1 20 January 2006

Cryptographic Tools• Three basic tools are used

– Encryption is used to provide confidentiality

– Digital signatures are used to provide authentication, integrity protection, and non-repudiation

– Checksums/hash algorithms are used to provide integrity protection

• However, if the underlying system is unsecure, no amount of cryptography will help.

2 20 January 2006

Cryptographic Keys• A long series of binary digits used in various ways to transform a message

from its original form, into a stream of seemingly random numbers, and back again.

• The strength of a key is roughly based upon the number of bits it has – known as its “length”.

–Here, strength is used to mean how long it would take an attacker to guess the key used to transform or obscure a message.

–This is similar to how the number of teeth in your house key determines the total number of keys there are and, thus, how many keys a burglar might have to try before guessing yours.

3 20 January 2006

In Encryption, Most Folks Say “Key Size Matters!”

• In general, the longer the secret key, the harder it will be for an adversary to guess the key’s value and decrypt the secret.

• It’s the same as the “teeth” on your house key– The more teeth your house key has, the longer it would

take for persistent criminal to cut various combinations of teeth into test keys in order to find yours.

– e.g., a house key with 8 teeth, each having 3 cut positions, yields 6,500 different keys

4 20 January 2006

Unfortunately, It’s Not That Simple

• Key size gets way too much attention, but it’s the easiest metric• So far, encryption failures have always been due to

– Implementation errors– Protocol errors– Usage errors (cockpit errors)

• Therefore, a more accurate summary would be– In encryption, it’s not the size that matters, it’s the

technique.*

* Ran Canetti of IBM Research

5 20 January 2006

Encryption – Caveat Emptor

• Beware of strangers selling “crypto snake oil”– Unbreakable encryption– One-Time Pads– “Military-grade encryption”– “Million-bit” key lengths– Proprietary cryptography

• a.k.a. “I know more than all the world’s cryptographers”

6 20 January 2006

Would You Buy This?

Our unbreakable military-grade 10,240-bit bi-Gaussian encryption system, using a proprietary one-time pad algorithm, has recently been reviewed by the NSA and approved by a Fortune 500 customer and is available both inside and outside of the US.

Adapted from Peter Gutman’s crypto tutorial: http://www.cryptoapps.com/~peter/part6.pdf

7 20 January 2006

In Summary

If you take away anything from this part of today’s talk, it should be these 3 rules:

1. Cryptography is indeed rocket science.2. Proprietary cryptography must be assumed to be

broken, by definition3. Adding cryptography to an unsecure system is like

putting steel doors on a grass hut.

Auguste Kerckhoffs, ‘La cryptographie militaire’, 1883

1. The system must be substantially, if not mathematically, undecipherable;2. The system must not require secrecy and can be stolen by the enemy

without causing trouble;3. It must be easy to communicate and remember the keys without

requiring written notes, it must also be easy to change or modify the keys with different participants;

4. The system ought to be compatible with telegraph communication;5. The system must be portable, and its use must not require more than

one person;6. Finally, regarding the circumstances in which such system is applied, it

must be easy to use and must neither require stress of mind nor the knowledge of a long series of rules.

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Monoalphabetic substitution cipher #1

• Pick some number of position to rotate the plaintext alphabet. Here, we use rot13 : Ac: NOPQRSTUVWXYZABCDEFGHIJKLM

• Then use Ac to encipher the plaintext P:Ap: ABCDEFGHIJKLMNOPQRSTUVWXYZ

Ac: NOPQRSTUVWXYZABCDEFGHIJKLM

P: dont forget your towel

C: qbag sbetrg lbhe gbjry

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Monoalphabetic substitution cipher #2

• Pick a keyword to initialize the ciphertext alphabet:Ac: CRYPTOISEZ ABDFGHJKLMNQUVWX

• Then use Ac to encipher the plaintext P:Ap: ABCDEFGHIJKLMNOPQRSTUVWXYZ

Ac: CRYPTOISEZABDFGHJKLMNQUVWX

M: dont forget your towel

C: pgfm ogkitm wgnk mgutb

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Polyalphabetic Substitution Cipher:

Vigenère Cipher

This is the Vignere Square, or Tabula Recta.

P =SAMBRADFORD

KEY=HEISMANHEIS

C= ZEUTDAQMSZV

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Transposition cipher:Columnar transposition

THISISATESTOFTHEEARLYWARNINGSYSTEM

Becomes

TEENE HSAIM ITRNSOLGIF YSSTW YAHASTERT

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ROTOR Machines

• Variation of Vigenère• Series of rotors each with an arbitrary

permutation of the alphabet.• Output of one rotor connected to inputs of

next

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Rotor machines:ENIGMA

After the A is encrypted as a G, the rightmost rotor is advanced one position.

Then another A is encrypted, but this time as a C.

The breaking of the ENIGMA code is said to have ended the European war by two years (WWII).

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Simple XOR$ ./xor abcd xor.c xorx /* abcd is 0x61626364 */

$ hexdump xor.c | head -2

23 69 6e 63 6c 75 64 65 20 3c 73 74 64 69 6f 2e

68 3e 0a 0a 76 6f 69 64 20 6d 61 69 6e 20 28 69

$ hexdump xorx | head -2

42 0b 0d 07 0d 17 07 01 41 5e 10 10 05 0b 0c 4a

09 5c 69 6e 17 0d 0a 00 41 0f 02 0d 0f 42 4b 0d

$ ./xor abcd xorx xorxx

$ hexdump xorxx | head -2

23 69 6e 63 6c 75 64 65 20 3c 73 74 64 69 6f 2e

68 3e 0a 0a 76 6f 69 64 20 6d 61 69 6e 20 28 69

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DESIP occurs before round 1, transposing the input block in specific manner

In each round, the key bits are shifted, and 48 bits are selected from the 56 bits of the key

The data is split in half, with permutations and substitutions applied to the right half.

After 16 rounds, the FP (inverse of IP) is applied.

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AES

See animation at:

http://www.cs.bc.edu/~straubin/cs381-05/blockciphers/rijndael_ingles2004.swf

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Modes of operation: ECB(Electronic Code Book)

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ECB can leave data patterns behind

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Tux the Penguin, the Linux mascot. Created by Larry Ewing with The GIMP.Other two images are from Wikipedia Commons

Encrypted using ECBEncrypted using other modes

Initialization Vector (IV)

• All the modes of operation besides ECB need their pumps to be primed with a random block of data.

• No need for secrecy, but an IV should only be used once for a given key.

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21Wikimedia Commons

Modes of operation: CBC(Cipher-Block Chaining)

Ci = EK (Pi Ci-1)

Pi = Ci-1 DK (Ci)

Modes of operation: CFB (Cipher Feedback)

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Ci = Pi EK (Ci-1)

Pi = Ci DK (Ci-1)

Cryptographic Hash Function

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Message Authentication Codes

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Vernam Cipher

If a binary message m1m2...mt is operated on by a binary key string k1k2…kt of the same length to produce a ciphertext c1c2…ct where

ci = mi ki , 1 ≤ i ≤ t

If the key string is randomly chosen and never used again, the cipher is a one-time pad.

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