Example #1
0
static Packet *
vtRPC(VtSession *z, int op, Packet *p)
{
	uint8_t *hdr, buf[2];
	char *err;

	if(z == nil){
		vtSetError(ENotConnected);
		return nil;
	}

	/*
	 * single threaded for the momment
	 */
	vtLock(z->lk);
	if(z->cstate != VtStateConnected){
		vtSetError(ENotConnected);
		goto Err;
	}
	hdr = packetHeader(p, 2);
	hdr[0] = op;	/* op */
	hdr[1] = 0;	/* tid */
	vtDebug(z, "client send: ");
	vtDebugMesg(z, p, "\n");
	if(!vtSendPacket(z, p)) {
		p = nil;
		goto Err;
	}
	p = vtRecvPacket(z);
	if(p == nil)
		goto Err;
	vtDebug(z, "client recv: ");
	vtDebugMesg(z, p, "\n");
	if(!packetConsume(p, buf, 2))
		goto Err;
	if(buf[0] == VtRError) {
		if(!vtGetString(p, &err)) {
			vtSetError(EProtocolBotch);
			goto Err;
		}
		vtSetError(err);
		vtMemFree(err);
		packetFree(p);
		vtUnlock(z->lk);
		return nil;
	}
	if(buf[0] != op+1 || buf[1] != 0) {
		vtSetError(EProtocolBotch);
		goto Err;
	}
	vtUnlock(z->lk);
	return p;
Err:
	vtDebug(z, "vtRPC failed: %s\n", vtGetError());
	if(p != nil)
		packetFree(p);
	vtUnlock(z->lk);
	vtDisconnect(z, 1);
	return nil;
}
Example #2
0
NetworkServer::AutoPacket NetworkServer::receive()
{
	assert(isConnected());

	for (;;) {
		if (_queuedUser) {
			removeUser(_queuedUser);
			_queuedUser = 0;
		}

		Packet* raw = _peer->Receive();
		if (!raw) {
			return AutoPacket();
		}
		AutoDepacketer depacketer(*_peer, raw);

		AutoPacket packet(processPacket(*raw));
		if (packet.get()) {
			User *user = findUser(raw->systemAddress);
			if (!user) {
				packetHeader(std::cout, *raw);
				std::cout << "Packet from unknown user: " << int(packet->kind()) << std::endl;
				continue;
			}
			packet->read(raw, user);
			return packet;
		}
	}
}
void UdpReceiver::readPendingDatagrams()
{
    //while data is available
    while (socket->hasPendingDatagrams())
    {
        QByteArray datagram;
        datagram.resize(socket->pendingDatagramSize());
        QHostAddress sender = RECEIVING_IP;
        quint16 senderPort = RECEIVING_PORT;

        socket->readDatagram(datagram.data(), datagram.size(),
                                &sender, &senderPort);


        //Read Packet Header
        std::string packetHeader(datagram.constData(), 6);
        if(packetHeader.compare("EARNLS")==0)
        {
            emit ackRunLaser();
        }
        else if(packetHeader.compare("EASTLS")==0)
        {
            emit ackStopLaser();
        }
        else if(packetHeader.compare("EASFFS")==0)
        {
            emit ackFullScanMode();
        }
        else if(packetHeader.compare("EASBES")==0)
        {
            emit ackBoundedElevation();
        }
        else if(packetHeader.compare("EASRES")==0)
        {
            emit ackRegionScan();
        }
        else if(packetHeader.compare("EACHLP")==0)
        {
                emit ackLaserSensorPosition();
        }
        else
        {
            parseDatagram(datagram);
        }
    }

}
Example #4
0
File: rpc.c Project: aahud/harvey
void
vtDisconnect(VtSession *z, int error)
{
	Packet *p;
	uint8_t *b;

vtDebug(z, "vtDisconnect\n");
	vtLock(z->lk);
	if(z->cstate == VtStateConnected && !error && z->vtbl == nil) {
		/* clean shutdown */
		p = packetAlloc();
		b = packetHeader(p, 2);
		b[0] = VtQGoodbye;
		b[1] = 0;
		vtSendPacket(z, p);
	}
	if(z->fd >= 0)
		vtFdClose(z->fd);
	z->fd = -1;
	z->cstate = VtStateClosed;
	vtUnlock(z->lk);
}
Example #5
0
int
vtWritePacket(VtSession *z, uint8_t score[VtScoreSize], int type, Packet *p)
{
	int n = packetSize(p);
	uint8_t *hdr;

	if(n > VtMaxLumpSize || n < 0) {
		vtSetError(ELumpSize);
		goto Err;
	}
	
	if(n == 0) {
		memmove(score, vtZeroScore, VtScoreSize);
		return 1;
	}

	hdr = packetHeader(p, 4);
	hdr[0] = type;
	hdr[1] = 0;	/* pad */
	hdr[2] = 0;	/* pad */
	hdr[3] = 0;	/* pad */
	p = vtRPC(z, VtQWrite, p);
	if(p == nil)
		return 0;
	if(!packetConsume(p, score, VtScoreSize))
		goto Err;
	if(packetSize(p) != 0) {
		vtSetError(EProtocolBotch);
		goto Err;
	}
	packetFree(p);
	return 1;
Err:
	packetFree(p);
	return 0;
}
Example #6
0
// --------------------------------------------------------------------
// processPacket
// --------------------------------------------------------------------
bool processPacket(int sock, 
                   File* outFile, 
                   bool display,
		   bool &close) 
{
    LogPacketHeader packetHeader((LogType)0);        
    struct tm *timeInfo=NULL;
    bool magicOK = false;
    int magic=0;
    static Byte data[LOG_DATA_MAX_LENGTH];
    close=false;
    // look for magic
    while (!magicOK) {
        Byte byte=0;
	while(1) {
	  if (peekFromSocket(sock, &byte, 1)==0) {
	    if (byte==0xa0) break;
	    else readFromSocket(sock, &byte, 1);
	  }
	}
        if (peekFromSocket(sock, &magic, sizeof(int))==0) {
            if (magic != LOG_MAGIC_NBR) {
                printf ("*** Packet corrupted try to resynchronize (magic "
                        ": 0x%x != 0x%x) !!!\n", magic, LOG_MAGIC_NBR);
                readFromSocket(sock, &magic, sizeof(int));
            } else {
                break;
            }
        } else {
            return false;
        }
    }
    if (readFromSocket(sock, &packetHeader, sizeof(LogPacketHeader))==0) {
        if (display) {
            printf("    timeStamp = ");
            timeInfo = localtime(&packetHeader.timeStamp.tv_sec);
            printf("%02d/%02d/%02d %02d:%02d:%02d,%06d\n",
                   timeInfo->tm_mday,
                   timeInfo->tm_mon+1,
                   timeInfo->tm_year+1900,
                   timeInfo->tm_hour,
                   timeInfo->tm_min,
                   timeInfo->tm_sec,
                   (int)packetHeader.timeStamp.tv_usec);
        }
	if (packetHeader.type == LOG_TYPE_CLOSE) {
	    printf("Closing log\n");
	    close=true;
	    return false;
	}
	//printf("read length=%d\n", packetHeader.length);
        if (readFromSocket(sock, data, packetHeader.length)==0) {
            if (display) {
	        displayPacket(packetHeader, data);
	    } 
        }
        storePacket(outFile, packetHeader, data); 
        return true;
    } else {
      printf("read error\n");
        return false;
    }
}
Example #7
0
NetworkServer::AutoPacket NetworkServer::processPacket(const Packet& raw)
{
	unsigned char kind = packetKind(raw);

	// User packets
	if (kind >= ID_NOT_INTERNAL) {
		AutoPacket packet(_manager.create(kind));
		if (packet.get()) {
			return packet;
		}
		packetHeader(std::cout, raw);
		std::cout << "Unknown user packet detected: " << int(kind) << std::endl;
		return AutoPacket(new TamperPacket);
	}

	switch (kind) {
	// A client just connected for the first time
	case ID_NEW_INCOMING_CONNECTION:
	{
		// TODO: Timeout for no login
		return AutoPacket();
	}
	// A client is asking to login/register
	case ID_ACCOUNT_LOGIN:
	{
		const User *user = createUser(raw);
		unsigned char sendKind = ID_ACCOUNT_FAILURE;
		AutoPacket packet;
		if (user) {
			sendKind = ID_ACCOUNT_SUCCESS;
			packet.reset(new ConnectionPacket());
		}
		NetworkParams params(sendKind, HIGH_PRIORITY);
		sendSimplePacket(*_peer, params, raw.systemAddress);
		return packet;
	}
	// A client has disconnected
	case ID_DISCONNECTION_NOTIFICATION:
	case ID_CONNECTION_LOST:
	{
		User *user = findUser(raw.systemAddress);
		if (!user) {
			return AutoPacket();
		}
		assert(!_queuedUser);
		_queuedUser = user;

		std::string reason;
		switch (kind) {
		case ID_DISCONNECTION_NOTIFICATION:
			reason = "The client closed the connection.";
			break;
		default:
			reason = "The connection to the client was lost.";
		}
		return AutoPacket(new DisconnectionPacket(reason));
	}
	// A packet was tampered with in transit
	case ID_MODIFIED_PACKET:
		return AutoPacket(new TamperPacket());
	// Some other packet we don't care about
	default:
		packetHeader(std::cout, raw);
		std::cout << "Unused system packet ignored: " << int(kind) << std::endl;
		return AutoPacket();
	}
}