def test_34(self): """ Test case generated by test-case generator """ ################################################## # Variables ################################################## # Input data into the system src_data = "PKdhtXMmr18n2L9K88eMlGn7CcctT9RwKSB1FebW397VI5uG1yhc3uavuaOb9vyJ" self.bw = bw = 250000 self.sf = sf = 8 self.samp_rate = samp_rate = 250000 self.pay_len = pay_len = 64 self.n_frame = n_frame = 2 self.impl_head = impl_head = False self.has_crc = has_crc = False self.frame_period = frame_period = 200 self.cr = cr = 7 ################################################## # Blocks ################################################## # Tx side self.lora_sdr_whitening_0 = lora_sdr.whitening() self.lora_sdr_modulate_0 = lora_sdr.modulate(sf, samp_rate, bw) self.lora_sdr_modulate_0.set_min_output_buffer(10000000) self.lora_sdr_interleaver_0 = lora_sdr.interleaver(cr, sf) self.lora_sdr_header_0 = lora_sdr.header(impl_head, has_crc, cr) self.lora_sdr_hamming_enc_0 = lora_sdr.hamming_enc(cr, sf) self.lora_sdr_gray_decode_0 = lora_sdr.gray_decode(sf) self.lora_sdr_data_source_0_1_0 = lora_sdr.data_source( pay_len, n_frame, src_data) self.lora_sdr_add_crc_0 = lora_sdr.add_crc(has_crc) self.blocks_null_sink_0 = blocks.null_sink(gr.sizeof_gr_complex * 1) self.blocks_message_strobe_random_0_1_0 = blocks.message_strobe_random( pmt.intern(''), blocks.STROBE_UNIFORM, frame_period, 5) # Rx side self.rational_resampler_xxx_0 = filter.rational_resampler_ccc( interpolation=4, decimation=1, taps=None, fractional_bw=None) self.lora_sdr_header_decoder_0 = lora_sdr.header_decoder( impl_head, cr, pay_len, has_crc) self.lora_sdr_hamming_dec_0 = lora_sdr.hamming_dec() self.lora_sdr_gray_enc_0 = lora_sdr.gray_enc() self.lora_sdr_frame_sync_0 = lora_sdr.frame_sync( samp_rate, bw, sf, impl_head) self.lora_sdr_fft_demod_0 = lora_sdr.fft_demod(samp_rate, bw, sf, impl_head) self.lora_sdr_dewhitening_0 = lora_sdr.dewhitening() self.lora_sdr_deinterleaver_0 = lora_sdr.deinterleaver(sf) self.lora_sdr_crc_verif_0 = lora_sdr.crc_verif() self.blocks_message_debug_0 = blocks.message_debug() self.blocks_throttle_0 = blocks.throttle(gr.sizeof_gr_complex * 1, samp_rate, True) ################################################## # Connections ################################################## # Tx side self.tb.msg_connect( (self.blocks_message_strobe_random_0_1_0, 'strobe'), (self.lora_sdr_data_source_0_1_0, 'trigg')) self.tb.msg_connect((self.lora_sdr_data_source_0_1_0, 'msg'), (self.lora_sdr_add_crc_0, 'msg')) self.tb.msg_connect((self.lora_sdr_data_source_0_1_0, 'msg'), (self.lora_sdr_header_0, 'msg')) self.tb.msg_connect((self.lora_sdr_data_source_0_1_0, 'msg'), (self.lora_sdr_interleaver_0, 'msg')) self.tb.msg_connect((self.lora_sdr_data_source_0_1_0, 'msg'), (self.lora_sdr_modulate_0, 'msg')) self.tb.msg_connect((self.lora_sdr_data_source_0_1_0, 'msg'), (self.lora_sdr_whitening_0, 'msg')) self.tb.connect((self.lora_sdr_add_crc_0, 0), (self.lora_sdr_hamming_enc_0, 0)) self.tb.connect((self.lora_sdr_gray_decode_0, 0), (self.lora_sdr_modulate_0, 0)) self.tb.connect((self.lora_sdr_hamming_enc_0, 0), (self.lora_sdr_interleaver_0, 0)) self.tb.connect((self.lora_sdr_header_0, 0), (self.lora_sdr_add_crc_0, 0)) self.tb.connect((self.lora_sdr_interleaver_0, 0), (self.lora_sdr_gray_decode_0, 0)) self.tb.connect((self.lora_sdr_whitening_0, 0), (self.lora_sdr_header_0, 0)) self.tb.connect((self.lora_sdr_modulate_0, 0), (self.blocks_throttle_0, 0)) # Rx side self.tb.connect((self.blocks_throttle_0, 0), (self.rational_resampler_xxx_0, 0)) self.tb.msg_connect((self.lora_sdr_crc_verif_0, 'msg'), (self.blocks_message_debug_0, 'store')) self.tb.msg_connect((self.lora_sdr_frame_sync_0, 'new_frame'), (self.lora_sdr_deinterleaver_0, 'new_frame')) self.tb.msg_connect((self.lora_sdr_frame_sync_0, 'new_frame'), (self.lora_sdr_dewhitening_0, 'new_frame')) self.tb.msg_connect((self.lora_sdr_frame_sync_0, 'new_frame'), (self.lora_sdr_fft_demod_0, 'new_frame')) self.tb.msg_connect((self.lora_sdr_frame_sync_0, 'new_frame'), (self.lora_sdr_hamming_dec_0, 'new_frame')) self.tb.msg_connect((self.lora_sdr_frame_sync_0, 'new_frame'), (self.lora_sdr_header_decoder_0, 'new_frame')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'pay_len'), (self.lora_sdr_crc_verif_0, 'pay_len')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CRC'), (self.lora_sdr_crc_verif_0, 'CRC')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CR'), (self.lora_sdr_deinterleaver_0, 'CR')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'pay_len'), (self.lora_sdr_dewhitening_0, 'pay_len')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CRC'), (self.lora_sdr_dewhitening_0, 'CRC')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CR'), (self.lora_sdr_fft_demod_0, 'CR')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CR'), (self.lora_sdr_frame_sync_0, 'CR')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'err'), (self.lora_sdr_frame_sync_0, 'err')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CRC'), (self.lora_sdr_frame_sync_0, 'crc')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'pay_len'), (self.lora_sdr_frame_sync_0, 'pay_len')) self.tb.msg_connect((self.lora_sdr_header_decoder_0, 'CR'), (self.lora_sdr_hamming_dec_0, 'CR')) self.tb.connect((self.lora_sdr_deinterleaver_0, 0), (self.lora_sdr_hamming_dec_0, 0)) self.tb.connect((self.lora_sdr_dewhitening_0, 0), (self.lora_sdr_crc_verif_0, 0)) self.tb.connect((self.lora_sdr_fft_demod_0, 0), (self.lora_sdr_gray_enc_0, 0)) self.tb.connect((self.lora_sdr_frame_sync_0, 0), (self.lora_sdr_fft_demod_0, 0)) self.tb.connect((self.lora_sdr_gray_enc_0, 0), (self.lora_sdr_deinterleaver_0, 0)) self.tb.connect((self.lora_sdr_hamming_dec_0, 0), (self.lora_sdr_header_decoder_0, 0)) self.tb.connect((self.lora_sdr_header_decoder_0, 0), (self.lora_sdr_dewhitening_0, 0)) self.tb.connect((self.rational_resampler_xxx_0, 0), (self.lora_sdr_frame_sync_0, 0)) # run the flowgraph, since we use a message strobe we have to run and stop the flowgraph with some computation time inbetween self.tb.start() time.sleep(10) self.tb.stop() self.tb.wait() # try to get get the message from the store port of the message debug printer and convert to string from pmt message try: msg = pmt.symbol_to_string( self.blocks_message_debug_0.get_message(0)) except: # if not possible set message to be None msg = None # check if message received is the same as the message decoded self.assertMultiLineEqual( src_data, msg, msg="Error decoded data {0} is not the same as input data {1}". format(msg, src_data))
self.bw = bw = @@bw@@ self.sf = sf = @@sf@@ self.samp_rate = samp_rate = @@bw@@ self.pay_len = pay_len = @@pay_len@@ self.n_frame = n_frame = 2 self.impl_head = impl_head = @@impl_head@@ self.has_crc = has_crc = @@has_crc@@ self.frame_period = frame_period = 200 self.cr = cr = @@cr@@ ################################################## # Blocks ################################################## # Tx side self.lora_sdr_whitening_0 = lora_sdr.whitening() self.lora_sdr_modulate_0 = lora_sdr.modulate(sf, samp_rate, bw) self.lora_sdr_modulate_0.set_min_output_buffer(10000000) self.lora_sdr_interleaver_0 = lora_sdr.interleaver(cr, sf) self.lora_sdr_header_0 = lora_sdr.header(impl_head, has_crc, cr) self.lora_sdr_hamming_enc_0 = lora_sdr.hamming_enc(cr, sf) self.lora_sdr_gray_decode_0 = lora_sdr.gray_decode(sf) self.lora_sdr_data_source_0_1_0 = lora_sdr.data_source( pay_len, n_frame, src_data) self.lora_sdr_add_crc_0 = lora_sdr.add_crc(has_crc) self.blocks_null_sink_0 = blocks.null_sink(gr.sizeof_gr_complex*1) self.blocks_message_strobe_random_0_1_0 = blocks.message_strobe_random( pmt.intern(''), blocks.STROBE_UNIFORM, frame_period, 5) # Rx side self.rational_resampler_xxx_0 = filter.rational_resampler_ccc( interpolation=4, decimation=1,