/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSimulator Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.IO;
using System.Security.Cryptography;
using System.Text;
using HttpServer;
namespace OpenSim.Framework.Servers.HttpServer
{
// Sealed class. If you're going to unseal it, implement IDisposable.
///
/// This class implements websockets. It grabs the network context from C#Webserver and utilizes it directly as a tcp streaming service
///
public sealed class WebSocketHttpServerHandler : BaseRequestHandler
{
private class WebSocketState
{
public List ReceivedBytes;
public int ExpectedBytes;
public WebsocketFrameHeader Header;
public bool FrameComplete;
public WebSocketFrame ContinuationFrame;
}
///
/// Binary Data will trigger this event
///
public event DataDelegate OnData;
///
/// Textual Data will trigger this event
///
public event TextDelegate OnText;
///
/// A ping request form the other side will trigger this event.
/// This class responds to the ping automatically. You shouldn't send a pong.
/// it's informational.
///
public event PingDelegate OnPing;
///
/// This is a response to a ping you sent.
///
public event PongDelegate OnPong;
///
/// This is a regular HTTP Request... This may be removed in the future.
///
public event RegularHttpRequestDelegate OnRegularHttpRequest;
///
/// When the upgrade from a HTTP request to a Websocket is completed, this will be fired
///
public event UpgradeCompletedDelegate OnUpgradeCompleted;
///
/// If the upgrade failed, this will be fired
///
public event UpgradeFailedDelegate OnUpgradeFailed;
///
/// When the websocket is closed, this will be fired.
///
public event CloseDelegate OnClose;
///
/// Set this delegate to allow your module to validate the origin of the
/// Websocket request. Primary line of defense against cross site scripting
///
public ValidateHandshake HandshakeValidateMethodOverride = null;
private OSHttpRequest _request;
private HTTPNetworkContext _networkContext;
private IHttpClientContext _clientContext;
private int _pingtime = 0;
private byte[] _buffer;
private int _bufferPosition;
private int _bufferLength;
private bool _closing;
private bool _upgraded;
private int _maxPayloadBytes = 41943040;
private const string HandshakeAcceptText =
"HTTP/1.1 101 Switching Protocols\r\n" +
"upgrade: websocket\r\n" +
"Connection: Upgrade\r\n" +
"sec-websocket-accept: {0}\r\n\r\n";// +
//"{1}";
private const string HandshakeDeclineText =
"HTTP/1.1 {0} {1}\r\n" +
"Connection: close\r\n\r\n";
///
/// Mysterious constant defined in RFC6455 to append to the client provided security key
///
private const string WebsocketHandshakeAcceptHashConstant = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
public WebSocketHttpServerHandler(OSHttpRequest preq, IHttpClientContext pContext, int bufferlen)
: base(preq.HttpMethod, preq.Url.OriginalString)
{
_request = preq;
_networkContext = pContext.GiveMeTheNetworkStreamIKnowWhatImDoing();
_clientContext = pContext;
_bufferLength = bufferlen;
_buffer = new byte[_bufferLength];
}
// Sealed class implments destructor and an internal dispose method. complies with C# unmanaged resource best practices.
~WebSocketHttpServerHandler()
{
Dispose();
}
///
/// Sets the length of the stream buffer
///
/// Byte length.
public void SetChunksize(int pChunk)
{
if (!_upgraded)
{
_buffer = new byte[pChunk];
}
else
{
throw new InvalidOperationException("You must set the chunksize before the connection is upgraded");
}
}
///
/// This is the famous nagle.
///
public bool NoDelay_TCP_Nagle
{
get
{
if (_networkContext != null && _networkContext.Socket != null)
{
return _networkContext.Socket.NoDelay;
}
else
{
throw new InvalidOperationException("The socket has been shutdown");
}
}
set
{
if (_networkContext != null && _networkContext.Socket != null)
_networkContext.Socket.NoDelay = value;
else
{
throw new InvalidOperationException("The socket has been shutdown");
}
}
}
///
/// This triggers the websocket to start the upgrade process...
/// This is a Generalized Networking 'common sense' helper method. Some people expect to call Start() instead
/// of the more context appropriate HandshakeAndUpgrade()
///
public void Start()
{
HandshakeAndUpgrade();
}
///
/// Max Payload Size in bytes. Defaults to 40MB, but could be set upon connection before calling handshake and upgrade.
///
public int MaxPayloadSize
{
get { return _maxPayloadBytes; }
set { _maxPayloadBytes = value; }
}
///
/// This triggers the websocket start the upgrade process
///
public void HandshakeAndUpgrade()
{
string webOrigin = string.Empty;
string websocketKey = string.Empty;
string acceptKey = string.Empty;
string accepthost = string.Empty;
if (!string.IsNullOrEmpty(_request.Headers["origin"]))
webOrigin = _request.Headers["origin"];
if (!string.IsNullOrEmpty(_request.Headers["sec-websocket-key"]))
websocketKey = _request.Headers["sec-websocket-key"];
if (!string.IsNullOrEmpty(_request.Headers["host"]))
accepthost = _request.Headers["host"];
if (string.IsNullOrEmpty(_request.Headers["upgrade"]))
{
FailUpgrade(OSHttpStatusCode.ClientErrorBadRequest, "no upgrade request submitted");
}
string connectionheader = _request.Headers["upgrade"];
if (connectionheader.ToLower() != "websocket")
{
FailUpgrade(OSHttpStatusCode.ClientErrorBadRequest, "no connection upgrade request submitted");
}
// If the object consumer provided a method to validate the origin, we should call it and give the client a success or fail.
// If not.. we should accept any. The assumption here is that there would be no Websocket handlers registered in baseHTTPServer unless
// Something asked for it...
if (HandshakeValidateMethodOverride != null)
{
if (HandshakeValidateMethodOverride(webOrigin, websocketKey, accepthost))
{
acceptKey = GenerateAcceptKey(websocketKey);
string rawaccept = string.Format(HandshakeAcceptText, acceptKey);
SendUpgradeSuccess(rawaccept);
}
else
{
FailUpgrade(OSHttpStatusCode.ClientErrorForbidden, "Origin Validation Failed");
}
}
else
{
acceptKey = GenerateAcceptKey(websocketKey);
string rawaccept = string.Format(HandshakeAcceptText, acceptKey);
SendUpgradeSuccess(rawaccept);
}
}
///
/// Generates a handshake response key string based on the client's
/// provided key to prove to the client that we're allowing the Websocket
/// upgrade of our own free will and we were not coerced into doing it.
///
/// Client provided security key
///
private static string GenerateAcceptKey(string key)
{
if (string.IsNullOrEmpty(key))
return string.Empty;
string acceptkey = key + WebsocketHandshakeAcceptHashConstant;
SHA1 hashobj = SHA1.Create();
string ret = Convert.ToBase64String(hashobj.ComputeHash(Encoding.UTF8.GetBytes(acceptkey)));
hashobj.Clear();
return ret;
}
///
/// Informs the otherside that we accepted their upgrade request
///
/// The HTTP 1.1 101 response that says Yay \o/
private void SendUpgradeSuccess(string pHandshakeResponse)
{
// Create a new websocket state so we can keep track of data in between network reads.
WebSocketState socketState = new WebSocketState() { ReceivedBytes = new List(), Header = WebsocketFrameHeader.HeaderDefault(), FrameComplete = true};
byte[] bhandshakeResponse = Encoding.UTF8.GetBytes(pHandshakeResponse);
try
{
// Begin reading the TCP stream before writing the Upgrade success message to the other side of the stream.
_networkContext.Stream.BeginRead(_buffer, 0, _bufferLength, OnReceive, socketState);
// Write the upgrade handshake success message
_networkContext.Stream.Write(bhandshakeResponse, 0, bhandshakeResponse.Length);
_networkContext.Stream.Flush();
_upgraded = true;
UpgradeCompletedDelegate d = OnUpgradeCompleted;
if (d != null)
d(this, new UpgradeCompletedEventArgs());
}
catch (IOException fail)
{
Close(string.Empty);
}
catch (ObjectDisposedException fail)
{
Close(string.Empty);
}
}
///
/// The server has decided not to allow the upgrade to a websocket for some reason. The Http 1.1 response that says Nay >:(
///
/// HTTP Status reflecting the reason why
/// Textual reason for the upgrade fail
private void FailUpgrade(OSHttpStatusCode pCode, string pMessage )
{
string handshakeResponse = string.Format(HandshakeDeclineText, (int)pCode, pMessage.Replace("\n", string.Empty).Replace("\r", string.Empty));
byte[] bhandshakeResponse = Encoding.UTF8.GetBytes(handshakeResponse);
_networkContext.Stream.Write(bhandshakeResponse, 0, bhandshakeResponse.Length);
_networkContext.Stream.Flush();
_networkContext.Stream.Dispose();
UpgradeFailedDelegate d = OnUpgradeFailed;
if (d != null)
d(this,new UpgradeFailedEventArgs());
}
///
/// This is our ugly Async OnReceive event handler.
/// This chunks the input stream based on the length of the provided buffer and processes out
/// as many frames as it can. It then moves the unprocessed data to the beginning of the buffer.
///
/// Our Async State from beginread
private void OnReceive(IAsyncResult ar)
{
WebSocketState _socketState = ar.AsyncState as WebSocketState;
try
{
int bytesRead = _networkContext.Stream.EndRead(ar);
if (bytesRead == 0)
{
// Do Disconnect
_networkContext.Stream.Dispose();
_networkContext = null;
return;
}
_bufferPosition += bytesRead;
if (_bufferPosition > _bufferLength)
{
// Message too big for chunksize.. not sure how this happened...
//Close(string.Empty);
}
int offset = 0;
bool headerread = true;
int headerforwardposition = 0;
while (headerread && offset < bytesRead)
{
if (_socketState.FrameComplete)
{
WebsocketFrameHeader pheader = WebsocketFrameHeader.ZeroHeader;
headerread = WebSocketReader.TryReadHeader(_buffer, offset, _bufferPosition - offset, out pheader,
out headerforwardposition);
offset += headerforwardposition;
if (headerread)
{
_socketState.FrameComplete = false;
if (pheader.PayloadLen > (ulong) _maxPayloadBytes)
{
Close("Invalid Payload size");
return;
}
if (pheader.PayloadLen > 0)
{
if ((int) pheader.PayloadLen > _bufferPosition - offset)
{
byte[] writebytes = new byte[_bufferPosition - offset];
Buffer.BlockCopy(_buffer, offset, writebytes, 0, (int) _bufferPosition - offset);
_socketState.ExpectedBytes = (int) pheader.PayloadLen;
_socketState.ReceivedBytes.AddRange(writebytes);
_socketState.Header = pheader; // We need to add the header so that we can unmask it
offset += (int) _bufferPosition - offset;
}
else
{
byte[] writebytes = new byte[pheader.PayloadLen];
Buffer.BlockCopy(_buffer, offset, writebytes, 0, (int) pheader.PayloadLen);
WebSocketReader.Mask(pheader.Mask, writebytes);
pheader.IsMasked = false;
_socketState.FrameComplete = true;
_socketState.ReceivedBytes.AddRange(writebytes);
_socketState.Header = pheader;
offset += (int) pheader.PayloadLen;
}
}
else
{
pheader.Mask = 0;
_socketState.FrameComplete = true;
_socketState.Header = pheader;
}
if (_socketState.FrameComplete)
{
ProcessFrame(_socketState);
_socketState.Header.SetDefault();
_socketState.ReceivedBytes.Clear();
_socketState.ExpectedBytes = 0;
}
}
}
else
{
WebsocketFrameHeader frameHeader = _socketState.Header;
int bytesleft = _socketState.ExpectedBytes - _socketState.ReceivedBytes.Count;
if (bytesleft > _bufferPosition)
{
byte[] writebytes = new byte[_bufferPosition];
Buffer.BlockCopy(_buffer, offset, writebytes, 0, (int) _bufferPosition);
_socketState.ReceivedBytes.AddRange(writebytes);
_socketState.Header = frameHeader; // We need to add the header so that we can unmask it
offset += (int) _bufferPosition;
}
else
{
byte[] writebytes = new byte[_bufferPosition];
Buffer.BlockCopy(_buffer, offset, writebytes, 0, (int) _bufferPosition);
_socketState.FrameComplete = true;
_socketState.ReceivedBytes.AddRange(writebytes);
_socketState.Header = frameHeader;
offset += (int) _bufferPosition;
}
if (_socketState.FrameComplete)
{
ProcessFrame(_socketState);
_socketState.Header.SetDefault();
_socketState.ReceivedBytes.Clear();
_socketState.ExpectedBytes = 0;
// do some processing
}
}
}
if (offset > 0)
{
// If the buffer is maxed out.. we can just move the cursor. Nothing to move to the beginning.
if (offset <_buffer.Length)
Buffer.BlockCopy(_buffer, offset, _buffer, 0, _bufferPosition - offset);
_bufferPosition -= offset;
}
if (_networkContext.Stream != null && _networkContext.Stream.CanRead && !_closing)
{
_networkContext.Stream.BeginRead(_buffer, _bufferPosition, _bufferLength - _bufferPosition, OnReceive,
_socketState);
}
else
{
// We can't read the stream anymore...
}
}
catch (IOException fail)
{
Close(string.Empty);
}
catch (ObjectDisposedException fail)
{
Close(string.Empty);
}
}
///
/// Sends a string to the other side
///
/// the string message that is to be sent
public void SendMessage(string message)
{
byte[] messagedata = Encoding.UTF8.GetBytes(message);
WebSocketFrame textMessageFrame = new WebSocketFrame() { Header = WebsocketFrameHeader.HeaderDefault(), WebSocketPayload = messagedata };
textMessageFrame.Header.Opcode = WebSocketReader.OpCode.Text;
textMessageFrame.Header.IsEnd = true;
SendSocket(textMessageFrame.ToBytes());
}
public void SendData(byte[] data)
{
WebSocketFrame dataMessageFrame = new WebSocketFrame() { Header = WebsocketFrameHeader.HeaderDefault(), WebSocketPayload = data};
dataMessageFrame.Header.IsEnd = true;
dataMessageFrame.Header.Opcode = WebSocketReader.OpCode.Binary;
SendSocket(dataMessageFrame.ToBytes());
}
///
/// Writes raw bytes to the websocket. Unframed data will cause disconnection
///
///
private void SendSocket(byte[] data)
{
if (!_closing)
{
try
{
_networkContext.Stream.Write(data, 0, data.Length);
}
catch (IOException)
{
}
}
}
///
/// Sends a Ping check to the other side. The other side SHOULD respond as soon as possible with a pong frame. This interleaves with incoming fragmented frames.
///
public void SendPingCheck()
{
WebSocketFrame pingFrame = new WebSocketFrame() { Header = WebsocketFrameHeader.HeaderDefault(), WebSocketPayload = new byte[0] };
pingFrame.Header.Opcode = WebSocketReader.OpCode.Ping;
pingFrame.Header.IsEnd = true;
_pingtime = Util.EnvironmentTickCount();
SendSocket(pingFrame.ToBytes());
}
///
/// Closes the websocket connection. Sends a close message to the other side if it hasn't already done so.
///
///
public void Close(string message)
{
if (_networkContext == null)
return;
if (_networkContext.Stream != null)
{
if (_networkContext.Stream.CanWrite)
{
byte[] messagedata = Encoding.UTF8.GetBytes(message);
WebSocketFrame closeResponseFrame = new WebSocketFrame()
{
Header = WebsocketFrameHeader.HeaderDefault(),
WebSocketPayload = messagedata
};
closeResponseFrame.Header.Opcode = WebSocketReader.OpCode.Close;
closeResponseFrame.Header.PayloadLen = (ulong) messagedata.Length;
closeResponseFrame.Header.IsEnd = true;
SendSocket(closeResponseFrame.ToBytes());
}
}
CloseDelegate closeD = OnClose;
if (closeD != null)
{
closeD(this, new CloseEventArgs());
}
_closing = true;
}
///
/// Processes a websocket frame and triggers consumer events
///
/// We need to modify the websocket state here depending on the frame
private void ProcessFrame(WebSocketState psocketState)
{
if (psocketState.Header.IsMasked)
{
byte[] unmask = psocketState.ReceivedBytes.ToArray();
WebSocketReader.Mask(psocketState.Header.Mask, unmask);
psocketState.ReceivedBytes = new List(unmask);
}
switch (psocketState.Header.Opcode)
{
case WebSocketReader.OpCode.Ping:
PingDelegate pingD = OnPing;
if (pingD != null)
{
pingD(this, new PingEventArgs());
}
WebSocketFrame pongFrame = new WebSocketFrame(){Header = WebsocketFrameHeader.HeaderDefault(),WebSocketPayload = new byte[0]};
pongFrame.Header.Opcode = WebSocketReader.OpCode.Pong;
pongFrame.Header.IsEnd = true;
SendSocket(pongFrame.ToBytes());
break;
case WebSocketReader.OpCode.Pong:
PongDelegate pongD = OnPong;
if (pongD != null)
{
pongD(this, new PongEventArgs(){PingResponseMS = Util.EnvironmentTickCountSubtract(Util.EnvironmentTickCount(),_pingtime)});
}
break;
case WebSocketReader.OpCode.Binary:
if (!psocketState.Header.IsEnd) // Not done, so we need to store this and wait for the end frame.
{
psocketState.ContinuationFrame = new WebSocketFrame
{
Header = psocketState.Header,
WebSocketPayload =
psocketState.ReceivedBytes.ToArray()
};
}
else
{
// Send Done Event!
DataDelegate dataD = OnData;
if (dataD != null)
{
dataD(this,new WebsocketDataEventArgs(){Data = psocketState.ReceivedBytes.ToArray()});
}
}
break;
case WebSocketReader.OpCode.Text:
if (!psocketState.Header.IsEnd) // Not done, so we need to store this and wait for the end frame.
{
psocketState.ContinuationFrame = new WebSocketFrame
{
Header = psocketState.Header,
WebSocketPayload =
psocketState.ReceivedBytes.ToArray()
};
}
else
{
TextDelegate textD = OnText;
if (textD != null)
{
textD(this, new WebsocketTextEventArgs() { Data = Encoding.UTF8.GetString(psocketState.ReceivedBytes.ToArray()) });
}
// Send Done Event!
}
break;
case WebSocketReader.OpCode.Continue: // Continuation. Multiple frames worth of data for one message. Only valid when not using Control Opcodes
//Console.WriteLine("currhead " + psocketState.Header.IsEnd);
//Console.WriteLine("Continuation! " + psocketState.ContinuationFrame.Header.IsEnd);
byte[] combineddata = new byte[psocketState.ReceivedBytes.Count+psocketState.ContinuationFrame.WebSocketPayload.Length];
byte[] newdata = psocketState.ReceivedBytes.ToArray();
Buffer.BlockCopy(psocketState.ContinuationFrame.WebSocketPayload, 0, combineddata, 0, psocketState.ContinuationFrame.WebSocketPayload.Length);
Buffer.BlockCopy(newdata, 0, combineddata,
psocketState.ContinuationFrame.WebSocketPayload.Length, newdata.Length);
psocketState.ContinuationFrame.WebSocketPayload = combineddata;
psocketState.Header.PayloadLen = (ulong)combineddata.Length;
if (psocketState.Header.IsEnd)
{
if (psocketState.ContinuationFrame.Header.Opcode == WebSocketReader.OpCode.Text)
{
// Send Done event
TextDelegate textD = OnText;
if (textD != null)
{
textD(this, new WebsocketTextEventArgs() { Data = Encoding.UTF8.GetString(combineddata) });
}
}
else if (psocketState.ContinuationFrame.Header.Opcode == WebSocketReader.OpCode.Binary)
{
// Send Done event
DataDelegate dataD = OnData;
if (dataD != null)
{
dataD(this, new WebsocketDataEventArgs() { Data = combineddata });
}
}
else
{
// protocol violation
}
psocketState.ContinuationFrame = null;
}
break;
case WebSocketReader.OpCode.Close:
Close(string.Empty);
break;
}
psocketState.Header.SetDefault();
psocketState.ReceivedBytes.Clear();
psocketState.ExpectedBytes = 0;
}
public void Dispose()
{
if (_networkContext != null && _networkContext.Stream != null)
{
if (_networkContext.Stream.CanWrite)
_networkContext.Stream.Flush();
_networkContext.Stream.Close();
_networkContext.Stream.Dispose();
_networkContext.Stream = null;
}
if (_request != null && _request.InputStream != null)
{
_request.InputStream.Close();
_request.InputStream.Dispose();
_request = null;
}
if (_clientContext != null)
{
_clientContext.Close();
_clientContext = null;
}
}
}
///
/// Reads a byte stream and returns Websocket frames.
///
public class WebSocketReader
{
///
/// Bit to determine if the frame read on the stream is the last frame in a sequence of fragmented frames
///
private const byte EndBit = 0x80;
///
/// These are the Frame Opcodes
///
public enum OpCode
{
// Data Opcodes
Continue = 0x0,
Text = 0x1,
Binary = 0x2,
// Control flow Opcodes
Close = 0x8,
Ping = 0x9,
Pong = 0xA
}
///
/// Masks and Unmasks data using the frame mask. Mask is applied per octal
/// Note: Frames from clients MUST be masked
/// Note: Frames from servers MUST NOT be masked
///
/// Int representing 32 bytes of mask data. Mask is applied per octal
///
public static void Mask(int pMask, byte[] pBuffer)
{
byte[] maskKey = BitConverter.GetBytes(pMask);
int currentMaskIndex = 0;
for (int i = 0; i < pBuffer.Length; i++)
{
pBuffer[i] = (byte)(pBuffer[i] ^ maskKey[currentMaskIndex]);
if (currentMaskIndex == 3)
{
currentMaskIndex = 0;
}
else
{
currentMaskIndex++;
}
}
}
///
/// Attempts to read a header off the provided buffer. Returns true, exports a WebSocketFrameheader,
/// and an int to move the buffer forward when it reads a header. False when it can't read a header
///
/// Bytes read from the stream
/// Starting place in the stream to begin trying to read from
/// Lenth in the stream to try and read from. Provided for cases where the
/// buffer's length is larger then the data in it
/// Outputs the read WebSocket frame header
/// Informs the calling stream to move the buffer forward
/// True if it got a header, False if it didn't get a header
public static bool TryReadHeader(byte[] pBuffer, int pOffset, int length, out WebsocketFrameHeader oHeader,
out int moveBuffer)
{
oHeader = WebsocketFrameHeader.ZeroHeader;
int minumheadersize = 2;
if (length > pBuffer.Length - pOffset)
throw new ArgumentOutOfRangeException("The Length specified was larger the byte array supplied");
if (length < minumheadersize)
{
moveBuffer = 0;
return false;
}
byte nibble1 = (byte)(pBuffer[pOffset] & 0xF0); //FIN/RSV1/RSV2/RSV3
byte nibble2 = (byte)(pBuffer[pOffset] & 0x0F); // Opcode block
oHeader = new WebsocketFrameHeader();
oHeader.SetDefault();
if ((nibble1 & WebSocketReader.EndBit) == WebSocketReader.EndBit)
{
oHeader.IsEnd = true;
}
else
{
oHeader.IsEnd = false;
}
//Opcode
oHeader.Opcode = (WebSocketReader.OpCode)nibble2;
//Mask
oHeader.IsMasked = Convert.ToBoolean((pBuffer[pOffset + 1] & 0x80) >> 7);
// Payload length
oHeader.PayloadLen = (byte)(pBuffer[pOffset + 1] & 0x7F);
int index = 2; // LargerPayload length starts at byte 3
switch (oHeader.PayloadLen)
{
case 126:
minumheadersize += 2;
if (length < minumheadersize)
{
moveBuffer = 0;
return false;
}
Array.Reverse(pBuffer, pOffset + index, 2); // two bytes
oHeader.PayloadLen = BitConverter.ToUInt16(pBuffer, pOffset + index);
index += 2;
break;
case 127: // we got more this is a bigger frame
// 8 bytes - uint64 - most significant bit 0 network byte order
minumheadersize += 8;
if (length < minumheadersize)
{
moveBuffer = 0;
return false;
}
Array.Reverse(pBuffer, pOffset + index, 8);
oHeader.PayloadLen = BitConverter.ToUInt64(pBuffer, pOffset + index);
index += 8;
break;
}
//oHeader.PayloadLeft = oHeader.PayloadLen; // Start the count in case it's chunked over the network. This is different then frame fragmentation
if (oHeader.IsMasked)
{
minumheadersize += 4;
if (length < minumheadersize)
{
moveBuffer = 0;
return false;
}
oHeader.Mask = BitConverter.ToInt32(pBuffer, pOffset + index);
index += 4;
}
moveBuffer = index;
return true;
}
}
///
/// RFC6455 Websocket Frame
///
public class WebSocketFrame
{
/*
* RFC6455
nib 0 1 2 3 4 5 6 7
byt 0 1 2 3
dec 0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-------+-+-------------+-------------------------------+
|F|R|R|R| opcode|M| Payload len | Extended payload length |
|I|S|S|S| (4) |A| (7) | (16/64) +
|N|V|V|V| |S| | (if payload len==126/127) |
| |1|2|3| |K| | +
+-+-+-+-+-------+-+-------------+ - - - - - - - - - - - - - - - +
| Extended payload length continued, if payload len == 127 |
+ - - - - - - - - - - - - - - - +-------------------------------+
| |Masking-key, if MASK set to 1 |
+-------------------------------+-------------------------------+
| Masking-key (continued) | Payload Data |
+-------------------------------- - - - - - - - - - - - - - - - +
: Payload Data continued ... :
+ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - +
| Payload Data continued ... |
+---------------------------------------------------------------+
* When reading these, the frames are possibly fragmented and interleaved with control frames
* the fragmented frames are not interleaved with data frames. Just control frames
*/
public static readonly WebSocketFrame DefaultFrame = new WebSocketFrame(){Header = new WebsocketFrameHeader(),WebSocketPayload = new byte[0]};
public WebsocketFrameHeader Header;
public byte[] WebSocketPayload;
public byte[] ToBytes()
{
Header.PayloadLen = (ulong)WebSocketPayload.Length;
return Header.ToBytes(WebSocketPayload);
}
}
public struct WebsocketFrameHeader
{
//public byte CurrentMaskIndex;
///
/// The last frame in a sequence of fragmented frames or the one and only frame for this message.
///
public bool IsEnd;
///
/// Returns whether the payload data is masked or not. Data from Clients MUST be masked, Data from Servers MUST NOT be masked
///
public bool IsMasked;
///
/// A set of cryptologically sound random bytes XoR-ed against the payload octally. Looped
///
public int Mask;
/*
byt 0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+---------------+---------------+
| Octal 1 | Octal 2 | Octal 3 | Octal 4 |
+---------------+---------------+---------------+---------------+
*/
public WebSocketReader.OpCode Opcode;
public UInt64 PayloadLen;
//public UInt64 PayloadLeft;
// Payload is X + Y
//public UInt64 ExtensionDataLength;
//public UInt64 ApplicationDataLength;
public static readonly WebsocketFrameHeader ZeroHeader = WebsocketFrameHeader.HeaderDefault();
public void SetDefault()
{
//CurrentMaskIndex = 0;
IsEnd = true;
IsMasked = true;
Mask = 0;
Opcode = WebSocketReader.OpCode.Close;
// PayloadLeft = 0;
PayloadLen = 0;
// ExtensionDataLength = 0;
// ApplicationDataLength = 0;
}
///
/// Returns a byte array representing the Frame header
///
/// This is the frame data payload. The header describes the size of the payload.
/// If payload is null, a Zero sized payload is assumed
/// Returns a byte array representing the frame header
public byte[] ToBytes(byte[] payload)
{
List result = new List();
// Squeeze in our opcode and our ending bit.
result.Add((byte)((byte)Opcode | (IsEnd?0x80:0x00) ));
// Again with the three different byte interpretations of size..
//bytesize
if (PayloadLen <= 125)
{
result.Add((byte) PayloadLen);
} //Uint16
else if (PayloadLen <= ushort.MaxValue)
{
result.Add(126);
byte[] payloadLengthByte = BitConverter.GetBytes(Convert.ToUInt16(PayloadLen));
Array.Reverse(payloadLengthByte);
result.AddRange(payloadLengthByte);
} //UInt64
else
{
result.Add(127);
byte[] payloadLengthByte = BitConverter.GetBytes(PayloadLen);
Array.Reverse(payloadLengthByte);
result.AddRange(payloadLengthByte);
}
// Only add a payload if it's not null
if (payload != null)
{
result.AddRange(payload);
}
return result.ToArray();
}
///
/// A Helper method to define the defaults
///
///
public static WebsocketFrameHeader HeaderDefault()
{
return new WebsocketFrameHeader
{
//CurrentMaskIndex = 0,
IsEnd = false,
IsMasked = true,
Mask = 0,
Opcode = WebSocketReader.OpCode.Close,
//PayloadLeft = 0,
PayloadLen = 0,
// ExtensionDataLength = 0,
// ApplicationDataLength = 0
};
}
}
public delegate void DataDelegate(object sender, WebsocketDataEventArgs data);
public delegate void TextDelegate(object sender, WebsocketTextEventArgs text);
public delegate void PingDelegate(object sender, PingEventArgs pingdata);
public delegate void PongDelegate(object sender, PongEventArgs pongdata);
public delegate void RegularHttpRequestDelegate(object sender, RegularHttpRequestEvnetArgs request);
public delegate void UpgradeCompletedDelegate(object sender, UpgradeCompletedEventArgs completeddata);
public delegate void UpgradeFailedDelegate(object sender, UpgradeFailedEventArgs faileddata);
public delegate void CloseDelegate(object sender, CloseEventArgs closedata);
public delegate bool ValidateHandshake(string pWebOrigin, string pWebSocketKey, string pHost);
public class WebsocketDataEventArgs : EventArgs
{
public byte[] Data;
}
public class WebsocketTextEventArgs : EventArgs
{
public string Data;
}
public class PingEventArgs : EventArgs
{
///
/// The ping event can arbitrarily contain data
///
public byte[] Data;
}
public class PongEventArgs : EventArgs
{
///
/// The pong event can arbitrarily contain data
///
public byte[] Data;
public int PingResponseMS;
}
public class RegularHttpRequestEvnetArgs : EventArgs
{
}
public class UpgradeCompletedEventArgs : EventArgs
{
}
public class UpgradeFailedEventArgs : EventArgs
{
}
public class CloseEventArgs : EventArgs
{
}
}