Kuznyechik


Kuznyechik is a symmetric block cipher. It has a block size of 128 bits and key length of 256 bits. It is defined in the National Standard of the Russian Federation and also in RFC 7801.
The name of the cipher can be translated from Russian as grasshopper, however, the standard explicitly says that the English name for the cipher is Kuznyechik. The designers claim that by naming the cipher Kuznyechik they follow the trend of difficult to pronounce algorithm names set up by Rijndael and Keccak. There is also a rumor that the cipher was named after its creators: A.S.Kuzmin, A.A.Nechaev and Company.
The standard GOST R 34.12-2015 defines the new cipher in addition to the old GOST block cipher as one and does not declare the old cipher obsolete.
Kuznyechik is based on a substitution-permutation network, though the key schedule employs a Feistel network.

Designations

' — Finite field .
' —
' — .
' — .
— '''

Description

For encryption, decryption and key generation, the following functions:
, where, are binary strings of the form .
… is a reversed transformation of.
……
— reversed transformation of , ……
, where — composition of transformations and etc.

The nonlinear transformation

Non-linear transformation is given by substituting S = Bin8 S' Bin8−1.
Values of the substitution S' are given as array S' =, S', …, S'):

Linear transformation

operations of addition and multiplication are carried out in the field.

Key generation

The key generation algorithm uses iterative constant , i=1,2,…32
and sets the shared key as follows: ….
Iterated keys:

Encryption algorithm

… where a — 128-bit string.

Decryption algorithm

Cryptanalysis

Riham AlTawy and Amr M. Youssef describe a meet-in-the-middle attack on the 5-round reduced Kuznyechik which enables recovery of the key with a time complexity of 2140, memory complexity of 2153, and data complexity of 2113.
Alex Biryukov, Leo Perrin, and Aleksei Udovenko published a paper in which they show that the S-Boxes of Kuznyechik and Streebog were not created pseudo-randomly but by using a hidden algorithm which they were able to reverse engineer.
Later Leo Perrin and Aleksei Udovenko published two alternative decompositions of the S-Box and proved its connection to the S-Box of the Belarusian cipher BelT. The authors of the paper note that while the reason for using such a structure remains unclear, generating S-Boxes by a hidden algorithm contradicts the concept of nothing up my sleeve numbers which could prove that no weaknesses were intentionally introduced in their design.
Riham AlTawy, Onur Duman, and Amr M. Youssef published two fault attacks on Kuznyechik which show the importance of protecting the implementations of the cipher.

Adoption

included Kuznyechik as one of its supported encryption algorithms.