M2_SETI/A1/DFA_DES/des_block_demo.py

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2022-10-19 09:02:34 +02:00
# @file des_block_demo.py
# @brief How to use des_block class.
# @author Laurent Sauvage <laurent.sauvage@telecom-paristech.fr>
from des_block import *
KSHIFTS= ( 0, 1, 1, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 1 )
if __name__ == "__main__":
#========================================
P= des_block("0x0123456789abcdef", 64) # Create a 64-bit wide DES block
print ("P={} (hex) {} (dec)".format(P, P.value()))
#========================================
L0, R0= P.ip() # Initial permutation
print ("L0= {} Ro={}".format(L0, R0))
invip_ip_P= L0.concat(R0).ip(-1) # Inverse of Initial permutation
print ("invip_ip_P=", invip_ip_P)
print ("diff=", P.xor(invip_ip_P))
#========================================
KEY= des_block("0xfedcba9876543210", 64) # Create a 64-bit wide DES block
print ("Master KEY=", KEY)
pc1_KEY= KEY.pc1() # @note Inverse of pc1() = pc1(-1)
C0= pc1_KEY.subblock( 0, 28)
D0= pc1_KEY.subblock(28, 56)
C1= C0.ls(KSHIFTS[1]) # @note Left shift of n : ls(n)
# Inverse of left shift : rs(n)
# KSHIFTS[r] = number of shifts for round r
D1= D0.ls(KSHIFTS[1])
K1= C1.concat(D1).pc2() # @note Inverse of pc2() = pc2(-1)
print ("Round Key K1=", K1)
#========================================
inS= R0.e().xor(K1)
outS= des_block()
for i in range(0, 8): # for Sbox from 0 to 7
outS= outS.concat( inS.subblock(6*i, 6*i+6).s(i) )
R1= outS.p().xor(L0) # @note Inverse of p() : p(-1)
print ("R1=", R1)