public void KeepConnectionAlive()
{
uint dwServerKeepAliveTimeout = MuleApplication.Instance.Preference.ServerKeepAliveTimeout;
if (dwServerKeepAliveTimeout > 0 &&
IsConnected &&
connectedSocket_ != null &&
connectedSocket_.ConnectionState == ConnectionStateEnum.CS_CONNECTED &&
MpdUtilities.GetTickCount() - connectedSocket_.LastTransmission >= dwServerKeepAliveTimeout)
{
// "Ping" the server if the TCP connection was not used for the specified interval with
// an empty publish files packet . recommended by lugdunummaster himself!
SafeMemFile files = MpdObjectManager.CreateSafeMemFile(4);
files.WriteUInt32(0); // nr. of files
Packet packet = MuleApplication.Instance.NetworkObjectManager.CreatePacket(files);
packet.OperationCode = OperationCodeEnum.OP_OFFERFILES;
MuleApplication.Instance.Statistics.AddUpDataOverheadServer(packet.Size);
connectedSocket_.SendPacket(packet, true);
}
}
protected void SaveList()
{
lastSaved_ = MpdUtilities.GetTickCount();
string name =
System.IO.Path.Combine(MuleApplication.Instance.Preference.GetMuleDirectory(Mule.Preference.DefaultDirectoryEnum.EMULE_CONFIGDIR),
CLIENTS_MET_FILENAME);
try
{
using (FileStream file = new FileStream(name, FileMode.Create, FileAccess.Write, FileShare.None))
{
int count = clients_.Count;
SafeMemFile memfile =
MpdObjectManager.CreateSafeMemFile(count * (16 + 5 * 4 + 1 * 2 + 1 + CreditStruct.MAXPUBKEYSIZE));
memfile.WriteUInt8((byte)VersionsEnum.CREDITFILE_VERSION);
Dictionary <MapCKey, ClientCredits> .Enumerator pos = clients_.GetEnumerator();
count = 0;
while (pos.MoveNext())
{
ClientCredits cur_credit = pos.Current.Value;
if (cur_credit.GetUploadedTotal() != 0 || cur_credit.GetDownloadedTotal() != 0)
{
WriteCreditStruct(memfile, cur_credit.DataStruct);
count++;
}
}
memfile.WriteUInt32((uint)count);
file.Write(memfile.Buffer, 0, (int)memfile.Length);
file.Flush();
file.Close();
memfile.Close();
}
}
catch (Exception error)
{
MpdUtilities.DebugLogError(error);
}
}
private bool ProcessPacket(byte[] buffer, int offset, int size, uint opcode, uint nIP, ushort nUDPPort)
{
try
{
MuleApplication.Instance.Statistics.AddDownDataOverheadServer((uint)size);
ED2KServer pServer = MuleApplication.Instance.ServerList.GetServerByIPUDP(nIP, nUDPPort, true);
if (pServer != null)
{
pServer.ResetFailedCount();
}
switch ((OperationCodeEnum)opcode)
{
case OperationCodeEnum.OP_GLOBSEARCHRES:
{
SafeMemFile data = MpdObjectManager.CreateSafeMemFile(buffer, size);
// process all search result packets
int iLeft;
do
{
uint uResultCount = MuleApplication.Instance.SearchList.ProcessUDPSearchAnswer(data, true /*pServer.GetUnicodeSupport()*/, nIP, nUDPPort - 4);
// check if there is another source packet
iLeft = (int)(data.Length - data.Position);
if (iLeft >= 2)
{
byte protocol = data.ReadUInt8();
iLeft--;
if (protocol != MuleConstants.PROTOCOL_EDONKEYPROT)
{
data.Seek(-1, System.IO.SeekOrigin.Current);
iLeft += 1;
break;
}
byte opcode1 = data.ReadUInt8();
iLeft--;
if (opcode1 != (byte)OperationCodeEnum.OP_GLOBSEARCHRES)
{
data.Seek(-2, System.IO.SeekOrigin.Current);
iLeft += 2;
break;
}
}
}while (iLeft > 0);
break;
}
case OperationCodeEnum.OP_GLOBFOUNDSOURCES:
{
SafeMemFile data = MpdObjectManager.CreateSafeMemFile(buffer, size);
// process all source packets
int iLeft;
do
{
byte[] fileid = new byte[16];
data.ReadHash16(fileid);
PartFile file = MuleApplication.Instance.DownloadQueue.GetFileByID(fileid);
if (file != null)
{
file.AddSources(data, nIP, (ushort)(nUDPPort - 4), false);
}
else
{
// skip sources for that file
uint count = data.ReadUInt8();
data.Seek(count * (4 + 2), System.IO.SeekOrigin.Current);
}
// check if there is another source packet
iLeft = (int)(data.Length - data.Position);
if (iLeft >= 2)
{
byte protocol = data.ReadUInt8();
iLeft--;
if (protocol != MuleConstants.PROTOCOL_EDONKEYPROT)
{
data.Seek(-1, System.IO.SeekOrigin.Current);
iLeft += 1;
break;
}
byte opcode1 = data.ReadUInt8();
iLeft--;
if (opcode1 != (byte)OperationCodeEnum.OP_GLOBFOUNDSOURCES)
{
data.Seek(-2, System.IO.SeekOrigin.Current);
iLeft += 2;
break;
}
}
}while (iLeft > 0);
break;
}
case OperationCodeEnum.OP_GLOBSERVSTATRES:
{
if (size < 12 || pServer == null)
{
return(true);
}
uint challenge = BitConverter.ToUInt32(buffer, 0);
if (challenge != pServer.Challenge)
{
return(true);
}
if (pServer != null)
{
pServer.Challenge = 0;
pServer.CryptPingReplyPending = false;
uint tNow = MpdUtilities.Time();
Random rand = new Random();
// if we used Obfuscated ping, we still need to reset the time properly
pServer.LastPingedTime =
Convert.ToUInt32(tNow - (rand.Next() % MuleConstants.ONE_HOUR_SEC));
}
uint cur_user = BitConverter.ToUInt32(buffer, 4);
uint cur_files = BitConverter.ToUInt32(buffer, 8);
uint cur_maxusers = 0;
uint cur_softfiles = 0;
uint cur_hardfiles = 0;
uint uUDPFlags = 0;
uint uLowIDUsers = 0;
uint dwServerUDPKey = 0;
ushort nTCPObfuscationPort = 0;
ushort nUDPObfuscationPort = 0;
if (size >= 16)
{
cur_maxusers = BitConverter.ToUInt32(buffer, 12);
}
if (size >= 24)
{
cur_softfiles = BitConverter.ToUInt32(buffer, 16);
cur_hardfiles = BitConverter.ToUInt32(buffer, 20);
}
if (size >= 28)
{
uUDPFlags = BitConverter.ToUInt32(buffer, 24);
}
if (size >= 32)
{
uLowIDUsers = BitConverter.ToUInt32(buffer, 28);
}
if (size >= 40)
{
// TODO debug check if this packet was encrypted if it has a key
nUDPObfuscationPort = BitConverter.ToUInt16(buffer, 32);
nTCPObfuscationPort = BitConverter.ToUInt16(buffer, 34);;
dwServerUDPKey = BitConverter.ToUInt32(buffer, 36);
}
if (pServer != null)
{
pServer.Ping = MpdUtilities.GetTickCount() - pServer.LastPinged;
pServer.UserCount = cur_user;
pServer.FileCount = cur_files;
pServer.MaxUsers = cur_maxusers;
pServer.SoftFiles = cur_softfiles;
pServer.HardFiles = cur_hardfiles;
pServer.ServerKeyUDP = dwServerUDPKey;
pServer.ObfuscationPortTCP = nTCPObfuscationPort;
pServer.ObfuscationPortUDP = nUDPObfuscationPort;
// if the received UDP flags do not match any already stored UDP flags,
// reset the server version string because the version (which was determined by last connecting to
// that server) is most likely not accurat any longer.
// this may also give 'false' results because we don't know the UDP flags when connecting to a server
// with TCP.
//if (pServer.GetUDPFlags() != uUDPFlags)
// pServer.Version(_T = "");
pServer.UDPFlags = (ED2KServerUdpFlagsEnum)uUDPFlags;
pServer.LowIDUsers = uLowIDUsers;
pServer.SetLastDescPingedCount(false);
if (pServer.LastDescPingedCount < 2)
{
// eserver 16.45+ supports a new OP_SERVER_DESC_RES answer, if the OP_SERVER_DESC_REQ contains a uint
// challenge, the server returns additional info with OP_SERVER_DESC_RES. To properly distinguish the
// old and new OP_SERVER_DESC_RES answer, the challenge has to be selected carefully. The first 2 bytes
// of the challenge (in network byte order) MUST NOT be a valid string-len-int16!
Packet packet1 =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(OperationCodeEnum.OP_SERVER_DESC_REQ, 4);
uint uDescReqChallenge =
((uint)MpdUtilities.GetRandomUInt16() << 16) +
MuleConstants.INV_SERV_DESC_LEN; // 0xF0FF = an 'invalid' string length.
pServer.DescReqChallenge = uDescReqChallenge;
Array.Copy(BitConverter.GetBytes(uDescReqChallenge), packet1.Buffer, 4);
MuleApplication.Instance.Statistics.AddUpDataOverheadServer(packet1.Size);
MuleApplication.Instance.ServerConnect.SendUDPPacket(packet1, pServer, true);
}
else
{
pServer.SetLastDescPingedCount(true);
}
}
break;
}
case OperationCodeEnum.OP_SERVER_DESC_RES:
{
if (pServer == null)
{
return(true);
}
// old packet: <name_len 2><name name_len><desc_len 2 desc_en>
// new packet: <challenge 4><taglist>
//
// NOTE: To properly distinguish between the two packets which are both useing the same opcode...
// the first two bytes of <challenge> (in network byte order) have to be an invalid <name_len> at least.
SafeMemFile srvinfo = MpdObjectManager.CreateSafeMemFile(buffer, size);
if (size >= 8 && BitConverter.ToUInt16(buffer, 0) == MuleConstants.INV_SERV_DESC_LEN)
{
if (pServer.DescReqChallenge != 0 && BitConverter.ToUInt32(buffer, 0) == pServer.DescReqChallenge)
{
pServer.DescReqChallenge = 0;
srvinfo.ReadUInt32(); // skip challenge
uint uTags = srvinfo.ReadUInt32();
for (uint i = 0; i < uTags; i++)
{
Tag tag = MpdObjectManager.CreateTag(srvinfo, true /*pServer.GetUnicodeSupport()*/);
if (tag.NameID == MuleConstants.ST_SERVERNAME && tag.IsStr)
{
pServer.ServerName = tag.Str;
}
else if (tag.NameID == MuleConstants.ST_DESCRIPTION && tag.IsStr)
{
pServer.Description = tag.Str;
}
else if (tag.NameID == MuleConstants.ST_DYNIP && tag.IsStr)
{
// Verify that we really received a DN.
IPAddress address;
if (!IPAddress.TryParse(tag.Str, out address) ||
address == IPAddress.None)
{
string strOldDynIP = pServer.DynIP;
pServer.DynIP = tag.Str;
// If a dynIP-server changed its address or, if this is the
// first time we get the dynIP-address for a server which we
// already have as non-dynIP in our list, we need to remove
// an already available server with the same 'dynIP:port'.
if (string.Compare(strOldDynIP, pServer.DynIP, true) != 0)
{
MuleApplication.Instance.ServerList.RemoveDuplicatesByAddress(pServer);
}
}
}
else if (tag.NameID == MuleConstants.ST_VERSION && tag.IsStr)
{
pServer.Version = tag.Str;
}
else if (tag.NameID == MuleConstants.ST_VERSION && tag.IsInt)
{
pServer.Version =
string.Format("{0}.{1}", tag.Int >> 16, tag.Int & 0xFFFF);
}
}
}
else
{
// A server sent us a new server description packet (including a challenge) although we did not
// ask for it. This may happen, if there are multiple servers running on the same machine with
// multiple IPs. If such a server is asked for a description, the server will answer 2 times,
// but with the same IP.
}
}
else
{
string strName = srvinfo.ReadString(true /*pServer.GetUnicodeSupport()*/);
string strDesc = srvinfo.ReadString(true /*pServer.GetUnicodeSupport()*/);
pServer.Description = strDesc;
pServer.ServerName = strName;
}
break;
}
default:
return(false);
}
return(true);
}
catch (Exception error)
{
ProcessPacketError((uint)size, (uint)opcode, nIP, nUDPPort, error);
if (opcode == (byte)OperationCodeEnum.OP_GLOBSEARCHRES ||
opcode == (byte)OperationCodeEnum.OP_GLOBFOUNDSOURCES)
{
return(true);
}
}
return(false);
}
private int SendNegotiatingData(byte[] lpBuf, uint nBufLen, uint nStartCryptFromByte, bool bDelaySend)
{
Debug.Assert(streamCryptState_ == StreamCryptStateEnum.ECS_NEGOTIATING ||
streamCryptState_ == StreamCryptStateEnum.ECS_ENCRYPTING);
Debug.Assert(nStartCryptFromByte <= nBufLen);
Debug.Assert(negotiatingState_ == NegotiatingStateEnum.ONS_BASIC_SERVER_DELAYEDSENDING ||
!bDelaySend);
byte[] pBuffer = null;
bool bProcess = false;
if (lpBuf != null)
{
pBuffer = new byte[nBufLen];
if (nStartCryptFromByte > 0)
{
Array.Copy(lpBuf, pBuffer, nStartCryptFromByte);
}
if (nBufLen - nStartCryptFromByte > 0)
{
MuleUtilities.RC4Crypt(lpBuf, Convert.ToInt32(nStartCryptFromByte),
pBuffer, Convert.ToInt32(nStartCryptFromByte),
nBufLen - nStartCryptFromByte,
rc4SendKey_);
}
if (fiSendBuffer_ != null)
{
// we already have data pending. Attach it and try to send
if (negotiatingState_ == NegotiatingStateEnum.ONS_BASIC_SERVER_DELAYEDSENDING)
{
negotiatingState_ = NegotiatingStateEnum.ONS_COMPLETE;
}
else
{
Debug.Assert(false);
}
fiSendBuffer_.Seek(0, System.IO.SeekOrigin.End);
fiSendBuffer_.Write(pBuffer, 0, Convert.ToInt32(nBufLen));
pBuffer = null;
nStartCryptFromByte = 0;
bProcess = true; // we want to try to send it right now
}
}
if (lpBuf == null || bProcess)
{
// this call is for processing pending data
if (fiSendBuffer_ == null || nStartCryptFromByte != 0)
{
Debug.Assert(false);
return(0); // or not
}
nBufLen = Convert.ToUInt32(fiSendBuffer_.Length);
pBuffer = fiSendBuffer_.Buffer;
fiSendBuffer_ = null;
}
Debug.Assert(fiSendBuffer_ == null);
int result = 0;
if (!bDelaySend)
{
result = base.Send(pBuffer, Convert.ToInt32(nBufLen));
}
if (result == SOCKET_ERROR || bDelaySend)
{
fiSendBuffer_ = MpdObjectManager.CreateSafeMemFile(128);
fiSendBuffer_.Write(pBuffer, 0, Convert.ToInt32(nBufLen));
return(result);
}
else
{
if (result < nBufLen)
{
fiSendBuffer_ = MpdObjectManager.CreateSafeMemFile(128);
fiSendBuffer_.Write(pBuffer, Convert.ToInt32(result), Convert.ToInt32(nBufLen - result));
}
return(result);
}
}
public void ConnectionEstablished(Mule.Network.ServerSocket sender)
{
if (!IsConnecting)
{
// we are already IsConnected to another server
DestroySocket(sender);
return;
}
InitLocalIP();
if (sender.ConnectionState == ConnectionStateEnum.CS_WAITFORLOGIN)
{
ED2KServer pServer =
MuleApplication.Instance.ServerList.GetServerByAddress(sender.CurrentServer.Address,
sender.CurrentServer.Port);
if (pServer != null)
{
pServer.ResetFailedCount();
}
// Send login packet
SafeMemFile data = MpdObjectManager.CreateSafeMemFile(256);
data.WriteHash16(MuleApplication.Instance.Preference.UserHash);
data.WriteUInt32(ClientID);
data.WriteUInt16(MuleApplication.Instance.Preference.Port);
uint tagcount = 4;
data.WriteUInt32(tagcount);
Tag tagName = MpdObjectManager.CreateTag(TagTypeEnum.CT_NAME,
MuleApplication.Instance.Preference.UserNick);
tagName.WriteTagToFile(data);
Tag tagVersion = MpdObjectManager.CreateTag(TagTypeEnum.CT_VERSION, VersionsEnum.EDONKEYVERSION);
tagVersion.WriteTagToFile(data);
ServerFlagsEnum dwCryptFlags = 0;
if (MuleApplication.Instance.Preference.IsClientCryptLayerSupported)
{
dwCryptFlags |= ServerFlagsEnum.SRVCAP_SUPPORTCRYPT;
}
if (MuleApplication.Instance.Preference.IsClientCryptLayerRequested)
{
dwCryptFlags |= ServerFlagsEnum.SRVCAP_REQUESTCRYPT;
}
if (MuleApplication.Instance.Preference.IsClientCryptLayerRequired)
{
dwCryptFlags |= ServerFlagsEnum.SRVCAP_REQUIRECRYPT;
}
Tag tagFlags = MpdObjectManager.CreateTag(TagTypeEnum.CT_SERVER_FLAGS,
ServerFlagsEnum.SRVCAP_ZLIB | ServerFlagsEnum.SRVCAP_NEWTAGS |
ServerFlagsEnum.SRVCAP_LARGEFILES |
ServerFlagsEnum.SRVCAP_UNICODE | dwCryptFlags);
tagFlags.WriteTagToFile(data);
// eMule Version (14-Mar-2004: requested by lugdunummaster (need for LowID clients which have no chance
// to send an Hello packet to the server during the callback test))
Tag tagMuleVersion = MpdObjectManager.CreateTag(TagTypeEnum.CT_EMULE_VERSION,
(MuleApplication.Instance.Version.Major << 17) |
(MuleApplication.Instance.Version.Minor << 10) |
(MuleApplication.Instance.Version.Build << 7));
tagMuleVersion.WriteTagToFile(data);
Packet packet = MuleApplication.Instance.NetworkObjectManager.CreatePacket(data);
packet.OperationCode = OperationCodeEnum.OP_LOGINREQUEST;
MuleApplication.Instance.Statistics.AddUpDataOverheadServer(packet.Size);
SendPacket(packet, true, sender);
}
else if (sender.ConnectionState == ConnectionStateEnum.CS_CONNECTED)
{
MuleApplication.Instance.Statistics.Reconnects++;
MuleApplication.Instance.Statistics.ServerConnectTime = MpdUtilities.GetTickCount();
IsConnected = true;
connectedSocket_ = sender;
StopConnectionTry();
MuleApplication.Instance.SharedFiles.ClearED2KPublishInfo();
MuleApplication.Instance.SharedFiles.SendListToServer();
if (MuleApplication.Instance.Preference.DoesAddServersFromServer)
{
Packet packet =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(
OperationCodeEnum.OP_GETSERVERLIST, 0);
MuleApplication.Instance.Statistics.AddUpDataOverheadServer(packet.Size);
SendPacket(packet, true);
}
}
}
private void StartNegotiation(bool bOutgoing)
{
if (!bOutgoing)
{
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTA_RANDOMPART;
streamCryptState_ = StreamCryptStateEnum.ECS_NEGOTIATING;
receiveBytesWanted_ = 4;
}
else if (streamCryptState_ == StreamCryptStateEnum.ECS_PENDING)
{
SafeMemFile fileRequest = MpdObjectManager.CreateSafeMemFile(29);
byte bySemiRandomNotProtocolMarker = GetSemiRandomNotProtocolMarker();
fileRequest.WriteUInt8(bySemiRandomNotProtocolMarker);
fileRequest.WriteUInt32(randomKeyPart_);
fileRequest.WriteUInt32(MuleConstants.MAGICVALUE_SYNC);
byte bySupportedEncryptionMethod = Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION); // we do not support any further encryption in this version
fileRequest.WriteUInt8(bySupportedEncryptionMethod);
fileRequest.WriteUInt8(bySupportedEncryptionMethod); // so we also prefer this one
byte byPadding = Convert.ToByte(MpdUtilities.GetRandomUInt8() %
(MuleApplication.Instance.Preference.CryptTCPPaddingLength + 1));
fileRequest.WriteUInt8(byPadding);
for (int i = 0; i < byPadding; i++)
{
fileRequest.WriteUInt8(MpdUtilities.GetRandomUInt8());
}
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTB_MAGICVALUE;
streamCryptState_ = StreamCryptStateEnum.ECS_NEGOTIATING;
receiveBytesWanted_ = 4;
SendNegotiatingData(fileRequest.Buffer, (uint)fileRequest.Length, 5);
}
else if (streamCryptState_ == StreamCryptStateEnum.ECS_PENDING_SERVER)
{
SafeMemFile fileRequest = MpdObjectManager.CreateSafeMemFile(113);
byte bySemiRandomNotProtocolMarker = GetSemiRandomNotProtocolMarker();
fileRequest.WriteUInt8(bySemiRandomNotProtocolMarker);
cryptDHA_.genRandomBits((int)MuleConstants.DHAGREEMENT_A_BITS, new Random()); // our random a
BigInteger cryptDHPrime =
new BigInteger(dh768_p_, (int)MuleConstants.PRIMESIZE_BYTES); // our fixed prime
// calculate g^a % p
BigInteger cryptDHGexpAmodP =
new BigInteger(2).modPow(cryptDHA_, cryptDHPrime);
// put the result into a buffer
byte[] aBuffer = new byte[MuleConstants.PRIMESIZE_BYTES];
Array.Copy(cryptDHGexpAmodP.getBytes(), aBuffer, MuleConstants.PRIMESIZE_BYTES);
fileRequest.Write(aBuffer);
byte byPadding = (byte)(MpdUtilities.GetRandomUInt8() % 16); // add random padding
fileRequest.WriteUInt8(byPadding);
for (int i = 0; i < byPadding; i++)
{
fileRequest.WriteUInt8(MpdUtilities.GetRandomUInt8());
}
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_SERVER_DHANSWER;
streamCryptState_ = StreamCryptStateEnum.ECS_NEGOTIATING;
receiveBytesWanted_ = 96;
SendNegotiatingData(fileRequest.Buffer, (uint)fileRequest.Length, (uint)fileRequest.Length);
}
else
{
Debug.Assert(false);
streamCryptState_ = StreamCryptStateEnum.ECS_NONE;
return;
}
}
private int Negotiate(byte[] pBuffer, int offset, int nLen)
{
int nRead = 0;
Debug.Assert(receiveBytesWanted_ > 0);
try
{
while (negotiatingState_ != NegotiatingStateEnum.ONS_COMPLETE && receiveBytesWanted_ > 0)
{
if (receiveBytesWanted_ > 512)
{
Debug.Assert(false);
return(0);
}
if (fiReceiveBuffer_ == null)
{
byte[] pReceiveBuffer = new byte[512]; // use a fixed size buffer
fiReceiveBuffer_ = MpdObjectManager.CreateSafeMemFile(pReceiveBuffer);
}
int nToRead = Math.Min(Convert.ToInt32(nLen) - nRead, Convert.ToInt32(receiveBytesWanted_));
fiReceiveBuffer_.Write(pBuffer, nRead, nToRead);
nRead += nToRead;
receiveBytesWanted_ -= Convert.ToUInt32(nToRead);
if (receiveBytesWanted_ > 0)
{
return(nRead);
}
uint nCurrentBytesLen = (uint)fiReceiveBuffer_.Position;
if (negotiatingState_ != NegotiatingStateEnum.ONS_BASIC_CLIENTA_RANDOMPART &&
negotiatingState_ != NegotiatingStateEnum.ONS_BASIC_SERVER_DHANSWER)
{ // don't have the keys yet
byte[] pCryptBuffer = fiReceiveBuffer_.Buffer;
MuleUtilities.RC4Crypt(pCryptBuffer, pCryptBuffer, nCurrentBytesLen, rc4ReceiveKey_);
}
fiReceiveBuffer_.SeekToBegin();
switch (negotiatingState_)
{
case NegotiatingStateEnum.ONS_NONE: // would be a bug
Debug.Assert(false);
return(0);
case NegotiatingStateEnum.ONS_BASIC_CLIENTA_RANDOMPART:
{
Debug.Assert(rc4ReceiveKey_ == null);
byte[] achKeyData = new byte[21];
MpdUtilities.Md4Cpy(achKeyData, MuleApplication.Instance.Preference.UserHash);
achKeyData[16] = Convert.ToByte(MuleConstants.MAGICVALUE_REQUESTER);
fiReceiveBuffer_.Read(achKeyData, 17, 4); // random key part sent from remote client
MD5 md5 = MD5.Create();
rc4ReceiveKey_ =
MuleUtilities.RC4CreateKey(md5.ComputeHash(achKeyData), 16);
achKeyData[16] = Convert.ToByte(MuleConstants.MAGICVALUE_SERVER);
rc4SendKey_ =
MuleUtilities.RC4CreateKey(md5.ComputeHash(achKeyData), 16);
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTA_MAGICVALUE;
receiveBytesWanted_ = 4;
break;
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTA_MAGICVALUE:
{
uint dwValue = fiReceiveBuffer_.ReadUInt32();
if (dwValue == MuleConstants.MAGICVALUE_SYNC)
{
// yup, the one or the other way it worked, this is an encrypted stream
//DEBUG_ONLY( MpdUtilities.DebugLog(("Received proper magic value, clientIP: %s"), DbgGetIPString()) );
// set the receiver key
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTA_METHODTAGSPADLEN;
receiveBytesWanted_ = 3;
}
else
{
MpdUtilities.DebugLogError(("CEncryptedStreamSocket: Received wrong magic value from clientIP %s on a supposly encrytped stream / Wrong Header"), DbgGetIPString());
OnError(Convert.ToInt32(EMSocketErrorCodeEnum.ERR_ENCRYPTION));
return(-1);
}
break;
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTA_METHODTAGSPADLEN:
DbgByEncryptionSupported = fiReceiveBuffer_.ReadUInt8();
DbgByEncryptionRequested = fiReceiveBuffer_.ReadUInt8();
if (DbgByEncryptionRequested != Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION))
{
MpdUtilities.AddDebugLogLine(EDebugLogPriority.DLP_LOW, false, ("CEncryptedStreamSocket: Client %s preffered unsupported encryption method (%i)"), DbgGetIPString(), DbgByEncryptionRequested);
}
receiveBytesWanted_ = fiReceiveBuffer_.ReadUInt8();
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTA_PADDING;
if (receiveBytesWanted_ > 0)
{
break;
}
else
{
goto case NegotiatingStateEnum.ONS_BASIC_CLIENTA_PADDING;
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTA_PADDING:
{
// ignore the random bytes, send the response, set status complete
SafeMemFile fileResponse = MpdObjectManager.CreateSafeMemFile(26);
fileResponse.WriteUInt32(MuleConstants.MAGICVALUE_SYNC);
byte bySelectedEncryptionMethod = Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION); // we do not support any further encryption in this version, so no need to look which the other client preferred
fileResponse.WriteUInt8(bySelectedEncryptionMethod);
IPEndPoint remoteEp = RemoteEndPoint as IPEndPoint;
byte byPaddingLen =
MuleApplication.Instance.ServerConnect.AwaitingTestFromIP(BitConverter.ToUInt32(remoteEp.Address.GetAddressBytes(), 0))
? Convert.ToByte(16) :
Convert.ToByte(MuleApplication.Instance.Preference.CryptTCPPaddingLength + 1);
byte byPadding = Convert.ToByte(MpdUtilities.GetRandomUInt8() % byPaddingLen);
fileResponse.WriteUInt8(byPadding);
for (int i = 0; i < byPadding; i++)
{
fileResponse.WriteUInt8(MpdUtilities.GetRandomUInt8());
}
SendNegotiatingData(fileResponse.Buffer, (uint)fileResponse.Length);
negotiatingState_ = NegotiatingStateEnum.ONS_COMPLETE;
streamCryptState_ = StreamCryptStateEnum.ECS_ENCRYPTING;
//DEBUG_ONLY( MpdUtilities.DebugLog(("CEncryptedStreamSocket: Finished Obufscation handshake with client %s (incoming)"), DbgGetIPString()) );
break;
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTB_MAGICVALUE:
{
if (fiReceiveBuffer_.ReadUInt32() != MuleConstants.MAGICVALUE_SYNC)
{
MpdUtilities.DebugLogError(("CEncryptedStreamSocket: EncryptedstreamSyncError: Client sent wrong Magic Value as answer, cannot complete handshake (%s)"), DbgGetIPString());
OnError(Convert.ToInt32(EMSocketErrorCodeEnum.ERR_ENCRYPTION));
return(-1);
}
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTB_METHODTAGSPADLEN;
receiveBytesWanted_ = 2;
break;
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTB_METHODTAGSPADLEN:
{
DbgByEncryptionMethodSet = fiReceiveBuffer_.ReadUInt8();
if (DbgByEncryptionMethodSet != Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION))
{
MpdUtilities.DebugLogError(("CEncryptedStreamSocket: Client %s set unsupported encryption method (%i), handshake failed"),
DbgGetIPString(), DbgByEncryptionMethodSet);
OnError(Convert.ToInt32(EMSocketErrorCodeEnum.ERR_ENCRYPTION));
return(-1);
}
receiveBytesWanted_ = fiReceiveBuffer_.ReadUInt8();
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_CLIENTB_PADDING;
if (receiveBytesWanted_ > 0)
{
break;
}
else
{
goto case NegotiatingStateEnum.ONS_BASIC_CLIENTB_PADDING;
}
}
case NegotiatingStateEnum.ONS_BASIC_CLIENTB_PADDING:
// ignore the random bytes, the handshake is complete
negotiatingState_ = NegotiatingStateEnum.ONS_COMPLETE;
streamCryptState_ = StreamCryptStateEnum.ECS_ENCRYPTING;
//DEBUG_ONLY( MpdUtilities.DebugLog(("CEncryptedStreamSocket: Finished Obufscation handshake with client %s (outgoing)"), DbgGetIPString()) );
break;
case NegotiatingStateEnum.ONS_BASIC_SERVER_DHANSWER:
{
Debug.Assert(cryptDHA_ != new BigInteger(0));
byte[] aBuffer = new byte[MuleConstants.PRIMESIZE_BYTES + 1];
fiReceiveBuffer_.Read(aBuffer, 0, Convert.ToInt32(MuleConstants.PRIMESIZE_BYTES));
BigInteger cryptDHAnswer =
new BigInteger(aBuffer, (int)MuleConstants.PRIMESIZE_BYTES);
BigInteger cryptDHPrime =
new BigInteger(dh768_p_, (int)MuleConstants.PRIMESIZE_BYTES); // our fixed prime
BigInteger cryptResult =
cryptDHAnswer.modPow(cryptDHA_, cryptDHPrime);
cryptDHA_ = 0;
Array.Clear(aBuffer, 0, aBuffer.Length);
// create the keys
Array.Copy(cryptResult.getBytes(), aBuffer, MuleConstants.PRIMESIZE_BYTES);
aBuffer[MuleConstants.PRIMESIZE_BYTES] = Convert.ToByte(MuleConstants.MAGICVALUE_REQUESTER);
MD5 md5 = MD5.Create();
rc4SendKey_ =
MuleUtilities.RC4CreateKey(md5.ComputeHash(aBuffer), 16);
aBuffer[MuleConstants.PRIMESIZE_BYTES] = Convert.ToByte(MuleConstants.MAGICVALUE_SERVER);
rc4ReceiveKey_ =
MuleUtilities.RC4CreateKey(md5.ComputeHash(aBuffer), 16);
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_SERVER_MAGICVALUE;
receiveBytesWanted_ = 4;
break;
}
case NegotiatingStateEnum.ONS_BASIC_SERVER_MAGICVALUE:
{
uint dwValue = fiReceiveBuffer_.ReadUInt32();
if (dwValue == MuleConstants.MAGICVALUE_SYNC)
{
// yup, the one or the other way it worked, this is an encrypted stream
MpdUtilities.DebugLog(("Received proper magic value after DH-Agreement from Serverconnection IP: %s"), DbgGetIPString());
// set the receiver key
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_SERVER_METHODTAGSPADLEN;
receiveBytesWanted_ = 3;
}
else
{
MpdUtilities.DebugLogError(("CEncryptedStreamSocket: Received wrong magic value after DH-Agreement from Serverconnection"), DbgGetIPString());
OnError(Convert.ToInt32(EMSocketErrorCodeEnum.ERR_ENCRYPTION));
return(-1);
}
break;
}
case NegotiatingStateEnum.ONS_BASIC_SERVER_METHODTAGSPADLEN:
DbgByEncryptionSupported = fiReceiveBuffer_.ReadUInt8();
DbgByEncryptionRequested = fiReceiveBuffer_.ReadUInt8();
if (DbgByEncryptionRequested != Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION))
{
MpdUtilities.AddDebugLogLine(EDebugLogPriority.DLP_LOW, false, ("CEncryptedStreamSocket: Server %s preffered unsupported encryption method (%i)"), DbgGetIPString(), DbgByEncryptionRequested);
}
receiveBytesWanted_ = fiReceiveBuffer_.ReadUInt8();
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_SERVER_PADDING;
if (receiveBytesWanted_ > 16)
{
MpdUtilities.AddDebugLogLine(EDebugLogPriority.DLP_LOW, false, ("CEncryptedStreamSocket: Server %s sent more than 16 (%i) padding bytes"), DbgGetIPString(), receiveBytesWanted_);
}
if (receiveBytesWanted_ > 0)
{
break;
}
else
{
goto case NegotiatingStateEnum.ONS_BASIC_SERVER_PADDING;
}
case NegotiatingStateEnum.ONS_BASIC_SERVER_PADDING:
{
// ignore the random bytes (they are decrypted already), send the response, set status complete
SafeMemFile fileResponse = MpdObjectManager.CreateSafeMemFile(26);
fileResponse.WriteUInt32(MuleConstants.MAGICVALUE_SYNC);
byte bySelectedEncryptionMethod =
Convert.ToByte(EncryptionMethodsEnum.ENM_OBFUSCATION); // we do not support any further encryption in this version, so no need to look which the other client preferred
fileResponse.WriteUInt8(bySelectedEncryptionMethod);
byte byPadding = (byte)(MpdUtilities.GetRandomUInt8() % 16);
fileResponse.WriteUInt8(byPadding);
for (int i = 0; i < byPadding; i++)
{
fileResponse.WriteUInt8(MpdUtilities.GetRandomUInt8());
}
negotiatingState_ = NegotiatingStateEnum.ONS_BASIC_SERVER_DELAYEDSENDING;
SendNegotiatingData(fileResponse.Buffer, (uint)fileResponse.Length, 0, true); // don't actually send it right now, store it in our sendbuffer
streamCryptState_ = StreamCryptStateEnum.ECS_ENCRYPTING;
MpdUtilities.DebugLog(("CEncryptedStreamSocket: Finished DH Obufscation handshake with Server %s"), DbgGetIPString());
break;
}
default:
Debug.Assert(false);
break;
}
fiReceiveBuffer_.SeekToBegin();
}
fiReceiveBuffer_ = null;
return(nRead);
}
catch (Exception)
{
Debug.Assert(false);
OnError(Convert.ToInt32(EMSocketErrorCodeEnum.ERR_ENCRYPTION));
fiReceiveBuffer_ = null;
return(-1);
}
}
private void HandleParams(string[] allParams)
{
if (allParams == null || allParams.Length == 0)
{
return;
}
bool bError = false;
for (int i = 0; !bError && i < allParams.Length; i++)
{
string strParam = allParams[i];
string[] tokens = strParam.Split('=');
if (tokens == null || tokens.Length < 2)
{
//TODO:Log
continue;
}
string strTok = tokens[0];
if (strTok.Equals("s"))
{
string strURL = strParam.Substring(strTok.Length + 1);
if (!string.IsNullOrEmpty(strURL))
{
if (Uri.IsWellFormedUriString(strURL, UriKind.RelativeOrAbsolute))
{
Uri uri = new Uri(strURL, UriKind.RelativeOrAbsolute);
UnresolvedHostname hostname =
MuleApplication.Instance.ED2KObjectManager.CreateUnresolvedHostname();
hostname.Url = strURL;
hostname.HostName = uri.Host;
hostname.Port = Convert.ToUInt16(uri.Port);
hostnameSourcesList_.Add(hostname);
}
else
{
//ASSERT(0);
//TODO:Log
}
}
else
{
//ASSERT(0);
//TODO:Log
}
}
else if (strTok.Equals("p"))
{
string strPartHashs = tokens[1];
if (HashSet != null)
{
//ASSERT(0);
//TODO:Log
bError = true;
break;
}
HashSet = MpdObjectManager.CreateSafeMemFile(256);
HashSet.WriteHash16(hash_);
HashSet.WriteUInt16(0);
int iPartHashs = 0;
string[] strHashs = strPartHashs.Split(':');
while (strHashs != null && iPartHashs < strHashs.Length)
{
if (string.IsNullOrEmpty(strHashs[iPartHashs]))
{
//TODO:Log
continue;
}
byte[] aucPartHash = new byte[16];
if (!MpdUtilities.DecodeHexString(strHashs[iPartHashs], aucPartHash))
{
bError = true;
break;
}
HashSet.WriteHash16(aucPartHash);
iPartHashs++;
}
if (bError)
{
break;
}
HashSet.Seek(16, System.IO.SeekOrigin.Begin);
HashSet.WriteUInt16(Convert.ToUInt16(iPartHashs));
HashSet.Seek(0, System.IO.SeekOrigin.Begin);
}
else if (strTok.Equals("h"))
{
string strHash = strParam.Substring(strTok.Length + 1);
if (!string.IsNullOrEmpty(strHash))
{
if (MpdUtilities.DecodeBase32(strHash.ToCharArray(), aichHash_.RawHash) == MuleConstants.HASHSIZE)
{
aichHashValid_ = true;
}
else
{
//ASSERT(0);
//TODO:Log
}
}
else
{
//ASSERT(0);
//TODO:Log
}
}
else
{
//ASSERT(0);
//TODO:Log
}
}
if (bError)
{
HashSet = null;
}
}
private void HandleSources(string pszSources)
{
if (string.IsNullOrEmpty(pszSources))
{
return;
}
bool bAllowSources;
int nYear, nMonth, nDay;
ushort nCount = 0;
uint dwID;
ushort nPort;
uint dwServerIP = 0;
ushort nServerPort = 0;
int nInvalid = 0;
int pCh = pszSources.IndexOf("sources");
if (pCh < 0)
{
return;
}
pCh = pCh + 7; // point to char after "sources"
int pEnd = pszSources.Length;
bAllowSources = true;
// if there's an expiration date...
if (pszSources[pCh] == '@' && (pEnd - pCh) > 7)
{
// after '@'
pCh++;
int.TryParse(pszSources.Substring(pCh, 2), out nYear);
nYear += 2000;
pCh += 2;
int.TryParse(pszSources.Substring(pCh, 2), out nMonth);
pCh += 2;
int.TryParse(pszSources.Substring(pCh, 2), out nDay);
pCh += 2;
DateTime expirationDate = DateTime.Now;
try
{
expirationDate = new DateTime(nYear, nMonth, nDay);
}
catch
{
}
bAllowSources = expirationDate != null;
if (bAllowSources)
{
bAllowSources = (DateTime.Today < expirationDate);
}
}
// increment pCh to point to the first "ip:port" and check for sources
if (bAllowSources && ++pCh < pEnd)
{
SourcesList = MpdObjectManager.CreateSafeMemFile(256);
// init to 0, we'll fix this at the end.
SourcesList.WriteUInt16(nCount);
// for each "ip:port" source string until the end
// limit to prevent overflow (ushort due to CPartFile::AddClientSources)
while (pCh < pEnd && nCount < ushort.MaxValue)
{
string strIP = string.Empty;
int pIP = pCh;
// find the end of this ip:port string & start of next ip:port string.
if ((pCh = pszSources.IndexOf(',', pCh)) >= 0)
{
strIP = pszSources.Substring(pIP, pCh - pIP);
pCh++; // point to next "ip:port"
}
else
{
pCh = pEnd;
}
// if port is not present for this ip, go to the next ip.
int pPort = -1;
if ((pPort = strIP.IndexOf(':')) < 0)
{
nInvalid++;
continue;
}
string strPort = strIP.Substring(pPort + 1); // terminate ip string
strIP = strIP.Substring(0, pPort);
if (!ushort.TryParse(strPort, out nPort))
{
nInvalid++;
continue;
}
// skip bad ips / ports
if (nPort > 0xFFFF || nPort == 0) // port
{
nInvalid++;
continue;
}
IPAddress address = null;
if (!IPAddress.TryParse(strIP, out address))
{
// hostname?
if (strIP.Length > 512)
{
nInvalid++;
continue;
}
UnresolvedHostname hostname =
MuleApplication.Instance.ED2KObjectManager.CreateUnresolvedHostname();
hostname.Port = nPort;
hostname.HostName = strIP;
hostnameSourcesList_.Add(hostname);
continue;
}
//TODO: This will filter out *.*.*.0 clients. Is there a nice way to fix?
dwID = BitConverter.ToUInt32(address.GetAddressBytes(), 0);
if (MuleUtilities.IsLowID(dwID)) // ip
{
nInvalid++;
continue;
}
SourcesList.WriteUInt32(dwID);
SourcesList.WriteUInt16(nPort);
SourcesList.WriteUInt32(dwServerIP);
SourcesList.WriteUInt16(nServerPort);
nCount++;
}
SourcesList.SeekToBegin();
SourcesList.WriteUInt16(nCount);
SourcesList.SeekToBegin();
if (nCount == 0)
{
SourcesList = null;
}
}
}
private bool ProcessPacket(byte[] packet, uint offset, uint size,
byte opcode, uint ip, ushort port)
{
switch ((OperationCodeEnum)opcode)
{
case OperationCodeEnum.OP_REASKCALLBACKUDP:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadOther(size);
UpDownClient buddy = MuleApplication.Instance.ClientList.Buddy;
if (buddy != null)
{
if (size < 17 || buddy.ClientSocket == null)
{
break;
}
if (MpdUtilities.Md4Cmp(packet, (int)offset, buddy.BuddyID, 0) == 0)
{
Array.Copy(BitConverter.GetBytes(ip), 0,
packet, offset + 10, 4);
Array.Copy(BitConverter.GetBytes(port), 0,
packet, offset + 14, 2);
Packet response =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(MuleConstants.PROTOCOL_EMULEPROT);
response.OperationCode = OperationCodeEnum.OP_REASKCALLBACKTCP;
response.Buffer = new byte[size];
Array.Copy(packet, offset + 10, response.Buffer, 0, size - 10);
response.Size = size - 10;
MuleApplication.Instance.Statistics.AddUpDataOverheadFileRequest(response.Size);
buddy.SendPacket(response, true);
}
}
break;
}
case OperationCodeEnum.OP_REASKFILEPING:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadFileRequest(size);
SafeMemFile data_in = MpdObjectManager.CreateSafeMemFile(packet, offset, size);
byte[] reqfilehash = new byte[16];
data_in.ReadHash16(reqfilehash);
KnownFile reqfile = MuleApplication.Instance.SharedFiles.GetFileByID(reqfilehash);
bool bSenderMultipleIpUnknown = false;
UpDownClient sender =
MuleApplication.Instance.UploadQueue.GetWaitingClientByIP_UDP(ip, port,
true, ref bSenderMultipleIpUnknown);
if (reqfile == null)
{
Packet response =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(OperationCodeEnum.OP_FILENOTFOUND,
0, MuleConstants.PROTOCOL_EMULEPROT);
MuleApplication.Instance.Statistics.AddUpDataOverheadFileRequest(response.Size);
if (sender != null)
{
SendPacket(response, ip, port, sender.ShouldReceiveCryptUDPPackets,
sender.UserHash, false, 0);
}
else
{
SendPacket(response, ip, port, false, null, false, 0);
}
break;
}
if (sender != null)
{
//Make sure we are still thinking about the same file
if (MpdUtilities.Md4Cmp(reqfilehash, sender.UploadFileID) == 0)
{
sender.AddAskedCount();
sender.SetLastUpRequest();
//I messed up when I first added extended info to UDP
//I should have originally used the entire ProcessExtenedInfo the first time.
//So now I am forced to check UDPVersion to see if we are sending all the extended info.
//For now on, we should not have to change anything here if we change
//anything to the extended info data as this will be taken care of in ProcessExtendedInfo()
//Update extended info.
if (sender.UDPVersion > 3)
{
sender.ProcessExtendedInfo(data_in, reqfile);
}
//Update our complete source counts.
else if (sender.UDPVersion > 2)
{
ushort nCompleteCountLast = sender.UpCompleteSourcesCount;
ushort nCompleteCountNew = data_in.ReadUInt16();
sender.UpCompleteSourcesCount = nCompleteCountNew;
if (nCompleteCountLast != nCompleteCountNew)
{
reqfile.UpdatePartsInfo();
}
}
SafeMemFile data_out = MpdObjectManager.CreateSafeMemFile(128);
if (sender.UDPVersion > 3)
{
if (reqfile.IsPartFile)
{
((PartFile)reqfile).WritePartStatus(data_out);
}
else
{
data_out.WriteUInt16(0);
}
}
data_out.WriteUInt16((ushort)(MuleApplication.Instance.UploadQueue.GetWaitingPosition(sender)));
Packet response =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(data_out,
MuleConstants.PROTOCOL_EMULEPROT);
response.OperationCode = OperationCodeEnum.OP_REASKACK;
MuleApplication.Instance.Statistics.AddUpDataOverheadFileRequest(response.Size);
SendPacket(response, ip, port, sender.ShouldReceiveCryptUDPPackets,
sender.UserHash, false, 0);
}
}
else
{
// Don't answer him. We probably have him on our queue already, but can't locate him. Force him to establish a TCP connection
if (!bSenderMultipleIpUnknown)
{
if (((uint)MuleApplication.Instance.UploadQueue.WaitingUserCount + 50) >
MuleApplication.Instance.Preference.QueueSize)
{
Packet response =
MuleApplication.Instance.NetworkObjectManager.CreatePacket(OperationCodeEnum.OP_QUEUEFULL,
0, MuleConstants.PROTOCOL_EMULEPROT);
MuleApplication.Instance.Statistics.AddUpDataOverheadFileRequest(response.Size);
SendPacket(response, ip, port, false, null, false, 0); // we cannot answer this one encrypted since we dont know this client
}
}
}
break;
}
case OperationCodeEnum.OP_QUEUEFULL:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadFileRequest(size);
UpDownClient sender = MuleApplication.Instance.DownloadQueue.GetDownloadClientByIP_UDP(ip, port, true);
if (sender != null && sender.UDPPacketPending)
{
sender.IsRemoteQueueFull = true;
sender.UDPReaskACK(0);
}
break;
}
case OperationCodeEnum.OP_REASKACK:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadFileRequest(size);
UpDownClient sender =
MuleApplication.Instance.DownloadQueue.GetDownloadClientByIP_UDP(ip, port, true);
if (sender != null && sender.UDPPacketPending)
{
SafeMemFile data_in = MpdObjectManager.CreateSafeMemFile(packet, size);
if (sender.UDPVersion > 3)
{
sender.ProcessFileStatus(true, data_in, sender.RequestFile);
}
ushort nRank = data_in.ReadUInt16();
sender.IsRemoteQueueFull = false;
sender.UDPReaskACK(nRank);
sender.AddAskedCountDown();
}
break;
}
case OperationCodeEnum.OP_FILENOTFOUND:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadFileRequest(size);
UpDownClient sender =
MuleApplication.Instance.DownloadQueue.GetDownloadClientByIP_UDP(ip, port, true);
if (sender != null && sender.UDPPacketPending)
{
sender.UDPReaskFNF(); // may delete 'sender'!
sender = null;
}
break;
}
case OperationCodeEnum.OP_PORTTEST:
{
MuleApplication.Instance.Statistics.AddDownDataOverheadOther(size);
if (size == 1)
{
if (packet[0] == 0x12)
{
bool ret = MuleApplication.Instance.ListenSocket.SendPortTestReply('1', true);
}
}
break;
}
case OperationCodeEnum.OP_DIRECTCALLBACKREQ:
{
if (!MuleApplication.Instance.ClientList.AllowCalbackRequest(ip))
{
break;
}
// do we accept callbackrequests at all?
if (MuleApplication.Instance.KadEngine.IsRunning &&
MuleApplication.Instance.KadEngine.IsFirewalled)
{
MuleApplication.Instance.ClientList.AddTrackCallbackRequests(ip);
SafeMemFile data = MpdObjectManager.CreateSafeMemFile(packet, size);
ushort nRemoteTCPPort = data.ReadUInt16();
byte[] uchUserHash = new byte[16];
data.ReadHash16(uchUserHash);
byte byConnectOptions = data.ReadUInt8();
UpDownClient pRequester =
MuleApplication.Instance.ClientList.FindClientByUserHash(uchUserHash, ip,
nRemoteTCPPort);
if (pRequester == null)
{
pRequester =
MuleApplication.Instance.CoreObjectManager.CreateUpDownClient(null,
nRemoteTCPPort, ip, 0, 0, true);
pRequester.UserHash = uchUserHash;
MuleApplication.Instance.ClientList.AddClient(pRequester);
}
pRequester.SetConnectOptions(byConnectOptions, true, false);
pRequester.DoesDirectUDPCallbackSupport = false;
pRequester.IP = ip;
pRequester.UserPort = nRemoteTCPPort;
pRequester.TryToConnect();
}
break;
}
default:
MuleApplication.Instance.Statistics.AddDownDataOverheadOther(size);
return(false);
}
return(true);
}