/* Code to manage a subscriber's MSC-I role */ /* * (C) 2019 by sysmocom - s.m.f.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 #include static struct osmo_fsm msc_i_fsm; struct ran_infra *msc_i_ran(struct msc_i *msc_i) { OSMO_ASSERT(msc_i && msc_i->ran_conn && msc_i->ran_conn->ran_peer && msc_i->ran_conn->ran_peer->sri && msc_i->ran_conn->ran_peer->sri->ran); return msc_i->ran_conn->ran_peer->sri->ran; } static int msc_i_ran_enc(struct msc_i *msc_i, const struct ran_msg *ran_enc_msg) { struct msgb *l3 = msc_role_ran_encode(msc_i->c.fi, ran_enc_msg); if (!l3) return -EIO; return msc_i_down_l2(msc_i, l3); } struct msc_i *msc_i_priv(struct osmo_fsm_inst *fi) { OSMO_ASSERT(fi); OSMO_ASSERT(fi->fsm == &msc_i_fsm); OSMO_ASSERT(fi->priv); return fi->priv; } int msc_i_ready_decode_cb(struct osmo_fsm_inst *msc_i_fi, void *data, const struct ran_msg *msg) { struct msc_i *msc_i = msc_i_priv(msc_i_fi); struct msc_a *msc_a = msub_msc_a(msc_i->c.msub); const struct an_apdu *an_apdu = data; uint32_t event; event = MSC_A_EV_FROM_I_PROCESS_ACCESS_SIGNALLING_REQUEST; switch (msg->msg_type) { case RAN_MSG_HANDOVER_REQUIRED: if (msc_a->c.remote_to) { /* We're already a remote MSC-B, this hence must be a "subsequent" handover. * There is not much difference really from dispatching a Process Access Signalling Request, * only that 3GPP TS 29.010 specifies the different message type. */ event = MSC_A_EV_FROM_I_PREPARE_SUBSEQUENT_HANDOVER_REQUEST; } break; default: break; } return msub_role_dispatch(msc_i->c.msub, MSC_ROLE_A, event, an_apdu); } void msc_i_fsm_ready(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct msc_i *msc_i = msc_i_priv(fi); struct msc_a *msc_a = msub_msc_a(msc_i->c.msub); struct an_apdu *an_apdu; if (!msc_a) { LOG_MSC_I(msc_i, LOGL_ERROR, "No MSC-A role\n"); return; } switch (event) { case MSC_EV_FROM_RAN_COMPLETE_LAYER_3: an_apdu = data; msub_role_dispatch(msc_i->c.msub, MSC_ROLE_A, MSC_A_EV_FROM_I_COMPLETE_LAYER_3, an_apdu); break; case MSC_EV_FROM_RAN_UP_L2: an_apdu = data; /* To send the correct event types like MSC_A_EV_FROM_I_PREPARE_SUBSEQUENT_HANDOVER_REQUEST and hence * reflect the correct GSUP message type on an inter-MSC link, need to decode the message here. */ msc_role_ran_decode(msc_i->c.fi, an_apdu, msc_i_ready_decode_cb, an_apdu); break; case MSC_EV_FROM_RAN_CONN_RELEASED: msc_i_cleared(msc_i); break; case MSC_EV_CALL_LEG_TERM: msc_i->inter_msc.call_leg = NULL; if (msc_i->inter_msc.mncc_forwarding_to_remote_cn) msc_i->inter_msc.mncc_forwarding_to_remote_cn->rtps = NULL; break; case MSC_MNCC_EV_CALL_ENDED: msc_i->inter_msc.mncc_forwarding_to_remote_cn = NULL; break; case MSC_I_EV_FROM_A_FORWARD_ACCESS_SIGNALLING_REQUEST: case MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_RESULT: case MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_ERROR: an_apdu = data; if (an_apdu->an_proto != msc_i_ran(msc_i)->an_proto) { LOG_MSC_I(msc_i, LOGL_ERROR, "Mismatching AN-APDU proto: %s -- Dropping message\n", an_proto_name(an_apdu->an_proto)); msgb_free(an_apdu->msg); an_apdu->msg = NULL; return; } msc_i_down_l2(msc_i, an_apdu->msg); break; case MSC_I_EV_FROM_A_SEND_END_SIGNAL_RESPONSE: msc_i_clear(msc_i); break; default: OSMO_ASSERT(false); } } void msc_i_fsm_clearing_onenter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct msc_i *msc_i = msc_i_priv(fi); struct ran_msg msg = { .msg_type = RAN_MSG_CLEAR_COMMAND, /* Concerning CSFB (Circuit-Switched FallBack from LTE), for a final Clear Command that might indicate * CSFB, the MSC-A has to send the Clear Command. This Clear Command is about detaching an MSC-I when a * new MSC-I has shown up after an inter-BSC or inter-MSC Handover succeeded. So never CSFB here. */ }; msc_i_ran_enc(msc_i, &msg); } int msc_i_clearing_decode_cb(struct osmo_fsm_inst *msc_i_fi, void *data, const struct ran_msg *msg) { struct msc_i *msc_i = msc_i_fi->priv; switch (msg->msg_type) { case RAN_MSG_CLEAR_COMPLETE: switch (msc_i->c.fi->state) { case MSC_I_ST_CLEARING: osmo_fsm_inst_state_chg(msc_i->c.fi, MSC_I_ST_CLEARED, 0, 0); return 0; case MSC_I_ST_CLEARED: return 0; default: LOG_MSC_I(msc_i, LOGL_ERROR, "Received Clear Complete, but did not send Clear Command\n"); { struct msc_a *msc_a = msub_msc_a(msc_i->c.msub); if (msc_a) osmo_fsm_inst_dispatch(msc_a->c.fi, MSC_A_EV_MO_CLOSE, NULL); } return 0; } default: LOG_MSC_I(msc_i, LOGL_ERROR, "Message not handled: %s\n", ran_msg_type_name(msg->msg_type)); return -ENOTSUP; } } void msc_i_fsm_clearing(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct msc_i *msc_i = msc_i_priv(fi); struct an_apdu *an_apdu; /* We expect a Clear Complete and nothing else. */ switch (event) { case MSC_EV_FROM_RAN_UP_L2: an_apdu = data; msc_role_ran_decode(msc_i->c.fi, an_apdu, msc_i_clearing_decode_cb, NULL); return; case MSC_EV_FROM_RAN_CONN_RELEASED: msc_i_cleared(msc_i); return; case MSC_EV_CALL_LEG_TERM: msc_i->inter_msc.call_leg = NULL; if (msc_i->inter_msc.mncc_forwarding_to_remote_cn) msc_i->inter_msc.mncc_forwarding_to_remote_cn->rtps = NULL; break; case MSC_MNCC_EV_CALL_ENDED: msc_i->inter_msc.mncc_forwarding_to_remote_cn = NULL; break; } } void msc_i_fsm_cleared_onenter(struct osmo_fsm_inst *fi, uint32_t prev_state) { osmo_fsm_inst_term(fi, OSMO_FSM_TERM_REGULAR, fi); } void msc_i_fsm_cleanup(struct osmo_fsm_inst *fi, enum osmo_fsm_term_cause cause) { struct msc_i *msc_i = msc_i_priv(fi); call_leg_release(msc_i->inter_msc.call_leg); mncc_call_release(msc_i->inter_msc.mncc_forwarding_to_remote_cn); if (msc_i->ran_conn) ran_conn_msc_role_gone(msc_i->ran_conn, msc_i->c.fi); } #define S(x) (1 << (x)) static const struct osmo_fsm_state msc_i_fsm_states[] = { [MSC_I_ST_READY] = { .name = "READY", .action = msc_i_fsm_ready, .in_event_mask = 0 | S(MSC_EV_FROM_RAN_COMPLETE_LAYER_3) | S(MSC_EV_FROM_RAN_UP_L2) | S(MSC_EV_FROM_RAN_CONN_RELEASED) | S(MSC_EV_CALL_LEG_TERM) | S(MSC_MNCC_EV_CALL_ENDED) | S(MSC_I_EV_FROM_A_FORWARD_ACCESS_SIGNALLING_REQUEST) | S(MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_RESULT) | S(MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_ERROR) | S(MSC_I_EV_FROM_A_SEND_END_SIGNAL_RESPONSE) , .out_state_mask = 0 | S(MSC_I_ST_CLEARING) | S(MSC_I_ST_CLEARED) , }, [MSC_I_ST_CLEARING] = { .name = "CLEARING", .onenter = msc_i_fsm_clearing_onenter, .action = msc_i_fsm_clearing, .in_event_mask = 0 | S(MSC_EV_FROM_RAN_UP_L2) | S(MSC_EV_FROM_RAN_CONN_RELEASED) | S(MSC_EV_CALL_LEG_TERM) | S(MSC_MNCC_EV_CALL_ENDED) , .out_state_mask = 0 | S(MSC_I_ST_CLEARED) , }, [MSC_I_ST_CLEARED] = { .name = "CLEARED", .onenter = msc_i_fsm_cleared_onenter, }, }; const struct value_string msc_i_fsm_event_names[] = { OSMO_VALUE_STRING(MSC_REMOTE_EV_RX_GSUP), OSMO_VALUE_STRING(MSC_EV_CALL_LEG_RTP_LOCAL_ADDR_AVAILABLE), OSMO_VALUE_STRING(MSC_EV_CALL_LEG_RTP_COMPLETE), OSMO_VALUE_STRING(MSC_EV_CALL_LEG_TERM), OSMO_VALUE_STRING(MSC_MNCC_EV_NEED_LOCAL_RTP), OSMO_VALUE_STRING(MSC_MNCC_EV_CALL_PROCEEDING), OSMO_VALUE_STRING(MSC_MNCC_EV_CALL_COMPLETE), OSMO_VALUE_STRING(MSC_MNCC_EV_CALL_ENDED), OSMO_VALUE_STRING(MSC_EV_FROM_RAN_COMPLETE_LAYER_3), OSMO_VALUE_STRING(MSC_EV_FROM_RAN_UP_L2), OSMO_VALUE_STRING(MSC_EV_FROM_RAN_CONN_RELEASED), OSMO_VALUE_STRING(MSC_I_EV_FROM_A_FORWARD_ACCESS_SIGNALLING_REQUEST), OSMO_VALUE_STRING(MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_RESULT), OSMO_VALUE_STRING(MSC_I_EV_FROM_A_PREPARE_SUBSEQUENT_HANDOVER_ERROR), OSMO_VALUE_STRING(MSC_I_EV_FROM_A_SEND_END_SIGNAL_RESPONSE), {} }; static struct osmo_fsm msc_i_fsm = { .name = "msc_i", .states = msc_i_fsm_states, .num_states = ARRAY_SIZE(msc_i_fsm_states), .log_subsys = DMSC, .event_names = msc_i_fsm_event_names, .cleanup = msc_i_fsm_cleanup, }; static __attribute__((constructor)) void msc_i_fsm_init(void) { OSMO_ASSERT(osmo_fsm_register(&msc_i_fsm) == 0); } /* Send connection-oriented L3 message to RAN peer (MSC->[BSC|RNC]) */ int msc_i_down_l2(struct msc_i *msc_i, struct msgb *l3) { int rc; if (!msc_i->ran_conn) { LOG_MSC_I(msc_i, LOGL_ERROR, "Cannot Tx L2 message: no RAN conn\n"); return -EIO; } rc = ran_conn_down_l2_co(msc_i->ran_conn, l3, false); if (rc) LOG_MSC_I(msc_i, LOGL_ERROR, "Failed to transfer message down to subscriber (rc=%d)\n", rc); return rc; } struct gsm_network *msc_i_net(const struct msc_i *msc_i) { return msub_net(msc_i->c.msub); } struct vlr_subscr *msc_i_vsub(const struct msc_i *msc_i) { if (!msc_i) return NULL; return msub_vsub(msc_i->c.msub); } struct msc_i *msc_i_alloc(struct msub *msub, struct ran_infra *ran) { return msub_role_alloc(msub, MSC_ROLE_I, &msc_i_fsm, struct msc_i, ran); } /* Send Clear Command and wait for Clear Complete autonomously. "Normally", the MSC-A handles Clear Command and receives * Clear Complete, and then terminates MSC-I directly. This is useful to replace an MSC-I with another MSC-I during * Handover. */ void msc_i_clear(struct msc_i *msc_i) { if (!msc_i) return; /* sanity timeout */ osmo_fsm_inst_state_chg(msc_i->c.fi, MSC_I_ST_CLEARING, 60, 0); } void msc_i_cleared(struct msc_i *msc_i) { if (!msc_i) return; osmo_fsm_inst_state_chg(msc_i->c.fi, MSC_I_ST_CLEARED, 0, 0); } void msc_i_set_ran_conn(struct msc_i *msc_i, struct ran_conn *new_conn) { struct ran_conn *old_conn = msc_i->ran_conn; if (old_conn == new_conn) return; msc_i->ran_conn = NULL; if (old_conn) { old_conn->msc_role = NULL; ran_conn_close(old_conn); } /* Taking a conn over from another MSC role? Make sure the other side forgets about it. */ if (new_conn->msc_role) msc_role_forget_conn(new_conn->msc_role, new_conn); msc_i->ran_conn = new_conn; msc_i->ran_conn->msc_role = msc_i->c.fi; /* Add the RAN conn info to the msub logging */ msub_update_id(msc_i->c.msub); }