Padding oracle attack


In cryptography, a padding oracle attack is an attack which uses the padding validation of a cryptographic message to decrypt the ciphertext. In cryptography, variable-length plaintext messages often have to be padded to be compatible with the underlying cryptographic primitive. The attack relies on having a "padding oracle" who freely responds to queries about whether a message is correctly padded or not. Padding oracle attacks are mostly associated with CBC mode decryption used within block ciphers. Padding modes for asymmetric algorithms such as OAEP may also be vulnerable to padding oracle attacks.

Symmetric cryptography

In symmetric cryptography, the padding oracle attack can be applied to the CBC mode of operation, where the "oracle" leaks data about whether the padding of an encrypted message is correct or not. Such data can allow attackers to decrypt messages through the oracle using the oracle's key, without knowing the encryption key.

Padding oracle attack on CBC encryption

The standard implementation of CBC decryption in block ciphers is to decrypt all ciphertext blocks, validate the padding, remove the PKCS7 padding, and return the message's plaintext.
If the server returns an "invalid padding" error instead of a generic "decryption failed" error, the attacker can use the server as a padding oracle to decrypt messages.
The mathematical formula for CBC decryption is
As depicted above, CBC decryption XORs each plaintext block with the previous ciphertext block.
As a result, a single-byte modification in block will make a corresponding change to a single byte in.
Suppose the attacker has two ciphertext blocks and they want to decrypt the second block to get plaintext.
The attacker changes the last byte of and sends to the server.
The server then returns whether or not the padding of the last decrypted block is correct.
If the padding is correct, the attacker now knows that the last byte of is. Therefore,.
If the padding is incorrect, the attacker can change the last byte of to the next possible value.
At most, the attacker will need to make 256 attempts to find the last byte of. If the decrypted block contains padding information or bytes used for padding then an additional attempt will need to be made to resolve this ambiguity.
After determining the last byte of, the attacker can use the same technique to obtain the second-to-last byte of.
The attacker sets the last byte of to by setting the last byte of to.
The attacker then uses the same approach described above, this time modifying the second-to-last byte until the padding is correct.
If a block consists of 128 bits, which is 16 bytes, the attacker will obtain plaintext in no more than 255⋅16 = 4080 attempts. This is significantly faster than the attempts required to bruteforce a 128-bit key.

Attacks using padding oracles

The original attack was published in 2002 by Serge Vaudenay. Concrete instantiations of the attack were later realised against SSL and IPSec. It was also applied to several web frameworks, including JavaServer Faces, Ruby on Rails and ASP.NET as well as other software, such as the Steam gaming client. In 2012 it was shown to be effective against some hardened security devices.
While these earlier attacks were fixed by most TLS implementors following its public announcement, a new variant, the Lucky Thirteen attack, published in 2013, used a timing side-channel to re-open the vulnerability even in implementations that had previously been fixed. As of early 2014, the attack is no longer considered a threat in real-life operation, though it is still workable in theory against a certain class of machines., the most active area of development for attacks upon cryptographic protocols used to secure Internet traffic are downgrade attack, such as Logjam and Export RSA/FREAK attacks, which trick clients into using less-secure cryptographic operations provided for compatibility with legacy clients when more secure ones are available. An attack called POODLE combines both a downgrade attack with a padding oracle attack on the older, insecure protocol to enable compromise of the transmitted data. In May 2016 it has been revealed in that the fix against Lucky Thirteen in OpenSSL introduced another padding oracle.