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  • video proccesing : extract frames and encrypt them then insert them back to the video in java using xuggler

    24 juillet 2015, par Anas M. Jubara

    I’m working on a video encryption application .. the main idea is to input the video file to the application and the application should output it in an encrypted form... am using xuggler library to manipulate the video and get to the frames and AES for encryption.
    my code works fine for accessing the frames and encrypting them, what i need help with is how to write the encrypted frame back to the video file to replace the original one without corrupting the video file for the video players.
    Here is my code

    package xuggler;
    

    
import com.xuggle.mediatool.IMediaReader;
    
import com.xuggle.mediatool.IMediaWriter;
    
import com.xuggle.mediatool.MediaListenerAdapter;
    
import com.xuggle.mediatool.ToolFactory;
    
import com.xuggle.mediatool.event.IVideoPictureEvent;
    
import com.xuggle.xuggler.Global;
    
import com.xuggle.xuggler.ICodec;
    

    
import java.awt.Graphics2D;
    
import java.awt.Point;
    
import java.awt.Transparency;
    
import java.awt.image.BufferedImage;
    
import java.awt.image.ColorModel;
    
import java.awt.image.ComponentColorModel;
    
import java.awt.image.DataBuffer;
    
import java.awt.image.DataBufferByte;
    
import java.awt.image.Raster;
    
import java.awt.image.WritableRaster;
    

    
import java.io.File;
    

    
import java.security.InvalidKeyException;
    
import java.security.NoSuchAlgorithmException;
    
import java.security.SecureRandom;
    

    
import java.util.concurrent.TimeUnit;
    
import java.util.logging.Level;
    
import java.util.logging.Logger;
    

    
import javax.crypto.BadPaddingException;
    
import javax.crypto.Cipher;
    
import javax.crypto.IllegalBlockSizeException;
    
import javax.crypto.KeyGenerator;
    
import javax.crypto.NoSuchPaddingException;
    
import javax.crypto.SecretKey;
    

    
import javax.imageio.ImageIO;
    

    

    
public class DecodeAndCaptureFrames extends MediaListenerAdapter
    
{
    

    
 // The number of seconds between frames.
    
      public static final double SECONDS_BETWEEN_FRAMES = 5;
    

    
  //The number of micro-seconds between frames.
    
  public static final long MICRO_SECONDS_BETWEEN_FRAMES =(long)      (Global.DEFAULT_PTS_PER_SECOND * SECONDS_BETWEEN_FRAMES);
    

    
  // Time of last frame write
    
  private static long mLastPtsWrite = Global.NO_PTS;
    

    
private static final double FRAME_RATE = 50;
    

    
private static final int SECONDS_TO_RUN_FOR = 20;
    

    
private static final String outputFilename = "D:\\K.mp4";
    

    
public static IMediaWriter writer = ToolFactory.makeWriter(outputFilename);
    
//receive BufferedImage and returns its byte data
    
    public static byte[] get_byte_data(BufferedImage image) {
    
    WritableRaster raster = image.getRaster();
    
    DataBufferByte buffer = (DataBufferByte) raster.getDataBuffer();
    
    return buffer.getData();
    
}
    

    

    
//create new_img with the attributes of image
    
public static BufferedImage user_space(BufferedImage image) {
    
    //create new_img with the attributes of image
    
    BufferedImage new_img = new BufferedImage(image.getWidth(), image.getHeight(), BufferedImage.TYPE_3BYTE_BGR);
    
    Graphics2D graphics = new_img.createGraphics();
    
    graphics.drawRenderedImage(image, null);
    
    graphics.dispose(); //release all allocated memory for this image
    
    return new_img;
    
}
    

    
public static BufferedImage toImage(byte[] imagebytes, int width, int height) {
    
    DataBuffer buffer = new DataBufferByte(imagebytes, imagebytes.length);
    
    WritableRaster raster = Raster.createInterleavedRaster(buffer, width, height,
    
       3 * width, 3, new int[]{2, 1, 0}, (Point) null);
    

    
    ColorModel cm = new ComponentColorModel(ColorModel.getRGBdefault().getColorSpace(), 
    
            false, true, Transparency.OPAQUE, DataBuffer.TYPE_BYTE);
    
    return new BufferedImage(cm, raster, true, null);
    
}
    

    
public static byte[] encrypt(byte[] orgnlbytes, String key) throws NoSuchPaddingException, IllegalBlockSizeException, BadPaddingException {
    
    byte[] encbytes = null;
    
    try {
    
        Cipher cipher = Cipher.getInstance("AES");
    
        KeyGenerator keyGen = KeyGenerator.getInstance("AES");
    
        SecureRandom random = SecureRandom.getInstance("SHA1PRNG");
    
        // cryptograph. secure random
    
        random.setSeed(key.getBytes());
    

    
        keyGen.init(128, random);
    
        // for example
    
        SecretKey secretKey = keyGen.generateKey();
    
        try {
    
            cipher.init(Cipher.ENCRYPT_MODE, secretKey);
    
        } catch (InvalidKeyException ex) {
    
            Logger.getLogger(DecodeAndCaptureFrames.class.getName()).log(Level.SEVERE, null, ex);
    
        }
    
        encbytes = cipher.doFinal(orgnlbytes);
    
    }
    
    catch (NoSuchAlgorithmException ex) {
    
        Logger.getLogger(DecodeAndCaptureFrames.class.getName()).log(Level.SEVERE, null, ex);
    
    }        catch (NoSuchPaddingException ex)
    
    {
    
        System.out.print("can not encrypt buffer");
    
    }
    

    
    return encbytes;
    
}
    

    

    
  /**
    
   * The video stream index, used to ensure we display frames from one
    
   * and only one video stream from the media container.
    
   */
    

    
  private int mVideoStreamIndex = -1;
    

    
  /**
    
   * Takes a media container (file) as the first argument, opens it and
    
   *  writes some of it's video frames to PNG image files in the
    
   *  temporary directory.
    
   *
    
   * @param args must contain one string which represents a filename
    
   */
    

    
  public static void main(String[] args)
    
  {
    
    // create a new mr. decode and capture frames
    

    

    
    DecodeAndCaptureFrames decodeAndCaptureFrames;
    
    decodeAndCaptureFrames = new DecodeAndCaptureFrames("D:\\K.mp4");
    
  } 
    

    
  /** Construct a DecodeAndCaptureFrames which reads and captures
    
   * frames from a video file.
    
   *
    
   * @param filename the name of the media file to read
    
   */
    

    

    
  //makes reader to the file and read the data of it
    
  public DecodeAndCaptureFrames(String filename)
    
  {
    
    // create a media reader for processing video
    

    
   IMediaReader reader = ToolFactory.makeReader(filename);
    

    
// stipulate that we want BufferedImages created in BGR 24bit color space
    
reader.setBufferedImageTypeToGenerate(BufferedImage.TYPE_3BYTE_BGR);
    

    

    
// note that DecodeAndCaptureFrames is derived from
    
// MediaReader.ListenerAdapter and thus may be added as a listener
    
// to the MediaReader. DecodeAndCaptureFrames implements
    
// onVideoPicture().
    

    
reader.addListener(this);
    

    
// read out the contents of the media file, note that nothing else
    
// happens here.  action happens in the onVideoPicture() method
    
// which is called when complete video pictures are extracted from
    
// the media source
    

    
while (reader.readPacket() == null)
    
  do {} while(false);
    
  }
    

    
 /**
    
   * Called after a video frame has been decoded from a media stream.
    
   * Optionally a BufferedImage version of the frame may be passed
    
   * if the calling {@link IMediaReader} instance was configured to
    
   * create BufferedImages.
    
   *
    
   * This method blocks, so return quickly.
    
   */
    

    
  public void onVideoPicture(IVideoPictureEvent event)
    
  {
    
    try
    
    {
    
      // if the stream index does not match the selected stream index,
    
      // then have a closer look
    

    
  if (event.getStreamIndex() != mVideoStreamIndex)
    
  {
    
    // if the selected video stream id is not yet set, go ahead an
    
    // select this lucky video stream
    

    
    if (-1 == mVideoStreamIndex)
    
      mVideoStreamIndex = event.getStreamIndex();
    

    
    // otherwise return, no need to show frames from this video stream
    

    
    else
    
      return;
    
  }
    

    
  // if uninitialized, backdate mLastPtsWrite so we get the very
    
  // first frame
    

    
  if (mLastPtsWrite == Global.NO_PTS)
    
    mLastPtsWrite = event.getTimeStamp() - MICRO_SECONDS_BETWEEN_FRAMES;
    

    
  // if it's time to write the next frame
    

    
  if (event.getTimeStamp() - mLastPtsWrite >= MICRO_SECONDS_BETWEEN_FRAMES)
    
  {
    
    // Make a temporary file name
    

    
   // File file = File.createTempFile("frame", ".jpeg");
    

    
    // write out PNG
    

    
//        ImageIO.write(event.getImage(), "png", file);
    

    
    BufferedImage orgnlimage = event.getImage();
    
        orgnlimage = user_space(orgnlimage);
    
        byte[] orgnlimagebytes = get_byte_data(orgnlimage);
    
        byte[] encryptedbytes = encrypt(orgnlimagebytes, "abc");
    
        BufferedImage encryptedimage = toImage(encryptedbytes, orgnlimage.getWidth(), orgnlimage.getHeight());
    

    

    
        ImageIO.write(encryptedimage, "png", File.createTempFile("frame", ".png"));
    
//         indicate file written
    

    
    double seconds = ((double)event.getTimeStamp())
    
      / Global.DEFAULT_PTS_PER_SECOND;
    
//        System.out.printf("at elapsed time of %6.3f seconds wrote: %s\n",seconds, file);
    

    
    // update last write time
    

    
    mLastPtsWrite += MICRO_SECONDS_BETWEEN_FRAMES;
    
  }
    
}
    
catch (Exception e)
    
{
    
  e.printStackTrace();
    
}
    
  }
    

    
}

  • Revision 34764 : Tueur de header public !

    28 janvier 2010, par patfr@… — Log

    Tueur de header public !

  • Révision 21191 : retablir la conversion des booleens (true => ’1’ et false=>’’) de protege_champ ...

    15 février 2014, par cedric -

    (c’est a priori un cas peu courant, mais tenons nous en a la spec initiale definie par le test unitaire)

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