-- Implementation of the Lilliput-TBC tweakable block cipher by the -- Lilliput-AE team, hereby denoted as "the implementer". -- -- For more information, feedback or questions, refer to our website: -- https://paclido.fr/lilliput-ae -- -- To the extent possible under law, the implementer has waived all copyright -- and related or neighboring rights to the source code in this file. -- http://creativecommons.org/publicdomain/zero/1.0/ library IEEE; library work; use IEEE.numeric_std.ALL; use IEEE.STD_LOGIC_1164.ALL; use work.crypt_pack.ALL; entity inv_multiplication is Port ( mularray_i : in type_tweak_key_array; mularray_o : out type_tweak_key_array ); end inv_multiplication; architecture inv_multiplication_arch of inv_multiplication is signal x2_M_1 : bit8; signal x2_M_3 : bit8; signal x2_M_4 : bit8; signal x3_M_1 : bit8; signal x3_M_3 : bit8; signal x3_M_4 : bit8; signal x3_M2_1 : bit8; signal x3_M2_3 : bit8; signal x3_M2_4 : bit8; signal x5_MR_3 : bit8; signal x5_MR_5 : bit8; signal x5_MR_6 : bit8; signal x6_MR_3 : bit8; signal x6_MR_5 : bit8; signal x6_MR_6 : bit8; signal x6_MR2_3: bit8; signal x6_MR2_5: bit8; signal x6_MR2_6: bit8; begin mularray_o(0)(7) <= mularray_i(0)(7); mularray_o(0)(6) <= mularray_i(0)(6); mularray_o(0)(5) <= mularray_i(0)(5); mularray_o(0)(4) <= mularray_i(0)(4); mularray_o(0)(3) <= mularray_i(0)(3); mularray_o(0)(2) <= mularray_i(0)(2); mularray_o(0)(1) <= mularray_i(0)(1); mularray_o(0)(0) <= mularray_i(0)(0); mularray_o(1)(7) <= mularray_i(1)(0); mularray_o(1)(6) <= mularray_i(1)(7); mularray_o(1)(5) <= mularray_i(1)(6); mularray_o(1)(4) <= mularray_i(1)(5)xor std_logic_vector(shift_left(unsigned(mularray_i(1)(6)) , 3)); mularray_o(1)(3) <= mularray_i(1)(4)xor std_logic_vector(shift_right(unsigned(mularray_i(1)(5)) , 3)) xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(1)(6)) , 3))) , 3)); mularray_o(1)(2) <= mularray_i(1)(3); mularray_o(1)(1) <= mularray_i(1)(2) xor std_logic_vector(shift_left(unsigned(mularray_i(1)(7)) , 2)); mularray_o(1)(0) <= mularray_i(1)(1); x2_M_4 <= mularray_i(2)(5)xor std_logic_vector(shift_left(unsigned(mularray_i(2)(6)) , 3)); x2_M_3 <= mularray_i(2)(4)xor std_logic_vector(shift_right(unsigned(mularray_i(2)(5)) , 3))xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(2)(6)) , 3))) , 3)); x2_M_1 <= mularray_i(2)(2) xor std_logic_vector(shift_left(unsigned(mularray_i(2)(7)) , 2)); mularray_o(2)(7) <= mularray_i(2)(1); mularray_o(2)(6) <= mularray_i(2)(0); mularray_o(2)(5) <= mularray_i(2)(7); mularray_o(2)(4) <= mularray_i(2)(6)xor std_logic_vector(shift_left(unsigned(mularray_i(2)(7)) , 3)); mularray_o(2)(3) <= x2_M_4 xor std_logic_vector(shift_right(unsigned(mularray_i(2)(6)) , 3)) xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(2)(7)) , 3))) , 3)); mularray_o(2)(2) <= x2_M_3; mularray_o(2)(1) <= mularray_i(2)(3) xor std_logic_vector(shift_left(unsigned(mularray_i(2)(0)) , 2)); mularray_o(2)(0) <= x2_M_1; x3_M_4 <= mularray_i(3)(5)xor std_logic_vector(shift_left(unsigned(mularray_i(3)(6)) , 3)); x3_M_3 <= mularray_i(3)(4)xor std_logic_vector(shift_right(unsigned(mularray_i(3)(5)) , 3)) xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(3)(6)) , 3))) , 3)); x3_M_1 <= mularray_i(3)(2) xor std_logic_vector(shift_left(unsigned(mularray_i(3)(7)) , 2)); x3_M2_4 <= mularray_i(3)(6)xor std_logic_vector(shift_left(unsigned(mularray_i(3)(7)) , 3)); x3_M2_3 <= x3_M_4 xor std_logic_vector(shift_right(unsigned(mularray_i(3)(6)) , 3)) xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(3)(7)) , 3))) , 3)); x3_M2_1 <= mularray_i(3)(3) xor std_logic_vector(shift_left(unsigned(mularray_i(3)(0)) , 2)); mularray_o(3)(7) <= x3_M_1; mularray_o(3)(6) <= mularray_i(3)(1); mularray_o(3)(5) <= mularray_i(3)(0); mularray_o(3)(4) <= mularray_i(3)(7)xor std_logic_vector(shift_left(unsigned(mularray_i(3)(0)) , 3)); mularray_o(3)(3) <= x3_M2_4 xor std_logic_vector(shift_right(unsigned(mularray_i(3)(7)) , 3)) xor std_logic_vector(shift_right(unsigned(std_logic_vector(shift_left(unsigned(mularray_i(3)(0)) , 3))) , 3)); mularray_o(3)(2) <= x3_M2_3; mularray_o(3)(1) <= x3_M_3 xor std_logic_vector(shift_left(unsigned(mularray_i(3)(1)) , 2)); mularray_o(3)(0) <= x3_M2_1; if_lane5_6_7: if LANE_NB>4 generate mularray_o(4)(0) <= mularray_i(4)(7); mularray_o(4)(1) <= mularray_i(4)(0); mularray_o(4)(2) <= mularray_i(4)(1); mularray_o(4)(3) <= mularray_i(4)(2) xor std_logic_vector(shift_right(unsigned(mularray_i(4)(3)), 3)); mularray_o(4)(4) <= mularray_i(4)(3); mularray_o(4)(5) <= mularray_i(4)(4) xor std_logic_vector(shift_left(unsigned(mularray_i(4)(2)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(4)(3)) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(mularray_i(4)(5)) , 3)); mularray_o(4)(6) <= mularray_i(4)(5) xor std_logic_vector(shift_left(unsigned(mularray_i(4)(2)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(4)(3)) , 3) , 2)); mularray_o(4)(7) <= mularray_i(4)(6); end generate; if_lane6_7: if LANE_NB>5 generate x5_MR_3 <= mularray_i(5)(2) xor std_logic_vector(shift_right(unsigned(mularray_i(5)(3)), 3)); x5_MR_5 <= mularray_i(5)(4) xor std_logic_vector(shift_left(unsigned(mularray_i(5)(2)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(5)(3)) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(mularray_i(5)(5)) , 3)); x5_MR_6 <= mularray_i(5)(5) xor std_logic_vector(shift_left(unsigned(mularray_i(5)(2)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(5)(3)) , 3) , 2)); mularray_o(5)(0) <= mularray_i(5)(6); mularray_o(5)(1) <= mularray_i(5)(7); mularray_o(5)(2) <= mularray_i(5)(0); mularray_o(5)(3) <= mularray_i(5)(1) xor std_logic_vector(shift_right(unsigned(x5_MR_3), 3)); mularray_o(5)(4) <= x5_MR_3; mularray_o(5)(5) <= mularray_i(5)(3) xor std_logic_vector(shift_left(unsigned(mularray_i(5)(1)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(x5_MR_3) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(x5_MR_5) , 3)); mularray_o(5)(6) <= x5_MR_5 xor std_logic_vector(shift_left(unsigned(mularray_i(5)(1)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(x5_MR_3) , 3) , 2)); mularray_o(5)(7) <= x5_MR_6; end generate; if_lane7: if LANE_NB>6 generate x6_MR_3 <= mularray_i(6)(2) xor std_logic_vector(shift_right(unsigned(mularray_i(6)(3)), 3)); x6_MR_5 <= mularray_i(6)(4) xor std_logic_vector(shift_left(unsigned(mularray_i(6)(2)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(6)(3)) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(mularray_i(6)(5)) , 3)); x6_MR_6 <= mularray_i(6)(5) xor std_logic_vector(shift_left(unsigned(mularray_i(6)(2)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(mularray_i(6)(3)) , 3) , 2)); x6_MR2_3 <= mularray_i(6)(1) xor std_logic_vector(shift_right(unsigned(x6_MR_3), 3)); x6_MR2_5 <= mularray_i(6)(3) xor std_logic_vector(shift_left(unsigned(mularray_i(6)(1)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(x6_MR_3) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(x6_MR_5) , 3)); x6_MR2_6 <= x6_MR_5 xor std_logic_vector(shift_left(unsigned(mularray_i(6)(1)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(x6_MR_3) , 3) , 2)); mularray_o(6)(0) <= x6_MR_6; mularray_o(6)(1) <= mularray_i(6)(6); mularray_o(6)(2) <= mularray_i(6)(7); mularray_o(6)(3) <= mularray_i(6)(0) xor std_logic_vector(shift_right(unsigned(x6_MR2_3), 3)); mularray_o(6)(4) <= x6_MR2_3; mularray_o(6)(5) <= x6_MR_3 xor std_logic_vector(shift_left(unsigned(mularray_i(6)(0)) , 5)) xor std_logic_vector(shift_left(shift_right(unsigned(x6_MR2_3) , 3) , 5)) xor std_logic_vector(shift_left(unsigned(x6_MR2_5) , 3)); mularray_o(6)(6) <= x6_MR2_5 xor std_logic_vector(shift_left(unsigned(mularray_i(6)(0)) , 2)) xor std_logic_vector(shift_left(shift_right(unsigned(x6_MR2_3) , 3) , 2)); mularray_o(6)(7) <= x6_MR2_6; end generate; end inv_multiplication_arch;