/* OsmoHLR SS/USSD implementation */ /* (C) 2018 Harald Welte * * 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 #include #include #include /*********************************************************************** * core data structures expressing config from VTY ***********************************************************************/ struct hlr_euse *euse_find(struct hlr *hlr, const char *name) { struct hlr_euse *euse; llist_for_each_entry(euse, &hlr->euse_list, list) { if (!strcmp(euse->name, name)) return euse; } return NULL; } struct hlr_euse *euse_alloc(struct hlr *hlr, const char *name) { struct hlr_euse *euse = euse_find(hlr, name); if (euse) return NULL; euse = talloc_zero(hlr, struct hlr_euse); euse->name = talloc_strdup(euse, name); euse->hlr = hlr; llist_add_tail(&euse->list, &hlr->euse_list); return euse; } void euse_del(struct hlr_euse *euse) { llist_del(&euse->list); talloc_free(euse); } struct hlr_ussd_route *ussd_route_find_prefix(struct hlr *hlr, const char *prefix) { struct hlr_ussd_route *rt; llist_for_each_entry(rt, &hlr->ussd_routes, list) { if (!strcmp(rt->prefix, prefix)) return rt; } return NULL; } struct hlr_ussd_route *ussd_route_prefix_alloc_int(struct hlr *hlr, const char *prefix, const struct hlr_iuse *iuse) { struct hlr_ussd_route *rt; if (ussd_route_find_prefix(hlr, prefix)) return NULL; rt = talloc_zero(hlr, struct hlr_ussd_route); rt->prefix = talloc_strdup(rt, prefix); rt->u.iuse = iuse; llist_add_tail(&rt->list, &hlr->ussd_routes); return rt; } struct hlr_ussd_route *ussd_route_prefix_alloc_ext(struct hlr *hlr, const char *prefix, struct hlr_euse *euse) { struct hlr_ussd_route *rt; if (ussd_route_find_prefix(hlr, prefix)) return NULL; rt = talloc_zero(hlr, struct hlr_ussd_route); rt->prefix = talloc_strdup(rt, prefix); rt->is_external = true; rt->u.euse = euse; llist_add_tail(&rt->list, &hlr->ussd_routes); return rt; } void ussd_route_del(struct hlr_ussd_route *rt) { llist_del(&rt->list); talloc_free(rt); } static struct hlr_ussd_route *ussd_route_lookup_for_req(struct hlr *hlr, const struct ss_request *req) { const uint8_t cgroup = req->ussd_data_dcs >> 4; const uint8_t lang = req->ussd_data_dcs & 0x0f; char ussd_code[GSM0480_USSD_7BIT_STRING_LEN]; struct hlr_ussd_route *rt; ussd_code[0] = '\0'; /* We support only the Coding Group 0 (GSM 7-bit default alphabeet). In fact, * the USSD request is usually limited to [*#0-9], so we don't really need to * support other coding groups and languages. */ switch (cgroup) { case 0: /* The Language is usually set to '1111'B (unspecified), but some UEs * are known to indicate '0000'B (German). */ if (lang != 0x0f) { LOGP(DSS, LOGL_NOTICE, "USSD DataCodingScheme (0x%02x): " "the Language is usually set to 15 (unspecified), " "but the request indicates %u - ignoring this\n", req->ussd_data_dcs, lang); /* do not abort, attempt to decode as if it was '1111'B */ } gsm_7bit_decode_n_ussd(&ussd_code[0], sizeof(ussd_code), req->ussd_data, (req->ussd_data_len * 8) / 7); break; default: LOGP(DSS, LOGL_ERROR, "USSD DataCodingScheme (0x%02x): " "Coding Group %u is not supported, expecting Coding Group 0\n", req->ussd_data_dcs, cgroup); return NULL; } llist_for_each_entry(rt, &hlr->ussd_routes, list) { if (!strncmp(ussd_code, rt->prefix, strlen(rt->prefix))) { LOGP(DSS, LOGL_DEBUG, "Found %s '%s' (prefix '%s') for USSD " "Code '%s'\n", rt->is_external ? "EUSE" : "IUSE", rt->is_external ? rt->u.euse->name : rt->u.iuse->name, rt->prefix, ussd_code); return rt; } } LOGP(DSS, LOGL_DEBUG, "Could not find Route for USSD Code '%s'\n", ussd_code); return NULL; } /*********************************************************************** * handling functions for individual GSUP messages ***********************************************************************/ #define LOGPSS(ss, lvl, fmt, args...) \ LOGP(DSS, lvl, "%s/0x%08x: " fmt, (ss)->imsi, (ss)->session_id, ## args) struct ss_session { /* link us to hlr->ss_sessions */ struct llist_head list; /* imsi of this session */ char imsi[OSMO_IMSI_BUF_SIZE]; /* ID of this session (unique per IMSI) */ uint32_t session_id; /* state of the session */ enum osmo_gsup_session_state state; /* time-out when we will delete the session */ struct osmo_timer_list timeout; /* is this USSD for an external handler (EUSE): true */ bool is_external; union { /* external USSD Entity responsible for this session */ struct hlr_euse *euse; /* internal USSD Entity responsible for this session */ const struct hlr_iuse *iuse; } u; /* subscriber's vlr_number * MO USSD: originating MSC's vlr_number * MT USSD: looked up once per session and cached here */ struct osmo_ipa_name vlr_name; /* we don't keep a pointer to the osmo_gsup_{route,conn} towards the MSC/VLR here, * as this might change during inter-VLR hand-over, and we simply look-up the serving MSC/VLR * every time we receive an USSD component from the EUSE */ struct osmo_gsup_req *initial_req_from_ms; struct osmo_gsup_req *initial_req_from_euse; }; struct ss_session *ss_session_find(struct hlr *hlr, const char *imsi, uint32_t session_id) { struct ss_session *ss; llist_for_each_entry(ss, &hlr->ss_sessions, list) { if (!strcmp(ss->imsi, imsi) && ss->session_id == session_id) return ss; } return NULL; } void ss_session_free(struct ss_session *ss) { osmo_timer_del(&ss->timeout); if (ss->initial_req_from_ms) osmo_gsup_req_free(ss->initial_req_from_ms); if (ss->initial_req_from_euse) osmo_gsup_req_free(ss->initial_req_from_euse); llist_del(&ss->list); talloc_free(ss); } static void ss_session_timeout(void *data) { struct ss_session *ss = data; LOGPSS(ss, LOGL_NOTICE, "SS Session Timeout, destroying\n"); /* FIXME: should we send a ReturnError component to the MS? */ ss_session_free(ss); } struct ss_session *ss_session_alloc(struct hlr *hlr, const char *imsi, uint32_t session_id) { struct ss_session *ss; OSMO_ASSERT(!ss_session_find(hlr, imsi, session_id)); ss = talloc_zero(hlr, struct ss_session); OSMO_ASSERT(ss); OSMO_STRLCPY_ARRAY(ss->imsi, imsi); ss->session_id = session_id; /* Schedule self-destruction timer */ osmo_timer_setup(&ss->timeout, ss_session_timeout, ss); if (g_hlr->ncss_guard_timeout > 0) osmo_timer_schedule(&ss->timeout, g_hlr->ncss_guard_timeout, 0); llist_add_tail(&ss->list, &hlr->ss_sessions); return ss; } /*********************************************************************** * handling functions for encoding SS messages + wrapping them in GSUP ***********************************************************************/ /* Resolve the target MSC by ss->imsi and send GSUP message. */ static int ss_gsup_send_to_ms(struct ss_session *ss, struct osmo_gsup_server *gs, struct osmo_gsup_message *gsup) { struct hlr_subscriber subscr = {}; struct msgb *msg; int rc; if (ss->initial_req_from_ms) { /* Use non-final osmo_gsup_req_respond() to not deallocate the ss->initial_req_from_ms */ osmo_gsup_req_respond(ss->initial_req_from_ms, gsup, false, false); return 0; } msg = osmo_gsup_msgb_alloc("GSUP USSD FW"); rc = osmo_gsup_encode(msg, gsup); if (rc) { LOGPSS(ss, LOGL_ERROR, "Failed to encode GSUP message\n"); msgb_free(msg); return rc; } /* Use vlr_number as looked up by the caller, or look up now. */ if (!ss->vlr_name.len) { rc = db_subscr_get_by_imsi(g_hlr->dbc, ss->imsi, &subscr); if (rc < 0) { LOGPSS(ss, LOGL_ERROR, "Cannot find subscriber, cannot route GSUP message\n"); msgb_free(msg); return -EINVAL; } osmo_ipa_name_set_str(&ss->vlr_name, subscr.vlr_number); } /* Check for empty string (all vlr_number strings end in "\0", because otherwise gsup_route_find() fails) */ if (ss->vlr_name.len <= 1) { LOGPSS(ss, LOGL_ERROR, "Cannot send GSUP message, no VLR number stored for subscriber\n"); msgb_free(msg); return -EINVAL; } LOGPSS(ss, LOGL_DEBUG, "Tx SS/USSD to VLR %s\n", osmo_ipa_name_to_str(&ss->vlr_name)); return osmo_gsup_send_to_ipa_name(gs, &ss->vlr_name, msg); } static int ss_tx_to_ms(struct ss_session *ss, enum osmo_gsup_message_type gsup_msg_type, struct msgb *ss_msg) { struct osmo_gsup_message resp; int rc; resp = (struct osmo_gsup_message) { .message_type = gsup_msg_type, .session_id = ss->session_id, .session_state = ss->state, }; OSMO_STRLCPY_ARRAY(resp.imsi, ss->imsi); if (ss_msg) { resp.ss_info = msgb_data(ss_msg); resp.ss_info_len = msgb_length(ss_msg); } rc = ss_gsup_send_to_ms(ss, g_hlr->gs, &resp); msgb_free(ss_msg); return rc; } #if 0 static int ss_tx_reject(struct ss_session *ss, int invoke_id, uint8_t problem_tag, uint8_t problem_code) { struct msgb *msg = gsm0480_gen_reject(invoke_id, problem_tag, problem_code); LOGPSS(ss, LOGL_NOTICE, "Tx Reject(%u, 0x%02x, 0x%02x)\n", invoke_id, problem_tag, problem_code); OSMO_ASSERT(msg); ss->state = OSMO_GSUP_SESSION_STATE_END; return ss_tx_to_ms(ss, OSMO_GSUP_MSGT_PROC_SS_RESULT, msg); } #endif static int ss_tx_to_ms_error(struct ss_session *ss, uint8_t invoke_id, uint8_t error_code) { struct msgb *msg = gsm0480_gen_return_error(invoke_id, error_code); LOGPSS(ss, LOGL_NOTICE, "Tx ReturnError(%u, 0x%02x)\n", invoke_id, error_code); OSMO_ASSERT(msg); ss->state = OSMO_GSUP_SESSION_STATE_END; return ss_tx_to_ms(ss, OSMO_GSUP_MSGT_PROC_SS_RESULT, msg); } static int ss_tx_to_ms_ussd_7bit(struct ss_session *ss, uint8_t invoke_id, const char *text) { struct msgb *msg = gsm0480_gen_ussd_resp_7bit(invoke_id, text); LOGPSS(ss, LOGL_INFO, "Tx USSD '%s'\n", text); OSMO_ASSERT(msg); return ss_tx_to_ms(ss, OSMO_GSUP_MSGT_PROC_SS_RESULT, msg); } /*********************************************************************** * Internal USSD Handlers ***********************************************************************/ #include static int handle_ussd_own_msisdn(struct ss_session *ss, const struct osmo_gsup_message *gsup, const struct ss_request *req) { struct hlr_subscriber subscr; char buf[GSM0480_USSD_7BIT_STRING_LEN+1]; int rc; ss->state = OSMO_GSUP_SESSION_STATE_END; rc = db_subscr_get_by_imsi(g_hlr->dbc, ss->imsi, &subscr); switch (rc) { case 0: if (strlen(subscr.msisdn) == 0) snprintf(buf, sizeof(buf), "You have no MSISDN!"); else snprintf(buf, sizeof(buf), "Your extension is %s", subscr.msisdn); ss_tx_to_ms_ussd_7bit(ss, req->invoke_id, buf); break; case -ENOENT: ss_tx_to_ms_error(ss, req->invoke_id, GSM0480_ERR_CODE_UNKNOWN_SUBSCRIBER); break; case -EIO: default: ss_tx_to_ms_error(ss, req->invoke_id, GSM0480_ERR_CODE_SYSTEM_FAILURE); break; } return 0; } static int handle_ussd_own_imsi(struct ss_session *ss, const struct osmo_gsup_message *gsup, const struct ss_request *req) { char buf[GSM0480_USSD_7BIT_STRING_LEN+1]; snprintf(buf, sizeof(buf), "Your IMSI is %s", ss->imsi); ss->state = OSMO_GSUP_SESSION_STATE_END; ss_tx_to_ms_ussd_7bit(ss, req->invoke_id, buf); return 0; } /* This handler just keeps the session idle unless the guard timer expires. */ static int handle_ussd_test_idle(struct ss_session *ss, const struct osmo_gsup_message *gsup, const struct ss_request *req) { char buf[GSM0480_USSD_7BIT_STRING_LEN + 1]; snprintf(buf, sizeof(buf), "Keeping your session idle, it will expire " "at most in %u seconds.", g_hlr->ncss_guard_timeout); ss->state = OSMO_GSUP_SESSION_STATE_CONTINUE; ss_tx_to_ms_ussd_7bit(ss, req->invoke_id, buf); return 0; } static const struct hlr_iuse hlr_iuses[] = { { .name = "own-msisdn", .handle_ussd = handle_ussd_own_msisdn, }, { .name = "own-imsi", .handle_ussd = handle_ussd_own_imsi, }, { .name = "test-idle", .handle_ussd = handle_ussd_test_idle, }, }; const struct hlr_iuse *iuse_find(const char *name) { unsigned int i; for (i = 0; i < ARRAY_SIZE(hlr_iuses); i++) { const struct hlr_iuse *iuse = &hlr_iuses[i]; if (!strcmp(name, iuse->name)) return iuse; } return NULL; } /*********************************************************************** * handling functions for individual GSUP messages ***********************************************************************/ static bool ss_op_is_ussd(uint8_t opcode) { switch (opcode) { case GSM0480_OP_CODE_PROCESS_USS_DATA: case GSM0480_OP_CODE_PROCESS_USS_REQ: case GSM0480_OP_CODE_USS_REQUEST: case GSM0480_OP_CODE_USS_NOTIFY: return true; default: return false; } } /* is this GSUP connection an EUSE (true) or not (false)? */ static bool peer_name_is_euse(const struct osmo_cni_peer_id *peer_name) { if (peer_name->type != OSMO_CNI_PEER_ID_IPA_NAME) return false; if (peer_name->ipa_name.len <= 5) return false; return strncmp((char *)(peer_name->ipa_name.val), "EUSE-", 5) == 0; } static struct hlr_euse *euse_by_name(const struct osmo_cni_peer_id *peer_name) { if (!peer_name_is_euse(peer_name)) return NULL; /* above peer_name_is_euse() ensures this: */ OSMO_ASSERT(peer_name->type == OSMO_CNI_PEER_ID_IPA_NAME); return euse_find(g_hlr, (const char*)(peer_name->ipa_name.val)+5); } static int handle_ss(struct ss_session *ss, bool is_euse_originated, const struct osmo_gsup_message *gsup, const struct ss_request *req) { uint8_t comp_type = gsup->ss_info[0]; LOGPSS(ss, LOGL_INFO, "SS CompType=%s, OpCode=%s\n", gsm0480_comp_type_name(comp_type), gsm0480_op_code_name(req->opcode)); /** * FIXME: As we don't store any SS related information * (e.g. call forwarding preferences) in the database, * we don't handle "structured" SS requests at all. */ LOGPSS(ss, LOGL_NOTICE, "Structured SS requests are not supported, rejecting...\n"); ss_tx_to_ms_error(ss, req->invoke_id, GSM0480_ERR_CODE_FACILITY_NOT_SUPPORTED); return -ENOTSUP; } /* Handle a USSD GSUP message for a given SS Session received from VLR or EUSE */ static int handle_ussd(struct ss_session *ss, bool is_euse_originated, const struct osmo_gsup_message *gsup, const struct ss_request *req) { uint8_t comp_type = gsup->ss_info[0]; struct msgb *msg_out; LOGPSS(ss, LOGL_INFO, "USSD CompType=%s, OpCode=%s '%s'\n", gsm0480_comp_type_name(comp_type), gsm0480_op_code_name(req->opcode), req->ussd_text); if ((ss->is_external && !ss->u.euse) || !ss->u.iuse) { LOGPSS(ss, LOGL_NOTICE, "USSD for unknown code '%s'\n", req->ussd_text); ss_tx_to_ms_error(ss, req->invoke_id, GSM0480_ERR_CODE_SS_NOT_AVAILABLE); return 0; } if (is_euse_originated) { /* Received from EUSE, Forward to VLR */ /* Need a non-const osmo_gsup_message, because sending might modify some (routing related?) parts. */ struct osmo_gsup_message forward = *gsup; ss_gsup_send_to_ms(ss, g_hlr->gs, &forward); } else { /* Received from VLR (MS) */ if (ss->is_external) { /* Forward to EUSE */ struct osmo_ipa_name euse_name; struct osmo_gsup_conn *conn; osmo_ipa_name_set_str(&euse_name, "EUSE-%s", ss->u.euse->name); conn = gsup_route_find_by_ipa_name(g_hlr->gs, &euse_name); if (!conn) { LOGPSS(ss, LOGL_ERROR, "Cannot find conn for EUSE %s\n", osmo_ipa_name_to_str(&euse_name)); ss_tx_to_ms_error(ss, req->invoke_id, GSM0480_ERR_CODE_SYSTEM_FAILURE); } else { msg_out = osmo_gsup_msgb_alloc("GSUP USSD FW"); osmo_gsup_encode(msg_out, gsup); osmo_gsup_conn_send(conn, msg_out); } } else { /* Handle internally */ ss->u.iuse->handle_ussd(ss, gsup, req); /* Release session if the handler has changed its state to END */ if (ss->state == OSMO_GSUP_SESSION_STATE_END) ss_session_free(ss); } } return 0; } /* this function is called for any SS_REQ/SS_RESP messages from both the MSC/VLR side as well * as from the EUSE side */ void rx_proc_ss_req(struct osmo_gsup_req *gsup_req) { struct hlr *hlr = g_hlr; struct ss_session *ss; struct ss_request req = {0}; const struct osmo_gsup_message *gsup = &gsup_req->gsup; /* Remember whether this function should free the incoming gsup_req: if it is placed as ss->initial_req_from_*, * do not free it here. If not, free it here. */ struct osmo_gsup_req *free_gsup_req = gsup_req; bool is_euse_originated = peer_name_is_euse(&gsup_req->source_name); LOGP(DSS, LOGL_DEBUG, "%s/0x%08x: Process SS (%s)\n", gsup->imsi, gsup->session_id, osmo_gsup_session_state_name(gsup->session_state)); if (gsup_req->source_name.type != OSMO_CNI_PEER_ID_IPA_NAME) { LOGP(DSS, LOGL_ERROR, "%s/0x%082x: Unable to process SS request: Unsupported GSUP peer id type%s\n", gsup->imsi, gsup->session_id, osmo_cni_peer_id_type_name(gsup_req->source_name.type)); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_PROTO_ERR_UNSPEC, "error processing SS request"); return; } /* decode and find out what kind of SS message it is */ if (gsup->ss_info && gsup->ss_info_len) { if (gsm0480_parse_facility_ie(gsup->ss_info, gsup->ss_info_len, &req)) { LOGP(DSS, LOGL_ERROR, "%s/0x%082x: Unable to parse SS request: %s\n", gsup->imsi, gsup->session_id, osmo_hexdump(gsup->ss_info, gsup->ss_info_len)); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_INV_MAND_INFO, "error parsing SS request"); return; } } else if (gsup->session_state != OSMO_GSUP_SESSION_STATE_END) { LOGP(DSS, LOGL_ERROR, "%s/0x%082x: Missing SS payload for '%s'\n", gsup->imsi, gsup->session_id, osmo_gsup_session_state_name(gsup->session_state)); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_INV_MAND_INFO, "missing SS payload"); return; } switch (gsup->session_state) { case OSMO_GSUP_SESSION_STATE_BEGIN: /* Check for overlapping Session ID usage */ if (ss_session_find(hlr, gsup->imsi, gsup->session_id)) { LOGP(DSS, LOGL_ERROR, "%s/0x%08x: BEGIN with non-unique session ID!\n", gsup->imsi, gsup->session_id); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_INV_MAND_INFO, "BEGIN with non-unique session ID"); return; } ss = ss_session_alloc(hlr, gsup->imsi, gsup->session_id); if (!ss) { LOGP(DSS, LOGL_ERROR, "%s/0x%08x: Unable to allocate SS session\n", gsup->imsi, gsup->session_id); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_NET_FAIL, "Unable to allocate SS session"); return; } /* Get IPA name from VLR conn and save as ss->vlr_number */ if (!is_euse_originated) { ss->initial_req_from_ms = gsup_req; free_gsup_req = NULL; OSMO_ASSERT(gsup_req->source_name.type == OSMO_CNI_PEER_ID_IPA_NAME); /* checked above */ ss->vlr_name = gsup_req->source_name.ipa_name; } else { ss->initial_req_from_euse = gsup_req; free_gsup_req = NULL; } if (ss_op_is_ussd(req.opcode)) { if (is_euse_originated) { /* EUSE->VLR: MT USSD. EUSE is known ('conn'), VLR is to be resolved */ ss->u.euse = euse_by_name(&gsup_req->source_name); } else { /* VLR->EUSE: MO USSD. VLR is known ('conn'), EUSE is to be resolved */ struct hlr_ussd_route *rt; rt = ussd_route_lookup_for_req(hlr, &req); if (rt) { if (rt->is_external) { ss->is_external = true; ss->u.euse = rt->u.euse; } else if (rt) { ss->is_external = false; ss->u.iuse = rt->u.iuse; } } else { if (hlr->euse_default) { ss->is_external = true; ss->u.euse = hlr->euse_default; } } } /* dispatch unstructured SS to routing */ handle_ussd(ss, is_euse_originated, &gsup_req->gsup, &req); } else { /* dispatch non-call SS to internal code */ handle_ss(ss, is_euse_originated, &gsup_req->gsup, &req); } break; case OSMO_GSUP_SESSION_STATE_CONTINUE: ss = ss_session_find(hlr, gsup->imsi, gsup->session_id); if (!ss) { LOGP(DSS, LOGL_ERROR, "%s/0x%08x: CONTINUE for unknown SS session\n", gsup->imsi, gsup->session_id); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_MSGT_INCOMP_P_STATE, "CONTINUE for unknown SS session"); return; } /* Reschedule self-destruction timer */ if (g_hlr->ncss_guard_timeout > 0) osmo_timer_schedule(&ss->timeout, g_hlr->ncss_guard_timeout, 0); if (ss_op_is_ussd(req.opcode)) { /* dispatch unstructured SS to routing */ handle_ussd(ss, is_euse_originated, &gsup_req->gsup, &req); } else { /* dispatch non-call SS to internal code */ handle_ss(ss, is_euse_originated, &gsup_req->gsup, &req); } break; case OSMO_GSUP_SESSION_STATE_END: ss = ss_session_find(hlr, gsup->imsi, gsup->session_id); if (!ss) { LOGP(DSS, LOGL_ERROR, "%s/0x%08x: END for unknown SS session\n", gsup->imsi, gsup->session_id); osmo_gsup_req_respond_err(gsup_req, GMM_CAUSE_MSGT_INCOMP_P_STATE, "END for unknown SS session"); return; } /* SS payload is optional for END */ if (gsup->ss_info && gsup->ss_info_len) { if (ss_op_is_ussd(req.opcode)) { /* dispatch unstructured SS to routing */ handle_ussd(ss, is_euse_originated, &gsup_req->gsup, &req); } else { /* dispatch non-call SS to internal code */ handle_ss(ss, is_euse_originated, &gsup_req->gsup, &req); } } ss_session_free(ss); break; default: LOGP(DSS, LOGL_ERROR, "%s/0x%08x: Unknown SS State %d\n", gsup->imsi, gsup->session_id, gsup->session_state); break; } if (free_gsup_req) osmo_gsup_req_free(free_gsup_req); } void rx_proc_ss_error(struct osmo_gsup_req *req) { LOGP(DSS, LOGL_NOTICE, "%s/0x%08x: Process SS ERROR (%s)\n", req->gsup.imsi, req->gsup.session_id, osmo_gsup_session_state_name(req->gsup.session_state)); osmo_gsup_req_free(req); }