mirror of
https://github.com/DJ2LS/FreeDATA
synced 2024-05-14 10:04:33 +02:00
316 lines
12 KiB
Python
316 lines
12 KiB
Python
import threading
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from enum import Enum
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from modem_frametypes import FRAME_TYPE
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from codec2 import FREEDV_MODE
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import data_frame_factory
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import structlog
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import random
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from queue import Queue
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import time
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from command_arq_raw import ARQRawCommand
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import numpy as np
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import base64
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from arq_data_type_handler import ARQDataTypeHandler, ARQ_SESSION_TYPES
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from arq_session_iss import ARQSessionISS
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class States(Enum):
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NEW = 0
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CONNECTING = 1
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CONNECT_SENT = 2
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CONNECT_ACK_SENT = 3
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CONNECTED = 4
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#HEARTBEAT_SENT = 5
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#HEARTBEAT_ACK_SENT = 6
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PAYLOAD_SENT = 7
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ARQ_SESSION = 8
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DISCONNECTING = 9
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DISCONNECTED = 10
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FAILED = 11
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class P2PConnection:
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STATE_TRANSITION = {
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States.NEW: {
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FRAME_TYPE.P2P_CONNECTION_CONNECT.value: 'connected_irs',
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},
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States.CONNECTING: {
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FRAME_TYPE.P2P_CONNECTION_CONNECT_ACK.value: 'connected_iss',
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},
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States.CONNECTED: {
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FRAME_TYPE.P2P_CONNECTION_CONNECT.value: 'connected_irs',
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FRAME_TYPE.P2P_CONNECTION_CONNECT_ACK.value: 'connected_iss',
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FRAME_TYPE.P2P_CONNECTION_PAYLOAD.value: 'received_data',
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FRAME_TYPE.P2P_CONNECTION_DISCONNECT.value: 'received_disconnect',
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},
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States.PAYLOAD_SENT: {
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FRAME_TYPE.P2P_CONNECTION_PAYLOAD_ACK.value: 'transmitted_data',
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},
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States.DISCONNECTING: {
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FRAME_TYPE.P2P_CONNECTION_DISCONNECT_ACK.value: 'received_disconnect_ack',
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},
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States.DISCONNECTED: {
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FRAME_TYPE.P2P_CONNECTION_DISCONNECT.value: 'received_disconnect',
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FRAME_TYPE.P2P_CONNECTION_DISCONNECT_ACK.value: 'received_disconnect_ack',
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},
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}
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def __init__(self, config: dict, modem, origin: str, destination: str, state_manager, event_manager, socket_command_handler=None):
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self.logger = structlog.get_logger(type(self).__name__)
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self.config = config
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self.frame_factory = data_frame_factory.DataFrameFactory(self.config)
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self.socket_command_handler = socket_command_handler
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self.destination = destination
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self.origin = origin
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self.bandwidth = 0
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self.state_manager = state_manager
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self.event_manager = event_manager
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self.modem = modem
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self.modem.demodulator.set_decode_mode([])
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self.p2p_data_rx_queue = Queue()
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self.p2p_data_tx_queue = Queue()
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self.arq_data_type_handler = ARQDataTypeHandler(self.event_manager, self.state_manager)
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self.state = States.NEW
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self.session_id = self.generate_id()
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self.event_frame_received = threading.Event()
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self.RETRIES_CONNECT = 1
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self.TIMEOUT_CONNECT = 10
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self.TIMEOUT_DATA = 5
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self.RETRIES_DATA = 5
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self.ENTIRE_CONNECTION_TIMEOUT = 100
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self.is_ISS = False # Indicator, if we are ISS or IRS
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self.last_data_timestamp= time.time()
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self.start_data_processing_worker()
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def start_data_processing_worker(self):
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"""Starts a worker thread to monitor the transmit data queue and process data."""
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def data_processing_worker():
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while True:
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if time.time() > self.last_data_timestamp + self.ENTIRE_CONNECTION_TIMEOUT and self.state is not States.ARQ_SESSION:
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self.disconnect()
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return
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if not self.p2p_data_tx_queue.empty() and self.state == States.CONNECTED:
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self.process_data_queue()
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threading.Event().wait(0.1)
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# Create and start the worker thread
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worker_thread = threading.Thread(target=data_processing_worker, daemon=True)
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worker_thread.start()
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def generate_id(self):
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while True:
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random_int = random.randint(1,255)
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if random_int not in self.state_manager.p2p_connection_sessions:
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return random_int
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if len(self.state_manager.p2p_connection_sessions) >= 255:
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return False
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def set_details(self, snr, frequency_offset):
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self.snr = snr
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self.frequency_offset = frequency_offset
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def log(self, message, isWarning = False):
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msg = f"[{type(self).__name__}][id={self.session_id}][state={self.state}][ISS={bool(self.is_ISS)}]: {message}"
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logger = self.logger.warn if isWarning else self.logger.info
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logger(msg)
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def set_state(self, state):
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if self.state == state:
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self.log(f"{type(self).__name__} state {self.state.name} unchanged.")
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else:
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self.log(f"{type(self).__name__} state change from {self.state.name} to {state.name}")
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self.state = state
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def on_frame_received(self, frame):
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self.last_data_timestamp = time.time()
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self.event_frame_received.set()
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self.log(f"Received {frame['frame_type']}")
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frame_type = frame['frame_type_int']
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if self.state in self.STATE_TRANSITION:
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if frame_type in self.STATE_TRANSITION[self.state]:
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action_name = self.STATE_TRANSITION[self.state][frame_type]
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response = getattr(self, action_name)(frame)
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return
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self.log(f"Ignoring unknown transition from state {self.state.name} with frame {frame['frame_type']}")
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def transmit_frame(self, frame: bytearray, mode='auto'):
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self.log("Transmitting frame")
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if mode in ['auto']:
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mode = self.get_mode_by_speed_level(self.speed_level)
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self.modem.transmit(mode, 1, 1, frame)
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def transmit_wait_and_retry(self, frame_or_burst, timeout, retries, mode):
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while retries > 0:
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self.event_frame_received = threading.Event()
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if isinstance(frame_or_burst, list): burst = frame_or_burst
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else: burst = [frame_or_burst]
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for f in burst:
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self.transmit_frame(f, mode)
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self.event_frame_received.clear()
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self.log(f"Waiting {timeout} seconds...")
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if self.event_frame_received.wait(timeout):
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return
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self.log("Timeout!")
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retries = retries - 1
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#self.connected_iss() # override connection state for simulation purposes
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self.session_failed()
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def launch_twr(self, frame_or_burst, timeout, retries, mode):
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twr = threading.Thread(target = self.transmit_wait_and_retry, args=[frame_or_burst, timeout, retries, mode], daemon=True)
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twr.start()
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def transmit_and_wait_irs(self, frame, timeout, mode):
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self.event_frame_received.clear()
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self.transmit_frame(frame, mode)
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self.log(f"Waiting {timeout} seconds...")
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#if not self.event_frame_received.wait(timeout):
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# self.log("Timeout waiting for ISS. Session failed.")
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# self.transmission_failed()
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def launch_twr_irs(self, frame, timeout, mode):
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thread_wait = threading.Thread(target = self.transmit_and_wait_irs,
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args = [frame, timeout, mode], daemon=True)
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thread_wait.start()
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def connect(self):
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self.set_state(States.CONNECTING)
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self.is_ISS = True
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session_open_frame = self.frame_factory.build_p2p_connection_connect(self.origin, self.destination, self.session_id)
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self.launch_twr(session_open_frame, self.TIMEOUT_CONNECT, self.RETRIES_CONNECT, mode=FREEDV_MODE.signalling)
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return
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def connected_iss(self, frame=None):
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self.log("CONNECTED ISS...........................")
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self.set_state(States.CONNECTED)
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self.is_ISS = True
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if self.socket_command_handler:
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self.socket_command_handler.socket_respond_connected(self.origin, self.destination, self.bandwidth)
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def connected_irs(self, frame):
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self.log("CONNECTED IRS...........................")
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self.state_manager.register_p2p_connection_session(self)
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self.set_state(States.CONNECTED)
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self.is_ISS = False
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self.orign = frame["origin"]
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self.destination = frame["destination_crc"]
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if self.socket_command_handler:
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self.socket_command_handler.socket_respond_connected(self.origin, self.destination, self.bandwidth)
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session_open_frame = self.frame_factory.build_p2p_connection_connect_ack(self.destination, self.origin, self.session_id)
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self.launch_twr_irs(session_open_frame, self.ENTIRE_CONNECTION_TIMEOUT, mode=FREEDV_MODE.signalling)
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def session_failed(self):
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self.set_state(States.FAILED)
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if self.socket_command_handler:
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self.socket_command_handler.socket_respond_disconnected()
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def process_data_queue(self, frame=None):
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if not self.p2p_data_tx_queue.empty():
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print("processing data....")
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self.set_state(States.PAYLOAD_SENT)
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data = self.p2p_data_tx_queue.get()
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sequence_id = random.randint(0,255)
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data = data.encode('utf-8')
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if len(data) <= 11:
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mode = FREEDV_MODE.signalling
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elif 11 < len(data) < 32:
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mode = FREEDV_MODE.datac4
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else:
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self.transmit_arq(data)
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return
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payload = self.frame_factory.build_p2p_connection_payload(mode, self.session_id, sequence_id, data)
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self.launch_twr(payload, self.TIMEOUT_DATA, self.RETRIES_DATA,mode=mode)
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return
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def prepare_data_chunk(self, data, mode):
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return data
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def received_data(self, frame):
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print(frame)
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self.p2p_data_rx_queue.put(frame['data'])
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ack_data = self.frame_factory.build_p2p_connection_payload_ack(self.session_id, 0)
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self.launch_twr_irs(ack_data, self.ENTIRE_CONNECTION_TIMEOUT, mode=FREEDV_MODE.signalling)
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def transmit_data_ack(self, frame):
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print(frame)
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def transmitted_data(self, frame):
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print("transmitted data...")
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self.set_state(States.CONNECTED)
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def disconnect(self):
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if self.state not in [States.DISCONNECTING, States.DISCONNECTED]:
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self.set_state(States.DISCONNECTING)
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disconnect_frame = self.frame_factory.build_p2p_connection_disconnect(self.session_id)
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self.launch_twr(disconnect_frame, self.TIMEOUT_CONNECT, self.RETRIES_CONNECT, mode=FREEDV_MODE.signalling)
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return
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def received_disconnect(self, frame):
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self.log("DISCONNECTED...............")
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self.set_state(States.DISCONNECTED)
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if self.socket_command_handler:
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self.socket_command_handler.socket_respond_disconnected()
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self.is_ISS = False
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disconnect_ack_frame = self.frame_factory.build_p2p_connection_disconnect_ack(self.session_id)
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self.launch_twr_irs(disconnect_ack_frame, self.ENTIRE_CONNECTION_TIMEOUT, mode=FREEDV_MODE.signalling)
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def received_disconnect_ack(self, frame):
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self.log("DISCONNECTED...............")
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self.set_state(States.DISCONNECTED)
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if self.socket_command_handler:
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self.socket_command_handler.socket_respond_disconnected()
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def transmit_arq(self, data):
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self.set_state(States.ARQ_SESSION)
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print("----------------------------------------------------------------")
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print(self.destination)
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print(self.state_manager.p2p_connection_sessions)
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prepared_data, type_byte = self.arq_data_type_handler.prepare(data, ARQ_SESSION_TYPES.p2p_connection)
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iss = ARQSessionISS(self.config, self.modem, 'AA1AAA-1', self.state_manager, prepared_data, type_byte)
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iss.id = self.session_id
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if iss.id:
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self.state_manager.register_arq_iss_session(iss)
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iss.start()
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return iss
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def transmitted_arq(self):
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self.last_data_timestamp = time.time()
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self.set_state(States.CONNECTED)
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def received_arq(self, data):
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self.last_data_timestamp = time.time()
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self.set_state(States.CONNECTED)
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self.p2p_data_rx_queue.put(data)
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