Welcome to CS 395/495 Internet Security: A Measurement-based Approach
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1 Welcome to CS 395/495 Internet Security: A Measurement-based Approach
2 Why Internet Security Internet attacks are increasing in frequency, severity and sophistication Denial of service (DoS) attacks Cost $1.2 billion in CSI/FBI survey 32% of respondents detected DoS attacks directed to their systems Thousands of attacks per week in 2001 Yahoo, Amazon, ebay, Microsoft, White House, etc., attacked
3 Why Internet Security (cont d) Virus and worms Melissa, Nimda, Code Red, Code Red II, Slammer Cause over $28 billion in economic losses in 2003, growing to over $75 billion in economic losses by Code Red (2001): 13 hours infected >360K machines - $2.4 billion loss Slammer (2003): 10 minutes infected > 75K machines - $1 billion loss Security has become one of the hottest jobs even with downturn of economy
4 Overview Course Administrative Trivia What is Internet security? Principles of cryptography Authentication Some slides are in courtesy of J. Kurose and K. Ross
5 Instructor Logistics Yan Chen Office Hours: Wed. 2-4pm or by appointment, Rm 330, 1890 Maple Ave. TA Jason A. Skicewicz Office Hours: Tu. and Th. 3:30-4:30pm, Rm 321, Maple Ave.
6 Course Overview Seminar class: paper reading + a big project Start with the basic concepts of security Cryptography, access control and protection First half focus on large-scale Internet attacks Mobile Malcode (virus/worm): characterization, technologies, history and current defense Denial of service (DoS) attacks Firewall technologies Intrusion detection systems (IDS)
7 Course Overview (cont d) Many new unknown attacks/anomalies remaining Second half: Internet anomaly detection High-speed network measurement and monitoring Network fault diagnostics and root cause analysis BGP/routing anomalies Network topology discovery Measurement-based inference Peer-to-peer system measurement and monitoring
8 Prerequisites and Course Materials Required: CS340 (Intro to computer networking) Highly Recommended: OS or having some familiarity with Unix systems programming No required textbook paper reading! Recommended (see webpage for a complete list) o Firewalls and Internet Security: Repelling the Wily Hacker, 2nd edition, by William R. Cheswick, Steven M. Bellovin, and Aviel D. Rubin o Computer Networking: A Top-Down Approach Featuring the Internet, [KR], Second Edition, James Kurose and Keith Ross, Addison Wesley, 2002
9 Grading No exams for this class Class participation and discussion 10% Paper reading summary 10% In class paper presentation 15% Project 65% Proposal and survey 5% Design document 5% Weekly report and meeting 5% Project presentation 25% Final report 25%
10 Paper Reading Write a very brief summary of each paper, to be ed to the TA before the class Summary should include: Paper title and its author(s) Brief one-line summary A paragraph of the one or two most significant new insight(s) you took away from the paper A paragraph of the one or two most significant flaw(s) of the paper A last paragraph where you state the relevance of the ideas today, potential future research suggested by the article
11 Class Format Introduction of the basic problems, ideas and solutions (10 minutes) Student presentations of the two papers 20 minutes for presentation, and 10 minutes for discussion Summarize with the last 10 minutes Take turns for presentation (~30 papers, 4 papers/student)
12 Format of the Presentation Presentation should include the following Motivation Classification of related work/background Main ideas Evaluation and results Open issues Send the slides to the TA and me for review at least 24 hours ahead of the class Guidelines online
13 Projects The most important part of class Group of 2+ people Project list will be online soon Proposal April pages with another 1-2 pages references. Design Document April pages with a detailed description of the software design, load distribution among group members. Weekly Meeting and Progress Report 4/13-5/25 Each team will schedule a weekly meeting (30 minutes) with me. A work-in-progress report (except the 4/13 week) of 1-2 pages is due 24 hours ahead of the meeting. Project Presentation June 1 and 3 Final Report June 9
14 Communication and Policies Web page: Newsgroup (cs.netsec) is available Send s to instructor and TA for questions inappropriate in newsgroup No late handins! Will be ignored Work division Each team member should do similar amount of work Survey on work division at the end of quarter More contribution, better grade!
15 Overview Course Administrative Trivia What is Internet security? Principles of cryptography Authentication Some slides are in courtesy of J. Kurose and K. Ross
16 What is network security? Confidentiality: only sender, intended receiver should understand message contents sender encrypts message receiver decrypts message Authentication: sender, receiver want to confirm identity of each other Message Integrity: sender, receiver want to ensure message not altered (in transit, or afterwards) without detection Access and Availability: services must be accessible and available to users
17 Friends and enemies: Alice, Bob, Trudy well-known in network security world Bob, Alice (lovers!) want to communicate securely Trudy (intruder) may intercept, delete, add messages Alice channel data, control messages Bob data secure sender secure receiver data Trudy
18 Who might Bob, Alice be? well, real-life Bobs and Alices! Web browser/server for electronic transactions (e.g., on-line purchases) on-line banking client/server DNS servers routers exchanging routing table updates other examples?
19 There are bad guys (and girls) out there! Q: What can a bad guy do? A: a lot! eavesdrop: intercept messages actively insert messages into connection impersonation: can fake (spoof) source address in packet (or any field in packet) hijacking: take over ongoing connection by removing sender or receiver, inserting himself in place denial of service: prevent service from being used by others (e.g., by overloading resources)
20 Overview Course Administrative Trivia What is Internet security? Principles of cryptography Authentication Some slides are in courtesy of J. Kurose and K. Ross
21 The language of cryptography K A Alice s encryption key Bob s decryption K B key plaintext encryption algorithm ciphertext decryption algorithm plaintext symmetric key crypto: sender, receiver keys identical public-key crypto: encryption key public, decryption key secret (private)
22 Symmetric key cryptography substitution cipher: substituting one thing for another monoalphabetic cipher: substitute one letter for another plaintext: abcdefghijklmnopqrstuvwxyz ciphertext: mnbvcxzasdfghjklpoiuytrewq E.g.: Plaintext: bob. i love you. alice ciphertext: nkn. s gktc wky. mgsbc
23 Symmetric key cryptography K A-B K A-B plaintext message, m encryption algorithm ciphertext K (m) A-B decryption algorithm plaintext K (m) A-B m = K ( ) A-B symmetric key crypto: Bob and Alice share know same (symmetric) key: K A-B e.g., key is knowing substitution pattern in mono alphabetic substitution cipher Q: how do Bob and Alice agree on key value?
24 Symmetric key crypto: DES and AES DES: Data Encryption Standard US encryption standard [NIST 1993] 56-bit symmetric key, 64-bit plaintext input How secure is DES? DES Challenge: 56-bit-key-encrypted phrase ( Strong cryptography makes the world a safer place ) decrypted (brute force) in 4 months. Most recent record 22 hours. AES: Advanced Encryption Standard new (Nov. 2001) symmetric-key NIST standard, replacing DES processes data in 128 bit blocks brute force decryption (try each key) taking 1 sec on DES, takes 149 trillion years for AES
25 Public Key Cryptography symmetric key crypto requires sender, receiver know shared secret key Q: how to agree on key in first place (particularly if never met )? public key cryptography radically different approach [Diffie- Hellman76, RSA78] sender, receiver do not share secret key public encryption key known to all private decryption key known only to receiver
26 Public key cryptography K B + K B - Bob s public key Bob s private key plaintext message, m encryption algorithm ciphertext + K (m) B decryption algorithm plaintext message - + m = K (K (m)) B B
27 Public key encryption algorithms Requirements: B - + B need K ( ) and K ( ) such that K (K (m)) = m B B given public key K B, it should be impossible to compute - private key K B + RSA: Rivest, Shamir, Adelson algorithm
28 RSA: Choosing keys 1. Choose two large prime numbers p, q. (e.g., 1024 bits each) 2. Compute n = pq, z = (p-1)(q-1) 3. Choose e (with e<n) that has no common factors with z. (e, z are relatively prime ). 4. Choose d such that ed-1 is exactly divisible by z. (in other words: ed mod z = 1 ). 5. Public key is (n,e). Private key is (n,d). K B + K B -
29 RSA: Encryption, decryption 0. Given (n,e) and (n,d) as computed above 1. To encrypt bit pattern, m, compute c = m e e mod n (i.e., remainder when m is divided by n) 2. To decrypt received bit pattern, c, compute m = c d mod n (i.e., remainder when c d is divided by n) Magic happens! m = (m e d mod n) mod n c Why secure? No quick factorizing algorithm
30 RSA example: Bob chooses p=5, q=7. Then n=35, z=24. e=5 (so e, z relatively prime). d=29 (so ed-1 exactly divisible by z. encrypt: letter m m e c = m e mod n l decrypt: c c d m = c d mod n letter l
31 RSA: another important property - + K (K (m)) = m B B use public key first, followed by private key = + - B B K (K (m)) use private key first, followed by public key Result is the same!
32 Symmetric (DES) vs. Public Key (RSA) Exponentiation of RSA is expensive! AES and DES are much faster 100 times faster in software 1,000 to 10,000 times faster in hardware RSA often used in combination in AES and DES Pass the session key with RSA
33 Overview Course Administrative Trivia What is Internet security? Principles of cryptography Authentication Some slides are in courtesy of J. Kurose and K. Ross
34 Authentication Goal: Bob wants Alice to prove her identity to him Protocol ap1.0: Alice says I am Alice I am Alice Failure scenario??
35 Authentication Goal: Bob wants Alice to prove her identity to him Protocol ap1.0: Alice says I am Alice I am Alice in a network, Bob can not see Alice, so Trudy simply declares herself to be Alice
36 Authentication: another try Protocol ap2.0: Alice says I am Alice in an IP packet containing her source IP address Alice s IP address I am Alice Failure scenario??
37 Authentication: another try Protocol ap2.0: Alice says I am Alice in an IP packet containing her source IP address Alice s IP address I am Alice Trudy can create a packet spoofing Alice s address
38 Authentication: another try Protocol ap3.0: Alice says I am Alice and sends her secret password to prove it. Alice s IP addr Alice s password I m Alice Alice s IP addr OK Failure scenario??
39 Authentication: another try Protocol ap3.0: Alice says I am Alice and sends her secret password to prove it. Alice s IP addr Alice s password I m Alice Alice s IP addr OK playback attack: Trudy records Alice s packet and later plays it back to Bob Alice s IP addr Alice s password I m Alice
40 Authentication: yet another try Protocol ap3.1: Alice says I am Alice and sends her encrypted secret password to prove it. Alice s IP addr encrypted password I m Alice Alice s IP addr OK Failure scenario??
41 Authentication: another try Protocol ap3.1: Alice says I am Alice and sends her encrypted secret password to prove it. Alice s encryppted I m Alice IP addr password Alice s IP addr OK record and playback still works! Alice s IP addr encrypted password I m Alice
42 Authentication: yet another try Goal: avoid playback attack Nonce: number (R) used only once in-a-lifetime ap4.0: to prove Alice live, Bob sends Alice nonce, R. Alice must return R, encrypted with shared secret key I am Alice R Failures, drawbacks? K (R) A-B Alice is live, and only Alice knows key to encrypt nonce, so it must be Alice!
43 Authentication: ap5.0 ap4.0 requires shared symmetric key can we authenticate using public key techniques? ap5.0: use nonce, public key cryptography R I am Alice - K A (R) send me your public key + K A Bob computes + - K A(K (R)) = R A and knows only Alice could have the private key, that encrypted R such that + - K A (K (R)) = R A
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