org.eclipse.jetty.websocket.WebSocketParserRFC6455 Maven / Gradle / Ivy
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//
// ========================================================================
// Copyright (c) 1995-2016 Mort Bay Consulting Pty. Ltd.
// ------------------------------------------------------------------------
// All rights reserved. This program and the accompanying materials
// are made available under the terms of the Eclipse Public License v1.0
// and Apache License v2.0 which accompanies this distribution.
//
// The Eclipse Public License is available at
// http://www.eclipse.org/legal/epl-v10.html
//
// The Apache License v2.0 is available at
// http://www.opensource.org/licenses/apache2.0.php
//
// You may elect to redistribute this code under either of these licenses.
// ========================================================================
//
package org.eclipse.jetty.websocket;
import java.io.IOException;
import org.eclipse.jetty.io.Buffer;
import org.eclipse.jetty.io.Buffers;
import org.eclipse.jetty.io.EndPoint;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
/* ------------------------------------------------------------ */
/**
* Parser the WebSocket protocol.
*
*/
public class WebSocketParserRFC6455 implements WebSocketParser
{
private static final Logger LOG = Log.getLogger(WebSocketParserRFC6455.class);
public enum State {
START(0), OPCODE(1), LENGTH_7(1), LENGTH_16(2), LENGTH_63(8), MASK(4), PAYLOAD(0), DATA(0), SKIP(1), SEEK_EOF(1);
int _needs;
State(int needs)
{
_needs=needs;
}
int getNeeds()
{
return _needs;
}
}
private final WebSocketBuffers _buffers;
private final EndPoint _endp;
private final FrameHandler _handler;
private final boolean _shouldBeMasked;
private State _state;
private Buffer _buffer;
private byte _flags;
private byte _opcode;
private int _bytesNeeded;
private long _length;
private boolean _masked;
private final byte[] _mask = new byte[4];
private int _m;
private boolean _skip;
private boolean _fragmentFrames=true;
/* ------------------------------------------------------------ */
/**
* @param buffers The buffers to use for parsing. Only the {@link Buffers#getBuffer()} is used.
* This should be a direct buffer if binary data is mostly used or an indirect buffer if utf-8 data
* is mostly used.
* @param endp the endpoint
* @param handler the handler to notify when a parse event occurs
* @param shouldBeMasked whether masking should be handled
*/
public WebSocketParserRFC6455(WebSocketBuffers buffers, EndPoint endp, FrameHandler handler, boolean shouldBeMasked)
{
_buffers=buffers;
_endp=endp;
_handler=handler;
_shouldBeMasked=shouldBeMasked;
_state=State.START;
}
/* ------------------------------------------------------------ */
/**
* @return True if fake fragments should be created for frames larger than the buffer.
*/
public boolean isFakeFragments()
{
return _fragmentFrames;
}
/* ------------------------------------------------------------ */
/**
* @param fakeFragments True if fake fragments should be created for frames larger than the buffer.
*/
public void setFakeFragments(boolean fakeFragments)
{
_fragmentFrames = fakeFragments;
}
/* ------------------------------------------------------------ */
public boolean isBufferEmpty()
{
return _buffer==null || _buffer.length()==0;
}
/* ------------------------------------------------------------ */
public Buffer getBuffer()
{
return _buffer;
}
/* ------------------------------------------------------------ */
/** Parse to next event.
* Parse to the next {@link WebSocketParser.FrameHandler} event or until no more data is
* available. Fill data from the {@link EndPoint} only as necessary.
* @return An indication of progress or otherwise. -1 indicates EOF, 0 indicates
* that no bytes were read and no messages parsed. A positive number indicates either
* the bytes filled or the messages parsed.
*/
public int parseNext()
{
if (_buffer==null)
_buffer=_buffers.getBuffer();
boolean progress=false;
int filled=-1;
// Loop until a datagram call back or can't fill anymore
while(!progress && (!_endp.isInputShutdown()||_buffer.length()>0))
{
int available=_buffer.length();
// Fill buffer if we need a byte or need length
while (available<(_state==State.SKIP?1:_bytesNeeded))
{
// compact to mark (set at start of data)
_buffer.compact();
// if no space, then the data is too big for buffer
if (_buffer.space() == 0)
{
// Can we send a fake frame?
if (_fragmentFrames && _state==State.DATA)
{
Buffer data =_buffer.get(4*(available/4));
_buffer.compact();
if (_masked)
{
if (data.array()==null)
data=_buffer.asMutableBuffer();
byte[] array = data.array();
final int end=data.putIndex();
for (int i=data.getIndex();i>\n",TypeUtil.toHexString(_flags),TypeUtil.toHexString(_opcode),data.length());
_bytesNeeded-=data.length();
progress=true;
_handler.onFrame((byte)(_flags&(0xff^WebSocketConnectionRFC6455.FLAG_FIN)), _opcode, data);
_opcode=WebSocketConnectionRFC6455.OP_CONTINUATION;
}
if (_buffer.space() == 0)
throw new IllegalStateException("FULL: "+_state+" "+_bytesNeeded+">"+_buffer.capacity());
}
// catch IOExceptions (probably EOF) and try to parse what we have
try
{
filled=_endp.isInputShutdown()?-1:_endp.fill(_buffer);
available=_buffer.length();
// System.err.printf(">> filled %d/%d%n",filled,available);
if (filled<=0)
break;
}
catch(IOException e)
{
LOG.debug(e);
filled=-1;
break;
}
}
// Did we get enough?
if (available<(_state==State.SKIP?1:_bytesNeeded))
break;
// if we are here, then we have sufficient bytes to process the current state.
// Parse the buffer byte by byte (unless it is STATE_DATA)
byte b;
while (_state!=State.DATA && available>=(_state==State.SKIP?1:_bytesNeeded))
{
switch (_state)
{
case START:
_skip=false;
_state=_opcode==WebSocketConnectionRFC6455.OP_CLOSE?State.SEEK_EOF:State.OPCODE;
_bytesNeeded=_state.getNeeds();
continue;
case OPCODE:
b=_buffer.get();
available--;
_opcode=(byte)(b&0xf);
_flags=(byte)(0xf&(b>>4));
if (WebSocketConnectionRFC6455.isControlFrame(_opcode)&&!WebSocketConnectionRFC6455.isLastFrame(_flags))
{
LOG.warn("Fragmented Control from "+_endp);
_handler.close(WebSocketConnectionRFC6455.CLOSE_PROTOCOL,"Fragmented control");
progress=true;
_skip=true;
}
_state=State.LENGTH_7;
_bytesNeeded=_state.getNeeds();
continue;
case LENGTH_7:
b=_buffer.get();
available--;
_masked=(b&0x80)!=0;
b=(byte)(0x7f&b);
switch(b)
{
case 0x7f:
_length=0;
_state=State.LENGTH_63;
break;
case 0x7e:
_length=0;
_state=State.LENGTH_16;
break;
default:
_length=(0x7f&b);
_state=_masked?State.MASK:State.PAYLOAD;
}
_bytesNeeded=_state.getNeeds();
continue;
case LENGTH_16:
b=_buffer.get();
available--;
_length = _length*0x100 + (0xff&b);
if (--_bytesNeeded==0)
{
if (_length>_buffer.capacity() && !_fragmentFrames)
{
progress=true;
_handler.close(WebSocketConnectionRFC6455.CLOSE_POLICY_VIOLATION,"frame size "+_length+">"+_buffer.capacity());
_skip=true;
}
_state=_masked?State.MASK:State.PAYLOAD;
_bytesNeeded=_state.getNeeds();
}
continue;
case LENGTH_63:
b=_buffer.get();
available--;
_length = _length*0x100 + (0xff&b);
if (--_bytesNeeded==0)
{
_bytesNeeded=(int)_length;
if (_length>=_buffer.capacity() && !_fragmentFrames)
{
progress=true;
_handler.close(WebSocketConnectionRFC6455.CLOSE_POLICY_VIOLATION,"frame size "+_length+">"+_buffer.capacity());
_skip=true;
}
_state=_masked?State.MASK:State.PAYLOAD;
_bytesNeeded=_state.getNeeds();
}
continue;
case MASK:
_buffer.get(_mask,0,4);
_m=0;
available-=4;
_state=State.PAYLOAD;
_bytesNeeded=_state.getNeeds();
break;
case PAYLOAD:
_bytesNeeded=(int)_length;
_state=_skip?State.SKIP:State.DATA;
break;
case DATA:
break;
case SKIP:
int skip=Math.min(available,_bytesNeeded);
progress=true;
_buffer.skip(skip);
available-=skip;
_bytesNeeded-=skip;
if (_bytesNeeded==0)
_state=State.START;
break;
case SEEK_EOF:
progress=true;
_buffer.skip(available);
available=0;
break;
}
}
if (_state==State.DATA && available>=_bytesNeeded)
{
if ( _masked!=_shouldBeMasked)
{
_buffer.skip(_bytesNeeded);
_state=State.START;
progress=true;
_handler.close(WebSocketConnectionRFC6455.CLOSE_PROTOCOL,"Not masked");
}
else
{
Buffer data =_buffer.get(_bytesNeeded);
if (_masked)
{
if (data.array()==null)
data=_buffer.asMutableBuffer();
byte[] array = data.array();
final int end=data.putIndex();
for (int i=data.getIndex();i>\n",TypeUtil.toHexString(_flags),TypeUtil.toHexString(_opcode),data.length());
progress=true;
_handler.onFrame(_flags, _opcode, data);
_bytesNeeded=0;
_state=State.START;
}
break;
}
}
return progress?1:filled;
}
/* ------------------------------------------------------------ */
public void fill(Buffer buffer)
{
if (buffer!=null && buffer.length()>0)
{
if (_buffer==null)
_buffer=_buffers.getBuffer();
_buffer.put(buffer);
buffer.clear();
}
}
/* ------------------------------------------------------------ */
public void returnBuffer()
{
if (_buffer!=null && _buffer.length()==0)
{
_buffers.returnBuffer(_buffer);
_buffer=null;
}
}
/* ------------------------------------------------------------ */
@Override
public String toString()
{
return String.format("%s@%x state=%s buffer=%s",
getClass().getSimpleName(),
hashCode(),
_state,
_buffer);
}
}