/* Mobility Management context */ /* (C) 2009 by 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 "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include const struct value_string sgsn_ran_type_names[] = { { MM_CTX_T_GERAN_Gb, "GPRS/EDGE via Gb" }, { MM_CTX_T_UTRAN_Iu, "UMTS via Iu" }, #if 0 { MM_CTX_T_GERAN_Iu, "GPRS/EDGE via Iu" }, #endif { 0, NULL } }; static const struct rate_ctr_desc mmctx_ctr_description[] = { { "sign:packets:in", "Signalling Messages ( In)" }, { "sign:packets:out", "Signalling Messages (Out)" }, { "udata:packets:in", "User Data Messages ( In)" }, { "udata:packets:out", "User Data Messages (Out)" }, { "udata:bytes:in", "User Data Bytes ( In)" }, { "udata:bytes:out", "User Data Bytes (Out)" }, { "pdp_ctx_act", "PDP Context Activations " }, { "suspend", "SUSPEND Count " }, { "paging:ps", "Paging Packet Switched " }, { "paging:cs", "Paging Circuit Switched " }, { "ra_update", "Routing Area Update " }, }; static const struct rate_ctr_group_desc mmctx_ctrg_desc = { .group_name_prefix = "sgsn:mmctx", .group_description = "SGSN MM Context Statistics", .num_ctr = ARRAY_SIZE(mmctx_ctr_description), .ctr_desc = mmctx_ctr_description, .class_id = OSMO_STATS_CLASS_SUBSCRIBER, }; /* look-up an SGSN MM context based on Iu UE context (struct ue_conn_ctx)*/ struct sgsn_mm_ctx *sgsn_mm_ctx_by_ue_ctx(const void *uectx) { struct sgsn_mm_ctx *ctx; llist_for_each_entry(ctx, &sgsn->mm_list, list) { if (ctx->ran_type == MM_CTX_T_UTRAN_Iu && uectx == ctx->iu.ue_ctx) return ctx; } return NULL; } /* look-up an SGSN MM context based on Gb LLME context (struct gprs_llc_llme)*/ struct sgsn_mm_ctx *sgsn_mm_ctx_by_llme(const struct gprs_llc_llme *llme) { struct sgsn_mm_ctx *ctx; llist_for_each_entry (ctx, &sgsn->mm_list, list) { if (ctx->ran_type == MM_CTX_T_GERAN_Gb && llme == ctx->gb.llme) return ctx; } return NULL; } /* look-up a SGSN MM context based on TLLI + RAI */ struct sgsn_mm_ctx *sgsn_mm_ctx_by_tlli(uint32_t tlli, const struct osmo_routing_area_id *raid) { struct sgsn_mm_ctx *ctx; llist_for_each_entry(ctx, &sgsn->mm_list, list) { if ((tlli == ctx->gb.tlli || tlli == ctx->gb.tlli_new) && !osmo_rai_cmp(raid, &ctx->ra)) return ctx; } return NULL; } struct sgsn_mm_ctx *sgsn_mm_ctx_by_tlli_and_ptmsi(uint32_t tlli, const struct osmo_routing_area_id *raid) { struct sgsn_mm_ctx *ctx; int tlli_type; /* TODO: Also check the P_TMSI signature to be safe. That signature * should be different (at least with a sufficiently high probability) * after SGSN restarts and for multiple SGSN instances. */ tlli_type = gprs_tlli_type(tlli); if (tlli_type != TLLI_FOREIGN && tlli_type != TLLI_LOCAL) return NULL; llist_for_each_entry(ctx, &sgsn->mm_list, list) { if ((gprs_tmsi2tlli(ctx->p_tmsi, tlli_type) == tlli || gprs_tmsi2tlli(ctx->p_tmsi_old, tlli_type) == tlli) && !osmo_rai_cmp(raid, &ctx->ra)) return ctx; } return NULL; } struct sgsn_mm_ctx *sgsn_mm_ctx_by_ptmsi(uint32_t p_tmsi) { struct sgsn_mm_ctx *ctx; llist_for_each_entry(ctx, &sgsn->mm_list, list) { if (p_tmsi == ctx->p_tmsi || (ctx->p_tmsi_old && ctx->p_tmsi_old == p_tmsi)) return ctx; } return NULL; } struct sgsn_mm_ctx *sgsn_mm_ctx_by_imsi(const char *imsi) { struct sgsn_mm_ctx *ctx; llist_for_each_entry(ctx, &sgsn->mm_list, list) { if (!strcmp(imsi, ctx->imsi)) return ctx; } return NULL; } /* Allocate a new SGSN MM context, generic part */ struct sgsn_mm_ctx *sgsn_mm_ctx_alloc(uint32_t rate_ctr_id) { struct sgsn_mm_ctx *ctx; ctx = talloc_zero(tall_sgsn_ctx, struct sgsn_mm_ctx); if (!ctx) return NULL; ctx->auth_triplet.key_seq = GSM_KEY_SEQ_INVAL; ctx->ctrg = rate_ctr_group_alloc(ctx, &mmctx_ctrg_desc, rate_ctr_id); if (!ctx->ctrg) { LOGMMCTXP(LOGL_ERROR, ctx, "Cannot allocate counter group\n"); talloc_free(ctx); return NULL; } ctx->gmm_fsm = osmo_fsm_inst_alloc(&gmm_fsm, ctx, ctx, LOGL_DEBUG, "gmm_fsm"); if (!ctx->gmm_fsm) goto out; ctx->gmm_att_req.fsm = osmo_fsm_inst_alloc(&gmm_attach_req_fsm, ctx, ctx, LOGL_DEBUG, "gb_gmm_req"); if (!ctx->gmm_att_req.fsm) goto out; ctx->gb.mm_state_fsm = osmo_fsm_inst_alloc(&mm_state_gb_fsm, ctx, ctx, LOGL_DEBUG, NULL); if (!ctx->gb.mm_state_fsm) goto out; #ifdef BUILD_IU ctx->iu.mm_state_fsm = osmo_fsm_inst_alloc(&mm_state_iu_fsm, ctx, ctx, LOGL_DEBUG, NULL); if (!ctx->iu.mm_state_fsm) goto out; #endif INIT_LLIST_HEAD(&ctx->pdp_list); llist_add(&ctx->list, &sgsn->mm_list); return ctx; out: if (ctx->iu.mm_state_fsm) osmo_fsm_inst_free(ctx->iu.mm_state_fsm); if (ctx->gb.mm_state_fsm) osmo_fsm_inst_free(ctx->gb.mm_state_fsm); if (ctx->gmm_att_req.fsm) osmo_fsm_inst_free(ctx->gmm_att_req.fsm); if (ctx->gmm_fsm) osmo_fsm_inst_free(ctx->gmm_fsm); rate_ctr_group_free(ctx->ctrg); talloc_free(ctx); return NULL; } /* Allocate a new SGSN MM context for GERAN_Gb */ struct sgsn_mm_ctx *sgsn_mm_ctx_alloc_gb(uint32_t tlli, const struct osmo_routing_area_id *raid) { struct sgsn_mm_ctx *ctx; ctx = sgsn_mm_ctx_alloc(tlli); if (!ctx) return NULL; memcpy(&ctx->ra, raid, sizeof(ctx->ra)); ctx->ran_type = MM_CTX_T_GERAN_Gb; ctx->gb.tlli = tlli; osmo_fsm_inst_update_id_f(ctx->gb.mm_state_fsm, "%" PRIu32, tlli); return ctx; } /* Allocate a new SGSN MM context for UTRAN_Iu */ struct sgsn_mm_ctx *sgsn_mm_ctx_alloc_iu(void *uectx) { #if BUILD_IU struct sgsn_mm_ctx *ctx; struct ranap_ue_conn_ctx *ue_ctx = uectx; ctx = sgsn_mm_ctx_alloc(ue_ctx->conn_id); if (!ctx) return NULL; /* Need to get RAID from IU conn */ gprs_rai_to_osmo(&ctx->ra, &ue_ctx->ra_id); ctx->ran_type = MM_CTX_T_UTRAN_Iu; ctx->iu.ue_ctx = ue_ctx; ctx->iu.ue_ctx->rab_assign_addr_enc = sgsn->cfg.iu.rab_assign_addr_enc; ctx->iu.new_key = 1; osmo_fsm_inst_update_id_f(ctx->iu.mm_state_fsm, "%" PRIu32, ue_ctx->conn_id); return ctx; #else return NULL; #endif } /* this is a hard _free_ function, it doesn't clean up the PDP contexts * in libgtp! */ static void sgsn_mm_ctx_free(struct sgsn_mm_ctx *mm) { struct sgsn_pdp_ctx *pdp, *pdp2; /* Unlink from global list of MM contexts */ llist_del(&mm->list); /* Free all PDP contexts */ llist_for_each_entry_safe(pdp, pdp2, &mm->pdp_list, list) sgsn_pdp_ctx_free(pdp); rate_ctr_group_free(mm->ctrg); talloc_free(mm); } void sgsn_mm_ctx_cleanup_free(struct sgsn_mm_ctx *mm) { struct gprs_llc_llme *llme = NULL; struct sgsn_pdp_ctx *pdp, *pdp2; struct sgsn_signal_data sig_data; if (mm->ran_type == MM_CTX_T_GERAN_Gb) llme = mm->gb.llme; else OSMO_ASSERT(mm->gb.llme == NULL); /* Forget about ongoing look-ups */ if (mm->ggsn_lookup) { LOGMMCTXP(LOGL_NOTICE, mm, "Cleaning mmctx with on-going query.\n"); mm->ggsn_lookup->mmctx = NULL; mm->ggsn_lookup = NULL; } /* delete all existing PDP contexts for this MS */ llist_for_each_entry_safe(pdp, pdp2, &mm->pdp_list, list) { LOGMMCTXP(LOGL_NOTICE, mm, "Dropping PDP context for NSAPI=%u\n", pdp->nsapi); sgsn_pdp_ctx_terminate(pdp); } if (osmo_timer_pending(&mm->timer)) { LOGMMCTXP(LOGL_INFO, mm, "Cancelling MM timer %u\n", mm->T); osmo_timer_del(&mm->timer); } memset(&sig_data, 0, sizeof(sig_data)); sig_data.mm = mm; osmo_signal_dispatch(SS_SGSN, S_SGSN_MM_FREE, &sig_data); /* Detach from subscriber which is possibly freed then */ if (mm->subscr) { struct gprs_subscr *subscr = gprs_subscr_get(mm->subscr); gprs_subscr_cleanup(subscr); gprs_subscr_put(subscr); } if (mm->gmm_att_req.fsm) gmm_att_req_free(mm); if (mm->gb.mm_state_fsm) osmo_fsm_inst_free(mm->gb.mm_state_fsm); if (mm->iu.mm_state_fsm) osmo_fsm_inst_free(mm->iu.mm_state_fsm); if (mm->gmm_fsm) osmo_fsm_inst_free(mm->gmm_fsm); sgsn_mm_ctx_free(mm); mm = NULL; if (llme) { /* TLLI unassignment, must be called after sgsn_mm_ctx_free */ if (gprs_llgmm_unassign(llme) < 0) LOGMMCTXP(LOGL_ERROR, mm, "gprs_llgmm_unassign failed, llme not freed!\n"); } } /* look up PDP context by MM context and NSAPI */ struct sgsn_pdp_ctx *sgsn_pdp_ctx_by_nsapi(const struct sgsn_mm_ctx *mm, uint8_t nsapi) { struct sgsn_pdp_ctx *pdp; llist_for_each_entry(pdp, &mm->pdp_list, list) { if (pdp->nsapi == nsapi) return pdp; } return NULL; } /* look up PDP context by MM context and transaction ID */ struct sgsn_pdp_ctx *sgsn_pdp_ctx_by_tid(const struct sgsn_mm_ctx *mm, uint8_t tid) { struct sgsn_pdp_ctx *pdp; llist_for_each_entry(pdp, &mm->pdp_list, list) { if (pdp->ti == tid) return pdp; } return NULL; } uint32_t sgsn_alloc_ptmsi(void) { struct sgsn_mm_ctx *mm; uint32_t ptmsi = 0xdeadbeef; int max_retries = 100, rc = 0; restart: rc = osmo_get_rand_id((uint8_t *) &ptmsi, sizeof(ptmsi)); if (rc < 0) goto failed; /* Enforce that the 2 MSB are set without loosing the distance between * identical values. Since rand() has no duplicate values within a * period (because the size of the state is the same like the size of * the random value), this leads to a distance of period/4 when the * distribution of the 2 MSB is uniform. This approach fails with a * probability of (3/4)^max_retries, only 1% of the approaches will * need more than 16 numbers (even distribution assumed). * * Alternatively, a freeze list could be used if another PRNG is used * or when this approach proves to be not sufficient. */ if (ptmsi >= GSM23003_TMSI_SGSN_MASK) { if (!max_retries--) goto failed; goto restart; } ptmsi |= GSM23003_TMSI_SGSN_MASK; if (ptmsi == GSM_RESERVED_TMSI) { if (!max_retries--) goto failed; goto restart; } llist_for_each_entry(mm, &sgsn->mm_list, list) { if (mm->p_tmsi == ptmsi) { if (!max_retries--) goto failed; goto restart; } } return ptmsi; failed: LOGP(DGPRS, LOGL_ERROR, "Failed to allocate a P-TMSI: %d (%s)\n", rc, strerror(-rc)); return GSM_RESERVED_TMSI; } void sgsn_update_subscriber_data(struct sgsn_mm_ctx *mmctx) { OSMO_ASSERT(mmctx != NULL); LOGMMCTXP(LOGL_INFO, mmctx, "Subscriber data update\n"); sgsn_auth_update(mmctx); } static void insert_extra(struct tlv_parsed *tp, struct sgsn_subscriber_data *data, struct sgsn_subscriber_pdp_data *pdp) { tp->lv[OSMO_IE_GSM_SUB_QOS].len = pdp->qos_subscribed_len; tp->lv[OSMO_IE_GSM_SUB_QOS].val = pdp->qos_subscribed; /* Prefer PDP charging characteristics of per subscriber one */ if (pdp->has_pdp_charg) { tp->lv[OSMO_IE_GSM_CHARG_CHAR].len = sizeof(pdp->pdp_charg); tp->lv[OSMO_IE_GSM_CHARG_CHAR].val = &pdp->pdp_charg[0]; } else if (data->has_pdp_charg) { tp->lv[OSMO_IE_GSM_CHARG_CHAR].len = sizeof(data->pdp_charg); tp->lv[OSMO_IE_GSM_CHARG_CHAR].val = &data->pdp_charg[0]; } } /** * The tlv_parsed tp parameter will be modified to insert a * OSMO_IE_GSM_SUB_QOS in case the data is available in the * PDP context handling. */ struct sgsn_ggsn_ctx *sgsn_mm_ctx_find_ggsn_ctx(struct sgsn_mm_ctx *mmctx, struct tlv_parsed *tp, enum gsm48_gsm_cause *gsm_cause, char *out_apn_str) { char req_apn_str[GSM_APN_LENGTH] = {0}; const struct apn_ctx *apn_ctx = NULL; const char *selected_apn_str = NULL; struct sgsn_subscriber_pdp_data *pdp; struct sgsn_ggsn_ctx *ggsn = NULL; int allow_any_apn = 0; out_apn_str[0] = '\0'; if (TLVP_PRESENT(tp, GSM48_IE_GSM_APN)) { if (TLVP_LEN(tp, GSM48_IE_GSM_APN) >= GSM_APN_LENGTH - 1) { LOGMMCTXP(LOGL_ERROR, mmctx, "APN IE too long\n"); *gsm_cause = GSM_CAUSE_INV_MAND_INFO; return NULL; } osmo_apn_to_str(req_apn_str, TLVP_VAL(tp, GSM48_IE_GSM_APN), TLVP_LEN(tp, GSM48_IE_GSM_APN)); if (strcmp(req_apn_str, "*") == 0) req_apn_str[0] = 0; } if (mmctx->subscr == NULL) allow_any_apn = 1; if (strlen(req_apn_str) == 0 && !allow_any_apn) { /* No specific APN requested, check for an APN that is both * granted and configured */ llist_for_each_entry(pdp, &mmctx->subscr->sgsn_data->pdp_list, list) { if (strcmp(pdp->apn_str, "*") == 0) { allow_any_apn = 1; selected_apn_str = ""; insert_extra(tp, mmctx->subscr->sgsn_data, pdp); continue; } if (!llist_empty(&sgsn->apn_list)) { apn_ctx = sgsn_apn_ctx_match(req_apn_str, mmctx->imsi); /* Not configured */ if (apn_ctx == NULL) continue; } insert_extra(tp, mmctx->subscr->sgsn_data, pdp); selected_apn_str = pdp->apn_str; break; } } else if (!allow_any_apn) { /* Check whether the given APN is granted */ llist_for_each_entry(pdp, &mmctx->subscr->sgsn_data->pdp_list, list) { if (strcmp(pdp->apn_str, "*") == 0) { insert_extra(tp, mmctx->subscr->sgsn_data, pdp); selected_apn_str = req_apn_str; allow_any_apn = 1; continue; } if (strcasecmp(pdp->apn_str, req_apn_str) == 0) { insert_extra(tp, mmctx->subscr->sgsn_data, pdp); selected_apn_str = req_apn_str; break; } } } else if (strlen(req_apn_str) != 0) { /* Any APN is allowed */ selected_apn_str = req_apn_str; } else { /* Prefer the GGSN associated with the wildcard APN */ selected_apn_str = ""; } if (!allow_any_apn && selected_apn_str == NULL) { /* Access not granted */ LOGMMCTXP(LOGL_NOTICE, mmctx, "The requested APN '%s' is not allowed\n", req_apn_str); *gsm_cause = GSM_CAUSE_REQ_SERV_OPT_NOTSUB; return NULL; } /* copy the selected apn_str */ if (selected_apn_str) strcpy(out_apn_str, selected_apn_str); else out_apn_str[0] = '\0'; if (apn_ctx == NULL && selected_apn_str) apn_ctx = sgsn_apn_ctx_match(selected_apn_str, mmctx->imsi); if (apn_ctx != NULL) { ggsn = apn_ctx->ggsn; } else if (llist_empty(&sgsn->apn_list)) { /* No configuration -> use GGSN 0 */ ggsn = sgsn_ggsn_ctx_by_id(sgsn, 0); } else if (allow_any_apn && (selected_apn_str == NULL || strlen(selected_apn_str) == 0)) { /* No APN given and no default configuration -> Use GGSN 0 */ ggsn = sgsn_ggsn_ctx_by_id(sgsn, 0); } else { /* No matching configuration found */ LOGMMCTXP(LOGL_NOTICE, mmctx, "The selected APN '%s' has not been configured\n", selected_apn_str); *gsm_cause = GSM_CAUSE_MISSING_APN; return NULL; } if (!ggsn) { LOGMMCTXP(LOGL_NOTICE, mmctx, "No static GGSN configured. Selected APN '%s'\n", selected_apn_str); *gsm_cause = GSM_CAUSE_MISSING_APN; return NULL; } LOGMMCTXP(LOGL_INFO, mmctx, "Found GGSN %d for APN '%s' (requested '%s')\n", ggsn->id, selected_apn_str ? selected_apn_str : "---", req_apn_str); return ggsn; } /* determine if the MS/UE supports R99 or later */ bool sgsn_mm_ctx_is_r99(const struct sgsn_mm_ctx *mm) { if (mm->ms_network_capa.len < 1) return false; if (mm->ms_network_capa.buf[0] & 0x01) return true; return false; } #if BUILD_IU /* Send RAB activation requests for all PDP contexts */ void sgsn_mm_ctx_iu_activate_rabs(struct sgsn_mm_ctx *ctx) { struct sgsn_pdp_ctx *pdp; OSMO_ASSERT(ctx->ran_type == MM_CTX_T_UTRAN_Iu); llist_for_each_entry(pdp, &ctx->pdp_list, list) sgsn_pdp_ctx_iu_rab_activate(pdp, pdp->nsapi); } /* send a Iu Release Command and free afterwards the UE context */ void sgsn_mm_ctx_iu_ranap_release_free(struct sgsn_mm_ctx *mmctx, const struct RANAP_Cause *cause) { unsigned long X1001; if (!mmctx) return; if (!mmctx->iu.ue_ctx) return; X1001 = osmo_tdef_get(sgsn->cfg.T_defs, -1001, OSMO_TDEF_S, -1); sgsn_ranap_iu_tx_release_free(mmctx->iu.ue_ctx, cause, (int) X1001); mmctx->iu.ue_ctx = NULL; } /* free the Iu UE context */ void sgsn_mm_ctx_iu_ranap_free(struct sgsn_mm_ctx *mmctx) { if (!mmctx) return; if (!mmctx->iu.ue_ctx) return; sgsn_ranap_iu_free_ue(mmctx->iu.ue_ctx); mmctx->iu.ue_ctx = NULL; } #endif