FastNetMon =========== Author: [Pavel Odintsov](http://ru.linkedin.com/in/podintsov/) pavel.odintsov at gmail.com [My Twitter](https://twitter.com/odintsov_pavel) License: GPLv2 FastNetMon - A high performance DoS/DDoS and netflowk load analyzer built on top of multiple packet capture engines (netmap, PF_RING, sFLOW, Netflow, PCAP). What can we do? We can detect hosts in our own network with a large amount of packets per second/bytes per second or flow per second incoming or outgoing from certain hosts. And we can call an external script which can notify you, switch off a server or blackhole the client. Why did we write this? Because we can't find any software for solving this problem in the open source world! - [Install manual for any Linux](docs/INSTALL.md) - [Install manual for FreeBSD](docs/FreeBSD_INSTALL.md) - [Install manual for Mac OS X](docs/MAC_OS_INSTALL.md) - [Install manual for Slackware](docs/SLACKWARE_INSTALL.md) [![Build Status](https://travis-ci.org/FastVPSEestiOu/fastnetmon.svg?branch=master)](https://travis-ci.org/FastVPSEestiOu/fastnetmon) [![Gitter](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/FastVPSEestiOu/fastnetmon?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge) Features: - Can process incoming and outgoing traffic - Can trigger block script if certain IP loads network with a large amount of packets per second - Can trigger block script if certain IP loads network with a large amount of bytes per second - Can trigger block script if certain IP loads network with a large amount of flows per second - netmap support (open source; wire speed processing; only Intel NICs) - PF_RING ZC/DNA support (wire speed processing on tens of MPPS but needs [license](http://www.ntop.org/products/pf_ring/)) - Can process ![sFLOW](http://sflow.org/images/sflowlogo.gif) v5 - Can process NetFlow v5 and v9 - Can use PCAP for packet sniffing - Can work on mirror/SPAN ports - Supports L2TP decapsulation, VLAN untagging and MPLS processing in mirror mode - Can work on server/soft-router - Can detect DoS/DDoS in 1-2 seconds - Tested up to 10GE with 5-6 Mpps on Intel i7 2600 with Intel Nic 82599 - Complete plugin support Supported platforms: - Linux (Debian 6/7, CentOS 6/7, Ubuntu 12+) - FreeBSD 9, 10, 11 - Mac OS X Yosemite What is "flow" in FastNetMon terms? It's one or multiple udp, tcp, icmp connections with unique src IP, dst IP, src port, dst port and protocol. Main program screen image: ![Main screen image](images/fastnetmon_screen.png) Example for cpu load on Intel i7 2600 with Intel X540/82599 NIC on 400 kpps load: ![Cpu consumption](images/fastnetmon_stats.png) Example deployment scheme: ![Network diagramm](images/network_map.png) Example of first notification: ```bash subject: Myflower Guard: IP xx.xx.xx.xx blocked because incoming attack with power 120613 pps body: IP: XX.XX.XX.XX Initial attack power: 98285 packets per second Peak attack power: 98285 packets per second Attack direction: outgoing Incoming traffic: 62 mbps Outgoing traffic: 65 mbps Incoming pps: 66628 packets per second Outgoing pps: 98285 packets per second Incoming flows: 16 Outgoing flows: 16 Incoming UDP xx.xx.xx.xx:33611 < 216.239.32.109:53 729021 bytes 5927 packets xx.xx.xx.xx:33611 < 216.239.34.109:53 231609 bytes 1883 packets xx.xx.xx.xx:33611 < 216.239.36.109:53 728652 bytes 5924 packets xx.xx.xx.xx:33611 < 216.239.38.109:53 414387 bytes 3369 packets xx.xx.xx.xx:38458 < 216.239.32.109:53 724347 bytes 5889 packets xx.xx.xx.xx:38458 < 216.239.34.109:53 222753 bytes 1811 packets xx.xx.xx.xx:38458 < 216.239.36.109:53 729267 bytes 5929 packets xx.xx.xx.xx:38458 < 216.239.38.109:53 383514 bytes 3118 packets xx.xx.xx.xx:42279 < 216.239.32.109:53 687201 bytes 5587 packets xx.xx.xx.xx:42279 < 216.239.34.109:53 248091 bytes 2017 packets xx.xx.xx.xx:42279 < 216.239.36.109:53 737508 bytes 5996 packets xx.xx.xx.xx:42279 < 216.239.38.109:53 321276 bytes 2612 packets xx.xx.xx.xx:51469 < 216.239.32.109:53 735663 bytes 5981 packets xx.xx.xx.xx:51469 < 216.239.34.109:53 237267 bytes 1929 packets xx.xx.xx.xx:51469 < 216.239.36.109:53 735663 bytes 5981 packets xx.xx.xx.xx:51469 < 216.239.38.109:53 318570 bytes 2590 packets Outgoing UDP xx.xx.xx.xx:33611 > 216.239.32.109:53 531309 bytes 6107 packets xx.xx.xx.xx:33611 > 216.239.34.109:53 531222 bytes 6106 packets xx.xx.xx.xx:33611 > 216.239.36.109:53 531222 bytes 6106 packets xx.xx.xx.xx:33611 > 216.239.38.109:53 531222 bytes 6106 packets xx.xx.xx.xx:38458 > 216.239.32.109:53 527220 bytes 6060 packets xx.xx.xx.xx:38458 > 216.239.34.109:53 527133 bytes 6059 packets xx.xx.xx.xx:38458 > 216.239.36.109:53 527133 bytes 6059 packets xx.xx.xx.xx:38458 > 216.239.38.109:53 527220 bytes 6060 packets xx.xx.xx.xx:42279 > 216.239.32.109:53 539052 bytes 6196 packets xx.xx.xx.xx:42279 > 216.239.34.109:53 539052 bytes 6196 packets xx.xx.xx.xx:42279 > 216.239.36.109:53 539139 bytes 6197 packets xx.xx.xx.xx:42279 > 216.239.38.109:53 539139 bytes 6197 packets xx.xx.xx.xx:51469 > 216.239.32.109:53 532701 bytes 6123 packets xx.xx.xx.xx:51469 > 216.239.34.109:53 532701 bytes 6123 packets xx.xx.xx.xx:51469 > 216.239.36.109:53 532701 bytes 6123 packets xx.xx.xx.xx:51469 > 216.239.38.109:53 532788 bytes 6124 packets ``` Example of second notification: ```bash subject: Myflower Guard: IP xx.xx.xx.xx blocked because incoming attack with power 120613 pps body: IP: xx.zz.xx.1 2014-11-21 08:01:11.419798 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419799 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419816 xx.xx.xx.xx:51469 > 216.239.36.109:53 protocol: udp flags: size: 87 bytes 2014-11-21 08:01:11.419837 216.239.38.109:53 > xx.xx.xx.xx:33611 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419838 216.239.34.109:53 > xx.xx.xx.xx:33611 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419859 216.239.38.109:53 > xx.xx.xx.xx:42279 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419877 xx.xx.xx.xx:51469 > 216.239.38.109:53 protocol: udp flags: size: 87 bytes 2014-11-21 08:01:11.419884 216.239.38.109:53 > xx.xx.xx.xx:33611 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419891 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419906 216.239.38.109:53 > xx.xx.xx.xx:33611 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419907 216.239.38.109:53 > xx.xx.xx.xx:42279 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419908 216.239.38.109:53 > xx.xx.xx.xx:42279 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419916 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419917 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419929 216.239.38.109:53 > xx.xx.xx.xx:33611 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419961 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419962 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419963 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes 2014-11-21 08:01:11.419963 216.239.32.109:53 > xx.xx.xx.xx:38458 protocol: udp flags: size: 123 bytes ``` To enable sFLOW simply specify IP of server with installed FastNetMon and specify port 6343.