/* Common parts of IuCS and IuPS interfaces implementation */ /* (C) 2016-2017 by sysmocom s.f.m.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 #include #include #include #include #include /* Parsed global RNC id. See also struct RANAP_GlobalRNC_ID, and note that the * PLMN identity is a BCD representation of the MCC and MNC. * See iu_grnc_id_parse(). */ struct iu_grnc_id { struct osmo_plmn_id plmn; uint16_t rnc_id; }; struct iu_lac_rac_entry { struct llist_head entry; /* LAC: Location Area Code (for CS and PS) */ uint16_t lac; /* RAC: Routing Area Code (for PS only) */ uint8_t rac; }; /* A remote RNC (Radio Network Controller, like BSC but for UMTS) that has * called us and is currently reachable at the given osmo_sccp_addr. So, when we * know a LAC for a subscriber, we can page it at the RNC matching that LAC or * RAC. An HNB-GW typically presents itself as if it were a single RNC, even * though it may have several RNCs in hNodeBs connected to it. Those will then * share the same RNC id, which they actually receive and adopt from the HNB-GW * in the HNBAP HNB REGISTER ACCEPT message. */ struct ranap_iu_rnc { struct llist_head entry; uint16_t rnc_id; struct osmo_sccp_addr sccp_addr; /* A list of struct iu_lac_rac_entry */ struct llist_head lac_rac_list; }; void *talloc_iu_ctx; void *talloc_asn1_ctx; /* Implement the extern asn_debug from libasn1c to indicate whether to print * asn.1 debug messages (see libasn1c). */ int asn_debug = 0; /* Implement the extern asn1_xer_print to indicate whether the ASN.1 binary * code decoded and encoded during Iu communication should be logged to stderr * (see asn.1 generated code in osmo-iuh). */ int asn1_xer_print = 0; ranap_iu_recv_cb_t global_iu_recv_cb = NULL; ranap_iu_event_cb_t global_iu_event_cb = NULL; int iu_log_subsystem = 0; #define LOGPIU(level, fmt, args...) \ LOGP(iu_log_subsystem, level, fmt, ## args) #define LOGPIUC(level, fmt, args...) \ LOGPC(iu_log_subsystem, level, fmt, ## args) static LLIST_HEAD(ue_conn_ctx_list); static LLIST_HEAD(rnc_list); static struct osmo_sccp_instance *g_sccp; static struct osmo_sccp_user *g_scu; static struct osmo_sccp_addr g_local_sccp_addr; const struct value_string ranap_iu_event_type_names[] = { OSMO_VALUE_STRING(RANAP_IU_EVENT_RAB_ASSIGN), OSMO_VALUE_STRING(RANAP_IU_EVENT_SECURITY_MODE_COMPLETE), OSMO_VALUE_STRING(RANAP_IU_EVENT_IU_RELEASE), OSMO_VALUE_STRING(RANAP_IU_EVENT_LINK_INVALIDATED), { 0, NULL } }; static int global_iu_event(struct ranap_ue_conn_ctx *ue_ctx, enum ranap_iu_event_type type, void *data) { if (!global_iu_event_cb) return 0; if (!ue_ctx->notification) return 0; return global_iu_event_cb(ue_ctx, type, data); } static struct ranap_ue_conn_ctx *ue_conn_ctx_alloc(struct ranap_iu_rnc *rnc, uint32_t conn_id) { struct ranap_ue_conn_ctx *ctx = talloc_zero(talloc_iu_ctx, struct ranap_ue_conn_ctx); ctx->rnc = rnc; ctx->conn_id = conn_id; ctx->notification = true; ctx->free_on_release = false; osmo_timer_setup(&ctx->release_timeout, (void *)(void *) ranap_iu_free_ue, ctx); llist_add(&ctx->list, &ue_conn_ctx_list); return ctx; } static struct ranap_ue_conn_ctx *ue_conn_ctx_find(uint32_t conn_id) { struct ranap_ue_conn_ctx *ctx; llist_for_each_entry(ctx, &ue_conn_ctx_list, list) { if (ctx->conn_id == conn_id) return ctx; } return NULL; } void ranap_iu_free_ue(struct ranap_ue_conn_ctx *ue_ctx) { if (!ue_ctx) return; osmo_timer_del(&ue_ctx->release_timeout); osmo_sccp_tx_disconn(g_scu, ue_ctx->conn_id, NULL, 0); llist_del(&ue_ctx->list); talloc_free(ue_ctx); } static struct ranap_iu_rnc *iu_rnc_alloc(uint16_t rnc_id, struct osmo_sccp_addr *addr) { struct ranap_iu_rnc *rnc = talloc_zero(talloc_iu_ctx, struct ranap_iu_rnc); OSMO_ASSERT(rnc); INIT_LLIST_HEAD(&rnc->lac_rac_list); rnc->rnc_id = rnc_id; rnc->sccp_addr = *addr; llist_add(&rnc->entry, &rnc_list); LOGPIU(LOGL_NOTICE, "New RNC %d at %s\n", rnc->rnc_id, osmo_sccp_addr_dump(addr)); return rnc; } /* Find a match for the given LAC (and RAC). For CS, pass rac as 0. * If rnc and lre pointers are not NULL, *rnc / *lre are set to NULL if no match is found, or to the * match if a match is found. Return true if a match is found. */ static bool iu_rnc_lac_rac_find(struct ranap_iu_rnc **rnc, struct iu_lac_rac_entry **lre, uint16_t lac, uint8_t rac) { struct ranap_iu_rnc *r; struct iu_lac_rac_entry *e; if (rnc) *rnc = NULL; if (lre) *lre = NULL; llist_for_each_entry(r, &rnc_list, entry) { llist_for_each_entry(e, &r->lac_rac_list, entry) { if (e->lac == lac && e->rac == rac) { if (rnc) *rnc = r; if (lre) *lre = e; return true; } } } return false; } static struct ranap_iu_rnc *iu_rnc_id_find(uint16_t rnc_id) { struct ranap_iu_rnc *rnc; llist_for_each_entry(rnc, &rnc_list, entry) { if (rnc->rnc_id == rnc_id) return rnc; } return NULL; } static bool same_sccp_addr(struct osmo_sccp_addr *a, struct osmo_sccp_addr *b) { char buf[256]; osmo_strlcpy(buf, osmo_sccp_addr_dump(a), sizeof(buf)); return !strcmp(buf, osmo_sccp_addr_dump(b)); } static struct ranap_iu_rnc *iu_rnc_register(uint16_t rnc_id, uint16_t lac, uint8_t rac, struct osmo_sccp_addr *addr) { struct ranap_iu_rnc *rnc; struct ranap_iu_rnc *old_rnc; struct iu_lac_rac_entry *lre; /* Make sure we know this rnc_id and that this SCCP address is in our records */ rnc = iu_rnc_id_find(rnc_id); if (rnc) { if (!same_sccp_addr(&rnc->sccp_addr, addr)) { LOGPIU(LOGL_NOTICE, "RNC %u changed its SCCP addr to %s (LAC=%u RAC=%u)\n", rnc_id, osmo_sccp_addr_dump(addr), lac, rac); rnc->sccp_addr = *addr; } } else rnc = iu_rnc_alloc(rnc_id, addr); /* Detect whether the LAC,RAC is already recorded in another RNC */ iu_rnc_lac_rac_find(&old_rnc, &lre, lac, rac); if (old_rnc && old_rnc != rnc) { /* LAC,RAC already exists in a different RNC */ LOGPIU(LOGL_NOTICE, "LAC %u RAC %u moved from RNC %u %s", lac, rac, old_rnc->rnc_id, osmo_sccp_addr_dump(&old_rnc->sccp_addr)); LOGPIUC(LOGL_NOTICE, " to RNC %u %s\n", rnc->rnc_id, osmo_sccp_addr_dump(&rnc->sccp_addr)); llist_del(&lre->entry); llist_add(&lre->entry, &rnc->lac_rac_list); } else if (!old_rnc) { /* LAC,RAC not recorded yet */ LOGPIU(LOGL_NOTICE, "RNC %u: new LAC %u RAC %u\n", rnc_id, lac, rac); lre = talloc_zero(rnc, struct iu_lac_rac_entry); lre->lac = lac; lre->rac = rac; llist_add(&lre->entry, &rnc->lac_rac_list); } /* else, LAC,RAC already recorded with the current RNC. */ return rnc; } /*********************************************************************** * RANAP handling ***********************************************************************/ int ranap_iu_rab_act(struct ranap_ue_conn_ctx *ue_ctx, struct msgb *msg) { struct osmo_scu_prim *prim; /* wrap RANAP message in SCCP N-DATA.req */ prim = (struct osmo_scu_prim *) msgb_push(msg, sizeof(*prim)); prim->u.data.conn_id = ue_ctx->conn_id; osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_DATA, PRIM_OP_REQUEST, msg); return osmo_sccp_user_sap_down(g_scu, &prim->oph); } int ranap_iu_rab_deact(struct ranap_ue_conn_ctx *ue_ctx, uint8_t rab_id) { /* FIXME */ return -1; } int ranap_iu_tx_sec_mode_cmd(struct ranap_ue_conn_ctx *uectx, struct osmo_auth_vector *vec, int send_ck, int new_key) { struct osmo_scu_prim *prim; struct msgb *msg; /* create RANAP message */ msg = ranap_new_msg_sec_mod_cmd(vec->ik, send_ck? vec->ck : NULL, new_key ? RANAP_KeyStatus_new : RANAP_KeyStatus_old); msg->l2h = msg->data; /* wrap RANAP message in SCCP N-DATA.req */ prim = (struct osmo_scu_prim *) msgb_push(msg, sizeof(*prim)); prim->u.data.conn_id = uectx->conn_id; osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_DATA, PRIM_OP_REQUEST, msg); return osmo_sccp_user_sap_down(g_scu, &prim->oph); } int ranap_iu_tx_common_id(struct ranap_ue_conn_ctx *uectx, const char *imsi) { struct msgb *msg; struct osmo_scu_prim *prim; LOGPIU(LOGL_INFO, "Transmitting RANAP CommonID (SCCP conn_id %u)\n", uectx->conn_id); msg = ranap_new_msg_common_id(imsi); msg->l2h = msg->data; prim = (struct osmo_scu_prim *) msgb_push(msg, sizeof(*prim)); prim->u.data.conn_id = uectx->conn_id; osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_DATA, PRIM_OP_REQUEST, msg); return osmo_sccp_user_sap_down(g_scu, &prim->oph); } static int iu_grnc_id_parse(struct iu_grnc_id *dst, struct RANAP_GlobalRNC_ID *src) { /* The size is coming from arbitrary sender, check it gracefully */ if (src->pLMNidentity.size != 3) { LOGPIU(LOGL_ERROR, "Invalid PLMN Identity size:" " should be 3, is %d\n", src->pLMNidentity.size); return -1; } osmo_plmn_from_bcd(&src->pLMNidentity.buf[0], &dst->plmn); dst->rnc_id = (uint16_t)src->rNC_ID; return 0; } #if 0 -- not used at present -- static int iu_grnc_id_compose(struct iu_grnc_id *src, struct RANAP_GlobalRNC_ID *dst) { /* The caller must ensure proper size */ OSMO_ASSERT(dst->pLMNidentity.size == 3); gsm48_mcc_mnc_to_bcd(&dst->pLMNidentity.buf[0], src->mcc, src->mnc); dst->rNC_ID = src->rnc_id; return 0; } #endif struct new_ue_conn_ctx { struct osmo_sccp_addr sccp_addr; uint32_t conn_id; }; static int ranap_handle_co_initial_ue(void *ctx, RANAP_InitialUE_MessageIEs_t *ies) { struct new_ue_conn_ctx *new_ctx = ctx; struct gprs_ra_id ra_id; struct iu_grnc_id grnc_id; uint16_t sai; struct ranap_ue_conn_ctx *ue; struct msgb *msg = msgb_alloc(256, "RANAP->NAS"); struct ranap_iu_rnc *rnc; if (ranap_parse_lai(&ra_id, &ies->lai) != 0) { LOGPIU(LOGL_ERROR, "Failed to parse RANAP LAI IE\n"); return -1; } if (ies->presenceMask & INITIALUE_MESSAGEIES_RANAP_RAC_PRESENT) { ra_id.rac = asn1str_to_u8(&ies->rac); } if (iu_grnc_id_parse(&grnc_id, &ies->globalRNC_ID) != 0) { LOGPIU(LOGL_ERROR, "Failed to parse RANAP Global-RNC-ID IE\n"); return -1; } sai = asn1str_to_u16(&ies->sai.sAC); msgb_gmmh(msg) = msgb_put(msg, ies->nas_pdu.size); memcpy(msgb_gmmh(msg), ies->nas_pdu.buf, ies->nas_pdu.size); /* Make sure we know the RNC Id and LAC+RAC coming in on this connection. */ rnc = iu_rnc_register(grnc_id.rnc_id, ra_id.lac, ra_id.rac, &new_ctx->sccp_addr); ue = ue_conn_ctx_alloc(rnc, new_ctx->conn_id); OSMO_ASSERT(ue); ue->ra_id = ra_id; /* Feed into the MM layer */ msg->dst = ue; global_iu_recv_cb(msg, &ra_id, &sai); msgb_free(msg); return 0; } static int ranap_handle_co_dt(void *ctx, RANAP_DirectTransferIEs_t *ies) { struct gprs_ra_id _ra_id, *ra_id = NULL; uint16_t _sai, *sai = NULL; struct msgb *msg = msgb_alloc(256, "RANAP->NAS"); if (ies->presenceMask & DIRECTTRANSFERIES_RANAP_LAI_PRESENT) { if (ranap_parse_lai(&_ra_id, &ies->lai) != 0) { LOGPIU(LOGL_ERROR, "Failed to parse RANAP LAI IE\n"); return -1; } ra_id = &_ra_id; if (ies->presenceMask & DIRECTTRANSFERIES_RANAP_RAC_PRESENT) { _ra_id.rac = asn1str_to_u8(&ies->rac); } if (ies->presenceMask & DIRECTTRANSFERIES_RANAP_SAI_PRESENT) { _sai = asn1str_to_u16(&ies->sai.sAC); sai = &_sai; } } msgb_gmmh(msg) = msgb_put(msg, ies->nas_pdu.size); memcpy(msgb_gmmh(msg), ies->nas_pdu.buf, ies->nas_pdu.size); /* Feed into the MM/CC/SMS-CP layer */ msg->dst = ctx; global_iu_recv_cb(msg, ra_id, sai); msgb_free(msg); return 0; } static int ranap_handle_co_err_ind(void *ctx, RANAP_ErrorIndicationIEs_t *ies) { if (ies->presenceMask & ERRORINDICATIONIES_RANAP_CAUSE_PRESENT) LOGPIU(LOGL_ERROR, "Rx Error Indication (%s)\n", ranap_cause_str(&ies->cause)); else LOGPIU(LOGL_ERROR, "Rx Error Indication\n"); return 0; } int ranap_iu_tx(struct msgb *msg_nas, uint8_t sapi) { struct ranap_ue_conn_ctx *uectx = msg_nas->dst; struct msgb *msg; struct osmo_scu_prim *prim; LOGPIU(LOGL_INFO, "Transmitting L3 Message as RANAP DT (SCCP conn_id %u)\n", uectx->conn_id); msg = ranap_new_msg_dt(sapi, msg_nas->data, msgb_length(msg_nas)); msgb_free(msg_nas); msg->l2h = msg->data; prim = (struct osmo_scu_prim *) msgb_push(msg, sizeof(*prim)); prim->u.data.conn_id = uectx->conn_id; osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_DATA, PRIM_OP_REQUEST, msg); return osmo_sccp_user_sap_down(g_scu, &prim->oph); } /* Send Iu Release for the given UE connection. * If cause is NULL, Normal Release cause is sent, otherwise * the provided cause. */ int ranap_iu_tx_release(struct ranap_ue_conn_ctx *ctx, const struct RANAP_Cause *cause) { struct msgb *msg; struct osmo_scu_prim *prim; static const struct RANAP_Cause default_cause = { .present = RANAP_Cause_PR_nAS, .choice.radioNetwork = RANAP_CauseNAS_normal_release, }; if (!cause) cause = &default_cause; msg = ranap_new_msg_iu_rel_cmd(cause); msg->l2h = msg->data; prim = (struct osmo_scu_prim *) msgb_push(msg, sizeof(*prim)); prim->u.data.conn_id = ctx->conn_id; osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_DATA, PRIM_OP_REQUEST, msg); return osmo_sccp_user_sap_down(g_scu, &prim->oph); } void ranap_iu_tx_release_free(struct ranap_ue_conn_ctx *ctx, const struct RANAP_Cause *cause, int timeout) { ctx->notification = false; ctx->free_on_release = true; int ret = ranap_iu_tx_release(ctx, cause); if (ret) { ranap_iu_free_ue(ctx); return; } osmo_timer_schedule(&ctx->release_timeout, timeout, 0); } static int ranap_handle_co_iu_rel_req(struct ranap_ue_conn_ctx *ctx, RANAP_Iu_ReleaseRequestIEs_t *ies) { LOGPIU(LOGL_INFO, "Received Iu Release Request, Sending Release Command\n"); ranap_iu_tx_release(ctx, &ies->cause); return 0; } static int ranap_handle_co_rab_ass_resp(struct ranap_ue_conn_ctx *ctx, RANAP_RAB_AssignmentResponseIEs_t *ies) { int rc = -1; LOGPIU(LOGL_INFO, "Rx RAB Assignment Response for UE conn_id %u\n", ctx->conn_id); if (ies->presenceMask & RAB_ASSIGNMENTRESPONSEIES_RANAP_RAB_SETUPORMODIFIEDLIST_PRESENT) { /* TODO: Iterate over list of SetupOrModifiedList IEs and handle each one */ RANAP_IE_t *ranap_ie = ies->raB_SetupOrModifiedList.raB_SetupOrModifiedList_ies.list.array[0]; RANAP_RAB_SetupOrModifiedItemIEs_t setup_ies; rc = ranap_decode_rab_setupormodifieditemies_fromlist(&setup_ies, &ranap_ie->value); if (rc) { LOGPIU(LOGL_ERROR, "Error in ranap_decode_rab_setupormodifieditemies()\n"); return rc; } rc = global_iu_event(ctx, RANAP_IU_EVENT_RAB_ASSIGN, &setup_ies); ranap_free_rab_setupormodifieditemies(&setup_ies); } /* FIXME: handle RAB Ass failure? */ return rc; } static void cn_ranap_handle_co_initial(void *ctx, ranap_message *message) { int rc; LOGPIU(LOGL_NOTICE, "handle_co_initial(dir=%u, proc=%u)\n", message->direction, message->procedureCode); if (message->direction != RANAP_RANAP_PDU_PR_initiatingMessage || message->procedureCode != RANAP_ProcedureCode_id_InitialUE_Message) { LOGPIU(LOGL_ERROR, "Expected direction 'InitiatingMessage'," " procedureCode 'InitialUE_Message', instead got %u and %u\n", message->direction, message->procedureCode); rc = -1; } else rc = ranap_handle_co_initial_ue(ctx, &message->msg.initialUE_MessageIEs); if (rc) { LOGPIU(LOGL_ERROR, "Error in %s (%d)\n", __func__, rc); /* TODO handling of the error? */ } } /* Entry point for connection-oriented RANAP message */ static void cn_ranap_handle_co(void *ctx, ranap_message *message) { int rc; LOGPIU(LOGL_NOTICE, "handle_co(dir=%u, proc=%u)\n", message->direction, message->procedureCode); switch (message->direction) { case RANAP_RANAP_PDU_PR_initiatingMessage: switch (message->procedureCode) { case RANAP_ProcedureCode_id_InitialUE_Message: LOGPIU(LOGL_ERROR, "Got InitialUE_Message but this is not a new conn\n"); rc = -1; break; case RANAP_ProcedureCode_id_DirectTransfer: rc = ranap_handle_co_dt(ctx, &message->msg.directTransferIEs); break; case RANAP_ProcedureCode_id_ErrorIndication: rc = ranap_handle_co_err_ind(ctx, &message->msg.errorIndicationIEs); break; case RANAP_ProcedureCode_id_Iu_ReleaseRequest: /* Iu Release Request */ rc = ranap_handle_co_iu_rel_req(ctx, &message->msg.iu_ReleaseRequestIEs); break; default: LOGPIU(LOGL_ERROR, "Received Initiating Message: unknown Procedure Code %d\n", message->procedureCode); rc = -1; break; } break; case RANAP_RANAP_PDU_PR_successfulOutcome: switch (message->procedureCode) { case RANAP_ProcedureCode_id_SecurityModeControl: /* Security Mode Complete */ rc = global_iu_event(ctx, RANAP_IU_EVENT_SECURITY_MODE_COMPLETE, NULL); break; case RANAP_ProcedureCode_id_Iu_Release: /* Iu Release Complete */ rc = global_iu_event(ctx, RANAP_IU_EVENT_IU_RELEASE, NULL); if (rc) { LOGPIU(LOGL_ERROR, "Iu Release event: Iu Event callback returned %d\n", rc); } break; default: LOGPIU(LOGL_ERROR, "Received Successful Outcome: unknown Procedure Code %d\n", message->procedureCode); rc = -1; break; } break; case RANAP_RANAP_PDU_PR_outcome: switch (message->procedureCode) { case RANAP_ProcedureCode_id_RAB_Assignment: /* RAB Assignment Response */ rc = ranap_handle_co_rab_ass_resp(ctx, &message->msg.raB_AssignmentResponseIEs); break; default: LOGPIU(LOGL_ERROR, "Received Outcome: unknown Procedure Code %d\n", message->procedureCode); rc = -1; break; } break; case RANAP_RANAP_PDU_PR_unsuccessfulOutcome: default: LOGPIU(LOGL_ERROR, "Received Unsuccessful Outcome: Procedure Code %d\n", message->procedureCode); rc = -1; break; } if (rc) { LOGPIU(LOGL_ERROR, "Error in %s (%d)\n", __func__, rc); /* TODO handling of the error? */ } } static int ranap_handle_cl_reset_req(void *ctx, RANAP_ResetIEs_t *ies) { struct osmo_scu_prim *prim = (struct osmo_scu_prim *) ctx; struct osmo_scu_unitdata_param *ud_prim = &prim->u.unitdata; RANAP_GlobalRNC_ID_t *grnc_id = NULL; struct msgb *resp; OSMO_ASSERT(prim->oph.primitive == OSMO_SCU_PRIM_N_UNITDATA); /* FIXME: verify ies.cN_DomainIndicator */ if (ies->presenceMask & RESETIES_RANAP_GLOBALRNC_ID_PRESENT) grnc_id = &ies->globalRNC_ID; /* send reset response */ resp = ranap_new_msg_reset_ack(ies->cN_DomainIndicator, grnc_id); if (!resp) return -ENOMEM; resp->l2h = resp->data; return osmo_sccp_tx_unitdata_msg(g_scu, &g_local_sccp_addr, &ud_prim->calling_addr, resp); } static int ranap_handle_cl_err_ind(void *ctx, RANAP_ErrorIndicationIEs_t *ies) { if (ies->presenceMask & ERRORINDICATIONIES_RANAP_CAUSE_PRESENT) LOGPIU(LOGL_ERROR, "Rx Error Indication (%s)\n", ranap_cause_str(&ies->cause)); else LOGPIU(LOGL_ERROR, "Rx Error Indication\n"); return 0; } /* Entry point for connection-less RANAP message */ static void cn_ranap_handle_cl(void *ctx, ranap_message *message) { int rc; switch (message->direction) { case RANAP_RANAP_PDU_PR_initiatingMessage: switch (message->procedureCode) { case RANAP_ProcedureCode_id_Reset: /* received reset.req, send reset.resp */ rc = ranap_handle_cl_reset_req(ctx, &message->msg.resetIEs); break; case RANAP_ProcedureCode_id_ErrorIndication: rc = ranap_handle_cl_err_ind(ctx, &message->msg.errorIndicationIEs); break; default: rc = -1; break; } break; case RANAP_RANAP_PDU_PR_successfulOutcome: case RANAP_RANAP_PDU_PR_unsuccessfulOutcome: case RANAP_RANAP_PDU_PR_outcome: default: rc = -1; break; } if (rc) { LOGPIU(LOGL_ERROR, "Error in %s (%d)\n", __func__, rc); /* TODO handling of the error? */ } } /*********************************************************************** * Paging ***********************************************************************/ /* Send a paging command down a given SCCP User. tmsi and paging_cause are * optional and may be passed NULL and 0, respectively, to disable their use. * See enum RANAP_PagingCause. * * If TMSI is given, the IMSI is not sent over the air interface. Nevertheless, * the IMSI is still required for resolution in the HNB-GW and/or(?) RNC. */ static int iu_tx_paging_cmd(struct osmo_sccp_addr *called_addr, const char *imsi, const uint32_t *tmsi, bool is_ps, uint32_t paging_cause) { struct msgb *msg; msg = ranap_new_msg_paging_cmd(imsi, tmsi, is_ps? 1 : 0, paging_cause); msg->l2h = msg->data; return osmo_sccp_tx_unitdata_msg(g_scu, &g_local_sccp_addr, called_addr, msg); } static int iu_page(const char *imsi, const uint32_t *tmsi_or_ptmsi, uint16_t lac, uint8_t rac, bool is_ps) { struct ranap_iu_rnc *rnc; const char *log_msg; int log_level; int paged = 0; iu_rnc_lac_rac_find(&rnc, NULL, lac, rac); if (rnc) { if (iu_tx_paging_cmd(&rnc->sccp_addr, imsi, tmsi_or_ptmsi, is_ps, 0) == 0) { log_msg = "Paging"; log_level = LOGL_DEBUG; paged = 1; } else { log_msg = "Paging failed"; log_level = LOGL_ERROR; } } else { log_msg = "Found no RNC to Page"; log_level = LOGL_ERROR; } if (is_ps) LOGPIU(log_level, "IuPS: %s on LAC %d RAC %d", log_msg, lac, rac); else LOGPIU(log_level, "IuCS: %s on LAC %d", log_msg, lac); if (rnc) LOGPIUC(log_level, " at SCCP-addr %s", osmo_sccp_addr_dump(&rnc->sccp_addr)); if (tmsi_or_ptmsi) LOGPIUC(log_level, ", for %s %08x\n", is_ps? "PTMSI" : "TMSI", *tmsi_or_ptmsi); else LOGPIUC(log_level, ", for IMSI %s\n", imsi); return paged; } int ranap_iu_page_cs(const char *imsi, const uint32_t *tmsi, uint16_t lac) { return iu_page(imsi, tmsi, lac, 0, false); } int ranap_iu_page_ps(const char *imsi, const uint32_t *ptmsi, uint16_t lac, uint8_t rac) { return iu_page(imsi, ptmsi, lac, rac, true); } /*********************************************************************** * ***********************************************************************/ int tx_unitdata(struct osmo_sccp_user *scu); int tx_conn_req(struct osmo_sccp_user *scu, uint32_t conn_id); struct osmo_prim_hdr *make_conn_req(uint32_t conn_id); struct osmo_prim_hdr *make_dt1_req(uint32_t conn_id, const uint8_t *data, unsigned int len); static struct osmo_prim_hdr *make_conn_resp(struct osmo_scu_connect_param *param) { struct msgb *msg = msgb_alloc(1024, "conn_resp"); struct osmo_scu_prim *prim; prim = (struct osmo_scu_prim *) msgb_put(msg, sizeof(*prim)); osmo_prim_init(&prim->oph, SCCP_SAP_USER, OSMO_SCU_PRIM_N_CONNECT, PRIM_OP_RESPONSE, msg); memcpy(&prim->u.connect, param, sizeof(prim->u.connect)); return &prim->oph; } static int sccp_sap_up(struct osmo_prim_hdr *oph, void *_scu) { struct osmo_sccp_user *scu = _scu; struct osmo_scu_prim *prim = (struct osmo_scu_prim *) oph; struct osmo_prim_hdr *resp = NULL; int rc = -1; struct ranap_ue_conn_ctx *ue; struct new_ue_conn_ctx new_ctx = {}; LOGPIU(LOGL_DEBUG, "sccp_sap_up(%s)\n", osmo_scu_prim_name(oph)); switch (OSMO_PRIM_HDR(oph)) { case OSMO_PRIM(OSMO_SCU_PRIM_N_CONNECT, PRIM_OP_CONFIRM): /* confirmation of outbound connection */ break; case OSMO_PRIM(OSMO_SCU_PRIM_N_CONNECT, PRIM_OP_INDICATION): /* indication of new inbound connection request*/ LOGPIU(LOGL_DEBUG, "N-CONNECT.ind(X->%u)\n", prim->u.connect.conn_id); if (/* prim->u.connect.called_addr.ssn != OSMO_SCCP_SSN_RANAP || */ !msgb_l2(oph->msg) || msgb_l2len(oph->msg) == 0) { LOGPIU(LOGL_NOTICE, "Received invalid N-CONNECT.ind\n"); return 0; } new_ctx.sccp_addr = prim->u.connect.calling_addr; new_ctx.conn_id = prim->u.connect.conn_id; /* first ensure the local SCCP socket is ACTIVE */ resp = make_conn_resp(&prim->u.connect); osmo_sccp_user_sap_down(scu, resp); /* then handle the RANAP payload */ rc = ranap_cn_rx_co(cn_ranap_handle_co_initial, &new_ctx, msgb_l2(oph->msg), msgb_l2len(oph->msg)); break; case OSMO_PRIM(OSMO_SCU_PRIM_N_DISCONNECT, PRIM_OP_INDICATION): /* indication of disconnect */ LOGPIU(LOGL_DEBUG, "N-DISCONNECT.ind(%u)\n", prim->u.disconnect.conn_id); ue = ue_conn_ctx_find(prim->u.disconnect.conn_id); if (!ue) break; rc = 0; if (msgb_l2len(oph->msg) > 0) rc = ranap_cn_rx_co(cn_ranap_handle_co, ue, msgb_l2(oph->msg), msgb_l2len(oph->msg)); /* A Iu Release event might be used to free the UE in cn_ranap_handle_co. */ ue = ue_conn_ctx_find(prim->u.disconnect.conn_id); if (!ue) break; global_iu_event(ue, RANAP_IU_EVENT_LINK_INVALIDATED, NULL); /* A RANAP_IU_EVENT_LINK_INVALIDATED, can lead to a free */ ue = ue_conn_ctx_find(prim->u.disconnect.conn_id); if (!ue) break; if (ue->free_on_release) ranap_iu_free_ue(ue); break; case OSMO_PRIM(OSMO_SCU_PRIM_N_DATA, PRIM_OP_INDICATION): /* connection-oriented data received */ LOGPIU(LOGL_DEBUG, "N-DATA.ind(%u, %s)\n", prim->u.data.conn_id, osmo_hexdump(msgb_l2(oph->msg), msgb_l2len(oph->msg))); /* resolve UE context */ ue = ue_conn_ctx_find(prim->u.data.conn_id); if (!ue) break; rc = ranap_cn_rx_co(cn_ranap_handle_co, ue, msgb_l2(oph->msg), msgb_l2len(oph->msg)); break; case OSMO_PRIM(OSMO_SCU_PRIM_N_UNITDATA, PRIM_OP_INDICATION): /* connection-less data received */ LOGPIU(LOGL_DEBUG, "N-UNITDATA.ind(%s)\n", osmo_hexdump(msgb_l2(oph->msg), msgb_l2len(oph->msg))); rc = ranap_cn_rx_cl(cn_ranap_handle_cl, prim, msgb_l2(oph->msg), msgb_l2len(oph->msg)); break; default: break; } msgb_free(oph->msg); return rc; } int ranap_iu_init(void *ctx, int log_subsystem, const char *sccp_user_name, struct osmo_sccp_instance *sccp, ranap_iu_recv_cb_t iu_recv_cb, ranap_iu_event_cb_t iu_event_cb) { iu_log_subsystem = log_subsystem; talloc_iu_ctx = talloc_named_const(ctx, 1, "iu"); talloc_asn1_ctx = talloc_named_const(talloc_iu_ctx, 1, "asn1"); global_iu_recv_cb = iu_recv_cb; global_iu_event_cb = iu_event_cb; g_sccp = sccp; osmo_sccp_local_addr_by_instance(&g_local_sccp_addr, sccp, OSMO_SCCP_SSN_RANAP); g_scu = osmo_sccp_user_bind(g_sccp, sccp_user_name, sccp_sap_up, OSMO_SCCP_SSN_RANAP); return 0; }