android - オーディオデータに問題があります

Question

大きな問題はMicrophoneManagerのreadメソッドにあると思いますが、どこに問題があるのか​​わかりません。bytesreadのコンソール出力は0です（これは他のクラスのAudioTransmitterにあります）。送信されるデータは変更されておらず、読み取られたバイト数は0であるため、オーディオデータがストリーミングされていないように見えます。

    public class MicrophoneManager{
    //  private     TargetDataLine   targetDataLine;
      private   float            sampleRate       = 8000.0F;    //8000,11025,16000,22050,44100
      private   int              sampleSizeInBits = 16;         //8,16
      private   int              channels         = 1;          //1,2
      private   boolean          signed           = true;       //true,false
      private   boolean          bigEndian        = false;      //true,false
      private   AudioFormat      audioFormat;
    //  private AudioRecord      audioRecord;
    //  private AudioInputStream ais;
      private static MicrophoneManager singletonMicrophoneManager = null;

      public AudioRecord audioRecord; 
      public int mSamplesRead; //how many samples read 
      public int buffersizebytes; 
      public int buflen; 
      public int channelConfiguration = AudioFormat.CHANNEL_CONFIGURATION_MONO; 
      public int audioEncoding = AudioFormat.ENCODING_PCM_16BIT; 
      public static byte[] buffer; //+-32767 
      public static final int SAMPPERSEC = 8000; //samp per sec 8000, 11025, 22050 44100 or 48000 


      public class MicrophoneManager{
//  private     TargetDataLine   targetDataLine;
  private   float            sampleRate       = 8000.0F;    //8000,11025,16000,22050,44100
  private   int              sampleSizeInBits = 16;         //8,16
  private   int              channels         = 1;          //1,2
  private   boolean          signed           = true;       //true,false
  private   boolean          bigEndian        = false;      //true,false
  private   AudioFormat      audioFormat;
//  private AudioRecord      audioRecord;
//  private AudioInputStream ais;
  private static MicrophoneManager singletonMicrophoneManager = null;

  public AudioRecord audioRecord; 
  public int mSamplesRead; //how many samples read 
  public int buffersizebytes; 
  public int buflen; 
  public int channelConfiguration = AudioFormat.CHANNEL_CONFIGURATION_MONO; 
  public int audioEncoding = AudioFormat.ENCODING_PCM_16BIT; 
  public static short[] buffer; //+-32767 
  public static final int SAMPPERSEC = 8000; //samp per sec 8000, 11025, 22050 44100 or 48000 


  public MicrophoneManager() { 
      System.out.println("Initializing");   
//      audioFormat = new AudioFormat(sampleRate,sampleSizeInBits,channels,signed,bigEndian);

//      audioRecord = new AudioRecord(MediaRecorder.AudioSource.DEFAULT, (int) sampleRate, channels, AudioFormat.ENCODING_PCM_16BIT, buffersizebytes);

      buffersizebytes = AudioRecord.getMinBufferSize(SAMPPERSEC,channelConfiguration,audioEncoding); //4096 on ion 
      buffer = new short[buffersizebytes]; 
      buflen=buffersizebytes/2; 
      audioRecord = new AudioRecord(android.media.MediaRecorder.AudioSource.MIC,SAMPPERSEC, 
      channelConfiguration,audioEncoding,buffersizebytes); //constructor       
  }

  public static MicrophoneManager getMicrophoneManager() throws Exception {
      if (singletonMicrophoneManager == null) {
          singletonMicrophoneManager = new MicrophoneManager();
          singletonMicrophoneManager.initialize();
      }
      return singletonMicrophoneManager;
  }

  public void initialize() throws Exception {      
  }

  public void startAudioInput(){

      try { 
          audioRecord.startRecording(); 
          mSamplesRead = audioRecord.read(buffer, 0, buffer.length); 
          audioRecord.stop(); 
          } catch (Throwable t) { 
          // Log.e("AudioRecord", "Recording Failed"); 
              System.out.println("Error Starting audio input"+t);
          } 
  }

  public void stopAudioInput(){
      audioRecord.stop(); 
      System.out.println("Stopping audio input");         
  }

  public void finishAudioInput(){
      audioRecord.release(); 
      System.out.println("Finishing audio input");        
  }

  public boolean available() throws Exception {
      return true;
  }

  public int read(byte[] inBuf) throws Exception {
     return audioRecord.read(inBuf,0,inBuf.length);
  }    

}

AudioTransmitter：

public class AudioTransmitter extends Thread{

    private MicrophoneManager mm=null;
    private boolean transmittingAudio = false;
    private String host;
    private int port;
    private long id=0;
    boolean run=true;

    public AudioTransmitter(String host, int port, long id) {
        this.host = host;
        this.port = port;
        this.id = id;
        this.start();
    }

    public void run() {

        System.out.println("creating audio transmitter host "+host+" port "+port+" id "+id);

        TrustManager[] trustAllCerts = new TrustManager[]{
                new X509TrustManager() {
                    public java.security.cert.X509Certificate[] getAcceptedIssuers() {
                        return null;
                    }
                    public void checkClientTrusted(
                            java.security.cert.X509Certificate[] certs, String authType) {
                    }
                    public void checkServerTrusted(
                            java.security.cert.X509Certificate[] chain, String authType) {
                        for (int j=0; j<chain.length; j++)
                        {
                            System.out.println("Client certificate information:");
                            System.out.println("  Subject DN: " + chain[j].getSubjectDN());
                            System.out.println("  Issuer DN: " + chain[j].getIssuerDN());
                            System.out.println("  Serial number: " + chain[j].getSerialNumber());
                            System.out.println("");
                        }
                    }
                }
        };

        while (run) {
            if(transmittingAudio) {

                try {
                    if(mm==null) {
                        mm = new MicrophoneManager();
//                      mm.initialize();
                    }
                    SSLContext sc = SSLContext.getInstance("SSL");
                    sc.init(null, trustAllCerts, new java.security.SecureRandom());
                    SSLSocketFactory sslFact = sc.getSocketFactory();
                    SSLSocket socket = (SSLSocket)sslFact.createSocket(host, port);

                    socket.setSoTimeout(10000);
                    InputStream inputStream = socket.getInputStream();
                    DataInputStream in = new DataInputStream(new BufferedInputStream(inputStream));
                    OutputStream outputStream = socket.getOutputStream();
                    DataOutputStream os = new DataOutputStream(new BufferedOutputStream(outputStream));
                    PrintWriter socketPrinter = new PrintWriter(os);
                    BufferedReader br = new BufferedReader(new InputStreamReader(in));

//                  socketPrinter.println("POST /transmitaudio?patient=1333369798370 HTTP/1.0");
                    socketPrinter.println("POST /transmitaudio?id="+id+" HTTP/1.0");
                    socketPrinter.println("Content-Type: audio/basic");
                    socketPrinter.println("Content-Length: 99999");
                    socketPrinter.println("Connection: Keep-Alive");
                    socketPrinter.println("Cache-Control: no-cache");
                    socketPrinter.println();
                    socketPrinter.flush();

//                  in.read();

                    mm.startAudioInput();

                    int buffersizebytes = AudioRecord.getMinBufferSize(8000, AudioFormat.CHANNEL_CONFIGURATION_MONO,AudioFormat.ENCODING_PCM_16BIT); //4096 on ion 

                    System.out.println("audio started");
                    byte[] data = new byte[buffersizebytes];
                    while(transmittingAudio) {
                            //              byte[] data = new byte[mm.available()];
                            int bytesRead = mm.read(data);
                            os.write(data,0,bytesRead);
                            os.flush();
                            //              ca.transmitAxisAudioPacket(data);
//                          System.out.println("read "+data);
                            System.out.println("bytesRead "+bytesRead);
                            System.out.println("data "+Arrays.toString(data));
                    }
                    os.close();
                    mm.stopAudioInput();
                } catch (Exception e) {
                    System.out.println("excpetion while transmitting audio connection will be closed"+e);
                    transmittingAudio=false;
                }
            }
            else {
                try {
                Thread.sleep(1000);
                } catch (Exception e){
                    System.out.println("exception while thread sleeping"+e);}
            }
        }

    }

    public void setTransmittingAudio(boolean transmittingAudio) {
        this.transmittingAudio = transmittingAudio;
    }

    public void finished() {
        this.transmittingAudio = false;
        mm.finishAudioInput();
    }


}

Answer 1

あなたが呼んでいる

mSamplesRead = audioRecord.read(buffer, 0, buffersizebytes); 

それにはいくつかの問題があります。

audioRecord.read()バイト単位のサイズではなく、読み込んでいる配列の長さが必要です。エンコーディングを16ビットに設定しました。あなたは本当に次のようなことをしているはずです：

new short[] buffer = short[1024]; // or whatever length you like
mSampleRead = audioRecord.read(buffer,0,buffer.length);

あなたは読むように呼びかけていますbuffersizebytesが、あなたは設定しbuffer = new byte[1024];ます。buffersizebytes正しい数があると考える特別な理由はありませんか？short[]16ビットエンコーディングの配列が必要であり、読み取るサンプルの数（バイトではない）をその長さ以下にする必要がありますshort[] buffer。

また、スローされたときに発生する例外を印刷すると、より良い状態になります。変更してください

System.out.println("Error Starting audio input");

に

System.out.println("Error Starting audio input" + t);

少なくとも、Androidがゴミ箱にあなたを投げ込んでいる理由がわかります。

Answer 2

Thank you guys for you help however I found a better way to do whats needed (here). Here is the code. Notice this also uses http://www.devdaily.com/java/jwarehouse/android/core/java/android/speech/srec/UlawEncoderInputStream.java.shtml to convert the audio to ulaw

public class AudioWorker extends Thread
{ 
    private boolean stopped = false;

    private String host;
    private int port;
    private long id=0;
    boolean run=true;
    AudioRecord recorder;

    //ulaw encoder stuff
    private final static String TAG = "UlawEncoderInputStream";

    private final static int MAX_ULAW = 8192;
    private final static int SCALE_BITS = 16;

    private InputStream mIn;

    private int mMax = 0;

    private final byte[] mBuf = new byte[1024];
    private int mBufCount = 0; // should be 0 or 1

    private final byte[] mOneByte = new byte[1];
    ////
    /**
     * Give the thread high priority so that it's not canceled unexpectedly, and start it
     */
    public AudioWorker(String host, int port, long id)
    { 
        this.host = host;
        this.port = port;
        this.id = id;
        android.os.Process.setThreadPriority(android.os.Process.THREAD_PRIORITY_URGENT_AUDIO);
//        start();
    }

    @Override
    public void run()
    { 
        Log.i("AudioWorker", "Running AudioWorker Thread");
        recorder = null;
        AudioTrack track = null;
        short[][]   buffers  = new short[256][160];
        int ix = 0;

        /*
         * Initialize buffer to hold continuously recorded AudioWorker data, start recording, and start
         * playback.
         */
        try
        {
            int N = AudioRecord.getMinBufferSize(8000,AudioFormat.CHANNEL_IN_MONO,AudioFormat.ENCODING_PCM_16BIT);
            recorder = new AudioRecord(AudioSource.MIC, 8000, AudioFormat.CHANNEL_IN_MONO, AudioFormat.ENCODING_PCM_16BIT, N*10);
            track = new AudioTrack(AudioManager.STREAM_MUSIC, 8000, 
                    AudioFormat.CHANNEL_OUT_MONO, AudioFormat.ENCODING_PCM_16BIT, N*10, AudioTrack.MODE_STREAM);
            recorder.startRecording();
            track.play();
            /*
             * Loops until something outside of this thread stops it.
             * Reads the data from the recorder and writes it to the AudioWorker track for playback.
             */


            SSLContext sc = SSLContext.getInstance("SSL");
            sc.init(null, trustAllCerts, new java.security.SecureRandom());
            SSLSocketFactory sslFact = sc.getSocketFactory();
            SSLSocket socket = (SSLSocket)sslFact.createSocket(host, port);

            socket.setSoTimeout(10000);
            InputStream inputStream = socket.getInputStream();
            DataInputStream in = new DataInputStream(new BufferedInputStream(inputStream));
            OutputStream outputStream = socket.getOutputStream();
            DataOutputStream os = new DataOutputStream(new BufferedOutputStream(outputStream));
            PrintWriter socketPrinter = new PrintWriter(os);
            BufferedReader br = new BufferedReader(new InputStreamReader(in));

//          socketPrinter.println("POST /transmitaudio?patient=1333369798370 HTTP/1.0");
            socketPrinter.println("POST /transmitaudio?id="+id+" HTTP/1.0");
            socketPrinter.println("Content-Type: AudioWorker/basic");
            socketPrinter.println("Content-Length: 99999");
            socketPrinter.println("Connection: Keep-Alive");
            socketPrinter.println("Cache-Control: no-cache");
            socketPrinter.println();
            socketPrinter.flush();


            while(!stopped)
            { 
                Log.i("Map", "Writing new data to buffer");
                short[] buffer = buffers[ix++ % buffers.length];

                N = recorder.read(buffer,0,buffer.length);
                track.write(buffer, 0, buffer.length);

                byte[] bytes2 = new byte[buffer.length * 2];
                ByteBuffer.wrap(bytes2).order(ByteOrder.LITTLE_ENDIAN).asShortBuffer().put(buffer);

                read(bytes2, 0, bytes2.length);
//              os.write(bytes2,0,bytes2.length);
                os.write(bytes2,0,bytes2.length);

                System.out.println("bytesRead "+buffer.length);
                System.out.println("data "+Arrays.toString(buffer));
            }
            os.close();
        }
        catch(Throwable x)
        { 
            Log.w("AudioWorker", "Error reading voice AudioWorker", x);
        }
        /*
         * Frees the thread's resources after the loop completes so that it can be run again
         */
        finally
        { 
            recorder.stop();
            recorder.release();
            track.stop();
            track.release();
        }
    }

    /**
     * Called from outside of the thread in order to stop the recording/playback loop
     */

/**
 * Called from outside of the thread in order to stop the recording/playback loop
 */
public void close()
{ 
     stopped = true;
}
public void resumeThread()
{ 
     stopped = false;
     run();
}

    TrustManager[] trustAllCerts = new TrustManager[]{
            new X509TrustManager() {
                public java.security.cert.X509Certificate[] getAcceptedIssuers() {
                    return null;
                }
                public void checkClientTrusted(
                        java.security.cert.X509Certificate[] certs, String authType) {
                }
                public void checkServerTrusted(
                        java.security.cert.X509Certificate[] chain, String authType) {
                    for (int j=0; j<chain.length; j++)
                    {
                        System.out.println("Client certificate information:");
                        System.out.println("  Subject DN: " + chain[j].getSubjectDN());
                        System.out.println("  Issuer DN: " + chain[j].getIssuerDN());
                        System.out.println("  Serial number: " + chain[j].getSerialNumber());
                        System.out.println("");
                    }
                }
            }
    };


    public static void encode(byte[] pcmBuf, int pcmOffset,
            byte[] ulawBuf, int ulawOffset, int length, int max) {

        // from  'ulaw' in wikipedia
        // +8191 to +8159                          0x80
        // +8158 to +4063 in 16 intervals of 256   0x80 + interval number
        // +4062 to +2015 in 16 intervals of 128   0x90 + interval number
        // +2014 to  +991 in 16 intervals of  64   0xA0 + interval number
        //  +990 to  +479 in 16 intervals of  32   0xB0 + interval number
        //  +478 to  +223 in 16 intervals of  16   0xC0 + interval number
        //  +222 to   +95 in 16 intervals of   8   0xD0 + interval number
        //   +94 to   +31 in 16 intervals of   4   0xE0 + interval number
        //   +30 to    +1 in 15 intervals of   2   0xF0 + interval number
        //     0                                   0xFF

        //    -1                                   0x7F
        //   -31 to    -2 in 15 intervals of   2   0x70 + interval number
        //   -95 to   -32 in 16 intervals of   4   0x60 + interval number
        //  -223 to   -96 in 16 intervals of   8   0x50 + interval number
        //  -479 to  -224 in 16 intervals of  16   0x40 + interval number
        //  -991 to  -480 in 16 intervals of  32   0x30 + interval number
        // -2015 to  -992 in 16 intervals of  64   0x20 + interval number
        // -4063 to -2016 in 16 intervals of 128   0x10 + interval number
        // -8159 to -4064 in 16 intervals of 256   0x00 + interval number
        // -8192 to -8160                          0x00

        // set scale factors
        if (max <= 0) max = MAX_ULAW;

        int coef = MAX_ULAW * (1 << SCALE_BITS) / max;

        for (int i = 0; i < length; i++) {
            int pcm = (0xff & pcmBuf[pcmOffset++]) + (pcmBuf[pcmOffset++] << 8);
            pcm = (pcm * coef) >> SCALE_BITS;

            int ulaw;
            if (pcm >= 0) {
                ulaw = pcm <= 0 ? 0xff :
                        pcm <=   30 ? 0xf0 + ((  30 - pcm) >> 1) :
                        pcm <=   94 ? 0xe0 + ((  94 - pcm) >> 2) :
                        pcm <=  222 ? 0xd0 + (( 222 - pcm) >> 3) :
                        pcm <=  478 ? 0xc0 + (( 478 - pcm) >> 4) :
                        pcm <=  990 ? 0xb0 + (( 990 - pcm) >> 5) :
                        pcm <= 2014 ? 0xa0 + ((2014 - pcm) >> 6) :
                        pcm <= 4062 ? 0x90 + ((4062 - pcm) >> 7) :
                        pcm <= 8158 ? 0x80 + ((8158 - pcm) >> 8) :
                        0x80;
            } else {
                ulaw = -1 <= pcm ? 0x7f :
                          -31 <= pcm ? 0x70 + ((pcm -   -31) >> 1) :
                          -95 <= pcm ? 0x60 + ((pcm -   -95) >> 2) :
                         -223 <= pcm ? 0x50 + ((pcm -  -223) >> 3) :
                         -479 <= pcm ? 0x40 + ((pcm -  -479) >> 4) :
                         -991 <= pcm ? 0x30 + ((pcm -  -991) >> 5) :
                        -2015 <= pcm ? 0x20 + ((pcm - -2015) >> 6) :
                        -4063 <= pcm ? 0x10 + ((pcm - -4063) >> 7) :
                        -8159 <= pcm ? 0x00 + ((pcm - -8159) >> 8) :
                        0x00;
            }
            ulawBuf[ulawOffset++] = (byte)ulaw;
        }
    }
    public static int maxAbsPcm(byte[] pcmBuf, int offset, int length) {
        int max = 0;
        for (int i = 0; i < length; i++) {
            int pcm = (0xff & pcmBuf[offset++]) + (pcmBuf[offset++] << 8);
            if (pcm < 0) pcm = -pcm;
            if (pcm > max) max = pcm;
        }
        return max;
    }

    public int read(byte[] buf, int offset, int length) throws IOException {
        if (recorder == null) throw new IllegalStateException("not open");

        // return at least one byte, but try to fill 'length'
        while (mBufCount < 2) {
            int n = recorder.read(mBuf, mBufCount, Math.min(length * 2, mBuf.length - mBufCount));
            if (n == -1) return -1;
            mBufCount += n;
        }

        // compand data
        int n = Math.min(mBufCount / 2, length);
        encode(mBuf, 0, buf, offset, n, mMax);

        // move data to bottom of mBuf
        mBufCount -= n * 2;
        for (int i = 0; i < mBufCount; i++) mBuf[i] = mBuf[i + n * 2];

        return n;
    }

}