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I have the following code to record audio in and out

using System;
using System.Diagnostics;
using System.IO;
using NAudio.Wave;
using Yeti.MMedia.Mp3;

namespace SoundRecording
{
    public class SoundManager
    {
        private WaveInEvent _waveIn;
        private WaveFileWriter _waveInFile;
        private WasapiLoopbackCapture _waveOut;
        private WaveFileWriter _waveOutFile;
        private Process _lameProcess;

        public void StartRecording()
        {
            InitLame();
            DateTime dtNow = DateTime.Now;

            try
            {
                InitAudioOut(dtNow);
            }
            catch
            {
            }

            try
            {
                InitAudioIn(dtNow);
            }
            catch
            {
            }
        }

        private void InitLame()
        {
            string outputFileName = @"c:\Rec\test.mp3";
            _lameProcess = new Process();
            _lameProcess.StartInfo.FileName = @"lame.exe";
            _lameProcess.StartInfo.UseShellExecute = false;
            _lameProcess.StartInfo.RedirectStandardInput = true;
            _lameProcess.StartInfo.Arguments = "-r -s 44.1 -h -b 256 --bitwidth 32 - \"" + outputFileName + "\"";
            _lameProcess.StartInfo.CreateNoWindow = true;
            _lameProcess.Start();
        }

        private void InitAudioIn(DateTime dtNow)
        {
            string pathIn = @"C:\Rec\(" + dtNow.ToString("HH-mm-ss") + " " + dtNow.ToString("dd-MM-yyyy") + " IN).wav";

            _waveIn = new WaveInEvent();
            _waveIn.WaveFormat = new WaveFormat(8000, 1);
            _waveIn.DataAvailable += WaveInDataAvailable;
            _waveIn.RecordingStopped += WaveInRecordStopped;

            _waveInFile = new WaveFileWriter(pathIn, _waveIn.WaveFormat);

            _waveIn.StartRecording();
        }

        private void InitAudioOut(DateTime recordMarker)
        {
            string pathOut = @"C:\Rec\(" + recordMarker.ToString("HH-mm-ss") + " " + recordMarker.ToString("dd-MM-yyyy") + " OUT).mp3";

            _waveOut = new WasapiLoopbackCapture();
            //_waveOut.WaveFormat = new WaveFormat(44100, 1);
            _waveOut.DataAvailable += WaveOutDataAvailable;
            _waveOut.RecordingStopped += WaveOutRecordStopped;

            _waveOutFile = new WaveFileWriter(pathOut, new Mp3WaveFormat(_waveOut.WaveFormat.SampleRate, _waveOut.WaveFormat.Channels, 0, 128));
            _waveOut.StartRecording();
        }

        private void WaveInDataAvailable(object sender, WaveInEventArgs e)
        {
            if (_waveInFile != null)
            {
                _waveInFile.Write(e.Buffer, 0, e.BytesRecorded);
                _waveInFile.Flush();
            }
        }

        private void WaveOutDataAvailable(object sender, WaveInEventArgs e)
        {
            if (_waveInFile != null)
            {
                using (var memStream = new MemoryStream(e.Buffer))
                {
                    using (WaveStream wStream = new RawSourceWaveStream(memStream, _waveOut.WaveFormat))
                    {
                        var format = new WaveFormat(_waveOut.WaveFormat.SampleRate, _waveOut.WaveFormat.Channels);
                        var transcodedStream = new ResamplerDmoStream(wStream, format);
                        var read = (int)transcodedStream.Length;
                        var bytes = new byte[read];
                        transcodedStream.Read(bytes, 0, read);

                        var fmt = new WaveLib.WaveFormat(transcodedStream.WaveFormat.SampleRate, transcodedStream.WaveFormat.BitsPerSample, transcodedStream.WaveFormat.Channels);
                        var beconf = new Yeti.Lame.BE_CONFIG(fmt, 128);

                        // Encode WAV to MP3
                        byte[] mp3Data;

                        using (var mp3Stream = new MemoryStream())
                        {
                            using (var mp3Writer = new Mp3Writer(mp3Stream, fmt, beconf))
                            {
                                int blen = transcodedStream.WaveFormat.AverageBytesPerSecond;

                                mp3Writer.Write(bytes, 0, read);
                                mp3Data = mp3Stream.ToArray();
                            }
                        }

                        _waveOutFile.Write(mp3Data, 0, mp3Data.Length);
                        _waveOutFile.Flush();
                    }
                }
            }
        }

        private byte[] WavBytesToMp3Bytes(IWaveProvider waveStream, uint bitrate = 128)
        {
            // Setup encoder configuration
            var fmt = new WaveLib.WaveFormat(waveStream.WaveFormat.SampleRate, waveStream.WaveFormat.BitsPerSample, waveStream.WaveFormat.Channels);
            var beconf = new Yeti.Lame.BE_CONFIG(fmt, bitrate);

            // Encode WAV to MP3
            int blen = waveStream.WaveFormat.AverageBytesPerSecond;
            var buffer = new byte[blen];
            byte[] mp3Data = null;

            using (var mp3Stream = new MemoryStream())
            {
                using (var mp3Writer = new Mp3Writer(mp3Stream, fmt, beconf))
                {
                    int readCount;

                    while ((readCount = waveStream.Read(buffer, 0, blen)) > 0)
                    {
                        mp3Writer.Write(buffer, 0, readCount);
                    }

                    mp3Data = mp3Stream.ToArray();
                }
            }
            return mp3Data;
        }

        private void WaveInRecordStopped(object sender, StoppedEventArgs e)
        {
            if (_waveIn != null)
            {
                _waveIn.Dispose();
                _waveIn = null;
            }

            if (_waveInFile != null)
            {
                _waveInFile.Dispose();
                _waveInFile = null;
            }

            _lameProcess.StandardInput.BaseStream.Close();
            _lameProcess.StandardInput.BaseStream.Dispose();

            _lameProcess.Close();
            _lameProcess.Dispose();
        }

        private void WaveOutRecordStopped(object sender, StoppedEventArgs e)
        {
            if (_waveOutFile != null)
            {
                _waveOutFile.Close();
                _waveOutFile = null;
            }

            _waveOut = null;
        }

        public void StopRecording()
        {
            try
            {
                _waveIn.StopRecording();
            }
            catch
            {
            }

            try
            {
                _waveOut.StopRecording();
            }
            catch
            {
            }
        }
    }
}

I'm using NAudio to capture audio in/out and yetis' lame wrapper to convert it to mp3 file on the fly, the problem is that the resulting audio out file is corrupted and unreadable, probably, missing mp3 headers or something other that i've missed...

share|improve this question

2 Answers 2

up vote 1 down vote accepted
+50

The problem is that you're getting batches of data from the loopback capture interface in the default format (ie: PCM), then writing that to a wave file with a format block that claims that the data is in ALAW format. At no point do you actually do a conversion from the PCM data to ALAW data, resulting in a garbage file.

The WaveFileWriter class doesn't do any form of recoding or resampling for you. It uses the format specifier to build a format block for the WAV file, and assumes that you are providing it with data in that format.

Your two options are:

  1. Convert the incoming data from PCM-44100-Stereo (or whatever the default is) to ALAW-8000-Mono before writing to the WaveFileWriter instance.

  2. Initialize _waveOutFile with _waveOut.WaveFormat to match the data formats.


Updated 26-Sep...

So after much messing around, I finally have a working solution to the original problem of correctly converting the wave format from the loopback capture into something that can be compressed.

Here's the code for the first stage of the conversion:

[StructLayout(LayoutKind.Explicity)]
internal struct UnionStruct
{
    [FieldOffset(0)]
    public byte[] bytes;
    [FieldOffset(0)]
    public float[] floats;
}

public static byte[] Float32toInt16(byte[] data, int offset, int length)
{
    UnionStruct u = new UnionStruct();
    int nSamples = length / 4;

    if (offset == 0)
        u.bytes = data;
    else
    {
        u.bytes = new byte[nSamples * 4];
        Buffer.BlockCopy(data, offset, u.bytes, 0, nSamples * 4);
    }
    byte[] res = new byte[nSamples * 2];

    for (i = 0, o = 0; i < nSamples; i++, o+= 2)
    {
        short val = (short)(u.floats[i] * short.MaxValue);
        res[o] = (byte)(val & 0xFF);
        res[o + 1] = (byte)((val >> 8) & 0xFF);
    }

    u.bytes = null;
    return res;
}

That will convert the 32-bit floating point samples to 16-bit signed integer samples that can be handled by most audio code. Fortunately, this includes the Yeti MP3 code.

To encode on-the-fly and ensure that the MP3 output is valid, create the Mp3Writer and its output Stream (a FileStream to write directly to disk for instance) at the same time and just keep feeding it data (run through the converter above) as it comes in from the loopback interface. Close the Mp3Writer and the Stream in the waveInStopRecording event handler.

Stream _mp3Output;
Mp3Writer _mp3Writer;

private void InitAudioOut(DateTime recordMarker)
{
    string pathOut = string.Format(@"C:\Rec\({0:HH-mm-ss dd-MM-yyyy} OUT).mp3", recordMarker);

    _waveOut = new WasapiLoopbackCapture();
    _waveOut.DataAvailable += WaveOutDataAvailable;
    _waveOut.RecordingStopped += WaveOutRecordStopped;

    _mp3Output = File.Create(pathIn);

    var fmt = new WaveLib.WaveFormat(_waveOut.WaveFormat.SampleRate, 16, _waveOut.Channels);
    var beconf = new Yeti.Lame.BE_CONFIG(fmt, 128);

    _mp3Writer = new Mp3Writer(_mp3Stream, fmt, beconf);

    _waveOut.StartRecording();
}

private void WaveOutDataAvailable(object sender, WaveInEventArgs e)
{
    if (_mp3Writer != null)
    {
        byte[] data = Float32toInt16(e.Buffer, 0, e.BytesRecorded);
        _mp3Writer.Write(data, 0, data.Length);
    }
}

private void WaveOutRecordStopped(object sender, StoppedEventArgs e)
{
    if (InvokeRequired)
        BeginInvoke(new MethodInvoker(WaveOutStop));
    else
        WaveOutStop();
}

private void WaveOutStop()
{
    if (_mp3Writer != null)
    {
        _mp3Writer.Close();
        _mp3Writer.Dispose();
        _mp3Writer = null;
    }

    if (_mp3Stream != null)
    {
        _mp3Stream.Dispose();
        _mp3Stream = null;
    }

    _waveOut.Dispose();
    _waveOut = null;
}

Incidentally, the Mp3Writer class is all you need for this. Throw out the other Lame code you've got there. It will just get in your way.

share|improve this answer
    
The second one is working ok, but it results in a huge sized file (and that's why i've declined it at the beginning). Could you please provide a code example for the first option? I'm trying to do that as it is written in the post, but seems that i'm wrong somewhere or miss something, thank you in advance –  HardLuck Sep 23 '13 at 8:10
1  
@HardLuck Should be simple, but compression is a bit screwed for me at the moment. I've been using Yeti's lame wrapper to create MP3 files. –  Corey Sep 24 '13 at 5:03
    
Sadly i could not figure out how to use it but it seems i should give it a try, thank you any way –  HardLuck Sep 24 '13 at 7:48
    
Hey, great update there! But can you tell me what is the "v" variable in Float32toInt16 method? –  HardLuck Sep 26 '13 at 8:56
    
@HardLuck Yes, it's a typo :P That's what happens when I type code here instead of copy-paste from my working code. Fixed it now. –  Corey Sep 26 '13 at 21:16

WasapiLoopbackCapture will likely be capturing audio at 32 bit floating point, 44.1kHz, stereo. WaveFormatConversionStream will not convert that into a-law 8kHz mono in one step. You need to do this conversion in multiple steps.

  • First get to 16 bit PCM (I tend to do this manually)
  • Then get to mono (mix or discard one channel - it's up to you) (Again I'd do this manually)
  • Then resample down to 8kHz (WaveFormatConversionStream can do this)
  • Then encode to a-law (use a second instance of WaveFormatConversionStream)
share|improve this answer
    
Thank you for your answer, it makes the situation a little bit more clear, i've updated my question to match its' current state –  HardLuck Sep 24 '13 at 13:45

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