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I need a simple encryption for some text strings. I want to create coupon codes and make them look cool so subsequently created code should look very different. (And besides looking cool, it shouldn't be easy to guess a code.) But I want to be able to decrypt them again. So the algorithm must be reversible.

I alread tried some stuff with moving bits around so they look kind of random already. But two subsequent codes (just one bit different) of course look very similar.

Any suggestions? I would like to do that without using external gems.

Philip

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4 Answers

You could use OpenSSL::Cypher

# for more info, see http://ruby-doc.org/ruby-1.9/classes/OpenSSL/Cipher.html#M006486

require 'openssl'
require 'digest/sha1'

# create the cipher for encrypting
cipher = OpenSSL::Cipher::Cipher.new("aes-256-cbc")
cipher.encrypt

# you will need to store these for later, in order to decrypt your data
key = Digest::SHA1.hexdigest("yourpass")
iv = cipher.random_iv

# load them into the cipher
cipher.key = key
cipher.iv = iv

# encrypt the message
encrypted = cipher.update('This is a secure message, meet at the clock-tower at dawn.')
encrypted << cipher.final
puts "encrypted: #{encrypted}\n"

# now we create a sipher for decrypting
cipher = OpenSSL::Cipher::Cipher.new("aes-256-cbc")
cipher.decrypt
cipher.key = key
cipher.iv = iv

# and decrypt it
decrypted = cipher.update(encrypted)
decrypted << cipher.final
puts "decrypted: #{decrypted}\n"

But the intermediate form doesn't lend itself well to printing


Given your thought that it would be nice if the intermediate form was the same length, you might just use a simple map of one char to another.

PLEASE UNDERSTAND THAT THIS IS NOT SECURE

You can easily brute force the key, but it seems to be congruent with your requirements.

class Cipher

  def initialize(shuffled)
    normal = ('a'..'z').to_a + ('A'..'Z').to_a + ('0'..'9').to_a + [' ']
    @map = normal.zip(shuffled).inject(:encrypt => {} , :decrypt => {}) do |hash,(a,b)|
      hash[:encrypt][a] = b
      hash[:decrypt][b] = a
      hash
    end
  end

  def encrypt(str)
    str.split(//).map { |char| @map[:encrypt][char] }.join
  end

  def decrypt(str)
    str.split(//).map { |char| @map[:decrypt][char] }.join
  end

end

# pass the shuffled version to the cipher
cipher = Cipher.new ["K", "D", "w", "X", "H", "3", "e", "1", "S", "B", "g", "a", "y", "v", "I", "6", "u", "W", "C", "0", "9", "b", "z", "T", "A", "q", "U", "4", "O", "o", "E", "N", "r", "n", "m", "d", "k", "x", "P", "t", "R", "s", "J", "L", "f", "h", "Z", "j", "Y", "5", "7", "l", "p", "c", "2", "8", "M", "V", "G", "i", " ", "Q", "F"]

msg = "howdy pardner"

crypted = cipher.encrypt msg
crypted # => "1IzXAF6KWXvHW"

decrypted = cipher.decrypt crypted
decrypted # => "howdy pardner"
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Thanks for your solution, though two very similar codes yield very similar encrypted results using your last solution... –  Philip Nov 9 '10 at 21:04
    
@Joshua Is there anyway to make your first example print out "regular" characters rather than gibberish? I imagine it'll need some type of encoding and decoding. Sorry, I'm not a Ruby guy, but was asked to modify some old code that's still running on 1.8.7. –  Jay Q. Apr 23 at 23:46
    
I have no idea what you mean by "regular" characters and "giberish". Every character in here is ASCII, are you getting some sort of unicode or you just don't want that particular set of characters? –  Joshua Cheek Apr 24 at 22:16
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up vote 2 down vote accepted

I guess the simplest way is a * x + b (mod 2^n)

Note that you need to calculate the inverse of a on 2^n, you can to that with Wolfram Alpha using extended GCD.

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I can recommend you uuencode and uudecode utils you can use them wuth standart ruby function pack:

str = "\007\007\002\abcde"
new_string = [str].pack("u")
original = new_string.unpack("u")

(sample from Hal Fulton's Ruby Way)

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Well the strings need to be shorter and more random ;) E.g. the results of ["abcde"].pack("u") and ["abcde"].pack("u") differ by just one byte. Actually it would be nice if the result strings had the same length as the original strings. –  Philip Nov 8 '10 at 23:22
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Do you really want to trust the user to give you back the right value? If you trust what the client gives you back and the user figures out your encryption scheme you'll be using data they provide. That sounds like a very bad idea.

It's not clear to me why you don't want to give them a key into a database that maps a random numbers, perhaps with some error correction properties, to the coupon discounts. That way you have control of the final result. They provide you a key, you look up the associated coupon and apply the coupon. In this way you're only using your own data and if you want to remove a coupon it's all on the server side.

If you keep all the key-codes you can also check that new codes are different from previously released ones.

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With random keys the user could also try to brute-force a valid key. The problem is that I'm using Google Appengine and to create > 300 can result in Time-Out problems, in particular when I need to check other 1500 coupon codes that are already in the database. Actually I also got a simple algorithm for that, taking x -> a * x + b (mod 2^n), with that I don't even need to check for uniqueness. –  Philip Nov 9 '10 at 21:03
    
The brute force problem is no different that if something were encrypted. You could guess an encrypted code too. If your coupon state space is big enough it's not going to be worthwhile and the server should rate limit/block users that have too many bad guesses. As for checking, isn't that just a query that your proposed code isn't there already? –  Paul Rubel Nov 9 '10 at 22:04
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