Format Preserving Encryption ======================================== Format preserving encryption (FPE) refers to a set of techniques for encrypting data such that the ciphertext has the same format as the plaintext. For instance, you can use FPE to encrypt credit card numbers with valid checksums such that the ciphertext is also an credit card number with a valid checksum, or similiarly for bank account numbers, US Social Security numbers, or even more general mappings like English words onto other English words. The scheme currently implemented in botan is called FE1, and described in the paper `Format Preserving Encryption `_ by Mihir Bellare, Thomas Ristenpart, Phillip Rogaway, and Till Stegers. FPE is an area of ongoing standardization and it is likely that other schemes will be included in the future. To encrypt an arbitrary value using FE1, you need to use a ranking method. Basically, the idea is to assign an integer to every value you might encrypt. For instance, a 16 digit credit card number consists of a 15 digit code plus a 1 digit checksum. So to encrypt a credit card number, you first remove the checksum, encrypt the 15 digit value modulo 10\ :sup:`15`, and then calculate what the checksum is for the new (ciphertext) number. The interfaces for FE1 are defined in the header ``fpe_fe1.h``: .. versionadded:: 2.5.0 .. cpp:class:: FPE_FE1 .. cpp:function:: FPE_FE1(const BigInt& n, size_t rounds = 3, std::string mac_algo = "HMAC(SHA-256)") Initialize an FPE operation to encrypt/decrypt integers less than *n*. It is expected that *n* is trially factorable into small integers. The default rounds and mac algorithm match the original FPE implementation first available in version 1.9.17. .. cpp:function:: BigInt encrypt(const BigInt& x, const uint8_t tweak[], size_t tweak_len) const Encrypts the value *x* modulo the value *n* using the *key* and *tweak* specified. Returns an integer less than *n*. The *tweak* is a value that does not need to be secret that parameterizes the encryption function. For instance, if you were encrypting a database column with a single key, you could use a per-row-unique integer index value as the tweak. The same tweak value must be used during decryption. .. cpp:function:: BigInt decrypt(const BigInt& x, const uint8_t tweak[], size_t tweak_len) const Decrypts an FE1 ciphertext. The *tweak* must be the same as that provided to the encryption function. Returns the plaintext integer. Note that there is not any implicit authentication or checking of data in FE1, so if you provide an incorrect key or tweak the result is simply a random integer. .. cpp:function:: BigInt encrypt(const BigInt& x, uint64_t tweak) Convenience version of encrypt taking an integer tweak. .. cpp:function:: BigInt decrypt(const BigInt& x, uint64_t tweak) Convenience version of decrypt taking an integer tweak. There are two functions that handle the entire FE1 encrypt/decrypt operation. These are the original interface to FE1, first added in 1.9.17. However because they do the entire setup cost for each operation, they are significantly slower than the class-based API presented above. .. cpp:function:: BigInt FPE::fe1_encrypt(const BigInt& n, const BigInt& X, \ const SymmetricKey& key, const std::vector& tweak) This creates an FPE_FE1 object, sets the key, and encrypts *X* using the provided tweak. .. cpp:function:: BigInt FPE::fe1_decrypt(const BigInt& n, const BigInt& X, \ const SymmetricKey& key, const std::vector& tweak) This creates an FPE_FE1 object, sets the key, and decrypts *X* using the provided tweak. This example encrypts a credit card number with a valid `Luhn checksum `_ to another number with the same format, including a correct checksum. .. literalinclude:: ../../src/cli/cc_enc.cpp