdump_l2(oph->msg)); break; } DEBUGP(DBSSAP, "N-UNITDATA.ind(%s)\n", msgb_hexdump_l2(oph->msg)); a_sccp_rx_udt(scu, &a_conn_info, oph->msg); break; default: LOGP(DBSSAP, LOGL_ERROR, "Unhandled SIGTRAN operation %s on primitive %u\n", get_value_string(osmo_prim_op_names, oph->operation), oph->primitive); break; } /* We didn't transfer msgb ownership to any downstream functions so we rely on * this single/central location to free() the msgb wrapping the primitive */ msgb_free(oph->msg); return rc; } /* Clear all RAN connections on a specified BSC */ void a_clear_all(struct osmo_sccp_user *scu, const struct osmo_sccp_addr *bsc_addr) { struct ran_conn *conn; struct ran_conn *conn_temp; struct gsm_network *network = gsm_network; OSMO_ASSERT(scu); OSMO_ASSERT(bsc_addr); llist_for_each_entry_safe(conn, conn_temp, &network->ran_conns, entry) { /* Clear only A connections and connections that actually * belong to the specified BSC */ if (conn->via_ran == OSMO_RAT_GERAN_A && memcmp(bsc_addr, &conn->a.bsc_addr, sizeof(conn->a.bsc_addr)) == 0) { uint32_t conn_id = conn->a.conn_id; LOGPCONN(conn, LOGL_NOTICE, "Dropping orphaned RAN connection\n"); /* This call will/may talloc_free(conn), so we must save conn_id above */ ran_conn_clear_request(conn, GSM48_CC_CAUSE_SWITCH_CONG); /* If there is still an SCCP connection active, remove it now */ if (check_connection_active(conn_id)) { osmo_sccp_tx_disconn(scu, conn_id, bsc_addr, SCCP_RELEASE_CAUSE_END_USER_ORIGINATED); a_delete_bsc_con(conn_id); } } } } /* Initalize A interface connection between to MSC and BSC */ int a_init(struct osmo_sccp_instance *sccp, struct gsm_network *network) { OSMO_ASSERT(sccp); OSMO_ASSERT(network); /* FIXME: Remove hardcoded parameters, use parameters in parameter list */ LOGP(DBSSAP, LOGL_NOTICE, "Initalizing SCCP connection to stp...\n"); /* Set GSM network variable, there can only be * one network by design */ if (gsm_network != NULL) { OSMO_ASSERT(gsm_network == network); } else gsm_network = network; /* SCCP Protocol stack */ osmo_sccp_user_bind(sccp, "OsmoMSC-A", sccp_sap_up, SCCP_SSN_BSSAP); return 0; }