FreeDATA/modem/protocol_arq.py

738 lines
28 KiB
Python
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import threading
import time
import codec2
import helpers
import modem
import stats
import structlog
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from data_frame_factory import DataFrameFactory
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from codec2 import FREEDV_MODE, FREEDV_MODE_USED_SLOTS
from modem_frametypes import FRAME_TYPE as FR_TYPE
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import event_manager
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from data_handler import DATA
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TESTMODE = False
class ARQ:
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def __init__(self, config, event_queue, states):
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self.log = structlog.get_logger("DHARQ")
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self.event_queue = event_queue
self.states = states
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self.event_manager = event_manager.EventManager([event_queue])
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self.frame_factory = DataFrameFactory(config)
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# ARQ PROTOCOL VERSION
# v.5 - signalling frame uses datac0
# v.6 - signalling frame uses datac13
# v.7 - adjusting ARQ timeout
# v.8 - adjusting ARQ structure
self.arq_protocol_version = 8
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self.stats = stats.stats(config, event_queue, states)
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# load config
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self.mycallsign = config['STATION']['mycall']
self.myssid = config['STATION']['myssid']
self.mycallsign += "-" + str(self.myssid)
encoded_call = helpers.callsign_to_bytes(self.mycallsign)
self.mycallsign = helpers.bytes_to_callsign(encoded_call)
self.ssid_list = config['STATION']['ssid_list']
self.mycallsign_crc = helpers.get_crc_24(self.mycallsign)
self.mygrid = config['STATION']['mygrid']
self.enable_fsk = config['MODEM']['enable_fsk']
self.respond_to_cq = config['MODEM']['respond_to_cq']
self.enable_hmac = config['MODEM']['enable_hmac']
self.enable_stats = config['STATION']['enable_stats']
self.enable_morse_identifier = config['MODEM']['enable_morse_identifier']
self.arq_rx_buffer_size = config['MODEM']['rx_buffer_size']
self.enable_experimental_features = False
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# flag to indicate if modem running in low bandwidth mode
self.low_bandwidth_mode = config["MODEM"]["enable_low_bandwidth_mode"]
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# Enable general responding to channel openers for example
# this can be combined with a callsign blacklist for example
self.respond_to_call = True
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self.modem_frequency_offset = 0
self.dxcallsign = b"ZZ9YY-0"
self.dxcallsign_crc = b''
self.dxgrid = b''
# length of signalling frame
self.length_sig0_frame = 14
self.length_sig1_frame = 14
# duration of frames
self.duration_datac4 = 5.17
self.duration_datac13 = 2.0
self.duration_datac1 = 4.18
self.duration_datac3 = 3.19
self.duration_sig0_frame = self.duration_datac13
self.duration_sig1_frame = self.duration_datac13
self.longest_duration = self.duration_datac4
# hold session id
self.session_id = bytes(1)
# ------- ARQ SESSION
self.arq_file_transfer = False
self.IS_ARQ_SESSION_MASTER = False
self.arq_session_last_received = 0
self.arq_session_timeout = 30
self.session_connect_max_retries = 10
self.arq_compression_factor = 0
self.transmission_uuid = ""
self.burst_last_received = 0.0 # time of last "live sign" of a burst
self.data_channel_last_received = 0.0 # time of last "live sign" of a frame
# Flag to indicate if we received an ACK frame for a burst
self.burst_ack = False
# Flag to indicate if we received an ACK frame for a data frame
self.data_frame_ack_received = False
# Flag to indicate if we received a request for repeater frames
self.rpt_request_received = False
self.rpt_request_buffer = [] # requested frames, saved in a list
self.burst_rpt_counter = 0
# 3 bytes for the BOF Beginning of File indicator in a data frame
self.data_frame_bof = b"BOF"
# 3 bytes for the EOF End of File indicator in a data frame
self.data_frame_eof = b"EOF"
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self.n_retries_per_burst = 0
self.max_n_frames_per_burst = 1
# Flag to indicate if we received a low bandwidth mode channel opener
self.received_LOW_BANDWIDTH_MODE = False
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self.data_channel_max_retries = 15
# event for checking arq_state_event
self.arq_state_event = threading.Event()
# -------------- AVAILABLE MODES START-----------
# IMPORTANT: LISTS MUST BE OF EQUAL LENGTH
# --------------------- LOW BANDWIDTH
# List of codec2 modes to use in "low bandwidth" mode.
self.mode_list_low_bw = [
FREEDV_MODE.datac4.value,
]
# List for minimum SNR operating level for the corresponding mode in self.mode_list
self.snr_list_low_bw = [-100]
# List for time to wait for corresponding mode in seconds
self.time_list_low_bw = [self.duration_datac4]
# --------------------- HIGH BANDWIDTH
# List of codec2 modes to use in "high bandwidth" mode.
self.mode_list_high_bw = [
FREEDV_MODE.datac4.value,
FREEDV_MODE.datac3.value,
FREEDV_MODE.datac1.value,
]
# List for minimum SNR operating level for the corresponding mode in self.mode_list
self.snr_list_high_bw = [-100, 0, 3]
# List for time to wait for corresponding mode in seconds
# test with 6,7 --> caused sometimes a frame timeout if ack frame takes longer
# TODO Need to check why ACK frames needs more time
# TODO Adjust these times
self.time_list_high_bw = [self.duration_datac4, self.duration_datac3, self.duration_datac1]
# -------------- AVAILABLE MODES END-----------
# Mode list for selecting between low bandwidth ( 500Hz ) and modes with higher bandwidth
# but ability to fall back to low bandwidth modes if needed.
if self.low_bandwidth_mode:
# List of codec2 modes to use in "low bandwidth" mode.
self.mode_list = self.mode_list_low_bw
# list of times to wait for corresponding mode in seconds
self.time_list = self.time_list_low_bw
else:
# List of codec2 modes to use in "high bandwidth" mode.
self.mode_list = self.mode_list_high_bw
# list of times to wait for corresponding mode in seconds
self.time_list = self.time_list_high_bw
self.speed_level = len(self.mode_list) - 1 # speed level for selecting mode
self.states.set("arq_speed_level", self.speed_level)
self.is_IRS = False
self.burst_nack = False
self.burst_nack_counter = 0
self.frame_nack_counter = 0
self.frame_received_counter = 0
# TIMEOUTS
self.transmission_timeout = 180 # transmission timeout in seconds
self.channel_busy_timeout = 3 # time how long we want to wait until channel busy state overrides
# START THE THREAD FOR THE TIMEOUT WATCHDOG
watchdog_thread = threading.Thread(
target=self.watchdog, name="watchdog", daemon=True
)
watchdog_thread.start()
arq_session_thread = threading.Thread(
target=self.heartbeat, name="watchdog", daemon=True
)
arq_session_thread.start()
def send_ident_frame(self, transmit) -> None:
"""Build and send IDENT frame """
ident_frame = bytearray(self.length_sig1_frame)
ident_frame[:1] = bytes([FR_TYPE.IDENT.value])
ident_frame[1:self.length_sig1_frame] = self.mycallsign
# Transmit frame
if transmit:
self.enqueue_frame_for_tx([ident_frame], c2_mode=FREEDV_MODE.sig0.value)
else:
return ident_frame
def send_disconnect_frame(self) -> None:
"""Build and send a disconnect frame"""
disconnection_frame = bytearray(self.length_sig1_frame)
disconnection_frame[:1] = bytes([FR_TYPE.ARQ_SESSION_CLOSE.value])
disconnection_frame[1:2] = self.session_id
disconnection_frame[2:5] = self.dxcallsign_crc
# wait if we have a channel busy condition
if self.states.channel_busy:
self.channel_busy_handler()
self.enqueue_frame_for_tx([disconnection_frame], c2_mode=FREEDV_MODE.sig0.value, copies=3, repeat_delay=0)
def check_if_mode_fits_to_busy_slot(self):
"""
Check if actual mode is fitting into given busy state
Returns:
"""
mode_name = FREEDV_MODE(self.mode_list[self.speed_level]).name
mode_slots = FREEDV_MODE_USED_SLOTS[mode_name].value
if mode_slots in [self.states.channel_busy_slot]:
self.log.warning(
"[Modem] busy slot detection",
slots=self.states.channel_busy_slot,
mode_slots=mode_slots,
)
return False
return True
def arq_calculate_speed_level(self, snr):
current_speed_level = self.speed_level
self.frame_received_counter += 1
# try increasing speed level only if we had two successful decodes
if self.frame_received_counter >= 2:
self.frame_received_counter = 0
# make sure new speed level isn't higher than available modes
new_speed_level = min(self.speed_level + 1, len(self.mode_list) - 1)
# check if actual snr is higher than minimum snr for next mode
if snr >= self.snr_list[new_speed_level]:
self.speed_level = new_speed_level
else:
self.log.info("[Modem] ARQ | increasing speed level not possible because of SNR limit",
given_snr=snr,
needed_snr=self.snr_list[new_speed_level]
)
# calculate if speed level fits to busy condition
if not self.check_if_mode_fits_to_busy_slot():
self.speed_level = current_speed_level
self.states.set("arq_speed_level", self.speed_level)
# Update modes we are listening to
self.set_listening_modes(False, True, self.mode_list[self.speed_level])
self.log.debug(
"[Modem] calculated speed level",
speed_level=self.speed_level,
given_snr=snr,
min_snr=self.snr_list[self.speed_level],
)
# for i in range(0, 6, 2):
# if not missing_area[i: i + 2].endswith(b"\x00\x00"):
# self.rpt_request_buffer.insert(0, missing_area[i: i + 2])
##########################################################################################################
# ARQ DATA CHANNEL HANDLER
##########################################################################################################
def stop_transmission(self) -> None:
"""
Force a stop of the running transmission
"""
self.log.warning("[Modem] Stopping transmission!")
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self.event_manager.send_custom_event(
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freedata="modem-message",
arq="transmission",
status="stopped",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8')
)
stop_frame = bytearray(self.length_sig0_frame)
stop_frame[:1] = bytes([FR_TYPE.ARQ_STOP.value])
stop_frame[1:4] = self.dxcallsign_crc
stop_frame[4:7] = self.mycallsign_crc
# TODO Not sure if we really need the session id when disconnecting
# stop_frame[1:2] = self.session_id
stop_frame[7:13] = helpers.callsign_to_bytes(self.mycallsign)
self.enqueue_frame_for_tx([stop_frame], c2_mode=FREEDV_MODE.sig1.value, copies=3, repeat_delay=0)
self.arq_cleanup()
def received_stop_transmission(
self, deconstructed_frame: list
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) -> None: # pylint: disable=unused-argument
"""
Received a transmission stop
"""
self.log.warning("[Modem] Stopping transmission!")
self.states.set("is_modem_busy", False)
self.states.set("is_arq_state", False)
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self.event_manager.send_custom_event(
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freedata="modem-message",
arq="transmission",
status="stopped",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
uuid=self.transmission_uuid
)
self.arq_cleanup()
def channel_busy_handler(self):
"""
function for handling the channel busy situation
Args:
Returns:
"""
self.log.warning("[Modem] Channel busy, waiting until free...")
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self.event_manager.send_custom_event(
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freedata="modem-message",
channel="busy",
status="waiting",
)
# wait while timeout not reached and our busy state is busy
channel_busy_timeout = time.time() + self.channel_busy_timeout
while self.states.channel_busy and time.time() < channel_busy_timeout and not self.check_if_mode_fits_to_busy_slot():
threading.Event().wait(0.01)
# ------------ CALCULATE TRANSFER RATES
def reset_statistics(self) -> None:
"""
Reset statistics
"""
# reset ARQ statistics
self.states.set("bytes_per_minute_burst", 0)
self.states.set("arq_total_bytes", 0)
self.states.set("self.states.arq_seconds_until_finish", 0)
self.states.set("arq_bits_per_second", 0)
self.states.set("bytes_per_minute", 0)
self.states.set("arq_transmission_percent", 0)
self.states.set("arq_compression_factor", 0)
# ----------------------CLEANUP AND RESET FUNCTIONS
def arq_cleanup(self) -> None:
"""
Cleanup function which clears all ARQ states
"""
# TODO
# We need to check if we are in a ARQ session
# Then we cant delete the session_id for now
self.states.delete_arq_instance_by_id(self.session_id)
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if TESTMODE:
self.log.debug("[Modem] TESTMODE: arq_cleanup: Not performing cleanup.")
return
self.log.debug("[Modem] arq_cleanup")
# wait a second for smoother arq behaviour
helpers.wait(1.0)
self.rx_frame_bof_received = False
self.rx_frame_eof_received = False
self.burst_ack = False
self.rpt_request_received = False
self.burst_rpt_counter = 0
self.data_frame_ack_received = False
self.arq_rx_burst_buffer = []
self.arq_rx_frame_buffer = b""
self.burst_ack_snr = 0
self.arq_burst_last_payload = 0
self.rx_n_frame_of_burst = 0
self.rx_n_frames_per_burst = 0
# reset modem receiving state to reduce cpu load
modem.RECEIVE_SIG0 = True
modem.RECEIVE_SIG1 = False
modem.RECEIVE_DATAC1 = False
modem.RECEIVE_DATAC3 = False
modem.RECEIVE_DATAC4 = False
# modem.RECEIVE_FSK_LDPC_0 = False
modem.RECEIVE_FSK_LDPC_1 = False
self.is_IRS = False
self.burst_nack = False
self.burst_nack_counter = 0
self.frame_nack_counter = 0
self.frame_received_counter = 0
self.speed_level = len(self.mode_list) - 1
self.states.set("arq_speed_level", self.speed_level)
# low bandwidth mode indicator
self.received_LOW_BANDWIDTH_MODE = False
# reset retry counter for rx channel / burst
self.n_retries_per_burst = 0
# reset max retries possibly overriden by api
self.session_connect_max_retries = 10
self.data_channel_max_retries = 10
self.states.set("arq_session_state", "disconnected")
self.states.arq_speed_list = []
self.states.set("is_arq_state", False)
self.arq_state_event = threading.Event()
self.arq_file_transfer = False
self.beacon_paused = False
# reset beacon interval timer for not directly starting beacon after ARQ
self.beacon_interval_timer = time.time() + self.beacon_interval
def arq_reset_ack(self, state: bool) -> None:
"""
Funktion for resetting acknowledge states
Args:
state:bool:
"""
self.burst_ack = state
self.rpt_request_received = state
self.data_frame_ack_received = state
def set_listening_modes(self, enable_sig0: bool, enable_sig1: bool, mode: int) -> None:
# sourcery skip: extract-duplicate-method
"""
Function for setting the data modes we are listening to for saving cpu power
Args:
enable_sig0:int: Enable/Disable signalling mode 0
enable_sig1:int: Enable/Disable signalling mode 1
mode:int: Codec2 mode to listen for
"""
# set modes we want to listen to
modem.RECEIVE_SIG0 = enable_sig0
modem.RECEIVE_SIG1 = enable_sig1
if mode == codec2.FREEDV_MODE.datac1.value:
modem.RECEIVE_DATAC1 = True
modem.RECEIVE_DATAC3 = False
modem.RECEIVE_DATAC4 = False
modem.RECEIVE_FSK_LDPC_1 = False
self.log.debug("[Modem] Changing listening data mode", mode="datac1")
elif mode == codec2.FREEDV_MODE.datac3.value:
modem.RECEIVE_DATAC1 = False
modem.RECEIVE_DATAC3 = True
modem.RECEIVE_DATAC4 = False
modem.RECEIVE_FSK_LDPC_1 = False
self.log.debug("[Modem] Changing listening data mode", mode="datac3")
elif mode == codec2.FREEDV_MODE.datac4.value:
modem.RECEIVE_DATAC1 = False
modem.RECEIVE_DATAC3 = False
modem.RECEIVE_DATAC4 = True
modem.RECEIVE_FSK_LDPC_1 = False
self.log.debug("[Modem] Changing listening data mode", mode="datac4")
elif mode == codec2.FREEDV_MODE.fsk_ldpc_1.value:
modem.RECEIVE_DATAC1 = False
modem.RECEIVE_DATAC3 = False
modem.RECEIVE_DATAC4 = False
modem.RECEIVE_FSK_LDPC_1 = True
self.log.debug("[Modem] Changing listening data mode", mode="fsk_ldpc_1")
else:
modem.RECEIVE_DATAC1 = True
modem.RECEIVE_DATAC3 = True
modem.RECEIVE_DATAC4 = True
modem.RECEIVE_FSK_LDPC_1 = True
self.log.debug(
"[Modem] Changing listening data mode", mode="datac1/datac3/fsk_ldpc"
)
# ------------------------- WATCHDOG FUNCTIONS FOR TIMER
def watchdog(self) -> None:
"""Author: DJ2LS
Watchdog master function. From here, "pet" the watchdogs
"""
while True:
threading.Event().wait(0.1)
self.data_channel_keep_alive_watchdog()
self.burst_watchdog()
self.arq_session_keep_alive_watchdog()
def burst_watchdog(self) -> None:
"""
Watchdog which checks if we are running into a connection timeout
DATA BURST
"""
# IRS SIDE
# TODO We need to redesign this part for cleaner state handling
# Return if not ARQ STATE and not ARQ SESSION STATE as they are different use cases
if (
not self.states.is_arq_state
and self.states.arq_session_state != "connected"
or not self.is_IRS
):
return
# get modem error state
modem_error_state = modem.get_modem_error_state()
# We want to reach this state only if connected ( == return above not called )
if self.rx_n_frames_per_burst > 1:
# uses case for IRS: reduce time for waiting by counting "None" in burst buffer
frames_left = self.arq_rx_burst_buffer.count(None)
elif self.rx_n_frame_of_burst == 0 and self.rx_n_frames_per_burst == 0:
# use case for IRS: We didn't receive a burst yet, because the first one got lost
# in this case we don't have any information about the expected burst length
# we must assume, we are getting a burst with max_n_frames_per_burst
frames_left = self.max_n_frames_per_burst
else:
frames_left = 1
# make sure we don't have a 0 here for avoiding too short timeouts
if frames_left == 0:
frames_left = 1
# timeout is reached, if we didnt receive data, while we waited
# for the corresponding data frame + the transmitted signalling frame of ack/nack
# + a small offset of about 1 second
timeout = \
(
self.burst_last_received
+ (self.time_list[self.speed_level] * frames_left)
+ self.duration_sig0_frame
+ self.channel_busy_timeout
+ 1
)
# override calculation
# if we reached 2/3 of the waiting time and didnt received a signal
# then send NACK earlier
time_left = timeout - time.time()
waiting_time = (self.time_list[
self.speed_level] * frames_left) + self.duration_sig0_frame + self.channel_busy_timeout + 1
timeout_percent = 100 - (time_left / waiting_time * 100)
# timeout_percent = 0
if timeout_percent >= 75 and not self.states.is_codec2_traffic and not self.states.isTransmitting():
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override = True
else:
override = False
# TODO Enable this for development
print(
f"timeout expected in:{round(timeout - time.time())} | timeout percent: {timeout_percent} | frames left: {frames_left} of {self.rx_n_frames_per_burst} | speed level: {self.speed_level}")
# if timeout is expired, but we are receivingt codec2 data,
# better wait some more time because data might be important for us
# reason for this situation can be delays on IRS and ISS, maybe because both had a busy channel condition.
# Nevertheless, we need to keep timeouts short for efficiency
if timeout <= time.time() or modem_error_state and not self.states.is_codec2_traffic and not self.states.isTransmitting() or override:
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self.log.warning(
"[Modem] Burst decoding error or timeout",
attempt=self.n_retries_per_burst,
max_attempts=self.rx_n_max_retries_per_burst,
speed_level=self.speed_level,
modem_error_state=modem_error_state
)
print(
f"frames_per_burst {self.rx_n_frame_of_burst} / {self.rx_n_frames_per_burst}, Repeats: {self.burst_rpt_counter} Nones: {self.arq_rx_burst_buffer.count(None)}")
# check if we have N frames per burst > 1
if self.rx_n_frames_per_burst > 1 and self.burst_rpt_counter < 3 and self.arq_rx_burst_buffer.count(
None) > 0:
# reset self.burst_last_received
self.burst_last_received = time.time() + self.time_list[self.speed_level] * frames_left
self.burst_rpt_counter += 1
self.send_retransmit_request_frame()
else:
# reset self.burst_last_received counter
self.burst_last_received = time.time()
# reduce speed level if nack counter increased
self.frame_received_counter = 0
self.burst_nack_counter += 1
if self.burst_nack_counter >= 2:
self.burst_nack_counter = 0
self.speed_level = max(self.speed_level - 1, 0)
self.states.set("arq_speed_level", self.speed_level)
# TODO Create better mechanisms for handling n frames per burst for bad channels
# reduce frames per burst
if self.burst_rpt_counter >= 2:
tx_n_frames_per_burst = max(self.rx_n_frames_per_burst - 1, 1)
else:
tx_n_frames_per_burst = self.rx_n_frames_per_burst
# Update modes we are listening to
self.set_listening_modes(True, True, self.mode_list[self.speed_level])
# TODO Does SNR make sense for NACK if we dont have an actual SNR information?
self.send_burst_nack_frame_watchdog(tx_n_frames_per_burst)
# Update data_channel timestamp
# TODO Disabled this one for testing.
# self.data_channel_last_received = time.time()
self.n_retries_per_burst += 1
else:
# debugging output
# print((self.data_channel_last_received + self.time_list[self.speed_level])-time.time())
pass
if self.n_retries_per_burst >= self.rx_n_max_retries_per_burst:
self.stop_transmission()
def data_channel_keep_alive_watchdog(self) -> None:
"""
watchdog which checks if we are running into a connection timeout
DATA CHANNEL
"""
# and not static.ARQ_SEND_KEEP_ALIVE:
if self.states.is_arq_state and self.states.is_modem_busy:
threading.Event().wait(0.01)
if (
self.data_channel_last_received + self.transmission_timeout
> time.time()
):
timeleft = int((self.data_channel_last_received + self.transmission_timeout) - time.time())
self.states.set("arq_seconds_until_timeout", timeleft)
if timeleft % 10 == 0:
self.log.debug("Time left until channel timeout", seconds=timeleft)
# threading.Event().wait(5)
# print(self.data_channel_last_received + self.transmission_timeout - time.time())
# pass
else:
# Clear the timeout timestamp
self.data_channel_last_received = 0
self.log.info(
"[Modem] DATA ["
+ str(self.mycallsign, "UTF-8")
+ "]<<T>>["
+ str(self.dxcallsign, "UTF-8")
+ "]"
)
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self.event_manager.send_custom_event(
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freedata="modem-message",
arq="transmission",
status="failed",
uuid=self.transmission_uuid,
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
irs=helpers.bool_to_string(self.is_IRS)
)
self.arq_cleanup()
def arq_session_keep_alive_watchdog(self) -> None:
"""
watchdog which checks if we are running into a connection timeout
ARQ SESSION
"""
if (
self.states.is_arq_session
and self.states.is_modem_busy
and not self.arq_file_transfer
):
if self.arq_session_last_received + self.arq_session_timeout > time.time():
threading.Event().wait(0.01)
else:
self.log.info(
"[Modem] SESSION ["
+ str(self.mycallsign, "UTF-8")
+ "]<<T>>["
+ str(self.dxcallsign, "UTF-8")
+ "]"
)
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self.event_manager.send_custom_event(
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freedata="modem-message",
arq="session",
status="failed",
reason="timeout",
mycallsign=str(self.mycallsign, 'UTF-8'),
dxcallsign=str(self.dxcallsign, 'UTF-8'),
)
self.close_session()
def heartbeat(self) -> None:
"""
Heartbeat thread which auto pauses and resumes the heartbeat signal when in an arq session
"""
while True:
threading.Event().wait(0.01)
# additional check for smoother stopping if heartbeat transmission
while not self.arq_file_transfer:
threading.Event().wait(0.01)
if (
self.states.is_arq_session
and self.IS_ARQ_SESSION_MASTER
and self.states.arq_session_state == "connected"
# and not self.arq_file_transfer
):
threading.Event().wait(1)
self.transmit_session_heartbeat()
threading.Event().wait(2)