/* NM Radio Channel FSM */ /* (C) 2020 by sysmocom - s.f.m.c. GmbH * Author: Pau Espin Pedrol * * All Rights Reserved * * 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 #include #include #include #include #define X(s) (1 << (s)) #define nm_chan_fsm_state_chg(fi, NEXT_STATE) \ osmo_fsm_inst_state_chg(fi, NEXT_STATE, 0, 0) ////////////////////////// // FSM STATE ACTIONS ////////////////////////// static void st_op_disabled_notinstalled_on_enter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; ts->mo.set_attr_sent = false; ts->mo.set_attr_ack_received = false; ts->mo.adm_unlock_sent = false; ts->mo.opstart_sent = false; } static void st_op_disabled_notinstalled(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct nm_statechg_signal_data *nsd; const struct gsm_nm_state *new_state; switch (event) { case NM_EV_SW_ACT_REP: case NM_EV_SETUP_RAMP_READY: break; case NM_EV_STATE_CHG_REP: nsd = (struct nm_statechg_signal_data *)data; new_state = &nsd->new_state; if (new_state->operational == NM_OPSTATE_ENABLED) { /*should not happen... */ nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_ENABLED); return; } switch (new_state->availability) { /* operational = DISABLED */ case NM_AVSTATE_DEPENDENCY: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_DEPENDENCY); return; case NM_AVSTATE_OFF_LINE: case NM_AVSTATE_OK: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_OFFLINE); return; default: return; } default: OSMO_ASSERT(0); } } static void configure_loop(struct gsm_bts_trx_ts *ts, const struct gsm_nm_state *state, bool allow_opstart) { enum abis_nm_chan_comb ccomb; struct gsm_bts_trx *trx = ts->trx; if (bts_setup_ramp_wait(ts->trx->bts)) return; if (!ts->mo.set_attr_sent && !ts->mo.set_attr_ack_received) { ts->mo.set_attr_sent = true; ccomb = abis_nm_chcomb4pchan(ts->pchan_from_config); if (abis_nm_set_channel_attr(ts, ccomb) == -EINVAL) ipaccess_drop_oml_deferred(trx->bts); } if (state->administrative != NM_STATE_UNLOCKED && !ts->mo.adm_unlock_sent) { ts->mo.adm_unlock_sent = true; abis_nm_chg_adm_state(trx->bts, NM_OC_CHANNEL, trx->bts->bts_nr, trx->nr, ts->nr, NM_STATE_UNLOCKED); } if (allow_opstart && state->administrative == NM_STATE_UNLOCKED && ts->mo.set_attr_ack_received && !ts->mo.opstart_sent) { ts->mo.opstart_sent = true; abis_nm_opstart(trx->bts, NM_OC_CHANNEL, trx->bts->bts_nr, trx->nr, ts->nr); } } static void st_op_disabled_dependency_on_enter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; if (ts->trx->bts->site_mgr->peer_has_no_avstate_offline) { nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_OFFLINE); return; } configure_loop(ts, &ts->mo.nm_state, false); } static void st_op_disabled_dependency(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; struct nm_statechg_signal_data *nsd; const struct gsm_nm_state *new_state; switch (event) { case NM_EV_SW_ACT_REP: configure_loop(ts, &ts->mo.nm_state, false); break; case NM_EV_SET_ATTR_ACK: ts->mo.set_attr_ack_received = true; ts->mo.set_attr_sent = false; configure_loop(ts, &ts->mo.nm_state, false); return; case NM_EV_STATE_CHG_REP: nsd = (struct nm_statechg_signal_data *)data; new_state = &nsd->new_state; if (new_state->operational == NM_OPSTATE_ENABLED) { /* should not happen... */ nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_ENABLED); return; } switch (new_state->availability) { /* operational = DISABLED */ case NM_AVSTATE_NOT_INSTALLED: case NM_AVSTATE_POWER_OFF: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_NOTINSTALLED); return; case NM_AVSTATE_OFF_LINE: case NM_AVSTATE_OK: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_OFFLINE); return; case NM_AVSTATE_DEPENDENCY: configure_loop(ts, new_state, false); return; default: return; } case NM_EV_SETUP_RAMP_READY: configure_loop(ts, &ts->mo.nm_state, false); break; default: OSMO_ASSERT(0); } } static void st_op_disabled_offline_on_enter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; configure_loop(ts, &ts->mo.nm_state, true); } static void st_op_disabled_offline(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; struct nm_statechg_signal_data *nsd; const struct gsm_nm_state *new_state; switch (event) { case NM_EV_SW_ACT_REP: configure_loop(ts, &ts->mo.nm_state, true); break; case NM_EV_SET_ATTR_ACK: ts->mo.set_attr_ack_received = true; ts->mo.set_attr_sent = false; configure_loop(ts, &ts->mo.nm_state, true); return; case NM_EV_STATE_CHG_REP: nsd = (struct nm_statechg_signal_data *)data; new_state = &nsd->new_state; if (new_state->operational == NM_OPSTATE_ENABLED) { nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_ENABLED); return; } switch (new_state->availability) { /* operational = DISABLED */ case NM_AVSTATE_NOT_INSTALLED: case NM_AVSTATE_POWER_OFF: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_NOTINSTALLED); return; case NM_AVSTATE_DEPENDENCY: /* There's no point in moving back to Dependency, since it's broken and it acts actually as if it was in Offline state */ if (!ts->trx->bts->site_mgr->peer_has_no_avstate_offline) { nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_DEPENDENCY); } else { /* Moreover, in nanoBTS we need to check here for tx Opstart since we may have gone Unlocked state in this event, which means Opstart may be txed here. */ configure_loop(ts, new_state, true); } return; case NM_AVSTATE_OFF_LINE: case NM_AVSTATE_OK: configure_loop(ts, new_state, true); return; default: return; } case NM_EV_SETUP_RAMP_READY: configure_loop(ts, &ts->mo.nm_state, true); break; default: OSMO_ASSERT(0); } } static void st_op_enabled_on_enter(struct osmo_fsm_inst *fi, uint32_t prev_state) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; /* Reset state, we don't need it in this state and it will need to be reused as soon as we move back to Disabled */ ts->mo.opstart_sent = false; ts->mo.adm_unlock_sent = false; ts->mo.set_attr_ack_received = false; ts->mo.set_attr_sent = false; osmo_fsm_inst_dispatch(ts->fi, TS_EV_OML_READY, NULL); } static void st_op_enabled(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct nm_statechg_signal_data *nsd; const struct gsm_nm_state *new_state; switch (event) { case NM_EV_STATE_CHG_REP: nsd = (struct nm_statechg_signal_data *)data; new_state = &nsd->new_state; if (new_state->operational == NM_OPSTATE_ENABLED) return; switch (new_state->availability) { /* operational = DISABLED */ case NM_AVSTATE_NOT_INSTALLED: case NM_AVSTATE_POWER_OFF: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_NOTINSTALLED); return; case NM_AVSTATE_DEPENDENCY: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_DEPENDENCY); return; case NM_AVSTATE_OFF_LINE: case NM_AVSTATE_OK: nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_OFFLINE); return; default: return; } default: OSMO_ASSERT(0); } } static void st_op_allstate(struct osmo_fsm_inst *fi, uint32_t event, void *data) { struct gsm_bts_trx_ts *ts = (struct gsm_bts_trx_ts *)fi->priv; switch (event) { case NM_EV_OPSTART_ACK: case NM_EV_OPSTART_NACK: /* TODO: if on state OFFLINE and rx NACK, try again? */ ts->mo.opstart_sent = false; break; case NM_EV_OML_DOWN: if (fi->state != NM_CHAN_ST_OP_DISABLED_NOTINSTALLED) { osmo_fsm_inst_dispatch(ts->fi, TS_EV_OML_DOWN, NULL); nm_chan_fsm_state_chg(fi, NM_CHAN_ST_OP_DISABLED_NOTINSTALLED); } break; default: OSMO_ASSERT(0); } } static struct osmo_fsm_state nm_chan_fsm_states[] = { [NM_CHAN_ST_OP_DISABLED_NOTINSTALLED] = { .in_event_mask = X(NM_EV_SW_ACT_REP) | X(NM_EV_STATE_CHG_REP) | X(NM_EV_SETUP_RAMP_READY), .out_state_mask = X(NM_CHAN_ST_OP_DISABLED_DEPENDENCY) | X(NM_CHAN_ST_OP_DISABLED_OFFLINE) | X(NM_CHAN_ST_OP_ENABLED), .name = "DISABLED_NOTINSTALLED", .onenter = st_op_disabled_notinstalled_on_enter, .action = st_op_disabled_notinstalled, }, [NM_CHAN_ST_OP_DISABLED_DEPENDENCY] = { .in_event_mask = X(NM_EV_SW_ACT_REP) | X(NM_EV_STATE_CHG_REP) | X(NM_EV_SET_ATTR_ACK) | X(NM_EV_SETUP_RAMP_READY), .out_state_mask = X(NM_CHAN_ST_OP_DISABLED_NOTINSTALLED) | X(NM_CHAN_ST_OP_DISABLED_OFFLINE) | X(NM_CHAN_ST_OP_ENABLED), .name = "DISABLED_DEPENDENCY", .onenter = st_op_disabled_dependency_on_enter, .action = st_op_disabled_dependency, }, [NM_CHAN_ST_OP_DISABLED_OFFLINE] = { .in_event_mask = X(NM_EV_SW_ACT_REP) | X(NM_EV_STATE_CHG_REP) | X(NM_EV_SET_ATTR_ACK) | X(NM_EV_SETUP_RAMP_READY), .out_state_mask = X(NM_CHAN_ST_OP_DISABLED_NOTINSTALLED) | X(NM_CHAN_ST_OP_DISABLED_DEPENDENCY) | X(NM_CHAN_ST_OP_ENABLED), .name = "DISABLED_OFFLINE", .onenter = st_op_disabled_offline_on_enter, .action = st_op_disabled_offline, }, [NM_CHAN_ST_OP_ENABLED] = { .in_event_mask = X(NM_EV_STATE_CHG_REP), .out_state_mask = X(NM_CHAN_ST_OP_DISABLED_NOTINSTALLED) | X(NM_CHAN_ST_OP_DISABLED_DEPENDENCY) | X(NM_CHAN_ST_OP_DISABLED_OFFLINE), .name = "ENABLED", .onenter = st_op_enabled_on_enter, .action = st_op_enabled, }, }; struct osmo_fsm nm_chan_fsm = { .name = "NM_CHAN_OP", .states = nm_chan_fsm_states, .num_states = ARRAY_SIZE(nm_chan_fsm_states), .allstate_event_mask = X(NM_EV_OPSTART_ACK) | X(NM_EV_OPSTART_NACK) | X(NM_EV_OML_DOWN), .allstate_action = st_op_allstate, .event_names = nm_fsm_event_names, .log_subsys = DNM, }; static __attribute__((constructor)) void nm_chan_fsm_init(void) { OSMO_ASSERT(osmo_fsm_register(&nm_chan_fsm) == 0); }