import queue, threading import codec2 import data_frame_factory import structlog from event_manager import EventManager from modem_frametypes import FRAME_TYPE import time from arq_data_type_handler import ARQDataTypeHandler class ARQSession(): SPEED_LEVEL_DICT = { 0: { 'mode': codec2.FREEDV_MODE.datac4, 'min_snr': -10, 'duration_per_frame': 5.17, }, 1: { 'mode': codec2.FREEDV_MODE.datac3, 'min_snr': 0, 'duration_per_frame': 3.19, }, 2: { 'mode': codec2.FREEDV_MODE.datac1, 'min_snr': 3, 'duration_per_frame': 4.18, }, } def __init__(self, config: dict, modem, dxcall: str): self.logger = structlog.get_logger(type(self).__name__) self.config = config self.event_manager: EventManager = modem.event_manager self.snr = [] self.dxcall = dxcall self.dx_snr = [] self.modem = modem self.speed_level = 0 self.frames_per_burst = 1 self.frame_factory = data_frame_factory.DataFrameFactory(self.config) self.event_frame_received = threading.Event() self.arq_data_type_handler = ARQDataTypeHandler(self.event_manager) self.id = None self.session_started = time.time() self.session_ended = 0 self.session_max_age = 500 def log(self, message, isWarning = False): msg = f"[{type(self).__name__}][id={self.id}][state={self.state}]: {message}" logger = self.logger.warn if isWarning else self.logger.info logger(msg) def get_mode_by_speed_level(self, speed_level): return self.SPEED_LEVEL_DICT[speed_level]["mode"] def transmit_frame(self, frame: bytearray, mode='auto'): self.log("Transmitting frame") if mode in ['auto']: mode = self.get_mode_by_speed_level(self.speed_level) self.modem.transmit(mode, 1, 1, frame) def set_state(self, state): if self.state == state: self.log(f"{type(self).__name__} state {self.state.name} unchanged.") else: self.log(f"{type(self).__name__} state change from {self.state.name} to {state.name}") self.state = state def get_data_payload_size(self): return self.frame_factory.get_available_data_payload_for_mode( FRAME_TYPE.ARQ_BURST_FRAME, self.SPEED_LEVEL_DICT[self.speed_level]["mode"] ) def set_details(self, snr, frequency_offset): self.snr.append(snr) self.frequency_offset = frequency_offset def on_frame_received(self, frame): self.event_frame_received.set() self.log(f"Received {frame['frame_type']}") frame_type = frame['frame_type_int'] if self.state in self.STATE_TRANSITION: if frame_type in self.STATE_TRANSITION[self.state]: action_name = self.STATE_TRANSITION[self.state][frame_type] received_data, type_byte = getattr(self, action_name)(frame) if isinstance(received_data, bytearray) and isinstance(type_byte, int): self.arq_data_type_handler.dispatch(type_byte, received_data) return self.log(f"Ignoring unknown transition from state {self.state.name} with frame {frame['frame_type']}") def is_session_outdated(self): session_alivetime = time.time() - self.session_max_age if self.session_ended < session_alivetime and self.state.name in ['FAILED', 'ENDED', 'ABORTED']: return True return False def calculate_session_duration(self): return self.session_ended - self.session_started def calculate_session_statistics(self): duration = self.calculate_session_duration() total_bytes = self.total_length # self.total_length duration_in_minutes = duration / 60 # Convert duration from seconds to minutes # Calculate bytes per minute if duration_in_minutes > 0: bytes_per_minute = int(total_bytes / duration_in_minutes) else: bytes_per_minute = 0 return { 'total_bytes': total_bytes, 'duration': duration, 'bytes_per_minute': bytes_per_minute }