Exemplo n.º 1
0
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     lock (padlock)
     {
         PacketStatus status = PacketStatus.UNDETERMINED;
         foreach (MacRule r in rules)
         {
             status = r.GetStatus(in_packet);
             if (status == PacketStatus.BLOCKED)
             {
                 PacketMainReturn pmr = new PacketMainReturn(this);
                 pmr.returnType = PacketMainReturnType.Drop;
                 if (r.GetLogMessage() != null)
                 {
                     pmr.returnType |= PacketMainReturnType.Log;
                     pmr.logMessage = r.GetLogMessage();
                 }
                 if (r.notify)
                 {
                     pmr.returnType |= PacketMainReturnType.Popup;
                 }
                 return pmr;
             }
             else if (status == PacketStatus.ALLOWED)
             {
                 return null;
             }
         }
     }
     return null;
 }
Exemplo n.º 2
0
 public unsafe override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     lock (padlock)
     {
         if (theirMac == null)
             return null;
         EthPacket e = (EthPacket)in_packet;
         if ((e.Proto[0] & 0x01) == 0x01 && (CompareMac(theirMac, e.FromMac) && CompareMac(myMac, e.ToMac) || (CompareMac(theirMac, e.ToMac) && CompareMac(myMac, e.FromMac))))
         {
             INTERMEDIATE_BUFFER* IB = e.IB;
             rc4.SetKeyState(key);
             INTERMEDIATE_BUFFER* iba = (INTERMEDIATE_BUFFER*)Marshal.AllocHGlobal(Marshal.SizeOf(new INTERMEDIATE_BUFFER()));
             iba->m_dwDeviceFlags = IB->m_dwDeviceFlags;
             iba->m_Flags = IB->m_Flags;
             iba->m_Length = IB->m_Length;
             iba->m_qLink = IB->m_qLink;
             for (int x = 12; x < IB->m_Length; x++)
             {
                 iba->m_IBuffer[x] = (byte)(IB->m_IBuffer[x] ^ rc4.Next());
             }
             EthPacket nPacket = new EthPacket(iba);
             nPacket.FromMac = e.FromMac;
             nPacket.ToMac = e.ToMac;
             nPacket.Proto = new byte[2];
             nPacket.Proto[0] = (byte)(0xFE & e.Proto[0]);
             nPacket.Proto[1] = e.Proto[1];
             adapter.ProcessPacket(nPacket);
             return new PacketMainReturn("SimpleMacEncryption") { returnType = PacketMainReturnType.Drop };
         }
     }
     return null;
 }
Exemplo n.º 3
0
 /// <summary>
 /// This is the entry point of a packet and routes it based on what poisoners are currently running
 /// </summary>
 /// <param name="in_packet"></param>
 /// <returns></returns>
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     if ( isARP )
     {
         return arpPoisoner.handlePacket ( in_packet );
     }
     return null;
 }
Exemplo n.º 4
0
        // main routine
        public override PacketMainReturn interiorMain(ref Packet in_packet)
        {
            // if the packet is ICMPv4
            if (in_packet.GetHighestLayer() == Protocol.ICMP)
            {
                ICMPPacket packet = (ICMPPacket)in_packet;
                // check if the packet is allowed and deny all is false
                if (isAllowed(packet.Type.ToString(), packet.Code.ToString(), 4) &&
                    !data.DenyIPv4)
                {
                    return null;
                }
                // else, log and drop it
                else
                {
                    PacketMainReturn pmr;
                    pmr = new PacketMainReturn(this);
                    pmr.returnType = PacketMainReturnType.Drop;
                    if (data.Log)
                    {
                        pmr.returnType |= PacketMainReturnType.Log;
                        pmr.logMessage = "ICMP from " + packet.SourceIP.ToString() + " for " +
                            packet.DestIP.ToString() + " was dropped.";
                    }
                    return pmr;
                }
            }

            // if the packet is ICMPv6
            if (in_packet.GetHighestLayer() == Protocol.ICMPv6)
            {
                ICMPv6Packet packet = (ICMPv6Packet)in_packet;
                if ((isAllowed(packet.Type.ToString(), packet.Code.ToString(), 6) &&
                    !data.DenyIPv6) && isDeniedNDP(packet))
                {
                    return null;
                }
                else
                {
                    PacketMainReturn pmr;
                    pmr = new PacketMainReturn(this);
                    pmr.returnType = PacketMainReturnType.Drop;
                    if (data.Log)
                    {
                        pmr.returnType |= PacketMainReturnType.Log;
                        pmr.logMessage = "ICMPv6 from " + packet.SourceIP.ToString() + " for " +
                            packet.DestIP.ToString() + " was dropped.";
                    }
                    return pmr;
                }
            }
            return null;
        }
Exemplo n.º 5
0
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     if (in_packet.Outbound && in_packet.ContainsLayer(Protocol.DNS))
     {
         DNSPacket dns = (DNSPacket)in_packet;
         lock (cache)
         {
             DNSPacket.DNSAnswer[] answer;
             if (dns.Queries.Length > 0 && cache.TryGetValue(dns.Queries[0].ToString(), out answer))
             {
                 DNSPacket.DNSAnswer[] answers = answer;
                 dns.Answers = answers;
                 dns.DNSFlags = 0x8180;
                 dns.UDPLength = (ushort)(8 + dns.LayerLength());
                 dns.TotalLength = (ushort)(20 + dns.UDPLength);
                 dns.UDPChecksum = dns.GenerateUDPChecksum;
                 dns.Outbound = false;
                 IPAddress temp = dns.SourceIP;
                 dns.SourceIP = dns.DestIP;
                 dns.DestIP = temp;
                 ushort t = dns.SourcePort;
                 dns.SourcePort = dns.DestPort;
                 dns.DestPort = t;
                 dns.HeaderChecksum = dns.GenerateIPChecksum;
                 dns.UDPChecksum = dns.GenerateUDPChecksum;
                 return new PacketMainReturn("DNSCache") { returnType = PacketMainReturnType.Edited };
             }
             else
                 return null;
         }
     }
     else if (!in_packet.Outbound && in_packet.ContainsLayer(Protocol.DNS))
     {
         lock (cache)
         {
             DNSPacket dns = (DNSPacket)in_packet;
             cache[dns.Queries[0].ToString()] = dns.Answers;
         }
         if (CacheUpdate != null)
             new System.Threading.Thread(CacheUpdate).Start();
         return null;
     }
     return null;
 }
Exemplo n.º 6
0
 /// <summary>
 /// chuck out bad packets
 /// </summary>
 /// <param name="in_packet"></param>
 /// <returns></returns>
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     try
     {
         PacketMainReturn pmr;
         if (in_packet.ContainsLayer(Protocol.TCP))
         {
             // cast the packet and check for SYN/outbound
             TCPPacket packet = (TCPPacket)in_packet;
             if (packet.SYN && packet.Outbound)
             {
                 // check if it's blocked
                 for (int i = 0; i < block_ranges.Count; ++i)
                 {
                     // if its heading towards a blacklisted IP
                     if (block_ranges[i].IsInRange(packet.DestIP))
                     {
                         pmr = new PacketMainReturn("IPGuard");
                         // check if we should log it
                         if (this.data.logBlocked)
                         {
                             pmr.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Log;
                             pmr.logMessage = "IPGuard has blocked outgoing packets to " + packet.DestIP;
                         }
                         else
                             pmr.returnType = PacketMainReturnType.Drop;
                         return pmr;
                     }
                 }
             }
             // check if they want to block incoming packets from these addresses
             // as well.
             if (this.data.blockIncoming && !(packet.Outbound))
             {
                 for (int i = 0; i < block_ranges.Count; ++i)
                 {
                     if (block_ranges[i].IsInRange(packet.SourceIP))
                     {
                         pmr = new PacketMainReturn("IPGuard");
                         // check if we should log it
                         if (this.data.logBlocked)
                         {
                             pmr.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Log;
                             pmr.logMessage = "IPGuard has blocked incoming packets from " + packet.SourceIP;
                         }
                         else
                             pmr.returnType = PacketMainReturnType.Drop;
                         return pmr;
                     }
                 }
             }
         }
     }
     catch (Exception e)
     {
         System.Diagnostics.Debug.WriteLine("error processing pmr: " + e.Message );
         System.Diagnostics.Debug.WriteLine(e.StackTrace);
     }
     return null;
 }
Exemplo n.º 7
0
 public PacketStatus GetStatus(Packet pkt)
 {
     if (pkt.ContainsLayer(Protocol.TCP))
     {
         TCPPacket tcppkt = (TCPPacket)pkt;
         if (tcppkt.SYN && !(tcppkt.ACK))
         {
             if (pkt.Outbound && (direction & Direction.OUT) == Direction.OUT)
             {
                 if (port.Contains(tcppkt.DestPort) ||
                      inPortRange(tcppkt.DestPort))
                 {
                     if (log)
                         message = " TCP packet from " + tcppkt.SourceIP.ToString() +
                             ":" + tcppkt.SourcePort.ToString() + " to " +
                             tcppkt.DestIP.ToString() + ":" + tcppkt.DestPort.ToString();
                     return ps;
                 }
             }
             else if (!pkt.Outbound && (direction & Direction.IN) == Direction.IN)
             {
                 if (port.Contains(tcppkt.DestPort) ||
                     inPortRange(tcppkt.DestPort))
                 {
                     if (log)
                         message = " TCP packet from " + tcppkt.SourceIP.ToString() +
                             ":" + tcppkt.SourcePort.ToString() + " to " + tcppkt.DestIP.ToString() +
                             ":" + tcppkt.DestPort.ToString();
                     return ps;
                 }
             }
         }
     }
     return PacketStatus.UNDETERMINED;
 }
Exemplo n.º 8
0
 public PacketStatus GetStatus(Packet pkt)
 {
     if (pkt.ContainsLayer(Protocol.IP))
     {
         IPPacket tcppkt = (IPPacket)pkt;
         if (pkt.Outbound && (direction & Direction.OUT) == Direction.OUT)
         {
             if ( ips.Contains(tcppkt.DestIP))
             {
                 if (log)
                     message = " IP packet from " + tcppkt.SourceIP.ToString() + " to " + tcppkt.DestIP.ToString();
                 return ps;
             }
         }
         else if (!pkt.Outbound && (direction & Direction.IN) == Direction.IN)
         {
             if ( ips.Contains(tcppkt.DestIP))
             {
                 if (log)
                     message = " IP packet from " + tcppkt.SourceIP.ToString() + " to " + tcppkt.DestIP.ToString();
                 return ps;
             }
         }
     }
     return PacketStatus.UNDETERMINED;
 }
Exemplo n.º 9
0
 Quad MakeQuad(Packet in_packet)
 {
     if (in_packet.ContainsLayer(Protocol.TCP))
     {
         TCPPacket tcp = (TCPPacket)in_packet;
         Quad q = new Quad
         {
             dstIP = tcp.DestIP,
             dstPort = tcp.DestPort,
             srcPort = tcp.SourcePort,
             srcIP = tcp.SourceIP
         };
         return q;
     }
     return null;
 }
Exemplo n.º 10
0
 public abstract PacketMainReturn handlePacket(Packet in_packet);
Exemplo n.º 11
0
 public void ProcessPacket(Packet pkt)
 {
     processQueue.Enqueue(pkt);
 }
Exemplo n.º 12
0
        public override PacketMainReturn interiorMain(ref Packet in_packet)
        {
            if (in_packet.ContainsLayer(Protocol.TCP) && !in_packet.Outbound)
            {
                TCPPacket tcp = (TCPPacket)in_packet;
                Quad q = new Quad() { dstIP = tcp.DestIP, dstPort = tcp.DestPort, srcIP = tcp.SourceIP, srcPort = tcp.SourcePort };
                VideoInformation vid;
                if(videos.TryGetValue(q, out vid))
                {
                    if (tcp.SourcePort == 80 && tcp.ACK)
                    {
                        if (tcp.FIN)
                        {
                            //finish the file
                            vid.Done();
                            lock (videos)
                            {
                                videos.Remove(q);
                            }
                        }
                        else
                        {
                            //continue writing then update the openFiles dictionary
                            byte[] data = tcp.GetApplicationLayer_safe();
                            if (data != null && data.Length != 0)
                            {
                                vid.AddData(data, tcp.SequenceNumber);
                            }
                        }
                    }
                }
                else if (tcp.SourcePort == 80 && tcp.ACK)
                {
                    byte[] data = tcp.GetApplicationLayer_safe();
                    string str = ASCIIEncoding.ASCII.GetString(data);
                    if (!str.StartsWith("HTTP/1.1 200 OK"))
                        return null;
                    if (str.Contains("Content-Type: "))
                    {
                        string type = null;
                        string strLen = null;
                        if (!str.Contains("Content-Length: "))
                        {
                            strLen = "0";
                        }
                        string[] lines = str.Replace("\r","").Split("\n".ToCharArray());
                        foreach (string line in lines)
                        {
                            if (type == null && line.StartsWith("Content-Type: "))
                            {
                                type = line.Replace("Content-Type: ", "").Replace("\n", "");
                            }
                            else if (strLen == null && line.StartsWith("Content-Length: "))
                            {
                                strLen = line.Replace("Content-Length: ", "").Replace("\n", "");
                            }
                            if (type != null && strLen != null)
                                break;
                        }
                        if (type.StartsWith("video/") || type == "flv-application/octet-stream" || type.StartsWith("audio/"))
                        {
                            ulong length = ulong.Parse(strLen);
                            if (!videos.ContainsKey(q))
                            {
                                VideoInformation vi = new VideoInformation(q, length, tcp.GetNextSequenceNumber(), type);

                                if (str.Contains("\r\n\r\n"))
                                {
                                    int dataStart = str.IndexOf("\r\n\r\n") + 4;
                                    if (data.Length > dataStart)
                                    {
                                        byte[] first = new byte[data.Length - dataStart];
                                        Buffer.BlockCopy(data, dataStart, first, 0, first.Length);
                                        vi.AddData(first);
                                    }
                                }
                                vi.SetSequence(tcp.GetNextSequenceNumber());
                                lock (videos)
                                {
                                    videos[q] = vi;
                                }
                            }
                        }
                    }
                }
            }
            return null;
        }
Exemplo n.º 13
0
        // main routine
        public override PacketMainReturn interiorMain(ref Packet in_packet)
        {
            PacketMainReturn pmr;

            // check it the packet is, or contains, IP
            if (in_packet.ContainsLayer(Protocol.IP))
            {
                // create a temp IPPacket obj and
                // check the IP address
                IPPacket temp = (IPPacket)in_packet;
                if (!(isIPAllowed(temp.SourceIP)))
                {
                    pmr = new PacketMainReturn(this);
                    pmr.returnType = PacketMainReturnType.Drop;
                    return pmr;
                }
            }

            // simple sanity check to dump the ipcache if it gets too large.
            // this does not effect the blockcache of banned IPs
            if ((ipcache.Count) > 200)
                ipcache.Clear();

            // TCP incoming packets
            if (in_packet.GetHighestLayer() == Protocol.TCP)
            {
                TCPPacket packet = ((TCPPacket)in_packet);
                packet.PacketTime = DateTime.UtcNow;

                // if it's inbound and the SYN flag is set
                if (!packet.Outbound && packet.SYN && !packet.ACK)
                {
                    // first packet init
                    if (TCPprevious_packet == null)
                        TCPprevious_packet = packet;

                    // if the IP hasn't been logged yet
                    if (!(ipcache.ContainsKey(packet.SourceIP)))
                        ipcache.Add(packet.SourceIP, 1);
                    // if the ipcache contains the ip
                    else if (ipcache.ContainsKey(packet.SourceIP))
                    {
                        // increment the packet count if they're coming in fast
                        if ((packet.PacketTime - TCPprevious_packet.PacketTime).TotalMilliseconds <= data.dos_threshold)
                            ipcache[packet.SourceIP] = (ipcache[packet.SourceIP]) + 1;
                        else ipcache[packet.SourceIP] = 1;

                        // check if this packet = previous, if the packet count is > 50,
                        // and if the time between sent packets is less than the threshhold
                        if (packet.SourceIP.Equals(TCPprevious_packet.SourceIP) &&
                            ((ipcache[packet.SourceIP]) > 50) &&
                            (packet.PacketTime - TCPprevious_packet.PacketTime).TotalMilliseconds <= data.dos_threshold)
                        {
                            pmr = new PacketMainReturn(this);
                            pmr.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Log | PacketMainReturnType.Popup;
                            pmr.logMessage = "DoS attempt detected from IP " + packet.SourceIP + " (likely spoofed). "
                                        + " Packets from this IP will be dropped.  You can unblock this IP from the module interface.";
                            data.BlockCache.Add(new BlockedIP(packet.SourceIP, DateTime.UtcNow, "DoS Attempt"));
                            return pmr;
                        }
                    }
                    TCPprevious_packet = packet;
                }
            }

            // fraggle attack mitigation
            if (in_packet.GetHighestLayer() == Protocol.UDP)
            {
                UDPPacket packet = ((UDPPacket)in_packet);
                packet.PacketTime = DateTime.UtcNow;

                // if it's inbound
                if (!(packet.Outbound))
                {
                    // add IP to cache or increment packet count
                    if (!(ipcache.ContainsKey(packet.SourceIP)))
                        ipcache.Add(packet.SourceIP, 1);
                    else
                        ipcache[packet.SourceIP] = (ipcache[packet.SourceIP]) + 1;

                    // if the packet header is empty, headed towards port (7,13,19,17), and count > 50,
                    // then it's probably a fraggle attack
                    if (packet.isEmpty() && packet.DestPort.Equals(7) || packet.DestPort.Equals(13) ||
                         packet.DestPort.Equals(19) || packet.DestPort.Equals(17) &&
                         (ipcache[packet.SourceIP]) > 50)
                    {
                        pmr = new PacketMainReturn(this);
                        pmr.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Log | PacketMainReturnType.Popup;
                        pmr.logMessage = "Potential fraggle attack from " + packet.SourceIP + " (likely spoofed). "
                            + " Packets from this IP will be dropped.  You can unblock this IP from the module interface.";
                        data.BlockCache.Add(new BlockedIP(packet.SourceIP, DateTime.UtcNow, "Fraggle Attempt"));
                        return pmr;
                    }
                }
            }

            // smurf attack mitigation
            if (in_packet.GetHighestLayer() == Protocol.ICMP)
            {
                ICMPPacket packet = ((ICMPPacket)in_packet);
                packet.PacketTime = DateTime.UtcNow;

                if (!(packet.Outbound))
                {
                    // init the previous packet
                    if (ICMPprevious_packet == null)
                        ICMPprevious_packet = packet;

                    // add IP to cache or increment packet count
                    if (!(ipcache.ContainsKey(packet.SourceIP)))
                        ipcache.Add(packet.SourceIP, 1);
                    // if the packet is >= threshold after the previous and it's the same packet, clear up the cache
                    else if ((packet.PacketTime.Millisecond - ICMPprevious_packet.PacketTime.Millisecond) >= data.dos_threshold &&
                                packet.Equals(ICMPprevious_packet))
                        ipcache[packet.SourceIP] = 1;
                    // if the packet is coming in quickly, add it to the packet count
                    else if ((packet.PacketTime.Millisecond - ICMPprevious_packet.PacketTime.Millisecond) <= data.dos_threshold)
                        ipcache[packet.SourceIP] = (ipcache[packet.SourceIP]) + 1;

                    // if the packet is an echo reply and the IP source
                    // is the same as localhost and the time between packets is <= threshhold and
                    // there are over 50 accumulated packets, it's probably a smurf attack
                    if (packet.Type.ToString().Equals("0") &&
                         packet.Code.ToString().Equals("0") &&
                         packet.SourceIP.Equals(getLocalIP()) &&
                         (packet.PacketTime.Millisecond - ICMPprevious_packet.PacketTime.Millisecond) <= data.dos_threshold &&
                         ipcache[packet.SourceIP] > 50)
                    {
                        pmr = new PacketMainReturn(this);
                        pmr.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Log | PacketMainReturnType.Popup;
                        pmr.logMessage = "Potential Smurf attack from " + packet.SourceIP + " (likely spoofed). "
                            + " Packets from this IP will be dropped.  You can unblock this IP from the module interface.";
                        data.BlockCache.Add(new BlockedIP(packet.SourceIP, DateTime.UtcNow, "Smurf Attempt"));
                        return pmr;
                    }
                    ICMPprevious_packet = packet;
                }
            }

            return null;
        }
Exemplo n.º 14
0
 public override PacketMainReturn handlePacket(Packet in_packet )
 {
     throw new NotImplementedException();
 }
Exemplo n.º 15
0
        public override PacketMainReturn interiorMain(ref Packet in_packet)
        {
            PacketMainReturn pmr;
            float av = 0;

            if (in_packet.ContainsLayer(Protocol.TCP))
            {
                // if we're in cloaked mode, respond with the SYN ACK
                // More information about this in the GUI code and help string
                if (data.cloaked_mode && ((TCPPacket)in_packet).SYN)
                {
                    TCPPacket from = (TCPPacket)in_packet;

                    EthPacket eth = new EthPacket(60);
                    eth.FromMac = adapter.InterfaceInformation.GetPhysicalAddress().GetAddressBytes();
                    eth.ToMac = from.FromMac;
                    eth.Proto = new byte[2] { 0x08, 0x00 };

                    IPPacket ip = new IPPacket(eth);
                    ip.DestIP = from.SourceIP;
                    ip.SourceIP = from.DestIP;
                    ip.NextProtocol = 0x06;
                    ip.TotalLength = 40;
                    ip.HeaderChecksum = ip.GenerateIPChecksum;

                    TCPPacket tcp = new TCPPacket(ip);
                    tcp.SourcePort = from.DestPort;
                    tcp.DestPort = from.SourcePort;
                    tcp.SequenceNumber = (uint)new Random().Next();
                    tcp.AckNumber = 0;
                    tcp.WindowSize = 8192;
                    tcp.SYN = true;
                    tcp.ACK = true;
                    tcp.Checksum = tcp.GenerateChecksum;
                    tcp.Outbound = true;
                    adapter.SendPacket(tcp);
                }

                try
                {
                    TCPPacket packet = (TCPPacket)in_packet;

                    // if the IP is in the blockcache, then return
                    if (data.BlockCache.ContainsKey(packet.SourceIP))
                    {
                        pmr = new PacketMainReturn(this);
                        pmr.returnType = PacketMainReturnType.Drop;
                        return pmr;
                    }

                    // checking for TTL allows us to rule out the local network
                    // Don't check for TCP flags because we can make an educated guess that if 100+ of our ports are
                    // fingered with a short window, we're being scanned. this will detect syn, ack, null, xmas, etc. scans.
                    if ((!packet.Outbound) && (packet.TTL < 250))
                    {
                        IPObj tmp;
                        if (ip_table.ContainsKey(packet.SourceIP))
                            tmp = (IPObj)ip_table[packet.SourceIP];
                        else
                            tmp = new IPObj(packet.SourceIP);

                        // add the port to the ipobj, set the access time, and update the table
                        tmp.addPort(packet.DestPort);
                        tmp.time(packet.PacketTime);
                        ip_table[packet.SourceIP] = tmp;
                        av = tmp.getAverage();

                        // if they've touched more than 100 ports in less than 30 seconds and the average
                        // packet time was less than 2s, something's wrong
                        if (tmp.getTouchedPorts().Count >= 100 && (!tmp.Reported) &&
                             tmp.getAverage() < 2000 )
                        {
                            pmr = new PacketMainReturn(this);
                            pmr.returnType = PacketMainReturnType.Log | PacketMainReturnType.Allow;
                            pmr.logMessage = string.Format("{0} touched {1} ports with an average of {2}\n", packet.SourceIP,
                                            tmp.getTouchedPorts().Count, tmp.getAverage());

                            // set the reported status of the IP address
                            ip_table[packet.SourceIP].Reported = true;

                            // add the address to the potential list of IPs and to the local SESSION-BASED list
                            if (!data.blockImmediately)
                            {
                                potentials.Add(packet.SourceIP, ip_table[packet.SourceIP]);
                                detect.addPotential(packet.SourceIP);
                            }
                            // else we want to block it immediately
                            else
                                data.BlockCache.Add(packet.SourceIP, ip_table[packet.SourceIP]);

                            return pmr;
                        }
                    }
                }
                catch (Exception e)
                {
                    pmr = new PacketMainReturn(this);
                    pmr.returnType = PacketMainReturnType.Log;
                    pmr.logMessage = String.Format("{0}\n{1}\n", e.Message, e.StackTrace);

                    return pmr;
                }
            }
            // This will detect UDP knockers.  typically UDP scans are slower, but are combined with SYN scans
            // (-sSU in nmap) so we'll be sure to check for these guys too.
            else if (in_packet.ContainsLayer(Protocol.UDP))
            {
                try
                {
                    UDPPacket packet = (UDPPacket)in_packet;

                    // if the source addr is in the block cache, return
                    if (data.BlockCache.ContainsKey(packet.SourceIP))
                    {
                        pmr = new PacketMainReturn(this);
                        pmr.returnType = PacketMainReturnType.Drop;
                        return pmr;
                    }

                    if ((!packet.Outbound) && (packet.TTL < 250) &&
                        (!packet.isDNS()))
                    {
                        IPObj tmp;
                        if (ip_table.ContainsKey(packet.SourceIP))
                            tmp = (IPObj)ip_table[packet.SourceIP];
                        else
                            tmp = new IPObj(packet.SourceIP);

                        tmp.addPort(packet.DestPort);
                        tmp.time(packet.PacketTime);
                        ip_table[packet.SourceIP] = tmp;
                        av = tmp.getAverage();

                        if ((tmp.getTouchedPorts().Count >= 100) && (!tmp.Reported) &&
                                (tmp.getAverage() < 2000))
                        {
                            pmr = new PacketMainReturn(this);
                            pmr.returnType = PacketMainReturnType.Log | PacketMainReturnType.Allow;
                            pmr.logMessage = string.Format("{0} touched {1} ports with an average of {2}\n", packet.SourceIP,
                                        tmp.getTouchedPorts().Count, tmp.getAverage());

                            ip_table[packet.SourceIP].Reported = true;

                            if (!data.blockImmediately)
                            {
                                potentials.Add(packet.SourceIP, ip_table[packet.SourceIP]);
                                detect.addPotential(packet.SourceIP);
                            }
                            else
                                data.BlockCache.Add(packet.SourceIP, ip_table[packet.SourceIP]);
                            return pmr;
                        }
                    }
                }
                catch (Exception e)
                {
                    pmr = new PacketMainReturn(this);
                    pmr.returnType = PacketMainReturnType.Log;
                    pmr.logMessage = String.Format("{0}\n{1}\n", e.Message, e.StackTrace);
                    return pmr;
                }
            }
            return null;
        }
Exemplo n.º 16
0
        public override PacketMainReturn interiorMain(ref Packet in_packet)
        {
            // let the packet through
            PacketMainReturn pmr = new PacketMainReturn(MODULE_NAME);
            pmr.returnType = PacketMainReturnType.Allow;
            try
            {
                // get a usable form of the packet
                Protocol highestLayer = in_packet.GetHighestLayer();

                string type = "";
                bool outbound = false;
                uint length = 0;
                string ip = "";

                switch (highestLayer)
                {
                    case Protocol.TCP:
                        TCPPacket tcpPacket = (TCPPacket)in_packet;
                        type = TCP;
                        outbound = tcpPacket.Outbound;
                        length = tcpPacket.Length();
                        ip = outbound ? tcpPacket.DestIP.ToString() : tcpPacket.SourceIP.ToString();
                        break;
                    case Protocol.UDP:
                        UDPPacket udpPacket = (UDPPacket)in_packet;
                        type = UDP;
                        length = udpPacket.Length();
                        ip = outbound ? udpPacket.DestIP.ToString() : udpPacket.SourceIP.ToString();
                        break;
                    case Protocol.ARP:
                        ARPPacket arpPacket = (ARPPacket)in_packet;
                        type = ARP;
                        outbound = arpPacket.Outbound;
                        length = arpPacket.Length();
                        ip = outbound ? arpPacket.ATargetIP.ToString() : arpPacket.ASenderIP.ToString();
                        break;
                    case Protocol.DHCP:
                        // no packet structure for this type
                        break;
                    case Protocol.DNS:
                        DNSPacket dnsPacket = (DNSPacket)in_packet;
                        type = DNS;
                        outbound = dnsPacket.Outbound;
                        length = dnsPacket.Length();
                        ip = outbound ? dnsPacket.DestIP.ToString() : dnsPacket.SourceIP.ToString();
                        break;
                    case Protocol.EEth:
                        EETHPacket eethPacket = (EETHPacket)in_packet;
                        type = EETH;
                        outbound = eethPacket.Outbound;
                        length = eethPacket.Length();
                        ip = NO_IP;
                        break;
                    case Protocol.Ethernet:
                        EthPacket ethPacket = (EthPacket)in_packet;
                        type = ETHERNET;
                        outbound = ethPacket.Outbound;
                        length = ethPacket.Length();
                        ip = NO_IP;
                        break;
                    case Protocol.ICMP:
                        ICMPPacket icmpPacket = (ICMPPacket)in_packet;
                        type = ICMP;
                        outbound = icmpPacket.Outbound;
                        length = icmpPacket.Length();
                        ip = ip = outbound ? icmpPacket.DestIP.ToString() : icmpPacket.SourceIP.ToString();
                        break;
                    case Protocol.ICMPv6:
                        ICMPv6Packet icmpv6Packet = (ICMPv6Packet)in_packet;
                        type = ICMPV6;
                        outbound = icmpv6Packet.Outbound;
                        length = icmpv6Packet.Length();
                        ip = outbound ? icmpv6Packet.DestIP.ToString() : icmpv6Packet.SourceIP.ToString();
                        break;
                    case Protocol.IP:
                        IPPacket ipPacket = (IPPacket)in_packet;
                        type = IP;
                        outbound = ipPacket.Outbound;
                        length = ipPacket.Length();
                        ip = outbound ? ipPacket.DestIP.ToString() : ipPacket.SourceIP.ToString();
                        break;
                    case Protocol.SNMP:
                        // no packet structure available for this type
                        break;
                    default:
                        break;
                }

                if (type != "")
                {

                    bufferStatement("insert into connection_log values (" + (outbound ? DIRECTION_OUTBOUND : DIRECTION_INBOUND) + "," + 
                        DateTime.Now.Ticks + ",'" + ip + "'," + length + ",'" + type + "')"); // using Length here...
                                                                                // should TotalLength be used instead?
                }
                
            }
            catch (Exception e)
            {
                PassThru.LogCenter.Instance.Push(MODULE_NAME, e.Message);
            }

            return pmr;
        }
Exemplo n.º 17
0
 public PacketStatus GetStatus(Packet pkt)
 {
     EthPacket epkt = (EthPacket)pkt;
     if (pkt.Outbound && (direction & Direction.OUT) == Direction.OUT)
     {
         if (mac == null || Compare(mac, epkt.ToMac))
         {
             if (log)
                 message = "packet from " + new PhysicalAddress(epkt.FromMac).ToString() +
                     " to " + new PhysicalAddress(epkt.ToMac).ToString();
             return ps;
         }
     }
     else if (!pkt.Outbound && (direction & Direction.IN) == Direction.IN)
     {
         if (mac == null || Compare(mac, epkt.FromMac))
         {
             if (log)
                 message = "packet from " + new PhysicalAddress(epkt.FromMac).ToString() +
                     " to " + new PhysicalAddress(epkt.ToMac).ToString();
             return ps;
         }
     }
     return PacketStatus.UNDETERMINED;
 }
Exemplo n.º 18
0
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     if (in_packet.GetHighestLayer() == Protocol.ARP)
     {
         ARPPacket arpp = (ARPPacket)in_packet;
         if (arpp.isRequest && arpp.Outbound)
         {
             int ip = arpp.ATargetIP.GetHashCode();
             if (!requestedIPs.Contains(ip))
                 requestedIPs.Add(ip);
         }
         else if (!arpp.Outbound)
         {
             int ip = arpp.ASenderIP.GetHashCode();
             if (!arpp.isRequest)
             {
                 if (requestedIPs.Contains(ip))
                 {
                     lock (padlock)
                     {
                         if (data.arpCache.ContainsKey(arpp.ASenderIP))
                         {
                             if (!Compare(data.arpCache[arpp.ASenderIP], arpp.ASenderMac))
                             {
                                 PacketMainReturn pmr = new PacketMainReturn(this);
                                 if (data.RectifyAttacks)
                                     pmr.returnType = PacketMainReturnType.Edited;
                                 else
                                     pmr.returnType = PacketMainReturnType.Drop;
                                 if (data.LogAttacks)
                                     pmr.returnType |= PacketMainReturnType.Log | PacketMainReturnType.Popup;
                                 switch (LanguageConfig.GetCurrentLanguage())
                                 {
                                     case LanguageConfig.Language.NONE:
                                     case LanguageConfig.Language.ENGLISH:
                                         pmr.logMessage = "ARP Response from " + new PhysicalAddress(arpp.ASenderMac).ToString() + " for " + arpp.ASenderIP.ToString() + " does not match the ARP cache.";
                                         break;
                                     case LanguageConfig.Language.CHINESE:
                                         pmr.logMessage = new PhysicalAddress(arpp.ASenderMac).ToString() + "为" + arpp.ASenderIP.ToString() + "的ARP响应不匹配的ARP缓存。";
                                         break;
                                     case LanguageConfig.Language.GERMAN:
                                         pmr.logMessage = "ARP Response von " + new PhysicalAddress(arpp.ASenderMac).ToString() + " für " + arpp.ASenderIP.ToString() + " nicht mit dem ARP-Cache.";
                                         break;
                                     case LanguageConfig.Language.RUSSIAN:
                                         pmr.logMessage = "ARP-ответ от " + new PhysicalAddress(arpp.ASenderMac).ToString() + " для " + arpp.ASenderIP.ToString() + " не соответствует кэш ARP.";
                                         break;
                                     case LanguageConfig.Language.SPANISH:
                                         pmr.logMessage = "Respuesta de ARP de " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " no coincide con la caché ARP.";
                                         break;
                                     case LanguageConfig.Language.PORTUGUESE:
                                         pmr.logMessage = "Resposta da ARP " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " não coincide com o cache ARP.";
                                         break;
                                 }
                                 if (data.RectifyAttacks)
                                 {
                                     arpp.ATargetIP = arpp.ASenderIP;
                                     arpp.ATargetMac = data.arpCache[arpp.ATargetIP];
                                     arpp.ASenderMac = adapter.InterfaceInformation.GetPhysicalAddress().GetAddressBytes();
                                     arpp.FromMac = arpp.ASenderMac;
                                     arpp.ToMac = arpp.ATargetMac;
                                     foreach (UnicastIPAddressInformation ipv4 in adapter.InterfaceInformation.GetIPProperties().UnicastAddresses)
                                     {
                                         if (ipv4.Address.AddressFamily == System.Net.Sockets.AddressFamily.InterNetwork)
                                         {
                                             arpp.ASenderIP = ipv4.Address;
                                             break;
                                         }
                                     }
                                     arpp.Outbound = true;
                                     in_packet = arpp;
                                 }
                                 return pmr;
                             }
                             else
                             {
                                 requestedIPs.Remove(ip);
                             }
                         }
                         else
                         {
                             data.arpCache[arpp.ASenderIP] = arpp.ASenderMac;
                             if (UpdatedArpCache != null)
                                 UpdatedArpCache();
                             requestedIPs.Remove(ip);
                         }
                     }
                 }
                 else
                 {
                     lock (padlock)
                     {
                         if (data.arpCache.ContainsKey(arpp.ASenderIP))
                         {
                             if (!Compare(data.arpCache[arpp.ASenderIP], arpp.ASenderMac))
                             {
                                 PacketMainReturn pmra = new PacketMainReturn(this);
                                 if (data.RectifyAttacks)
                                     pmra.returnType = PacketMainReturnType.Edited;
                                 else
                                     pmra.returnType = PacketMainReturnType.Drop | PacketMainReturnType.Popup;
                                 switch (LanguageConfig.GetCurrentLanguage())
                                 {
                                     case LanguageConfig.Language.NONE:
                                     case LanguageConfig.Language.ENGLISH:
                                         pmra.logMessage = "ARP Response from " + new PhysicalAddress(arpp.ASenderMac).ToString() + " for " + arpp.ASenderIP.ToString() + " does not match the ARP cache.";
                                         break;
                                     case LanguageConfig.Language.CHINESE:
                                         pmra.logMessage = new PhysicalAddress(arpp.ASenderMac).ToString() + "为" + arpp.ASenderIP.ToString() + "的ARP响应不匹配的ARP缓存。";
                                         break;
                                     case LanguageConfig.Language.GERMAN:
                                         pmra.logMessage = "ARP Response von " + new PhysicalAddress(arpp.ASenderMac).ToString() + " für " + arpp.ASenderIP.ToString() + " nicht mit dem ARP-Cache.";
                                         break;
                                     case LanguageConfig.Language.RUSSIAN:
                                         pmra.logMessage = "ARP-ответ от " + new PhysicalAddress(arpp.ASenderMac).ToString() + " для " + arpp.ASenderIP.ToString() + " не соответствует кэш ARP.";
                                         break;
                                     case LanguageConfig.Language.SPANISH:
                                         pmra.logMessage = "Respuesta de ARP de " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " no coincide con la caché ARP.";
                                         break;
                                     case LanguageConfig.Language.PORTUGUESE:
                                         pmra.logMessage = "Resposta da ARP " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " não coincide com o cache ARP.";
                                         break;
                                 }
                                 if (data.RectifyAttacks)
                                 {
                                     arpp.ATargetIP = arpp.ASenderIP;
                                     arpp.ATargetMac = data.arpCache[arpp.ATargetIP];
                                     arpp.ASenderMac = adapter.InterfaceInformation.GetPhysicalAddress().GetAddressBytes();
                                     arpp.FromMac = arpp.ASenderMac;
                                     arpp.ToMac = arpp.ATargetMac;
                                     foreach (UnicastIPAddressInformation ipv4 in adapter.InterfaceInformation.GetIPProperties().UnicastAddresses)
                                     {
                                         if (ipv4.Address.AddressFamily == System.Net.Sockets.AddressFamily.InterNetwork)
                                         {
                                             arpp.ASenderIP = ipv4.Address;
                                             break;
                                         }
                                     }
                                     arpp.Outbound = true;
                                     in_packet = arpp;
                                 }
                                 return pmra;
                             }
                         }
                     }
                     PacketMainReturn pmr = new PacketMainReturn(this);
                     pmr.returnType = PacketMainReturnType.Drop;
                     if (data.LogUnsolic)
                         pmr.returnType |= PacketMainReturnType.Log;
                     switch (LanguageConfig.GetCurrentLanguage())
                     {
                         case LanguageConfig.Language.NONE:
                         case LanguageConfig.Language.ENGLISH:
                             pmr.logMessage = "Unsolicited ARP Response from " + new PhysicalAddress(arpp.ASenderMac).ToString() + " for " + arpp.ASenderIP.ToString();
                             break;
                         case LanguageConfig.Language.CHINESE:
                             pmr.logMessage = "未经请求的ARP应答为" + arpp.ASenderIP.ToString() + "从" + new PhysicalAddress(arpp.ASenderMac).ToString();
                             break;
                         case LanguageConfig.Language.GERMAN:
                             pmr.logMessage = "Initiativbewerbung ARP Response von " + new PhysicalAddress(arpp.ASenderMac).ToString() + " für " + arpp.ASenderIP.ToString();
                             break;
                         case LanguageConfig.Language.RUSSIAN:
                             pmr.logMessage = "Незапрошенные ответ ARP от " + new PhysicalAddress(arpp.ASenderMac).ToString() + " для " + arpp.ASenderIP.ToString();
                             break;
                         case LanguageConfig.Language.SPANISH:
                             pmr.logMessage = "Respuesta ARP no solicitados de " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString();
                             break;
                         case LanguageConfig.Language.PORTUGUESE:
                             pmr.logMessage = "Resposta ARP não solicitadas a partir de " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString();
                             break;
                     }
                     return pmr;
                 }
             }
             else
             {
                 lock (padlock)
                 {
                     if (data.arpCache.ContainsKey(arpp.ASenderIP))
                     {
                         if (!Compare(data.arpCache[arpp.ASenderIP], arpp.ASenderMac))
                         {
                             PacketMainReturn pmr = new PacketMainReturn(this);
                             pmr.returnType = PacketMainReturnType.Drop;
                             if (data.LogAttacks)
                                 pmr.returnType |= PacketMainReturnType.Log | PacketMainReturnType.Popup;
                             switch (LanguageConfig.GetCurrentLanguage())
                             {
                                 case LanguageConfig.Language.NONE:
                                 case LanguageConfig.Language.ENGLISH:
                                     pmr.logMessage = "ARP Response from " + new PhysicalAddress(arpp.ASenderMac).ToString() + " for " + arpp.ASenderIP.ToString() + " does not match the ARP cache.";
                                     break;
                                 case LanguageConfig.Language.CHINESE:
                                     pmr.logMessage = new PhysicalAddress(arpp.ASenderMac).ToString() + "为" + arpp.ASenderIP.ToString() + "的ARP响应不匹配的ARP缓存。";
                                     break;
                                 case LanguageConfig.Language.GERMAN:
                                     pmr.logMessage = "ARP Response von " + new PhysicalAddress(arpp.ASenderMac).ToString() + " für " + arpp.ASenderIP.ToString() + " nicht mit dem ARP-Cache.";
                                     break;
                                 case LanguageConfig.Language.RUSSIAN:
                                     pmr.logMessage = "ARP-ответ от " + new PhysicalAddress(arpp.ASenderMac).ToString() + " для " + arpp.ASenderIP.ToString() + " не соответствует кэш ARP.";
                                     break;
                                 case LanguageConfig.Language.SPANISH:
                                     pmr.logMessage = "Respuesta de ARP de " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " no coincide con la caché ARP.";
                                     break;
                                 case LanguageConfig.Language.PORTUGUESE:
                                     pmr.logMessage = "Resposta da ARP " + new PhysicalAddress(arpp.ASenderMac).ToString() + " para " + arpp.ASenderIP.ToString() + " não coincide com o cache ARP.";
                                     break;
                             }
                             return pmr;
                         }
                     }
                 }
             }
             return null;
         }
         return null;
     }
     return null;
 }
Exemplo n.º 19
0
 public override PacketMainReturn interiorMain(ref Packet in_packet)
 {
     return null;
 }
Exemplo n.º 20
0
 public PacketStatus GetStatus(Packet pkt)
 {
     if (pkt.Outbound && (direction & Direction.OUT) == Direction.OUT)
     {
         if (log)
             message = " packet";
         return ps;
     }
     else if (!pkt.Outbound && (direction & Direction.IN) == Direction.IN)
     {
         if (log)
             message = " packet";
         return ps;
     }
     return PacketStatus.UNDETERMINED;
 }
Exemplo n.º 21
0
 public unsafe void SendPacket(Packet pkt)
 {
     bool worked = false;
     if (pkt.Outbound)
     {
         ETH_REQUEST Request = new ETH_REQUEST();
         INTERMEDIATE_BUFFER* ib = pkt.IB;
         Request.EthPacket.Buffer = (IntPtr)ib;
         Request.hAdapterHandle = adapterHandle;
         if (!Ndisapi.SendPacketToAdapter(hNdisapi, ref Request))
         {
             worked = false;
         }
         else
         {
             worked = true;
         }
     }
     else
     {
         ETH_REQUEST Request = new ETH_REQUEST();
         INTERMEDIATE_BUFFER* ib = pkt.IB;
         Request.EthPacket.Buffer = (IntPtr)ib;
         Request.hAdapterHandle = adapterHandle;
         worked = Ndisapi.SendPacketToMstcp(hNdisapi, ref Request);
     }
     if (pkt.CodeGenerated)
         pkt.ClearGeneratedPacket();
 }
Exemplo n.º 22
0
 public PacketStatus GetStatus(Packet pkt)
 {
     if (pkt.ContainsLayer(Protocol.UDP))
     {
         UDPPacket udppkt = (UDPPacket)pkt;
         if (pkt.Outbound && (direction & Direction.OUT) == Direction.OUT)
         {
             if (log)
                 message = " UDP packet from " + udppkt.SourceIP.ToString() + ":" +
                     udppkt.SourcePort.ToString() + " to " + udppkt.DestIP.ToString() +
                     ":" + udppkt.DestPort.ToString();
             return ps;
         }
         else if (!pkt.Outbound && (direction & Direction.IN) == Direction.IN)
         {
             if (log)
                 message = " UDP packet from " + udppkt.SourceIP.ToString() + ":" +
                     udppkt.SourcePort.ToString() + " to " + udppkt.DestIP.ToString() + ":" + udppkt.DestPort.ToString();
             return ps;
         }
     }
     return PacketStatus.UNDETERMINED;
 }