FreeDATA/modem/data cemetery/deprecated_protocol_arq_connection.py
2023-12-13 23:37:00 +01:00

309 lines
12 KiB
Python

import time
import helpers
from codec2 import FREEDV_MODE
from modem_frametypes import FRAME_TYPE as FR_TYPE
from deprecated_protocol_arq_session import ARQ
class SESSION(ARQ):
def __init__(self, config, event_queue, states):
super().__init__(config, event_queue, states)
def received_session_close(self, data_in: bytes, snr):
"""
Closes the session when a close session frame is received and
the DXCALLSIGN_CRC matches the remote station participating in the session.
Args:
data_in:bytes:
"""
# We've arrived here from process_data which already checked that the frame
# is intended for this station.
# Close the session if the CRC matches the remote station in static.
_valid_crc, mycallsign = helpers.check_callsign(self.mycallsign, bytes(data_in[2:5]), self.ssid_list)
_valid_session = helpers.check_session_id(self.session_id, bytes(data_in[1:2]))
if (_valid_crc or _valid_session) and self.states.arq_session_state not in ["disconnected"]:
self.states.set("arq_session_state", "disconnected")
self.dxgrid = b'------'
helpers.add_to_heard_stations(
self.dxcallsign,
self.dxgrid,
"DATA",
snr,
self.modem_frequency_offset,
self.states.radio_frequency,
self.states.heard_stations
)
self.log.info(
"[Modem] SESSION ["
+ str(self.mycallsign, "UTF-8")
+ "]<<X>>["
+ str(self.dxcallsign, "UTF-8")
+ "]",
self.states.arq_session_state,
)
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="close",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.IS_ARQ_SESSION_MASTER = False
self.states.is_arq_session = False
self.arq_cleanup()
def transmit_session_heartbeat(self) -> None:
"""Send ARQ sesion heartbeat while connected"""
# self.states.is_arq_session = True
# self.states.set("is_modem_busy", True)
# self.states.set("arq_session_state", "connected")
connection_frame = bytearray(self.length_sig0_frame)
connection_frame[:1] = bytes([FR_TYPE.ARQ_SESSION_HB.value])
connection_frame[1:2] = self.session_id
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="connected",
heartbeat="transmitting",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.enqueue_frame_for_tx([connection_frame], c2_mode=FREEDV_MODE.sig0.value, copies=1, repeat_delay=0)
def received_session_heartbeat(self, data_in: bytes, snr) -> None:
"""
Received an ARQ session heartbeat, record and update state accordingly.
Args:
data_in:bytes:
"""
# Accept session data if the DXCALLSIGN_CRC matches the station in static or session id.
_valid_crc, _ = helpers.check_callsign(self.dxcallsign, bytes(data_in[4:7]), self.ssid_list)
_valid_session = helpers.check_session_id(self.session_id, bytes(data_in[1:2]))
if _valid_crc or _valid_session and self.states.arq_session_state in ["connected", "connecting"]:
self.log.debug("[Modem] Received session heartbeat")
self.dxgrid = b'------'
helpers.add_to_heard_stations(
self.dxcallsign,
self.dxgrid,
"SESSION-HB",
snr,
self.modem_frequency_offset,
self.states.radio_frequency,
self.states.heard_stations
)
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="connected",
heartbeat="received",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.states.is_arq_session = True
self.states.set("arq_session_state", "connected")
self.states.set("is_modem_busy", True)
# Update the timeout timestamps
self.arq_session_last_received = int(time.time())
self.data_channel_last_received = int(time.time())
# transmit session heartbeat only
# -> if not session master
# --> this will be triggered by heartbeat watchdog
# -> if not during a file transfer
# -> if ARQ_SESSION_STATE != disconnecting, disconnected, failed
# --> to avoid heartbeat toggle loops while disconnecting
if (
not self.IS_ARQ_SESSION_MASTER
and not self.arq_file_transfer
and self.states.arq_session_state != 'disconnecting'
and self.states.arq_session_state != 'disconnected'
and self.states.arq_session_state != 'failed'
):
self.transmit_session_heartbeat()
def close_session(self) -> None:
"""Close the ARQ session"""
self.states.set("arq_session_state", "disconnecting")
self.log.info(
"[Modem] SESSION ["
+ str(self.mycallsign, "UTF-8")
+ "]<<X>>["
+ str(self.dxcallsign, "UTF-8")
+ "]",
self.states.arq_session_state,
)
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="close",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.IS_ARQ_SESSION_MASTER = False
self.states.is_arq_session = False
# we need to send disconnect frame before doing arq cleanup
# we would lose our session id then
self.send_disconnect_frame()
# transmit morse identifier if configured
if self.enable_morse_identifier:
MODEM_TRANSMIT_QUEUE.put(["morse", 1, 0, self.mycallsign])
self.arq_cleanup()
def open_session(self) -> bool:
"""
Create and send the frame to request a connection.
Returns:
True if the session was opened successfully
False if the session open request failed
"""
self.IS_ARQ_SESSION_MASTER = True
self.states.set("arq_session_state", "connecting")
# create a random session id
self.session_id = np.random.bytes(1)
# build connection frame
connection_frame = self.frame_factory.build_arq_session_connect(
session_id=self.session_id,
destination_crc=self.dxcallsign_crc,
)
while not self.states.is_arq_session:
threading.Event().wait(0.01)
for attempt in range(self.session_connect_max_retries):
self.log.info(
"[Modem] SESSION ["
+ str(self.mycallsign, "UTF-8")
+ "]>>?<<["
+ str(self.dxcallsign, "UTF-8")
+ "]",
a=f"{str(attempt + 1)}/{str(self.session_connect_max_retries)}",
state=self.states.arq_session_state,
)
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="connecting",
attempt=attempt + 1,
maxattempts=self.session_connect_max_retries,
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.enqueue_frame_for_tx([connection_frame], c2_mode=FREEDV_MODE.sig0.value, copies=1, repeat_delay=0)
# Wait for a time, looking to see if `self.states.is_arq_session`
# indicates we've received a positive response from the far station.
timeout = time.time() + 3
while time.time() < timeout:
threading.Event().wait(0.01)
# Stop waiting if data channel is opened
if self.states.is_arq_session:
return True
# Stop waiting and interrupt if data channel is getting closed while opening
if self.states.arq_session_state == "disconnecting":
# disabled this session close as its called twice
# self.close_session()
return False
# Session connect timeout, send close_session frame to
# attempt to clean up the far-side, if it received the
# open_session frame and can still hear us.
if not self.states.is_arq_session:
self.close_session()
return False
# Given the while condition, it will only exit when `self.states.is_arq_session` is True
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="connected",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
return True
def received_session_opener(self, data_in: bytes, snr) -> None:
"""
Received a session open request packet.
Args:
data_in:bytes:
"""
# if we don't want to respond to calls, return False
if not self.respond_to_call:
return False
# ignore channel opener if already in ARQ STATE
# use case: Station A is connecting to Station B while
# Station B already tries connecting to Station A.
# For avoiding ignoring repeated connect request in case of packet loss
# we are only ignoring packets in case we are ISS
if self.states.is_arq_session and self.IS_ARQ_SESSION_MASTER:
return False
self.IS_ARQ_SESSION_MASTER = False
self.states.set("arq_session_state", "connecting")
# Update arq_session timestamp
self.arq_session_last_received = int(time.time())
self.session_id = bytes(data_in[1:2])
self.dxcallsign_crc = bytes(data_in[5:8])
self.dxcallsign = helpers.bytes_to_callsign(bytes(data_in[8:14]))
self.states.set("dxcallsign", self.dxcallsign)
# check if callsign ssid override
valid, mycallsign = helpers.check_callsign(self.mycallsign, data_in[2:5], self.ssid_list)
self.mycallsign = mycallsign
self.dxgrid = b'------'
helpers.add_to_heard_stations(
self.dxcallsign,
self.dxgrid,
"DATA",
snr,
self.modem_frequency_offset,
self.states.radio_frequency,
self.states.heard_stations
)
self.log.info(
"[Modem] SESSION ["
+ str(self.mycallsign, "UTF-8")
+ "]>>|<<["
+ str(self.dxcallsign, "UTF-8")
+ "]",
self.states.arq_session_state,
)
self.states.is_arq_session = True
self.states.set("is_modem_busy", True)
self.event_manager.send_custom_event(
freedata="modem-message",
arq="session",
status="connected",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.transmit_session_heartbeat()