Showing blog posts from August 2012

Thursday, 30 August 2012 12:03:00 (UTC/GMT)

SCADA Network Forensics with IEC-104


A great way to enable digital forensics of control system networks is to implement network security monitoring. Captured network traffic is a great source for evidence when analyzing an attackers steps as he attempts to hack a SCADA system. The newly added support for the IEC-104 protocol in NetworkMiner also allows investigators and incident responders to see what commands the attacker sent to the control system.

We at Netresec recently announced the release of NetworkMiner 1.4, which comes with a parser for the SCADA protocol IEC 60870-5-104 (aka IEC-104). Bringing this Industrial Control System (ICS) protocol into NetworkMiner is a first step to support forensics of compromised ICS networks. The traffic from ICS networks does, of course, need to be captured (sniffed) in order to support network forensics; we are strong supporters of such network monitoring for ICS networks (read our “Monitor those Control System Networks” blog post for more details).

Why monitor ICS networks?

Computer forensics typically involves performing forensic analysis of hard disks. Disk forensics is very effective when analyzing a hard drive from a PC (like an operator workstation), but far more complicated when it is an embedded device like a PLC or RTU that is to be analyzed.

In regard to what was believed to be a hacked SCADA system at a water facility in Illinois, David Marcus from McAfee said:

“My gut tells me that there is greater targeting and wider compromise than we know about. Why? Again, my instincts tell me that there is a lack of cyber forensics and response procedures at most of these facilities. If you do not have cyber forensic capabilities, it is hard to know if you have a cyber intrusion.”

Even though the hack was later shown to just be just a false alarm, David’s point about lacking capabilities for digital forensics and incident response for this type of critical infrastructure still holds true.

Joe Weiss also commented on the same story saying:

“We don't know how many other SCADA systems have been compromised because they don't really have cyber forensics.”

As Joe and David say, the ability to perform digital forensics in SCADA systems is truly lacking today. Our propose with this blog post is to inform control system operators that forensic data/evidence can be easily collected from ICS / SCADA systems by implementing a simple solution for network monitoring with full packet capture.

How to monitor ICS networks

The SCADA network diagram below has been sectioned into multiple security zones according to the zoning principle published by Jens Z, Iiro and me at CIRED 2009 (our zones align nicely with ISA-99 security Levels by the way).

SCADA Network with security zones

The purple octagons represent interconnections between zones. Each such interconnection should be secured with perimeter protection, typically by a firewall, but we additionally argue that all network traffic passing through should be captured and stored as pcap files. Storing all network traffic this way makes it possible to perform network forensics on the network traffic after an intrusion is believed to have taken place.

We recommend a very simple setup, where a network tap is used to provide a copy of all traffic to a sniffer. An acceptable alternative to buying a network tap is to configure a monitor / SPAN port on a switch (see our sniffing tutorial “Intercepting Network Traffic” for more details on how to choose sniffing hardware).

Connection of network tap and sniffer

Our recommended solution for the sniffer is to install FreeBSD with dumpcap (part of the net/tshark ports package). An even easier solution is to install Doug BurksSecurity Onion, which is a Linux distro built especially for network security monitoring. More about configuring a sniffer can be found in our second sniffing tutorial titled “Dumping Network Traffic to Disk”.

Analyzing captured IEC 104 traffic

Let’s assume the file 090813_diverse.pcap from pcapr contains network traffic from a suspected security breach at a hydro-power plant. Let’s also assume that parameter 4821 (i.e. IOA 4821 in IEC-104 language) controls the floodgates of the plant’s dam, where setting a value greater than 0% for this parameter would mean opening the floodgates.

By loading the pcap file into NetworkMiner and selecting the “parameters” tab we can see a nice log of all IEC-104 communication.

NetworkMiner 1.4.1 with Parameters tab

NOTE: We’ve hidden several fields (like IP, port, time etc) in the screenshot above in order to make it fit.

The following timeline can be extracted from the list of events provided by NetworkMiner:

  • Frame 154 - The attacker sends command to set IOA 4821 to 50.354%
  • Frame 156 - The RTU confirms the request
  • Frame 162 - The RTU reports that the requested command has been successfully completed, i.e. floodgates are now open!

Open dam gates by David Baird

More ICS protocols

Would you like to see more ICS protocols in NetworkMiner? We’d be happy to implement protocols like DNP3, MODBUS, ICCP, Siemens S7, IEC 61850, etc. if you can provide us with captured network traffic! Please send an email to info[at] if you are interested!

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Posted by Erik Hjelmvik on Thursday, 30 August 2012 12:03:00 (UTC/GMT)

Thursday, 16 August 2012 20:17:00 (UTC/GMT)

NetworkMiner 1.4 Released

NetworkMiner Logo Version 1.4 of NetworkMiner has been released! The new features in NetworkMiner 1.4 include:
  • Better handling of fragmented IPv4 packets.
  • Verification of ".pcap" file extension is completely removed. Files with any extension can now be loaded, provided they are valid libpcap files.
  • DHCP options are extracted and presented on the parameters tab.
  • Parser for the IEC 60870-5-104 protocol. This feature will be covered in more detail in a separate blog post soon.

GUI improvements

A long awaited "Clear GUI" menu entry has been added to the "Tools" menu. This feature will be welcomed by users who previously restarted NetworkMiner in order to clear the GUI. Clear GUI
NetworkMiner 1.4 with Clear GUI menu item

The Credentials tab has now gotten a check box that allows the user to show/hide captured HTTP cookies. This provides for a much cleaner view of captured usernames and passwords.

NetworkMiner Professional

The professional version of NetworkMiner additionally includes a functionality that allows the user to specify customized port-to-protocol mappings. This feature will typically not provide much value for protocols using TCP, since the protocol identification feature in NetworkMiner Professional will identify the application layer protocol automatically. NetworkMiner does, however, not automatically recognize protocols running on top of UDP; this is where the manual port-to-protocol feature can come in handy.

NetworkMiner Professional Settings
Settings window in NetworkMiner Professional

Download NetworkMiner 1.4

The most recent release of the free (open source) version of NetworkMiner can be downloaded from SourceForge. Paying customers can download an update for NetworkMiner Professional from our customer portal.

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Posted by Erik Hjelmvik on Thursday, 16 August 2012 20:17:00 (UTC/GMT)


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Recommended Books

» The Practice of Network Security Monitoring, Richard Bejtlich (2013)

» Applied Network Security Monitoring, Chris Sanders and Jason Smith (2013)

» Network Forensics, Sherri Davidoff and Jonathan Ham (2012)

» The Tao of Network Security Monitoring, Richard Bejtlich (2004)

» Practical Packet Analysis, Chris Sanders (2011)

» Windows Forensic Analysis, Harlan Carvey (2009)

» TCP/IP Illustrated, Volume 1, Kevin Fall and Richard Stevens (2011)

» Industrial Network Security, Eric D. Knapp and Joel Langill (2014)