/* Manage all MSC roles of a connected subscriber (MSC-A, MSC-I, MSC-T) */ /* * (C) 2019 by sysmocom - s.f.m.c. GmbH * All Rights Reserved * * SPDX-License-Identifier: AGPL-3.0+ * * Author: Neels Hofmeyr * * 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 const struct value_string msc_role_names[] = { { MSC_ROLE_A, "MSC-A" }, { MSC_ROLE_I, "MSC-I" }, { MSC_ROLE_T, "MSC-T" }, {} }; LLIST_HEAD(msub_list); #define for_each_msub_role(msub, role_idx) \ for ((role_idx) = 0; (role_idx) < ARRAY_SIZE((msub)->role); (role_idx)++) \ if ((msub)->role[role_idx]) enum msub_fsm_state { MSUB_ST_ACTIVE, MSUB_ST_TERMINATING, }; enum msub_fsm_event { MSUB_EV_ROLE_TERMINATED, }; static void msub_check_for_release(struct osmo_fsm_inst *fi) { struct msub *msub = fi->priv; struct msc_role_common *msc_role_a_c = NULL; enum msc_role role_idx; int role_present[MSC_ROLES_COUNT] = {}; struct osmo_fsm_inst *child; /* See what child FSMs are still present. A caller might exchange roles by first allocating a new one as child * of this FSM, and then exchanging the msub->role[] pointer. Even though the currently active role is removing * itself from msub, we can still see whether another one is pending as a child of this msub. */ llist_for_each_entry(child, &fi->proc.children, proc.child) { struct msc_role_common *c = child->priv; role_present[c->role]++; if (c->role == MSC_ROLE_A) msc_role_a_c = c; } /* Log. */ for (role_idx = 0; role_idx < ARRAY_SIZE(role_present); role_idx++) { if (!role_present[role_idx]) continue; LOG_MSUB(msub, LOGL_DEBUG, "%d %s still active\n", role_present[role_idx], msc_role_name(role_idx)); } /* To remain valid, there must be both an MSC-A role and one of MSC-I or MSC-T; * except, SGs connections need no MSC-I or MSC-T. */ if (role_present[MSC_ROLE_A] && (role_present[MSC_ROLE_I] || role_present[MSC_ROLE_T] || (msc_role_a_c && msc_role_a_c->ran->type == OSMO_RAT_EUTRAN_SGS))) return; /* The subscriber has become invalid. Go to terminating state to clearly signal that this msub is definitely * going now. */ osmo_fsm_inst_state_chg(fi, MSUB_ST_TERMINATING, 0, 0); } void msub_fsm_active(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct msub *msub = fi->priv; struct osmo_fsm_inst *role_fi; switch (event) { case MSUB_EV_ROLE_TERMINATED: role_fi = data; /* Role implementations are required to pass their own osmo_fsm_inst pointer to osmo_fsm_inst_term(). */ msub_remove_role(msub, role_fi); msub_check_for_release(fi); return; default: return; } } void msub_fsm_terminating_onenter(struct osmo_fsm_inst *fi, uint32_t prev_state) { osmo_fsm_inst_term(fi, OSMO_FSM_TERM_REGULAR, NULL); } void msub_fsm_cleanup(struct osmo_fsm_inst *fi, enum osmo_fsm_term_cause cause) { struct msub *msub = fi->priv; LOG_MSUB(msub, LOGL_DEBUG, "Free\n"); msub_set_vsub(msub, NULL); llist_del(&msub->entry); } #define S(x) (1 << (x)) static const struct osmo_fsm_state msub_fsm_states[] = { [MSUB_ST_ACTIVE] = { .name = "active", .in_event_mask = S(MSUB_EV_ROLE_TERMINATED), .out_state_mask = S(MSUB_ST_TERMINATING), .action = msub_fsm_active, }, [MSUB_ST_TERMINATING] = { .name = "terminating", .onenter = msub_fsm_terminating_onenter, }, }; static const struct value_string msub_fsm_event_names[] = { OSMO_VALUE_STRING(MSUB_EV_ROLE_TERMINATED), {} }; struct osmo_fsm msub_fsm = { .name = "msub_fsm", .states = msub_fsm_states, .num_states = ARRAY_SIZE(msub_fsm_states), .log_subsys = DMSC, .event_names = msub_fsm_event_names, .cleanup = msub_fsm_cleanup, }; static __attribute__((constructor)) void msub_fsm_init() { OSMO_ASSERT(osmo_fsm_register(&msub_fsm) == 0); } struct msc_role_common *_msub_role_alloc(struct msub *msub, enum msc_role role, struct osmo_fsm *role_fsm, size_t struct_size, const char *struct_name, struct ran_infra *ran) { struct osmo_fsm_inst *fi; struct msc_role_common *c; fi = osmo_fsm_inst_alloc_child(role_fsm, msub->fi, MSUB_EV_ROLE_TERMINATED); OSMO_ASSERT(fi); c = (struct msc_role_common*)talloc_named_const(fi, struct_size, struct_name); OSMO_ASSERT(c); memset(c, 0, struct_size); fi->priv = c; *c = (struct msc_role_common){ .role = role, .fi = fi, .ran = ran, }; msub_set_role(msub, fi); return c; } struct msub *msub_alloc(struct gsm_network *net) { struct msub *msub; struct osmo_fsm_inst *msub_fi = osmo_fsm_inst_alloc(&msub_fsm, net, NULL, LOGL_DEBUG, NULL); OSMO_ASSERT(msub_fi); msub = talloc(msub_fi, struct msub); OSMO_ASSERT(msub); msub_fi->priv = msub; *msub = (struct msub){ .net = net, .fi = msub_fi, }; llist_add_tail(&msub->entry, &msub_list); return msub; } /* Careful: the subscriber may not yet be authenticated, or may already be in release. Better use * msc_a_for_vsub(for_vsub, true) to make sure you don't use an invalid conn. */ struct msub *msub_for_vsub(const struct vlr_subscr *for_vsub) { struct msub *msub; if (!for_vsub) return NULL; llist_for_each_entry(msub, &msub_list, entry) { if (msub->vsub == for_vsub) return msub; } return NULL; } const char *msub_name(const struct msub *msub) { return vlr_subscr_name(msub? msub->vsub : NULL); } void msub_set_role(struct msub *msub, struct osmo_fsm_inst *msc_role) { struct osmo_fsm_inst *prev_role; struct msc_role_common *c; OSMO_ASSERT(msc_role); c = msc_role->priv; prev_role = msub->role[c->role]; if (prev_role) LOGPFSML(prev_role, LOGL_DEBUG, "Replaced by another %s\n", msc_role_name(c->role)); c->msub = msub; msub->role[c->role] = msc_role; msub_update_id(msub); if (prev_role) { struct msc_role_common *prev_c = prev_role->priv; switch (prev_c->role) { case MSC_ROLE_I: msc_i_clear(prev_role->priv); break; case MSC_ROLE_T: msc_t_clear(prev_role->priv); break; default: osmo_fsm_inst_term(prev_role, OSMO_FSM_TERM_REQUEST, prev_role); break; } } } void msub_remove_role(struct msub *msub, struct osmo_fsm_inst *fi) { enum msc_role idx; struct msc_role_common *c; if (!msub || !fi) return; c = fi->priv; LOG_MSUB(msub, LOGL_DEBUG, "%s terminated\n", msc_role_name(c->role)); for_each_msub_role(msub, idx) { if (msub->role[idx] == fi) msub->role[idx] = NULL; } } struct msc_a *msub_msc_a(const struct msub *msub) { struct osmo_fsm_inst *fi; if (!msub) return NULL; fi = msub->role[MSC_ROLE_A]; if (!fi) return NULL; return (struct msc_a*)fi->priv; } struct msc_i *msub_msc_i(const struct msub *msub) { struct osmo_fsm_inst *fi; if (!msub) return NULL; fi = msub->role[MSC_ROLE_I]; if (!fi) return NULL; return (struct msc_i*)fi->priv; } struct msc_t *msub_msc_t(const struct msub *msub) { struct osmo_fsm_inst *fi; if (!msub) return NULL; fi = msub->role[MSC_ROLE_T]; if (!fi) return NULL; return (struct msc_t*)fi->priv; } /* Return the ran_conn of the MSC-I role, if available. If the MSC-I role is handled by a remote MSC, return NULL. */ struct ran_conn *msub_ran_conn(const struct msub *msub) { struct msc_i *msc_i = msub_msc_i(msub); if (!msc_i) return NULL; return msc_i->ran_conn; } static struct ran_infra *msub_ran(const struct msub *msub) { int i; struct msc_role_common *c; for (i = 0; i < MSC_ROLES_COUNT; i++) { if (!msub->role[i]) continue; c = msub->role[i]->priv; if (!c->ran) continue; return c->ran; } return &msc_ran_infra[OSMO_RAT_UNKNOWN]; } const char *msub_ran_conn_name(const struct msub *msub) { struct msc_i *msc_i = msub_msc_i(msub); struct msc_t *msc_t = msub_msc_t(msub); if (msc_i && msc_i->c.remote_to) return e_link_name(msc_i->c.remote_to); if (msc_i && msc_i->ran_conn) return ran_conn_name(msc_i->ran_conn); if (msc_t && msc_t->c.remote_to) return e_link_name(msc_t->c.remote_to); if (msc_t && msc_t->ran_conn) return ran_conn_name(msc_t->ran_conn); return osmo_rat_type_name(msub_ran(msub)->type); } int msub_set_vsub(struct msub *msub, struct vlr_subscr *vsub) { OSMO_ASSERT(msub); if (msub->vsub == vsub) return 0; if (msub->vsub && vsub) { LOG_MSUB(msub, LOGL_ERROR, "Changing a connection's VLR Subscriber is not allowed: not changing to %s\n", vlr_subscr_name(vsub)); return -ENOTSUP; } if (vsub) { struct msub *other_msub = msub_for_vsub(vsub); if (other_msub) { struct msc_a *msc_a = msub_msc_a(msub); struct msc_a *other_msc_a = msub_msc_a(other_msub); LOG_MSC_A(msc_a, LOGL_ERROR, "Cannot associate with VLR subscr, another connection is already active%s%s\n", other_msc_a ? " at " : "", other_msc_a ? other_msc_a->c.fi->id : ""); LOG_MSC_A(other_msc_a, LOGL_ERROR, "Attempt to associate a second subscriber connection%s%s\n", msc_a ? " at " : "", msc_a ? msc_a->c.fi->id : ""); if (other_msc_a && msc_a_in_release(other_msc_a)) { LOG_MSC_A(other_msc_a, LOGL_ERROR, "Another connection for this subscriber is coming up, since this" " is already in release, forcefully discarding it\n"); osmo_fsm_inst_term(other_msc_a->c.fi, OSMO_FSM_TERM_ERROR, other_msc_a->c.fi); /* Count this as "recovered from duplicate connection" error and do associate. */ } else return -EINVAL; } } if (msub->vsub) { vlr_subscr_put(msub->vsub, VSUB_USE_MSUB); msub->vsub = NULL; } if (vsub) { vlr_subscr_get(vsub, VSUB_USE_MSUB); msub->vsub = vsub; vsub->cs.attached_via_ran = msub_ran(msub)->type; msub_update_id(msub); } return 0; } struct vlr_subscr *msub_vsub(const struct msub *msub) { return msub ? msub->vsub : NULL; } struct gsm_network *msub_net(const struct msub *msub) { OSMO_ASSERT(msub->net); return msub->net; } int msub_role_to_role_event(struct msub *msub, enum msc_role from_role, enum msc_role to_role) { switch (from_role) { case MSC_ROLE_A: switch (to_role) { case MSC_ROLE_I: return MSC_I_EV_FROM_A_FORWARD_ACCESS_SIGNALLING_REQUEST; case MSC_ROLE_T: return MSC_T_EV_FROM_A_FORWARD_ACCESS_SIGNALLING_REQUEST; default: break; } break; case MSC_ROLE_I: switch (to_role) { case MSC_ROLE_A: return MSC_A_EV_FROM_I_PROCESS_ACCESS_SIGNALLING_REQUEST; default: break; } break; case MSC_ROLE_T: switch (to_role) { case MSC_ROLE_A: return MSC_A_EV_FROM_T_PROCESS_ACCESS_SIGNALLING_REQUEST; default: break; } break; default: break; } LOG_MSUB(msub, LOGL_ERROR, "Cannot tx DTAP from %s to %s\n", msc_role_name(from_role), msc_role_name(to_role)); return -1; } /* The caller retains ownership of the an_apdu_msg -- don't forget to msgb_free() it. */ int _msub_role_dispatch(struct msub *msub, enum msc_role to_role, uint32_t to_role_event, const struct an_apdu *an_apdu, const char *file, int line) { struct osmo_fsm_inst *to_fi = msub->role[to_role]; if (!to_fi) { LOG_MSUB_CAT_SRC(msub, DMSC, LOGL_ERROR, file, line, "Cannot tx event to %s, no such role defined\n", msc_role_name(to_role)); return -EINVAL; } return _osmo_fsm_inst_dispatch(to_fi, to_role_event, (void*)an_apdu, file, line); } /* The caller retains ownership of the an_apdu_msg -- don't forget to msgb_free() it. */ int msub_tx_an_apdu(struct msub *msub, enum msc_role from_role, enum msc_role to_role, struct an_apdu *an_apdu) { int event = msub_role_to_role_event(msub, from_role, to_role); if (event < 0) return event; return msub_role_dispatch(msub, to_role, event, an_apdu); } static void _msub_update_id(struct msub *msub, const char *subscr_name) { enum msc_role idx; struct msc_a *msc_a = msub_msc_a(msub); struct vlr_subscr *vsub = msub_vsub(msub); const char *compl_l3_name = NULL; char id[128]; if (msc_a) compl_l3_name = get_value_string_or_null(complete_layer3_type_names, msc_a->complete_layer3_type); if (!compl_l3_name) compl_l3_name = "no-compl-l3"; snprintf(id, sizeof(id), "%s:%s:%s", subscr_name, msub_ran_conn_name(msub), compl_l3_name); osmo_identifier_sanitize_buf(id, NULL, '-'); for_each_msub_role(msub, idx) { osmo_fsm_inst_update_id(msub->role[idx], id); } if (vsub) { if (vsub->lu_fsm) osmo_fsm_inst_update_id(vsub->lu_fsm, id); if (vsub->auth_fsm) osmo_fsm_inst_update_id(vsub->auth_fsm, id); if (vsub->proc_arq_fsm) osmo_fsm_inst_update_id(vsub->proc_arq_fsm, id); } } /* Compose an ID almost like gsm48_mi_to_string(), but print the MI type along, and print a TMSI as hex. */ void msub_update_id_from_mi(struct msub *msub, const struct osmo_mobile_identity *mi) { _msub_update_id(msub, osmo_mobile_identity_to_str_c(OTC_SELECT, mi)); } /* Update msub->fi id string from current msub->vsub and msub->complete_layer3_type. */ void msub_update_id(struct msub *msub) { if (!msub) return; _msub_update_id(msub, vlr_subscr_name(msub->vsub)); } /* Iterate all msub instances that are relevant for this subscriber, and update FSM ID strings for all of the FSM * instances. */ void msub_update_id_for_vsub(struct vlr_subscr *for_vsub) { struct msub *msub; if (!for_vsub) return; llist_for_each_entry(msub, &msub_list, entry) { if (msub->vsub == for_vsub) msub_update_id(msub); } } void msc_role_forget_conn(struct osmo_fsm_inst *role, struct ran_conn *conn) { struct msc_i *old_i = role->priv; struct msc_t *old_t = role->priv; struct msc_role_common *c = role->priv; struct ran_conn **conn_p = NULL; switch (c->role) { case MSC_ROLE_I: conn_p = &old_i->ran_conn; break; case MSC_ROLE_T: conn_p = &old_t->ran_conn; break; default: break; } if (!conn_p) return; if (*conn_p != conn) return; (*conn_p)->msc_role = NULL; *conn_p = NULL; } /* NOTE: the resulting message buffer will be attached to OTC_SELECT, so its lifetime * is limited by the current select() loop iteration. Use talloc_steal() to avoid this. */ struct msgb *msc_role_ran_encode(struct osmo_fsm_inst *fi, const struct ran_msg *ran_msg) { struct msc_role_common *c = fi->priv; struct msgb *msg; if (!c->ran->ran_encode) { LOGPFSML(fi, LOGL_ERROR, "Cannot encode %s: no NAS encoding function defined for RAN type %s\n", ran_msg_type_name(ran_msg->msg_type), osmo_rat_type_name(c->ran->type)); return NULL; } msg = c->ran->ran_encode(fi, ran_msg); if (!msg) LOGPFSML(fi, LOGL_ERROR, "Failed to encode %s\n", ran_msg_type_name(ran_msg->msg_type)); else talloc_steal(OTC_SELECT, msg); return msg; } int msc_role_ran_decode(struct osmo_fsm_inst *fi, const struct an_apdu *an_apdu, ran_decode_cb_t decode_cb, void *decode_cb_data) { struct ran_dec ran_dec; struct msc_role_common *c = fi->priv; if (!an_apdu) { LOGPFSML(fi, LOGL_ERROR, "NULL AN-APDU\n"); return -EINVAL; } if (an_apdu->an_proto != c->ran->an_proto) { LOGPFSML(fi, LOGL_ERROR, "Unexpected AN-APDU protocol: %s\n", an_proto_name(an_apdu->an_proto)); return -EINVAL; } if (!an_apdu->msg) { LOGPFSML(fi, LOGL_DEBUG, "No PDU in this AN-APDU\n"); return 0; } ran_dec = (struct ran_dec) { .caller_fi = fi, .caller_data = decode_cb_data, .decode_cb = decode_cb, }; if (!c->ran->ran_dec_l2) { LOGPFSML(fi, LOGL_ERROR, "No ran_dec_l2() defined for RAN type %s\n", osmo_rat_type_name(c->ran->type)); return -ENOTSUP; } return c->ran->ran_dec_l2(&ran_dec, an_apdu->msg); }