@Override public void nextPacket(JPacket packet, StringBuilder errbuf) { String source = ""; String destination = ""; String printResult = ""; try { packet.getHeader(ipv4); if (!(ipv4.source()).equals(null)) { source = FormatUtils.ip(ipv4.source()); } if (!(ipv4.destination()).equals(null)) { destination = FormatUtils.ip(ipv4.destination()); } // textPane1.setText(textPane1.getText() + "> Source ip = " + source + "; Destination ip = " // + destination + "\n"); printResult = "> Source ip = " + source + "; Destination ip = " + destination + "\n"; } catch (Exception e) { printResult = printResult + "!!! Exception ip IP Addr > " + e.getCause() + "\n"; textPane1.append(printResult); // textPane1.setCaretPosition(textPane1.getDocument().getLength()); } if (packet.hasHeader(Sip.ID)) { packet.getHeader(sip1); printResult = printResult + "> sip1.getMethod().name() = " + sip1.getMethod().name() + "\n"; } if (packet.hasHeader(Rtp.ID)) { packet.getHeader(rtp1); printResult = printResult + "> rtp1.csrcLength() = " + rtp1.csrcLength() + "; rtp1.csrc() = " + rtp1.csrc() + "; rtp1.ssrc()" + rtp1.ssrc() + "\n"; } /* if (packet.hasHeader(Tcp.ID)) { packet.getHeader(tcp); printResult = printResult + "> tcp.dst_port = " + tcp.destination() + "; tcp.src_port = " + tcp.source() + "; tcp.ack = " + tcp.ack() + "\n"; } if (packet.hasHeader(Udp.ID)) { packet.getHeader(udp1); printResult = printResult + "> udp.dst_port = " + udp1.destination() + "; udp.src_port = " + udp1.source() + "\n"; } */ textPane1.append(printResult + "Frame " + packet.getFrameNumber() + " \n"); // textPane1.setCaretPosition(textPane1.getDocument().getLength()); }
/** * Initialize the network packet from the pcap packet. * * @param packet The captured packet in pcap format. */ private void parsePcapPacket(final PcapPacket packet) { this.length = packet.getTotalSize(); this.timestamp = new Date(packet.getCaptureHeader().timestampInMillis()); final Tcp tcp = new Tcp(); if (packet.hasHeader(tcp)) { packet.getHeader(tcp); this.destinationPort = tcp.destination(); this.sourcePort = tcp.source(); this.isAck = tcp.flags_ACK(); this.isRst = tcp.flags_RST(); this.isSyn = tcp.flags_SYN(); } final Ip4 ip = new Ip4(); if (packet.hasHeader(ip)) { packet.getHeader(ip); this.destinationIp = FormatUtils.ip(ip.destination()); this.sourceIp = FormatUtils.ip(ip.source()); } final JBuffer storage = new JBuffer(JMemory.Type.POINTER); final JBuffer buffer = tcp.peerPayloadTo(storage); if (buffer != null) { this.data = buffer.getByteArray(0, buffer.size()); } }
public void nextPacket(PcapPacket pcappacket, String user) { if (pcappacket.hasHeader(ip)) { if (FormatUtils.ip(ip.source()) != FormatUtils.ip(myinet) && FormatUtils.ip(ip.destination()) != FormatUtils.ip(myinet)) { System.out.println(); System.out.println("IP type:\t" + ip.typeEnum()); System.out.println("IP src:\t-\t" + FormatUtils.ip(ip.source())); System.out.println("IP dst:\t-\t" + FormatUtils.ip(ip.destination())); readdata = true; } } if (pcappacket.hasHeader(eth) && readdata == true) { System.out.println("Ethernet type:\t" + eth.typeEnum()); System.out.println("Ethernet src:\t" + FormatUtils.mac(eth.source())); System.out.println("Ethernet dst:\t" + FormatUtils.mac(eth.destination())); } if (pcappacket.hasHeader(tcp) && readdata == true) { System.out.println("TCP src port:\t" + tcp.source()); System.out.println("TCP dst port:\t" + tcp.destination()); } else if (pcappacket.hasHeader(udp) && readdata == true) { System.out.println("UDP src port:\t" + udp.source()); System.out.println("UDP dst port:\t" + udp.destination()); } /* if (pcappacket.hasHeader(rip) && readdata == true) { System.out.println("RIP count:\t" + rip.count()); System.out.println("RIP header:\t" + rip.getHeader()); } */ if (pcappacket.hasHeader(arp) && readdata == true) { // System.out.println("ARP decode header:\t" + arp.decodeHeader()); // System.out.println("ARP hardware type:\t" + arp. hardwareType()); // System.out.println("ARP hw type descr:\t" + arp.hardwareTypeDescription()); // System.out.println("ARP hw type enum:\t" + arp.hardwareTypeEnum()); // System.out.println("ARP hlen:\t-\t" + arp.hlen()); // System.out.println("ARP operation:\t-\t" + arp.operation()); // System.out.println("ARP plen:\t-\t" + arp.plen()); // System.out.println("ARP protocol type:\t" + arp.protocolType()); // System.out.println("ARP prtcl type descr:\t" + arp.protocolTypeDescription()); // System.out.println("ARP prtcl type enum:\t" + arp.protocolTypeEnum()); // System.out.println("ARP sha:\t-\t" + FormatUtils.mac(arp.sha())); // System.out.println("ARP sha length:\t-\t" + arp.shaLength()); // System.out.println("ARP spa:\t-\t" + FormatUtils.ip(arp.spa())); // System.out.println("ARP spa length:\t-\t" + arp.spaLength()); // System.out.println("ARP spa offset:\t-\t" + arp.spaOffset()); // System.out.println("ARP tha:\t-\t" + FormatUtils.mac(arp.tha())); // System.out.println("ARP tha length:\t-\t" + arp.thaLength()); // System.out.println("ARP tha offset:\t-\t" + arp.thaOffset()); // System.out.println("ARP tpa:\t-\t" + FormatUtils.ip(arp.tpa())); // System.out.println("ARP tpa length:\t-\t" + arp.tpaLength()); // System.out.println("ARP tpa offset:\t-\t" + arp.tpaOffset()); System.out.println("ARP Packet!"); readdata = true; } if (pcappacket.hasHeader(payload) && readdata == true) { payloadContent = payload.getPayload(); System.out.println("Payload:\n"); for (int x = 0; x < payloadContent.length; x++) { System.out.print(payload.toHexdump()); } } if (readdata == true) System.out.println("-\t-\t-\t-\t-"); readdata = false; }