#include #include #include #include #include #include #define X(s) (1 << (s)) static const struct osmo_tdef_state_timeout mm_state_iu_fsm_timeouts[32] = { [ST_PMM_DETACHED] = { }, /* non-spec -T3314 (User inactivity timer) */ [ST_PMM_CONNECTED] = { .T=-3314 }, [ST_PMM_IDLE] = { }, }; #define mm_state_iu_fsm_state_chg(fi, NEXT_STATE) \ osmo_tdef_fsm_inst_state_chg(fi, NEXT_STATE, mm_state_iu_fsm_timeouts, sgsn->cfg.T_defs, -1) static void mmctx_change_gtpu_endpoints_to_sgsn(struct sgsn_mm_ctx *mm_ctx) { char buf[INET_ADDRSTRLEN]; struct sgsn_pdp_ctx *pdp; llist_for_each_entry(pdp, &mm_ctx->pdp_list, list) { LOGMMCTXP(LOGL_INFO, mm_ctx, "Changing GTP-U endpoints %s -> %s\n", sgsn_gtp_ntoa(&pdp->lib->gsnlu), inet_ntop(AF_INET, &sgsn->cfg.gtp_listenaddr.sin_addr, buf, sizeof(buf))); sgsn_pdp_upd_gtp_u(pdp, &sgsn->cfg.gtp_listenaddr.sin_addr, sizeof(sgsn->cfg.gtp_listenaddr.sin_addr)); } } static void st_pmm_detached(struct osmo_fsm_inst *fi, uint32_t event, void *data) { switch(event) { case E_PMM_PS_ATTACH: mm_state_iu_fsm_state_chg(fi, ST_PMM_CONNECTED); break; case E_PMM_IMPLICIT_DETACH: break; } } static void st_pmm_connected(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct sgsn_mm_ctx *ctx = fi->priv; const struct RANAP_Cause user_inactive_cause = { .present = RANAP_Cause_PR_radioNetwork, .choice.radioNetwork = RANAP_CauseRadioNetwork_user_inactivity, }; switch(event) { case E_PMM_PS_CONN_RELEASE: sgsn_ranap_iu_free(ctx); mm_state_iu_fsm_state_chg(fi, ST_PMM_IDLE); break; case E_PMM_IMPLICIT_DETACH: sgsn_ranap_iu_release_free(ctx, NULL); mm_state_iu_fsm_state_chg(fi, ST_PMM_DETACHED); break; case E_PMM_USER_INACTIVITY: sgsn_ranap_iu_release_free(ctx, &user_inactive_cause); mm_state_iu_fsm_state_chg(fi, ST_PMM_DETACHED); break; case E_PMM_RA_UPDATE: break; } } static void st_pmm_idle_on_enter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct sgsn_mm_ctx *ctx = fi->priv; mmctx_change_gtpu_endpoints_to_sgsn(ctx); } static void st_pmm_idle(struct osmo_fsm_inst *fi, uint32_t event, void *data) { switch(event) { case E_PMM_PS_CONN_ESTABLISH: mm_state_iu_fsm_state_chg(fi, ST_PMM_CONNECTED); break; case E_PMM_IMPLICIT_DETACH: mm_state_iu_fsm_state_chg(fi, ST_PMM_DETACHED); break; } } static int pmm_state_fsm_timer_cb(struct osmo_fsm_inst *fi) { switch(fi->state) { case ST_PMM_CONNECTED: /* timer for pmm state. state=CONNECTED: -T3314 (User inactivity timer) */ osmo_fsm_inst_dispatch(fi, E_PMM_USER_INACTIVITY, NULL); break; } return 0; } static struct osmo_fsm_state mm_state_iu_fsm_states[] = { [ST_PMM_DETACHED] = { .in_event_mask = X(E_PMM_PS_ATTACH) | X(E_PMM_IMPLICIT_DETACH), .out_state_mask = X(ST_PMM_CONNECTED), .name = "Detached", .action = st_pmm_detached, }, [ST_PMM_CONNECTED] = { .in_event_mask = X(E_PMM_PS_CONN_RELEASE) | X(E_PMM_RA_UPDATE) | X(E_PMM_IMPLICIT_DETACH) | X(E_PMM_USER_INACTIVITY), .out_state_mask = X(ST_PMM_DETACHED) | X(ST_PMM_IDLE), .name = "Connected", .action = st_pmm_connected, }, [ST_PMM_IDLE] = { .in_event_mask = X(E_PMM_IMPLICIT_DETACH) | X(E_PMM_PS_CONN_ESTABLISH), .out_state_mask = X(ST_PMM_DETACHED) | X(ST_PMM_CONNECTED), .name = "Idle", .onenter = st_pmm_idle_on_enter, .action = st_pmm_idle, }, }; const struct value_string mm_state_iu_fsm_event_names[] = { OSMO_VALUE_STRING(E_PMM_PS_ATTACH), OSMO_VALUE_STRING(E_PMM_PS_CONN_RELEASE), OSMO_VALUE_STRING(E_PMM_PS_CONN_ESTABLISH), OSMO_VALUE_STRING(E_PMM_IMPLICIT_DETACH), OSMO_VALUE_STRING(E_PMM_RA_UPDATE), OSMO_VALUE_STRING(E_PMM_USER_INACTIVITY), { 0, NULL } }; struct osmo_fsm mm_state_iu_fsm = { .name = "MM_STATE_Iu", .states = mm_state_iu_fsm_states, .num_states = ARRAY_SIZE(mm_state_iu_fsm_states), .event_names = mm_state_iu_fsm_event_names, .log_subsys = DMM, }; static __attribute__((constructor)) void mm_state_iu_fsm_init(void) { osmo_fsm_register(&mm_state_iu_fsm); }