mirror of
https://github.com/f4exb/sdrangel.git
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454 lines
20 KiB
Python
454 lines
20 KiB
Python
#!/usr/bin/env python3
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"""
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Connects to spectrum server to monitor PSD and detect local increase to pilot channel(s)
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"""
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import requests, traceback, sys, json, time
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import struct, operator
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import math
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import numpy as np
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import websocket
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try:
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import thread
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except ImportError:
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import _thread as thread
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import time
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from datetime import datetime
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from optparse import OptionParser
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import sdrangel
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OPTIONS = None
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API_URI = None
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WS_URI = None
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PASS_INDEX = 0
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PSD_FLOOR = []
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CONFIG = {}
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UNSERVED_FREQUENCIES = []
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# ======================================================================
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class SuperScannerError(Exception):
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def __init__(self, message):
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self.message = message
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# ======================================================================
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class SuperScannerWebsocketError(SuperScannerError):
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pass
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# ======================================================================
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class SuperScannerWebsocketClosed(SuperScannerError):
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pass
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# ======================================================================
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class SuperScannerOptionsError(SuperScannerError):
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pass
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# ======================================================================
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class SuperScannerAPIError(SuperScannerError):
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pass
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# ======================================================================
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def log_with_timestamp(message):
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t = datetime.utcnow()
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print(f'{t.isoformat()} {message}')
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# ======================================================================
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def get_input_options(args=None):
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if args is None:
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args = sys.argv[1:]
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parser = OptionParser(usage="usage: %%prog [-t]\n")
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parser.add_option("-a", "--address", dest="address", help="SDRangel web base address. Default: 127.0.0.1", metavar="ADDRESS", type="string")
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parser.add_option("-p", "--api-port", dest="api_port", help="SDRangel API port. Default: 8091", metavar="PORT", type="int")
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parser.add_option("-w", "--ws-port", dest="ws_port", help="SDRangel websocket spectrum server port. Default: 8887", metavar="PORT", type="int")
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parser.add_option("-c", "--config-file", dest="config_file", help="JSON configuration file. Mandatory", metavar="FILE", type="string")
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parser.add_option("-j", "--psd-in", dest="psd_input_file", help="JSON file containing PSD floor information.", metavar="FILE", type="string")
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parser.add_option("-J", "--psd-out", dest="psd_output_file", help="Write PSD floor information to JSON file.", metavar="FILE", type="string")
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parser.add_option("-n", "--nb-passes", dest="passes", help="Number of passes for PSD floor estimation. Default: 10", metavar="NUM", type="int")
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parser.add_option("-m", "--margin", dest="margin", help="Margin in dB above PSD floor to detect acivity. Default: 3", metavar="DB", type="int")
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parser.add_option("-f", "--psd-level", dest="psd_fixed", help="Use a fixed PSD floor value.", metavar="DB", type="float")
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parser.add_option("-X", "--psd-exclude-higher", dest="psd_exclude_higher", help="Level above which to exclude bin scan.", metavar="DB", type="float")
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parser.add_option("-x", "--psd-exclude-lower", dest="psd_exclude_lower", help="Level below which to exclude bin scan.", metavar="DB", type="float")
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parser.add_option("-N", "--hotspots-noise", dest="hotspots_noise", help="Number of hotspots above which detection is considered as noise. Default 8", metavar="NUM", type="int")
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parser.add_option("-G", "--psd-graph", dest="psd_graph", help="Show PSD floor graphs. Requires matplotlib", action="store_true")
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parser.add_option("-g", "--group-tolerance", dest="group_tolerance", help="Radius (1D) tolerance in points (bins) for hotspots grouping. Default 1.", metavar="NUM", type="int")
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parser.add_option("-r", "--freq-round", dest="freq_round", help="Frequency rounding value in Hz. Default: 1 (no rounding)", metavar="NUM", type="int")
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parser.add_option("-o", "--freq-offset", dest="freq_offset", help="Frequency rounding offset in Hz. Default: 0 (no offset)", metavar="NUM", type="int")
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(options, args) = parser.parse_args(args)
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if (options.config_file == None):
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raise SuperScannerOptionsError('A configuration file is required. Option -c or --config-file')
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if (options.address == None):
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options.address = "127.0.0.1"
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if (options.api_port == None):
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options.api_port = 8091
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if (options.ws_port == None):
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options.ws_port = 8887
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if (options.passes == None):
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options.passes = 10
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elif options.passes < 1:
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options.passes = 1
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if (options.margin == None):
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options.margin = 3
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if (options.hotspots_noise == None):
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options.hotspots_noise = 8
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if (options.group_tolerance == None):
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options.group_tolerance = 1
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if (options.freq_round == None):
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options.freq_round = 1
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if (options.freq_offset == None):
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options.freq_offset = 0
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return options
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# ======================================================================
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def on_ws_message(ws, message):
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global PASS_INDEX
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try:
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struct_message = decode_message(message)
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if OPTIONS.psd_fixed is not None and OPTIONS.passes > 0:
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compute_fixed_floor(struct_message)
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OPTIONS.passes = 0 # done
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elif OPTIONS.psd_input_file is not None and OPTIONS.passes > 0:
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global PSD_FLOOR
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with open(OPTIONS.psd_input_file) as json_file:
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PSD_FLOOR = json.load(json_file)
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OPTIONS.passes = 0 # done
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elif OPTIONS.passes > 0:
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compute_floor(struct_message)
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OPTIONS.passes -= 1
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PASS_INDEX += 1
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print(f'PSD floor pass no {PASS_INDEX}')
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elif OPTIONS.passes == 0:
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OPTIONS.passes -= 1
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if OPTIONS.psd_output_file:
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with open(OPTIONS.psd_output_file, 'w') as outfile:
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json.dump(PSD_FLOOR, outfile)
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if OPTIONS.psd_graph:
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show_floor()
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else:
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scan(struct_message)
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except Exception as ex:
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tb = traceback.format_exc()
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print(tb, file=sys.stderr)
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# ======================================================================
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def on_ws_error(ws, error):
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raise SuperScannerWebsocketError(f'{error}')
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# ======================================================================
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def on_ws_close(ws):
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raise SuperScannerWebsocketClosed('websocket closed')
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# ======================================================================
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def on_ws_open(ws):
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log_with_timestamp('Web socket opened starting...')
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def run(*args):
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pass
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thread.start_new_thread(run, ())
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# ======================================================================
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def decode_message(byte_message):
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struct_message = {}
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struct_message['cf'] = int.from_bytes(byte_message[0:8], byteorder='little', signed=False)
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struct_message['elasped'] = int.from_bytes(byte_message[8:16], byteorder='little', signed=False)
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struct_message['ts'] = int.from_bytes(byte_message[16:24], byteorder='little', signed=False)
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struct_message['fft_size'] = int.from_bytes(byte_message[24:28], byteorder='little', signed=False)
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struct_message['fft_bw'] = int.from_bytes(byte_message[28:32], byteorder='little', signed=False)
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indicators = int.from_bytes(byte_message[32:36], byteorder='little', signed=False)
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struct_message['linear'] = (indicators & 1) == 1
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struct_message['ssb'] = ((indicators & 2) >> 1) == 1
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struct_message['usb'] = ((indicators & 4) >> 2) == 1
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struct_message['samples'] = []
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for sample_index in range(struct_message['fft_size']):
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psd = struct.unpack('f', byte_message[36 + 4*sample_index: 40 + 4*sample_index])[0]
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struct_message['samples'].append(psd)
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return struct_message
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# ======================================================================
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def compute_fixed_floor(struct_message):
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global PSD_FLOOR
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nb_samples = len(struct_message['samples'])
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PSD_FLOOR = [(OPTIONS.psd_fixed, False)] * nb_samples
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# ======================================================================
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def compute_floor(struct_message):
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global PSD_FLOOR
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fft_size = struct_message['fft_size']
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psd_samples = struct_message['samples']
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for psd_index, psd in enumerate(psd_samples):
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exclude = False
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if OPTIONS.psd_exclude_higher:
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exclude = psd > OPTIONS.psd_exclude_higher
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if OPTIONS.psd_exclude_lower:
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exclude = psd < OPTIONS.psd_exclude_lower
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if psd_index < len(PSD_FLOOR):
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PSD_FLOOR[psd_index][1] = exclude or PSD_FLOOR[psd_index][1]
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if psd > PSD_FLOOR[psd_index][0]:
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PSD_FLOOR[psd_index][0] = psd
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else:
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PSD_FLOOR.append([])
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PSD_FLOOR[psd_index].append(psd)
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PSD_FLOOR[psd_index].append(exclude)
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# ======================================================================
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def show_floor():
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import matplotlib
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import matplotlib.pyplot as plt
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print('show_floor')
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plt.figure(1)
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plt.subplot(211)
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plt.plot([x[1] for x in PSD_FLOOR])
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plt.ylabel('PSD exclusion')
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plt.subplot(212)
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plt.plot([x[0] for x in PSD_FLOOR])
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plt.ylabel('PSD floor')
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plt.show()
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# ======================================================================
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def freq_rounding(freq, round_freq, round_offset):
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shifted_freq = freq - round_offset
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return round(shifted_freq/round_freq)*round_freq + round_offset
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# ======================================================================
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def scan(struct_message):
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ts = struct_message['ts']
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freq_density = struct_message['fft_bw'] / struct_message['fft_size']
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hotspots = []
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hotspot ={}
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last_hotspot_index = 0
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if struct_message['ssb']:
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freq_start = struct_message['cf']
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freq_stop = struct_message['cf'] + struct_message['fft_bw']
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else:
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freq_start = struct_message['cf'] - (struct_message['fft_bw'] / 2)
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freq_stop = struct_message['cf'] + (struct_message['fft_bw'] / 2)
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psd_samples = struct_message['samples']
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psd_sum = 0
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psd_count = 1
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for psd_index, psd in enumerate(psd_samples):
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freq = freq_start + psd_index*freq_density
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if PSD_FLOOR[psd_index][1]: # exclusion zone
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continue
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if psd > PSD_FLOOR[psd_index][0] + OPTIONS.margin: # detection
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psd_sum += 10**(psd/10)
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psd_count += 1
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if psd_index > last_hotspot_index + OPTIONS.group_tolerance: # new hotspot
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if hotspot.get("begin"): # finalize previous hotspot
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hotspot["end"] = hotspot_end
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hotspot["power"] = psd_sum / psd_count
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hotspots.append(hotspot)
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hotspot = {"begin": freq}
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psd_sum = 10**(psd/10)
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psd_count = 1
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hotspot_end = freq
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last_hotspot_index = psd_index
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if hotspot.get("begin"): # finalize last hotspot
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hotspot["end"] = hotspot_end
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hotspot["power"] = psd_sum / psd_count
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hotspots.append(hotspot)
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process_hotspots(hotspots)
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# ======================================================================
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def allocate_channel():
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channels = CONFIG['channel_info']
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for channel in channels:
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if channel['usage'] == 0:
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return channel
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return None
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# ======================================================================
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def freq_in_ranges_check(freq):
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freqrange_inclusions = CONFIG.get('freqrange_inclusions', [])
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freqrange_exclusions = CONFIG.get('freqrange_exclusions', [])
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for freqrange in freqrange_exclusions:
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if freqrange[0] <= freq <= freqrange[1]:
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return False
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for freqrange in freqrange_inclusions:
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if freqrange[0] <= freq <= freqrange[1]:
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return True
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return False
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# ======================================================================
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def get_hotspot_frequency(channel, hotspot):
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fc_pos = channel.get('fc_pos', 'center')
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if fc_pos == 'lsb':
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channel_frequency = freq_rounding(hotspot['end'], OPTIONS.freq_round, OPTIONS.freq_offset)
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elif fc_pos == 'usb':
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channel_frequency = freq_rounding(hotspot['begin'], OPTIONS.freq_round, OPTIONS.freq_offset)
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else:
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channel_frequency = freq_rounding(hotspot['fc'], OPTIONS.freq_round, OPTIONS.freq_offset)
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fc_shift = channel.get('fc_shift', 0)
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return channel_frequency + fc_shift
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# ======================================================================
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def process_hotspots(scanned_hotspots):
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global CONFIG
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global UNSERVED_FREQUENCIES
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if len(scanned_hotspots) > OPTIONS.hotspots_noise:
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return
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# calculate frequency for each hotspot and create list of valid hotspots
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hotspots = []
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for hotspot in scanned_hotspots:
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width = hotspot['end'] - hotspot['begin']
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fc = hotspot['begin'] + width/2
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if not freq_in_ranges_check(fc):
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continue
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hotspot['fc'] = fc
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hotspot['begin'] = fc - (width/2) # re-center around fc
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hotspot['end'] = fc + (width/2)
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hotspots.append(hotspot)
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# calculate hotspot distances for each used channel and reuse the channel for the closest hotspot
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channels = CONFIG['channel_info']
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used_channels = [channel for channel in channels if channel['usage'] == 1]
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consolidated_distances = []
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for channel in used_channels: # loop on used channels
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distances = [[abs(channel['frequency'] - get_hotspot_frequency(channel, hotspot)), hotspot] for hotspot in hotspots]
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distances = sorted(distances, key=operator.itemgetter(0))
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if distances:
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consolidated_distances.append([distances[0][0], channel, distances[0][1]]) # [distance, channel, hotspot]
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consolidated_distances = sorted(consolidated_distances, key=operator.itemgetter(0)) # get (channel, hotspot) pair with shortest distance first
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# reallocate used channels on their closest hotspot
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for distance in consolidated_distances:
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channel = distance[1]
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hotspot = distance[2]
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if hotspot in hotspots: # hotspot is not processed yet
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channel_frequency = get_hotspot_frequency(channel, hotspot)
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channel['usage'] = 2 # mark channel used on this pass
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if channel['frequency'] != channel_frequency: # optimization: do not move to same frequency
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channel['frequency'] = channel_frequency
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channel_index = channel['index']
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set_channel_frequency(channel)
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log_with_timestamp(f'Moved channel {channel_index} to frequency {channel_frequency} Hz')
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hotspots.remove(hotspot) # done with this hotspot
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# for remaining hotspots we need to allocate new channels
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for hotspot in hotspots:
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channel = allocate_channel()
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if channel:
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channel_index = channel['index']
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channel_frequency = get_hotspot_frequency(channel, hotspot)
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channel['usage'] = 2 # mark channel used on this pass
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channel['frequency'] = channel_frequency
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set_channel_frequency(channel)
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log_with_timestamp(f'Allocated channel {channel_index} on frequency {channel_frequency} Hz')
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else:
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fc = hotspot['fc']
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if fc not in UNSERVED_FREQUENCIES:
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UNSERVED_FREQUENCIES.append(fc)
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log_with_timestamp(f'All channels allocated. Cannot process signal at {fc} Hz')
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# cleanup
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for channel in CONFIG['channel_info']:
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if channel['usage'] == 1: # channel unused on this pass
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channel['usage'] = 0 # release it
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channel_index = channel['index']
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fc = channel['frequency']
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set_channel_mute(channel)
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UNSERVED_FREQUENCIES.clear() # at least one channel is able to serve next time
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log_with_timestamp(f'Released channel {channel_index} on frequency {fc} Hz')
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elif channel['usage'] == 2: # channel used on this pass
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channel['usage'] = 1 # reset usage for next pass
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# ======================================================================
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def set_channel_frequency(channel):
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deviceset_index = CONFIG['deviceset_index']
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channel_index = channel['index']
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channel_id = channel['id']
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df = channel['frequency'] - CONFIG['device_frequency']
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url = f'{API_URI}/sdrangel/deviceset/{deviceset_index}/channel/{channel_index}/settings'
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payload = {
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sdrangel.CHANNEL_TYPES[channel_id]['settings']: {
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sdrangel.CHANNEL_TYPES[channel_id]['df_key']: df,
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sdrangel.CHANNEL_TYPES[channel_id]['mute_key']: 0
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},
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'channelType': channel_id,
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'direction': 0
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}
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r = requests.patch(url=url, json=payload)
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if r.status_code // 100 != 2:
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raise SuperScannerAPIError(f'Set channel {channel_index} frequency failed')
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# ======================================================================
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def set_channel_mute(channel):
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deviceset_index = CONFIG['deviceset_index']
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channel_index = channel['index']
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channel_id = channel['id']
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url = f'{API_URI}/sdrangel/deviceset/{deviceset_index}/channel/{channel_index}/settings'
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payload = {
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sdrangel.CHANNEL_TYPES[channel_id]['settings']: {
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sdrangel.CHANNEL_TYPES[channel_id]['mute_key']: 1
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},
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'channelType': channel_id,
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'direction': 0
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}
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r = requests.patch(url=url, json=payload)
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if r.status_code // 100 != 2:
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raise SuperScannerAPIError(f'Set channel {channel_index} mute failed')
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# ======================================================================
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def get_deviceset_info(deviceset_index):
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url = f'{API_URI}/sdrangel/deviceset/{deviceset_index}'
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r = requests.get(url=url)
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if r.status_code // 100 != 2:
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raise SuperScannerAPIError(f'Get deviceset {deviceset_index} info failed')
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return r.json()
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# ======================================================================
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def make_config():
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global CONFIG
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deviceset_index = CONFIG['deviceset_index']
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deviceset_info = get_deviceset_info(deviceset_index)
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device_frequency = deviceset_info["samplingDevice"]["centerFrequency"]
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CONFIG['device_frequency'] = device_frequency
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for channel_info in CONFIG['channel_info']:
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channel_index = channel_info['index']
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if channel_index < deviceset_info['channelcount']:
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channel_offset = deviceset_info['channels'][channel_index]['deltaFrequency']
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channel_id = deviceset_info['channels'][channel_index]['id']
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channel_info['id'] = channel_id
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channel_info['usage'] = 0 # 0: unused 1: used 2: reused in current allocation step (temporary state)
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channel_info['frequency'] = device_frequency + channel_offset
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else:
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raise SuperScannerAPIError(f'There is no channel with index {channel_index} in deviceset {deviceset_index}')
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# ======================================================================
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def main():
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try:
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global OPTIONS
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global CONFIG
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global API_URI
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global WS_URI
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OPTIONS = get_input_options()
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log_with_timestamp(f'Start with options: {OPTIONS}')
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with open(OPTIONS.config_file) as json_file: # get base config
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CONFIG = json.load(json_file)
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log_with_timestamp(f'Initial configuration: {CONFIG}')
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API_URI = f'http://{OPTIONS.address}:{OPTIONS.api_port}'
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WS_URI = f'ws://{OPTIONS.address}:{OPTIONS.ws_port}'
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make_config() # complete config with device set information from SDRangel
|
|
|
|
ws = websocket.WebSocketApp(WS_URI,
|
|
on_message = on_ws_message,
|
|
on_error = on_ws_error,
|
|
on_close = on_ws_close)
|
|
ws.on_open = on_ws_open
|
|
ws.run_forever()
|
|
|
|
except SuperScannerWebsocketError as ex:
|
|
print(ex.message)
|
|
except SuperScannerWebsocketClosed:
|
|
print("Spectrum websocket closed")
|
|
except Exception as ex:
|
|
tb = traceback.format_exc()
|
|
print(tb, file=sys.stderr)
|
|
|
|
# ======================================================================
|
|
if __name__ == "__main__":
|
|
main()
|