def __init__(self, sample_rate, dict_key, origin_t_secs, origin_t_frac):
gr.sync_block.__init__(self,
name="retune_uhd_to_timed_tag",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
# setup logger
logger_name = 'gr_log.' + self.to_basic_block().alias()
if logger_name in gr.logger_get_names():
self.log = gr.logger(logger_name)
else:
self.log = gr.logger('log')
self.set_sample_rate(sample_rate)
self.set_ref_time(offset=0, secs=origin_t_secs, frac=origin_t_frac)
# this is exposed as a member variable, but really should not be
# modified as the downstream block respects this key
self.set_tag_key(pmt.intern("set_freq"))
self.set_dict_key(dict_key)
# time reference key
self.time_key = pmt.intern("rx_time")
self.message_port_register_in(pmt.intern("command"))
self.set_msg_handler(pmt.intern("command"), self.handle_command)
self.message_port_register_out(pmt.intern("freq"))
# queue for tune commands
self.tune_commands = deque((), maxlen=64)
self.lock = threading.Lock()
def test_001_t (self):
if os.path.exists("debug/transmission_frame.dat") and os.path.exists("debug/transmission_frame_trigger.dat"):
self.dab_params = dab.parameters.dab_parameters(1, 208.064e6, True)
self.src01 = blocks.file_source_make(gr.sizeof_float * 2 * self.dab_params.num_carriers,
"debug/transmission_frame.dat")
self.src02 = blocks.file_source_make(gr.sizeof_char, "debug/transmission_frame_trigger.dat")
self.dabplus = dab.dabplus_audio_decoder_ff(self.dab_params, 112, 54, 84, 2, True, False, True)
self.wav_sink = blocks.wavfile_sink_make("debug/music.wav", 2, 32000)
self.file_sink_left = blocks.file_sink_make(gr.sizeof_float, "debug/PCM_left.dat")
self.file_sink_right = blocks.file_sink_make(gr.sizeof_float, "debug/PCM_right.dat")
self.tb.connect(self.src01, (self.dabplus, 0), self.file_sink_left)
self.tb.connect(self.src02, (self.dabplus, 1), self.file_sink_right)
self.tb.connect((self.dabplus, 0), (self.wav_sink, 0))
self.tb.connect((self.dabplus, 1), (self.wav_sink, 1))
self.audio = audio.sink_make(32000)
self.tb.connect((self.dabplus, 0), (self.audio, 0))
self.tb.connect((self.dabplus, 1), (self.audio, 1))
self.tb.run()
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self, samps_per_symb, beta_rrc, cfo_samps, cfo_freqs, corr_reps,
body_samps=608):
"""
Inputs:
:param samps_per_symb: number of samples per symbol sent over the air
:param beta_rrc: bandwidth expansion parameter for RRC filter
:param cfo_samps: integer number of samples for the CFO correction header portion
:param cfo_freqs: list of frequencies present in the CFO correction header, Hz
positive values only: freqs are added as cosines to mirror in negative frequency portion
:param corr_reps: integer number of repetitions for correlation header Golay sequences
"""
gr.basic_block.__init__(self,
name="echo_packet_wrapper",
in_sig=None,
out_sig=None)
self.wrapper = EchoPacketWrapper(samps_per_symb=samps_per_symb, beta_rrc=beta_rrc,
cfo_samps=cfo_samps, cfo_freqs=cfo_freqs,
corr_repetitions=corr_reps)
self.nsamples = self.wrapper.full_packet_length(body_samps) * samps_per_symb
self.port_in_id = pmt.intern("body")
self.port_out_id = pmt.intern("frame")
self.message_port_register_in(self.port_in_id)
self.message_port_register_out(self.port_out_id)
self.set_msg_handler(self.port_in_id, self.handle_body)
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.npackets = 0
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
def __init__(self,
bits_per_symbol,
block_length=10000,
preamble=None,
log_ber_interval=10):
DemodulatorClassic.__init__(self,
bits_per_symbol=bits_per_symbol,
block_length=block_length)
gr.basic_block.__init__(self,
name="demod_classic",
in_sig=None,
out_sig=None)
self.port_id_in = pmt.intern("symbols")
self.port_id_out = pmt.intern("bits")
self.message_port_register_in(self.port_id_in)
self.message_port_register_out(self.port_id_out)
self.set_msg_handler(self.port_id_in, self.handle_packet)
if preamble is not numpy.ndarray:
preamble = numpy.array(preamble)
self.preamble = preamble
self.packet_cnt = 0
self.ber = None
self.log_ber_interval = log_ber_interval
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("classic demod {}: {} bits per symbol".format(
self.uuid_str, self.bits_per_symbol))
with open("ber_{}.csv".format(self.uuid_str), "w") as f:
f.write("iter,BER\n")
def __init__(self, length):
"""
Packet Length Checker
Sends every received PDU through the passthrough port, and only packets with the right length through the
validated port
:param length: Expected number of samples in the PDU
"""
gr.basic_block.__init__(self,
name="packet_length_check",
in_sig=None,
out_sig=None)
self.length = length
self.port_id_in = pmt.intern("in")
self.port_id_passthrough = pmt.intern("passthrough")
self.port_id_validated = pmt.intern("validated")
self.port_id_failed = pmt.intern("failed")
self.message_port_register_in(self.port_id_in)
self.message_port_register_out(self.port_id_passthrough)
self.message_port_register_out(self.port_id_validated)
self.message_port_register_out(self.port_id_failed)
self.set_msg_handler(self.port_id_in, self.handle_packet)
self.npackets = 0
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
def test_001_t(self):
log = gr.logger("log")
if os.path.exists("debug/transmission_frame.dat") and os.path.exists(
"debug/transmission_frame_trigger.dat"):
self.dab_params = dab.parameters.dab_parameters(1, 208.064e6, True)
self.src01 = blocks.file_source_make(
gr.sizeof_float * 2 * self.dab_params.num_carriers,
"debug/transmission_frame.dat")
self.src02 = blocks.file_source_make(
gr.sizeof_char, "debug/transmission_frame_trigger.dat")
self.msc = dab.msc_decode(self.dab_params, 54, 84, 2, 1, 1)
self.firecode = dab.firecode_check_bb_make(14)
self.file_sink_subch_decoded = blocks.file_sink_make(
gr.sizeof_char, "debug/subch_decoded.dat")
self.file_sink_firecode_checked = blocks.file_sink_make(
gr.sizeof_char, "debug/checked_firecode.dat")
self.tb.connect(self.src01, (self.msc, 0), self.firecode,
self.file_sink_firecode_checked)
self.tb.connect(self.src02, (self.msc, 1))
self.tb.connect(self.msc, self.file_sink_subch_decoded)
self.tb.run()
else:
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self, packet_len_bits_no_header, reset_len, num_packets):
gr.sync_block.__init__(self,
name="prbs_sink_pdu",
in_sig=None,
out_sig=None)
self.log = gr.logger("log")
self.packet_len_bits_no_header = packet_len_bits_no_header
self.reset_len = reset_len
self.num_packets = num_packets
self.generator = prbs_generator.PRBSGenerator(reset_len=reset_len)
self.all_packets_received_ctr = 0
self.wrong_length_packets_after_fec_ctr = 0
self.erroneous_packets_after_fec_ctr = 0
self.correct_packets_received_ctr = 0
self.collected_packets = np.zeros(self.num_packets)
self.statistics = None
self.message_port_register_in(pmt.intern("all"))
self.message_port_register_in(pmt.intern("corrected"))
self.set_msg_handler(pmt.intern("all"), self.all_handler)
self.set_msg_handler(pmt.intern("corrected"), self.corrected_handler)
def __init__(
self,
downlink_frequency,
uplink_frequency,
api_key,
api_url,
root_cert_path,
groundstation_id,
plan_id,
corrections_per_second,
verbose,
test_channel=None
): # This last argument test_channel is used only for unit testing purposes.
gr.sync_block.__init__(self,
name="groundstation_api_doppler",
in_sig=None,
out_sig=None)
self.downlink_frequency = downlink_frequency
self.uplink_frequency = uplink_frequency
self.api_key = api_key
self.api_url = api_url
self.root_cert_path = root_cert_path
self.groundstation_id = groundstation_id
self.plan_id = plan_id
self.corrections_per_second = corrections_per_second
self.verbose = verbose
self.test_channel = test_channel
self.stopped = False
self.message_port_register_out(pmt.intern("downlink_shift"))
self.message_port_register_out(pmt.intern("uplink_shift"))
self.log = gr.logger("log")
def __init__(
self,
api_key,
api_url,
root_cert_path,
groundstation_id,
plan_id,
stream_tag,
verbose,
test_channel=None
): # This last argument test_channel is used only for unit testing purposes.
gr.sync_block.__init__(self,
name="groundstation_api",
in_sig=None,
out_sig=None)
self.api_key = api_key
self.api_url = api_url
self.root_cert_path = root_cert_path
self.groundstation_id = groundstation_id
self.plan_id = plan_id
self.stream_tag = stream_tag
self.verbose = verbose
self.test_channel = test_channel
self.message_port_register_out(pmt.intern("command"))
self.register_port_and_message_handler("bitstream")
self.register_port_and_message_handler("ax25")
self.register_port_and_message_handler("iq")
self.queue = Queue()
self.lock = threading.Lock()
self.stopped = False
self.log = gr.logger("log")
def test_001_t (self):
if os.path.exists("debug/transmission_frame.dat") and os.path.exists("debug/transmission_frame_trigger.dat"):
self.dab_params = grdab.parameters.dab_parameters(1, 208.064e6, True)
self.src01 = blocks.file_source_make(gr.sizeof_float * 2 * self.dab_params.num_carriers,
"debug/transmission_frame.dat")
self.src02 = blocks.file_source_make(gr.sizeof_char, "debug/transmission_frame_trigger.dat")
self.dabplus = grdab.dabplus_audio_decoder_ff(self.dab_params, 112, 54, 84, 2, True, False, True)
self.wav_sink = blocks.wavfile_sink_make("debug/music.wav", 2, 32000)
self.file_sink_left = blocks.file_sink_make(gr.sizeof_float, "debug/PCM_left.dat")
self.file_sink_right = blocks.file_sink_make(gr.sizeof_float, "debug/PCM_right.dat")
self.tb.connect(self.src01, (self.dabplus, 0), self.file_sink_left)
self.tb.connect(self.src02, (self.dabplus, 1), self.file_sink_right)
self.tb.connect((self.dabplus, 0), (self.wav_sink, 0))
self.tb.connect((self.dabplus, 1), (self.wav_sink, 1))
self.audio = audio.sink_make(32000)
self.tb.connect((self.dabplus, 0), (self.audio, 0))
self.tb.connect((self.dabplus, 1), (self.audio, 1))
self.tb.run()
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def test_001_t(self):
if os.path.exists("debug/PCM_left.dat") and os.path.exists(
"debug/PCM_right.dat"):
self.src_left = blocks.file_source_make(gr.sizeof_float,
"debug/PCM_left.dat")
self.src_right = blocks.file_source_make(gr.sizeof_float,
"debug/PCM_right.dat")
self.f2s_1 = blocks.float_to_short_make(1, 32767)
self.f2s_2 = blocks.float_to_short_make(1, 32767)
self.mp4_encode = dab.mp4_encode_sb_make(14, 2, 32000, 1)
self.mp4_decode = dab.mp4_decode_bs_make(14)
self.s2f_1 = blocks.short_to_float_make(1, 32767)
self.s2f_2 = blocks.short_to_float_make(1, 32767)
self.audio = audio.sink_make(32000)
self.tb.connect(self.src_left, self.f2s_1, (self.mp4_encode, 0))
self.tb.connect(self.src_right, self.f2s_2, (self.mp4_encode, 1))
self.tb.connect(self.mp4_encode, self.mp4_decode, self.s2f_1,
(self.audio, 0))
self.tb.connect((self.mp4_decode, 1), self.s2f_2, (self.audio, 1))
self.tb.run()
# check data
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
def __init__(self, p_integ):
gr.basic_block.__init__(self,
name="md_sel_cc",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
# Parameter
self.offset = 210 # in simulation bestimmt
self.fs = 48000
#
self.generated_samples = 0
self.symbol_found = 0
self.symbol_start = 0
self.symbol_start_offset = 0
# Symbollänge + buffer, um zu verhindern das Maxima direkt nach dem Symbol vorkommen
#self.set_history(1024+256+30)
#set multiple
#self.set_
#self.set_history((1024+256)*2)
self.set_output_multiple(1024*2)
self.mode = 0
# OFDM Paramter aller 4 Modes festlegen
self.gi_len = np.array([0, 128, 256,256,352])
self.sym_len = np.array([0,1280,1280,960,800])
self.modes = ['Nicht erkannt', 'A', 'B', 'C', 'D']
# Time Sync
self.est_t = 0
self.found_t = 0
# Mode Detection
self.new_mode_detected = 0
# Fine Freq Sync
self.fine_freq_off = 0
# Logger
self.log = gr.logger( 'log_debug' )
self.log.debug('DEBUG LOG')
self.log.set_level('ERROR')
# Schätzer aktivieren
self.enable_integration = p_integ
# Schätzer über Zeit integrieren Zeitsync
self.n_estimations_t = 0.0
self.estimation_t = 0.0
self.confidence_t = 0.0
self.estim_var_t = 100.0 # Varianz des Schätzers, rech klein bei der feinen Freq sync
# Schätzer über Zeit integrieren Zeitsync
self.n_estimations_f = 0.0
self.estimation_f = 0.0
self.confidence_f = 0.0
self.estim_var_f = 10.0 # Varianz des Schätzers, rech klein bei der feinen Freq sync
def test_001_t (self):
log = gr.logger("log")
if os.path.exists("debug/rs_encoded.dat") and os.path.exists("debug/rs_encoded.dat"):
self.dp = dab.parameters.dab_parameters(1, 208.064e6, True)
# sources
self.fib_src = dab.fib_source_b_make(1, 1, 'Galaxy_News', 'Wasteland_Radio', 'Country_Mix01', 0x09, [2], [14])
self.fib_pack = blocks.unpacked_to_packed_bb_make(1, gr.GR_MSB_FIRST)
self.subch_src01 = blocks.file_source_make(gr.sizeof_char, "debug/rs_encoded.dat", True)
self.subch_src02 = blocks.file_source_make(gr.sizeof_char, "debug/rs_encoded_2.dat", True)
# encoder
self.fib_enc = dab.fic_encode(self.dp)
self.msc_encoder = dab.msc_encode(self.dp, 14, 2)
self.msc_encoder2 = dab.msc_encode(self.dp, 14, 2)
# multiplexer
self.mux = dab.dab_transmission_frame_mux_bb_make(1, 2, [84, 84])
# mapper
self.unpack = blocks.packed_to_unpacked_bb_make(1, gr.GR_MSB_FIRST)
self.map = dab.mapper_bc_make(self.dp.num_carriers)
# demapper
self.s2v = blocks.stream_to_vector_make(gr.sizeof_gr_complex, self.dp.num_carriers)
self.soft_interleaver = dab.complex_to_interleaved_float_vcf_make(self.dp.num_carriers)
# decode
self.fic_decoder = dab.fic_decode(self.dp)
self.msc_dec = dab.dabplus_audio_decoder_ff(self.dp, 112, 0, 84, 2, True)
# audio sink
self.audio = audio.sink_make(32000)
# control stream
self.trigger_src = blocks.vector_source_b([1] + [0] * 74, True)
# connect everything
self.tb.connect(self.fib_src, self.fib_enc, (self.mux, 0))
self.tb.connect(self.subch_src01, self.msc_encoder, (self.mux, 1))
self.tb.connect(self.subch_src02, self.msc_encoder2, (self.mux, 2))
self.tb.connect((self.mux, 0), self.unpack, self.map, self.s2v, self.soft_interleaver, (self.msc_dec, 0))
self.tb.connect(self.soft_interleaver, (self.fic_decoder, 0))
self.tb.connect(self.trigger_src, (self.fic_decoder, 1))
self.tb.connect(self.trigger_src, (self.msc_dec, 1))
self.tb.connect((self.msc_dec, 0), (self.audio, 0))
self.tb.connect((self.msc_dec, 1), (self.audio, 1))
self.tb.run ()
pass
else:
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self, encapsulation_from, custom_dlt, custom_dissector_name):
gr.basic_block.__init__(self,
name="rftap_encap",
in_sig=[],
out_sig=[])
# setup logger
logger_name = 'gr_log.' + self.to_basic_block().alias()
if logger_name in gr.logger_get_names():
self.log = gr.logger(logger_name)
else:
self.log = gr.logger('log')
self.encapsulation_from = encapsulation_from
self.custom_dlt = custom_dlt
self.custom_dissector_name = custom_dissector_name
self.message_port_register_in(self.PMT_IN)
self.set_msg_handler(self.PMT_IN, self.handle_msg)
self.message_port_register_out(self.PMT_OUT)
def __init__(self, output_path="/tmp", fname_format="", archive=False):
gr.basic_block.__init__(self,
name="file_archiver",
in_sig=None,
out_sig=None)
self.message_port_register_in(pmt.intern("pdu"))
self.set_msg_handler(pmt.intern("pdu"), self.handler)
# setup logger
logger_name = 'gr_log.' + self.to_basic_block().alias()
if logger_name in gr.logger_get_names():
self.log = gr.logger(logger_name)
else:
self.log = gr.logger('log')
# protection mutex
self.mutex = threading.Lock()
# file pdu dictionary elements
self.filename_tag = pmt.intern('fname')
self.freq_tag = pmt.intern("rx_freq")
self.rate_tag = pmt.intern("rx_rate")
self.time_tag = pmt.intern("rx_time")
# frequency specifiers
self.freq_specs = [('%fcM', 1e6), ('%fck', 1e3), ('%fcc', 1.)]
# rate specifiers
self.rate_specs = [('%fsM', 1e6), ('%fsk', 1e3), ('%fsc', 1.)]
# where to copy files
self.set_output_path(output_path)
# filename format
self.set_fname_format(fname_format)
# set archive
self.set_archive(archive)
def __init__(self, parent, usrp_source):
gr.sync_block.__init__(self,
name="usrp_gps_time_sync",
in_sig=None,
out_sig=None)
# setup logger
logger_name = 'gr_log.' + self.to_basic_block().alias()
if logger_name in gr.logger_get_names():
self.log = gr.logger(logger_name)
else:
self.log = gr.logger('log')
self.parent = parent
self.usrp_source = usrp_source
self.usrp_source_object = None
self.message_port_register_in(timing_utils.PMTCONSTSTR__in())
self.set_msg_handler(timing_utils.PMTCONSTSTR__in(), self.msg_handler)
# current gps status
self.has_gpsdo = False
self.gps_locked = False
def test_001_t (self):
if os.path.exists("debug/mp2_encoded.dat"):
self.src_mp2 = blocks.file_source_make(gr.sizeof_char, "debug/mp2_encoded.dat")
self.unpack = blocks.packed_to_unpacked_bb_make(1, gr.GR_MSB_FIRST)
self.mp2_decode = grdab.mp2_decode_bs_make(14)
self.sink_left = blocks.file_sink_make(gr.sizeof_short, "debug/mp2_decoded_left.dat")
self.sink_right = blocks.file_sink_make(gr.sizeof_short, "debug/mp2_decoded_right.dat")
self.tb.connect(self.src_mp2, self.unpack, (self.mp2_decode, 0), self.sink_left)
self.tb.connect((self.mp2_decode, 1), self.sink_right)
self.tb.run()
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self,
bits_per_symbol,
preamble=None,
log_ber_interval=10,
spy_length=64,
spy_threshold=0.1):
ModulatorClassic.__init__(self, bits_per_symbol, max_amplitude=0.09)
gr.basic_block.__init__(self,
name="modulator_classic",
in_sig=None,
out_sig=None)
# Echo protocol variables
assert preamble is not None, "Preamble must be provided"
if preamble is not np.ndarray:
preamble = np.array(preamble)
self.preamble = preamble
self.preamble_si = util_data.bits_to_integers(self.preamble,
self.bits_per_symbol)
self.log_ber_interval = log_ber_interval
# Message port setup and variables
self.port_id_in = pmt.intern("bits")
self.port_id_update = pmt.intern("update")
self.port_id_out = pmt.intern("symbols")
self.message_port_register_in(self.port_id_in)
self.message_port_register_in(self.port_id_update)
self.message_port_register_out(self.port_id_out)
self.set_msg_handler(self.port_id_in, self.handle_packet)
self.set_msg_handler(self.port_id_update, self.handle_update)
self.packet_cnt = 0
self.ber_cnt = 0
# Packet header and spy variables
self.spy_length = spy_length
assert self.spy_length % self.bits_per_symbol == 0
self.spy_threshold = spy_threshold
self.reedsolomon = reedsolo.RSCodec(4)
self.rs_length = 4 * 2 * 8 # 4 bytes data, 4 bytes parity, 8 bits per byte
# Logging stuff
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("classic mod {}: {} bits per symbol".format(
self.uuid_str, self.bits_per_symbol))
with open("ber_echo_{}.csv".format(self.uuid_str), "w") as f:
f.write("train_iter,BER\n")
def __init__(self, mode, fs):
gr.basic_block.__init__(self,
name="mixer_cc",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
self.mode = mode
self.ffactor = 1
self.set_output_multiple(1028)
# Sonstiges
self.samples_generated = 0
# Logger
self.log = gr.logger('log_debug')
self.log.debug('DEBUG LOG')
self.log.set_level('DEBUG')
def test_001_t (self):
if os.path.exists("debug/reed_solomon_repaired.dat"):
self.src = blocks.file_source_make(gr.sizeof_char, "debug/reed_solomon_repaired.dat")
self.mp4 = grdab.mp4_decode_bs_make(14)
self.s2f_left = blocks.short_to_float_make(1, 32767)
self.s2f_right = blocks.short_to_float_make(1, 32767)
self.audio = audio.sink_make(32000)
self.tb.connect(self.src, (self.mp4, 0), self.s2f_left, (self.audio, 0))
self.tb.connect((self.mp4, 1), self.s2f_right, (self.audio, 1))
self.tb.run()
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self):
gr.sync_block.__init__(self,
name="add_message_to_stream_async",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
self.message_port_register_in(pmt.intern("msgs"))
self.set_msg_handler(pmt.intern("msgs"), self.handle_message)
self.msg_queue = numpy.zeros((0,), dtype=numpy.complex64)
self.msgs_received = 0
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("async_msg2strm {}".format(self.uuid_str))
def __init__(self,
bits_per_symbol,
block_length=10000,
preamble=None,
log_ber_interval=10,
spy_length=64,
spy_threshold=0.1,
alias="demod_classic"):
DemodulatorClassic.__init__(self,
bits_per_symbol=bits_per_symbol,
block_length=block_length,
max_amplitude=0.09)
gr.basic_block.__init__(self,
name="demod_classic",
in_sig=None,
out_sig=None)
self.alias = alias
self.port_id_in = pmt.intern("symbols")
self.port_id_out = pmt.intern("bits")
self.port_id_corrupt = pmt.intern("corrupt")
self.message_port_register_in(self.port_id_in)
self.message_port_register_out(self.port_id_out)
self.message_port_register_out(self.port_id_corrupt)
self.set_msg_handler(self.port_id_in, self.handle_packet)
if preamble is not np.ndarray:
preamble = np.array(preamble)
self.preamble = preamble
self.packet_cnt = 0
self.update_cnt = 0
self.ber = None
self.log_ber_interval = log_ber_interval
self.spy_length = spy_length
assert self.spy_length % self.bits_per_symbol == 0
self.spy_threshold = spy_threshold
self.reedsolomon = reedsolo.RSCodec(4)
self.rs_length = 4 * 2 * 8 # 4 bytes data, 4 bytes parity, 8 bits per byte
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("classic demod {}: {} bits per symbol".format(
self.uuid_str, self.bits_per_symbol))
with open("ber_{}.csv".format(self.uuid_str), "w") as f:
f.write("iter,BER\n")
def __init__(self, samps_per_symb, beta_rrc, cfo_samps, corr_reps, body_size, threshold=10):
"""
Packet detector.
:param samps_per_symb: number of samples per symbol sent over the air
:param beta_rrc: bandwidth expansion parameter for RRC filter
:param cfo_samps: number of sample in CFO estimation field
:param corr_reps: number of repetitions of Golay sequence in channel estimation fields
:param body_size: number of samples in the body of a packet
:param threshold: threshold for detection of packet by Golay correlation
relative to normalized perfect correlation of 1.0
"""
gr.sync_block.__init__(self,
name="echo_packet_detect",
in_sig=[np.complex64],
out_sig=None)
self.samps_per_symb = samps_per_symb
self.beta_rrc = beta_rrc
self.cfo_samps = cfo_samps
self.corr_reps = corr_reps
self.body_size = body_size
self.threshold = threshold
self.wrapper = EchoPacketWrapper(samps_per_symb=samps_per_symb, beta_rrc=beta_rrc,
cfo_samps=cfo_samps, cfo_freqs=[0.25],
corr_repetitions=corr_reps)
# Require that a full cfo field and channel est field be present at the same time
self.nhistory = (self.wrapper.corr_samps) * self.samps_per_symb - 1
self.set_history(self.nhistory + 1) # GNURadio actually gives you N-1 history items
self.drop_history = 0
self.state = self.SEARCHING
self.pkt_buf = None # Buffer to build packets in when broken across calls to work
self.missing_samples = 0 # Nonzero when the tail of a packet is missing from a work call
self.port_id_out = pmt.intern("frame")
self.message_port_register_out(self.port_id_out)
self.npackets = 0
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("DETECTOR {}: Packet Size = {} samples".format(
self.uuid_str, self.wrapper.full_packet_length(self.body_size)))
def test_001_t (self):
log = gr.logger("log")
if os.path.exists("debug/transmission_frame.dat") and os.path.exists("debug/transmission_frame_trigger.dat"):
self.dab_params = grdab.parameters.dab_parameters(1 , 208.064e6, True)
self.src01 = blocks.file_source_make(gr.sizeof_float * 2*self.dab_params.num_carriers, "debug/transmission_frame.dat")
self.src02 = blocks.file_source_make(gr.sizeof_char, "debug/transmission_frame_trigger.dat")
self.msc = grdab.msc_decode(self.dab_params, 54, 84, 2, 1, 1)
self.firecode = grdab.firecode_check_bb_make(14)
self.file_sink_subch_decoded = blocks.file_sink_make(gr.sizeof_char, "debug/subch_decoded.dat")
self.file_sink_firecode_checked = blocks.file_sink_make(gr.sizeof_char, "debug/checked_firecode.dat")
self.tb.connect(self.src01, (self.msc, 0), self.firecode, self.file_sink_firecode_checked)
self.tb.connect(self.src02, (self.msc, 1))
self.tb.connect(self.msc, self.file_sink_subch_decoded)
self.tb.run ()
else:
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self, timeout):
gr.basic_block.__init__(self, name="watchdog", in_sig=[], out_sig=[])
self.timeout = timeout
self.port_out = pmt.intern("out")
self.port_in = pmt.intern("in")
self.message_port_register_out(self.port_out)
self.message_port_register_in(self.port_in)
self.set_msg_handler(self.port_in, self.handle_msg)
self.timer = threading.Timer(self.timeout, self.alarm)
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.npackets = 0
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.timer.start()
def test_001_t(self):
if os.path.exists("debug/PCM_piano_left.dat") and os.path.exists(
"debug/PCM_piano_right.dat"):
self.src_left = blocks.file_source_make(
gr.sizeof_short, "debug/PCM_piano_left.dat")
self.src_right = blocks.file_source_make(
gr.sizeof_short, "debug/PCM_piano_right.dat")
self.mp2 = dab.mp2_encode_sb_make(14, 2, 48000)
self.file_sink = blocks.file_sink_make(gr.sizeof_char,
"debug/mp2_encoded.mp2")
self.tb.connect(self.src_left, (self.mp2, 0), self.file_sink)
self.tb.connect(self.src_right, (self.mp2, 1))
self.tb.run()
# check data
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def test_001_t(self):
if os.path.exists("debug/mp2_encoded.dat"):
self.src_mp2 = blocks.file_source_make(gr.sizeof_char,
"debug/mp2_encoded.dat")
self.unpack = blocks.packed_to_unpacked_bb_make(1, gr.GR_MSB_FIRST)
self.mp2_decode = dab.mp2_decode_bs_make(14)
self.sink_left = blocks.file_sink_make(
gr.sizeof_short, "debug/mp2_decoded_left.dat")
self.sink_right = blocks.file_sink_make(
gr.sizeof_short, "debug/mp2_decoded_right.dat")
self.tb.connect(self.src_mp2, self.unpack, (self.mp2_decode, 0),
self.sink_left)
self.tb.connect((self.mp2_decode, 1), self.sink_right)
self.tb.run()
else:
log = gr.logger("log")
log.debug("debug file not found - skipped test")
log.set_level("WARN")
pass
def __init__(self, prepend_min, prepend_max, append_min, append_max):
gr.basic_block.__init__(self,
name="rand_zeros_extend_c",
in_sig=None,
out_sig=None)
self.prepend_min = prepend_min
self.prepend_max = prepend_max
self.append_min = append_min
self.append_max = append_max
self.port_id_in = pmt.intern("frame")
self.port_id_out = pmt.intern("extended")
self.message_port_register_in(self.port_id_in)
self.message_port_register_out(self.port_id_out)
self.set_msg_handler(self.port_id_in, self.handle_frame)
self.npackets = 0
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
def __init__(self, fs, fft_len, mode):
gr.sync_block.__init__(self,
name="phase_sync_cc",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
self.fs = 48000
self.mode = 0
# OFDM Paramter aller 4 Modes festlegen
# Im Moment nur für Mode B
self.ofdm_freq_pilots = [16, 48, 64]
self.ofdm_freq_phases = [331, 651, 555]
self.ofdm_freq_abs = numpy.sqrt(2)
# Phasen berechnen
self.ofdm_freq_phases = numpy.exp(
numpy.multiply((1j * 2 * numpy.pi / 1024), self.ofdm_freq_phases))
# Amplitude berechnen
self.ofdm_freq_ref = numpy.multiply(self.ofdm_freq_phases,
self.ofdm_freq_abs)
self.ofdm_freq_phases = numpy.angle(self.ofdm_freq_phases)
# Negative Frequenzen nach oben verschieben
self.ofdm_freq_pilots = [x + 512 for x in self.ofdm_freq_pilots]
self.gi_len = numpy.array([0, 128, 256, 256, 352])
self.sym_len = numpy.array([0, 1280, 1280, 960, 800])
self.fft_len = self.sym_len - self.gi_len
self.modes = ['Nicht erkannt', 'A', 'B', 'C', 'D']
#bzw. self.fft_len
# wird erst relevant, sobald Mode erkannt...
self.set_output_multiple(1024)
self.phase_offset = 0
self.ncnt = 0
# Logger
self.log = gr.logger('log_debug')
self.log.debug('DEBUG LOG')
self.log.set_level('DEBUG')
def __init__(self, p_integ):
gr.basic_block.__init__(self,
name="fsync_cc",
in_sig=[numpy.complex64],
out_sig=[numpy.complex64])
# Parameter
self.set_output_multiple(2048)
self.freq_range = 10
self.ofdm_pilots = [16, 48, 64]
# Mode A
# Mode B
# Iniitialisierungen
self.mode = 0
self.ffactor = 0
self.items_consumed = 0
self.items_created = 0
self.offset = 0
self.var = 100
# Logger
self.log = gr.logger('log_debug')
self.log.debug('DEBUG LOG')
self.log.set_level('ERROR')
# Schätzer aktivieren
self.enable_integration = p_integ
#Schätzer über mehrere Symbolef
self.estimation_k = 0.0
self.n_estimations = 0.0
self.estim_var_start = 100.0 # var des Schätzers, recht groß in manchen fällen für grobe f sync
self.confidence = self.estim_var_start
def __init__(
self,
seed=0,
hidden_layers=(64, ),
bits_per_symbol=2,
preamble=None,
log_constellation_interval=10,
init_weights="",
activation_fn_hidden='tanh',
# kernel_initializer_hidden=normc_initializer(1.0),
# bias_initializer_hidden=tf.glorot_uniform_initializer(),
activation_fn_output=None,
# kernel_initializer_output=normc_initializer(1.0),
# bias_initializer_output=tf.glorot_uniform_initializer(),
optimizer=torch.optim.Adam,
# initial_eps=1e-1,
# max_eps=2e-1,
# min_eps=1e-4,
lambda_prob=1e-10,
loss_type='l2',
# explore_prob=0.5,
# strong_supervision_prob=0.,
stepsize_mu=1e-3,
# stepsize_eps=1e-5,
stepsize_cross_entropy=1e-3,
cross_entropy_weight=1.0,
):
gr.basic_block.__init__(self,
name="demodulator_neural",
in_sig=None,
out_sig=None)
DemodulatorNeural.__init__(
self,
seed=seed,
hidden_layers=hidden_layers,
bits_per_symbol=bits_per_symbol,
activation_fn_hidden=activation_fn_hidden,
# kernel_initializer_hidden=kernel_initializer_hidden,
# bias_initializer_hidden=bias_initializer_hidden,
activation_fn_output=activation_fn_output,
# kernel_initializer_output=kernel_initializer_output,
# bias_initializer_output=bias_initializer_output,
optimizer=optimizer,
# initial_eps=initial_eps,
# max_eps=max_eps,
# min_eps=min_eps,
lambda_prob=lambda_prob,
loss_type=loss_type,
# explore_prob=explore_prob,
# strong_supervision_prob=strong_supervision_prob,
stepsize_mu=stepsize_mu,
# stepsize_eps=stepsize_eps,
stepsize_cross_entropy=stepsize_cross_entropy,
cross_entropy_weight=cross_entropy_weight)
if preamble is None:
raise Exception("You must provide a preamble")
if preamble is not numpy.ndarray:
preamble = numpy.array(preamble)
assert len(
preamble.shape
) == 1, "Preamble must be a vector, not a matrix with a dimension of size 1"
self.preamble = preamble
self.preamble_si = bits_to_integers(numpy.array(self.preamble),
self.bits_per_symbol)
self.run_mode = "train" # Be careful not to clobber the parent class' mode here!
if len(init_weights) > 0:
self.model.load_state_dict(torch.load(init_weights))
self.run_mode = "freeze"
# Message ports
self.port_id_in = pmt.intern("symbols")
self.port_id_out = pmt.intern("bits")
self.port_id_ctrl = pmt.intern("control")
self.message_port_register_in(self.port_id_in)
self.message_port_register_in(self.port_id_ctrl)
self.message_port_register_out(self.port_id_out)
self.set_msg_handler(self.port_id_in, self.handle_packet)
self.set_msg_handler(self.port_id_ctrl, self.handle_control)
# Counters
self.packet_cnt = 0
self.log_constellation_interval = log_constellation_interval
self.uuid = uuid.uuid4()
self.uuid_str = str(self.uuid)[-6:]
self.logger = gr.logger("log_debug")
self.logger.set_level("DEBUG")
self.logger.info("neural demod {}: {} bits per symbol".format(
self.uuid_str, self.bits_per_symbol))
if len(init_weights) > 0:
self.logger.info(
"neural demod {}: initialized weights from {}".format(
self.uuid_str, init_weights))
with open("ber_{}.csv".format(self.uuid_str), "w") as f:
f.write("iter,BER\n")
def __init__(
self,
timeslots=15,
subcarriers=64,
active_subcarriers=60,
overlap=2,
subcarrier_map=list(range(1, 61)),
cp_len=16,
cs_len=8,
ramp_len=8,
frequency_domain_taps=list(range(30)),
map_resources_per_timeslot=True,
preamble=[1.0 + 1.0j] * 128,
channel_estimator_id=1,
gfdm_constellation=digital.constellation_qpsk().base(),
ic_iterations=2,
activate_phase_compensation=True,
activate_cfo_compensation=True,
sync_tag_key="frame_start",
antenna_port=None,
):
gr.hier_block2.__init__(
self,
"receiver_cc",
gr.io_signature(1, 1, gr.sizeof_gr_complex),
gr.io_signature(3, 3, gr.sizeof_gr_complex),
)
self.logger = gr.logger(f"gr_log.{self.symbol_name()}")
internal_sync_tag_key = sync_tag_key
snr_tag_key = "snr_lin"
cnr_tag_key = "cnr"
if antenna_port is not None:
internal_sync_tag_key = f"{sync_tag_key}{antenna_port}"
snr_tag_key = f"{snr_tag_key}{antenna_port}"
cnr_tag_key = f"{cnr_tag_key}{antenna_port}"
self.logger.debug(
f"{sync_tag_key=}, {internal_sync_tag_key=}, {snr_tag_key=}, {cnr_tag_key=}"
)
self.logger.debug(
f"{activate_cfo_compensation=}, {activate_phase_compensation=}"
)
preamble = np.array(preamble)
block_len = timeslots * subcarriers
full_block_len = block_len + cp_len + cs_len
preamble_len = preamble.size
full_preamble_len = cp_len + preamble_len + cs_len
# frame_len includes preamble, payload and CP+CS for both
frame_len = full_preamble_len + full_block_len
sc_map_is_dc_free = subcarrier_map[0] != 0
self.extract_burst = gfdm.extract_burst_cc(
frame_len,
cp_len,
sync_tag_key,
activate_cfo_compensation,
internal_sync_tag_key,
)
self.remove_prefix_data = gfdm.remove_prefix_cc(
frame_len, block_len, full_preamble_len + cp_len, internal_sync_tag_key
)
self.remove_prefix_preamble = gfdm.remove_prefix_cc(
frame_len, preamble_len, cp_len, internal_sync_tag_key
)
self.channel_estimator = gfdm.channel_estimator_cc(
timeslots,
subcarriers,
active_subcarriers,
sc_map_is_dc_free,
channel_estimator_id,
preamble,
snr_tag_key,
cnr_tag_key,
)
self.advanced_receiver = gfdm.advanced_receiver_sb_cc(
timeslots,
subcarriers,
overlap,
ic_iterations,
frequency_domain_taps,
gfdm_constellation,
subcarrier_map,
activate_phase_compensation,
)
self.resource_demapper = gfdm.resource_demapper_cc(
timeslots,
subcarriers,
active_subcarriers,
subcarrier_map,
map_resources_per_timeslot,
)
self.connect(
(self, 0),
(self.extract_burst, 0),
(self.remove_prefix_data, 0),
(self.advanced_receiver, 0),
(self.resource_demapper, 0),
(self, 0),
)
self.connect(
(self.extract_burst, 0),
(self.remove_prefix_preamble, 0),
(self.channel_estimator, 0),
(self.advanced_receiver, 1),
)
self.connect((self.channel_estimator, 0), (self, 1))
self.connect((self.extract_burst, 0), (self, 2))
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
outfile = None
elif nargs == 2:
infile = args[0]
outfile = args[1]
else:
sys.stderr.write("Usage: dvbt-hackrf.py infile [output_file]\n")
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# Hack-RF Parameters
center_freq = config.get_center_freq()
rf_gain = config.get_hackrf_rf_gain()
if_gain = config.get_hackrf_if_gain()
bb_gain = config.get_hackrf_bb_gain()
##
samp_rate = 10000000.0
if mode == dvbt.T2k:
factor = 1
carriers = 2048
elif mode == dvbt.T8k:
factor = 4
carriers = 8192
if guard_interval == dvbt.G1_32:
gi = carriers / 32
elif guard_interval == dvbt.G1_16:
gi = carriers / 16
elif guard_interval == dvbt.G1_8:
gi = carriers / 8
elif guard_interval == dvbt.G1_4:
gi = carriers / 4
if channel_mhz == 8:
bandwidth = 8750000
elif channel_mhz == 7:
bandwidth = 7000000
elif channel_mhz == 6:
bandwidth = 6000000
elif channel_mhz == 5:
bandwidth = 5000000
else:
bandwidth = 8750000
log = gr.logger("dvbt-hackrf")
log.set_level("DEBUG")
log.debug("logger initilized")
tb = gr.top_block()
log.debug("top block initialized")
src = blocks.file_source(gr.sizeof_char, infile, True)
log.debug("source block initialized")
dvbt_energy_dispersal = dvbt.energy_dispersal(1 * factor)
dvbt_reed_solomon_enc = dvbt.reed_solomon_enc(2, 8, 0x11d, 255, 239, 8, 51,
(8 * factor))
dvbt_convolutional_interleaver = dvbt.convolutional_interleaver(
(136 * factor), 12, 17)
dvbt_inner_coder = dvbt.inner_coder(1, (1512 * factor), constellation,
dvbt.NH, code_rate)
dvbt_bit_inner_interleaver = dvbt.bit_inner_interleaver(
(1512 * factor), constellation, dvbt.NH, mode)
dvbt_symbol_inner_interleaver = dvbt.symbol_inner_interleaver(
(1512 * factor), mode, 1)
dvbt_dvbt_map = dvbt.dvbt_map((1512 * factor), constellation, dvbt.NH,
mode, 1)
dvbt_reference_signals = dvbt.reference_signals(gr.sizeof_gr_complex,
(1512 * factor), carriers,
constellation, dvbt.NH,
code_rate, code_rate,
dvbt.G1_32, mode, 0, 0)
fft_vxx = fft.fft_vcc(carriers, False, (window.rectangular(carriers)),
True, 10)
digital_ofdm_cyclic_prefixer = digital.ofdm_cyclic_prefixer(
carriers, carriers + (gi), 0, "")
rational_resampler_xxx = filter.rational_resampler_ccc(interpolation=70,
decimation=64,
taps=None,
fractional_bw=None)
blocks_multiply_const_vxx = blocks.multiply_const_vcc((0.0022097087, ))
log.debug("DVB-T blocks initialized")
out = osmosdr.sink(args="numchan=1")
out.set_sample_rate(samp_rate)
out.set_center_freq(center_freq, 0)
out.set_freq_corr(0, 0)
out.set_gain(rf_gain, 0)
out.set_if_gain(if_gain, 0)
out.set_bb_gain(bb_gain, 0)
out.set_antenna("", 0)
out.set_bandwidth(0, 0)
log.debug("Output block initialized")
tb.connect(src, dvbt_energy_dispersal)
tb.connect(dvbt_energy_dispersal, dvbt_reed_solomon_enc)
tb.connect(dvbt_reed_solomon_enc, dvbt_convolutional_interleaver)
tb.connect(dvbt_convolutional_interleaver, dvbt_inner_coder)
tb.connect(dvbt_inner_coder, dvbt_bit_inner_interleaver)
tb.connect(dvbt_bit_inner_interleaver, dvbt_symbol_inner_interleaver)
tb.connect(dvbt_symbol_inner_interleaver, dvbt_dvbt_map)
tb.connect(dvbt_dvbt_map, dvbt_reference_signals)
tb.connect(dvbt_reference_signals, fft_vxx)
tb.connect(fft_vxx, digital_ofdm_cyclic_prefixer)
tb.connect(digital_ofdm_cyclic_prefixer, blocks_multiply_const_vxx)
tb.connect(blocks_multiply_const_vxx, rational_resampler_xxx)
tb.connect(rational_resampler_xxx, out)
log.debug("all blocks connected")
if outfile:
dst = blocks.file_sink(gr.sizeof_gr_complex, outfile)
tb.connect(blocks_multiply_const_vxx, dst)
log.debug("running gnuradio")
tb.run()
def __init__(self,
verbose_mode=True,
radio_host_name="ndr651",
radio_host_port=8617,
tengig_iface_list=['eth10', 'eth11'],
num_tuners=1,
tuner1_param_list=[False, 900e6, 0],
tuner2_param_list=[False, 900e6, 0],
num_wbddcs=1,
wbddc1_param_list=["eth10", 40001, 0, 0, False],
wbddc2_param_list=["eth10", 40002, 0, 0, False],
num_nbddcs=1,
nbddc1_param_list=["eth10", 41001, 0, 0, False, 0.0],
nbddc2_param_list=["eth10", 41002, 0, 0, False, 0.0],
nbddc3_param_list=["eth10", 41003, 0, 0, False, 0.0],
nbddc4_param_list=["eth10", 41004, 0, 0, False, 0.0],
nbddc5_param_list=["eth10", 41005, 0, 0, False, 0.0],
nbddc6_param_list=["eth10", 41006, 0, 0, False, 0.0],
nbddc7_param_list=["eth10", 41007, 0, 0, False, 0.0],
nbddc8_param_list=["eth10", 41008, 0, 0, False, 0.0],
nbddc9_param_list=["eth10", 41009, 0, 0, False, 0.0],
nbddc10_param_list=["eth10", 41010, 0, 0, False, 0.0],
nbddc11_param_list=["eth10", 41011, 0, 0, False, 0.0],
nbddc12_param_list=["eth10", 41012, 0, 0, False, 0.0],
nbddc13_param_list=["eth10", 41013, 0, 0, False, 0.0],
nbddc14_param_list=["eth10", 41014, 0, 0, False, 0.0],
nbddc15_param_list=["eth10", 41015, 0, 0, False, 0.0],
nbddc16_param_list=["eth10", 41016, 0, 0, False, 0.0],
tagged=False,
debug=False,
):
gr.hier_block2.__init__(
self, "[CyberRadio] NDR651 Source",
gr.io_signature(0, 0, 0),
gr.io_signaturev(num_wbddcs + num_nbddcs + 1,
num_wbddcs + num_nbddcs + 1,
[gr.sizeof_char*1] +
num_wbddcs * [gr.sizeof_gr_complex*1] + \
num_nbddcs * [gr.sizeof_gr_complex*1]),
)
self.logger = gr.logger("CyberRadio")
self.logger.set_level("INFO")
self.tuner_param_lists = {}
self.wbddc_sources = {}
self.wbddc_param_lists = {}
self.nbddc_sources = {}
self.nbddc_param_lists = {}
self.verbose_mode = verbose_mode
self.radio_host_name = radio_host_name
self.radio_host_port = radio_host_port
self.tengig_iface_list = tengig_iface_list
self.num_tuners = num_tuners
self.tuner_param_lists[1] = tuner1_param_list
self.tuner_param_lists[2] = tuner2_param_list
self.num_wbddcs = num_wbddcs
self.wbddc_param_lists[1] = wbddc1_param_list
self.wbddc_param_lists[2] = wbddc2_param_list
self.num_nbddcs = num_nbddcs
self.nbddc_param_lists[1] = nbddc1_param_list
self.nbddc_param_lists[2] = nbddc2_param_list
self.nbddc_param_lists[3] = nbddc3_param_list
self.nbddc_param_lists[4] = nbddc4_param_list
self.nbddc_param_lists[5] = nbddc5_param_list
self.nbddc_param_lists[6] = nbddc6_param_list
self.nbddc_param_lists[7] = nbddc7_param_list
self.nbddc_param_lists[8] = nbddc8_param_list
self.nbddc_param_lists[9] = nbddc9_param_list
self.nbddc_param_lists[10] = nbddc10_param_list
self.nbddc_param_lists[11] = nbddc11_param_list
self.nbddc_param_lists[12] = nbddc12_param_list
self.nbddc_param_lists[13] = nbddc13_param_list
self.nbddc_param_lists[14] = nbddc14_param_list
self.nbddc_param_lists[15] = nbddc15_param_list
self.nbddc_param_lists[16] = nbddc16_param_list
self.tagged = tagged
self.debug = debug
self.CyberRadio_file_like_object_source_0 = CyberRadio.file_like_object_source()
self.connect((self.CyberRadio_file_like_object_source_0, 0), (self, 0))
self.CyberRadio_NDR_driver_interface_0 = CyberRadio.NDR_driver_interface(
radio_type="ndr651",
verbose=verbose_mode,
log_file=self.CyberRadio_file_like_object_source_0,
connect_mode="tcp",
host_name=radio_host_name,
host_port=radio_host_port,
)
self.vita_tail_size = self.CyberRadio_NDR_driver_interface_0.getVitaTailSize()
self.vita_payload_size = self.CyberRadio_NDR_driver_interface_0.getVitaPayloadSize()
self.vita_header_size = self.CyberRadio_NDR_driver_interface_0.getVitaHeaderSize()
self.iq_swapped = self.CyberRadio_NDR_driver_interface_0.isIqSwapped()
self.byte_swapped = self.CyberRadio_NDR_driver_interface_0.isByteswapped()
# tengig_iface_info = Nested dictionary caching info for our 10GigE
# interfaces. Keyed by interface name and datum keyword ("index",
# , "destMAC", "sourceIP", or "destIP").
self.tengig_iface_info = {}
self._get_tengig_iface_info()
# UDP destination info needs to be tracked dynamically, since
# DDCs can be freely assigned to any 10GigE port but there are
# not enough DIP table entries to hard-code any assignments.
self.udp_dest_dip_entries = {}
self.udp_dest_dip_entry_range = self.CyberRadio_NDR_driver_interface_0.getGigEDipEntryIndexRange()
self._set_udp_dest_info()
for tuner_index in xrange(1, self.num_tuners + 1, 1):
self._set_tuner_param_list(tuner_index, self.tuner_param_lists[tuner_index])
for wbddc_index in xrange(1, self.num_wbddcs + 1, 1):
self.wbddc_sources[wbddc_index] = self._get_configured_wbddc(
wbddc_index,
self.wbddc_param_lists[wbddc_index])
self.connect((self.wbddc_sources[wbddc_index], 0), (self, wbddc_index))
for nbddc_index in xrange(1, self.num_nbddcs + 1, 1):
self.nbddc_sources[nbddc_index] = self._get_configured_nbddc(
nbddc_index,
self.nbddc_param_lists[nbddc_index])
self.connect((self.nbddc_sources[nbddc_index], 0), (self, self.num_wbddcs + nbddc_index))
def main(args):
nargs = len(args)
if nargs == 1:
infile = args[0]
outfile = None
elif nargs == 2:
infile = args[0]
outfile = args[1]
else:
sys.stderr.write("Usage: dvbt-hackrf.py infile [output_file]\n");
sys.exit(1)
## Config Options
config = DVBTConfig('dvbt.conf')
# DVB-T Parameters
channel_mhz = config.get_channel_mhz()
mode = config.get_mode()
code_rate = config.get_code_rate()
constellation = config.get_constellation()
guard_interval = config.get_guard_interval()
# Hack-RF Parameters
center_freq = config.get_center_freq()
rf_gain = config.get_hackrf_rf_gain()
if_gain = config.get_hackrf_if_gain()
bb_gain = config.get_hackrf_bb_gain()
##
samp_rate = 10000000.0
if mode == dvbt.T2k:
factor = 1
carriers = 2048
elif mode == dvbt.T8k:
factor = 4
carriers = 8192
if guard_interval == dvbt.G1_32:
gi = carriers / 32
elif guard_interval == dvbt.G1_16:
gi = carriers / 16
elif guard_interval == dvbt.G1_8:
gi = carriers / 8
elif guard_interval == dvbt.G1_4:
gi = carriers / 4
if channel_mhz == 8:
bandwidth = 8750000
elif channel_mhz == 7:
bandwidth = 7000000
elif channel_mhz == 6:
bandwidth = 6000000
elif channel_mhz == 5:
bandwidth = 5000000
else:
bandwidth = 8750000
log=gr.logger("dvbt-hackrf")
log.set_level("DEBUG");
log.debug("logger initilized")
tb = gr.top_block()
log.debug("top block initialized")
src = blocks.file_source(gr.sizeof_char, infile, True)
log.debug("source block initialized")
dvbt_energy_dispersal = dvbt.energy_dispersal(1 * factor)
dvbt_reed_solomon_enc = dvbt.reed_solomon_enc(2, 8, 0x11d, 255, 239, 8, 51, (8 * factor))
dvbt_convolutional_interleaver = dvbt.convolutional_interleaver((136 * factor), 12, 17)
dvbt_inner_coder = dvbt.inner_coder(1, (1512 * factor), constellation, dvbt.NH, code_rate)
dvbt_bit_inner_interleaver = dvbt.bit_inner_interleaver((1512 * factor), constellation, dvbt.NH, mode)
dvbt_symbol_inner_interleaver = dvbt.symbol_inner_interleaver((1512 * factor), mode, 1)
dvbt_dvbt_map = dvbt.dvbt_map((1512 * factor), constellation, dvbt.NH, mode, 1)
dvbt_reference_signals = dvbt.reference_signals(gr.sizeof_gr_complex, (1512 * factor), carriers, constellation, dvbt.NH, code_rate, code_rate, dvbt.G1_32, mode, 0, 0)
fft_vxx = fft.fft_vcc(carriers, False, (window.rectangular(carriers)), True, 10)
digital_ofdm_cyclic_prefixer = digital.ofdm_cyclic_prefixer(carriers, carriers+(gi), 0, "")
rational_resampler_xxx = filter.rational_resampler_ccc(interpolation=70, decimation=64, taps=None, fractional_bw=None)
blocks_multiply_const_vxx = blocks.multiply_const_vcc((0.0022097087, ))
log.debug("DVB-T blocks initialized")
out = osmosdr.sink(args="numchan=1")
out.set_sample_rate(samp_rate)
out.set_center_freq(center_freq, 0)
out.set_freq_corr(0, 0)
out.set_gain(rf_gain, 0)
out.set_if_gain(if_gain, 0)
out.set_bb_gain(bb_gain, 0)
out.set_antenna("", 0)
out.set_bandwidth(0, 0)
log.debug("Output block initialized")
tb.connect(src, dvbt_energy_dispersal)
tb.connect(dvbt_energy_dispersal, dvbt_reed_solomon_enc)
tb.connect(dvbt_reed_solomon_enc, dvbt_convolutional_interleaver)
tb.connect(dvbt_convolutional_interleaver, dvbt_inner_coder)
tb.connect(dvbt_inner_coder, dvbt_bit_inner_interleaver)
tb.connect(dvbt_bit_inner_interleaver, dvbt_symbol_inner_interleaver)
tb.connect(dvbt_symbol_inner_interleaver, dvbt_dvbt_map)
tb.connect(dvbt_dvbt_map, dvbt_reference_signals)
tb.connect(dvbt_reference_signals, fft_vxx)
tb.connect(fft_vxx, digital_ofdm_cyclic_prefixer)
tb.connect(digital_ofdm_cyclic_prefixer, blocks_multiply_const_vxx)
tb.connect(blocks_multiply_const_vxx, rational_resampler_xxx)
tb.connect(rational_resampler_xxx, out)
log.debug("all blocks connected")
if outfile:
dst = blocks.file_sink(gr.sizeof_gr_complex, outfile)
tb.connect(blocks_multiply_const_vxx, dst)
log.debug("running gnuradio")
tb.run()
if guard_interval == dvbt2.GI_1_32:
gi = fftsize / 32
elif guard_interval == dvbt2.GI_1_16:
gi = fftsize / 16
elif guard_interval == dvbt2.GI_1_8:
gi = fftsize / 8
elif guard_interval == dvbt2.GI_1_4:
gi = fftsize / 4
elif guard_interval == dvbt2.GI_1_128:
gi = fftsize / 128
elif guard_interval == dvbt2.GI_19_128:
gi = (fftsize * 19) / 128
elif guard_interval == dvbt2.GI_19_256:
gi = (fftsize * 19) / 256
log=gr.logger("dvbt2-hackrf")
log.set_level("DEBUG");
log.debug("logger initilized")
tb = gr.top_block()
log.debug("top block initialized")
src = blocks.file_source(gr.sizeof_char, infile, True)
log.debug("source block initialized")
dvbt2_bbheader = dvbt2.bbheader_bb(frame_size, code_rate, input_mode, dvbt2.INBAND_OFF, fec_blocks, 4000000)
dvbt2_bbscrambler = dvbt2.bbscrambler_bb(frame_size, code_rate)
dvbt2_bch = dvbt2.bch_bb(frame_size, code_rate)
dvbt2_ldpc = dvbt2.ldpc_bb(frame_size, code_rate)
dvbt2_interleaver = dvbt2.interleaver_bb(frame_size, code_rate, constellation)
dvbt2_modulator = dvbt2.modulator_bc(frame_size, constellation, rotation)
