Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have the following test application:

import Codec.Crypto.AES
import qualified Data.ByteString.Char8 as B

key = B.pack "Thisismykey....."

iv = B.pack "0000000000000001"

main = do 
     let myenc = crypt' CTR key iv Encrypt (B.pack "1234567812345678") 
     print (B.unpack myenc)

That prints the following result: "\250\DC4\DC4\255\223\221C\ETBx\239sF\nuZu"

If I change the cleartext "1234567812345678" into "1234567812345688" I get "\250\DC4\DC4\255\223\221C\ETBx\239sF\nuUu"

If I change the cleartext to "1134567812345678" I get the output "\250\ETB\DC4\255\223\221C\ETBx\239sF\nuZu"

I am now very surprised since there is clearly a predictable correlation between the input and the output that IMHO should not happen. If I change something at the front of the cleartext then only the front of the output is affected etc.. Can it be that somehow has to do with 8 or 16 Byte boundaries of byte strings and how could I fix this? Is something misguiding me here?

Independent from the CTR mode it should be noticed that AES works with 4x4 byte arrays and the question is about the encryption of a single array. AES should to my understanding perform four rounds of mixing and the change of a single byte (out of 16) should result in at least 50% of the bits being different. Thus, it can in my opinion not be that changes at the end of a 16 byte cleartext change exactly the end of the cipher text and changes at the front change the front etc.. To my understanding the IV only comes into play as a counter when multiple 4x4 arrays are involved.

share|improve this question

1 Answer 1

up vote 7 down vote accepted

It has nothing to do with haskell.

Read http://en.wikipedia.org/wiki/Block_cipher_modes_of_operation#Initialization_vector_.28IV.29

Since you are using the same IV to encrypt the message twice under CTR mode it is not secure. Read about cryptography algorithms and try to avoid writing your own crypto code as it is more likely to have security loopholes.

The requirement of CTR mode is (key,IV) pair should be unique. The trivial solution would be generate a new IV for every new message you encrypt.

[explanation of CTR mode security flaw] http://crypto.stackexchange.com/questions/2991/why-must-iv-key-pairs-not-be-reused-in-ctr-mode

In CTR mode F(IV+counter,key) XOR Plaintext = CIPHER .. so if nonce and key remain same then F is same for both the plain text .. So If $C_1$ is cipher of $P_1$ and $C_2$ is cipher of $P_2$ then

xor($C_1$,$C_2$) = xor($P_1$,$P_2$) for same (key,IV) pair

Supporting code :

import Codec.Crypto.AES
import qualified Data.ByteString.Char8 as B
import qualified Data.ByteString as BS
import Data.Bits (xor) 

key = B.pack "Thisismykey....."

iv = B.pack "1234567891012131"
p1 =  (B.pack "1234567812345678") 
p2 =  (B.pack "1234567812345688") 
x = crypt' CTR key iv Encrypt p1 
y = crypt' CTR key iv Encrypt p2 

main = do 
     print $ BS.zipWith xor x y  
     print $ BS.zipWith xor p1 p2


share|improve this answer
@JFritsch See the stackexchange link I have provided. Your cipher text is not predictable for unique key,IV pairs. The problem is given 1 ciphertext and its plain text you can predict the other cipher text of the second plain text when you use the same (key,IV) pair. –  Satvik Sep 10 '12 at 13:23
@JFritsch, that simply isn't true, and is demonstrable by the code you've written. Mystic is absolutely correct here. You may want to try this with ECB mode to explore it further, since it's simpler and demonstrates AES more purely. –  Rob Napier Sep 10 '12 at 13:37
@JFritsch Have you seen the CTR Mode implementation ... You haven't changed anything ... changing plain text has nothing to do with the input to block cipher .. block cipher actually encrypts nonce+counter with key and then xors with the plain text .. see the revised answer I have posted .. –  Satvik Sep 10 '12 at 15:20
@JFritsch, you may be interested in coursera.org/course/crypto. It is an excellent free class and goes into these topics deeply. Your understanding of how AES is implemented in CTR mode (and most modes) is incorrect. It shuffles the key, not the text. The text is XORed with the output of AES. Small changes in the key/IV/nonce create large changes in the result. Small changes in the text do not. –  Rob Napier Sep 10 '12 at 15:39
@JFritsch, In case you haven't read any of the links above, it's important to consider what CTR mode is. The whole point of it is to convert a block cipher into a stream cipher. So you're basically asking why, with the same inputs, a stream cipher is generating the same PRNG stream. The answer is because that's what it's supposed to do. –  Carl Sep 10 '12 at 17:52

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.