1. Lecture 1: Introduction Fred Chong CS290N Architectural Support for Secure and Reliable Computing

2. Description This course will examine architectural designs and mechanisms that enhance the security and reliability of computing systems. The course will initially cover the basic properties and building blocks of secure and reliable systems from an architect's perspective. Then we will survey the state of the art. Students will pursue an in-depth class research project relating to the topics covered.

3. Logistics Time: TR 9-10:50 Room: Phelps 2510 Instructor: Prof. Fred Chong; office hours by appointment; Eng I 5163 Textbook: Security Basics for Computer Architects, by Ruby B. Lee. (should be free from a UCSB machine) Prof. Fred ChongSecurity Basics for Computer Architects http://www.cs.ucsb.edu/~chong/290N/ No class: 5/20,22

4. Deadlines Project Proposal due 4/15 Project Drafts due 5/20 Project final papers due 6/6

5. Grading Problem Sets 15% Discussion Topic 25% Project Proposals and Drafts 20% Project Final Report 40%

6. Problem Sets For each assigned paper, write up the following and e-mail me a copy before class: – A summary of the main points of the paper. – A critique of any shortcomings of the paper. – Any ideas on how one would extend the ideas in the paper or address its shortcomings.

7. Leading Discussion Assign a paper for the class to read, one week before your discussion day. Present the paper and supplemental material on your assigned day. Lead discussion, with my help, on the subject.

8. Project Paper The project has two goals: – A critique of 3-5 related research papers. This is not a book report. Do not just summarize what is in the papers. Point out shortcomings and possible areas for extension. – Extension of the area. Address shortcomings or extend the work in the papers. Come up with some ideas and test them with a short project. This can be in the form of some simple analysis, simulations, algorithms, or models. Remember to pick something that will fit in a quarter. Example project paper: – http://www.cs.ucsb.edu/~chong/ftchong-area.ps

9. Textbook: Security Basics for Computer Architects, by Ruby B. Lee. (should be free from a UCSB machine)Security Basics for Computer Architects Synthesis Lecture – Short, geared towards researchers

10. Security Properties Reliability is related to Security Sometimes termed together as “Trustworthy Systems”

11. Access Control

12. Forensic Properties

13. Individual Properties

14. Trustworthy vs Trusted Secure Computer System – Ideally provides Integrity, Confidentiality, Availability Trustworthy Computer – Designed to be dependable and provide security properties Trusted Computer – Security depends upon this machine and all bets are off if it is compromised Trusted Computing Base – All hw and sw that must be trusted – No commodity systems form a dependable trusted computing base – TCM (Trusted Computing Module) – a piece that can be trusted

15. Attacks by Property

16. Attacks by Modality

17. Remote vs Physical Access Remote Intrusion Physical Access – Software attacks – Passive electro-magnetic, thermal observation – Physical tampering Memory bus probes Exposing the chip die

18. Security Architecture Design Methodology

19. “Lee’s Mantra”

20. Reading Ch 1 and 2 of Lee’s book

21. Example: Minos and DACODA Defense against remote intrusions Control-flow hijacking – Buffer-overflow attacks Signature-based defenses Zero-Day Attacks