When using AES encryption, plaintext must be padded to the cipher block size. Most libraries and standards use padding where the padding bytes can be determined from the unpadded plaintext length. Is there a benefit to using random padding bytes when possible?
I'm implementing a scheme for storing sensitive per-user and per-session data. The data will usually be JSON-encoded key-value pairs, and can be potentially short and repetitive. I'm looking to PKCS#5 for guidance, but I planned on using AES for the encryption algorithm rather than DES3. I was planning on a random IV per data item, and a key determined by the user ID and password or a session ID, as appropriate.
One thing that surprised me is the PKCS#5 padding scheme for the plaintext. To pad the ciphertext to 8-byte blocks, 1 to 8 bytes are added at the end, with the padding byte content reflecting the number of padding bytes (i.e.
030303, up to
0808080808080808). My own padding scheme was to use random bytes at the front of the plaintext, and the last character of the plaintext would be the number of padding bytes added.
My reasoning was that in AES-CBC mode, each block is a function of the ciphertext of the preceding block. This way, each plaintext would have an element of randomness, giving me another layer of protection from known plaintext attacks, as well as IV and key issues. Since my plaintext is expected to be short, I don't mind holding the whole decrypted string in memory, and slicing padding off the front and back.
One drawback would be the same unpadded plaintext, IV, and key would result in different ciphertext, making unit testing difficult (but not impossible - I can use a pseudo-random padding generator for testing, and a cryptographically strong one for production).
Another would be that, to enforce random padding, I'd have to add a minimum of two bytes - a count and one random byte. For deterministic padding, the minimum is one byte, either stored with the plaintext or in the ciphertext wrapper.
Since a well-regarded standard like PKCS#5 decided to use deterministic padding, I'm wondering if there is something else I missed, or I'm judging the benefits too high.