Esempio n. 1
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def test_test_wav_xscope():
    #create test noise file. Note we round to a frame because test_wav_xscope can only handle full frames
    length_rounded_to_frame = round(
        (float(TEST_LEN_SECONDS) * 16000.0 / 240.0)) * 240 / 16000
    print(f"Generating a {length_rounded_to_frame}s test file")
    filenames = []
    for ch in range(4):
        filename = f"noise_ch{ch}.wav"
        filenames.append(filename)
        sh.sox(
            f"-n -c 1 -b 32 -r 16000 -e signed-integer {filename} synth {length_rounded_to_frame} whitenoise vol 1.0"
            .split())
    sh.sox(f"-M {' '.join(filenames)} {input_file} remix 1 2 3 4".split())
    for filename in filenames:
        os.remove(filename)

    print(f"acquire")
    with xtagctl.acquire("XCORE-AI-EXPLORER") as adapter_id:
        print(f"Running on {adapter_id}")
        xscope_fileio.run_on_target(adapter_id, test_wav_exe)

    in_rate, in_wav_data = scipy.io.wavfile.read(input_file, 'r')
    out_rate, out_wav_data = scipy.io.wavfile.read(output_file, 'r')

    assert (in_rate == out_rate)
    print(in_wav_data.shape, out_wav_data.shape)
    if not np.array_equal(in_wav_data, out_wav_data):
        for idx in range(256):
            print(in_wav_data[idx], out_wav_data[idx])
        assert 0

    print("TEST PASSED")
def convertSample(file_name):
    info = file_info(file_name).replace(file_name + ': ', '')

    if regexMatch('Audio file with', info):
        info = info.replace('Audio file with ', '')
    else:
        aac_match = regexMatch("ISO Media, Apple iTunes (.*)", info)
        if aac_match:
            encoding = aac_match.group(1)
            print("!! Error: Unsupported Apple audio encoding:", encoding)
            rm(file_name)
            return None
        print("!! Error: Downloaded 'audio' file", "'"+file_name+"'", "with attributes:")
        print("         ", info)
        return None

    mp3_match = regexMatch("ID3 version (.*) contains:(.*)", info)
    if mp3_match:
        id3_version, encoding = mp3_match.groups()
        new_file_name = file_name.replace('.unknown', '.mp3')
    elif False:
        new_file_name = ''
    else:
        print("!! Error: Unrecognized audio container:", info)
        return None

    mv(file_name, new_file_name)

    flac_file_name = file_name.replace('.unknown', '.flac')
    sox(new_file_name, flac_file_name)
    rm(new_file_name)
    
    return flac_file_name
Esempio n. 3
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 def end_recording(self):
     self.process.terminate()
     if platform == "darwin":
         try:  # see sh module issue 399
             self.process.wait()
         except sh.SignalException_SIGTERM:
             pass
         # xplay leaves the header unpopulated on terminate so fix it
         sh.sox(f"--ignore-length {self.record_file} {self.tmp_wav_file}".
                split())
     capture_len = float(sh.soxi(f"-D {self.tmp_wav_file}".split()))
     assert capture_len > (
         self.start_trim_s + self.end_trim_s
     ), f"Not enough recorded audio: {capture_len}s, {self.start_trim_s + self.end_trim_s}s needed"
     sh.sox(
         f"{self.tmp_wav_file} {self.record_file} trim {self.start_trim_s} {-self.end_trim_s}"
         .split())
Esempio n. 4
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def postprocess(recording):
    tmpdir = recording.tmpfolder
    curdir = os.getcwd()
    try:
        print "Changing dir to %s" % tmpdir
        os.chdir(tmpdir)
        committed = recording.song.blob.committed()
        sox("-m", "audio.wav", "-t", "mp3", "-v", "0.15", committed, "mixed.wav")
        ffmpeg("-i", "mixed.wav", "-f", "image2", "-r", "1", "-i", "frame%d.png", "-acodec", "libvorbis", "video.ogv")
        recording.blob = Blob()
        with recording.blob.open("w") as saveto:
            with open("video.ogv") as savefrom:
                shutil.copyfileobj(savefrom, saveto)
        print "%s/%s" % (tmpdir, "video.ogv")
        # shutil.rmtree(tmpdir)
        transaction.commit()
    finally:
        os.chdir(curdir)
Esempio n. 5
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def execute(working_dir: str, frequency: str, duration: timedelta, sh=sh):
    signal_path = os.path.join(working_dir, "signal.wav")
    product_path = os.path.join(working_dir, "product.png")

    normalized_signal_path = os.path.join(working_dir, "normalized_signal.wav")
    qpsk_path = os.path.join(working_dir, "qpsk")
    dump_prefix_path = os.path.join(working_dir, "dump")
    dump_path = dump_prefix_path + ".dec"
    product_raw_prefix_path = os.path.join(working_dir, "product_raw")
    product_raw_path = product_raw_prefix_path + ".bmp"

    # Record signal
    fm_proc = sh.rtl_fm(
        # Modulation raw
        "-M", "raw",
        # Set frequency (in Hz, e.g. 137MHz)
        "-f", frequency,
        # Enable bias-T
        "-T",
        # Specify sampling rate (e.g. 48000 Hz)
        "-s", 48000,
        # Almost maximal possible value. Probably is wrong for other SDR then rtl-sdr
        "-g", 48,
        # Copy-paste from suspects www
        "-p", 1,
        _timeout=duration.total_seconds(),
        _timeout_signal=signal.SIGTERM,
        _piped=True
    )

    with suppress(sh.TimeoutException):
        sh.sox(fm_proc,
            # Type of input
            "-t", "raw",
            "-r", "288k",
            # Channels - 2 - stereo
            "-c", 2,
            # Sample size
            "-b", 16,
            # Signed integer encoding
            "-e", "s",
            # Verbosity level (0 - silence, 1 - failure messages, 2 - warnings, 3 - processing phases, 4 - debug)
            "-V3",
            # Read from stdin (from pipe)
            "-",
            # Type of output
            "-t", "wav",
            signal_path,
            # Resampling rate
            "rate", "96k"
        )

    # Normalize signal
    sh.sox(
        signal_path,
        normalized_signal_path,
        # Normalize to 0dBfs
        "gain", "-n"
    )

    # Demodulating
    sh.meteor_demod(
        sh.yes(_piped=True),
        "-o", qpsk_path,
        "-B", normalized_signal_path
    )

    # Keep original file timestamp
    sh.touch("-r", signal_path, qpsk_path)

    # Decode QPSK
    sh.medet(
        qpsk_path,
        dump_prefix_path,
        # Make doceded dump (fastest)
        "-cd"
    )

    # Generate images
    sh.medet(dump_path, product_raw_prefix_path,
        # APID for red
        "-r", 66,
        # APID for green
        "-g", 65,
        # APID for blue
        "-b", 64,
        # Use dump
        "-d"
    )

    # Convert to PNG
    sh.convert(product_raw_path, product_path)

    return [
        ("SIGNAL", signal_path),
        ("PRODUCT", product_path)
    ]
Esempio n. 6
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def execute(working_dir: str, frequency: str, duration: timedelta, sh=sh):
    raw_path = os.path.join(working_dir, "signal.raw")
    signal_path = os.path.join(working_dir, "signal.wav")
    product_path = os.path.join(working_dir, "product.png")
    log_path = os.path.join(working_dir, "session.log")

    sample_rate = 48000

    # Let's log the operations done by the tools to a log file. We need to flush it
    # frequently, because this file stream is also used capture tools output. Without
    # flush, the logging order gets completely messed up.
    logfile = open(log_path, "w")
    logfile.write("---rtl_fm log-------\n")
    logfile.flush()

    # Run rtl_fm/rx_fm - this records the actual samples from the RTL device
    with suppress(sh.TimeoutException):
        sh.rtl_fm(
            # Specify frequency (in Hz, e.g. 137MHz)
            "-f",
            frequency,
            # Specify sampling rate (e.g. 48000 Hz)
            "-s",
            sample_rate,
            # Maximal possible value. Probably is wrong for other SDR then rtl-sdr
            "-g",
            49.6,
            # Copy-paste from suspects www
            "-p",
            1,
            # Higher quality downsampling - possible value 0 or 9. 9 is experimental.
            "-F",
            9,
            # Enable bias-T
            "-T",
            # How arctan is computed. We don't test other options.
            "-A",
            "fast",
            # dc blocking filter (?)
            "-E",
            "DC",
            # Output to pipe, optional in this command
            raw_path,
            _timeout=duration.total_seconds(),
            _timeout_signal=signal.SIGTERM,

            # rtl_fm and rx_fm both print messages on stderr
            _err=logfile)
    logfile.flush()

    logfile.write("---sox log-------\n")
    logfile.flush()

    # Run sox - this convert raw samples into audible WAV
    sh.sox(  # Type of input
        "-t",
        "raw",
        # Sample size in bits
        "-b16",
        # Signed integer encoding
        "-es",
        "-r",
        sample_rate,
        # Number of channels of audio data - 1 - mono
        "-c1",
        # Verbosity level (0 - silence, 1 - failure messages, 2 - warnings, 3 - processing phases, 4 - debug)
        "-V3",
        # Read from the raw file (instead of stdin via pipe)
        raw_path,
        # Output path
        signal_path,
        # Resampling rate
        "rate",
        "11025",
        _out=logfile)
    logfile.flush()

    logfile.write("---noaa-apt log-------\n")
    logfile.flush()

    # Run noaa_apt - this decodes APT from the audio file into PNG image.
    sh.noaa_apt("-o",
                product_path,
                "--false-color",
                "--contrast",
                "telemetry",
                signal_path,
                _out=logfile)
    logfile.flush()
    logfile.close()

    return [("SIGNAL", signal_path), ("PRODUCT", product_path),
            ("LOG", log_path), ("RAW", raw_path)]