import time import ujson as json import threading import numpy as np class StateManager: def __init__(self, statequeue): # state related settings self.statequeue = statequeue self.newstate = None self.last = time.time() # modem related states # not every state is needed to publish, yet # TODO can we reduce them? self.channel_busy_slot = [False, False, False, False, False] self.channel_busy_event = threading.Event() self.channel_busy_condition_traffic = threading.Event() self.channel_busy_condition_codec2 = threading.Event() self.is_modem_running = False self.is_modem_busy = False self.is_beacon_running = False # If true, any wait() call is blocking self.transmitting_event = threading.Event() self.setTransmitting(False) self.audio_dbfs = 0 self.dxcallsign: bytes = b"ZZ9YY-0" self.dxgrid: bytes = b"------" self.heard_stations = [] # TODO remove it... heard stations list == deprecated self.activities_list = {} self.arq_iss_sessions = {} self.arq_irs_sessions = {} self.mesh_routing_table = [] self.radio_frequency = 0 self.radio_mode = None self.radio_bandwidth = 0 self.radio_rf_level = 0 self.s_meter_strength = 0 # Set rig control status regardless or rig control method self.radio_status = False def sendState (self): currentState = self.get_state_event(False) self.statequeue.put(currentState) return currentState def sendStateUpdate (self): self.statequeue.put(self.newstate) def set(self, key, value): setattr(self, key, value) #print(f"State ==> Setting {key} to value {value}") # only process data if changed new_state = self.get_state_event(True) if new_state != self.newstate: self.newstate = new_state self.sendStateUpdate() def set_channel_slot_busy(self, array): for i in range(0,len(array),1): if not array[i] == self.channel_busy_slot[i]: self.channel_busy_slot = array self.newstate = self.get_state_event(True) self.sendStateUpdate() continue def get_state_event(self, isChangedState): msgtype = "state-change" if (not isChangedState): msgtype = "state" return { "type": msgtype, "is_modem_running": self.is_modem_running, "is_beacon_running": self.is_beacon_running, "radio_status": self.radio_status, "radio_frequency": self.radio_frequency, "radio_mode": self.radio_mode, "s_meter_strength": self.s_meter_strength, "channel_busy_slot": self.channel_busy_slot, "audio_dbfs": self.audio_dbfs, "activities": self.activities_list, } # .wait() blocks until the event is set def isTransmitting(self): return not self.transmitting_event.is_set() # .wait() blocks until the event is set def setTransmitting(self, transmitting: bool): if transmitting: self.transmitting_event.clear() else: self.transmitting_event.set() def waitForTransmission(self): self.transmitting_event.wait() def waitForChannelBusy(self): self.channel_busy_event.wait(2) def register_arq_iss_session(self, session): if session.id in self.arq_iss_sessions: return False self.arq_iss_sessions[session.id] = session return True def register_arq_irs_session(self, session): if session.id in self.arq_irs_sessions: return False self.arq_irs_sessions[session.id] = session return True def check_if_running_arq_session(self, irs=False): sessions = self.arq_irs_sessions if irs else self.arq_iss_sessions for session_id in sessions: # do a session cleanup of outdated sessions before if sessions[session_id].is_session_outdated(): print(f"session cleanup.....{session_id}") if irs: self.remove_arq_irs_session(session_id) else: self.remove_arq_iss_session(session_id) # check if ongoing sessions available if sessions[session_id].state.name not in ['ENDED', 'ABORTED', 'FAILED']: print(f"[State Manager] running session...[{session_id}]") return True return False def get_arq_iss_session(self, id): if id not in self.arq_iss_sessions: #raise RuntimeError(f"ARQ ISS Session '{id}' not found!") # DJ2LS: WIP We need to find a better way of handling this pass return self.arq_iss_sessions[id] def get_arq_irs_session(self, id): if id not in self.arq_irs_sessions: #raise RuntimeError(f"ARQ IRS Session '{id}' not found!") # DJ2LS: WIP We need to find a better way of handling this pass return self.arq_irs_sessions[id] def remove_arq_iss_session(self, id): if id in self.arq_iss_sessions: del self.arq_iss_sessions[id] def remove_arq_irs_session(self, id): if id in self.arq_irs_sessions: del self.arq_irs_sessions[id] def add_activity(self, activity_data): # Generate a random 8-byte string as hex activity_id = np.random.bytes(8).hex() # if timestamp not provided, add it here if 'timestamp' not in activity_data: activity_data['timestamp'] = int(time.time()) # if frequency not provided, add it here if 'frequency' not in activity_data: activity_data['frequency'] = self.radio_frequency self.activities_list[activity_id] = activity_data self.sendStateUpdate() def calculate_channel_busy_state(self): if self.channel_busy_condition_traffic.is_set() and self.channel_busy_condition_codec2.is_set(): self.channel_busy_event.set() else: self.channel_busy_event = threading.Event() def set_channel_busy_condition_traffic(self, busy): if not busy: self.channel_busy_condition_traffic.set() else: self.channel_busy_condition_traffic = threading.Event() self.calculate_channel_busy_state() def set_channel_busy_condition_codec2(self, traffic): if not traffic: self.channel_busy_condition_codec2.set() else: self.channel_busy_condition_codec2 = threading.Event() self.calculate_channel_busy_state() def get_radio_status(self): return { "radio_status": self.radio_status, "radio_frequency": self.radio_frequency, "radio_mode": self.radio_mode, "radio_rf_level": self.radio_rf_level, "s_meter_strength": self.s_meter_strength, }