Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

I am trying to use openssl AES to encrypt my data i found the pretty nice example in this link ., but the question i still could found the answer it padding the data although it perform a multiple of key size . for example it needs 16 byte as input to encrypt or any multiple of 16 i gave 1024 including the null ., and it still give me an out put of size 1040 , but as what i know AES input size = out put size , if the input is a multiple of 128 bit / 16 byte . any one tried this example before me or can give me any idea ?| thanks in Advance .

share|improve this question
You should use AES-CTR instead, or even better, AES-GCM. –  zwol Nov 3 '12 at 23:19
Only 1-16 bytes of overhead is too low. You probably need another 16 for the IV and 16 for the MAC. –  CodesInChaos Nov 4 '12 at 17:14

1 Answer 1

Most padding schemes require that some minimum amount of padding always be added. This is (at least primarily) so that on the receiving end, you can look at the last byte (or some small amount of data at the end) and know how much of the data at the end is padding, and how much is real data.

For example, a typical padding scheme puts zero bytes after the data with one byte at the end containing the number of bytes that are padding. For example, if you added 4 bytes of padding, the padding bytes (in hex) would be something like 00 00 00 04. Another common possibility puts that same value in all the padding bytes, so it would look like 04 04 04 04.

On the receiving end, the algorithm has to be ready to strip off the padding bytes. To do that, it looks at the last byte to tell it how many bytes of data to remove from the end and ignore. If there's no padding present, that's going to contain some value (whatever the last byte in the message happened to be). Since it has no way to know that no padding was added, it looks at that value, and removes that many bytes of data -- only in this case, it's removing actual data instead of padding.

Although it might be possible to devise a padding scheme that avoided adding extra data when/if the input happened to be an exact multiple of the block size, it's a lot simpler to just add at least one byte of padding to every message, so the receiver can count on always reading the last byte and finding how much of what it received is padding.

share|improve this answer
+1: Worth noting: the padding scheme most often used is PKCS5, and it traditionally sets not just the tail byte, but all the pad bytes as well, to the byte value of the number of pad bytes. For example. the last three bytes of a padded block that has three bytes of padding will be 0x03,0x03,0x03. The tricky part is what to do when the input data is a perfect block size. The spec for PKCS5 says to pad en entire block of pad bytes. –  WhozCraig Nov 3 '12 at 22:50
There is, in fact, no reasonable way to avoid adding a whole block of padding when the original message is an exact multiple of the block size. Why: if pad(X) = Y and pad(Y) = Y, then unpad(Y) would have to be both X and Y. –  duskwuff Nov 3 '12 at 22:56
Exactly. An input source that is already perfectly aligned on the algorithm block size must have one additional block appended, and that block must be full-padding. Otherwise there is no way the reader, who is expecting padding, will know after decryption how much to throw out. –  WhozCraig Nov 3 '12 at 23:01
so i have a problem ., i need to encrypt x then encrypt y then cambine both of them in one block then decrypt that block .,according to ur note it will my task will not be done! but as what i know , AES should take size of data come up with tha same size unless itneeds paading to reach nearest multiple of 128 ..! what do you think ? thank you .. :) –  sana Nov 4 '12 at 17:36
There are a few ways of avoiding padding. One is to use a stream cipher or block cipher in stream cipher (CTR) mode. The other is simply know the length beforehand. Yet another is ciphertext stealing. Getting rid of the IV is a lot harder. Again, it can be done as long as you have something to derive the IV from. –  Maarten Bodewes Nov 4 '12 at 21:38

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.