#include "ogs-sctp.h" #include "mme_event.h" #include "s1ap_path.h" static void accept_handler(short when, ogs_socket_t fd, void *data); ogs_sock_t *s1ap_server(ogs_socknode_t *node) { char buf[OGS_ADDRSTRLEN]; ogs_sock_t *sock = NULL; ogs_assert(node); ogs_socknode_set_poll(node, mme_self()->pollset, OGS_POLLIN, accept_handler, node); sock = ogs_sctp_server(SOCK_STREAM, node); ogs_assert(sock); ogs_info("s1ap_server() [%s]:%d", OGS_ADDR(node->addr, buf), OGS_PORT(node->addr)); return sock; } static void accept_handler(short when, ogs_socket_t fd, void *data) { char buf[OGS_ADDRSTRLEN]; ogs_socknode_t *node = data; ogs_sock_t *sock = NULL; ogs_sock_t *new = NULL; ogs_assert(node); sock = node->sock; ogs_assert(sock); ogs_assert(fd != INVALID_SOCKET); new = ogs_sock_accept(sock); if (new) { int rv; ogs_sockaddr_t *addr = NULL; mme_event_t *e = NULL; addr = ogs_calloc(1, sizeof(ogs_sockaddr_t)); ogs_assert(addr); memcpy(addr, &new->remote_addr, sizeof(ogs_sockaddr_t)); ogs_info("eNB-S1 accepted[%s]:%d in s1_path module", OGS_ADDR(addr, buf), OGS_PORT(addr)); e = mme_event_new(MME_EVT_S1AP_LO_ACCEPT); ogs_assert(e); e->enb_sock = new; e->enb_addr = addr; rv = ogs_queue_push(mme_self()->queue, e); if (rv != OGS_OK) { ogs_warn("ogs_queue_push() failed:%d", (int)rv); ogs_free(e->enb_addr); mme_event_free(e); } } else { ogs_log_message(OGS_LOG_ERROR, ogs_socket_errno, "accept() failed"); } } void s1ap_recv_handler(short when, ogs_socket_t fd, void *data) { int rv; ogs_pkbuf_t *pkbuf; int size; mme_event_t *e = NULL; ogs_sock_t *sock = data; ogs_sockaddr_t *addr = NULL; ogs_sctp_info_t sinfo; int flags = 0; ogs_assert(sock); ogs_assert(fd != INVALID_SOCKET); pkbuf = ogs_pkbuf_alloc(NULL, MAX_SDU_LEN); #if DEPRECATED if (pkbuf == NULL) { char tmp_buf[MAX_SDU_LEN]; d_fatal("Can't allocate pkbuf"); /* Read data from socket to exit from select */ ogs_recv(fd, tmp_buf, MAX_SDU_LEN, 0); return; } #endif ogs_pkbuf_put(pkbuf, MAX_SDU_LEN); size = ogs_sctp_recvmsg( sock, pkbuf->data, pkbuf->len, NULL, &sinfo, &flags); if (size < 0) { ogs_error("ogs_sctp_recvmsg(%d) failed(%d:%s)", size, errno, strerror(errno)); return; } if (flags & MSG_NOTIFICATION) { union sctp_notification *not = (union sctp_notification *)pkbuf->data; switch(not->sn_header.sn_type) { case SCTP_ASSOC_CHANGE : { ogs_debug("SCTP_ASSOC_CHANGE:" "[T:%d, F:0x%x, S:%d, I/O:%d/%d]", not->sn_assoc_change.sac_type, not->sn_assoc_change.sac_flags, not->sn_assoc_change.sac_state, not->sn_assoc_change.sac_inbound_streams, not->sn_assoc_change.sac_outbound_streams); if (not->sn_assoc_change.sac_state == SCTP_COMM_UP) { ogs_debug("SCTP_COMM_UP"); addr = ogs_calloc(1, sizeof(ogs_sockaddr_t)); ogs_assert(addr); memcpy(addr, &sock->remote_addr, sizeof(ogs_sockaddr_t)); e = mme_event_new(MME_EVT_S1AP_LO_SCTP_COMM_UP); ogs_assert(e); e->enb_sock = sock; e->enb_addr = addr; e->inbound_streams = not->sn_assoc_change.sac_inbound_streams; e->outbound_streams = not->sn_assoc_change.sac_outbound_streams; rv = ogs_queue_push(mme_self()->queue, e); if (rv != OGS_OK) { ogs_warn("ogs_queue_push() failed:%d", (int)rv); ogs_free(e->enb_addr); mme_event_free(e); } } else if (not->sn_assoc_change.sac_state == SCTP_SHUTDOWN_COMP || not->sn_assoc_change.sac_state == SCTP_COMM_LOST) { if (not->sn_assoc_change.sac_state == SCTP_SHUTDOWN_COMP) ogs_debug("SCTP_SHUTDOWN_COMP"); if (not->sn_assoc_change.sac_state == SCTP_COMM_LOST) ogs_debug("SCTP_COMM_LOST"); addr = ogs_calloc(1, sizeof(ogs_sockaddr_t)); ogs_assert(addr); memcpy(addr, &sock->remote_addr, sizeof(ogs_sockaddr_t)); e = mme_event_new(MME_EVT_S1AP_LO_CONNREFUSED); ogs_assert(e); e->enb_sock = sock; e->enb_addr = addr; rv = ogs_queue_push(mme_self()->queue, e); if (rv != OGS_OK) { ogs_warn("ogs_queue_push() failed:%d", (int)rv); ogs_free(e->enb_addr); mme_event_free(e); } } break; } case SCTP_SHUTDOWN_EVENT : { ogs_debug("SCTP_SHUTDOWN_EVENT:[T:%d, F:0x%x, L:%d]", not->sn_shutdown_event.sse_type, not->sn_shutdown_event.sse_flags, not->sn_shutdown_event.sse_length); addr = ogs_calloc(1, sizeof(ogs_sockaddr_t)); ogs_assert(addr); memcpy(addr, &sock->remote_addr, sizeof(ogs_sockaddr_t)); e = mme_event_new(MME_EVT_S1AP_LO_CONNREFUSED); ogs_assert(e); e->enb_sock = sock; e->enb_addr = addr; rv = ogs_queue_push(mme_self()->queue, e); if (rv != OGS_OK) { ogs_warn("ogs_queue_push() failed:%d", (int)rv); ogs_free(e->enb_addr); mme_event_free(e); } break; } case SCTP_PEER_ADDR_CHANGE: ogs_warn("SCTP_PEER_ADDR_CHANGE:[T:%d, F:0x%x, S:%d]", not->sn_paddr_change.spc_type, not->sn_paddr_change.spc_flags, not->sn_paddr_change.spc_error); break; case SCTP_REMOTE_ERROR: ogs_warn("SCTP_REMOTE_ERROR:[T:%d, F:0x%x, S:%d]", not->sn_remote_error.sre_type, not->sn_remote_error.sre_flags, not->sn_remote_error.sre_error); break; case SCTP_SEND_FAILED : ogs_error("SCTP_SEND_FAILED:[T:%d, F:0x%x, S:%d]", not->sn_send_failed.ssf_type, not->sn_send_failed.ssf_flags, not->sn_send_failed.ssf_error); break; default : ogs_error("Discarding event with unknown flags:0x%x type:0x%x", flags, not->sn_header.sn_type); break; } } else if (flags & MSG_EOR) { ogs_pkbuf_trim(pkbuf, size); addr = ogs_calloc(1, sizeof(ogs_sockaddr_t)); ogs_assert(addr); memcpy(addr, &sock->remote_addr, sizeof(ogs_sockaddr_t)); e = mme_event_new(MME_EVT_S1AP_MESSAGE); ogs_assert(e); e->enb_sock = sock; e->enb_addr = addr; e->pkbuf = pkbuf; rv = ogs_queue_push(mme_self()->queue, e); if (rv != OGS_OK) { ogs_warn("ogs_queue_push() failed:%d", (int)rv); ogs_free(e->enb_addr); ogs_pkbuf_free(e->pkbuf); mme_event_free(e); } return; } else { ogs_assert_if_reached(); } ogs_pkbuf_free(pkbuf); }