#!/usr/bin/env python3 # -*- coding: utf-8 -*- import ctypes from ctypes import * import pathlib import pyaudio import time import threading import audioop import argparse import sys sys.path.insert(0,'..') import codec2 # GET PARAMETER INPUTS parser = argparse.ArgumentParser(description='FreeDATA TEST') parser.add_argument('--bursts', dest="N_BURSTS", default=0, type=int) parser.add_argument('--framesperburst', dest="N_FRAMES_PER_BURST", default=0, type=int) parser.add_argument('--delay', dest="DELAY_BETWEEN_BURSTS", default=0, type=int) parser.add_argument('--audiooutput', dest="AUDIO_OUTPUT", default=0, type=int) args = parser.parse_args() N_BURSTS = args.N_BURSTS N_FRAMES_PER_BURST = args.N_FRAMES_PER_BURST DELAY_BETWEEN_BURSTS = args.DELAY_BETWEEN_BURSTS/1000 AUDIO_OUTPUT_DEVICE = args.AUDIO_OUTPUT # AUDIO PARAMETERS AUDIO_FRAMES_PER_BUFFER = 2048 MODEM_SAMPLE_RATE = codec2.api.FREEDV_FS_8000 AUDIO_SAMPLE_RATE_TX = 48000 if AUDIO_OUTPUT_DEVICE != 0: # pyaudio init p = pyaudio.PyAudio() stream_tx = p.open(format=pyaudio.paInt16, channels=1, rate=AUDIO_SAMPLE_RATE_TX, frames_per_buffer=AUDIO_FRAMES_PER_BUFFER, #n_nom_modem_samples output=True, output_device_index=AUDIO_OUTPUT_DEVICE, ) modes = [14,10,12] for m in modes: freedv = cast(codec2.api.freedv_open(m), c_void_p) n_tx_modem_samples = codec2.api.freedv_get_n_tx_modem_samples(freedv) mod_out = create_string_buffer(2*n_tx_modem_samples) n_tx_preamble_modem_samples = codec2.api.freedv_get_n_tx_preamble_modem_samples(freedv) mod_out_preamble = create_string_buffer(2*n_tx_preamble_modem_samples) n_tx_postamble_modem_samples = codec2.api.freedv_get_n_tx_postamble_modem_samples(freedv) mod_out_postamble = create_string_buffer(2*n_tx_postamble_modem_samples) bytes_per_frame = int(codec2.api.freedv_get_bits_per_modem_frame(freedv) / 8) payload_per_frame = bytes_per_frame - 2 # data binary string data_out = b'HELLO WORLD!' buffer = bytearray(payload_per_frame) # set buffersize to length of data which will be send buffer[:len(data_out)] = data_out crc = ctypes.c_ushort(codec2.api.freedv_gen_crc16(bytes(buffer), payload_per_frame)) # generate CRC16 # convert crc to 2 byte hex string crc = crc.value.to_bytes(2, byteorder='big') buffer += crc # append crc16 to buffer data = (ctypes.c_ubyte * bytes_per_frame).from_buffer_copy(buffer) for i in range(1,N_BURSTS+1): # write preamble to txbuffer codec2.api.freedv_rawdatapreambletx(freedv, mod_out_preamble) txbuffer = bytes(mod_out_preamble) # create modulaton for N = FRAMESPERBURST and append it to txbuffer for n in range(1,N_FRAMES_PER_BURST+1): data = (ctypes.c_ubyte * bytes_per_frame).from_buffer_copy(buffer) codec2.api.freedv_rawdatatx(freedv,mod_out,data) # modulate DATA and save it into mod_out pointer txbuffer += bytes(mod_out) # append postamble to txbuffer codec2.api.freedv_rawdatapostambletx(freedv, mod_out_postamble) txbuffer += bytes(mod_out_postamble) # append a delay between bursts as audio silence samples_delay = int(MODEM_SAMPLE_RATE*DELAY_BETWEEN_BURSTS) mod_out_silence = create_string_buffer(samples_delay) txbuffer += bytes(mod_out_silence) # check if we want to use an audio device or stdout if AUDIO_OUTPUT_DEVICE != 0: # sample rate conversion from 8000Hz to 48000Hz audio = audioop.ratecv(txbuffer,2,1,MODEM_SAMPLE_RATE, AUDIO_SAMPLE_RATE_TX, None) stream_tx.write(audio[0]) else: # this test needs a lot of time, so we are having a look at times... starttime = time.time() # print data to terminal for piping the output to other programs sys.stdout.buffer.write(txbuffer) sys.stdout.flush() # and at least print the needed time to see which time we needed timeneeded = time.time()-starttime print(f"time: {timeneeded} buffer: {len(txbuffer)}", file=sys.stderr) # and at last check if we had an openend pyaudio instance and close it if AUDIO_OUTPUT_DEVICE != 0: stream_tx.close() p.terminate()