HONEYPOT
HONEYPOT
INTRODUCTION The purposes of honeypot are to detected and learn
from attacks and use that information provides network security.
Honeypots are analyzed by their role of application, which is meant it can be used for production and research.
DEFINATION OF HONEYPOT: "A honeypot is security resource whose value lies
in being probed, attacked, or compromised”. A honeypot is a system that is built and set up in
order to be hacked.
HISTORY
1990-1991: first time , honeypot studies released by Clifford Stoll and Bill Cheswick .
1997: Deception Toolkit version 0.1 was introduced by Fred Cohen.
1998: First commercial honeypot was released which is known as Cyber Cop Sting.
CONTINUED….
1998: Back Officer Friendly honeypot was introduced. It was free and easy to configure. It is working under Windows operating system.
1999: After Back Officer Friendly, people were more into this new technology. Honeynet project started at this year. people understood the aim of the honeypots more.
ARCHITECTURE OF HONEYPOT
HONEYPOT VALUE
• Prevention prevent automated attacks:(Warms and auto-
rooters)
• Detection identify a failure or breakdown in prevention
• Response
TYPES OF HONEYPOT
Research Complex to deploy and maintain. Captures extensive information. Run by a volunteer(non-profit). Used to research the threats organization
face.
Production Easy to use Capture only limited information Used by companies or corporations Mitigates risks in organization
LEVEL OF HONEYPOT
Level of interaction determines the amount of functionality a
honeypot provides
LOW INTERACTION HIGH INTERACTION
Low learning ,complexity & risk High learning ,complexity & risk
HIGH LEVEL INTERACTION
Load of high-interaction honeypots are reduced by preprocessing the traffic using low-interaction honeypots as much as possible.
A high-interaction honeypot can be compromised completely, allowing an adversary to gain full access to the system and use it to launch further network attacks.
In High Interaction Honeypots nothing is emulated everything is real.
High Interaction Honeypots provide a far more detailed picture of how an attack or intrusion progresses or how a particular malware execute in real-time.
LOW LEVEL INTERACTION
This kind of honeypot has a small chance of
being compromised.
It is production honeypot.
Typical use of low-interaction honeypot
includes:
port scans identification,
generation of attack signatures,
trend analysis and malware collection.
LOW INTERACTION VS. HIGH INTERACTION
PLACEMENT OF HONEYPOT In front of the firewall (Internet) DMZ (De-Militarized Zone) Behind the firewall (intranet)
HONEYPOT TOPOLOGY
Mainly, There are two types of honeypot topologies:
Honeynet Virtual Honeypot
Honeynet:
Two or more honeypots on a network form a honeynet. Actual network of computers High-interaction honeypot Its an architecture, not a product
CONTINUED..
Honeynet work: Monitoring, capturing, and analyzing all the packets entering
or leaving through networks.
All the traffic is entering or leaving through the Honeynet is naturally suspect.
Provides real systems, applications, and services for attackers to interact with.
Any traffic entering or leaving is suspect.
DATA CONTROL OF HONEYWALL
Internet
No Restrictions
No Restrictions
Honeypot
Honeypot
ADVANTAGES OF HONEYPOTS
Honeypots are focused (small data sets)s
Honeypots help to catch unknown attacks
Honeypots can capture encrypted activity (cf. Sebek)
Honeypots work with IPv6
Honeypots are very flexible
(advantage/disadvantage?)
Honeypots require minimal resources
DISADVANTAGES OF HONEYPOT
Limited View: honeypots can only track and capture activity that directly interacts with them.
Specifically, honeypots have the risk of being taken over by the bad guy and being used to harm other systems. This risk various for different honeypots.
CONCLUSION
The purpose of this topic was to define the what honeypots are and their
value to the security community. We identified two different types of
honeypots, low-interaction and high-interaction honeypots. Honeypots are not a solution, they are a flexible tool with different
applications to security. Primary value in detection and information gathering. Just the beginning for honeypots.
“ The more you know about your enemy,
the better you can protect yourself”