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cryptography ip-cores in vhdl / verilog
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cryptocores/aes/sim/vhdl/tb_aes.vhd

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partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
Add PSL checkers, refactoring * Add some simple PSL checkers & coverage to aes_enc & aes_dec * Add generating of PSL coverage report * Add report outputs to testbench
6 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
Fix gmul() & (inv)mixcolums() functions
6 years ago
merge last changes from amc mini repo
10 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
beauty care
11 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
beauty care
11 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
Add PSL checkers, refactoring * Add some simple PSL checkers & coverage to aes_enc & aes_dec * Add generating of PSL coverage report * Add report outputs to testbench
6 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
Add PSL checkers, refactoring * Add some simple PSL checkers & coverage to aes_enc & aes_dec * Add generating of PSL coverage report * Add report outputs to testbench
6 years ago
Use co-sim with openSSL to check AES enc VHDL implementation
4 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
Add PSL checkers, refactoring * Add some simple PSL checkers & coverage to aes_enc & aes_dec * Add generating of PSL coverage report * Add report outputs to testbench
6 years ago
First working version of AES enc & dec * Split enc & dec in separate units aes_enc & aes_dec * Add component declarations to aes_pkg * Key schedule isn't implemented yet * Fixed round keys at the moment until key schedule is implemented * Simple test of enc & dec * New aes top level unit (empty at the moment) * Renamed makefile to Makefile
6 years ago
partition design in ovl and not ovl enabled new generic in aes.vhd: ovl_enable (boolean); copy of aes_pkg.vhd to integrate ovl functions; copy of tb_aes.vhd to integrate ovl function
13 years ago
 
  1. -- ======================================================================
  2. -- AES encryption/decryption
  3. -- Copyright (C) 2019 Torsten Meissner
  4. -------------------------------------------------------------------------
  5. -- This program is free software; you can redistribute it and/or modify
  6. -- it under the terms of the GNU General Public License as published by
  7. -- the Free Software Foundation; either version 2 of the License, or
  8. -- (at your option) any later version.
  9. 

  10. -- This program is distributed in the hope that it will be useful,
  11. -- but WITHOUT ANY WARRANTY; without even the implied warranty of
  12. -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  13. -- GNU General Public License for more details.
  14. 

  15. -- You should have received a copy of the GNU General Public License
  16. -- along with this program; if not, write to the Free Software
  17. -- Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
  18. -- ======================================================================
  19. 

  20. 

  21. library ieee;
  22. use ieee.std_logic_1164.all;
  23. use ieee.numeric_std.all;
  24. 

  25. library osvvm;
  26.   use osvvm.RandomPkg.all;
  27. 

  28. use std.env.all;
  29. 

  30. use work.aes_pkg.all;
  31. 

  32. 

  33. 

  34. entity tb_aes is
  35. end entity tb_aes;
  36. 

  37. 

  38. 

  39. architecture rtl of tb_aes is
  40. 

  41. 

  42.   signal s_reset         : std_logic := '0';
  43.   signal s_clk           : std_logic := '0';
  44.   signal s_mode          : std_logic := '0';
  45.   signal s_key           : std_logic_vector(0 to 127) := (others => '0');
  46.   signal s_datain        : std_logic_vector(0 to 127) := (others => '0');
  47.   signal s_validin_enc   : std_logic := '0';
  48.   signal s_acceptout_enc : std_logic;
  49.   signal s_dataout_enc   : std_logic_vector(0 to 127);
  50.   signal s_validout_enc  : std_logic;
  51.   signal s_acceptin_enc  : std_logic := '0';
  52.   signal s_validin_dec   : std_logic := '0';
  53.   signal s_acceptout_dec : std_logic;
  54.   signal s_dataout_dec   : std_logic_vector(0 to 127);
  55.   signal s_validout_dec  : std_logic;
  56.   signal s_acceptin_dec  : std_logic := '0';
  57. 

  58.   procedure cryptData(datain  : in  std_logic_vector(0 to 127);
  59.                       key     : in  std_logic_vector(0 to 127);
  60.                       mode    : in  boolean;
  61.                       dataout : out std_logic_vector(0 to 127);
  62.                       len     : in  integer) is
  63.   begin
  64.     report "VHPIDIRECT cryptData" severity failure;
  65.   end procedure;
  66. 

  67.   attribute foreign of cryptData: procedure is "VHPIDIRECT cryptData";
  68. 

  69.   function swap (datain : std_logic_vector(0 to 127)) return std_logic_vector is
  70.     variable v_data : std_logic_vector(0 to 127);
  71.   begin
  72.     for i in 0 to 15 loop
  73.       for y in 0 to 7 loop
  74.         v_data((i*8)+y) := datain((i*8)+7-y);
  75.       end loop;
  76.     end loop;
  77.     return v_data;
  78.   end function;
  79. 

  80. begin
  81. 

  82. 

  83.   s_clk   <= not(s_clk) after 10 ns;
  84.   s_reset <= '1' after 100 ns;
  85. 

  86. 

  87.   i_aes_enc : aes_enc
  88.   port map (
  89.     reset_i  => s_reset,
  90.     clk_i    => s_clk,
  91.     key_i    => s_key,
  92.     data_i   => s_datain,
  93.     valid_i  => s_validin_enc,
  94.     accept_o => s_acceptout_enc,
  95.     data_o   => s_dataout_enc,
  96.     valid_o  => s_validout_enc,
  97.     accept_i => s_acceptin_enc
  98.   );
  99. 

  100. 

  101.   i_aes_dec : aes_dec
  102.   port map (
  103.     reset_i  => s_reset,
  104.     clk_i    => s_clk,
  105.     key_i    => s_key,
  106.     data_i   => s_datain,
  107.     valid_i  => s_validin_dec,
  108.     accept_o => s_acceptout_dec,
  109.     data_o   => s_dataout_dec,
  110.     valid_o  => s_validout_dec,
  111.     accept_i => s_acceptin_dec
  112.   );
  113. 

  114. 

  115.   process is
  116.     variable v_key     : std_logic_vector(0 to 127);
  117.     variable v_datain  : std_logic_vector(0 to 127);
  118.     variable v_dataout : std_logic_vector(0 to 127);
  119.     variable v_random  : RandomPType;
  120.   begin
  121.     v_random.InitSeed(v_random'instance_name);
  122.     wait until s_reset = '1';
  123.     -- ENCRYPTION TESTs
  124.     report "Test encryption";
  125.     for i in 0 to 63 loop
  126.       wait until rising_edge(s_clk);
  127.       s_validin_enc <= '1';
  128.       v_key         := v_random.RandSlv(128);
  129.       v_datain      := v_random.RandSlv(128);
  130.       s_key         <= v_key;
  131.       s_datain      <= v_datain;
  132.       cryptData(swap(v_datain), swap(v_key), true, v_dataout, 128);
  133.       wait until s_acceptout_enc = '1' and rising_edge(s_clk);
  134.       s_validin_enc <= '0';
  135.       wait until s_validout_enc = '1' and rising_edge(s_clk);
  136.       s_acceptin_enc <= '1';
  137.       assert s_dataout_enc = swap(v_dataout)
  138.         report "Encryption error"
  139.         severity failure;
  140.       wait until rising_edge(s_clk);
  141.       s_acceptin_enc <= '0';
  142.     end loop;
  143.     -- DECRYPTION TESTs
  144.     report "Test decryption";
  145.     for i in 0 to 63 loop
  146.       wait until rising_edge(s_clk);
  147.       s_validin_dec <= '1';
  148.       v_key         := x"2b7e151628aed2a6abf7158809cf4f3c";
  149.       v_datain      := x"3925841D02DC09FBDC118597196A0B32";
  150.       s_key         <= v_key;
  151.       s_datain      <= v_datain;
  152.       wait until s_acceptout_dec = '1' and rising_edge(s_clk);
  153.       s_validin_dec <= '0';
  154.       wait until s_validout_dec = '1' and rising_edge(s_clk);
  155.       s_acceptin_dec <= '1';
  156.       assert s_dataout_dec = x"3243f6a8885a308d313198a2e0370734"
  157.         report "Decryption error"
  158.         severity failure;
  159.       wait until rising_edge(s_clk);
  160.       s_acceptin_dec <= '0';
  161.     end loop;
  162.     wait for 100 ns;
  163.     report "Tests successful";
  164.     finish(0);
  165.   end process;
  166. 

  167. 

  168. end architecture rtl;