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"""
SCT 2 for lilliput ae 2
"""
import lilliput_tbc as ltbc
from constants import rounds
from helpers import ArrayToBlockbytesMatrix, BlockbytesMatrixToBytes
BLOCK_BITS = 128
KEY_BITS = 128
TWEAK_BITS = 128
TWEAKEY_BITS = KEY_BITS + TWEAK_BITS
LANE_BITS = 64
LANES = int((TWEAKEY_BITS) / LANE_BITS)
ROUNDS = 32
BLOCK_BYTES = int(BLOCK_BITS / 8)
KEY_BYTES = int(KEY_BITS / 8)
TWEAK_BYTES = int(TWEAK_BITS / 8)
TWEAKEY_BYTES = int(TWEAKEY_BITS / 8)
A_BITS = BLOCK_BITS
M_BITS = BLOCK_BITS
def InitParameters(key_bits) :
global KEY_BITS
global KEY_BYTES
global TWEAK_BITS
global TWEAK_BYTES
global TWEAKEY_BITS
global TWEAKEY_BYTES
global LANES
global ROUNDS
KEY_BITS = key_bits
TWEAKEY_BITS = KEY_BITS + TWEAK_BITS
LANES = int((TWEAKEY_BITS) / LANE_BITS)
ROUNDS = rounds(key_bits)
KEY_BYTES = int(KEY_BITS / 8)
TWEAKEY_BYTES = int(TWEAKEY_BITS / 8)
###############################################################################
def XorState(state1, state2) :
state_output = [state1[byte] ^ state2[byte] for byte in range(0, len(state1))]
return state_output
def Padding10LSB(array, number_bits) :
shifted = 0
for byte in range(0, len(array)) :
shifted |= (array[byte] << (8 * byte))
shifted = (shifted << (BLOCK_BITS - number_bits)) & 0xffffffffffffffffffffffffffffffff
padded = shifted | (0x1 << (BLOCK_BITS - number_bits - 1))
array_padded = [0 for byte in range(0, BLOCK_BYTES)]
for byte in range(0, BLOCK_BYTES) :
array_padded[byte] = (padded & (0xff << (8 * byte))) >> (8 * byte)
return array_padded
def LowPart(array, number_bits) :
shifted = 0
for byte in range(0, len(array)) :
shifted |= (array[byte] << (8 * byte))
mask = 0
for bit in range(0, number_bits) :
mask |= (0x1 << bit)
lower_part = shifted & mask
will_padd = 0
if (number_bits % 8) != 0 :
will_padd = 1
lower_part_byte = [0 for byte in range(0, int(number_bits / 8) + will_padd)]
for byte in range(0, int(number_bits / 8) + will_padd) :
lower_part_byte[byte] = lower_part & 0xff
lower_part = lower_part >> 8
return lower_part_byte
###############################################################################
def TweakAssociatedData(i, padded = 0) :
tweak = [0 for byte in range(0, TWEAK_BYTES)]
mask = 0xff
for byte in range(0, TWEAK_BYTES - 1) :
tweak[byte] = (i & mask) >> (byte * 8)
mask = mask << 8
mask = (0xf << (8 * (TWEAK_BYTES - 1)))
tweak[TWEAK_BYTES - 1] = (i & mask) >> ((TWEAK_BYTES - 1) * 8)
if padded == 0 :
tweak[TWEAK_BYTES - 1] |= 0x20
else :
tweak[TWEAK_BYTES - 1] |= 0x60
return tweak
def BuildAuth(A, key) :
Auth = [0 for byte in range(0, BLOCK_BYTES)]
l_a = int(A_BITS / BLOCK_BITS)
if int(A_BITS % BLOCK_BITS) > 0 :
will_padd = 1
else :
will_padd = 0
for i in range(0, l_a) :
tweak = TweakAssociatedData(i, padded = 0)
enc = ltbc.LilliputTBCEnc(tweak, key, A[i])
Auth = XorState(Auth, enc)
if (A_BITS % BLOCK_BITS) == 0 :
return Auth
tweak = TweakAssociatedData(l_a, padded = 1)
ad_padded = Padding10LSB(A[l_a], (A_BITS % BLOCK_BITS))
enc = ltbc.LilliputTBCEnc(tweak, key, ad_padded)
Auth = XorState(Auth, enc)
return Auth
################################################################################
def TweakTag(j, padded = 0) :
tweak = [0 for byte in range(0, TWEAK_BYTES)]
tweak[TWEAK_BYTES - 1] |= ((j >> 120) & 0xf)
for byte in range(TWEAK_BYTES - 2, -1, -1) :
tweak[byte] = (j >> (8 * byte)) & 0xff
if padded == 1 :
tweak[TWEAK_BYTES - 1] |= 0x40
return tweak
def TweakTagEnd(N) :
tweak = [0 for byte in range(0, TWEAK_BYTES)]
for byte in range(0, TWEAK_BYTES - 1) :
tweak[byte] = N[byte]
tweak[TWEAK_BYTES - 1] = 0x10
return tweak
def AddTagJ(tag, j) :
array_j = [0 for byte in range(0, TWEAK_BYTES)]
for byte in range(0, TWEAK_BYTES) :
array_j[byte] = (j >> (byte * 8))
xorr = XorState(tag, array_j)
xorr[TWEAK_BYTES - 1] |= 0x80
return xorr
def MesssageAuthTag(M, N, Auth, key) :
l = int(M_BITS / BLOCK_BITS)
if int(M_BITS % BLOCK_BITS) > 0 :
will_padd = 1
else :
will_padd = 0
tag = list(Auth)
for j in range(0, l) :
tweak = TweakTag(j, padded = 0)
encryption = ltbc.LilliputTBCEnc(tweak, key, M[j])
tag = XorState(tag, encryption)
if will_padd == 1 :
tweak = TweakTag(l, padded = 1)
m_padded = Padding10LSB(M[l], M_BITS % BLOCK_BITS)
encryption = ltbc.LilliputTBCEnc(tweak, key, m_padded)
tag = XorState(tag, encryption)
tweak = TweakTagEnd(N)
encryption = ltbc.LilliputTBCEnc(tweak, key, tag)
tag = encryption
return tag
def MessageEncryption(M, N, tag, key) :
l = int(M_BITS / BLOCK_BITS)
if int(M_BITS % BLOCK_BITS) > 0 :
will_padd = 1
else :
will_padd = 0
C = [[0 for byte in range(0, 16)] for j in range(0, l + will_padd)]
for j in range(0, l) :
tweak = AddTagJ(tag, j)
padded_nounce = list(N) + [0x00]
encryption = ltbc.LilliputTBCEnc(tweak, key, padded_nounce)
C[j] = XorState(M[j], encryption)
if will_padd :
tweak = AddTagJ(tag, l)
padded_nounce = list(N) + [0x00]
encryption = ltbc.LilliputTBCEnc(tweak, key, padded_nounce)
C[l] = XorState(M[l], encryption)
return C
################################################################################
def SCT2Enc(A, M, N, key) :
InitParameters(len(key)*8)
global A_BITS
global M_BITS
A_BITS = len(A)*8
M_BITS = len(M)*8
A = ArrayToBlockbytesMatrix(A)
M = ArrayToBlockbytesMatrix(M)
ltbc.KEY_BITS = KEY_BITS
ltbc.ROUNDS = ROUNDS
ltbc.TWEAK_BITS = TWEAK_BITS
ltbc.LANES = LANES
ltbc.TWEAKEY_BITS = TWEAKEY_BITS
ltbc.KEY_BYTES = KEY_BYTES
ltbc.TWEAK_BYTES = TWEAK_BYTES
ltbc.TWEAKEY_BYTES = TWEAKEY_BYTES
ltbc.TKs = [[0 for byte in range(0, TWEAKEY_BYTES)] for round in range(0, ROUNDS)]
ltbc.RTKs = [[0 for byte in range(0, 8)] for round in range(0, ROUNDS)]
ltbc.States = [[0 for byte in range(0, BLOCK_BYTES)] for round in range(0, ROUNDS)]
Auth = BuildAuth(A, key)
tag = MesssageAuthTag(M, N, Auth, key)
C = MessageEncryption(M, N, tag, key)
return BlockbytesMatrixToBytes(C), bytes(tag)
def SCT2Dec(A, C, N, tag, key) :
InitParameters(len(key)*8)
global A_BITS
global M_BITS
A_BITS = len(A)*8
M_BITS = len(C)*8
A = ArrayToBlockbytesMatrix(A)
C = ArrayToBlockbytesMatrix(C)
ltbc.KEY_BITS = KEY_BITS
ltbc.ROUNDS = ROUNDS
ltbc.TWEAK_BITS = TWEAK_BITS
ltbc.LANES = LANES
ltbc.TWEAKEY_BITS = TWEAKEY_BITS
ltbc.KEY_BYTES = KEY_BYTES
ltbc.TWEAK_BYTES = TWEAK_BYTES
ltbc.TWEAKEY_BYTES = TWEAKEY_BYTES
ltbc.TKs = [[0 for byte in range(0, TWEAKEY_BYTES)] for round in range(0, ROUNDS)]
ltbc.RTKs = [[0 for byte in range(0, 8)] for round in range(0, ROUNDS)]
ltbc.States = [[0 for byte in range(0, BLOCK_BYTES)] for round in range(0, ROUNDS)]
M = MessageEncryption(C, N, tag, key)
Auth = BuildAuth(A, key)
tag2 = MesssageAuthTag(M, N, Auth, key)
if(tag == tag2) :
return BlockbytesMatrixToBytes(M)
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