コード例 #1
0
void CRemoteConnection::ProcessRawPacket(const unsigned char* data, const unsigned length)
{
	lastReceiveTime=static_cast<float>(SDL_GetTicks())/1000.0f;

	const unsigned hsize = 9;
	int packetNum=*(int*)data;
	int ack=*(int*)(data+4);
	unsigned char nak = *(unsigned char*)(data+8);

	AckPackets(ack);

	if (nak > 0)	// we have lost $nak packets
	{
		int nak_abs = nak + firstUnacked - 1;
		if (nak_abs!=lastNak || lastNakTime < lastReceiveTime-0.1f)
		{
			// resend all packets from firstUnacked till nak_abs
			lastNak=nak_abs;
			lastNakTime=lastReceiveTime;
			for(int b=firstUnacked;b<=nak_abs;++b){
				SendRawPacket(unackedPackets[b-firstUnacked]->data,unackedPackets[b-firstUnacked]->length,b);
				++resentPackets;
			}
		}
	}

	if(!active || lastInOrder>=packetNum || waitingPackets.find(packetNum)!=waitingPackets.end())
		return;

	Packet* p=SAFE_NEW Packet(data+hsize,length-hsize);
	waitingPackets[packetNum]=p;

	dataRecv += length;
	recvOverhead += hsize;
}
コード例 #2
0
ファイル: EQStream.cpp プロジェクト: pixelbound/Server
void EQStream::ProcessPacket(EQProtocolPacket *p)
{
uint32 processed=0,subpacket_length=0;
	if (p == NULL)
		return;
	// Raw Application packet
	if (p->opcode > 0xff) {
		p->opcode = htons(p->opcode);  //byte order is backwards in the protocol packet
		EQRawApplicationPacket *ap=MakeApplicationPacket(p);
		if (ap)
			InboundQueuePush(ap);
		return;
	}

	if (!Session && p->opcode!=OP_SessionRequest && p->opcode!=OP_SessionResponse) {
		_log(NET__DEBUG, _L "Session not initialized, packet ignored" __L);
		_raw(NET__DEBUG, 0xFFFF, p);
		return;
	}

	switch (p->opcode) {
		case OP_Combined: {
			processed=0;
			while(processed < p->size) {
				subpacket_length=*(p->pBuffer+processed);
				EQProtocolPacket *subp=MakeProtocolPacket(p->pBuffer+processed+1,subpacket_length);
				_log(NET__NET_CREATE, _L "Extracting combined packet of length %d" __L, subpacket_length);
				_raw(NET__NET_CREATE_HEX, 0xFFFF, subp);
				subp->copyInfo(p);
				ProcessPacket(subp);
				delete subp;
				processed+=subpacket_length+1;
			}
		}
		break;
		
		case OP_AppCombined: {
			processed=0;
			while(processed<p->size) {
				EQRawApplicationPacket *ap=NULL;
				if ((subpacket_length=(unsigned char)*(p->pBuffer+processed))!=0xff) {
					_log(NET__NET_CREATE, _L "Extracting combined app packet of length %d, short len" __L, subpacket_length);
					ap=MakeApplicationPacket(p->pBuffer+processed+1,subpacket_length);
					processed+=subpacket_length+1;
				} else {
					subpacket_length=ntohs(*(uint16 *)(p->pBuffer+processed+1));
					_log(NET__NET_CREATE, _L "Extracting combined app packet of length %d, short len" __L, subpacket_length);
					ap=MakeApplicationPacket(p->pBuffer+processed+3,subpacket_length);
					processed+=subpacket_length+3;
				}
				if (ap) {
					ap->copyInfo(p);
					InboundQueuePush(ap);
				}
			}
		}
		break;
		
		case OP_Packet: {
			if(!p->pBuffer || (p->Size() < 4))
			{
				_log(NET__ERROR, _L "Received OP_Packet that was of malformed size" __L);
				break;
			}
			uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
			SeqOrder check=CompareSequence(NextInSeq,seq);
			if (check == SeqFuture) {
					_log(NET__DEBUG, _L "Future OP_Packet: Expecting Seq=%d, but got Seq=%d" __L, NextInSeq, seq);
					_raw(NET__DEBUG, seq, p);

					PacketQueue[seq]=p->Copy();
					_log(NET__APP_TRACE, _L "OP_Packet Queue size=%d" __L, PacketQueue.size());

				//SendOutOfOrderAck(seq);

			} else if (check == SeqPast) {
				_log(NET__DEBUG, _L "Duplicate OP_Packet: Expecting Seq=%d, but got Seq=%d" __L, NextInSeq, seq);
				_raw(NET__DEBUG, seq, p);
				SendOutOfOrderAck(seq);  //we already got this packet but it was out of order
			} else {
				// In case we did queue one before as well.
				EQProtocolPacket *qp=RemoveQueue(seq);
				if (qp) {
					_log(NET__NET_TRACE, "OP_Packet: Removing older queued packet with sequence %d", seq);
					delete qp;
				}

				SetNextAckToSend(seq);
				NextInSeq++;
				// Check for an embedded OP_AppCombinded (protocol level 0x19)
				if (*(p->pBuffer+2)==0x00 && *(p->pBuffer+3)==0x19) {
					EQProtocolPacket *subp=MakeProtocolPacket(p->pBuffer+2,p->size-2);
					_log(NET__NET_CREATE, _L "seq %d, Extracting combined packet of length %d" __L, seq, subp->size);
					_raw(NET__NET_CREATE_HEX, seq, subp);
					subp->copyInfo(p);
					ProcessPacket(subp);
					delete subp;
				} else {
					EQRawApplicationPacket *ap=MakeApplicationPacket(p->pBuffer+2,p->size-2);
					if (ap) {
						ap->copyInfo(p);
						InboundQueuePush(ap);
					}
				}
			}
		}
		break;
		
		case OP_Fragment: {
			if(!p->pBuffer || (p->Size() < 4))
			{
				_log(NET__ERROR, _L "Received OP_Fragment that was of malformed size" __L);
				break;
			}
			uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
			SeqOrder check=CompareSequence(NextInSeq,seq);
			if (check == SeqFuture) {
				_log(NET__DEBUG, _L "Future OP_Fragment: Expecting Seq=%d, but got Seq=%d" __L, NextInSeq, seq);
				_raw(NET__DEBUG, seq, p);

				PacketQueue[seq]=p->Copy();
				_log(NET__APP_TRACE, _L "OP_Fragment Queue size=%d" __L, PacketQueue.size());

				//SendOutOfOrderAck(seq);

			} else if (check == SeqPast) {
				_log(NET__DEBUG, _L "Duplicate OP_Fragment: Expecting Seq=%d, but got Seq=%d" __L, NextInSeq, seq);
				_raw(NET__DEBUG, seq, p);
				SendOutOfOrderAck(seq);
			} else {
				// In case we did queue one before as well.
				EQProtocolPacket *qp=RemoveQueue(seq);
				if (qp) {
					_log(NET__NET_TRACE, "OP_Fragment: Removing older queued packet with sequence %d", seq);
					delete qp;
				}
				SetNextAckToSend(seq);
				NextInSeq++;
				if (oversize_buffer) {
					memcpy(oversize_buffer+oversize_offset,p->pBuffer+2,p->size-2);
					oversize_offset+=p->size-2;
					_log(NET__NET_TRACE, _L "Fragment of oversized of length %d, seq %d: now at %d/%d" __L, p->size-2, seq, oversize_offset, oversize_length);
					if (oversize_offset==oversize_length) {
						if (*(p->pBuffer+2)==0x00 && *(p->pBuffer+3)==0x19) {
							EQProtocolPacket *subp=MakeProtocolPacket(oversize_buffer,oversize_offset);
							_log(NET__NET_CREATE, _L "seq %d, Extracting combined oversize packet of length %d" __L, seq, subp->size);
							//_raw(NET__NET_CREATE_HEX, subp);
							subp->copyInfo(p);
							ProcessPacket(subp);
							delete subp;
						} else {
							EQRawApplicationPacket *ap=MakeApplicationPacket(oversize_buffer,oversize_offset);
							_log(NET__NET_CREATE, _L "seq %d, completed combined oversize packet of length %d" __L, seq, ap->size);
							if (ap) {
								ap->copyInfo(p);
								InboundQueuePush(ap);
							}
						}
						delete[] oversize_buffer;
						oversize_buffer=NULL;
						oversize_offset=0;
					}
				} else {
					oversize_length=ntohl(*(uint32 *)(p->pBuffer+2));
					oversize_buffer=new unsigned char[oversize_length];
					memcpy(oversize_buffer,p->pBuffer+6,p->size-6);
					oversize_offset=p->size-6;
					_log(NET__NET_TRACE, _L "First fragment of oversized of seq %d: now at %d/%d" __L, seq, oversize_offset, oversize_length);
				}
			}
		}
		break;
		case OP_KeepAlive: {
#ifndef COLLECTOR
			NonSequencedPush(new EQProtocolPacket(p->opcode,p->pBuffer,p->size));
			_log(NET__NET_TRACE, _L "Received and queued reply to keep alive" __L);
#endif
		}
		break;
		case OP_Ack: {
			if(!p->pBuffer || (p->Size() < 4))
			{
				_log(NET__ERROR, _L "Received OP_Ack that was of malformed size" __L);
				break;
			}
#ifndef COLLECTOR
			uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
			AckPackets(seq);
#ifdef RETRANSMITS
			retransmittimer = Timer::GetCurrentTime();
#endif
#endif
		}
		break;
		case OP_SessionRequest: {
			if(p->Size() < sizeof(SessionRequest))
			{
				_log(NET__ERROR, _L "Received OP_SessionRequest that was of malformed size" __L);
				break;
			}
#ifndef COLLECTOR
			if (GetState()==ESTABLISHED) {
				_log(NET__ERROR, _L "Received OP_SessionRequest in ESTABLISHED state (%d)" __L, GetState());
				
				/*RemoveData();
				init(); 
				State=UNESTABLISHED;*/ 
				_SendDisconnect();
				SetState(CLOSED);
				break;
			}
#endif
			//cout << "Got OP_SessionRequest" << endl;
			init();
			OutboundQueueClear();
			SessionRequest *Request=(SessionRequest *)p->pBuffer;
			Session=ntohl(Request->Session);
			SetMaxLen(ntohl(Request->MaxLength));
			_log(NET__NET_TRACE, _L "Received OP_SessionRequest: session %lu, maxlen %d" __L, (unsigned long)Session, MaxLen);
			SetState(ESTABLISHED);
#ifndef COLLECTOR
			Key=0x11223344;
			SendSessionResponse();
#endif
		}
		break;
		case OP_SessionResponse: {
			if(p->Size() < sizeof(SessionResponse))
			{
				_log(NET__ERROR, _L "Received OP_SessionResponse that was of malformed size" __L);
				break;
			}

			init();
			OutboundQueueClear();
			SessionResponse *Response=(SessionResponse *)p->pBuffer;
			SetMaxLen(ntohl(Response->MaxLength));
			Key=ntohl(Response->Key);
			NextInSeq=0;
			SetState(ESTABLISHED);
			if (!Session)
				Session=ntohl(Response->Session);
			compressed=(Response->Format&FLAG_COMPRESSED);
			encoded=(Response->Format&FLAG_ENCODED);

			_log(NET__NET_TRACE, _L "Received OP_SessionResponse: session %lu, maxlen %d, key %lu, compressed? %s, encoded? %s" __L, (unsigned long)Session, MaxLen, (unsigned long)Key, compressed?"yes":"no", encoded?"yes":"no");
			
			// Kinda kludgy, but trie for now
			if (StreamType==UnknownStream) {
				if (compressed) {
					if (remote_port==9000 || (remote_port==0 && p->src_port==9000)) {
						SetStreamType(WorldStream);
					} else {
						SetStreamType(ZoneStream);
					}
				} else if (encoded) {
					SetStreamType(ChatOrMailStream);
				} else {
					SetStreamType(LoginStream);
				}
			}
		}
		break;
		case OP_SessionDisconnect: {
			//NextInSeq=0;
			EQStreamState state = GetState();
			if(state == ESTABLISHED) {
				//client initiated disconnect?
				_log(NET__NET_TRACE, _L "Received unsolicited OP_SessionDisconnect. Treating like a client-initiated disconnect." __L);
				_SendDisconnect();
				SetState(CLOSED);
			} else if(state == CLOSING) {
				//we were waiting for this anyways, ignore pending messages, send the reply and be closed.
				_log(NET__NET_TRACE, _L "Received OP_SessionDisconnect when we have a pending close, they beat us to it. Were happy though." __L);
				_SendDisconnect();
				SetState(CLOSED);
			} else {
				//we are expecting this (or have already gotten it, but dont care either way)
				_log(NET__NET_TRACE, _L "Received expected OP_SessionDisconnect. Moving to closed state." __L);
				SetState(CLOSED);
			}
		}
		break;
		case OP_OutOfOrderAck: {
			if(!p->pBuffer || (p->Size() < 4))
			{
				_log(NET__ERROR, _L "Received OP_OutOfOrderAck that was of malformed size" __L);
				break;
			}
#ifndef COLLECTOR
			uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
			MOutboundQueue.lock();
			
if(uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
	_log(NET__ERROR, _L "Pre-OOA Invalid Sequenced queue: BS %d + SQ %d != NOS %d" __L, SequencedBase, SequencedQueue.size(), NextOutSeq);
}
if(NextSequencedSend > SequencedQueue.size()) {
	_log(NET__ERROR, _L "Pre-OOA Next Send Sequence is beyond the end of the queue NSS %d > SQ %d" __L, NextSequencedSend, SequencedQueue.size());
}
			//if the packet they got out of order is between our last acked packet and the last sent packet, then its valid.
			if (CompareSequence(SequencedBase,seq) != SeqPast && CompareSequence(NextOutSeq,seq) == SeqPast) {
				_log(NET__NET_TRACE, _L "Received OP_OutOfOrderAck for sequence %d, starting retransmit at the start of our unacked buffer (seq %d, was %d)." __L,
					seq, SequencedBase, SequencedBase+NextSequencedSend);
#ifdef RETRANSMITS
                        	if (!RuleB(EQStream, RetransmitAckedPackets)) {
#endif
					uint16 sqsize = SequencedQueue.size();
					uint16 index = seq - SequencedBase;
					_log(NET__NET_TRACE, _L "         OP_OutOfOrderAck marking packet acked in queue (queue index = %d, queue size = %d)." __L, index, sqsize);
					if (index < sqsize) {
						deque<EQProtocolPacket *>::iterator sitr;
						sitr = SequencedQueue.begin();
						sitr += index;
						(*sitr)->acked = true;
					}
#ifdef RETRANSMITS
				}
                        	if (RuleR(EQStream, RetransmitTimeoutMult)) { // only choose new behavior if multiplier is set
					retransmittimer = Timer::GetCurrentTime();
				}
#endif
				NextSequencedSend = 0;
			} else {
				_log(NET__NET_TRACE, _L "Received OP_OutOfOrderAck for out-of-window %d. Window (%d->%d)." __L, seq, SequencedBase, NextOutSeq);
			}
if(uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
	_log(NET__ERROR, _L "Post-OOA Invalid Sequenced queue: BS %d + SQ %d != NOS %d" __L, SequencedBase, SequencedQueue.size(), NextOutSeq);
}
if(NextSequencedSend > SequencedQueue.size()) {
	_log(NET__ERROR, _L "Post-OOA Next Send Sequence is beyond the end of the queue NSS %d > SQ %d" __L, NextSequencedSend, SequencedQueue.size());
}
			MOutboundQueue.unlock();
#endif
		}
		break;
		case OP_SessionStatRequest: {
			if(p->Size() < sizeof(SessionStats))
			{
				_log(NET__ERROR, _L "Received OP_SessionStatRequest that was of malformed size" __L);
				break;
			}
#ifndef COLLECTOR
			SessionStats *Stats=(SessionStats *)p->pBuffer;
			_log(NET__NET_TRACE, _L "Received Stats: %lu packets received, %lu packets sent, Deltas: local %lu, (%lu <- %lu -> %lu) remote %lu" __L, 
				(unsigned long)ntohl(Stats->packets_received), (unsigned long)ntohl(Stats->packets_sent), (unsigned long)ntohl(Stats->last_local_delta), 
				(unsigned long)ntohl(Stats->low_delta), (unsigned long)ntohl(Stats->average_delta), 
				(unsigned long)ntohl(Stats->high_delta), (unsigned long)ntohl(Stats->last_remote_delta));
			uint64 x=Stats->packets_received;
			Stats->packets_received=Stats->packets_sent;
			Stats->packets_sent=x;
			NonSequencedPush(new EQProtocolPacket(OP_SessionStatResponse,p->pBuffer,p->size));
			AdjustRates(ntohl(Stats->average_delta));
#ifdef RETRANSMITS
			if (RuleR(EQStream, RetransmitTimeoutMult) && ntohl(Stats->average_delta)) {
				//recalculate retransmittimeout using the larger of the last rtt or average rtt, which is multiplied by the rule value
				if((ntohl(Stats->last_local_delta) + ntohl(Stats->last_remote_delta)) > (ntohl(Stats->average_delta) * 2)) {
					retransmittimeout = (ntohl(Stats->last_local_delta) + ntohl(Stats->last_remote_delta)) * RuleR(EQStream, RetransmitTimeoutMult);
				} else {
					retransmittimeout = ntohl(Stats->average_delta) * 2 * RuleR(EQStream, RetransmitTimeoutMult);
				}
				if(retransmittimeout > RuleI(EQStream, RetransmitTimeoutMax))
					retransmittimeout = RuleI(EQStream, RetransmitTimeoutMax);
				_log(NET__NET_TRACE, _L "Retransmit timeout recalculated to %dms" __L, retransmittimeout);
			}
#endif
#endif
		}
		break;
		case OP_SessionStatResponse: {
			_log(NET__NET_TRACE, _L "Received OP_SessionStatResponse. Ignoring." __L);
		}
		break;
		case OP_OutOfSession: {
			_log(NET__NET_TRACE, _L "Received OP_OutOfSession. Ignoring." __L);
		}
		break;
		default:
			EQRawApplicationPacket *ap = MakeApplicationPacket(p);
			if (ap)
				InboundQueuePush(ap);
			break;
	}
}
コード例 #3
0
void UDPConnection::ProcessRawPacket(RawPacket* packet)
{
	lastReceiveTime=SDL_GetTicks();
	dataRecv += packet->length;
	recvOverhead += hsize;
	++recvPackets;

	int packetNum = *(int*)packet->data;
	int ack = *(int*)(packet->data+4);
	unsigned char nak = packet->data[8];

	AckPackets(ack);

	if (nak > 0)	// we have lost $nak packets
	{
		int nak_abs = nak + firstUnacked - 1;
		if (nak_abs >= currentNum)
		{
			// we got a nak for packets which never got sent
			//TODO give error message
		}
		else if (nak_abs != lastNak || lastNakTime < lastReceiveTime-100)
		{
			// resend all packets from firstUnacked till nak_abs
			lastNak=nak_abs;
			lastNakTime=lastReceiveTime;
			for (int b = firstUnacked; b <= nak_abs; ++b)
			{
				SendRawPacket(unackedPackets[b-firstUnacked].data,unackedPackets[b-firstUnacked].length,b);
				++resentPackets;
			}
		}
	}

	if (lastInOrder >= packetNum || waitingPackets.find(packetNum) != waitingPackets.end())
	{
		++droppedPackets;
		delete packet;
		return;
	}

	waitingPackets.insert(packetNum, new RawPacket(packet->data + hsize, packet->length - hsize));
	delete packet;
	packet = NULL;

	packetMap::iterator wpi;
	//process all in order packets that we have waiting
	while ((wpi = waitingPackets.find(lastInOrder+1)) != waitingPackets.end())
	{
		unsigned char buf[UDPBufferSize];
		unsigned bufLength = 0;

		if (fragmentBuffer)
		{
			// combine with fragment buffer
			bufLength += fragmentBuffer->length;
			assert(fragmentBuffer->length < UDPBufferSize);
			memcpy(buf, fragmentBuffer->data, bufLength);
			delete fragmentBuffer;
			fragmentBuffer = NULL;
		}

		lastInOrder++;
#if (BOOST_VERSION >= 103400)
		assert((wpi->second->length + bufLength) < UDPBufferSize);
		memcpy(buf + bufLength, wpi->second->data, wpi->second->length);
		bufLength += (wpi->second)->length;
#else
		memcpy(buf + bufLength, (*wpi).data, (*wpi).length);
		bufLength += (*wpi).length;
#endif
		waitingPackets.erase(wpi);

		for (unsigned pos = 0; pos < bufLength;)
		{
			char msgid = buf[pos];
			ProtocolDef* proto = ProtocolDef::instance();
			if (proto->IsAllowed(msgid))
			{
				unsigned msglength = 0;
				if (proto->HasFixedLength(msgid))
				{
					msglength = proto->GetLength(msgid);
				}
				else
				{
					int length_t = proto->GetLength(msgid);

					// got enough data in the buffer to read the length of the message?
					if (bufLength > pos - length_t)
					{
						// yes => read the length (as byte or word)
						if (length_t == -1)
						{
							msglength = buf[pos+1];
						}
						else if (length_t == -2)
						{
							msglength = *(short*)(buf+pos+1);
						}
					}
					else
					{
						// no => store the fragment and break
						fragmentBuffer = new RawPacket(buf + pos, bufLength - pos);
						break;
					}
				}

				// if this isn't true we'll loop infinitely while filling up memory
				assert(msglength != 0);

				// got the complete message in the buffer?
				if (bufLength >= pos + msglength)
				{
					// yes => add to msgQueue and keep going
					msgQueue.push_back(boost::shared_ptr<const RawPacket>(new RawPacket(buf + pos, msglength)));
					pos += msglength;
				}
				else
				{
					// no => store the fragment and break
					fragmentBuffer = new RawPacket(buf + pos, bufLength - pos);
					break;
				}
			}
			else
			{
				// error
				pos++;
			}
		}
	}
}