org.eclipse.jetty.websocket.WebSocket Maven / Gradle / Ivy
//
// ========================================================================
// Copyright (c) 1995-2014 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;
/**
* WebSocket Interface.
*
* This interface provides the signature for a server-side end point of a websocket connection.
* The Interface has several nested interfaces, for each type of message that may be received.
*/
public interface WebSocket
{
/**
* Called when a new websocket connection is accepted.
* @param connection The Connection object to use to send messages.
*/
void onOpen(Connection connection);
/**
* Called when an established websocket connection closes
* @param closeCode
* @param message
*/
void onClose(int closeCode, String message);
/**
* A nested WebSocket interface for receiving text messages
*/
interface OnTextMessage extends WebSocket
{
/**
* Called with a complete text message when all fragments have been received.
* The maximum size of text message that may be aggregated from multiple frames is set with {@link Connection#setMaxTextMessageSize(int)}.
* @param data The message
*/
void onMessage(String data);
}
/**
* A nested WebSocket interface for receiving binary messages
*/
interface OnBinaryMessage extends WebSocket
{
/**
* Called with a complete binary message when all fragments have been received.
* The maximum size of binary message that may be aggregated from multiple frames is set with {@link Connection#setMaxBinaryMessageSize(int)}.
* @param data
* @param offset
* @param length
*/
void onMessage(byte[] data, int offset, int length);
}
/**
* A nested WebSocket interface for receiving control messages
*/
interface OnControl extends WebSocket
{
/**
* Called when a control message has been received.
* @param controlCode
* @param data
* @param offset
* @param length
* @return true if this call has completely handled the control message and no further processing is needed.
*/
boolean onControl(byte controlCode,byte[] data, int offset, int length);
}
/**
* A nested WebSocket interface for receiving any websocket frame
*/
interface OnFrame extends WebSocket
{
/**
* Called when any websocket frame is received.
* @param flags
* @param opcode
* @param data
* @param offset
* @param length
* @return true if this call has completely handled the frame and no further processing is needed (including aggregation and/or message delivery)
*/
boolean onFrame(byte flags,byte opcode,byte[] data, int offset, int length);
void onHandshake(FrameConnection connection);
}
/**
* A Connection interface is passed to a WebSocket instance via the {@link WebSocket#onOpen(Connection)} to
* give the application access to the specifics of the current connection. This includes methods
* for sending frames and messages as well as methods for interpreting the flags and opcodes of the connection.
*/
public interface Connection
{
String getProtocol();
void sendMessage(String data) throws IOException;
void sendMessage(byte[] data, int offset, int length) throws IOException;
/**
* @deprecated Use {@link #close()}
*/
void disconnect();
/**
* Close the connection with normal close code.
*/
void close();
/** Close the connection with specific closeCode and message.
* @param closeCode The close code to send, or -1 for no close code
* @param message The message to send or null for no message
*/
void close(int closeCode,String message);
boolean isOpen();
/**
* @param ms The time in ms that the connection can be idle before closing
*/
void setMaxIdleTime(int ms);
/**
* @param size size<0 No aggregation of frames to messages, >=0 max size of text frame aggregation buffer in characters
*/
void setMaxTextMessageSize(int size);
/**
* @param size size<0 no aggregation of binary frames, >=0 size of binary frame aggregation buffer
*/
void setMaxBinaryMessageSize(int size);
/**
* @return The time in ms that the connection can be idle before closing
*/
int getMaxIdleTime();
/**
* Size in characters of the maximum text message to be received
* @return size <0 No aggregation of frames to messages, >=0 max size of text frame aggregation buffer in characters
*/
int getMaxTextMessageSize();
/**
* Size in bytes of the maximum binary message to be received
* @return size <0 no aggregation of binary frames, >=0 size of binary frame aggregation buffer
*/
int getMaxBinaryMessageSize();
}
/**
* Frame Level Connection
*
The Connection interface at the level of sending/receiving frames rather than messages.
* Also contains methods to decode/generate flags and opcodes without using constants, so that
* code can be written to work with multiple drafts of the protocol.
*
*/
public interface FrameConnection extends Connection
{
/**
* @return The opcode of a binary message
*/
byte binaryOpcode();
/**
* @return The opcode of a text message
*/
byte textOpcode();
/**
* @return The opcode of a continuation frame
*/
byte continuationOpcode();
/**
* @return Mask for the FIN bit.
*/
byte finMask();
/** Set if frames larger than the frame buffer are handled with local fragmentations
* @param allowFragmentation
*/
void setAllowFrameFragmentation(boolean allowFragmentation);
/**
* @param flags The flags bytes of a frame
* @return True of the flags indicate a final frame.
*/
boolean isMessageComplete(byte flags);
/**
* @param opcode
* @return True if the opcode is for a control frame
*/
boolean isControl(byte opcode);
/**
* @param opcode
* @return True if the opcode is for a text frame
*/
boolean isText(byte opcode);
/**
* @param opcode
* @return True if the opcode is for a binary frame
*/
boolean isBinary(byte opcode);
/**
* @param opcode
* @return True if the opcode is for a continuation frame
*/
boolean isContinuation(byte opcode);
/**
* @param opcode
* @return True if the opcode is a close control
*/
boolean isClose(byte opcode);
/**
* @param opcode
* @return True if the opcode is a ping control
*/
boolean isPing(byte opcode);
/**
* @param opcode
* @return True if the opcode is a pong control
*/
boolean isPong(byte opcode);
/**
* @return True if frames larger than the frame buffer are fragmented.
*/
boolean isAllowFrameFragmentation();
/** Send a control frame
* @param control
* @param data
* @param offset
* @param length
* @throws IOException
*/
void sendControl(byte control,byte[] data, int offset, int length) throws IOException;
/** Send an arbitrary frame
* @param flags
* @param opcode
* @param data
* @param offset
* @param length
* @throws IOException
*/
void sendFrame(byte flags,byte opcode,byte[] data, int offset, int length) throws IOException;
}
}