Ejemplo n.º 1
0
 def __init__(self, fft_len=_def_fft_len, cp_len=_def_cp_len,
              frame_length_tag_key=_def_frame_length_tag_key,
              packet_length_tag_key=_def_packet_length_tag_key,
              packet_num_tag_key=_def_packet_num_tag_key,
              occupied_carriers=_def_occupied_carriers,
              pilot_carriers=_def_pilot_carriers,
              pilot_symbols=_def_pilot_symbols,
              bps_header=1,
              bps_payload=1,
              sync_word1=None,
              sync_word2=None,
              debug_log=False,
              scramble_bits=False
              ):
     gr.hier_block2.__init__(self, "ofdm_rx",
                 gr.io_signature(1, 1, gr.sizeof_gr_complex),
                 gr.io_signature(1, 1, gr.sizeof_char))
     ### Param init / sanity check ########################################
     self.fft_len           = fft_len
     self.cp_len            = cp_len
     self.frame_length_tag_key    = frame_length_tag_key
     self.packet_length_tag_key   = packet_length_tag_key
     self.occupied_carriers = occupied_carriers
     self.bps_header        = bps_header
     self.bps_payload       = bps_payload
     n_sync_words = 1
     if sync_word1 is None:
         self.sync_word1 = _make_sync_word1(fft_len, occupied_carriers, pilot_carriers)
     else:
         if len(sync_word1) != self.fft_len:
             raise ValueError("Length of sync sequence(s) must be FFT length.")
         self.sync_word1 = sync_word1
     self.sync_word2 = ()
     if sync_word2 is None:
         self.sync_word2 = _make_sync_word2(fft_len, occupied_carriers, pilot_carriers)
         n_sync_words = 2
     elif len(sync_word2):
         if len(sync_word2) != fft_len:
             raise ValueError("Length of sync sequence(s) must be FFT length.")
         self.sync_word2 = sync_word2
         n_sync_words = 2
     if scramble_bits:
         self.scramble_seed = 0x7f
     else:
         self.scramble_seed = 0x00 # We deactivate the scrambler by init'ing it with zeros
     ### Sync ############################################################
     sync_detect = digital.ofdm_sync_sc_cfb(fft_len, cp_len)
     delay = blocks.delay(gr.sizeof_gr_complex, fft_len+cp_len)
     oscillator = analog.frequency_modulator_fc(-2.0 / fft_len)
     mixer = blocks.multiply_cc()
     hpd = digital.header_payload_demux(
         n_sync_words+1,       # Number of OFDM symbols before payload (sync + 1 sym header)
         fft_len, cp_len,      # FFT length, guard interval
         frame_length_tag_key, # Frame length tag key
         "",                   # We're not using trigger tags
         True                  # One output item is one OFDM symbol (False would output complex scalars)
     )
     self.connect(self, sync_detect)
     self.connect(self, delay, (mixer, 0), (hpd, 0))
     self.connect((sync_detect, 0), oscillator, (mixer, 1))
     self.connect((sync_detect, 1), (hpd, 1))
     if debug_log:
         self.connect((sync_detect, 0), blocks.file_sink(gr.sizeof_float, 'freq-offset.dat'))
         self.connect((sync_detect, 1), blocks.file_sink(gr.sizeof_char, 'sync-detect.dat'))
     ### Header demodulation ##############################################
     header_fft           = fft.fft_vcc(self.fft_len, True, (), True)
     chanest              = digital.ofdm_chanest_vcvc(self.sync_word1, self.sync_word2, 1)
     header_constellation = _get_constellation(bps_header)
     header_equalizer     = digital.ofdm_equalizer_simpledfe(
         fft_len,
         header_constellation.base(),
         occupied_carriers,
         pilot_carriers,
         pilot_symbols,
         symbols_skipped=0,
     )
     header_eq = digital.ofdm_frame_equalizer_vcvc(
             header_equalizer.base(),
             cp_len,
             self.frame_length_tag_key,
             True,
             1 # Header is 1 symbol long
     )
     header_serializer = digital.ofdm_serializer_vcc(
             fft_len, occupied_carriers,
             self.frame_length_tag_key
     )
     header_demod     = digital.constellation_decoder_cb(header_constellation.base())
     header_formatter = digital.packet_header_ofdm(
             occupied_carriers, 1,
             packet_length_tag_key,
             frame_length_tag_key,
             packet_num_tag_key,
             bps_header,
             bps_payload,
             scramble_header=scramble_bits
     )
     header_parser = digital.packet_headerparser_b(header_formatter.formatter())
     self.connect(
             (hpd, 0),
             header_fft,
             chanest,
             header_eq,
             header_serializer,
             header_demod,
             header_parser
     )
     self.msg_connect(header_parser, "header_data", hpd, "header_data")
     if debug_log:
         self.connect((chanest, 1),      blocks.file_sink(gr.sizeof_gr_complex * fft_len, 'channel-estimate.dat'))
         self.connect((chanest, 0),      blocks.file_sink(gr.sizeof_gr_complex * fft_len, 'post-hdr-chanest.dat'))
         self.connect((chanest, 0),      blocks.tag_debug(gr.sizeof_gr_complex * fft_len, 'post-hdr-chanest'))
         self.connect(header_eq,         blocks.file_sink(gr.sizeof_gr_complex * fft_len, 'post-hdr-eq.dat'))
         self.connect(header_serializer, blocks.file_sink(gr.sizeof_gr_complex,           'post-hdr-serializer.dat'))
         self.connect(header_descrambler, blocks.file_sink(1,                             'post-hdr-demod.dat'))
     ### Payload demod ####################################################
     payload_fft = fft.fft_vcc(self.fft_len, True, (), True)
     payload_constellation = _get_constellation(bps_payload)
     payload_equalizer = digital.ofdm_equalizer_simpledfe(
             fft_len,
             payload_constellation.base(),
             occupied_carriers,
             pilot_carriers,
             pilot_symbols,
             symbols_skipped=1, # (that was already in the header)
             alpha=0.1
     )
     payload_eq = digital.ofdm_frame_equalizer_vcvc(
             payload_equalizer.base(),
             cp_len,
             self.frame_length_tag_key
     )
     payload_serializer = digital.ofdm_serializer_vcc(
             fft_len, occupied_carriers,
             self.frame_length_tag_key,
             self.packet_length_tag_key,
             1 # Skip 1 symbol (that was already in the header)
     )
     payload_demod = digital.constellation_decoder_cb(payload_constellation.base())
     self.payload_descrambler = digital.additive_scrambler_bb(
         0x8a,
         self.scramble_seed,
         7,
         0, # Don't reset after fixed length
         bits_per_byte=8, # This is after packing
         reset_tag_key=self.packet_length_tag_key
     )
     payload_pack = blocks.repack_bits_bb(bps_payload, 8, self.packet_length_tag_key, True)
     self.crc = digital.crc32_bb(True, self.packet_length_tag_key)
     self.connect(
             (hpd, 1),
             payload_fft,
             payload_eq,
             payload_serializer,
             payload_demod,
             payload_pack,
             self.payload_descrambler,
             self.crc,
             self
     )
     if debug_log:
         self.connect((hpd, 1),           blocks.tag_debug(gr.sizeof_gr_complex*fft_len, 'post-hpd'))
         self.connect(payload_fft,        blocks.file_sink(gr.sizeof_gr_complex*fft_len, 'post-payload-fft.dat'))
         self.connect(payload_eq,         blocks.file_sink(gr.sizeof_gr_complex*fft_len, 'post-payload-eq.dat'))
         self.connect(payload_serializer, blocks.file_sink(gr.sizeof_gr_complex,         'post-payload-serializer.dat'))
         self.connect(payload_demod,      blocks.file_sink(1,                            'post-payload-demod.dat'))
         self.connect(payload_pack,       blocks.file_sink(1,                            'post-payload-pack.dat'))
         self.connect(crc,                blocks.file_sink(1,                            'post-payload-crc.dat'))
Ejemplo n.º 2
0
 def __init__(self,
              fft_len=_def_fft_len,
              cp_len=_def_cp_len,
              frame_length_tag_key=_def_frame_length_tag_key,
              packet_length_tag_key=_def_packet_length_tag_key,
              packet_num_tag_key=_def_packet_num_tag_key,
              occupied_carriers=_def_occupied_carriers,
              pilot_carriers=_def_pilot_carriers,
              pilot_symbols=_def_pilot_symbols,
              bps_header=1,
              bps_payload=1,
              sync_word1=None,
              sync_word2=None,
              debug_log=False,
              scramble_bits=False):
     gr.hier_block2.__init__(self, "ofdm_rx",
                             gr.io_signature(1, 1, gr.sizeof_gr_complex),
                             gr.io_signature(1, 1, gr.sizeof_char))
     ### Param init / sanity check ########################################
     self.fft_len = fft_len
     self.cp_len = cp_len
     self.frame_length_tag_key = frame_length_tag_key
     self.packet_length_tag_key = packet_length_tag_key
     self.occupied_carriers = occupied_carriers
     self.bps_header = bps_header
     self.bps_payload = bps_payload
     n_sync_words = 1
     if sync_word1 is None:
         self.sync_word1 = _make_sync_word1(fft_len, occupied_carriers,
                                            pilot_carriers)
     else:
         if len(sync_word1) != self.fft_len:
             raise ValueError(
                 "Length of sync sequence(s) must be FFT length.")
         self.sync_word1 = sync_word1
     self.sync_word2 = ()
     if sync_word2 is None:
         self.sync_word2 = _make_sync_word2(fft_len, occupied_carriers,
                                            pilot_carriers)
         n_sync_words = 2
     elif len(sync_word2):
         if len(sync_word2) != fft_len:
             raise ValueError(
                 "Length of sync sequence(s) must be FFT length.")
         self.sync_word2 = sync_word2
         n_sync_words = 2
     if scramble_bits:
         self.scramble_seed = 0x7f
     else:
         self.scramble_seed = 0x00  # We deactivate the scrambler by init'ing it with zeros
     ### Sync ############################################################
     sync_detect = digital.ofdm_sync_sc_cfb(fft_len, cp_len)
     delay = blocks.delay(gr.sizeof_gr_complex, fft_len + cp_len)
     oscillator = analog.frequency_modulator_fc(-2.0 / fft_len)
     mixer = blocks.multiply_cc()
     hpd = digital.header_payload_demux(
         n_sync_words +
         1,  # Number of OFDM symbols before payload (sync + 1 sym header)
         fft_len,
         cp_len,  # FFT length, guard interval
         frame_length_tag_key,  # Frame length tag key
         "",  # We're not using trigger tags
         True  # One output item is one OFDM symbol (False would output complex scalars)
     )
     self.connect(self, sync_detect)
     self.connect(self, delay, (mixer, 0), (hpd, 0))
     self.connect((sync_detect, 0), oscillator, (mixer, 1))
     self.connect((sync_detect, 1), (hpd, 1))
     if debug_log:
         self.connect((sync_detect, 0),
                      blocks.file_sink(gr.sizeof_float, 'freq-offset.dat'))
         self.connect((sync_detect, 1),
                      blocks.file_sink(gr.sizeof_char, 'sync-detect.dat'))
     ### Header demodulation ##############################################
     header_fft = fft.fft_vcc(self.fft_len, True, (), True)
     chanest = digital.ofdm_chanest_vcvc(self.sync_word1, self.sync_word2,
                                         1)
     header_constellation = _get_constellation(bps_header)
     header_equalizer = digital.ofdm_equalizer_simpledfe(
         fft_len,
         header_constellation.base(),
         occupied_carriers,
         pilot_carriers,
         pilot_symbols,
         symbols_skipped=0,
     )
     header_eq = digital.ofdm_frame_equalizer_vcvc(
         header_equalizer.base(),
         cp_len,
         self.frame_length_tag_key,
         True,
         1  # Header is 1 symbol long
     )
     header_serializer = digital.ofdm_serializer_vcc(
         fft_len, occupied_carriers, self.frame_length_tag_key)
     header_demod = digital.constellation_decoder_cb(
         header_constellation.base())
     header_formatter = digital.packet_header_ofdm(
         occupied_carriers,
         1,
         packet_length_tag_key,
         frame_length_tag_key,
         packet_num_tag_key,
         bps_header,
         bps_payload,
         scramble_header=scramble_bits)
     header_parser = digital.packet_headerparser_b(
         header_formatter.formatter())
     self.connect((hpd, 0), header_fft, chanest, header_eq,
                  header_serializer, header_demod, header_parser)
     self.msg_connect(header_parser, "header_data", hpd, "header_data")
     if debug_log:
         self.connect((chanest, 1),
                      blocks.file_sink(gr.sizeof_gr_complex * fft_len,
                                       'channel-estimate.dat'))
         self.connect((chanest, 0),
                      blocks.file_sink(gr.sizeof_gr_complex * fft_len,
                                       'post-hdr-chanest.dat'))
         self.connect((chanest, 0),
                      blocks.tag_debug(gr.sizeof_gr_complex * fft_len,
                                       'post-hdr-chanest'))
         self.connect(
             header_eq,
             blocks.file_sink(gr.sizeof_gr_complex * fft_len,
                              'post-hdr-eq.dat'))
         self.connect(
             header_serializer,
             blocks.file_sink(gr.sizeof_gr_complex,
                              'post-hdr-serializer.dat'))
         self.connect(header_descrambler,
                      blocks.file_sink(1, 'post-hdr-demod.dat'))
     ### Payload demod ####################################################
     payload_fft = fft.fft_vcc(self.fft_len, True, (), True)
     payload_constellation = _get_constellation(bps_payload)
     payload_equalizer = digital.ofdm_equalizer_simpledfe(
         fft_len,
         payload_constellation.base(),
         occupied_carriers,
         pilot_carriers,
         pilot_symbols,
         symbols_skipped=1,  # (that was already in the header)
         alpha=0.1)
     payload_eq = digital.ofdm_frame_equalizer_vcvc(
         payload_equalizer.base(), cp_len, self.frame_length_tag_key)
     payload_serializer = digital.ofdm_serializer_vcc(
         fft_len,
         occupied_carriers,
         self.frame_length_tag_key,
         self.packet_length_tag_key,
         1  # Skip 1 symbol (that was already in the header)
     )
     payload_demod = digital.constellation_decoder_cb(
         payload_constellation.base())
     self.payload_descrambler = digital.additive_scrambler_bb(
         0x8a,
         self.scramble_seed,
         7,
         0,  # Don't reset after fixed length
         bits_per_byte=8,  # This is after packing
         reset_tag_key=self.packet_length_tag_key)
     payload_pack = blocks.repack_bits_bb(bps_payload, 8,
                                          self.packet_length_tag_key, True)
     self.crc = digital.crc32_bb(True, self.packet_length_tag_key)
     self.connect((hpd, 1), payload_fft, payload_eq, payload_serializer,
                  payload_demod, payload_pack, self.payload_descrambler,
                  self.crc, self)
     if debug_log:
         self.connect((hpd, 1),
                      blocks.tag_debug(gr.sizeof_gr_complex * fft_len,
                                       'post-hpd'))
         self.connect(
             payload_fft,
             blocks.file_sink(gr.sizeof_gr_complex * fft_len,
                              'post-payload-fft.dat'))
         self.connect(
             payload_eq,
             blocks.file_sink(gr.sizeof_gr_complex * fft_len,
                              'post-payload-eq.dat'))
         self.connect(
             payload_serializer,
             blocks.file_sink(gr.sizeof_gr_complex,
                              'post-payload-serializer.dat'))
         self.connect(payload_demod,
                      blocks.file_sink(1, 'post-payload-demod.dat'))
         self.connect(payload_pack,
                      blocks.file_sink(1, 'post-payload-pack.dat'))
         self.connect(crc, blocks.file_sink(1, 'post-payload-crc.dat'))
Ejemplo n.º 3
0
 def __init__(self, fft_len=_def_fft_len, cp_len=_def_cp_len,
              frame_length_tag_key=_def_frame_length_tag_key,
              packet_length_tag_key=_def_packet_length_tag_key,
              packet_num_tag_key=_def_packet_num_tag_key,
              occupied_carriers=_def_occupied_carriers,
              pilot_carriers=_def_pilot_carriers,
              pilot_symbols=_def_pilot_symbols,
              bps_header=1,
              bps_payload=1,
              sync_word1=None,
              sync_word2=None
              ):
     gr.hier_block2.__init__(self, "ofdm_rx",
                 gr.io_signature(1, 1, gr.sizeof_gr_complex),
                 gr.io_signature(1, 1, gr.sizeof_char))
     self.fft_len           = fft_len
     self.cp_len            = cp_len
     self.frame_length_tag_key    = frame_length_tag_key
     self.packet_length_tag_key   = packet_length_tag_key
     self.occupied_carriers = occupied_carriers
     self.bps_header        = bps_header
     self.bps_payload       = bps_payload
     n_sync_words = 1
     header_constellation  = _get_constellation(bps_header)
     if sync_word1 is None:
         self.sync_word1 = _make_sync_word(fft_len, occupied_carriers, header_constellation)
     else:
         if len(sync_word1) != self.fft_len:
             raise ValueError("Length of sync sequence(s) must be FFT length.")
         self.sync_word1 = sync_word1
     self.sync_word2 = ()
     if sync_word2 is not None:
         if len(sync_word2) != fft_len:
             raise ValueError("Length of sync sequence(s) must be FFT length.")
         self.sync_word2 = sync_word2
         n_sync_words = 2
     else:
         sync_word2 = ()
     # Receiver path
     sync_detect = digital.ofdm_sync_sc_cfb(fft_len, cp_len)
     oscillator = analog.frequency_modulator_fc(-2.0 / fft_len)
     delay = gr.delay(gr.sizeof_gr_complex, fft_len+cp_len)
     mixer = gr.multiply_cc()
     hpd = digital.header_payload_demux(n_sync_words, fft_len, cp_len,
             frame_length_tag_key, "", True)
     self.connect(self, sync_detect)
     self.connect((sync_detect, 0), oscillator, (mixer, 0))
     self.connect(self, delay, (mixer, 1))
     self.connect(mixer, (hpd, 0))
     self.connect((sync_detect, 1), (hpd, 1))
     # Header demodulation
     header_fft = fft.fft_vcc(self.fft_len, True, (), True)
     chanest = digital.ofdm_chanest_vcvc(self.sync_word1, self.sync_word2, 1)
     header_equalizer = digital.ofdm_equalizer_simpledfe(
             fft_len, header_constellation.base(),
             occupied_carriers, pilot_carriers, pilot_symbols
     )
     header_eq = digital.ofdm_frame_equalizer_vcvc(header_equalizer.base(), frame_length_tag_key, True)
     header_serializer = digital.ofdm_serializer_vcc(fft_len, occupied_carriers)
     header_constellation = _get_constellation(bps_header)
     header_demod = digital.constellation_decoder_cb(header_constellation.base())
     header_formatter = digital.packet_header_ofdm(
             occupied_carriers, 1,
             packet_length_tag_key,
             frame_length_tag_key,
             packet_num_tag_key,
             bps_header
     )
     header_parser = digital.packet_headerparser_b(header_formatter.formatter())
     self.connect((hpd, 0), header_fft, chanest, header_eq, header_serializer, header_demod, header_parser)
     self.msg_connect(header_parser, "header_data", hpd, "header_data")
     # Payload demodulation
     payload_fft = fft.fft_vcc(self.fft_len, True, (), True)
     payload_equalizer = digital.ofdm_equalizer_simpledfe(
             fft_len, header_constellation.base(),
             occupied_carriers, pilot_carriers, pilot_symbols, 1
     )
     payload_eq = digital.ofdm_frame_equalizer_vcvc(payload_equalizer.base(), frame_length_tag_key)
     payload_serializer = digital.ofdm_serializer_vcc(fft_len, occupied_carriers)
     payload_constellation = _get_constellation(bps_payload)
     payload_demod = digital.constellation_decoder_cb(payload_constellation.base())
     bit_packer = blocks.repack_bits_bb(bps_payload, 8, packet_length_tag_key, True)
     self.connect((hpd, 1), payload_fft, payload_eq, payload_serializer, payload_demod, bit_packer, self)