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my goal is to implement a random number generator based on AES Counter Mode in Ruby.

I have implemented the counter mode myself as follows:

require './aes_helpers'
require 'openssl'

class AES_CTR_Random

  # Setup basic aes, since a mode is required ecb is used,
  # which constructs same cipher text blocks for same plain text blocks
  def intialize_openssl_aes(encrypt_or_decrypt, mode, key, iv, data, bits)
    key_s = byte_array_to_byte_string(key)
    data_s = byte_array_to_byte_string(data)

    aes = OpenSSL::Cipher::AES.new(bits, mode)
    aes.send(encrypt_or_decrypt)
    aes.padding = 0
    aes.key = key_s
    aes.iv = byte_array_to_byte_string(iv) if iv
    encrypted = aes.update(data_s) + aes.final

    byte_string_to_byte_array(encrypted)
 end

  # Encrypt or decrypt one AES block
  def process_aes_block(encrypt_or_decrypt, key, block)
    intialize_openssl_aes(encrypt_or_decrypt, 'ECB', key, nil, block, 128)
end

  # Generate a stream cipher key using given AES key and initialization vector
  def generate_aes_ctr_stream_key(key, iv, length)
    iv = byte_array_to_integer(iv)
    stream_key = []
    while stream_key.length < length
    stream_key += process_aes_block(:encrypt, key, integer_to_byte_array(iv))
    iv += 1
    end
    stream_key.take(length)
  end

  # Run Cipher Counter Mode
  def run_ctr(key, iv, data)
    # Get a properly sized stream cipher key using aes cipher counter mode
    stream_key = generate_aes_ctr_stream_key(key, iv, data.length)

    # Stream cipher decryption
    byte_array_xor_byte_array(stream_key, data)
  end

  # Encrypt plaintext with aes 128 ctr using given key and iv
  def encrypt_ctr(key, iv, plaintext)
    key = hexadecimal_string_to_byte_buffer(key)
    iv = hexadecimal_string_to_byte_buffer(iv)
    plaintext = byte_string_to_byte_array(plaintext)

    encrypted = run_ctr(key, iv, plaintext)

    byte_buffer_to_hexadecimal_string(iv + encrypted)
  end

  # Decrypt aes 128 ctr encrypted ciphertext
  def decrypt_ctr(key, ciphertext)
    key = hexadecimal_string_to_byte_buffer(key)
    ciphertext = hexadecimal_string_to_byte_buffer(ciphertext)

    iv = ciphertext.take(16)
    ciphertext = ciphertext.drop(16)

    plaintext = run_ctr(key, iv, ciphertext)

    byte_array_to_byte_string(plaintext)
  end
end

But now I do not quite understand how to get random numbers out of this implementation.

Can anyone guide me to a solution?

  • Are you asking how to convert random bytes to random numbers in a specific interval in a uniform fashion? – Artjom B. Apr 6 '16 at 19:35
  • @ArtjomB. yes, exactly I am asking how to generate secure random numbers. – Michael Andorfer Apr 9 '16 at 10:52
  • @ArtjomB. do you have any suggestions how to implement such a functionality (PNGR AES CTR)? – Michael Andorfer Apr 9 '16 at 12:52
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You could use AES to build CTR_DRBG as specified in NIST Special Publication 800-90A, section 10.2: 10.2 DRBG Mechanisms Based on Block Ciphers which uses CTR block cipher mode of operation as underlying primitive.

A stream cipher has the disadvantage that it doesn't repeat blocks, which may slightly bias the output. A previous answer mentioned AES-CTR, which has this disadvantage.

|improve this answer|||||
  • You may have to improve your IV/nonce & buffer handling to use it as primitive for that purpose though. – Maarten Bodewes Apr 6 '16 at 11:06
  • It seems OP wants a DRNG from a DRBG – Artjom B. Apr 9 '16 at 10:56
  • @MaartenBodewes yes, that specification seems to be good in theory, but as I am really new to cryptography it seems to be too advanced for my purposes and knowledge. – Michael Andorfer Apr 9 '16 at 11:05

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