/**
   * Unpacks a Pdu from the underlying data.
   *
   * @throws java.nio.BufferUnderflowException if buff is too small
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin reading
   * @since ??
   */
  public void unmarshal(java.nio.ByteBuffer buff) {
    super.unmarshal(buff);

    minefieldID.unmarshal(buff);
    requestingEntityID.unmarshal(buff);
    minefieldSequenceNumbeer = (int) (buff.getShort() & 0xFFFF);
    requestID = (short) (buff.get() & 0xFF);
    pduSequenceNumber = (short) (buff.get() & 0xFF);
    numberOfPdus = (short) (buff.get() & 0xFF);
    numberOfMinesInThisPdu = (short) (buff.get() & 0xFF);
    numberOfSensorTypes = (short) (buff.get() & 0xFF);
    pad2 = (short) (buff.get() & 0xFF);
    dataFilter = buff.getInt();
    mineType.unmarshal(buff);
    for (int idx = 0; idx < numberOfSensorTypes; idx++) {
      TwoByteChunk anX = new TwoByteChunk();
      anX.unmarshal(buff);
      sensorTypes.add(anX);
    }

    pad3 = (short) (buff.get() & 0xFF);
    for (int idx = 0; idx < numberOfMinesInThisPdu; idx++) {
      Vector3Float anX = new Vector3Float();
      anX.unmarshal(buff);
      mineLocation.add(anX);
    }
  } // end of unmarshal method
  /**
   * Packs a Pdu into the ByteBuffer.
   *
   * @throws java.nio.BufferOverflowException if buff is too small
   * @throws java.nio.ReadOnlyBufferException if buff is read only
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin writing
   * @since ??
   */
  public void marshal(java.nio.ByteBuffer buff) {
    super.marshal(buff);
    minefieldID.marshal(buff);
    requestingEntityID.marshal(buff);
    buff.putShort((short) minefieldSequenceNumbeer);
    buff.put((byte) requestID);
    buff.put((byte) pduSequenceNumber);
    buff.put((byte) numberOfPdus);
    buff.put((byte) mineLocation.size());
    buff.put((byte) sensorTypes.size());
    buff.put((byte) pad2);
    buff.putInt((int) dataFilter);
    mineType.marshal(buff);

    for (int idx = 0; idx < sensorTypes.size(); idx++) {
      TwoByteChunk aTwoByteChunk = (TwoByteChunk) sensorTypes.get(idx);
      aTwoByteChunk.marshal(buff);
    } // end of list marshalling

    buff.put((byte) pad3);

    for (int idx = 0; idx < mineLocation.size(); idx++) {
      Vector3Float aVector3Float = (Vector3Float) mineLocation.get(idx);
      aVector3Float.marshal(buff);
    } // end of list marshalling
  } // end of marshal method
示例#3
0
    private void updateWithCharBuf() {
      final int reqSize = (int) charEncoder.maxBytesPerChar() * charBuff.position();
      if (byteBuff.capacity() < reqSize) {
        byteBuff = java.nio.ByteBuffer.allocate(2 * reqSize);
      }

      // Make ready for read
      charBuff.flip();

      final CoderResult cr = charEncoder.encode(charBuff, byteBuff, true);
      try {

        if (cr.isError()) cr.throwException();

        // Make ready for read
        byteBuff.flip();

        final byte[] byts = byteBuff.array();
        final int len = byteBuff.remaining();
        final int strt = byteBuff.arrayOffset();
        digest.update(byts, strt, len);

      } catch (final CharacterCodingException e) {
        throw new OXFException(e);
      } catch (java.nio.BufferOverflowException e) {
        throw new OXFException(e);
      } catch (java.nio.BufferUnderflowException e) {
        throw new OXFException(e);
      } finally {
        // Make ready for write
        charBuff.clear();
        byteBuff.clear();
      }
    }
示例#4
0
  public int getTopColor(DrawContext dc, java.awt.Point pickPoint) {
    GL gl = dc.getGL();

    java.nio.ByteBuffer pixel = BufferUtil.newByteBuffer(3);
    int yInGLCoords = dc.getView().getViewport().height - pickPoint.y - 1;
    gl.glReadPixels(
        pickPoint.x, yInGLCoords, 1, 1, javax.media.opengl.GL.GL_RGB, GL.GL_UNSIGNED_BYTE, pixel);

    java.awt.Color topColor = null;
    try {
      topColor =
          new java.awt.Color(pixel.get(0) & 0xff, pixel.get(1) & 0xff, pixel.get(2) & 0xff, 0);
    } catch (Exception e) {
      Logging.logger().severe("layers.InvalidPickColorRead");
    }

    return topColor != null ? topColor.getRGB() : 0;
  }
 /**
  * Unpacks a Pdu from the underlying data.
  *
  * @throws java.nio.BufferUnderflowException if buff is too small
  * @see java.nio.ByteBuffer
  * @param buff The ByteBuffer at the position to begin reading
  * @since ??
  */
 public void unmarshal(java.nio.ByteBuffer buff) {
   recordType = (short) (buff.get() & 0xFF);
   changeIndicator = (short) (buff.get() & 0xFF);
   associationStatus = (short) (buff.get() & 0xFF);
   associationType = (short) (buff.get() & 0xFF);
   entityID.unmarshal(buff);
   ownStationLocation = (int) (buff.getShort() & 0xFFFF);
   physicalConnectionType = (short) (buff.get() & 0xFF);
   groupMemberType = (short) (buff.get() & 0xFF);
   groupNumber = (int) (buff.getShort() & 0xFFFF);
 } // end of unmarshal method
 /**
  * Packs a Pdu into the ByteBuffer.
  *
  * @throws java.nio.BufferOverflowException if buff is too small
  * @throws java.nio.ReadOnlyBufferException if buff is read only
  * @see java.nio.ByteBuffer
  * @param buff The ByteBuffer at the position to begin writing
  * @since ??
  */
 public void marshal(java.nio.ByteBuffer buff) {
   buff.put((byte) recordType);
   buff.put((byte) changeIndicator);
   buff.put((byte) associationStatus);
   buff.put((byte) associationType);
   entityID.marshal(buff);
   buff.putShort((short) ownStationLocation);
   buff.put((byte) physicalConnectionType);
   buff.put((byte) groupMemberType);
   buff.putShort((short) groupNumber);
 } // end of marshal method
  /**
   * Packs a Pdu into the ByteBuffer.
   *
   * @throws java.nio.BufferOverflowException if buff is too small
   * @throws java.nio.ReadOnlyBufferException if buff is read only
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin writing
   * @since ??
   */
  public void marshal(java.nio.ByteBuffer buff) {
    super.marshal(buff);
    minefieldID.marshal(buff);
    requestingEntityID.marshal(buff);
    buff.put((byte) requestID);
    buff.put((byte) requestedPerimeterPoints.size());
    buff.put((byte) pad2);
    buff.put((byte) sensorTypes.size());
    buff.putInt((int) dataFilter);
    requestedMineType.marshal(buff);

    for (int idx = 0; idx < requestedPerimeterPoints.size(); idx++) {
      Point aPoint = (Point) requestedPerimeterPoints.get(idx);
      aPoint.marshal(buff);
    } // end of list marshalling

    for (int idx = 0; idx < sensorTypes.size(); idx++) {
      TwoByteChunk aTwoByteChunk = (TwoByteChunk) sensorTypes.get(idx);
      aTwoByteChunk.marshal(buff);
    } // end of list marshalling
  } // end of marshal method
  /**
   * Unpacks a Pdu from the underlying data.
   *
   * @throws java.nio.BufferUnderflowException if buff is too small
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin reading
   * @since ??
   */
  public void unmarshal(java.nio.ByteBuffer buff) {
    super.unmarshal(buff);

    minefieldID.unmarshal(buff);
    requestingEntityID.unmarshal(buff);
    requestID = (short) (buff.get() & 0xFF);
    numberOfPerimeterPoints = (short) (buff.get() & 0xFF);
    pad2 = (short) (buff.get() & 0xFF);
    numberOfSensorTypes = (short) (buff.get() & 0xFF);
    dataFilter = buff.getInt();
    requestedMineType.unmarshal(buff);
    for (int idx = 0; idx < numberOfPerimeterPoints; idx++) {
      Point anX = new Point();
      anX.unmarshal(buff);
      requestedPerimeterPoints.add(anX);
    }

    for (int idx = 0; idx < numberOfSensorTypes; idx++) {
      TwoByteChunk anX = new TwoByteChunk();
      anX.unmarshal(buff);
      sensorTypes.add(anX);
    }
  } // end of unmarshal method
  /**
   * Packs a Pdu into the ByteBuffer.
   *
   * @throws java.nio.BufferOverflowException if buff is too small
   * @throws java.nio.ReadOnlyBufferException if buff is read only
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin writing
   * @since ??
   */
  public void marshal(java.nio.ByteBuffer buff) {
    super.marshal(buff);
    entityId.marshal(buff);
    buff.putShort((short) communicationsDeviceID);
    buff.putShort((short) encodingScheme);
    buff.putShort((short) tdlType);
    buff.putInt((int) sampleRate);
    buff.putShort((short) data.size());
    buff.putShort((short) samples);

    for (int idx = 0; idx < data.size(); idx++) {
      OneByteChunk aOneByteChunk = (OneByteChunk) data.get(idx);
      aOneByteChunk.marshal(buff);
    } // end of list marshalling
  } // end of marshal method
  /**
   * Unpacks a Pdu from the underlying data.
   *
   * @throws java.nio.BufferUnderflowException if buff is too small
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin reading
   * @since ??
   */
  public void unmarshal(java.nio.ByteBuffer buff) {
    super.unmarshal(buff);

    entityId.unmarshal(buff);
    communicationsDeviceID = (int) (buff.getShort() & 0xFFFF);
    encodingScheme = (int) (buff.getShort() & 0xFFFF);
    tdlType = (int) (buff.getShort() & 0xFFFF);
    sampleRate = buff.getInt();
    dataLength = (int) (buff.getShort() & 0xFFFF);
    samples = (int) (buff.getShort() & 0xFFFF);
    for (int idx = 0; idx < dataLength; idx++) {
      OneByteChunk anX = new OneByteChunk();
      anX.unmarshal(buff);
      data.add(anX);
    }
  } // end of unmarshal method
示例#11
0
 /**
  * Packs a Pdu into the ByteBuffer.
  *
  * @throws java.nio.BufferOverflowException if buff is too small
  * @throws java.nio.ReadOnlyBufferException if buff is read only
  * @see java.nio.ByteBuffer
  * @param buff The ByteBuffer at the position to begin writing
  * @since ??
  */
 public void marshal(java.nio.ByteBuffer buff) {
   buff.putFloat((float) x);
   buff.putFloat((float) y);
   buff.putFloat((float) z);
 } // end of marshal method
示例#12
0
 /**
  * Unpacks a Pdu from the underlying data.
  *
  * @throws java.nio.BufferUnderflowException if buff is too small
  * @see java.nio.ByteBuffer
  * @param buff The ByteBuffer at the position to begin reading
  * @since ??
  */
 public void unmarshal(java.nio.ByteBuffer buff) {
   x = buff.getFloat();
   y = buff.getFloat();
   z = buff.getFloat();
 } // end of unmarshal method
示例#13
0
 /**
  * Unpacks a Pdu from the underlying data.
  *
  * @throws java.nio.BufferUnderflowException if buff is too small
  * @see java.nio.ByteBuffer
  * @param buff The ByteBuffer at the position to begin reading
  * @since ??
  */
 public void unmarshal(java.nio.ByteBuffer buff) {
   for (int idx = 0; idx < otherParameters.length; idx++) {
     otherParameters[idx] = buff.get();
   } // end of array unmarshaling
 } // end of unmarshal method
示例#14
0
  /**
   * Packs a Pdu into the ByteBuffer.
   *
   * @throws java.nio.BufferOverflowException if buff is too small
   * @throws java.nio.ReadOnlyBufferException if buff is read only
   * @see java.nio.ByteBuffer
   * @param buff The ByteBuffer at the position to begin writing
   * @since ??
   */
  public void marshal(java.nio.ByteBuffer buff) {

    for (int idx = 0; idx < otherParameters.length; idx++) {
      buff.put((byte) otherParameters[idx]);
    } // end of array marshaling
  } // end of marshal method
示例#15
0
 public void startDocument() throws SAXException {
   charBuff.clear();
   byteBuff.clear();
   charEncoder.reset();
 }
示例#16
0
  /**
   * This digester is based on some existing public document (not sure which). There are some
   * changes though. It is not clear anymore why we used that document as a base, as this is purely
   * internal.
   *
   * <p>The bottom line is that the digest should change whenever the infoset of the source XML
   * document changes.
   */
  public static class DigestContentHandler implements XMLReceiver {

    private static final int ELEMENT_CODE = Node.ELEMENT_NODE;
    private static final int ATTRIBUTE_CODE = Node.ATTRIBUTE_NODE;
    private static final int TEXT_CODE = Node.TEXT_NODE;
    private static final int PROCESSING_INSTRUCTION_CODE = Node.PROCESSING_INSTRUCTION_NODE;
    private static final int NAMESPACE_CODE = 0XAA01; // some code that is none of the above
    private static final int COMMENT_CODE = 0XAA02; // some code that is none of the above

    /**
     * 4/6/2005 d : Previously we were using String.getBytes( "UnicodeBigUnmarked" ). ( Believe the
     * code was copied from RFC 2803 ). This first tries to get a java.nio.Charset with the name if
     * this fails it uses a sun.io.CharToByteConverter. Now in the case of "UnicodeBigUnmarked"
     * there is no such Charset so a CharToByteConverter, utf-16be, is used. Unfortunately this
     * negative lookup is expensive. ( Costing us a full second in the 50thread/512MB test. ) The
     * solution, of course, is just to use get the appropriate Charset and hold on to it.
     */
    private static final Charset utf16BECharset = Charset.forName("UTF-16BE");
    /** Encoder has state and therefore cannot be shared across threads. */
    private final CharsetEncoder charEncoder = utf16BECharset.newEncoder();

    private java.nio.CharBuffer charBuff = java.nio.CharBuffer.allocate(64);
    private java.nio.ByteBuffer byteBuff = java.nio.ByteBuffer.allocate(128);

    private final MessageDigest digest = SecureUtils.defaultMessageDigest();

    private void ensureCharBuffRemaining(final int size) {
      if (charBuff.remaining() < size) {
        final int cpcty = (charBuff.capacity() + size) * 2;
        final java.nio.CharBuffer newChBuf = java.nio.CharBuffer.allocate(cpcty);
        newChBuf.put(charBuff);
        charBuff = newChBuf;
      }
    }

    private void updateWithCharBuf() {
      final int reqSize = (int) charEncoder.maxBytesPerChar() * charBuff.position();
      if (byteBuff.capacity() < reqSize) {
        byteBuff = java.nio.ByteBuffer.allocate(2 * reqSize);
      }

      // Make ready for read
      charBuff.flip();

      final CoderResult cr = charEncoder.encode(charBuff, byteBuff, true);
      try {

        if (cr.isError()) cr.throwException();

        // Make ready for read
        byteBuff.flip();

        final byte[] byts = byteBuff.array();
        final int len = byteBuff.remaining();
        final int strt = byteBuff.arrayOffset();
        digest.update(byts, strt, len);

      } catch (final CharacterCodingException e) {
        throw new OXFException(e);
      } catch (java.nio.BufferOverflowException e) {
        throw new OXFException(e);
      } catch (java.nio.BufferUnderflowException e) {
        throw new OXFException(e);
      } finally {
        // Make ready for write
        charBuff.clear();
        byteBuff.clear();
      }
    }

    private void updateWith(final String s) {
      addToCharBuff(s);
      updateWithCharBuf();
    }

    private void updateWith(final char[] chArr, final int ofst, final int len) {
      ensureCharBuffRemaining(len);
      charBuff.put(chArr, ofst, len);
      updateWithCharBuf();
    }

    private void addToCharBuff(final char c) {
      ensureCharBuffRemaining(1);
      charBuff.put(c);
    }

    private void addToCharBuff(final String s) {
      final int size = s.length();
      ensureCharBuffRemaining(size);
      charBuff.put(s);
    }

    public byte[] getResult() {
      return digest.digest();
    }

    public void setDocumentLocator(Locator locator) {}

    public void startDocument() throws SAXException {
      charBuff.clear();
      byteBuff.clear();
      charEncoder.reset();
    }

    public void endDocument() throws SAXException {}

    public void startPrefixMapping(String prefix, String uri) throws SAXException {

      digest.update((byte) ((NAMESPACE_CODE >> 24) & 0xff));
      digest.update((byte) ((NAMESPACE_CODE >> 16) & 0xff));
      digest.update((byte) ((NAMESPACE_CODE >> 8) & 0xff));
      digest.update((byte) (NAMESPACE_CODE & 0xff));
      updateWith(prefix);
      digest.update((byte) 0);
      digest.update((byte) 0);
      updateWith(uri);
      digest.update((byte) 0);
      digest.update((byte) 0);
    }

    public void endPrefixMapping(String prefix) throws SAXException {}

    public void startElement(String namespaceURI, String localName, String qName, Attributes atts)
        throws SAXException {

      digest.update((byte) ((ELEMENT_CODE >> 24) & 0xff));
      digest.update((byte) ((ELEMENT_CODE >> 16) & 0xff));
      digest.update((byte) ((ELEMENT_CODE >> 8) & 0xff));
      digest.update((byte) (ELEMENT_CODE & 0xff));

      addToCharBuff('{');
      addToCharBuff(namespaceURI);
      addToCharBuff('}');
      addToCharBuff(localName);
      updateWithCharBuf();

      digest.update((byte) 0);
      digest.update((byte) 0);
      int attCount = atts.getLength();
      digest.update((byte) ((attCount >> 24) & 0xff));
      digest.update((byte) ((attCount >> 16) & 0xff));
      digest.update((byte) ((attCount >> 8) & 0xff));
      digest.update((byte) (attCount & 0xff));
      for (int i = 0; i < attCount; i++) {
        digest.update((byte) ((ATTRIBUTE_CODE >> 24) & 0xff));
        digest.update((byte) ((ATTRIBUTE_CODE >> 16) & 0xff));
        digest.update((byte) ((ATTRIBUTE_CODE >> 8) & 0xff));
        digest.update((byte) (ATTRIBUTE_CODE & 0xff));

        final String attURI = atts.getURI(i);
        final String attNam = atts.getLocalName(i);

        addToCharBuff('{');
        addToCharBuff(attURI);
        addToCharBuff('}');
        addToCharBuff(attNam);
        updateWithCharBuf();

        digest.update((byte) 0);
        digest.update((byte) 0);

        final String val = atts.getValue(i);
        updateWith(val);
      }
    }

    public void endElement(String namespaceURI, String localName, String qName)
        throws SAXException {}

    public void characters(char ch[], int start, int length) throws SAXException {

      digest.update((byte) ((TEXT_CODE >> 24) & 0xff));
      digest.update((byte) ((TEXT_CODE >> 16) & 0xff));
      digest.update((byte) ((TEXT_CODE >> 8) & 0xff));
      digest.update((byte) (TEXT_CODE & 0xff));

      updateWith(ch, start, length);

      digest.update((byte) 0);
      digest.update((byte) 0);
    }

    public void ignorableWhitespace(char ch[], int start, int length) throws SAXException {}

    public void processingInstruction(String target, String data) throws SAXException {

      digest.update((byte) ((PROCESSING_INSTRUCTION_CODE >> 24) & 0xff));
      digest.update((byte) ((PROCESSING_INSTRUCTION_CODE >> 16) & 0xff));
      digest.update((byte) ((PROCESSING_INSTRUCTION_CODE >> 8) & 0xff));
      digest.update((byte) (PROCESSING_INSTRUCTION_CODE & 0xff));

      updateWith(target);

      digest.update((byte) 0);
      digest.update((byte) 0);

      updateWith(data);

      digest.update((byte) 0);
      digest.update((byte) 0);
    }

    public void skippedEntity(String name) throws SAXException {}

    public void startDTD(String name, String publicId, String systemId) throws SAXException {}

    public void endDTD() throws SAXException {}

    public void startEntity(String name) throws SAXException {}

    public void endEntity(String name) throws SAXException {}

    public void startCDATA() throws SAXException {}

    public void endCDATA() throws SAXException {}

    public void comment(char[] ch, int start, int length) throws SAXException {

      // We do consider comments significant for the purpose of digesting. But should this be an
      // option?

      digest.update((byte) ((COMMENT_CODE >> 24) & 0xff));
      digest.update((byte) ((COMMENT_CODE >> 16) & 0xff));
      digest.update((byte) ((COMMENT_CODE >> 8) & 0xff));
      digest.update((byte) (COMMENT_CODE & 0xff));

      updateWith(ch, start, length);

      digest.update((byte) 0);
      digest.update((byte) 0);
    }
  }