/* Osmocom Visitor Location Register (VLR) code base */ /* (C) 2016 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "vlr_core.h" #include "vlr_auth_fsm.h" #include "vlr_lu_fsm.h" #include "vlr_access_req_fsm.h" #include "vlr_sgs_fsm.h" #define SGSN_SUBSCR_MAX_RETRIES 3 #define SGSN_SUBSCR_RETRY_INTERVAL 10 enum vlr_stat_item_idx { VLR_STAT_SUBSCRIBER_COUNT, VLR_STAT_PDP_COUNT, }; static const struct osmo_stat_item_desc vlr_stat_item_desc[] = { [VLR_STAT_SUBSCRIBER_COUNT] = { "subscribers", "Number of subscribers present in VLR" }, [VLR_STAT_PDP_COUNT] = { "pdp", "Number of PDP records present in VLR" }, }; static const struct osmo_stat_item_group_desc vlr_statg_desc = { "vlr", "visitor location register", OSMO_STATS_CLASS_GLOBAL, ARRAY_SIZE(vlr_stat_item_desc), vlr_stat_item_desc, }; enum vlr_rate_ctr_idx { VLR_CTR_GSUP_RX_UNKNOWN_IMSI, VLR_CTR_GSUP_RX_PURGE_NO_SUBSCR, VLR_CTR_GSUP_RX_TUPLES, VLR_CTR_GSUP_RX_UL_RES, VLR_CTR_GSUP_RX_UL_ERR, VLR_CTR_GSUP_RX_SAI_RES, VLR_CTR_GSUP_RX_SAI_ERR, VLR_CTR_GSUP_RX_ISD_REQ, VLR_CTR_GSUP_RX_CANCEL_REQ, VLR_CTR_GSUP_RX_CHECK_IMEI_RES, VLR_CTR_GSUP_RX_CHECK_IMEI_ERR, VLR_CTR_GSUP_RX_PURGE_MS_RES, VLR_CTR_GSUP_RX_PURGE_MS_ERR, VLR_CTR_GSUP_RX_DELETE_DATA_REQ, VLR_CTR_GSUP_RX_UNKNOWN, VLR_CTR_GSUP_TX_UL_REQ, VLR_CTR_GSUP_TX_ISD_RES, VLR_CTR_GSUP_TX_SAI_REQ, VLR_CTR_GSUP_TX_PURGE_MS_REQ, VLR_CTR_GSUP_TX_CHECK_IMEI_REQ, VLR_CTR_GSUP_TX_AUTH_FAIL_REP, VLR_CTR_GSUP_TX_CANCEL_RES, VLR_CTR_DETACH_BY_REQ, VLR_CTR_DETACH_BY_CANCEL, VLR_CTR_DETACH_BY_T3212, }; static const struct rate_ctr_desc vlr_ctr_desc[] = { [VLR_CTR_GSUP_RX_UNKNOWN_IMSI] = { "gsup:rx:unknown_imsi", "Received GSUP messages for unknown IMSI" }, [VLR_CTR_GSUP_RX_PURGE_NO_SUBSCR] = { "gsup:rx:purge_no_subscr", "Received GSUP purge for unknown subscriber" }, [VLR_CTR_GSUP_RX_TUPLES] = { "gsup:rx:auth_tuples", "Received GSUP authentication tuples" }, [VLR_CTR_GSUP_RX_UL_RES] = { "gsup:rx:upd_loc:res", "Received GSUP Update Location Result messages" }, [VLR_CTR_GSUP_RX_UL_ERR] = { "gsup:rx:upd_loc:err", "Received GSUP Update Location Error messages" }, [VLR_CTR_GSUP_RX_SAI_RES] = { "gsup:rx:send_auth_info:res", "Received GSUP Send Auth Info Result messages" }, [VLR_CTR_GSUP_RX_SAI_ERR] = { "gsup:rx:send_auth_info:err", "Received GSUP Send Auth Info Error messages" }, [VLR_CTR_GSUP_RX_ISD_REQ] = { "gsup:rx:ins_sub_data:req", "Received GSUP Insert Subscriber Data Request messages" }, [VLR_CTR_GSUP_RX_CANCEL_REQ] = { "gsup:rx:cancel:req", "Received GSUP Cancel Subscriber messages" }, [VLR_CTR_GSUP_RX_CHECK_IMEI_RES] = { "gsup:rx:check_imei:res", "Received GSUP Check IMEI Result messages" }, [VLR_CTR_GSUP_RX_CHECK_IMEI_ERR] = { "gsup:rx:check_imei:err", "Received GSUP Check IMEI Error messages" }, [VLR_CTR_GSUP_RX_PURGE_MS_RES] = { "gsup:rx:purge_ms:res", "Received GSUP Purge MS Result messages" }, [VLR_CTR_GSUP_RX_PURGE_MS_ERR] = { "gsup:rx:purge_ms:err", "Received GSUP Purge MS Error messages" }, [VLR_CTR_GSUP_RX_DELETE_DATA_REQ] = { "gsup:rx:del_sub_data:req", "Received GSUP Delete Subscriber Data Request messages" }, [VLR_CTR_GSUP_RX_UNKNOWN] = { "gsup:rx:unknown_msgtype", "Received GSUP message of unknown type" }, [VLR_CTR_GSUP_TX_UL_REQ] = { "gsup:tx:upd_loc:req", "Transmitted GSUP Update Location Request messages" }, [VLR_CTR_GSUP_TX_ISD_RES] = { "gsup:tx:ins_sub_data:res", "Transmitted GSUP Insert Subscriber Data Result messages" }, [VLR_CTR_GSUP_TX_SAI_REQ] = { "gsup:tx:send_auth_info:res", "Transmitted GSUP Send Auth Info Request messages" }, [VLR_CTR_GSUP_TX_PURGE_MS_REQ] = { "gsup:tx:purge_ms:req", "Transmitted GSUP Purge MS Request messages" }, [VLR_CTR_GSUP_TX_CHECK_IMEI_REQ] = { "gsup:tx:check_imei:req", "Transmitted GSUP Check IMEI Request messages" }, [VLR_CTR_GSUP_TX_AUTH_FAIL_REP] = { "gsup:tx:auth_fail:rep", "Transmitted GSUP Auth Fail Report messages" }, [VLR_CTR_GSUP_TX_CANCEL_RES] = { "gsup:tx:cancel:res", "Transmitted GSUP Cancel Result messages" }, [VLR_CTR_DETACH_BY_REQ] = { "detach:imsi_det_req", "VLR Subscriber Detach by IMSI DETACH REQ" }, [VLR_CTR_DETACH_BY_CANCEL] = { "detach:gsup_cancel_req", "VLR Subscriber Detach by GSUP CANCEL REQ" }, [VLR_CTR_DETACH_BY_T3212] = { "detach:t3212_timeout", "VLR Subscriber Detach by T3212 timeout" }, }; static const struct rate_ctr_group_desc vlr_ctrg_desc = { "vlr", "visitor location register", OSMO_STATS_CLASS_GLOBAL, ARRAY_SIZE(vlr_ctr_desc), vlr_ctr_desc, }; #define vlr_rate_ctr_inc(vlr, idx) \ rate_ctr_inc(rate_ctr_group_get_ctr((vlr)->ctrg, idx)) #define vlr_rate_ctr_add(vlr, idx, val) \ rate_ctr_add(rate_ctr_group_get_ctr((vlr)->ctrg, idx), val) #define vlr_stat_item_inc(vlr, idx) \ osmo_stat_item_inc(osmo_stat_item_group_get_item((vlr)->statg, idx), 1) #define vlr_stat_item_dec(vlr, idx) \ osmo_stat_item_dec(osmo_stat_item_group_get_item((vlr)->statg, idx), 1) #define vlr_stat_item_set(vlr, idx, val) \ osmo_stat_item_set(osmo_stat_item_group_get_item((vlr)->statg, idx), val) /*********************************************************************** * Convenience functions ***********************************************************************/ static int vlr_subscr_detach(struct vlr_subscr *vsub); const struct value_string vlr_ciph_names[] = { OSMO_VALUE_STRING(VLR_CIPH_NONE), OSMO_VALUE_STRING(VLR_CIPH_A5_1), OSMO_VALUE_STRING(VLR_CIPH_A5_2), OSMO_VALUE_STRING(VLR_CIPH_A5_3), { 0, NULL } }; /* 3GPP TS 24.008, table 11.2 Mobility management timers (network-side) */ struct osmo_tdef msc_tdefs_vlr[] = { { .T = 3212, .default_val = 60, .unit = OSMO_TDEF_M, .desc = "Subscriber expiration timeout" }, { .T = 3250, .default_val = 12, .desc = "TMSI Reallocation procedure" }, { .T = 3260, .default_val = 12, .desc = "Authentication procedure" }, { .T = 3270, .default_val = 12, .desc = "Identification procedure" }, { /* terminator */ } }; /* This is just a wrapper around the osmo_tdef API. * TODO: we should start using osmo_tdef_fsm_inst_state_chg() */ unsigned long vlr_timer_secs(struct vlr_instance *vlr, int timer) { /* NOTE: since we usually do not need more than one instance of the VLR, * and since libosmocore's osmo_tdef API does not (yet) support dynamic * configuration, we always use the global instance of msc_tdefs_vlr. */ return osmo_tdef_get(msc_tdefs_vlr, timer, OSMO_TDEF_S, 0); } /* return static buffer with printable name of VLR subscriber */ const char *vlr_subscr_name(const struct vlr_subscr *vsub) { static char buf[128]; struct osmo_strbuf sb = { .buf = buf, .len = sizeof(buf) }; bool present = false; if (!vsub) return "unknown"; if (vsub->imsi[0]) { OSMO_STRBUF_PRINTF(sb, "IMSI-%s", vsub->imsi); present = true; } if (vsub->msisdn[0]) { OSMO_STRBUF_PRINTF(sb, "%sMSISDN-%s", present? ":" : "", vsub->msisdn); present = true; } if (vsub->tmsi != GSM_RESERVED_TMSI) { OSMO_STRBUF_PRINTF(sb, "%sTMSI-0x%08X", present? ":" : "", vsub->tmsi); present = true; } if (vsub->tmsi_new != GSM_RESERVED_TMSI) { OSMO_STRBUF_PRINTF(sb, "%sTMSInew-0x%08X", present? ":" : "", vsub->tmsi_new); present = true; } if (!present) return "unknown"; return buf; } const char *vlr_subscr_short_name(const struct vlr_subscr *vsub, unsigned int maxlen) { /* cast away the const so we can shorten the string within the static buffer */ char *name = (char*)vlr_subscr_name(vsub); size_t len = strlen(name); if (maxlen < 2) return "-"; if (len > maxlen) strcpy(name + maxlen - 2, ".."); return name; } const char *vlr_subscr_msisdn_or_name(const struct vlr_subscr *vsub) { if (!vsub || !vsub->msisdn[0]) return vlr_subscr_name(vsub); return vsub->msisdn; } struct vlr_subscr *_vlr_subscr_find_by_imsi(struct vlr_instance *vlr, const char *imsi, const char *use, const char *file, int line) { struct vlr_subscr *vsub; if (!imsi || !*imsi) return NULL; llist_for_each_entry(vsub, &vlr->subscribers, list) { if (vlr_subscr_matches_imsi(vsub, imsi)) { if (use) vlr_subscr_get_src(vsub, use, file, line); return vsub; } } return NULL; } struct vlr_subscr *_vlr_subscr_find_by_tmsi(struct vlr_instance *vlr, uint32_t tmsi, const char *use, const char *file, int line) { struct vlr_subscr *vsub; if (tmsi == GSM_RESERVED_TMSI) return NULL; llist_for_each_entry(vsub, &vlr->subscribers, list) { if (vlr_subscr_matches_tmsi(vsub, tmsi)) { vlr_subscr_get_src(vsub, use, file, line); return vsub; } } return NULL; } struct vlr_subscr *_vlr_subscr_find_by_msisdn(struct vlr_instance *vlr, const char *msisdn, const char *use, const char *file, int line) { struct vlr_subscr *vsub; if (!msisdn || !*msisdn) return NULL; llist_for_each_entry(vsub, &vlr->subscribers, list) { if (vlr_subscr_matches_msisdn(vsub, msisdn)) { vlr_subscr_get_src(vsub, use, file, line); return vsub; } } return NULL; } struct vlr_subscr *_vlr_subscr_find_by_mi(struct vlr_instance *vlr, const struct osmo_mobile_identity *mi, const char *use, const char *file, int line) { switch (mi->type) { case GSM_MI_TYPE_IMSI: return _vlr_subscr_find_by_imsi(vlr, mi->imsi, use, file, line); case GSM_MI_TYPE_TMSI: return _vlr_subscr_find_by_tmsi(vlr, mi->tmsi, use, file, line); default: return NULL; } } /* Transmit GSUP message for subscriber to HLR, using IMSI from subscriber */ static int vlr_subscr_tx_gsup_message(const struct vlr_subscr *vsub, struct osmo_gsup_message *gsup_msg) { struct vlr_instance *vlr = vsub->vlr; if (strlen(gsup_msg->imsi) == 0) OSMO_STRLCPY_ARRAY(gsup_msg->imsi, vsub->imsi); gsup_msg->message_class = OSMO_GSUP_MESSAGE_CLASS_SUBSCRIBER_MANAGEMENT; return gsup_client_mux_tx(vlr->gcm, gsup_msg); } static int vlr_subscr_use_cb(struct osmo_use_count_entry *e, int32_t old_use_count, const char *file, int line) { struct vlr_subscr *vsub = e->use_count->talloc_object; char buf[128]; int32_t total; int level; if (!e->use) return -EINVAL; total = osmo_use_count_total(&vsub->use_count); if (total == 0 || (total == 1 && old_use_count == 0 && e->count == 1)) level = LOGL_INFO; else level = LOGL_DEBUG; LOGPSRC(g_vlr_log_cat[OSMO_VLR_LOGC_VLR], level, file, line, "VLR subscr %s %s %s: now used by %s\n", vlr_subscr_name(vsub), (e->count - old_use_count) > 0? "+" : "-", e->use, osmo_use_count_name_buf(buf, sizeof(buf), e->use_count)); if (e->count < 0) return -ERANGE; vsub->max_total_use_count = OSMO_MAX(vsub->max_total_use_count, total); if (total <= 0) vlr_subscr_free(vsub); return 0; } /* Allocate a new subscriber and insert it into list */ static struct vlr_subscr *_vlr_subscr_alloc(struct vlr_instance *vlr) { struct vlr_subscr *vsub; int i; vsub = talloc_zero(vlr, struct vlr_subscr); *vsub = (struct vlr_subscr){ .vlr = vlr, .tmsi = GSM_RESERVED_TMSI, .tmsi_new = GSM_RESERVED_TMSI, .use_count = (struct osmo_use_count){ .talloc_object = vsub, .use_cb = vlr_subscr_use_cb, }, .expire_lu = VLR_SUBSCRIBER_NO_EXPIRATION, }; osmo_use_count_make_static_entries(&vsub->use_count, vsub->use_count_buf, ARRAY_SIZE(vsub->use_count_buf)); for (i = 0; i < ARRAY_SIZE(vsub->auth_tuples); i++) vsub->auth_tuples[i].key_seq = VLR_KEY_SEQ_INVAL; INIT_LLIST_HEAD(&vsub->cs.requests); INIT_LLIST_HEAD(&vsub->ps.pdp_list); /* Create an SGs FSM, which is needed to control CSFB, * in cases where CSFB/SGs is not in use, this FSM will * just do nothing. (see also: sgs_iface.c) */ vlr_sgs_fsm_create(vsub); llist_add_tail(&vsub->list, &vlr->subscribers); vlr_stat_item_inc(vlr, VLR_STAT_SUBSCRIBER_COUNT); return vsub; } /* Send a GSUP Purge MS request. * TODO: this should be sent to the *previous* VLR when this VLR is "taking" * this subscriber, not to the HLR? */ int vlr_subscr_purge(struct vlr_subscr *vsub) { struct osmo_gsup_message gsup_msg = {0}; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_PURGE_MS_REQ); gsup_msg.message_type = OSMO_GSUP_MSGT_PURGE_MS_REQUEST; /* provide HLR number in case we know it */ gsup_msg.hlr_enc_len = vsub->hlr.len; gsup_msg.hlr_enc = vsub->hlr.buf; gsup_msg.cn_domain = vlr_is_cs(vsub->vlr) ? OSMO_GSUP_CN_DOMAIN_CS : OSMO_GSUP_CN_DOMAIN_PS; return vlr_subscr_tx_gsup_message(vsub, &gsup_msg); } void vlr_subscr_cancel_attach_fsm(struct vlr_subscr *vsub, enum osmo_fsm_term_cause fsm_cause, enum gsm48_reject_value gsm48_cause) { if (!vsub) return; vlr_subscr_get(vsub, __func__); if (vsub->lu_fsm) vlr_loc_update_cancel(vsub->lu_fsm, fsm_cause, gsm48_cause); if (vsub->proc_arq_fsm) vlr_parq_cancel(vsub->proc_arq_fsm, fsm_cause, gsm48_cause); vlr_subscr_put(vsub, __func__); } /* Call vlr_subscr_cancel(), then completely drop the entry from the VLR */ void vlr_subscr_free(struct vlr_subscr *vsub) { llist_del(&vsub->list); vlr_stat_item_dec(vsub->vlr, VLR_STAT_SUBSCRIBER_COUNT); LOGVSUBP(LOGL_DEBUG, vsub, "freeing VLR subscr (max total use count was %d)\n", vsub->max_total_use_count); /* Make sure SGs timer Ts5 is removed */ osmo_timer_del(&vsub->sgs.Ts5); /* Remove SGs FSM (see also: sgs_iface.c) */ vlr_sgs_fsm_remove(vsub); talloc_free(vsub); } /* Generate a new TMSI and store in vsub->tmsi_new. * Search all known subscribers to ensure that the TMSI is unique. */ int vlr_subscr_alloc_tmsi(struct vlr_subscr *vsub) { struct vlr_instance *vlr = vsub->vlr; uint32_t tmsi; int tried, rc; struct vlr_subscr *other_vsub; for (tried = 0; tried < 100; tried++) { rc = osmo_get_rand_id((uint8_t *) &tmsi, sizeof(tmsi)); if (rc < 0) { LOGVLR(LOGL_ERROR, "osmo_get_rand_id() failed: %s\n", strerror(-rc)); return rc; } if (!llist_empty(&vlr->cfg.nri_ranges->entries)) { int16_t nri_v; osmo_tmsi_nri_v_limit_by_ranges(&tmsi, vlr->cfg.nri_ranges, vlr->cfg.nri_bitlen); osmo_tmsi_nri_v_get(&nri_v, tmsi, vlr->cfg.nri_bitlen); LOGVLR(LOGL_DEBUG, "New NRI from range [%s] = 0x%x --> TMSI 0x%08x\n", osmo_nri_ranges_to_str_c(OTC_SELECT, vlr->cfg.nri_ranges), nri_v, tmsi); } /* throw the dice again, if the TSMI doesn't fit */ if (tmsi == GSM_RESERVED_TMSI) continue; /* Section 2.4 of 23.003: MSC has two MSB 00/01/10, SGSN 11 */ if (vlr->cfg.is_ps) { /* SGSN */ tmsi |= GSM23003_TMSI_SGSN_MASK; } else { /* MSC */ if ((tmsi & GSM23003_TMSI_SGSN_MASK) == GSM23003_TMSI_SGSN_MASK) tmsi &= ~GSM23003_TMSI_SGSN_MASK; } /* If this TMSI is already in use, try another one. */ if ((other_vsub = vlr_subscr_find_by_tmsi(vlr, tmsi, __func__))) { vlr_subscr_put(other_vsub, __func__); continue; } vsub->tmsi_new = tmsi; vsub->vlr->ops.subscr_update(vsub); return 0; } LOGVSUBP(LOGL_ERROR, vsub, "Unable to generate valid TMSI" " after %d tries\n", tried); return -1; } /* Find subscriber by IMSI, or create new subscriber if not found. * \param[in] vlr VLR instance. * \param[in] imsi IMSI string. * \param[out] created if non-NULL, returns whether a new entry was created. */ struct vlr_subscr *_vlr_subscr_find_or_create_by_imsi(struct vlr_instance *vlr, const char *imsi, const char *use, bool *created, const char *file, int line) { struct vlr_subscr *vsub; vsub = _vlr_subscr_find_by_imsi(vlr, imsi, use, file, line); if (vsub) { if (created) *created = false; return vsub; } vsub = _vlr_subscr_alloc(vlr); if (!vsub) return NULL; vlr_subscr_get_src(vsub, use, file, line); vlr_subscr_set_imsi(vsub, imsi); LOGVLR(LOGL_INFO, "New subscr, IMSI: %s\n", vsub->imsi); if (created) *created = true; return vsub; } /* Find subscriber by TMSI, or create new subscriber if not found. * \param[in] vlr VLR instance. * \param[in] tmsi TMSI. * \param[out] created if non-NULL, returns whether a new entry was created. */ struct vlr_subscr *_vlr_subscr_find_or_create_by_tmsi(struct vlr_instance *vlr, uint32_t tmsi, const char *use, bool *created, const char *file, int line) { struct vlr_subscr *vsub; vsub = _vlr_subscr_find_by_tmsi(vlr, tmsi, use, file, line); if (vsub) { if (created) *created = false; return vsub; } vsub = _vlr_subscr_alloc(vlr); if (!vsub) return NULL; vlr_subscr_get_src(vsub, use, file, line); vsub->tmsi = tmsi; LOGVLR(LOGL_INFO, "New subscr, TMSI: 0x%08x\n", vsub->tmsi); if (created) *created = true; return vsub; } static void dedup_vsub(struct vlr_subscr *exists, struct vlr_subscr *vsub) { struct vlr_instance *vlr = exists->vlr; int i; int j; LOGVSUBP(LOGL_NOTICE, vsub, "There is an existing subscriber for IMSI %s used by %s, replacing with this VLR subscr, used by %s\n", exists->imsi, osmo_use_count_to_str_c(OTC_SELECT, &exists->use_count), osmo_use_count_to_str_c(OTC_SELECT, &vsub->use_count)); /* Take over some state from the previous vsub */ paging_request_join_vsub(vsub, exists); if (!vsub->msisdn[0]) OSMO_STRLCPY_ARRAY(vsub->msisdn, exists->msisdn); if (!vsub->name[0]) OSMO_STRLCPY_ARRAY(vsub->name, exists->name); /* Copy valid auth tuples we may already have, to reduce the need to ask for new ones from the HLR */ for (i = 0; i < ARRAY_SIZE(exists->auth_tuples); i++) { if (exists->auth_tuples[i].key_seq == VLR_KEY_SEQ_INVAL) continue; for (j = 0; j < ARRAY_SIZE(vsub->auth_tuples); j++) { if (vsub->auth_tuples[j].key_seq != VLR_KEY_SEQ_INVAL) continue; vsub->auth_tuples[j] = exists->auth_tuples[i]; } } if (exists->msc_conn_ref) LOGVSUBP(LOGL_ERROR, vsub, "There is an existing VLR entry for this same subscriber with an active connection." " That should not be possible. Discarding old subscriber entry %s.\n", exists->imsi); if (vlr->ops.subscr_inval) vlr->ops.subscr_inval(exists->msc_conn_ref, exists); vlr_subscr_free(exists); } void vlr_subscr_set_imsi(struct vlr_subscr *vsub, const char *imsi) { struct vlr_subscr *exists; if (!vsub) return; /* If the same IMSI is already set, nothing changes. */ if (!strcmp(vsub->imsi, imsi)) return; /* We've just learned about this new IMSI, our primary key in the VLR. make sure to invalidate any prior VLR * entries for this IMSI. */ exists = vlr_subscr_find_by_imsi(vsub->vlr, imsi, NULL); if (exists) dedup_vsub(exists, vsub); /* Set the IMSI on the new subscriber, here. */ if (OSMO_STRLCPY_ARRAY(vsub->imsi, imsi) >= sizeof(vsub->imsi)) { LOGVLR(LOGL_NOTICE, "IMSI was truncated: full IMSI=%s, truncated IMSI=%s\n", imsi, vsub->imsi); /* XXX Set truncated IMSI anyway, we currently cannot return an error from here. */ } vsub->id = atoll(vsub->imsi); LOGVLR(LOGL_DEBUG, "set IMSI on subscriber; IMSI=%s id=%llu\n", vsub->imsi, vsub->id); } void vlr_subscr_set_imei(struct vlr_subscr *vsub, const char *imei) { if (!vsub) return; OSMO_STRLCPY_ARRAY(vsub->imei, imei); LOGVLR(LOGL_DEBUG, "set IMEI on subscriber; IMSI=%s IMEI=%s\n", vsub->imsi, vsub->imei); } void vlr_subscr_set_imeisv(struct vlr_subscr *vsub, const char *imeisv) { if (!vsub) return; OSMO_STRLCPY_ARRAY(vsub->imeisv, imeisv); LOGVLR(LOGL_DEBUG, "set IMEISV on subscriber; IMSI=%s IMEISV=%s\n", vsub->imsi, vsub->imeisv); /* Copy IMEISV to IMEI (additional SV digits get cut off) */ vlr_subscr_set_imei(vsub, imeisv); } /* Safely copy the given MSISDN string to vsub->msisdn */ void vlr_subscr_set_msisdn(struct vlr_subscr *vsub, const char *msisdn) { if (!vsub) return; OSMO_STRLCPY_ARRAY(vsub->msisdn, msisdn); LOGVLR(LOGL_DEBUG, "set MSISDN on subscriber; IMSI=%s MSISDN=%s\n", vsub->imsi, vsub->msisdn); } void vlr_subscr_set_last_used_eutran_plmn_id(struct vlr_subscr *vsub, const struct osmo_plmn_id *last_eutran_plmn) { if (!vsub) return; if (last_eutran_plmn) { vsub->sgs.last_eutran_plmn_present = true; memcpy(&vsub->sgs.last_eutran_plmn, last_eutran_plmn, sizeof(*last_eutran_plmn)); } else { vsub->sgs.last_eutran_plmn_present = false; } LOGVLR(LOGL_DEBUG, "set Last E-UTRAN PLMN ID on subscriber: %s\n", vsub->sgs.last_eutran_plmn_present ? osmo_plmn_name(&vsub->sgs.last_eutran_plmn) : "(none)"); } bool vlr_subscr_matches_imsi(struct vlr_subscr *vsub, const char *imsi) { return vsub && imsi && vsub->imsi[0] && !strcmp(vsub->imsi, imsi); } bool vlr_subscr_matches_tmsi(struct vlr_subscr *vsub, uint32_t tmsi) { return vsub && tmsi != GSM_RESERVED_TMSI && (vsub->tmsi == tmsi || vsub->tmsi_new == tmsi); } bool vlr_subscr_matches_msisdn(struct vlr_subscr *vsub, const char *msisdn) { return vsub && msisdn && vsub->msisdn[0] && !strcmp(vsub->msisdn, msisdn); } bool vlr_subscr_matches_imei(struct vlr_subscr *vsub, const char *imei) { return vsub && imei && vsub->imei[0] && !strcmp(vsub->imei, imei); } /* Send updated subscriber information to HLR */ int vlr_subscr_changed(struct vlr_subscr *vsub) { /* FIXME */ LOGVLR(LOGL_ERROR, "Not implemented: %s\n", __func__); return 0; } void vlr_subscr_enable_expire_lu(struct vlr_subscr *vsub) { struct timespec now; /* Mark the subscriber as inactive if it stopped to do periodical location updates. */ if (osmo_clock_gettime(CLOCK_MONOTONIC, &now) == 0) { vsub->expire_lu = now.tv_sec + vlr_timer_secs(vsub->vlr, 3212); } else { LOGVSUBP(LOGL_ERROR, vsub, "Could not enable Location Update expiry: unable to read current time\n"); /* Disable LU expiry for this subscriber. This subscriber will only be freed after an explicit IMSI detach. */ vsub->expire_lu = VLR_SUBSCRIBER_NO_EXPIRATION; } } void vlr_subscr_expire_lu(void *data) { struct vlr_instance *vlr = data; struct vlr_subscr *vsub, *vsub_tmp; struct timespec now; /* Periodic location update might be disabled from the VTY, * so we shall not expire subscribers until explicit IMSI Detach. */ if (!vlr_timer_secs(vlr, 3212)) goto done; if (llist_empty(&vlr->subscribers)) goto done; if (osmo_clock_gettime(CLOCK_MONOTONIC, &now) != 0) { LOGVLR(LOGL_ERROR, "Skipping Location Update expiry: Could not read current time\n"); goto done; } llist_for_each_entry_safe(vsub, vsub_tmp, &vlr->subscribers, list) { if (vsub->expire_lu == VLR_SUBSCRIBER_NO_EXPIRATION || vsub->expire_lu > now.tv_sec) continue; LOGVLR(LOGL_DEBUG, "%s: Location Update expired\n", vlr_subscr_name(vsub)); vlr_rate_ctr_inc(vlr, VLR_CTR_DETACH_BY_T3212); vlr_subscr_detach(vsub); } done: osmo_timer_schedule(&vlr->lu_expire_timer, VLR_SUBSCRIBER_LU_EXPIRATION_INTERVAL, 0); } /*********************************************************************** * PDP context data ***********************************************************************/ #define GSM_APN_LENGTH 102 /* see GSM 09.02, 17.7.1, PDP-Context and GPRSSubscriptionData */ /* see GSM 09.02, B.1, gprsSubscriptionData */ struct sgsn_subscriber_pdp_data { struct llist_head list; unsigned int context_id; enum gsm48_pdp_type_org pdp_type_org; enum gsm48_pdp_type_nr pdp_type_nr; struct osmo_sockaddr pdp_address[2]; char apn_str[GSM_APN_LENGTH]; uint8_t qos_subscribed[20]; size_t qos_subscribed_len; }; struct sgsn_subscriber_pdp_data * vlr_subscr_pdp_data_alloc(struct vlr_subscr *vsub) { struct sgsn_subscriber_pdp_data* pdata; pdata = talloc_zero(vsub, struct sgsn_subscriber_pdp_data); llist_add_tail(&pdata->list, &vsub->ps.pdp_list); vlr_stat_item_inc(vsub->vlr, VLR_STAT_PDP_COUNT); return pdata; } static int vlr_subscr_pdp_data_clear(struct vlr_subscr *vsub) { struct sgsn_subscriber_pdp_data *pdp, *pdp2; int count = 0; llist_for_each_entry_safe(pdp, pdp2, &vsub->ps.pdp_list, list) { llist_del(&pdp->list); vlr_stat_item_dec(vsub->vlr, VLR_STAT_PDP_COUNT); talloc_free(pdp); count += 1; } return count; } static struct sgsn_subscriber_pdp_data * vlr_subscr_pdp_data_get_by_id(struct vlr_subscr *vsub, unsigned context_id) { struct sgsn_subscriber_pdp_data *pdp; llist_for_each_entry(pdp, &vsub->ps.pdp_list, list) { if (pdp->context_id == context_id) return pdp; } return NULL; } /*********************************************************************** * Actual Implementation ***********************************************************************/ static int vlr_rx_gsup_unknown_imsi(struct vlr_instance *vlr, const struct osmo_gsup_message *gsup_msg) { if (OSMO_GSUP_IS_MSGT_REQUEST(gsup_msg->message_type)) { LOGVLR(LOGL_NOTICE, "Unknown IMSI %s, discarding GSUP request " "of type 0x%02x\n", gsup_msg->imsi, gsup_msg->message_type); gsup_client_mux_tx_error_reply(vlr->gcm, gsup_msg, GMM_CAUSE_IMSI_UNKNOWN); } else if (OSMO_GSUP_IS_MSGT_ERROR(gsup_msg->message_type)) { LOGVLR(LOGL_NOTICE, "Unknown IMSI %s, discarding GSUP error " "of type 0x%02x, cause '%s' (%d)\n", gsup_msg->imsi, gsup_msg->message_type, get_value_string(gsm48_gmm_cause_names, gsup_msg->cause), gsup_msg->cause); } else { LOGVLR(LOGL_NOTICE, "Unknown IMSI %s, discarding GSUP response " "of type 0x%02x\n", gsup_msg->imsi, gsup_msg->message_type); } return -GMM_CAUSE_IMSI_UNKNOWN; } static int vlr_rx_gsup_purge_no_subscr(struct vlr_instance *vlr, const struct osmo_gsup_message *gsup_msg) { if (OSMO_GSUP_IS_MSGT_ERROR(gsup_msg->message_type)) { LOGGSUPP(LOGL_NOTICE, gsup_msg, "Purge MS has failed with cause '%s' (%d)\n", get_value_string(gsm48_gmm_cause_names, gsup_msg->cause), gsup_msg->cause); return -gsup_msg->cause; } LOGGSUPP(LOGL_INFO, gsup_msg, "Completing purge MS\n"); return 0; } /* VLR internal call to request UpdateLocation from HLR */ int vlr_subscr_req_lu(struct vlr_subscr *vsub) { struct osmo_gsup_message gsup_msg = {0}; int rc; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_UL_REQ); gsup_msg.message_type = OSMO_GSUP_MSGT_UPDATE_LOCATION_REQUEST; gsup_msg.cn_domain = vlr_is_cs(vsub->vlr) ? OSMO_GSUP_CN_DOMAIN_CS : OSMO_GSUP_CN_DOMAIN_PS; rc = vlr_subscr_tx_gsup_message(vsub, &gsup_msg); return rc; } /* VLR internal call to request tuples from HLR */ int vlr_subscr_req_sai(struct vlr_subscr *vsub, const uint8_t *auts, const uint8_t *auts_rand) { struct osmo_gsup_message gsup_msg = {0}; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_SAI_REQ); gsup_msg.message_type = OSMO_GSUP_MSGT_SEND_AUTH_INFO_REQUEST; gsup_msg.auts = auts; gsup_msg.rand = auts_rand; gsup_msg.cn_domain = vlr_is_cs(vsub->vlr) ? OSMO_GSUP_CN_DOMAIN_CS : OSMO_GSUP_CN_DOMAIN_PS; return vlr_subscr_tx_gsup_message(vsub, &gsup_msg); } /* Initiate Check_IMEI_VLR Procedure (23.018 Chapter 7.1.2.9) */ int vlr_subscr_tx_req_check_imei(const struct vlr_subscr *vsub) { struct osmo_gsup_message gsup_msg = { .message_class = OSMO_GSUP_MESSAGE_CLASS_SUBSCRIBER_MANAGEMENT, .message_type = OSMO_GSUP_MSGT_CHECK_IMEI_REQUEST, }; uint8_t imei_enc[GSM23003_IMEI_NUM_DIGITS+2]; /* +2: IE header */ int len; /* Encode IMEI */ len = gsm48_encode_bcd_number(imei_enc, sizeof(imei_enc), 0, vsub->imei); if (len < 1) { LOGVSUBP(LOGL_ERROR, vsub, "Error: cannot encode IMEI '%s'\n", vsub->imei); return -ENOSPC; } gsup_msg.imei_enc = imei_enc; gsup_msg.imei_enc_len = len; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_CHECK_IMEI_REQ); /* Send CHECK_IMEI_REQUEST */ OSMO_STRLCPY_ARRAY(gsup_msg.imsi, vsub->imsi); return gsup_client_mux_tx(vsub->vlr->gcm, &gsup_msg); } /* Tell HLR that authentication failure occurred */ int vlr_subscr_tx_auth_fail_rep(const struct vlr_subscr *vsub) { struct osmo_gsup_message gsup_msg = { .message_class = OSMO_GSUP_MESSAGE_CLASS_SUBSCRIBER_MANAGEMENT, .message_type = OSMO_GSUP_MSGT_AUTH_FAIL_REPORT, .cn_domain = vlr_is_cs(vsub->vlr) ? OSMO_GSUP_CN_DOMAIN_CS : OSMO_GSUP_CN_DOMAIN_PS, }; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_AUTH_FAIL_REP); OSMO_STRLCPY_ARRAY(gsup_msg.imsi, vsub->imsi); return gsup_client_mux_tx(vsub->vlr->gcm, &gsup_msg); } /* Update the subscriber with GSUP-received auth tuples */ void vlr_subscr_update_tuples(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { unsigned int i; unsigned int got_tuples; if (gsup->num_auth_vectors) { memset(&vsub->auth_tuples, 0, sizeof(vsub->auth_tuples)); for (i = 0; i < ARRAY_SIZE(vsub->auth_tuples); i++) vsub->auth_tuples[i].key_seq = VLR_KEY_SEQ_INVAL; } got_tuples = 0; for (i = 0; i < gsup->num_auth_vectors; i++) { size_t key_seq = i; if (key_seq >= ARRAY_SIZE(vsub->auth_tuples)) { LOGVSUBP(LOGL_NOTICE, vsub, "Skipping auth tuple with invalid cksn %zu\n", key_seq); continue; } vsub->auth_tuples[i].vec = gsup->auth_vectors[i]; vsub->auth_tuples[i].key_seq = key_seq; got_tuples++; } LOGVSUBP(LOGL_DEBUG, vsub, "Received %u auth tuples\n", got_tuples); vlr_rate_ctr_add(vsub->vlr, VLR_CTR_GSUP_RX_TUPLES, got_tuples); if (!got_tuples) { /* FIXME what now? */ // vlr_subscr_cancel(vsub, GMM_CAUSE_GSM_AUTH_UNACCEPT); ? } /* New tuples means last_tuple becomes invalid */ vsub->last_tuple = NULL; } /* Handle SendAuthInfo Result/Error from HLR */ static int vlr_subscr_handle_sai_res(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { struct osmo_fsm_inst *auth_fi = vsub->auth_fsm; void *data = (void *) gsup; if (!auth_fi) { LOGVSUBP(LOGL_ERROR, vsub, "Received GSUP %s, but there is no auth_fsm\n", osmo_gsup_message_type_name(gsup->message_type)); return -1; } switch (gsup->message_type) { case OSMO_GSUP_MSGT_SEND_AUTH_INFO_RESULT: osmo_fsm_inst_dispatch(auth_fi, VLR_AUTH_E_HLR_SAI_ACK, data); break; case OSMO_GSUP_MSGT_SEND_AUTH_INFO_ERROR: osmo_fsm_inst_dispatch(auth_fi, VLR_AUTH_E_HLR_SAI_NACK, data); break; default: return -1; } return 0; } static void vlr_subscr_gsup_insert_data(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup_msg) { unsigned idx; int rc; if (gsup_msg->msisdn_enc_len) {//FIXME: vlr_subscr_set_msisdn()? gsm48_decode_bcd_number2(vsub->msisdn, sizeof(vsub->msisdn), gsup_msg->msisdn_enc, gsup_msg->msisdn_enc_len, 0); LOGVLR(LOGL_DEBUG, "IMSI:%s has MSISDN:%s\n", vsub->imsi, vsub->msisdn); } if (gsup_msg->hlr_enc) { if (gsup_msg->hlr_enc_len > sizeof(vsub->hlr.buf)) { LOGVLR(LOGL_ERROR, "HLR-Number too long (%zu)\n", gsup_msg->hlr_enc_len); vsub->hlr.len = 0; } else { memcpy(vsub->hlr.buf, gsup_msg->hlr_enc, gsup_msg->hlr_enc_len); vsub->hlr.len = gsup_msg->hlr_enc_len; } } if (gsup_msg->pdp_info_compl) { rc = vlr_subscr_pdp_data_clear(vsub); if (rc > 0) LOGVLR(LOGL_INFO, "Cleared existing PDP info\n"); } for (idx = 0; idx < gsup_msg->num_pdp_infos; idx++) { const struct osmo_gsup_pdp_info *pdp_info = &gsup_msg->pdp_infos[idx]; size_t ctx_id = pdp_info->context_id; struct sgsn_subscriber_pdp_data *pdp_data; if (pdp_info->apn_enc_len >= sizeof(pdp_data->apn_str)-1) { LOGVSUBP(LOGL_ERROR, vsub, "APN too long, context id = %zu, APN = %s\n", ctx_id, osmo_hexdump(pdp_info->apn_enc, pdp_info->apn_enc_len)); continue; } if (pdp_info->qos_enc_len > sizeof(pdp_data->qos_subscribed)) { LOGVSUBP(LOGL_ERROR, vsub, "QoS info too long (%zu)\n", pdp_info->qos_enc_len); continue; } LOGVSUBP(LOGL_INFO, vsub, "Will set PDP info, context id = %zu, APN = %s\n", ctx_id, osmo_hexdump(pdp_info->apn_enc, pdp_info->apn_enc_len)); /* Set PDP info [ctx_id] */ pdp_data = vlr_subscr_pdp_data_get_by_id(vsub, ctx_id); if (!pdp_data) { pdp_data = vlr_subscr_pdp_data_alloc(vsub); pdp_data->context_id = ctx_id; } OSMO_ASSERT(pdp_data != NULL); pdp_data->pdp_type_org = pdp_info->pdp_type_org; pdp_data->pdp_type_nr = pdp_info->pdp_type_nr; memcpy(&pdp_data->pdp_address[0], &pdp_info->pdp_address[0], sizeof(pdp_data->pdp_address[0])); memcpy(&pdp_data->pdp_address[1], &pdp_info->pdp_address[1], sizeof(pdp_data->pdp_address[1])); osmo_apn_to_str(pdp_data->apn_str, pdp_info->apn_enc, pdp_info->apn_enc_len); memcpy(pdp_data->qos_subscribed, pdp_info->qos_enc, pdp_info->qos_enc_len); pdp_data->qos_subscribed_len = pdp_info->qos_enc_len; } } /* Handle InsertSubscrData Result from HLR */ static int vlr_subscr_handle_isd_req(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { struct osmo_gsup_message gsup_reply = {0}; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_ISD_RES); vlr_subscr_gsup_insert_data(vsub, gsup); vsub->vlr->ops.subscr_update(vsub); gsup_reply.message_type = OSMO_GSUP_MSGT_INSERT_DATA_RESULT; return vlr_subscr_tx_gsup_message(vsub, &gsup_reply); } /* Handle UpdateLocation Result from HLR */ static int vlr_subscr_handle_lu_res(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { struct sgs_lu_response sgs_lu_response = {0}; bool sgs_lu_in_progress = false; if (vsub->sgs_fsm->state == SGS_UE_ST_LA_UPD_PRES) sgs_lu_in_progress = true; if (!vsub->lu_fsm && !sgs_lu_in_progress) { LOGVSUBP(LOGL_ERROR, vsub, "Rx GSUP LU Result " "without LU in progress\n"); return -ENODEV; } /* contrary to MAP, we allow piggy-backing subscriber data onto the * UPDATE LOCATION RESULT, and don't mandate the use of a separate * nested INSERT SUBSCRIBER DATA transaction */ vlr_subscr_gsup_insert_data(vsub, gsup); if (sgs_lu_in_progress) { sgs_lu_response.accepted = true; sgs_lu_response.vsub = vsub; vsub->sgs.response_cb(&sgs_lu_response); } else osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_HLR_LU_RES, NULL); return 0; } /* Handle UpdateLocation Result from HLR */ static int vlr_subscr_handle_lu_err(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { struct sgs_lu_response sgs_lu_response = {0}; bool sgs_lu_in_progress = false; if (vsub->sgs_fsm->state == SGS_UE_ST_LA_UPD_PRES) sgs_lu_in_progress = true; if (!vsub->lu_fsm && !sgs_lu_in_progress) { LOGVSUBP(LOGL_ERROR, vsub, "Rx GSUP LU Error " "without LU in progress\n"); return -ENODEV; } LOGVSUBP(LOGL_DEBUG, vsub, "UpdateLocation failed; gmm_cause: %s\n", get_value_string(gsm48_gmm_cause_names, gsup->cause)); if (sgs_lu_in_progress) { sgs_lu_response.accepted = false; sgs_lu_response.vsub = vsub; vsub->sgs.response_cb(&sgs_lu_response); } else osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_HLR_LU_RES, (void *)&gsup->cause); return 0; } enum gsm48_reject_value vlr_gmm_cause_to_reject_cause_domain(enum gsm48_gmm_cause gmm_cause, bool is_cs) { enum gsm48_reject_value reject_cause = vlr_gmm_cause_to_reject_cause(gmm_cause); if (is_cs) return vlr_reject_causes_cs(reject_cause); else return vlr_reject_causes_ps(reject_cause); } enum gsm48_reject_value vlr_gmm_cause_to_reject_cause(enum gsm48_gmm_cause gmm_cause) { switch (gmm_cause) { case GMM_CAUSE_IMSI_UNKNOWN: return GSM48_REJECT_IMSI_UNKNOWN_IN_HLR; case GMM_CAUSE_ILLEGAL_MS: return GSM48_REJECT_ILLEGAL_MS; case GMM_CAUSE_IMEI_NOT_ACCEPTED: return GSM48_REJECT_IMEI_NOT_ACCEPTED; case GMM_CAUSE_ILLEGAL_ME: return GSM48_REJECT_ILLEGAL_ME; case GMM_CAUSE_GPRS_NOTALLOWED: return GSM48_REJECT_GPRS_NOT_ALLOWED; case GMM_CAUSE_GPRS_OTHER_NOTALLOWED: return GSM48_REJECT_SERVICES_NOT_ALLOWED; case GMM_CAUSE_MS_ID_NOT_DERIVED: return GSM48_REJECT_MS_IDENTITY_NOT_DERVIVABLE; case GMM_CAUSE_IMPL_DETACHED: return GSM48_REJECT_IMPLICITLY_DETACHED; case GMM_CAUSE_PLMN_NOTALLOWED: return GSM48_REJECT_PLMN_NOT_ALLOWED; case GMM_CAUSE_LA_NOTALLOWED: return GSM48_REJECT_LOC_NOT_ALLOWED; case GMM_CAUSE_ROAMING_NOTALLOWED: return GSM48_REJECT_ROAMING_NOT_ALLOWED; case GMM_CAUSE_NO_GPRS_PLMN: return GSM48_REJECT_GPRS_NOT_ALLOWED_IN_PLMN; case GMM_CAUSE_MSC_TEMP_NOTREACH: return GSM48_REJECT_MSC_TMP_NOT_REACHABLE; case GMM_CAUSE_SYNC_FAIL: return GSM48_REJECT_SYNCH_FAILURE; case GMM_CAUSE_CONGESTION: return GSM48_REJECT_CONGESTION; case GMM_CAUSE_SEM_INCORR_MSG: return GSM48_REJECT_INCORRECT_MESSAGE; case GMM_CAUSE_INV_MAND_INFO: return GSM48_REJECT_INVALID_MANDANTORY_INF; case GMM_CAUSE_MSGT_NOTEXIST_NOTIMPL: return GSM48_REJECT_MSG_TYPE_NOT_IMPLEMENTED; case GMM_CAUSE_MSGT_INCOMP_P_STATE: return GSM48_REJECT_MSG_TYPE_NOT_COMPATIBLE; case GMM_CAUSE_IE_NOTEXIST_NOTIMPL: return GSM48_REJECT_INF_ELEME_NOT_IMPLEMENTED; case GMM_CAUSE_COND_IE_ERR: return GSM48_REJECT_CONDTIONAL_IE_ERROR; case GMM_CAUSE_MSG_INCOMP_P_STATE: return GSM48_REJECT_MSG_NOT_COMPATIBLE; case GMM_CAUSE_PROTO_ERR_UNSPEC: return GSM48_REJECT_PROTOCOL_ERROR; case GMM_CAUSE_NO_SUIT_CELL_IN_LA: return GSM48_REJECT_NO_SUIT_CELL_IN_LA; case GMM_CAUSE_MAC_FAIL: return GSM48_REJECT_MAC_FAILURE; case GMM_CAUSE_GSM_AUTH_UNACCEPT: return GSM48_REJECT_GSM_AUTH_UNACCEPTABLE; case GMM_CAUSE_NOT_AUTH_FOR_CSG: return GSM48_REJECT_NOT_AUTH_FOR_CSG; case GMM_CAUSE_SMS_VIA_GPRS_IN_RA: return GSM48_REJECT_SMS_PROV_VIA_GPRS_IN_RA; case GMM_CAUSE_NO_PDP_ACTIVATED: return GSM48_REJECT_NO_PDP_CONTEXT_ACTIVATED; case GMM_CAUSE_NET_FAIL: return GSM48_REJECT_NETWORK_FAILURE; default: return GSM48_REJECT_NETWORK_FAILURE; } } enum gsm48_reject_value vlr_reject_causes_ps(enum gsm48_reject_value reject_cause) { switch (reject_cause) { case GSM48_REJECT_CALL_CAN_NOT_BE_IDENTIFIED: return GSM48_REJECT_NETWORK_FAILURE; default: return reject_cause; } } enum gsm48_reject_value vlr_reject_causes_cs(enum gsm48_reject_value reject_cause) { switch (reject_cause) { case GSM48_REJECT_NO_SUIT_CELL_IN_LA: case GSM48_REJECT_MAC_FAILURE: case GSM48_REJECT_GSM_AUTH_UNACCEPTABLE: case GSM48_REJECT_NOT_AUTH_FOR_CSG: case GSM48_REJECT_SMS_PROV_VIA_GPRS_IN_RA: case GSM48_REJECT_NO_PDP_CONTEXT_ACTIVATED: return GSM48_REJECT_NETWORK_FAILURE; default: return reject_cause; } } /* Handle LOCATION CANCEL request from HLR */ static int vlr_subscr_handle_cancel_req(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup_msg) { enum osmo_fsm_term_cause fsm_cause = OSMO_FSM_TERM_ERROR; struct osmo_gsup_message gsup_reply = {0}; int rc, is_update_procedure = !gsup_msg->cancel_type || gsup_msg->cancel_type == OSMO_GSUP_CANCEL_TYPE_UPDATE; vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_GSUP_TX_CANCEL_RES); LOGVSUBP(LOGL_INFO, vsub, "Cancelling MS subscriber (%s)\n", is_update_procedure ? "update procedure" : "subscription withdraw"); gsup_reply.message_type = OSMO_GSUP_MSGT_LOCATION_CANCEL_RESULT; gsup_reply.cn_domain = vlr_is_cs(vsub->vlr) ? OSMO_GSUP_CN_DOMAIN_CS : OSMO_GSUP_CN_DOMAIN_PS; rc = vlr_subscr_tx_gsup_message(vsub, &gsup_reply); vlr_subscr_cancel_attach_fsm(vsub, fsm_cause, vlr_gmm_cause_to_reject_cause_domain(gsup_msg->cause, true)); vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_DETACH_BY_CANCEL); vlr_subscr_detach(vsub); return rc; } /* Handle Check_IMEI_VLR result and error from HLR */ static int vlr_subscr_handle_check_imei(struct vlr_subscr *vsub, const struct osmo_gsup_message *gsup) { if (!vsub->lu_fsm) { LOGVSUBP(LOGL_ERROR, vsub, "Rx %s without LU in progress\n", osmo_gsup_message_type_name(gsup->message_type)); return -ENODEV; } /* Dispatch result to vsub->lu_fsm, which will either handle the result by itself (Check IMEI early) or dispatch * it further to lu_compl_vlr_fsm (Check IMEI after LU). */ if (gsup->message_type == OSMO_GSUP_MSGT_CHECK_IMEI_RESULT) { if (gsup->imei_result == OSMO_GSUP_IMEI_RESULT_ACK) osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_HLR_IMEI_ACK, NULL); else osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_HLR_IMEI_NACK, NULL); } else { LOGVSUBP(LOGL_ERROR, vsub, "Check_IMEI_VLR failed; gmm_cause: %s\n", get_value_string(gsm48_gmm_cause_names, gsup->cause)); osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_HLR_IMEI_NACK, NULL); } return 0; } /* Incoming handler for GSUP from HLR. * Keep this function non-static for direct invocation by unit tests. */ int vlr_gsup_rx(struct gsup_client_mux *gcm, void *data, const struct osmo_gsup_message *gsup) { struct vlr_instance *vlr = data; struct vlr_subscr *vsub; int rc = 0; vsub = vlr_subscr_find_by_imsi(vlr, gsup->imsi, __func__); if (!vsub) { switch (gsup->message_type) { case OSMO_GSUP_MSGT_PURGE_MS_RESULT: case OSMO_GSUP_MSGT_PURGE_MS_ERROR: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_PURGE_NO_SUBSCR); return vlr_rx_gsup_purge_no_subscr(vlr, gsup); default: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_UNKNOWN_IMSI); return vlr_rx_gsup_unknown_imsi(vlr, gsup); } } switch (gsup->message_type) { case OSMO_GSUP_MSGT_SEND_AUTH_INFO_RESULT: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_SAI_RES); rc = vlr_subscr_handle_sai_res(vsub, gsup); break; case OSMO_GSUP_MSGT_SEND_AUTH_INFO_ERROR: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_SAI_ERR); rc = vlr_subscr_handle_sai_res(vsub, gsup); break; case OSMO_GSUP_MSGT_INSERT_DATA_REQUEST: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_ISD_REQ); rc = vlr_subscr_handle_isd_req(vsub, gsup); break; case OSMO_GSUP_MSGT_LOCATION_CANCEL_REQUEST: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_CANCEL_REQ); rc = vlr_subscr_handle_cancel_req(vsub, gsup); break; case OSMO_GSUP_MSGT_UPDATE_LOCATION_RESULT: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_UL_RES); rc = vlr_subscr_handle_lu_res(vsub, gsup); break; case OSMO_GSUP_MSGT_UPDATE_LOCATION_ERROR: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_UL_ERR); rc = vlr_subscr_handle_lu_err(vsub, gsup); break; case OSMO_GSUP_MSGT_PURGE_MS_ERROR: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_PURGE_MS_ERR); goto out_unimpl; case OSMO_GSUP_MSGT_PURGE_MS_RESULT: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_PURGE_MS_RES); goto out_unimpl; case OSMO_GSUP_MSGT_DELETE_DATA_REQUEST: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_DELETE_DATA_REQ); goto out_unimpl; case OSMO_GSUP_MSGT_CHECK_IMEI_ERROR: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_CHECK_IMEI_ERR); rc = vlr_subscr_handle_check_imei(vsub, gsup); break; case OSMO_GSUP_MSGT_CHECK_IMEI_RESULT: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_CHECK_IMEI_RES); rc = vlr_subscr_handle_check_imei(vsub, gsup); break; default: vlr_rate_ctr_inc(vlr, VLR_CTR_GSUP_RX_UNKNOWN); LOGP(DLGSUP, LOGL_ERROR, "GSUP Message type not handled by VLR: %d\n", gsup->message_type); rc = -EINVAL; break; } vlr_subscr_put(vsub, __func__); return rc; out_unimpl: LOGVSUBP(LOGL_ERROR, vsub, "Rx GSUP msg_type=%d not yet implemented\n", gsup->message_type); vlr_subscr_put(vsub, __func__); return -GMM_CAUSE_MSGT_NOTEXIST_NOTIMPL; } /* MSC->VLR: Subscriber has provided IDENTITY RESPONSE */ int vlr_subscr_rx_id_resp(struct vlr_subscr *vsub, const struct osmo_mobile_identity *mi) { /* update the vlr_subscr with the given identity */ switch (mi->type) { case GSM_MI_TYPE_IMSI: if (vsub->imsi[0] && !vlr_subscr_matches_imsi(vsub, mi->imsi)) { LOGVSUBP(LOGL_ERROR, vsub, "IMSI in ID RESP differs:" " %s\n", mi->imsi); /* XXX Should we return an error, e.g. -EINVAL ? */ } else vlr_subscr_set_imsi(vsub, mi->imsi); break; case GSM_MI_TYPE_IMEI: vlr_subscr_set_imei(vsub, mi->imei); break; case GSM_MI_TYPE_IMEISV: vlr_subscr_set_imeisv(vsub, mi->imeisv); break; default: return -EINVAL; } if (vsub->auth_fsm) { switch (mi->type) { case GSM_MI_TYPE_IMSI: return osmo_fsm_inst_dispatch(vsub->auth_fsm, VLR_AUTH_E_MS_ID_IMSI, (void*)mi->imsi); break; } } if (vsub->lu_fsm) { switch (mi->type) { case GSM_MI_TYPE_IMSI: return osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_ID_IMSI, (void*)mi->imsi); case GSM_MI_TYPE_IMEI: return osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_ID_IMEI, (void*)mi->imei); case GSM_MI_TYPE_IMEISV: return osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_ID_IMEISV, (void*)mi->imeisv); default: return -EINVAL; } } return 0; } /* MSC->VLR: Subscriber has provided IDENTITY RESPONSE */ int vlr_subscr_rx_tmsi_reall_compl(struct vlr_subscr *vsub) { if (vsub->lu_fsm) { return osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_NEW_TMSI_ACK, NULL); } else if (vsub->proc_arq_fsm) { return osmo_fsm_inst_dispatch(vsub->proc_arq_fsm, PR_ARQ_E_TMSI_ACK, NULL); } else { LOGVSUBP(LOGL_NOTICE, vsub, "gratuitous TMSI REALLOC COMPL\n"); return -EINVAL; } } bool vlr_subscr_expire(struct vlr_subscr *vsub) { if (vsub->lu_complete) { /* balancing the get from vlr_lu_compl_fsm_success() */ vsub->lu_complete = false; vlr_subscr_put(vsub, VSUB_USE_ATTACHED); return true; } return false; } static int vlr_subscr_detach(struct vlr_subscr *vsub) { /* paranoia: should any LU or PARQ FSMs still be running, stop them. */ vlr_subscr_cancel_attach_fsm(vsub, OSMO_FSM_TERM_ERROR, GSM48_REJECT_CONGESTION); vsub->imsi_detached_flag = true; vsub->expire_lu = VLR_SUBSCRIBER_NO_EXPIRATION; /* Inform the UE-SGs FSM that the subscriber has been detached */ osmo_fsm_inst_dispatch(vsub->sgs_fsm, SGS_UE_E_RX_DETACH_IND_FROM_UE, NULL); vlr_subscr_expire(vsub); return 0; } /* See TS 23.012 version 9.10.0 4.3.2.1 "Process Detach_IMSI_VLR" */ int vlr_subscr_rx_imsi_detach(struct vlr_subscr *vsub) { vlr_rate_ctr_inc(vsub->vlr, VLR_CTR_DETACH_BY_REQ); return vlr_subscr_detach(vsub); } /* Tear down any running FSMs due to MSC connection timeout. * Visit all vsub->*_fsm pointers and give them a queue to send a final reject * message before the entire connection is torn down. * \param[in] vsub subscriber to tear down */ void vlr_ran_conn_timeout(struct vlr_subscr *vsub) { vlr_subscr_cancel_attach_fsm(vsub, OSMO_FSM_TERM_TIMEOUT, GSM48_REJECT_CONGESTION); } struct vlr_instance *vlr_alloc(void *ctx, const struct vlr_ops *ops, bool is_ps) { struct vlr_instance *vlr = talloc_zero(ctx, struct vlr_instance); OSMO_ASSERT(vlr); /* Some of these are needed only on UTRAN, but in case the caller wants * only GERAN, she should just provide dummy callbacks. */ OSMO_ASSERT(ops->tx_auth_req); OSMO_ASSERT(ops->tx_auth_rej); OSMO_ASSERT(ops->tx_id_req); OSMO_ASSERT(ops->tx_lu_acc); OSMO_ASSERT(ops->tx_lu_rej); OSMO_ASSERT(ops->tx_cm_serv_acc); OSMO_ASSERT(ops->tx_cm_serv_rej); OSMO_ASSERT(ops->set_ciph_mode); OSMO_ASSERT(ops->tx_common_id); OSMO_ASSERT(ops->subscr_update); OSMO_ASSERT(ops->subscr_assoc); INIT_LLIST_HEAD(&vlr->subscribers); INIT_LLIST_HEAD(&vlr->operations); memcpy(&vlr->ops, ops, sizeof(vlr->ops)); /* defaults */ vlr->cfg.is_ps = is_ps; vlr->cfg.assign_tmsi = true; vlr->cfg.nri_bitlen = OSMO_NRI_BITLEN_DEFAULT; vlr->cfg.nri_ranges = osmo_nri_ranges_alloc(vlr); vlr->statg = osmo_stat_item_group_alloc(vlr, &vlr_statg_desc, 0); if (!vlr->statg) goto err_free; vlr->ctrg = rate_ctr_group_alloc(vlr, &vlr_ctrg_desc, 0); if (!vlr->ctrg) goto err_statg; /* reset shared timer definitions */ osmo_tdefs_reset(msc_tdefs_vlr); /* osmo_auth_fsm.c */ vlr_auth_fsm_init(); /* osmo_lu_fsm.c */ vlr_lu_fsm_init(); /* vlr_access_request_fsm.c */ vlr_parq_fsm_init(); /* vlr_sgs_fsm.c */ vlr_sgs_fsm_init(); return vlr; err_statg: osmo_stat_item_group_free(vlr->statg); err_free: talloc_free(vlr); return NULL; } int vlr_start(struct vlr_instance *vlr, struct gsup_client_mux *gcm) { OSMO_ASSERT(vlr); vlr->gcm = gcm; gcm->rx_cb[OSMO_GSUP_MESSAGE_CLASS_SUBSCRIBER_MANAGEMENT] = (struct gsup_client_mux_rx_cb){ .func = vlr_gsup_rx, .data = vlr, }; osmo_timer_setup(&vlr->lu_expire_timer, vlr_subscr_expire_lu, vlr); osmo_timer_schedule(&vlr->lu_expire_timer, VLR_SUBSCRIBER_LU_EXPIRATION_INTERVAL, 0); return 0; } /* MSC->VLR: Subscriber has disconnected */ int vlr_subscr_disconnected(struct vlr_subscr *vsub) { /* This corresponds to a MAP-ABORT from MSC->VLR on a classic B * interface */ osmo_fsm_inst_term(vsub->lu_fsm, OSMO_FSM_TERM_REQUEST, NULL); osmo_fsm_inst_term(vsub->auth_fsm, OSMO_FSM_TERM_REQUEST, NULL); vsub->msc_conn_ref = NULL; return 0; } /* MSC->VLR: Receive Authentication Failure from Subscriber */ int vlr_subscr_rx_auth_fail(struct vlr_subscr *vsub, const uint8_t *auts) { struct vlr_auth_resp_par par = {0}; par.auts = auts; osmo_fsm_inst_dispatch(vsub->auth_fsm, VLR_AUTH_E_MS_AUTH_FAIL, &par); return 0; } /* MSC->VLR: Receive Authentication Response from MS * \returns 1 in case of success, 0 in case of delay, -1 on auth error */ int vlr_subscr_rx_auth_resp(struct vlr_subscr *vsub, bool is_r99, bool is_utran, const uint8_t *res, uint8_t res_len) { struct osmo_fsm_inst *auth_fi = vsub->auth_fsm; struct vlr_auth_resp_par par; par.is_r99 = is_r99; par.is_utran = is_utran; par.res = res; par.res_len = res_len; osmo_fsm_inst_dispatch(auth_fi, VLR_AUTH_E_MS_AUTH_RESP, (void *) &par); return 0; } /* MSC->VLR: Receive result of Ciphering Mode Command from MS */ void vlr_subscr_rx_ciph_res(struct vlr_subscr *vsub, enum vlr_ciph_result_cause result) { if (vsub->lu_fsm && vsub->lu_fsm->state == VLR_ULA_S_WAIT_CIPH) osmo_fsm_inst_dispatch(vsub->lu_fsm, VLR_ULA_E_CIPH_RES, &result); if (vsub->proc_arq_fsm && vsub->proc_arq_fsm->state == PR_ARQ_S_WAIT_CIPH) osmo_fsm_inst_dispatch(vsub->proc_arq_fsm, PR_ARQ_E_CIPH_RES, &result); } /* Internal evaluation of requested ciphering mode. * Send set_ciph_mode() to MSC depending on the ciph_mode argument. * \param[in] vlr VLR instance. * \param[in] fi Calling FSM instance, for logging. * \param[in] msc_conn_ref MSC conn to send to. * \param[in] ciph_mode Ciphering config, to decide whether to do ciphering. * \returns 0 if no ciphering is needed or message was sent successfully, * or a negative value if ciph_mode is invalid or sending failed. */ int vlr_set_ciph_mode(struct vlr_instance *vlr, struct osmo_fsm_inst *fi, void *msc_conn_ref, bool umts_aka, bool retrieve_imeisv) { LOGPFSML(fi, LOGL_DEBUG, "Set Ciphering Mode\n"); return vlr->ops.set_ciph_mode(msc_conn_ref, umts_aka, retrieve_imeisv); } /* Decide whether UMTS AKA should be used. * UTRAN networks are by definition R99 capable, and the auth vector is required to contain UMTS AKA * tokens. This is expected to be verified by the caller. On GERAN, UMTS AKA must be used iff MS and * GERAN are R99 capable and UMTS AKA tokens are available. * \param[in] vec Auth tokens (received from the HLR). * \param[in] is_r99 True when BTS and GERAN are R99 capable. * \returns true to use UMTS AKA, false to use pre-R99 GSM AKA. */ bool vlr_use_umts_aka(struct osmo_auth_vector *vec, bool is_r99) { if (!is_r99) return false; if (!(vec->auth_types & OSMO_AUTH_TYPE_UMTS)) return false; return true; } void log_set_filter_vlr_subscr(struct log_target *target, struct vlr_subscr *vlr_subscr) { struct vlr_subscr **fsub = (void*)&target->filter_data[LOG_FLT_VLR_SUBSCR]; const char *use = "logfilter"; /* free the old data */ if (*fsub) { vlr_subscr_put(*fsub, use); *fsub = NULL; } if (vlr_subscr) { target->filter_map |= (1 << LOG_FLT_VLR_SUBSCR); vlr_subscr_get(vlr_subscr, use); *fsub = vlr_subscr; } else target->filter_map &= ~(1 << LOG_FLT_VLR_SUBSCR); } int g_vlr_log_cat[_OSMO_VLR_LOGC_MAX]; void osmo_vlr_set_log_cat(enum osmo_vlr_cat logc, int logc_num) { if (logc < OSMO_VLR_LOGC_VLR || logc >= _OSMO_VLR_LOGC_MAX) return; g_vlr_log_cat[logc] = logc_num; switch (logc) { case OSMO_VLR_LOGC_VLR: vlr_auth_fsm_set_log_subsys(logc_num); vlr_parq_fsm_set_log_subsys(logc_num); vlr_lu_fsm_set_log_subsys(logc_num); break; case OSMO_VLR_LOGC_SGS: vlr_sgs_fsm_set_log_subsys(logc_num); break; default: break; } }