import threading import arq_session import helpers from modem_frametypes import FRAME_TYPE from codec2 import FREEDV_MODE from enum import Enum import time class IRS_State(Enum): NEW = 0 OPEN_ACK_SENT = 1 INFO_ACK_SENT = 2 BURST_REPLY_SENT = 3 ENDED = 4 FAILED = 5 ABORTED = 6 class ARQSessionIRS(arq_session.ARQSession): TIMEOUT_CONNECT = 55 #14.2 TIMEOUT_DATA = 120 STATE_TRANSITION = { IRS_State.NEW: { FRAME_TYPE.ARQ_SESSION_OPEN.value : 'send_open_ack', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.OPEN_ACK_SENT: { FRAME_TYPE.ARQ_SESSION_OPEN.value: 'send_open_ack', FRAME_TYPE.ARQ_SESSION_INFO.value: 'send_info_ack', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.INFO_ACK_SENT: { FRAME_TYPE.ARQ_SESSION_INFO.value: 'send_info_ack', FRAME_TYPE.ARQ_BURST_FRAME.value: 'receive_data', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.BURST_REPLY_SENT: { FRAME_TYPE.ARQ_BURST_FRAME.value: 'receive_data', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.ENDED: { FRAME_TYPE.ARQ_BURST_FRAME.value: 'receive_data', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.FAILED: { FRAME_TYPE.ARQ_BURST_FRAME.value: 'receive_data', FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack' }, IRS_State.ABORTED: { FRAME_TYPE.ARQ_STOP.value: 'send_stop_ack', FRAME_TYPE.ARQ_SESSION_OPEN.value: 'send_open_ack', FRAME_TYPE.ARQ_SESSION_INFO.value: 'send_info_ack', FRAME_TYPE.ARQ_BURST_FRAME.value: 'receive_data', }, } def __init__(self, config: dict, modem, dxcall: str, session_id: int, state_manager): super().__init__(config, modem, dxcall, state_manager) self.id = session_id self.dxcall = dxcall self.version = 1 self.state = IRS_State.NEW self.state_enum = IRS_State # needed for access State enum from outside self.type_byte = None self.total_length = 0 self.total_crc = '' self.received_data = None self.received_bytes = 0 self.received_crc = None self.maximum_bandwidth = 0 self.abort = False def all_data_received(self): return self.total_length == self.received_bytes def final_crc_matches(self) -> bool: return self.total_crc == helpers.get_crc_32(bytes(self.received_data)).hex() def transmit_and_wait(self, frame, timeout, mode): self.event_frame_received.clear() self.transmit_frame(frame, mode) self.log(f"Waiting {timeout} seconds...") if not self.event_frame_received.wait(timeout): self.log("Timeout waiting for ISS. Session failed.") self.transmission_failed() def launch_transmit_and_wait(self, frame, timeout, mode): thread_wait = threading.Thread(target = self.transmit_and_wait, args = [frame, timeout, mode], daemon=True) thread_wait.start() def send_open_ack(self, open_frame): self.maximum_bandwidth = open_frame['maximum_bandwidth'] # check for maximum bandwidth. If ISS bandwidth is higher than own, then use own if open_frame['maximum_bandwidth'] > self.config['MODEM']['maximum_bandwidth']: self.maximum_bandwidth = self.config['MODEM']['maximum_bandwidth'] self.event_manager.send_arq_session_new( False, self.id, self.dxcall, 0, self.state.name) ack_frame = self.frame_factory.build_arq_session_open_ack( self.id, self.dxcall, self.version, self.snr, flag_abort=self.abort) self.launch_transmit_and_wait(ack_frame, self.TIMEOUT_CONNECT, mode=FREEDV_MODE.signalling) if not self.abort: self.set_state(IRS_State.OPEN_ACK_SENT) return None, None def send_info_ack(self, info_frame): # Get session info from ISS self.received_data = bytearray(info_frame['total_length']) self.total_length = info_frame['total_length'] self.total_crc = info_frame['total_crc'] self.dx_snr.append(info_frame['snr']) self.type_byte = info_frame['type'] self.calibrate_speed_settings() self.log(f"New transfer of {self.total_length} bytes") self.event_manager.send_arq_session_new(False, self.id, self.dxcall, self.total_length, self.state.name) info_ack = self.frame_factory.build_arq_session_info_ack( self.id, self.total_crc, self.snr, self.speed_level, self.frames_per_burst, flag_abort=self.abort) self.launch_transmit_and_wait(info_ack, self.TIMEOUT_CONNECT, mode=FREEDV_MODE.signalling) if not self.abort: self.set_state(IRS_State.INFO_ACK_SENT) return None, None def process_incoming_data(self, frame): if frame['offset'] != self.received_bytes: self.log(f"Discarding data offset {frame['offset']}") return False remaining_data_length = self.total_length - self.received_bytes # Is this the last data part? if remaining_data_length <= len(frame['data']): # we only want the remaining length, not the entire frame data data_part = frame['data'][:remaining_data_length] else: # we want the entire frame data data_part = frame['data'] self.received_data[frame['offset']:] = data_part self.received_bytes += len(data_part) self.log(f"Received {self.received_bytes}/{self.total_length} bytes") self.event_manager.send_arq_session_progress( False, self.id, self.dxcall, self.received_bytes, self.total_length, self.state.name, self.calculate_session_statistics(self.received_bytes, self.total_length)) return True def receive_data(self, burst_frame): self.process_incoming_data(burst_frame) # update statistics self.update_histograms(self.received_bytes, self.total_length) if not self.all_data_received(): self.calibrate_speed_settings(burst_frame=burst_frame) ack = self.frame_factory.build_arq_burst_ack( self.id, self.received_bytes, self.speed_level, self.frames_per_burst, self.snr, flag_abort=self.abort ) self.set_state(IRS_State.BURST_REPLY_SENT) self.launch_transmit_and_wait(ack, self.TIMEOUT_DATA, mode=FREEDV_MODE.signalling) return None, None if self.final_crc_matches(): self.log("All data received successfully!") ack = self.frame_factory.build_arq_burst_ack(self.id, self.received_bytes, self.speed_level, self.frames_per_burst, self.snr, flag_final=True, flag_checksum=True) self.transmit_frame(ack, mode=FREEDV_MODE.signalling) self.log("ACK sent") self.session_ended = time.time() self.set_state(IRS_State.ENDED) self.event_manager.send_arq_session_finished( False, self.id, self.dxcall, True, self.state.name, data=self.received_data, statistics=self.calculate_session_statistics(self.received_bytes, self.total_length)) return self.received_data, self.type_byte else: ack = self.frame_factory.build_arq_burst_ack(self.id, self.received_bytes, self.speed_level, self.frames_per_burst, self.snr, flag_final=True, flag_checksum=False) self.transmit_frame(ack, mode=FREEDV_MODE.signalling) self.log("CRC fail at the end of transmission!") return self.transmission_failed() def calibrate_speed_settings(self, burst_frame=None): if burst_frame: received_speed_level = burst_frame['speed_level'] else: received_speed_level = 0 latest_snr = self.snr if self.snr else -10 appropriate_speed_level = self.get_appropriate_speed_level(latest_snr, self.maximum_bandwidth) modes_to_decode = {} # Log the latest SNR, current, appropriate speed levels, and the previous speed level self.log( f"Latest SNR: {latest_snr}, Current Speed Level: {self.speed_level}, Appropriate Speed Level: {appropriate_speed_level}, Previous Speed Level: {self.previous_speed_level}", isWarning=True) # Adjust the speed level by one step towards the appropriate level, if needed if appropriate_speed_level > self.speed_level and self.speed_level < len(self.SPEED_LEVEL_DICT) - 1: # we need to ensure, the received data is equal to our speed level before changing it if received_speed_level == self.speed_level: self.speed_level += 1 elif appropriate_speed_level < self.speed_level and self.speed_level > 0: # we need to ensure, the received data is equal to our speed level before changing it if received_speed_level == self.speed_level: self.speed_level -= 1 # Always decode the current mode current_mode = self.get_mode_by_speed_level(self.speed_level).value modes_to_decode[current_mode] = True # Decode the previous speed level mode if self.previous_speed_level != self.speed_level: previous_mode = self.get_mode_by_speed_level(self.previous_speed_level).value modes_to_decode[previous_mode] = True self.previous_speed_level = self.speed_level # Update the previous speed level self.log(f"Modes to Decode: {list(modes_to_decode.keys())}", isWarning=True) # Apply the new decode mode based on the updated and previous speed levels self.modem.demodulator.set_decode_mode(modes_to_decode) return self.speed_level def abort_transmission(self): self.log("Aborting transmission... setting abort flag") self.abort = True def send_stop_ack(self, stop_frame): stop_ack = self.frame_factory.build_arq_stop_ack(self.id) self.launch_transmit_and_wait(stop_ack, self.TIMEOUT_CONNECT, mode=FREEDV_MODE.signalling) self.set_state(IRS_State.ABORTED) self.states.setARQ(False) self.event_manager.send_arq_session_finished( False, self.id, self.dxcall, False, self.state.name, statistics=self.calculate_session_statistics(self.received_bytes, self.total_length)) return None, None def transmission_failed(self, irs_frame=None): # final function for failed transmissions self.session_ended = time.time() self.set_state(IRS_State.FAILED) self.log("Transmission failed!") self.event_manager.send_arq_session_finished(True, self.id, self.dxcall,False, self.state.name, statistics=self.calculate_session_statistics(self.received_bytes, self.total_length)) self.states.setARQ(False) return None, None