#pragma once #include #include #include #include #include struct vlr_subscr; struct ran_conn; struct neighbor_ident_entry; #define LOG_RAN_PEER_CAT(RAN_PEER, subsys, loglevel, fmt, args ...) \ LOGPFSMSL((RAN_PEER)? (RAN_PEER)->fi : NULL, subsys, loglevel, fmt, ## args) #define LOG_RAN_PEER(RAN_PEER, loglevel, fmt, args ...) \ LOG_RAN_PEER_CAT(RAN_PEER, \ (RAN_PEER) && (RAN_PEER)->sri? (RAN_PEER)->sri->ran->log_subsys : DMSC, \ loglevel, fmt, ## args) /* A BSC or RNC with activity on a local SCCP connection. * Here we collect those BSC and RNC peers that are actually connected to the MSC and manage their connection Reset * status. * * Before we had explicit neighbor configuration for inter-BSC and inter-MSC handover, the only way to know which peer * address corresponds to which LAC (for paging a specific LAC) was to collect the LAC from L3 messages coming in on a * subscriber connection. We still continue that practice to support unconfigured operation. * * The neighbor list config extends this by possibly naming LAC and CI that have not seen explicit activity yet, and * allows us to page towards the correct peer's SCCP address from the start. * * So, for paging, the idea is to look for a LAC that is recorded here, and if not found, query the neighbor * configuration for a peer's SCCP address matching that LAC. If found, look for active connections on that SCCP address * here. * * Any valid RAN peer will contact us and initiate a RESET procedure. In turn, on osmo-msc start, we may choose to * initiate a RESET procedure towards every known RAN peer. * * Semantically, it would make sense to keep the list of ran_conn instances in each struct ran_peer, but since * non-Initial Connection-Oriented messages indicate only the conn by id (and identify the ran_peer from that), the conn * list is kept in sccp_ran_inst. For convenience, see ran_peer_for_each_ran_conn(). */ struct ran_peer { /* Entry in sccp_ran_inst->ran_conns */ struct llist_head entry; struct sccp_ran_inst *sri; struct osmo_sccp_addr peer_addr; struct osmo_fsm_inst *fi; /* See cell_id_list.h */ struct llist_head cells_seen; /* Whether we detected the BSC supports Osmux (during BSSMAP_RESET) */ bool remote_supports_osmux; }; #define ran_peer_for_each_ran_conn(RAN_CONN, RAN_PEER) \ llist_for_each_entry(RAN_CONN, &(RAN_PEER)->sri->ran_conns, entry) \ if ((RAN_CONN)->ran_peer == (RAN_PEER)) #define ran_peer_for_each_ran_conn_safe(RAN_CONN, RAN_CONN_NEXT, RAN_PEER) \ llist_for_each_entry_safe(RAN_CONN, RAN_CONN_NEXT, &(RAN_PEER)->sri->ran_conns, entry) \ if ((RAN_CONN)->ran_peer == (RAN_PEER)) enum ran_peer_state { RAN_PEER_ST_WAIT_RX_RESET = 0, RAN_PEER_ST_WAIT_RX_RESET_ACK, RAN_PEER_ST_READY, RAN_PEER_ST_DISCARDING, }; enum ran_peer_event { RAN_PEER_EV_MSG_UP_CL = 0, RAN_PEER_EV_MSG_UP_CO_INITIAL, RAN_PEER_EV_MSG_UP_CO, RAN_PEER_EV_MSG_DOWN_CL, RAN_PEER_EV_MSG_DOWN_CO_INITIAL, RAN_PEER_EV_MSG_DOWN_CO, RAN_PEER_EV_RX_RESET, RAN_PEER_EV_RX_RESET_ACK, RAN_PEER_EV_CONNECTION_SUCCESS, RAN_PEER_EV_CONNECTION_TIMEOUT, }; struct ran_peer_ev_ctx { uint32_t conn_id; struct ran_conn *conn; struct msgb *msg; }; struct ran_peer *ran_peer_find_or_create(struct sccp_ran_inst *sri, const struct osmo_sccp_addr *peer_addr); struct ran_peer *ran_peer_find(struct sccp_ran_inst *sri, const struct osmo_sccp_addr *peer_addr); void ran_peer_cells_seen_add(struct ran_peer *ran_peer, const struct gsm0808_cell_id *id); int ran_peer_up_l2(struct sccp_ran_inst *sri, const struct osmo_sccp_addr *calling_addr, bool co, uint32_t conn_id, struct msgb *l2); void ran_peer_disconnect(struct sccp_ran_inst *sri, uint32_t conn_id); int ran_peers_down_paging(struct sccp_ran_inst *sri, enum CELL_IDENT page_where, struct vlr_subscr *vsub, enum paging_cause cause); int ran_peer_down_paging(struct ran_peer *rp, const struct gsm0808_cell_id *page_id, struct vlr_subscr *vsub, enum paging_cause cause); struct ran_peer *ran_peer_find_by_cell_id(struct sccp_ran_inst *sri, const struct gsm0808_cell_id *cid, bool expecting_single_match); struct ran_peer *ran_peer_find_by_addr(struct sccp_ran_inst *sri, const struct osmo_sccp_addr *addr);