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|
#!/usr/bin/env python3
# Copyright 2008-2011 Steve Glass
#
# Copyright 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 Max H. Parke KA1RBI
#
# Copyright 2003,2004,2005,2006 Free Software Foundation, Inc.
# (from radiorausch)
#
# This file is part of OP25 and part of GNU Radio
#
# OP25 is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
#
# OP25 is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
# or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
# License for more details.
#
# You should have received a copy of the GNU General Public License
# along with OP25; see the file COPYING. If not, write to the Free
# Software Foundation, Inc., 51 Franklin Street, Boston, MA
# 02110-1301, USA.
import os
import pickle
import sys
import threading
import math
import numpy
import time
import re
import json
import traceback
try:
import Hamlib
except:
pass
try:
import Numeric
except:
pass
from gnuradio import audio, eng_notation, gr, filter, blocks, fft, analog, digital
from gnuradio.eng_option import eng_option
from math import pi
from optparse import OptionParser
import op25
import op25_repeater
import trunking
import p25_demodulator
import p25_decoder
sys.path.append('tdma')
import lfsr
from gr_gnuplot import constellation_sink_c
from gr_gnuplot import fft_sink_c
from gr_gnuplot import symbol_sink_f
from gr_gnuplot import eye_sink_f
from gr_gnuplot import mixer_sink_c
from gr_gnuplot import setup_correlation
from gr_gnuplot import sync_plot
from terminal import op25_terminal
from sockaudio import audio_thread
from sql_dbi import sql_dbi
#speeds = [300, 600, 900, 1200, 1440, 1800, 1920, 2400, 2880, 3200, 3600, 3840, 4000, 4800, 6000, 6400, 7200, 8000, 9600, 14400, 19200]
speeds = [4800, 6000]
os.environ['IMBE'] = 'soft'
WIRESHARK_PORT = 23456
_def_interval = 3.0 # sec
_def_file_dir = '../www/images'
_def_error_update_time = 3.0 # freq error tracking interval
_def_lo_adj_limit = 2500 # Hz
class udp_source_c(gr.hier_block2):
def __init__(self, hostname, udp_port):
gr.hier_block2.__init__(self, "udp_source_c",
gr.io_signature(0, 0, 0), # Input signature
gr.io_signature(1, 1, gr.sizeof_gr_complex)) # Output signature
bufsize = 32000
self.src = blocks.udp_source(gr.sizeof_gr_complex, hostname, udp_port, payload_size = bufsize)
self.sample_rate = 0
self.connect(self.src, self)
def set_center_freq(self, f):
sys.stderr.write('udp source: set_center_freq(%s) ignored\n' % f)
def set_bandwidth(self, f):
sys.stderr.write('udp source: set_bandwidth(%s) ignored\n' % f)
def set_sample_rate(self, f):
self.sample_rate = f
return f
def set_antenna(self, a):
sys.stderr.write('udp source: set_antenna(%s) ignored\n' % a)
# The P25 receiver
#
class p25_rx_block (gr.top_block):
# Initialize the P25 receiver
#
def __init__(self, options):
self.trunk_rx = None
self.plot_sinks = []
gr.top_block.__init__(self)
self.channel_rate = 0
self.baseband_input = False
self.rtl_found = False
self.channel_rate = options.sample_rate
self.fft_sink = None
self.last_error_update = 0
self.error_band = 0
self.tuning_error = 0
self.freq_correction = 0
self.last_set_freq = 0
self.last_set_freq_at = time.time()
self.last_change_freq = 0
self.last_change_freq_at = time.time()
self.last_freq_params = {'freq' : 0.0, 'tgid' : None, 'tag' : "", 'tdma' : None}
self.next_status_png = time.time()
self.last_process_update = 0
self.sql_db = sql_dbi()
self.last_center_freq = 0
self.last_relative_freq = 0
self.src = None
if (not options.input) and (not options.audio) and (not options.audio_if) and (not options.args.startswith('udp:')):
# check if osmocom is accessible
try:
import osmosdr
self.src = osmosdr.source(options.args)
except Exception:
print ("osmosdr source_c creation failure")
ignore = True
if any(x in options.args.lower() for x in ['rtl', 'airspy', 'hackrf', 'uhd']):
#print ("'rtl' has been found in options.args (%s)" % (options.args))
self.rtl_found = True
gain_names = self.src.get_gain_names()
if 0: # pending fix crash ### for name in gain_names:
range1 = self.src.get_gain_range(name)
print ("gain: name: %s range: start %d stop %d step %d" % (name, range1[0].start(), range1[0].stop(), range1[0].step()))
if options.gains:
for tup in options.gains.split(","):
name, gain = tup.split(":")
gain = int(gain)
print ("setting gain %s to %d" % (name, gain))
self.src.set_gain(gain, name)
rates = self.src.get_sample_rates()
try:
print ('supported sample rates %d-%d step %d' % (rates.start(), rates.stop(), rates.step()))
except:
pass # ignore
if options.freq_corr:
self.src.set_freq_corr(options.freq_corr)
elif (not options.input) and (not options.audio) and (not options.audio_if) and options.args.startswith('udp:'):
hostinfo = options.args.split(':')
hostname = hostinfo[1]
udp_port = int(hostinfo[2])
self.src = udp_source_c(hostname, udp_port)
sys.stderr.write('started udp listener: %s %s\n' % (hostname, udp_port))
if options.audio:
self.channel_rate = 48000
self.baseband_input = True
if options.audio_if:
self.channel_rate = 96000
if options.ifile:
self.channel_rate = 96000 # TODO: fixme
# setup (read-only) attributes
self.symbol_rate = 4800
self.symbol_deviation = 600.0
self.basic_rate = 24000
_default_speed = 4800
self.options = options
# keep track of flow graph connections
self.cnxns = []
self.datascope_raw_input = False
self.data_scope_connected = False
self.constellation_scope_connected = False
for i in range(len(speeds)):
if speeds[i] == _default_speed:
self.current_speed = i
self.default_speed_idx = i
if options.hamlib_model:
self.hamlib_attach(options.hamlib_model)
# wait for gdb
if options.pause:
print ('Ready for GDB to attach (pid = %d)' % (os.getpid(),))
raw_input("Press 'Enter' to continue...")
self.input_q = gr.msg_queue(20)
self.output_q = gr.msg_queue(10)
# configure specified data source
if options.input:
self.open_file(options.input)
elif options.audio_if:
self.open_audio_c(self.channel_rate, options.gain, options.audio_input)
elif options.audio:
self.open_audio(self.channel_rate, options.gain, options.audio_input)
elif options.ifile:
self.open_ifile(self.channel_rate, options.gain, options.ifile, options.seek)
elif (self.rtl_found or options.frequency):
self.open_usrp()
else:
pass
# attach terminal thread and make sure currently tuned frequency is displayed
self.terminal = op25_terminal(self.input_q, self.output_q, self.options.terminal_type)
if self.terminal is None:
sys.stderr.write('warning: no terminal attached\n')
# attach audio thread
if self.options.udp_player:
self.audio = audio_thread("127.0.0.1", self.options.wireshark_port, self.options.audio_output, False, self.options.audio_gain)
else:
self.audio = None
# setup common flow graph elements
#
def __build_graph(self, source, capture_rate):
global speeds
global WIRESHARK_PORT
sps = 5 # samples / symbol
if_rate = sps * 4800
self.rx_q = gr.msg_queue(100)
udp_port = 0
vocoder = self.options.vocoder
wireshark = self.options.wireshark
wireshark_host = self.options.wireshark_host
if self.options.udp_player:
vocoder = True
wireshark = True
wireshark_host = "127.0.0.1"
if wireshark or (wireshark_host != "127.0.0.1"):
udp_port = self.options.wireshark_port
self.tdma_state = False
self.xor_cache = {}
if self.baseband_input:
self.demod = p25_demodulator.p25_demod_fb(input_rate=capture_rate, excess_bw=self.options.excess_bw,if_rate=if_rate)
else: # complex input
# local osc
self.lo_freq = self.options.offset
if self.options.ifile or self.options.input:
self.lo_freq += self.options.calibration
self.demod = p25_demodulator.p25_demod_cb( input_rate = capture_rate,
demod_type = self.options.demod_type,
relative_freq = self.lo_freq,
offset = self.options.offset,
if_rate = if_rate,
gain_mu = self.options.gain_mu,
costas_alpha = self.options.costas_alpha,
excess_bw = self.options.excess_bw,
symbol_rate = self.symbol_rate,
use_old_decim = True if self.options.audio_if else False)
num_ambe = 0
if self.options.phase2_tdma:
num_ambe = 1
self.decoder = p25_decoder.p25_decoder_sink_b(dest='audio', do_imbe=vocoder, num_ambe=num_ambe, wireshark_host=wireshark_host, udp_port=udp_port, do_msgq = True, msgq=self.rx_q, audio_output=self.options.audio_output, debug=self.options.verbosity)
# connect it all up
self.connect(source, self.demod, self.decoder)
if self.baseband_input:
sps = if_rate // 4800
plot_modes = []
if self.options.plot_mode is not None:
plot_modes = self.options.plot_mode.split(',')
for plot_mode in plot_modes:
if plot_mode == 'constellation':
assert self.options.demod_type == 'cqpsk' ## constellation requires cqpsk demod-type
sink = constellation_sink_c()
self.plot_sinks.append(sink)
self.demod.connect_complex('diffdec', sink)
elif plot_mode == 'symbol':
sink = symbol_sink_f()
self.plot_sinks.append(sink)
self.demod.connect_float(sink)
elif plot_mode == 'fft':
sink = fft_sink_c()
self.plot_sinks.append(sink)
self.spectrum_decim = filter.rational_resampler_ccf(1, self.options.decim_amt)
self.connect(self.spectrum_decim, sink)
self.demod.connect_complex('src', self.spectrum_decim)
elif plot_mode == 'mixer':
sink = mixer_sink_c()
self.plot_sinks.append(sink)
self.demod.connect_complex('mixer', sink)
elif plot_mode == 'datascope':
assert self.options.demod_type == 'fsk4' ## datascope requires fsk4 demod-type
sink = eye_sink_f(sps=sps)
self.plot_sinks.append(sink)
self.demod.connect_bb('symbol_filter', sink)
elif plot_mode == 'correlation':
assert self.options.demod_type == 'fsk4' ## correlation plot requires fsk4 demod type
self.plot_sinks += setup_correlation(sps, "", self.demod.connect_bb)
elif plot_mode == 'sync':
assert self.options.demod_type == 'cqpsk' ## sync plot requires cqpsk demod-type
sink = sync_plot(block = self.demod.clock)
self.plot_sinks.append(sink)
# no flowgraph connection in this plot
else:
raise ValueError('unsupported plot type: %s' % plot_mode)
if self.is_http_term():
for sink in self.plot_sinks:
sink.gnuplot.set_interval(_def_interval)
sink.gnuplot.set_output_dir(_def_file_dir)
if self.options.raw_symbols:
self.sink_sf = blocks.file_sink(gr.sizeof_char, self.options.raw_symbols)
self.connect(self.demod, self.sink_sf)
logfile_workers = []
if self.options.phase2_tdma:
num_ambe = 2
if self.options.logfile_workers:
for i in range(self.options.logfile_workers):
demod = p25_demodulator.p25_demod_cb(input_rate=capture_rate,
demod_type=self.options.demod_type,
offset=self.options.offset)
decoder = p25_decoder.p25_decoder_sink_b(debug = self.options.verbosity, do_imbe = vocoder, num_ambe=num_ambe)
logfile_workers.append({'demod': demod, 'decoder': decoder, 'active': False})
self.connect(source, demod, decoder)
self.trunk_rx = trunking.rx_ctl(frequency_set = self.change_freq, debug = self.options.verbosity, conf_file = self.options.trunk_conf_file, logfile_workers=logfile_workers, send_event=self.send_event)
self.du_watcher = du_queue_watcher(self.rx_q, self.preprocess_qmsg)
def preprocess_qmsg(self, msg):
self.trunk_rx.process_qmsg(msg)
if self.options.freq_error_tracking:
if self.last_error_update + _def_error_update_time > time.time() \
or self.last_change_freq_at + _def_error_update_time > time.time():
pass
else:
self.error_tracking()
# Connect up the flow graph
#
def __connect(self, cnxns):
for l in cnxns:
for b in l:
if b == l[0]:
p = l[0]
else:
self.connect(p, b)
p = b
self.cnxns.extend(cnxns)
# Disconnect the flow graph
#
def __disconnect(self):
for l in self.cnxns:
for b in l:
if b == l[0]:
p = l[0]
else:
self.disconnect(p, b)
p = b
self.cnxns = []
def set_speed(self, new_speed):
# assumes that lock is held, or that we are in init
self.disconnect_demods()
self.current_speed = new_speed
self.connect_fsk4_demod()
def configure_tdma(self, params):
if params['tdma'] is not None and not self.options.phase2_tdma:
sys.stderr.write("***TDMA request for frequency %d failed- phase2_tdma option not enabled\n" % params['freq'])
return
set_tdma = False
if params['tdma'] is not None:
set_tdma = True
self.decoder.set_slotid(params['tdma'])
self.demod.clock.set_tdma(set_tdma)
if set_tdma == self.tdma_state:
return # already in desired state
self.tdma_state = set_tdma
if set_tdma:
hash = '%x%x%x' % (params['nac'], params['sysid'], params['wacn'])
if hash not in self.xor_cache:
self.xor_cache[hash] = lfsr.p25p2_lfsr(params['nac'], params['sysid'], params['wacn']).xor_chars
self.decoder.set_xormask(self.xor_cache[hash], hash)
self.decoder.set_nac(params['nac'])
rate = 6000
else:
rate = 4800
sps = self.basic_rate / rate
self.demod.set_symbol_rate(rate) # this and the foll. call should be merged?
self.demod.clock.set_omega(float(sps))
def error_tracking(self):
if self.last_error_update + _def_error_update_time > time.time() \
or self.last_change_freq_at + _def_error_update_time > time.time():
return
self.last_error_update = time.time()
band = self.demod.get_error_band()
freq_error = self.demod.get_freq_error()
if band:
self.error_band += band
self.freq_correction += freq_error * 0.15
self.freq_correction = int(self.freq_correction)
if self.freq_correction > 600:
self.freq_correction -= 1200
self.error_band += 1
elif self.freq_correction < -600:
self.freq_correction += 1200
self.error_band -= 1
self.tuning_error = int(self.error_band * 1200 + self.freq_correction)
e = 0
if self.last_change_freq > 0:
e = (self.tuning_error*1e6) / float(self.last_change_freq)
if self.options.verbosity >= 10:
sys.stderr.write('frequency_tracking\t%d\t%d\t%d\t%d\t%f\n' % (freq_error, self.error_band, self.tuning_error, self.freq_correction, e))
self.adjust_lo_freq() # adjust lo based on updated tuning error
d = {'time': time.time(), 'json_type': 'freq_error_tracking', 'name': 'rx.py', 'device': self.options.args, 'freq_error': freq_error, 'band': band, 'error_band': self.error_band, 'tuning_error': self.tuning_error, 'freq_correction': self.freq_correction}
js = json.dumps(d)
if self.options.verbosity > 0:
sys.stderr.write('%f error tracking: %s\n' % (time.time(), js))
if self.input_q.full_p():
if self.options.verbosity > 0:
sys.stderr.write('%f error_tracking: qfull\n' % (time.time()))
return
msg = gr.message().make_from_string(js, -4, 0, 0)
self.input_q.insert_tail(msg)
def adjust_lo_freq(self):
# apply tuning error updates to adjust lo frequency
center_freq = self.last_center_freq
offset = self.options.offset
if not center_freq:
new_lo_freq = offset + self.tuning_error
else:
new_lo_freq = self.last_relative_freq + offset + self.tuning_error
if abs(self.lo_freq - new_lo_freq) > _def_lo_adj_limit:
sys.stderr.write('adjust_lo_freq: adjustment exceeds limit: previous %d requested %d\n' % (self.lo_freq, new_lo_freq))
return
self.lo_freq = new_lo_freq
self.demod.set_relative_frequency(self.lo_freq)
def change_freq(self, params):
if self.options.verbosity > 1:
sys.stderr.write('%f change_freq: %s\n' % (time.time(), params))
self.last_freq_params = params
freq = params['freq']
offset = self.options.offset
center_freq = params['center_frequency']
self.last_center_freq = center_freq
if self.options.freq_error_tracking:
self.error_tracking()
if self.last_change_freq != freq:
self.last_change_freq = freq
self.last_change_freq_at = time.time()
self.configure_tdma(params)
if self.options.hamlib_model:
self.hamlib.set_freq(freq)
return
if not center_freq:
self.lo_freq = offset + self.tuning_error
self.demod.set_relative_frequency(self.lo_freq)
self.set_freq(freq)
return
relative_freq = center_freq - freq
self.last_relative_freq = relative_freq
if abs(relative_freq + offset + self.tuning_error) > self.channel_rate / 2:
self.lo_freq = offset + self.tuning_error # relative tune not possible
self.demod.set_relative_frequency(self.lo_freq) # reset demod relative freq
self.set_freq(freq) # direct tune instead
return
self.lo_freq = relative_freq + offset + self.tuning_error
if self.demod.set_relative_frequency(self.lo_freq): # relative tune successful
self.set_freq(center_freq)
if self.fft_sink:
self.fft_sink.set_relative_freq(self.lo_freq)
return
self.lo_freq = offset + self.tuning_error # relative tune unsuccessful
self.demod.set_relative_frequency(self.lo_freq) # reset demod relative freq
self.set_freq(freq + offset) # direct tune instead
self.configure_tdma(params)
self.freq_update()
def freq_update(self):
if self.input_q.full_p():
return
params = self.last_freq_params
params['json_type'] = 'change_freq'
params['fine_tune'] = self.options.fine_tune
params['current_time'] = time.time()
js = json.dumps(params)
msg = gr.message().make_from_string(js, -4, 0, 0)
self.input_q.insert_tail(msg)
def hamlib_attach(self, model):
Hamlib.rig_set_debug (Hamlib.RIG_DEBUG_NONE) # RIG_DEBUG_TRACE
self.hamlib = Hamlib.Rig (model)
self.hamlib.set_conf ("serial_speed","9600")
self.hamlib.set_conf ("retry","5")
self.hamlib.open ()
def q_action(self, action):
msg = gr.message().make_from_string(action, -2, 0, 0)
self.rx_q.insert_tail(msg)
def set_gain(self, gain):
if self.rtl_found:
self.src.set_gain(gain, 'LNA')
if self.options.verbosity:
print ('RTL Gain of %d set to: %.1f' % (gain, self.src.get_gain('LNA')))
else:
if self.baseband_input:
f = 1.0
else:
f = 0.1
self.demod.set_baseband_gain(float(gain) * f)
def set_audio_scaler(self, vol):
#print ('audio scaler: %f' % ((1 / 32768.0) * (vol * 0.1)))
if hasattr(self.decoder, 'set_scaler_k'):
self.decoder.set_scaler_k((1 / 32768.0) * (vol * 0.1))
def set_rtl_ppm(self, ppm):
self.src.set_freq_corr(ppm)
def set_freq_tune(self, val):
self.demod.set_relative_frequency(val + self.lo_freq)
def set_freq(self, target_freq):
"""
Set the center frequency we're interested in.
@param target_freq: frequency in Hz
@rypte: bool
Tuning is a two step process. First we ask the front-end to
tune as close to the desired frequency as it can. Then we use
the result of that operation and our target_frequency to
determine the value for the digital down converter.
"""
if not self.src:
return False
self.target_freq = target_freq
tune_freq = target_freq + self.options.calibration + self.options.offset + self.options.fine_tune
r = self.src.set_center_freq(tune_freq)
if self.fft_sink:
self.fft_sink.set_center_freq(target_freq)
self.fft_sink.set_width(self.options.sample_rate)
if r:
#self.myform['freq'].set_value(target_freq) # update displayed va
#if self.show_debug_info:
# self.myform['baseband'].set_value(r.baseband_freq)
# self.myform['ddc'].set_value(r.dxc_freq)
if self.last_set_freq != tune_freq:
self.last_set_freq = tune_freq
self.last_set_freq_at = time.time()
return True
return False
# read capture file properties (decimation etc.)
#
def __read_file_properties(self, filename):
f = open(filename, "r")
self.info = pickle.load(f)
ToDo = True
f.close()
# setup to rx from file
#
def __set_rx_from_file(self, filename, capture_rate):
file = blocks.file_source(gr.sizeof_gr_complex, filename, True)
gain = blocks.multiply_const_cc(self.options.gain)
throttle = blocks.throttle(gr.sizeof_gr_complex, capture_rate)
self.__connect([[file, gain, throttle]])
self.__build_graph(throttle, capture_rate)
# setup to rx from Audio
#
def __set_rx_from_audio(self, capture_rate):
self.__build_graph(self.source, capture_rate)
# setup to rx from USRP
#
def __set_rx_from_osmosdr(self):
# setup osmosdr
capture_rate = self.src.set_sample_rate(self.options.sample_rate)
if self.options.antenna:
self.src.set_antenna(self.options.antenna)
self.info["capture-rate"] = capture_rate
self.src.set_bandwidth(capture_rate)
r = self.src.set_center_freq(self.options.frequency + self.options.calibration+ self.options.offset + self.options.fine_tune)
if not r:
sys.stderr.write("__set_rx_from_osmosdr(): failed to set frequency\n")
# capture file
# if preserve:
if 0:
try:
self.capture_filename = os.tmpnam()
except RuntimeWarning:
ignore = True
capture_file = blocks.file_sink(gr.sizeof_gr_complex, self.capture_filename)
self.__connect([[self.usrp, capture_file]])
else:
self.capture_filename = None
# everything else
self.__build_graph(self.src, capture_rate)
# Write capture file properties
#
def __write_file_properties(self, filename):
f = open(filename, "w")
pickle.dump(self.info, f)
f.close()
def open_ifile(self, capture_rate, gain, input_filename, file_seek):
speed = 96000 # TODO: fixme
ifile = blocks.file_source(gr.sizeof_gr_complex, input_filename, 1)
if file_seek > 0:
rc = ifile.seek(file_seek*1024, gr.SEEK_SET)
assert rc == True
#print ("seek: %d, rc = %d" % (file_seek, rc))
throttle = blocks.throttle(gr.sizeof_gr_complex, speed)
self.source = blocks.multiply_const_cc(gain)
self.connect(ifile, throttle, self.source)
self.__set_rx_from_audio(speed)
def open_audio_c(self, capture_rate, gain, audio_input_filename):
self.info = {
"capture-rate": capture_rate,
"center-freq": 0,
"source-dev": "AUDIO",
"source-decim": 1 }
self.audio_source = audio.source(capture_rate, audio_input_filename)
self.null_source = blocks.null_source (gr.sizeof_float)
self.audio_cvt = blocks.float_to_complex()
self.connect(self.audio_source, (self.audio_cvt, 0))
self.connect(self.null_source, (self.audio_cvt, 1))
self.source = blocks.multiply_const_cc(gain)
self.connect(self.audio_cvt, self.source)
self.__set_rx_from_audio(capture_rate)
rc = self.demod.set_relative_frequency(self.options.calibration)
sys.stderr.write('open_audio_c: set_relative_frequency %d: %s\n' % (self.options.calibration, rc))
def open_audio(self, capture_rate, gain, audio_input_filename):
self.info = {
"capture-rate": capture_rate,
"center-freq": 0,
"source-dev": "AUDIO",
"source-decim": 1 }
self.audio_source = audio.source(capture_rate, audio_input_filename)
self.source = blocks.multiply_const_ff(gain)
self.connect(self.audio_source, self.source)
self.__set_rx_from_audio(capture_rate)
# Open the USRP
#
def open_usrp(self):
# try:
self.info = {
"capture-rate": "unknown",
"center-freq": self.options.frequency,
"source-dev": "USRP",
"source-decim": 1 }
self.__set_rx_from_osmosdr()
if self.options.frequency:
self.last_freq_params['freq'] = self.options.frequency
self.set_freq(self.options.frequency)
# except Exception, x:
# wx.MessageBox("Cannot open USRP: " + x.message, "USRP Error", wx.CANCEL | wx.ICON_EXCLAMATION)
def is_http_term(self):
if self.options.terminal_type.startswith('http:'):
return True
elif self.options.terminal_type.startswith('zmq:'):
return True
else:
return False
def process_ajax(self):
if not self.is_http_term():
return
if self.input_q.full_p():
return
filenames = [sink.gnuplot.filename for sink in self.plot_sinks if sink.gnuplot.filename]
error = None
if self.options.demod_type == 'cqpsk':
error = self.demod.get_freq_error()
d = {'json_type': 'rx_update', 'error': error, 'fine_tune': self.options.fine_tune, 'files': filenames, 'time': time.time()}
msg = gr.message().make_from_string(json.dumps(d), -4, 0, 0)
self.input_q.insert_tail(msg)
def process_update(self):
UPDATE_INTERVAL = 1.0 # sec.
now = time.time()
if self.options.freq_error_tracking:
self.error_tracking()
if self.input_q.full_p():
return
if now < self.last_process_update + UPDATE_INTERVAL:
return
self.last_process_update = now
self.freq_update()
if self.trunk_rx is None:
return ## possible race cond - just ignore
if self.input_q.full_p():
return
js = self.trunk_rx.to_json()
msg = gr.message().make_from_string(js, -4, 0, 0)
self.input_q.insert_tail(msg)
self.process_ajax()
def send_event(self, d): ## called from trunking module to send json msgs / updates to client
if d is not None:
self.sql_db.event(d)
if d and not self.input_q.full_p():
msg = gr.message().make_from_string(json.dumps(d), -4, 0, 0)
self.input_q.insert_tail(msg)
self.process_update()
def process_qmsg(self, msg):
# return true = end top block
RX_COMMANDS = 'skip lockout hold'.split()
s = msg.to_string()
t = msg.type()
if t == -4:
d = json.loads(s)
s = d['command']
if type(s) is not str and isinstance(s, bytes):
# should only get here if python3
s = s.decode()
if s == 'quit': return True
elif s == 'update': ## deprecated here: to be removed
pass
# self.process_update()
elif s == 'set_freq':
freq = msg.arg1()
self.last_freq_params['freq'] = freq
self.set_freq(freq)
elif s == 'adj_tune':
freq = msg.arg1()
elif s == 'dump_tgids':
self.trunk_rx.dump_tgids()
elif s == 'reload_tags':
nac = msg.arg1()
self.trunk_rx.reload_tags(int(nac))
elif s == 'add_default_config':
nac = msg.arg1()
self.trunk_rx.add_default_config(int(nac))
elif s in RX_COMMANDS:
self.rx_q.insert_tail(msg)
elif s == 'settings-enable' and self.trunk_rx is not None:
self.trunk_rx.enable_status(d['data'])
return False
############################################################################
# data unit receive queue
#
class du_queue_watcher(threading.Thread):
def __init__(self, msgq, callback, **kwds):
threading.Thread.__init__ (self, **kwds)
self.setDaemon(1)
self.msgq = msgq
self.callback = callback
self.keep_running = True
self.start()
def run(self):
while(self.keep_running):
msg = self.msgq.delete_head()
if not self.keep_running:
break
self.callback(msg)
class rx_main(object):
def __init__(self):
self.keep_running = True
self.cli_options()
self.tb = p25_rx_block(self.options)
self.q_watcher = du_queue_watcher(self.tb.output_q, self.process_qmsg)
sys.stderr.write('python version detected: %s\n' % sys.version)
def process_qmsg(self, msg):
if self.tb.process_qmsg(msg):
self.keep_running = False
def run(self):
try:
self.tb.start()
while self.keep_running:
time.sleep(1)
except:
sys.stderr.write('main: exception occurred\n')
sys.stderr.write('main: exception:\n%s\n' % traceback.format_exc())
if self.tb.terminal:
self.tb.terminal.end_terminal()
if self.tb.audio:
self.tb.audio.stop()
self.tb.stop()
for sink in self.tb.plot_sinks:
sink.kill()
def cli_options(self):
# command line argument parsing
parser = OptionParser(option_class=eng_option)
parser.add_option("--args", type="string", default="", help="device args")
parser.add_option("--antenna", type="string", default="", help="select antenna")
parser.add_option("-a", "--audio", action="store_true", default=False, help="use direct audio input")
parser.add_option("-A", "--audio-if", action="store_true", default=False, help="soundcard IF mode (use --calibration to set IF freq)")
parser.add_option("-I", "--audio-input", type="string", default="", help="pcm input device name. E.g., hw:0,0 or /dev/dsp")
parser.add_option("-i", "--input", type="string", default=None, help="input file name")
parser.add_option("-b", "--excess-bw", type="eng_float", default=0.2, help="for RRC filter", metavar="Hz")
parser.add_option("-c", "--calibration", type="eng_float", default=0.0, help="USRP offset or audio IF frequency", metavar="Hz")
parser.add_option("-C", "--costas-alpha", type="eng_float", default=0.04, help="value of alpha for Costas loop", metavar="Hz")
parser.add_option("-D", "--demod-type", type="choice", default="cqpsk", choices=('cqpsk', 'fsk4'), help="cqpsk | fsk4")
parser.add_option("-P", "--plot-mode", type="string", default=None, help="one or more of constellation, fft, symbol, datascope (comma-separated)")
parser.add_option("-f", "--frequency", type="eng_float", default=0.0, help="USRP center frequency", metavar="Hz")
parser.add_option("-F", "--ifile", type="string", default=None, help="read input from complex capture file")
parser.add_option("-H", "--hamlib-model", type="int", default=None, help="specify model for hamlib")
parser.add_option("-s", "--seek", type="int", default=0, help="ifile seek in K")
parser.add_option("-l", "--terminal-type", type="string", default='curses', help="'curses' or udp port or 'http:host:port'")
parser.add_option("-L", "--logfile-workers", type="int", default=None, help="number of demodulators to instantiate")
parser.add_option("-S", "--sample-rate", type="int", default=320e3, help="source samp rate")
parser.add_option("-t", "--tone-detect", action="store_true", default=False, help="use experimental tone detect algorithm")
parser.add_option("-T", "--trunk-conf-file", type="string", default=None, help="trunking config file name")
parser.add_option("-v", "--verbosity", type="int", default=0, help="message debug level")
parser.add_option("-V", "--vocoder", action="store_true", default=False, help="voice codec")
parser.add_option("-n", "--nocrypt", action="store_true", default=False, help="silence encrypted traffic")
parser.add_option("-o", "--offset", type="eng_float", default=0.0, help="tuning offset frequency [to circumvent DC offset]", metavar="Hz")
parser.add_option("-p", "--pause", action="store_true", default=False, help="block on startup")
parser.add_option("-w", "--wireshark", action="store_true", default=False, help="output data to Wireshark")
parser.add_option("-W", "--wireshark-host", type="string", default="127.0.0.1", help="Wireshark host")
parser.add_option("-u", "--wireshark-port", type="int", default=23456, help="Wireshark udp port")
parser.add_option("-r", "--raw-symbols", type="string", default=None, help="dump decoded symbols to file")
parser.add_option("-g", "--gain", type="eng_float", default=None, help="set USRP gain in dB (default is midpoint) or set audio gain")
parser.add_option("-G", "--gain-mu", type="eng_float", default=0.025, help="gardner gain")
parser.add_option("-N", "--gains", type="string", default=None, help="gain settings")
parser.add_option("-O", "--audio-output", type="string", default="default", help="audio output device name")
parser.add_option("-x", "--audio-gain", type="eng_float", default="1.0", help="audio gain (default = 1.0)")
parser.add_option("-X", "--freq-error-tracking", action="store_true", default=False, help="enable experimental frequency error tracking")
parser.add_option("-U", "--udp-player", action="store_true", default=False, help="enable built-in udp audio player")
parser.add_option("-q", "--freq-corr", type="eng_float", default=0.0, help="frequency correction")
parser.add_option("-d", "--fine-tune", type="eng_float", default=0.0, help="fine tuning")
parser.add_option("-2", "--phase2-tdma", action="store_true", default=False, help="enable phase2 tdma decode")
parser.add_option("-Z", "--decim-amt", type="int", default=1, help="spectrum decimation")
(options, args) = parser.parse_args()
if len(args) != 0:
parser.print_help()
sys.exit(1)
self.options = options
# Start the receiver
#
if __name__ == "__main__":
rx = rx_main()
rx.run()
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