As stated before, we need some sensitive information from each botnet that enables us to place a fake bot into a botnet. The needed information include:
Using a GenII Honeynet containing some Windows honeypots and snort_inline enables us to collect this information. We deployed a typical GenII Honeynet with some small modifications as depicted in the next figure:
The Windows honeypot is an unpatched version of Windows 2000 or Windows XP. This system is thus very vulnerable to attacks and normally it takes only a couple of minutes before it is successfully compromised. It is located within a dial-in network of a German ISP. On average, the expected lifespan of the honeypot is less than ten minutes. After this small amount of time, the honeypot is often successfully exploited by automated malware. The shortest compromise time was only a few seconds: Once we plugged the network cable in, an SDBot compromised the machine via an exploit against TCP port 135 and installed itself on the machine.
As explained in the previous section, a bot tries to connect to an IRC server to obtain further commands once it successfully attacks one of the honeypots. This is where the Honeywall comes into play: Due to the Data Control facilities installed on the Honeywall, it is possible to control the outgoing traffic. We use snort_inline for Data Control and replace all outgoing suspicious connections. A connection is suspicious if it contains typical IRC messages like " 332 ", " TOPIC ", " PRIVMSG " or " NOTICE ". Thus we are able to inhibit the bot from accepting valid commands from the master channel. It can therefore cause no harm to others - we have caught a bot inside our Honeynet. As a side effect, we can also derive all necessary sensitive information for a botnet from the data we have obtained up to that point in time: The Data Capture capability of the Honeywall allows us to determine the DNS/IP-address the bot wants to connect to and also the corresponding port number. In addition, we can derive from the Data Capture logs the nickname and ident information. Also, the server's password, channel name as well as the channel password can be obtained this way. So we have collected all necessary information and the honeypot can catch further malware. Since we do not care about the captured malware for now, we rebuild the honeypots every 24 hours so that we have "clean" systems every day. The German Honeynet Project is also working on another project - to capture the incoming malware and analyzing the payload - but more on this in a later section.