# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
+import logging
+import time
-# This hack allows MorseTranslator to be imported also when
+# This hack allows importing local modules also when
# __name__ == "__main__"
try:
+ from .MorseDistanceModulator import MorseDistanceModulator
from .MorseTranslator import MorseTranslator
except SystemError:
+ from MorseDistanceModulator import MorseDistanceModulator
from MorseTranslator import MorseTranslator
-import logging
-import time
+
+def log_symbol(distance, symbol, extra_info=""):
+ logging.info("distance: %.2f Received \"%s\"%s", distance, symbol,
+ extra_info)
class CallDistanceTransceiver(object):
fine.
Plus, supporting communications between analog modems is cool :)
-
"""
def __init__(self, modem,
- call_setup_average=8.5, call_setup_uncertainty=1.5,
- ring_distance_average=5, ring_uncertainty=0.2):
+ call_setup_time_min=7, call_setup_time_max=16.5,
+ ring_time_min=4.8, ring_time_max=5.2,
+ add_inter_call_distance=True):
"""Encode the Morse symbols using the distance between calls.
Args:
- call_setup_average: the time between when the transmitter dials
- the number and the receiver reports RING notifications. This is
- needed in order to be sure than the receiver has received
- _at_least_ one ring. The default chosen here should work fine
- even with old analog modems, provided that there is some more
- distance between two calls.
- call_setup_uncertainty: uncertainty of call_setup_average,
- a tolerance value
- ring_distance_average: the time between two consecutive RINGs
+
+ call_setup_time_min: the minimum time between when the transmitter
+ dials the number and the receiver reports RING notifications.
+ call_setup_time_max: the maximum time between when the transmitter
+ dials the number and the receiver reports RING notifications.
+ Waiting this time after dialing ensures that the receiver has
+ received _at_least_ one ring. The default chosen here have been
+ tested to work fine with old analog modems, provided that there
+ is some more distance between two calls, and with Android
+ receivers.
+ ring_time_min: the minimum time between two consecutive RINGs
+ in the same call.
+ ring_time_max: the maximum time between two consecutive RINGs
in the same call, the standard interval is about 5 seconds, but
- some tolerance is needed to account for line delays.
- This is needed in order to ignore rings in the same call, and
- differentiate two different calls.
- ring_uncertainty: uncertainty of ring_distance_average, a tolerance
- value
- """
+ line and/or software delays can make it vary. This is needed
+ in order to ignore multiple ring in the same call when multiple
+ RING in the same call are notified, and then be able to
+ discriminate between two different calls.
+ add_inter_call_distance: specify if it is needed to wait an extra
+ fixed time between calls.
+ """
self.modem = modem
self.translator = MorseTranslator()
- self.destination_number = ""
-
- self.call_setup_time = call_setup_average + call_setup_uncertainty
- self.rings_distance = ring_distance_average + ring_uncertainty
-
- # In theory the symbol distance, the distance between calls which
- # represent symbols, can be arbitrary, but in practice it's better to
- # wait at least the duration of a ring between terminating one call and
- # initiating the next call, as pick-up and hang-up can take some time
- # with old analog modems.
- symbol_distance = self.rings_distance
-
- def symbol_time(multiplier):
- return self.call_setup_time + symbol_distance * multiplier
-
- self.dot_time = symbol_time(1)
- self.dash_time = symbol_time(2)
- self.signalspace_time = symbol_time(3)
- self.wordspace_time = symbol_time(4)
- self.eom_time = symbol_time(5)
-
- self.ring_uncertainty = ring_uncertainty
- self.symbol_uncertainty = symbol_distance / 2.
-
- logging.debug("dot time: transmit: %.2f receive: (%.2f, %.2f)",
- self.dot_time,
- (self.dot_time - self.symbol_uncertainty),
- (self.dot_time + self.symbol_uncertainty))
- logging.debug("dash time: transmit: %.2f receive: (%.2f, %.2f)",
- self.dash_time,
- (self.dash_time - self.symbol_uncertainty),
- (self.dash_time + self.symbol_uncertainty))
- logging.debug("signalspace time: transmit: %.2f receive: (%.2f, %.2f)",
- self.signalspace_time,
- (self.signalspace_time - self.symbol_uncertainty),
- (self.signalspace_time + self.symbol_uncertainty))
- logging.debug("wordspace time: transmit: %.2f receive: (%.2f, %.2f)",
- self.wordspace_time,
- (self.wordspace_time - self.symbol_uncertainty),
- (self.wordspace_time + self.symbol_uncertainty))
- logging.debug("EOM time: transmit: %.2f receive: (%.2f, +inf)",
- self.eom_time,
- (self.eom_time - self.symbol_uncertainty))
+ self.call_setup_time_max = call_setup_time_max
+
+ if add_inter_call_distance:
+ # Analog modems don't like to dial a new call immediately after
+ # they hung up the previous one; an extra delay of about one
+ # ring time makes them happy.
+ inter_symbol_distance = ring_time_max
+ else:
+ inter_symbol_distance = 0
+
+ self.modulator = MorseDistanceModulator(call_setup_time_min,
+ call_setup_time_max,
+ ring_time_min,
+ ring_time_max,
+ inter_symbol_distance)
+
+ logging.debug("call setup time between %.2f and %.2f "
+ "--------- dot transmit time: %.2f + %.2f "
+ "receive time: between %.2f and %.2f",
+ self.modulator.period_min,
+ self.modulator.period_max,
+ self.modulator.period_max,
+ self.modulator.dot_time.dist,
+ self.modulator.dot_time.min,
+ self.modulator.dot_time.max)
+ logging.debug("call setup time between %.2f and %.2f "
+ "-------- dash transmit time: %.2f + %.2f "
+ "receive time: between %.2f and %.2f",
+ self.modulator.period_min,
+ self.modulator.period_max,
+ self.modulator.period_max,
+ self.modulator.dash_time.dist,
+ self.modulator.dash_time.min,
+ self.modulator.dash_time.max)
+ logging.debug("call setup time between %.2f and %.2f "
+ "- signalspace transmit time: %.2f + %.2f "
+ "receive time: between %.2f and %.2f",
+ self.modulator.period_min,
+ self.modulator.period_max,
+ self.modulator.period_max,
+ self.modulator.signalspace_time.dist,
+ self.modulator.signalspace_time.min,
+ self.modulator.signalspace_time.max)
+ logging.debug("call setup time between %.2f and %.2f "
+ "--- wordspace transmit time: %.2f + %.2f "
+ "receive time: between %.2f and %.2f",
+ self.modulator.period_min,
+ self.modulator.period_max,
+ self.modulator.period_max,
+ self.modulator.wordspace_time.dist,
+ self.modulator.wordspace_time.min,
+ self.modulator.wordspace_time.max)
+ logging.debug("call setup time between %.2f and %.2f "
+ "--------- EOM transmit time: %.2f + %.2f "
+ "receive time: between %.2f and inf",
+ self.modulator.period_min,
+ self.modulator.period_max,
+ self.modulator.period_max,
+ self.modulator.eom_time.dist,
+ self.modulator.eom_time.min)
self.previous_ring_time = -1
self.previous_call_time = -1
self.end_of_message = False
- def log_symbol(self, distance, symbol, extra_info=""):
- logging.info("distance: %.2f Received \"%s\" %s", distance, symbol,
- extra_info)
-
- def receive_character(self):
+ def receive_symbol(self):
current_ring_time = time.time()
if self.previous_ring_time == -1:
self.previous_ring_time = current_ring_time
self.previous_call_time = current_ring_time
- self.log_symbol(0, "", "(The very first ring)")
+ log_symbol(0, "", "(The very first ring)")
return
- else:
- ring_distance = current_ring_time - self.previous_ring_time
- logging.debug("RINGs distance: %.2f", ring_distance)
- self.previous_ring_time = current_ring_time
+
+ ring_distance = current_ring_time - self.previous_ring_time
+ logging.debug("RINGs distance: %.2f", ring_distance)
+ self.previous_ring_time = current_ring_time
# Ignore multiple rings in the same call
- if abs(ring_distance - self.rings_distance) < self.ring_uncertainty:
+ if self.modulator.is_same_period(ring_distance):
logging.debug("multiple rings in the same call, distance: %.2f",
ring_distance)
return
call_distance = current_ring_time - self.previous_call_time
self.previous_call_time = current_ring_time
- if abs(call_distance - self.dot_time) < self.symbol_uncertainty:
- self.log_symbol(call_distance, '.')
- self.morse_message += "."
- return
-
- if abs(call_distance - self.dash_time) < self.symbol_uncertainty:
- self.log_symbol(call_distance, '-')
- self.morse_message += "-"
+ try:
+ symbol = self.modulator.distance_to_symbol(call_distance)
+ except ValueError as err:
+ logging.error("%s", err)
+ logging.error("Check the transmitter and receiver parameters")
return
- if abs(call_distance - self.signalspace_time) < self.symbol_uncertainty:
+ extra_info = ""
+ if symbol in [" ", "/", "EOM"]:
signal = self.morse_message.strip().split(' ')[-1]
character = self.translator.signal_to_character(signal)
- self.log_symbol(call_distance, ' ', "got \"%s\"" % character)
- self.morse_message += " "
- return
+ extra_info = " got \"%s\"" % character
- if abs(call_distance - self.wordspace_time) < self.symbol_uncertainty:
- signal = self.morse_message.strip().split(' ')[-1]
- character = self.translator.signal_to_character(signal)
- self.log_symbol(call_distance, '/', "got \"%s\"" % character)
- self.morse_message += " / "
- return
+ log_symbol(call_distance, symbol, extra_info)
- if call_distance >= self.eom_time - self.symbol_uncertainty:
- signal = self.morse_message.strip().split(' ')[-1]
- character = self.translator.signal_to_character(signal)
- self.log_symbol(call_distance, 'EOM', "got \"%s\"" % character)
+ if symbol != "EOM":
+ # Add spaces around the wordspace symbol to make it easier to split
+ # the Morse message in symbols later on
+ if symbol == "/":
+ symbol = " / "
+ self.morse_message += symbol
+ else:
self.end_of_message = True
self.previous_ring_time = -1
self.previous_call_time = -1
- return
-
- # if the code made it up to here, something fishy is going on
- logging.error("Unexpected distance: %.2f", ring_distance)
- logging.error("Check the transmitter and receiver parameters")
def receive_loop(self):
while not self.end_of_message:
self.modem.get_response("RING")
- self.receive_character()
+ self.receive_symbol()
logging.debug("Current message: %s", self.morse_message)
self.end_of_message = False
def get_text(self):
return self.text_message
- def transmit_symbol(self, symbol):
- if symbol == ".":
- sleep_time = self.dot_time
- elif symbol == "-":
- sleep_time = self.dash_time
- elif symbol == " ":
- sleep_time = self.signalspace_time
- elif symbol == "/":
- sleep_time = self.wordspace_time
- elif symbol == "EOM":
- sleep_time = self.eom_time
- elif symbol is None:
- # To terminate the transmission just call and hangup, with no extra
- # distance
- sleep_time = self.call_setup_time
-
- logging.info("Dial and wait %.2f seconds (transmitting '%s')",
- sleep_time, symbol)
-
- # Dial, then wait self.call_setup_time to make sure the receiver gets
- # at least one RING, and then hangup and sleep the remaining time
- self.modem.send_command("ATDT" + self.destination_number)
- time.sleep(self.call_setup_time)
+ def transmit_symbol(self, destination_number, symbol, sleep_time):
+ logging.info("Dial and wait %.2f = %.2f + %.2f seconds "
+ "(transmitting '%s')",
+ self.call_setup_time_max + sleep_time,
+ self.call_setup_time_max,
+ sleep_time,
+ symbol)
+
+ # Dial, then wait self.call_setup_time_max to make sure the receiver
+ # gets at least one RING, and then hangup and sleep the time needed to
+ # transmit a symbol.
+ time_before = time.time()
+ self.modem.send_command("ATDT" + destination_number + ";")
+ time.sleep(self.call_setup_time_max)
self.modem.send_command("ATH")
self.modem.get_response()
- time.sleep(sleep_time - self.call_setup_time)
+ time_after = time.time()
- def transmit_signal(self, signal):
- logging.debug("Transmitting signal: %s", signal)
- for symbol in signal:
- self.transmit_symbol(symbol)
+ # Account for possible delays in order to be as adherent as
+ # possible to the nominal total symbol transmission distance.
+ delay = (time_after - time_before) - self.call_setup_time_max
+ logging.debug("Delay %.2f", delay)
- def transmit(self, message, destination_number):
- self.destination_number = destination_number
+ remaining_sleep_time = sleep_time - delay
+ if remaining_sleep_time < 0:
+ remaining_sleep_time = 0
+ logging.debug("Should sleep %.2f. Will sleep %.2f", sleep_time,
+ remaining_sleep_time)
+ time.sleep(remaining_sleep_time)
+
+ def transmit(self, message, destination_number):
morse_message = self.translator.text_to_morse(message)
- signals = morse_message.split()
- print(signals)
+ distances = self.modulator.modulate(morse_message)
logging.debug("Starting the transmission")
- for i, signal in enumerate(signals):
- logging.debug("Transmitting '%s' as '%s'", message[i], signal)
- self.transmit_signal(signal)
-
- # Transmit a signal separator only when strictly necessary:
- # - after the last symbol, we are going to transmit an EOM
- # anyway, and that will mark the end of the last symbol.
- # - between words the word separator act as a symbol separator
- # too.
- if i != len(signals) - 1 and signals[i + 1] != "/" and signal != "/":
- self.transmit_symbol(" ")
-
- self.transmit_symbol("EOM")
+ for i, distance in enumerate(distances):
+ # Use 'None' for the last call
+ if i == len(distances) - 1:
+ symbol = None
+ else:
+ total_sleep_time = self.call_setup_time_max + distance
+ symbol = self.modulator.distance_to_symbol(total_sleep_time)
- # Since the Morse signals are encoded in the distance between calls, an
- # extra call is needed in order for receiver actually get the EOM and
- # see that the transmission has terminated.
- self.transmit_symbol(None)
+ self.transmit_symbol(destination_number, symbol, distance)
def estimate_transmit_duration(self, message):
morsemessage = self.translator.text_to_morse(message)
- signals = morsemessage.split()
+ logging.debug(morsemessage)
- logging.debug(signals)
+ distances = self.modulator.modulate(morsemessage)
transmitting_time = 0
- for i, signal in enumerate(signals):
- logging.debug("signal: %s", signal)
-
- for symbol in signal:
- if symbol == ".":
- transmitting_time += self.dot_time
- elif symbol == "-":
- transmitting_time += self.dash_time
- elif symbol == "/":
- transmitting_time += self.wordspace_time
-
- if i != len(signals) - 1 and signals[i + 1] != "/" and symbol != "/":
- transmitting_time += self.signalspace_time
-
- transmitting_time += self.eom_time
+ for distance in distances:
+ transmitting_time += self.call_setup_time_max
+ transmitting_time += distance
- logging.debug("Estimated transmitting time: %d seconds",
+ logging.debug("Estimated transmitting time: %.2f seconds",
transmitting_time)
-def test_send_receive():
+def test_transmit_receive():
logging.basicConfig(level=logging.DEBUG)
- call_setup_time = 2
- call_setup_uncertainty = 0.4
- ring_time = 1
- ring_uncertainty = 0.3
+ call_setup_time_min = 0
+ call_setup_time_max = 0.01
+ ring_time_min = 0
+ ring_time_max = 0
+
+ import random
class DummyModem(object):
- """Always receive a '.' and then a '/', which result in 'E '."""
+ """Always receive a '.', a '/' and then EOM, which results in 'E '."""
def __init__(self):
self.ring_count = 0
+ # Take trasmission times from a transceiver
+ self.transceiver = None
+
+ random.seed(None)
+
def send_command(self, command):
pass
- def get_response(self, response):
- if self.ring_count % 2:
+ def get_response(self, response=None):
+ # pylint: disable=unused-argument
+
+ setup_time = random.uniform(self.transceiver.modulator.period_min,
+ self.transceiver.modulator.period_max)
+
+ if self.ring_count == 0:
+ # dummy ring
+ pass
+ elif self.ring_count == 1:
# received a '.'
- time.sleep(call_setup_time + (ring_time + ring_uncertainty))
- else:
+ dot_time = self.transceiver.modulator.dot_time.dist
+ time.sleep(setup_time + dot_time)
+ elif self.ring_count == 2:
# received a '/'
- time.sleep(call_setup_time + (ring_time + ring_uncertainty) * 4)
+ wordspace_time = self.transceiver.modulator.wordspace_time.dist
+ time.sleep(setup_time + wordspace_time)
+ else:
+ # received an 'EOM'
+ eom_time = self.transceiver.modulator.eom_time.dist
+ time.sleep(setup_time + eom_time)
self.ring_count += 1
+ self.ring_count %= 4
+
+ modem = DummyModem()
+
+ xcv = CallDistanceTransceiver(modem,
+ call_setup_time_min, call_setup_time_max,
+ ring_time_min, ring_time_max, True)
+
+ modem.transceiver = xcv
+
+ xcv.transmit("CODEX PARIS", "0")
- xcv = CallDistanceTransceiver(DummyModem(), call_setup_time,
- call_setup_uncertainty, ring_time,
- ring_uncertainty)
- xcv.receive_loop()
+ while True:
+ modem.ring_count = 0
+ xcv.receive_loop()
+ print()
+ print("Message received!")
+ print("\"%s\"" % xcv.get_text(), flush=True)
if __name__ == "__main__":
- test_send_receive()
+ test_transmit_receive()