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Voovan is a java framwork and it not depends on any third-party framework.
package org.voovan.http.websocket;
import org.voovan.tools.TByteBuffer;
import org.voovan.tools.log.Logger;
import java.math.BigInteger;
import java.nio.ByteBuffer;
import java.util.Random;
/**
* WebSocket帧解析类
*
* @author helyho
*
* Voovan Framework.
* WebSite: https://github.com/helyho/Voovan
* Licence: Apache v2 License
*/
public class WebSocketFrame {
private boolean fin;
private Opcode opcode;
private boolean transfereMask;
private ByteBuffer frameData;
private int errorCode = 0;
public boolean isFin() {
return fin;
}
public void setFin(boolean fin) {
this.fin = fin;
}
public Opcode getOpcode() {
return opcode;
}
public void setOpcode(Opcode opcode) {
this.opcode = opcode;
}
public int getErrorCode() {
return errorCode;
}
public void setErrorCode(int errorCode) {
this.errorCode = errorCode;
}
public boolean isTransfereMask() {
return transfereMask;
}
public void setTransfereMask(boolean transfereMask) {
this.transfereMask = transfereMask;
}
public ByteBuffer getFrameData() {
return frameData;
}
public void setFrameData(ByteBuffer frameData) {
this.frameData = frameData;
}
/**
* 构建新的实例
* @param fin fin 码
* @param opcode 操作码
* @param mask 掩码
* @param binary 二进制数据
* @param errorCode 错误码
* @return WebSocket 帧对象
*/
public static WebSocketFrame newInstance(boolean fin, Opcode opcode, boolean mask, ByteBuffer binary,int errorCode) {
WebSocketFrame webSocketFrame = new WebSocketFrame();
webSocketFrame.setFin(fin);
webSocketFrame.setOpcode(opcode);
webSocketFrame.setTransfereMask(mask);
webSocketFrame.setFrameData(binary);
webSocketFrame.setErrorCode(errorCode);
return webSocketFrame;
}
/**
* 构建新的实例
* @param fin fin 码
* @param opcode 操作码
* @param mask 掩码
* @param binary 二进制数据
* @return WebSocket 帧
*/
public static WebSocketFrame newInstance(boolean fin, Opcode opcode, boolean mask, ByteBuffer binary) {
WebSocketFrame webSocketFrame = new WebSocketFrame();
webSocketFrame.setFin(fin);
webSocketFrame.setOpcode(opcode);
webSocketFrame.setTransfereMask(mask);
webSocketFrame.setFrameData(binary);
return webSocketFrame;
}
/**
* 解析WebSocket报文
*
* @param byteBuffer 字节缓冲对象
* @return WebSocket 帧对象
*/
public static WebSocketFrame parse(ByteBuffer byteBuffer) {
//如果 byteBuffer 内没有数据则放弃
if(!byteBuffer.hasRemaining()){
return null;
}
int errorCode = 0;
// 接受数据的大小
int maxpacketsize = byteBuffer.remaining();
// 期望数据包的实际大小
int expectPackagesize = 2;
if (maxpacketsize < expectPackagesize) {
Logger.error("Expect package size error!");
errorCode = 1002;
}
byte finByte = byteBuffer.get();
boolean fin = finByte >> 8 != 0;
byte rsv = (byte) ((finByte & ~(byte) 128) >> 4);
if (rsv != 0) {
Logger.error("RSV data error!");
errorCode = 1002;
}
byte maskByte = byteBuffer.get();
boolean mask = (maskByte & -128) != 0;
int payloadlength = (byte) (maskByte & ~(byte) 128);
Opcode opcode = toOpcode((byte) (finByte & 15));
if(opcode == null){
Logger.error("Opcode data error!");
errorCode = 1002;
}
//“负载数据”的长度,以字节为单位:如果 0-125,这是负载长度。
//如果 126, 之后的两字节解释为一个 16 位的无符号整数是负载长度。
//如果 127,之后的 8字节解释为一个 64 位的无符号整数(最高有效位必须是 0)是负载长度。
if (payloadlength == 126) {
expectPackagesize += 2;
byte[] sizebytes = new byte[3];
sizebytes[1] = byteBuffer.get();
sizebytes[2] = byteBuffer.get();
payloadlength = new BigInteger(sizebytes).intValue();
} else if(payloadlength==127) {
expectPackagesize += 8;
byte[] bytes = new byte[8];
for (int i = 0; i < 8; i++) {
bytes[i] = byteBuffer.get();
}
long length = new BigInteger(bytes).longValue();
if (length <= Integer.MAX_VALUE) {
payloadlength = (int) length;
}
}
expectPackagesize += (mask ? 4 : 0);
expectPackagesize += payloadlength;
// 如果实际接受的数据小于数据包的大小则报错
if (maxpacketsize < expectPackagesize) {
Logger.error("Parse package size error!");
}
// 读取实际接受数据
ByteBuffer payload = ByteBuffer.allocateDirect(payloadlength);
if (mask) {
byte[] maskskey = new byte[4];
byteBuffer.get(maskskey);
for (int i = 0; i < payloadlength; i++) {
payload.put((byte) ((byte) byteBuffer.get() ^ (byte) maskskey[i % 4]));
}
} else {
payload.put(byteBuffer);
}
payload.flip();
WebSocketFrame webSocketFrame = WebSocketFrame.newInstance(fin, opcode, mask, payload, errorCode);
return webSocketFrame;
}
/**
* 类型枚举
*
* @author helyho
*
*/
public enum Opcode {
CONTINUOUS, TEXT, BINARY, PING, PONG, CLOSING
}
/**
* 转换 WebSocket 报文类型为枚举类型
*
* @param opcode
* @return
*/
private static Opcode toOpcode(byte opcode) {
switch (opcode) {
case 0:
return Opcode.CONTINUOUS;
case 1:
return Opcode.TEXT;
case 2:
return Opcode.BINARY;
// 3-7 are not yet defined
case 8:
return Opcode.CLOSING;
case 9:
return Opcode.PING;
case 10:
return Opcode.PONG;
default:
return null;
}
}
/**
* opcode转换成 byte
*
* @param opcode 操作码
* @return 字节
*/
private static byte fromOpcode(Opcode opcode) {
if (opcode == Opcode.CONTINUOUS) {
return 0;
}
else if (opcode == Opcode.TEXT) {
return 1;
}
else if (opcode == Opcode.BINARY) {
return 2;
}
else if (opcode == Opcode.CLOSING) {
return 8;
}
else if (opcode == Opcode.PING) {
return 9;
}
else if (opcode == Opcode.PONG) {
return 10;
}
return -1;
}
/**
* 转换 long 为 byte
*
* @param value long 值
* @param bytecount 字节位数
* @return 转换 long 后的 byte
*/
private static byte[] toByteArray(long value, int bytecount) {
byte[] buffer = new byte[bytecount];
int highest = 8 * bytecount - 8;
for (int i = 0; i < bytecount; i++) {
buffer[i] = (byte) (value >>> (highest - 8 * i));
}
return buffer;
}
/**
* 将 WebSocketFrame 转换成 Bytebuffer 供 socket 通信用
*
*
* @return WebSocketFrame 转换后的 Bytebuffer
*/
public ByteBuffer toByteBuffer() {
ByteBuffer data = this.getFrameData();
if(data == null){
data = TByteBuffer.EMPTY_BYTE_BUFFER;
}
boolean mask = this.isTransfereMask();
int sizebytes = data.remaining() <= 125 ? 1 : data.remaining() <= 65535 ? 2 : 8;
ByteBuffer buf = ByteBuffer.allocateDirect(1 + (sizebytes > 1 ? sizebytes + 1 : sizebytes) + (mask ? 4 : 0) + data.remaining());
byte optcode = fromOpcode(this.getOpcode());
byte one = (byte) (this.isFin() ? -128 : 0);
one |= optcode;
buf.put(one);
byte[] payloadlengthbytes = toByteArray(data.remaining(), sizebytes);
if (sizebytes == 1) {
buf.put((byte) ((byte) payloadlengthbytes[0] | (mask ? (byte) -128 : 0)));
} else if (sizebytes == 2) {
buf.put((byte) ((byte) 126 | (mask ? (byte) -128 : 0)));
buf.put(payloadlengthbytes);
} else if (sizebytes == 8) {
buf.put((byte) ((byte) 127 | (mask ? (byte) -128 : 0)));
buf.put(payloadlengthbytes);
} else {
Logger.error("Size representation not supported/specified");
}
if (mask) {
ByteBuffer maskkey = TByteBuffer.allocateDirect(4);
Random reuseableRandom = new Random();
maskkey.putInt(reuseableRandom.nextInt());
maskkey.flip();
buf.put(maskkey);
for (int i = 0; data.hasRemaining(); i++) {
buf.put((byte) (data.get() ^ maskkey.get(i % 4)));
}
TByteBuffer.release(maskkey);
} else{
buf.put(data);
}
buf.flip();
return buf;
}
@Override
public String toString() {
return "Framedata={FIN: " + this.isFin() + " , Mask: " + this.isTransfereMask() + " , OpCode: " + getOpcode() + " , Data: "
+ TByteBuffer.toString(getFrameData())+ "}";
}
}
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