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Internet Traffic Analysis for Threat Detection

Internet Traffic Analysis for Threat Detection. Joshua Thomas, CISSP Thomas Conley, CISSP Ohio University Communication Network Services. Abstract. Useful logs may already exist at your institution.

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Internet Traffic Analysis for Threat Detection

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  1. Internet Traffic Analysis for Threat Detection Joshua Thomas, CISSP Thomas Conley, CISSP Ohio University Communication Network Services

  2. Abstract • Useful logs may already exist at your institution. • Network transaction logging is a very useful, flexible, and inexpensive tool for network security. • Comprehensive network security relies on log collection and analysis. • Analysis of log files can be automated, and can provide information that can be the basis for prevention and response procedures.

  3. Start with what you have • The collection and analysis of network transaction data is useful for a wide range of tasks • Security management • Network billing and accounting • Network operations management • Performance analysis • As a result, some form of network transaction logs may already exist within your institution, even if not specifically implemented for network security reasons.

  4. “Pointed stick” • Low cost, high returns • Simple to implement • Nonspecific, flexible • Non-restrictive

  5. Fundamental need • Network transaction logs are arguably the most basic, necessary countermeasure in network security. • Logs should form the basis for decisions regarding other security initiatives. • Traffic analysis will be necessary to validate the performance of other security countermeasures.

  6. Needs pyramid: Maslow’s Hierarchy Self-actualization Esteem needs Belongingness and Love needs Safety needs Biological and Physiological needs

  7. Needs pyramid: Network Security IDS/IPS Firewalls Host Security Security Staff Network Transaction Logs

  8. Transparent monitor • Acts as a passive device, gathering traffic and performance statistics at appropriate places in networks (server or client locations) • Is not necessarily a point of failure in your network • Cannot alter network traffic, as active devices such as firewalls or IDS/IPS systems. • However, monitoring can co-exist with other network security devices, such as IPS/IDS

  9. Transparent monitor: Simple setup Upstream Provider Hub Network Network Monitor

  10. Scalable • Mirroring traffic is relatively inexpensive. • Institutions may choose to capture as much data as possible and only perform limited analysis as needed. • There are appropriate solutions for implementing network transaction monitoring at just about every level of a network. • Small lab environment • Single department • University border

  11. Transparent monitor: Large-scale ISP 1 ISP 2 Network Monitor

  12. Selective memory • In order to be able to store and analyze high volumes of traffic, the memory demands must be reduced in some way.

  13. Selective memory: Depth ! ! • IPS/IDS systems generally select certain transactions (via signature matching, etc.) for storage and analysis. In other words, only communications that match a selection criteria are recorded, and all other data is ignored.

  14. Selective memory: Breadth • Flow monitoring accounts for every transaction, but does not retain the content of the transactions. • Transactions contain both routing information and content. Only routing information is retained. • Applications that can capture this sort of transaction data include Argus, tcpdump, Ethereal, cflowd, etc.

  15. Flow metrics • Metrics generally captured in network transaction logs include: • Source, destination IP addresses (for IP traffic) • Beginning, end times • Packet count • Byte count • TTL (for IP traffic) • TCP flags (for TCP/IP traffic) • TCP state progression (for TCP/IP traffic) • Base sequence numbers (for TCP/IP traffic)

  16. Inference • Certain traffic characteristics are very useful in making inferences about the nature of the traffic. • Examples: • Amount of bandwidth consumed • Number of connection attempts • Connections to unused address ranges

  17. Automation • Identifying problems through inference can be automated. • Once the criteria has been clearly defined, then the tasks that were once done by humans can be performed by simple programs. • Once the identification of problems is automated, then those results can be fed into response procedures.

  18. Examples • Compare logs with blacklists, such as known- spyware or spam source IP lists • Examine traffic destined for non-populated subnets • Noise-floor analysis • TCP port usage

  19. Endless possibilities • We are constantly discovering new uses for network transaction logs

  20. About our institution • 4,820 employees (1,069 full-time faculty) • 20,143 students (18,497 full-time students) • 90+ Mbps Internet bandwidth (2 ISP’s) • 6,000,000,000+ packets per day • 3,000,000,000+ source packets • 3,000,000,000+ destination packets • 2,400+ GB per day (500+ DVD-ROMs) • 727 source GB per day • 1,675 destination GB per day • ~12 GB Argus log files generated per day, on average (0.6% of the total bytes represented)

  21. References/Resources • RFC 2724, “RTFM: New Attributes for Traffic Flow Measurement.” (http://www.rfc-editor.org/rfc/rfc2724.txt) • Argus: http://www.qosient.com/argus

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