Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

My department at work is required by the powers that be to use an encryption library written by another department, the problem being that the encryption library has hard-coded its AES counter mode initialization vector (all-zeros). (Basically, the other department took the Bouncycastle library and wrapped their own broken code around it.) We have documented the problems with this code for the powers that be, so now unless management decides to act we're stuck using a broken encryption library.

I am wondering if we could fake a proper initialization vector by prepending a unique IV to the plaintext and then truncating the first sixteen bytes of plaintext after decryption, e.g.

ciphertext = encrypt(++sixteenByteCounter + plaintext)
plaintext = decrypt(ciphertext).subArray(16, ciphertext.length)

This seems fine to me, but I'm hardly a cryptography expert

share|improve this question
No, truncating anything won't do any good :). IV is used for chaining modes and it takes part in encryption. – Eugene Mayevski 'EldoS Corp May 27 '13 at 16:51
@EugeneMayevski'EldoSCorp An IV is commonly also used as the initial value for the nonce in counter mode encryption. And I think the question was about getting more security by prepending a value, not truncating the deciphered plaintext. – Maarten Bodewes May 30 '13 at 12:50
It won't do you any good. The top 96 bit of the counter MUST be unique per message, otherwise a simple xor between messages will compromise your data. Adding junk to be encrypted won't help here. The implementation must be changed. – Vlad Krasnov Jun 3 '13 at 12:36
up vote 5 down vote accepted


In CTR mode you are encrypting a sequence of numbers (1,2,3...) and then XORing your message against that.

It's notoriously easy to crack encryption that XORs values against a re-used sequence. So to avoid this in CTR mode you start at a random offset each time (you don't start at 1, but at 75437454896785, for example). That's what the "IV" is in CTR mode. It's not like an IV in chaining. It's a numeric offset to where you start counting.

See - the IV is the "nonce" (the higher bits in the counter).

What you suggest seems to be based on CBC mode or similar where the IV is used to mangle the next block, which is in turn used to mangle the next block and so on. But that's completely unrelated to the way IV is used in CTR mode.

Your fix would not change the starting point of the numbers used, and your messages would be hopelessly insecure. Please don't do this.

Also, there's a crypto equivalent to stackoverflow where you should really ask this kind of thing.

BUT WAIT. Now I think about this... I don't know the API in question. It could be that the IV is simply not used (maybe the IV in the API is only used for the kind of chaining that is done in CBC). How wide is the counter? Could it be that the API expects you to start the counter with a random offset? I guess not, but you really need to read the docs / code to be sure (I know I was bitten on this issue with PyCrypto).

But anyway, either way, your fix is certainly not a fix (unfortunately).

share|improve this answer

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.