1 / 16

Reporter: 高嘉男 Advisor: Chin-Laung Lei 2009/12/07

A First Step towards Live Botmaster Traceback Daniel Ramsbrock, Xinyuan Wang, and Xuxian Jiang - the 11th International Symposium on Recent Advances in Intrusion Detection ( RAID 08 ), 2008. Reporter: 高嘉男 Advisor: Chin-Laung Lei 2009/12/07. 1. Outline. Introduction

thelmalin
Download Presentation

Reporter: 高嘉男 Advisor: Chin-Laung Lei 2009/12/07

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. A First Step towards Live Botmaster TracebackDaniel Ramsbrock, Xinyuan Wang, and Xuxian Jiang- the 11th International Symposium on Recent Advances in Intrusion Detection (RAID 08), 2008. Reporter: 高嘉男 Advisor: Chin-Laung Lei 2009/12/07 1

  2. Outline • Introduction • Four challenges of tracking the botmaster • Botmaster traceback model • Length-based watermarking scheme • Basic length-based watermarking scheme • Hybrid length-timing watermarking for encrypted traffic • Implementation and experiment • Conclusion

  3. Four Challenges of Tracking the Botmaster • Botmaster does not directly connect to the C&C server • Low traffic volume between bot & botmaster • Encryption • Flow mixing

  4. Tracking the Botmaster by Watermarking Botnet Traffic

  5. Basic Length-based Watermarking Scheme - Watermark Bit Encoding • Notation: • f : packet flow of n packets P1, …, Pn • -bit watermark W : w0, … , wl-1 • packet pairs: • : reference packet: encoding packet • lr , le: packet lengths of encoding packet & reference packet • L : bucket size • Assign watermark bit wkinto • Encoding function

  6. Watermark Bit Decoding • Decoding function • Decode the watermark bit

  7. Watermark Collision Probability (False Positive Rate) • Error tolerance • f contains watermark W if • Watermark collision • Watermark W is found in an unwatermarked flow • Collision probability • Experiment: decode 1,000 unwatermarked flows • Choose h = 4 • False positive rate = 9.64 x 10-6

  8. Watermark Collision Probability and Distribution

  9. Hybrid Length-Timing Watermarking for Encrypted Traffic • Chaff messages • Unwatermarked messages from other bots • Unencrypted traffic • Encrypted traffic • Send encoding packets at a specific time • Assume the network jitter δ is limited • Packets used for decoding :

  10. Implementation of Length-Only Algorithm (Unencrypted Traffic)

  11. Implementation of Hybrid Length-Timing Algorithm (Encrypted Traffic)

  12. Hybrid Length-Timing Algorithm - Encoder & Decoder • Encoder • Packet flow of 64 packets & 32-bit watermark • Time between messages: 2 ~ 2.35 s • Decoder - offset self-synchronization • Determine t1 : time of the first watermarked packet • Start : t1 = offset, incrementing t1 by step until t1 =(offset + max) • Decode the full watermark sequence for each t1 • Record the number of bits matching the watermark W

  13. Offset Self-Synchronization

  14. Chaff Messages • Five different chaff levels (Chaff 1 to 5) • Chaff 1: time between packets = 1 ~ 2 s • δ = 200 ms • Sliding offset = 0 ~ 10 s

  15. Conclusion • It address the four major challenges: • Stepping stones • Encryption • Flow mixing • Low traffic volume between bot & botmaster • It can successfully trace a watermarked flow • False positive rate <= 10-5

  16. Reference • Daniel Ramsbrock, Xinyuan Wang, and Xuxian Jiang, “A first step towards live botmaster traceback.”, in the 11th International Symposium on Recent Advances in Intrusion Detection (RAID 08), 2008.

More Related