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David Evans cs.virginia/evans

Class 36: Public-Key Cryptography. David Evans http://www.cs.virginia.edu/evans. If you want a guarantee, buy a toaster. Clint Eastwood ( The Rookie , 1990). CS200: Computer Science University of Virginia Computer Science. Last Time. How to store securely Store the hash of the password

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David Evans cs.virginia/evans

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  1. Class 36: Public-Key Cryptography David Evans http://www.cs.virginia.edu/evans If you want a guarantee, buy a toaster.Clint Eastwood (The Rookie, 1990) CS200: Computer Science University of Virginia Computer Science

  2. Last Time • How to store securely • Store the hash of the password • One-way, collision resistant hashing function (e.g., md5) • Check the hash of the entered password matches the stored hash • The password is transmitted over the Internet CS 200 Spring 2004

  3. Sending Passwords Encrypt The Internet User Server CS 200 Spring 2004

  4. The Internet Ciphertext Encrypt Decrypt Plaintext Plaintext K K User C = EncryptK (P) P = DecryptK (C) Server CS 200 Spring 2004

  5. PS4: Lorenz Cipher From http://www.codesandciphers.org.uk/lorenz/fish.htm CS 200 Spring 2004

  6. Modern Symmetric Ciphers A billion billion is a large number, but it's not that large a number. Whitfield Diffie • Same idea but: • Use digital logic instead of mechanical rotors • Larger keys (random bits, not rotor alignments) • PS4 = 53; Lorenz  512 < 109 • Modern  128 bits > 1037 • Encrypt blocks of letters at a time CS 200 Spring 2004

  7. Modern Ciphers • AES (Rijndael) successor to DES selected 2001 • 128-bit keys, encrypt 128-bit blocks • Brute force attack (around 1030 times harder than Lorenz) • Try 1 Trillion keys per second • Would take 10790283070806000000 years to try all keys! • If that’s not enough, can use 256-bit key • No known techniques that do better than brute force search CS 200 Spring 2004

  8. The Internet Ciphertext Encrypt Decrypt Plaintext Plaintext K K User Server How do User and Server agree on K (without sending it over the Internet)? CS 200 Spring 2004

  9. Key Agreement Demo (Animated version at end of slides.) CS 200 Spring 2004

  10. Asymmetric Cryptosystems • Need a hard problem (like symmetric cryptosystems) • With a trap door: if you know a secret, the hard problem becomes easy CS 200 Spring 2004

  11. One-Way Functions • Easy to compute, hard to invert • Trap-door one way function: • D (E (M)) = M • E and D are easy to compute. • Revealing E doesn’t reveal an easy way to compute D. • Hence, anyone who knows E can encrypt, but only someone who knows D can decrypt CS 200 Spring 2004

  12. RSA [Rivest, Shamir, Adelman 78] One-way function: multiplication is easy, factoring is hard Trap-door: number theory (Euler and Fermat) CS 200 Spring 2004

  13. Security of RSA • n is public, but not p and q where n = pq • How much work is factoring n? Number Field Sieve (fastest known factoring algorithm) is: O(e1.9223((ln (n))1/3 (ln (ln (n)))2/3) n ~200 digits – would take quintillions of years The movie Sneakers is about what happens if someone discovers a O(nk) factoring algorithm. CS 200 Spring 2004

  14. Asymmetric Cryptosystems • Encryption and Decryption are done with different keys • Keep one of the keys secret, reveal the other EKRA (EKUA (M)) = M Alice’s Public Key: KUA Alice’s Private Key: KRA Only KRA can decrypt a message encrypted using KUA. CS 200 Spring 2004

  15. Public-Key Applications: Privacy Bob Alice • Alice encrypts message to Bob using Bob’s Private Key • Only Bob knows Bob’s Private Key only Bob can decrypt message Decrypt Ciphertext Encrypt Plaintext Plaintext Bob’s Public Key Bob’s Private Key CS 200 Spring 2004

  16. Signatures Bob Alice Signed Message Decrypt Encrypt • Bob knows it was from Alice, since only Alice knows Alice’s Private Key • Non-repudiation: Alice can’t deny signing message (except by claiming her key was stolen!) • Integrity: Bob can’t change message (doesn’t know Alice’s Private Key) Plaintext Plaintext Alice’s Public Key Alice’s Private Key CS 200 Spring 2004

  17. The Internet Ciphertext Encrypt Decrypt Plaintext Plaintext KUS KRS User Server Public Key Private Key How does User know the public key to use? CS 200 Spring 2004

  18. Key Management CS 200 Spring 2004

  19. Approach 1: Meet Secretly • User and Server Operator meet secretly and swap public keys • If you can do that, might as well agree on a secret (symmetric key) instead • Doesn’t work for Internet transactions CS 200 Spring 2004

  20. Approach 2: Public Announcement • Publish public keys in a public forum • Append to email messages • Post on web site • New York Time classifieds • Easy for rogue to pretend to be someone else • Forge email, alter web site, lie to New York Times CS 200 Spring 2004

  21. Approach 3: Public Directory • Trusted authority maintains directory mapping names to public keys • Entities register public keys with authority in some secure way • Authority publishes directory • Print using watermarked paper, special fonts, etc. • Allow secure electronic access • Depends on secure distribution of directory’s key CS 200 Spring 2004

  22. KUS CS = EKRVeriSign[“Server”, KUS] Request CS Approach 4: Certificates VeriSign $$$$ User Server EKUVeriSign (CS) = [“Server”, KUS] Knows KRS CS 200 Spring 2004

  23. KRCA[Server Identity, KUS] KUS[K] Secure channel using K SSL (Secure Sockets Layer) Server Browser Hello Check Certificate using KUCA Pick random K Find K using KRS Note: This is slightly simplified from the actual SSL protocol. This version is vulnerable to a person-in-the-middle attack! CS 200 Spring 2004

  24. Data encrypted using secret key exchanged using some public key associated with some certificate. CS 200 Spring 2004

  25. CS 200 Spring 2004

  26. CS 200 Spring 2004

  27. CS 200 Spring 2004

  28. How do you make yourweb site password form encrypt its input? https:// http:// CS 200 Spring 2004

  29. Charge • Exam 2 due Monday • Next week: • Why Sneakers is also about solving the Cracker Barrel puzzle in O(nk) • (Not necessary to see Sneakers for next week’s classes) CS 200 Spring 2004

  30. Animated version of Asymmetric Cryptography Demo CS 200 Spring 2004

  31. Padlocked Boxes Hi! Alice CS 200 Spring 2004

  32. Alice’s Padlock Alice’s Padlock Key Padlocked Boxes Hi! Alice CS 200 Spring 2004

  33. Shady Sammy’s Slimy Shipping Service Padlocked Boxes Alice Alice’s Padlock Key CS 200 Spring 2004

  34. Bob’s Padlock Bob’s Padlock Key Padlocked Boxes Alice Hi! Bob Alice’s Padlock Key CS 200 Spring 2004

  35. Bob’s Padlock Key Padlocked Boxes Hi! Alice Bob Alice’s Padlock Key CS 200 Spring 2004

  36. Bob’s Padlock Key Padlocked Boxes Hi! Alice Bob Alice’s Padlock Key CS 200 Spring 2004

  37. Padlocked Boxes Alice Hi! Bob Bob’s Padlock Key CS 200 Spring 2004

  38. Padlocked Boxes Hi! Alice Hi! Bob Bob’s Padlock Key CS 200 Spring 2004

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