Courses/Computer Science/CPSC 601.29.ISSA.W2014

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Information Systems Security Analysis

A graduate seminar on systems security.


The course is held once per week from 4pm to 6:45pm in ICT 616. There will be a short break around 5:15pm.


This is a graduate seminar. Your grade is based on your ability to critically assess and present research work in the field of systems security. You will have the opportunity to make three presentations.

Session List and Schedule

This is the schedule of papers to read and presentations. Everyone is responsible for reading the "primary readings" each week. Presenters are responsible for reading both the background reading and the primary reading.

Session Date Topic Primary Readings Background Readings Presenter
1 13 Jan. Introduction, Overview Hacking the Abacus: Chapter 2 1 2 3 Locasto
2 20 Jan. S1: History of Memory Corruption, S2: ibid 1 2 3 4 5 slides Locasto
3 27 Jan. S1: Chukuka talk, S2: Heap Feng Shui paper1 (x, x, x) Chukuka
4 3 Feb. S1: TBD, S2: TBD x (x, x, x) Laing
5 10 Feb. S1: TBD, S2: TBD x (x, x, x) Navabisohi
6 17 Feb. no class: reading week no class catch up on readings (none)
7 24 Feb. class will be rescheduled (EDURange time?) x (x, x, x) Rougeau
8 3 March S1: TBD, S2: TBD x (x, x, x) Chukuka
9 10 March S1: TBD, S2: TBD x (x, x, x) Laing
10 17 March S1: TBD, S2: TBD x (x, x, x) Navabisohi
11 24 March S1: TBD, S2: TBD x (x, x, x) Rougeau
12 31 March S1: TBD, S2: TBD x (x, x, x) Chukuka
13 7 April S1: TBD, S2: TBD x (x, x, x) Laing
14 14 April S1: TBD, S2: TBD x1, x2 (x, x, x) Navabisohi, Rougeau


  • Ethics
  • Code Injection (Attacks and Countermeasures)
    • stack
    • heap
    • return-to-libc, ROP
    • countermeasures
      • Artificial Diversity
      • Defensive Weird Machines
  • Isolation, Approaches to System Instrumentation
  • Virtualization and Security
  • IDS
    • Confusion, Parsing
    • Filtering and Reverse Engineering Network Protocols and File Formats

Papers (Primary Readings)

  1. "Improving Host Security with System Call Policies" by Niels Provos, 12th USENIX Security Symposium, Washington, DC, August 2003. PDF
  2. "A Virtual Machine Introspection Architecture for Intrusion Detection" (NDSS 2003)
  3. XFI: Software Guards for System Address Spaces
  4. "Vx32: Lightweight User-level Sandboxing on the x86" (USENIX ATC 2008)
  5. "Native Client: A Sandbox for Portable, Untrusted x86 Native Code" (Oakland 2009)
  6. seL4:
  7. VM-based Security Overkill: A Lament for Applied Systems Security Research. Sergey Bratus, Michael E. Locasto, Ashwin Ramaswamy, and Sean W. Smith. Proceedings of the 19th New Security Paradigms Workshop (NSPW 2010). September 2010. Concord, MA, USA. PDF
  8. Watson, R. N. M., Anderson, J., Laurie, B., and Kennaway, K. Capsicum: practical capabilities for UNIX. In Proceedings of the 19th USENIX Security Symposium, Washington, DC, August 2010
  9. Network Intrusion Detection: Evasion, Traffic Normalization, and End-to-End Protocol Semantics. Mark Handley and Vern Paxson and Christian Kreibich USENIX paper [ html
  10. Jedidiah R. Crandall, Zhendong Su, S. Felix Wu, and Frederic T. Chong. On Deriving Unknown Vulnerabilities from Zero-Day Polymorphic and Metamorphic Worm Exploits. In the proceedings of the 12th ACM Conference on Computer and Communications Security (CCS 2005). Alexandria, Virginia. November 2005
  11. "Return Oriented Rootkits" by Hund, Holz, and Freiling

Papers (Supplemental Readings)

  1. "Protection in Operating Systems" by Michael A. Harrison, Walter L. Ruzzo, and Jeffrey D. Ullman (ACM Digital Library, available via U of C with appropriate network address)
  2. "The (Almost) Complete History of Memory Corruption Attacks"
  3. Protection. Proc. 5th Princeton Conf. on Information Sciences and Systems, Princeton, 1971. Reprinted in ACM Operating Systems Rev. 8, 1 (Jan. 1974), pp 18-24 PDF
  4. "Protection in an information processing utility"
  5. "A hardware architecture for implementing protection rings"
  6. (Sections 1 and 2)
  7. (Abstract, Section 1 and 2)
  8. "The Protection of Information in Computer Systems" by Jerome H. Saltzer and Michael D. Schroeder
  9. F. B. Schneider. Enforceable Security Policies. ACM Transactions on Information and System Security, 2(4), Mar. 2000.
  10. Smashing The Kernel Stack For Fun And Profit
  1. "Transparent Runtime Defense Against Stack Smashing Attacks"
  2. "StackGuard: Automatic Adaptive Detection and Prevention of Buffer-Overflow Attacks"
  3. PointGuard(TM): Protecting Pointers From Buffer Overflow Vulnerabilities

  1. "Building Diverse Computer Systems"
  2. "Randomized Instruction Set Emulation to Disrupt Binary Code Injection Attacks"
  3. "Countering Code-Injection Attacks with Instruction-Set Randomization"]
  1. "A Comparison of Publicly Available Tools for Dynamic Buffer Overflow Prevention"
  2. RIPE:Runtime Intrusion Prevention Evaluator
  3. "On the Effectiveness of Address Space Randomization"
  1. Steven M. Bellovin. Virtual machines, virtual security. Communications of the ACM, 49(10), October 2006. “Inside RISKS” column. html
  2. Virtuoso: Narrowing the Semantic Gap in Virtual Machine Introspection. Brendan Dolan-­‐Gavitt, Tim Leek, Michael Zhivich, Jonathon Giffin, and Wenke Lee. In Proceedings of The 2011 IEEE Symposium on Security and Privacy. Oakland, CA, May 2011.
  3. "Mystifying the debugger for ultimate stealthiness"
  4. "Hardware Enforcement of Application Security Policies Using Tagged Memory" (OSDI 2008)
  5. "Make Least Privilege a Right (Not a Privilege)" (HotOS 2005)
  6. Efficient Monitoring of Untrusted Kernel-Mode Execution (NDSS 2011)

  1. traditional return-to-libc: "Getting around non-executable stack (and fix)" Solar Designer
  2. return-to-libc: Nergal, "Advanced return-into-lib(c) Exploits: PaX Case Study," Phrack 58:4
  3. Return-oriented programming: The Geometry of Innocent Flesh on the Bone: Return-into-libc without Function Calls (on the x86) Hovav Shacham. In Proceedings of CCS 2007, pages 552–561. ACM Press, Oct. 2007.
  4. Insertion, Evasion, and Denial of Service: Eluding Network Intrusion Detection by Thomas H Ptacek and Timothy M. Newsham
  5. On the Infeasibility of Modeling Polymorphic Shellcode. Yingbo Song, Michael E. Locasto, Angelos Stavrou, Angelos D. Keromytis, and Salvatore J. Stolfo. In the Proceedings of the 14th ACM Conference on Computer and Communications Security (CCS 2007). pp. 541--551. October 2007, Alexandria, VA.
  6. English Shellcode Mason, Small, Monrose, MacManus. CCS 2009.

Videos (to watch)

  1. Thomas Dullien and Halvar Flake "Exploitation and State Machines" PDF video

Miscellaneous Links

Ethics and OPSEC

  7. Lines in the Sand: Which Side Are You On in the Hacker Class War
  8. Mindset:
  9. It's OK to let students hack:
  10. On "The Research Value of Publishing Attacks"
  11. ethics of error prevention: