Yan ChenLab for Internet and Security Technology (LIST)
Dept. of Electrical Engineering and Computer Science
Northwestern University
http://list.cs.northwestern.edu
Intrusion Detection and Forensics for Self-defending Wireless
Networks
The Spread of Sapphire/Slammer Worms
The Current Threat Landscape of Wireless Networks
• Wireless networks, crucial for GIG, face both Internet attacks and their unique attacks– Viruses/worms: e.g., 6 new viruses, including Cabir
and Skulls, with 30 variants targeting mobile devices– Botnets: underground army of the Internet, emerging
for wireless networks
• Big security risks for wireless networks– Few formal analysis about wireless network protocol
vulnerabilities – Existing (wireless) IDSes only focus on existing attacks
» Ineffective for unknown attacks or polymorphic worms
– Little work on attack forensics» E.g., how to identify the command-and-control (C&C) channel
of botnets?
Self-Defending Wireless Networks
• Proactively search of vulnerability for wireless network protocols– Intelligent and thorough checking through combo of
manual analysis + auto search with formal methods– First, manual analysis provide hints and right level of
abstraction for auto search– Then specify the specs and potential capabilities of
attackers in a formal language TLA+ (the Temporal Logic of Actions)
– Then model check for any possible attacks
• Defend against emerging threat – Worm: network-based polymorphic worm signature
generations– Botnet: IRC (Internet relay chat) based C&C
detection and mitigation
Outline• Threat landscape and motivation• Our approach• Accomplishment of this year
– Vulnerability analysis of Mobile IPv6 protocols
– Polymorphic worm signature generation
• Plan for the next year
Accomplishments This Year (I)• Intelligent vulnerability analysis
– Focused on outsider attacks, i.e., w/ unprotected msgs– Checked the complete spec of 802.16e before
authentication» Found some vulnerability, e.g., for ranging (but needs to
change MAC)
– Checked the mobile IPv4/v6» Find an easy attack to disable the route optimization of MIPv6 !
– Partnered with Motorola, very interested in the vulnerability found
• Automatic polymorphic worm signature generation systems for high-speed networks– Fast, noise tolerant w/ proved attack resilience– Talking with Cisco IPS group for tech transfer– Patent filed
• Six conference, one journal papers and a book chap
– Honeynet-based Botnet Scan Traffic Analysis, invited book chapter for Botnet Detection: Countering the Largest Security Threat
– Detecting Stealthy Spreaders Using Online Outdegree Histograms, in the Proc. of the 15th IEEE International Workshop on Quality of Service (IWQoS), 2007 (26.6%).
– Hamsa: Fast Signature Generation for Zero-day Polymorphic Worms with Provable Attack Resilience, to appear in IEEE Symposium on Security and Privacy, 2006 (9%).
– Towards Scalable and Robust Distributed Intrusion Alert Fusion with Good Load Balancing, in Proc. of ACM SIGCOMM Workshop on Large-Scale Attack Defense 2006(33%).
– Automatic Vulnerability Checking of IEEE 802.16 WiMAX Protocols through TLA+, in Proc. of the Second Workshop on Secure Network Protocols (NPSec) (33%).
– A DoS Resilient Flow-level Intrusion Detection Approach for High-speed Networks, to appear in IEEE International Conference on Distributed Computing Systems (ICDCS), 2006 (14%).
– Reverse Hashing for High-speed Network Monitoring: Algorithms, Evaluation, and Applications, Proc. of IEEE INFOCOM, 2006 (18%). Full version to appear in ACM/IEEE Transaction on Networking.
Accomplishments This Year (II)
Mobile IPv6 (RFC 3775)
• Provides mobility at IP Layer
• Enables IP-based communication to continue even when the host moves from one network to another
• Host movement is completely transparent to Layer 4 and above
Mobile IPv6 - Entities
• Mobile Node (MN) – Any IP host which is mobile
• Correspondent Node (CN) – Any IP host communicating with the MN
• Home Agent (HA) – A host/router in the Home network which:– Is always aware of MN’s current location– Forwards any packet destined to MN– Assists MN to optimize its route to CN
Mobile IPv6 - Process
• (Initially) MN is in home network and connected to CN
• MN moves to a foreign network:– Registers new address with HA by sending Binding
Update (BU) and receiving Binding Ack (BA)– Performs Return Routability to optimize route to CN
by sending HoTI, CoTI and receiving HoT, CoT– Registers with CN using BU and BA
Mobile IPv6 in Action
Home AgentCorrespondent
Node
Home Network
Foreign Network
InternetMobile Node
Mobile Node
HA
– MN
TunnelBU
BAHoTI
HoTI
CoTI
HoT
HoT
CoT
BU
BA
Mobile IPv6 Vulnerability
• Nullifies the effect of Return Routability• BA with status codes 136, 137 and 138
unprotected• Man-in-the-middle attack
– Sniffs BU to CN– Injects BA to MN with one of status codes above
• MN either retries RR or gives up route optimization and goes through HA
MIPv6 Attack In ActionMN HA AT CN
HoTI
HoTI
CoTI
CoT
HoTHoT
Start Return
Routability
Restart Return
Routability
Silently Discard
Bind Ack
Bind Update (Sniffed by AT along the way)
Bind Ack Spoofed by AT
Bind Ack
• Only need a wireless network sniffer and a spoofed wired machine (No MAC needs to be changed !)
• Bind ACK often skipped by CN
MIPv6 Vulnerability - Effects
• Performance degradation by forcing communication through sub-optimal routes
• Possible overloading of HA and Home Link• DoS attack, when MN repeatedly tried to
complete the return routability procedure • Attack can be launched to a large number of
machines in their foreign network– Small overhead for continuously sending spoofed
Bind ACK to different machines
TLA Analysis and Experiments
• With the spec modeled in TLA, the TLC search gives two other similar attacks w/ the same vulnerability– Complete the search of vulnerabilities w/
unprotected messages
• Implemented and tested in our lab– Using Mobile IPv6 Implementation for Linux (MIPL)– Tunnel IPv6 through IPv4 with Generic Routing
Encapsulation (GRE) by Cisco– When attack in action, MN repeatedly tried to
complete the return routability procedure – DOS attack !
Outline• Threat landscape and motivation• Our approach• Accomplishment of this year
– Vulnerability analysis of Mobile IPv6 protocols
– Polymorphic worm signature generation
• Plan for the next year
Deployment of SDWN• Attached to a switch connecting BS as a black box• Enable the early detection and mitigation of global
scale attacks• Significantly more challenging compared w/ host-based
IDS/IPS– Huge data volume and lack of host-level information
Original configuration SDWN deployed(a)
(b)
Router/switch
Internet
802.1x
BS
Users
802.1x
BS
Users
Switch/BS controller
Internet
sca
n
po
rtS
DW
Nsy
ste
m
802.1xBS
Users
802.1xBS
Users Honeynet
SDWN
system
Gateway
Automatic Length Based Worm Signature Generation
• Majority of worms exploit buffer overflow vulnerabilities
• Worm packets have a particular field longer than normal
• Length signature generation– Parse the traffic to different fields– Find abnormally long field– Apply a three-step algorithm to determine a
length signature– Length based signature is hard to evade if the
attacker has to overflow the buffer.
Length Based Signature Generator
Filter
SuspiciousTraffic Pool
NormalTraffic Pool
YESQuit
SignaturesLESGCore
ProtocolSpecification
ParsedNormal
ParsedSuspicious
ProtocolParser
NO
Pool sizetoo small?
Evaluation of Signature Quality
• Seven polymorphic worms based on real-world vulnerabilities and exploits from securityfocus.com
• Real traffic collected at two gigabit links of a campus edge routers in 2006 (40GB for evaluation)
• Another 123GB SPAM dataset
Outline• Threat landscape and motivation• Our approach• Accomplishment• Achievement highlight: a Mobile IPv6
vulnerability• Plan for the next year
– Insider attack analysis– Complete the polymorphic worm signature
generation– Intrusion forensics for botnet command and
control channel detection
Insider Attack Analysis • Not hard to become a subscriber• Can five subscribers bring down an entire
wireless network (e.g., WiMAX) ?• Check vulnerability after authentication
• Plan to analyze various layers of WiMAX networks– IEEE 802.16e: MAC layer– Mobile IP v4/6: network layer– EAP layer
802.16e SS Init Flowchart
Work Done
Future work
•Proactively secure the wireless networks• Search of network protocol vulnerabili-ties• Automatically detect and filter unknownand/or polymorphic worms• Intrusion forensics and mitigation forbotnet-based attacks
• Intelligent and complete vulnerability search through the combo of manualanalysis & verification via formal methods• Network-based automatic signature generation for polymorphic worms• Botnet command-and-control channeldetection and mitigation
Intrusion Detection and Forensics for Self-defending Wireless
NetworksYan Chen, Northwestern University
Tel. (847) 491-4946, E-Mail: [email protected]
Scientific/Technical Approach Accomplishments• Successfully check for outsider attack vulnerabilities of MIP v4/6 and 802.16e (WiMAX) protocols • Network-based automatic signature generations
Challenges• State space explosion for vulnerability search w/ formal methods• Large amount of traffic to monitor on high-speed links
Switch/BS controller
Internet
sca
n
po
rtS
DW
Nsy
ste
m
802.1xBS
Users
802.1xBS
Users Honeynet
SDWN
system
Gateway
Conclusions
• Vulnerability analysis of wireless network protocols: 802.16e and mobile IP specs
• Network-based polymorphic worm signature generation for self-defending wireless networks
Thank You !