Template:Infobox block cipher
MULTI2 is a block cipher, developed by Hitachi in 1988. Designed for generalpurpose cryptography, its current use is encryption of highdefinition television broadcasts in Japan.
Cipher details[]
MULTI2 is a symmetric key algorithm with variable number of rounds. It has a block size of 64 bits, and a key size of 64 bits. A 256bit implementationdependent substitution box constant is used during key schedule. Scramble and descramble is done by repeating four basic functions (involutions).
History[]
 1988 MULTI2 patent applied by Hitachi, Ltd on April 28
 1989 Algorithm announced to DPSSIG Information Processing Society of Japan
 1991 Patent number 4942492 granted for MULTI2 algorithm in United States
 1994 Algorithm registered with ISO/IEC 9979 and assigned registration number 9
 1995 MULTI2 adopted as standard cipher for CSDigital broadcasting in Japan
 1998 Japanese Patent number 2760799 granted for MULTI2 algorithm
Cryptanalysis[]
There are a large class of equivalent keys in the Multi2 block cipher. The largest class (so far found) stems from the fact that the Pi3 round function in the key schedule is not bijective. For example, with the following 40byte input key to the key schedule:
45 ec 86 d8 b6 5e 24 d5 38 fe 1d 90 ce fc a4 22 3e 39 1b e3 da 03 0f cb 9c 9e d7 c6 1c e4 73 61 d0 fa 39 86 58 5d 5b 90
You can perform the following single byte modifications (modification here means XOR against the original key byte):
Can mod byte 5 with CF Can mod byte 7 with 77 Can mod byte 20 with 9A Can mod byte 20 with A9 Can mod byte 20 with D7 Can mod byte 21 with 35 Can mod byte 21 with 6A Can mod byte 21 with 9F Can mod byte 21 with CC Can mod byte 22 with 4D Can mod byte 22 with 7A Can mod byte 22 with A7 Can mod byte 23 with 53 Can mod byte 23 with AE
In this case there are 15 different keys which will schedule to the same 8 32bit round keys for the ciphers bulk encryption path. The keys are all different in the first keyword used in the Pi3 round function (keys k[1] and k[5]). The collision occurs because a single byte difference turns into a pattern like 0X0X0000 (rotated by 0, 8, 16, or 24 bits) which then expands to a variation of 0X000X00 and finally in the second last line (with the rotate by 16 and the XOR) the differences cancel out. Turning into a zerodelta.
The problem stems from the fact that the function
x = ROL(x, y) ^ x
Where ROL means rotate left by y bits, is not bijective for any value of y. There are similar problems with the Pi2 and Pi4 functions but they are seemingly harder to exploit because the rotation value is smaller.
There are other observations too, for example
x = ROL(x, 1)  x
Found in Pi3, is an identity function for 50% of the values of x (where the most significant byte is zero).
This also means it is possible to have weak keys where instead of forcing single byte differences in the key, they are in the plaintext into Pi3 produces a zerodelta output and possibly leading to a 1R differential.
See also[]
 Integrated Services Digital Broadcasting
External links[]

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