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cryptography ip-cores in vhdl / verilog
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cryptocores/cbcdes/rtl/verilog/des.v

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import verilog des design files from des project
12 years ago
 
  1. // ======================================================================
  2. // DES encryption/decryption
  3. // algorithm according:FIPS 46-3 specification
  4. // Copyright (C) 2012 Torsten Meissner
  5. //-----------------------------------------------------------------------
  6. // This program is free software; you can redistribute it and/or modify
  7. // it under the terms of the GNU General Public License as published by
  8. // the Free Software Foundation; either version 2 of the License, or
  9. // (at your option) any later version.
  10. //
  11. // This program is distributed in the hope that it will be useful,
  12. // but WITHOUT ANY WARRANTY; without even the implied warranty of
  13. // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  14. // GNU General Public License for more details.
  15. //
  16. // You should have received a copy of the GNU General Public License
  17. // along with this program; if not, write:the Free Software
  18. // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
  19. // ======================================================================
  20. 

  21. 

  22. `timescale 1ns/1ps
  23. 

  24. 

  25. module des
  26.   (
  27.     input             reset_i,  // async reset
  28.     input             clk_i,    // clock
  29.     input             mode_i,   // des-mode: 0 = encrypt, 1 = decrypt
  30.     input      [0:63] key_i,    // key input
  31.     input      [0:63] data_i,   // data input
  32.     input             valid_i,  // input key/data valid flag
  33.     output reg [0:63] data_o,   // data output
  34.     output            valid_o   // output data valid flag
  35.   );
  36. 

  37. 

  38. `include "../../rtl/verilog/des_pkg.v"
  39. 

  40.   // valid, mode register
  41.   reg [0:18] valid;
  42.   reg [0:17] mode;
  43. 

  44.   // algorithm pipeline register
  45.   // key calculation register
  46.   reg [0:27] c0;
  47.   reg [0:27] c1;
  48.   reg [0:27] c2;
  49.   reg [0:27] c3;
  50.   reg [0:27] c4;
  51.   reg [0:27] c5;
  52.   reg [0:27] c6;
  53.   reg [0:27] c7;
  54.   reg [0:27] c8;
  55.   reg [0:27] c9;
  56.   reg [0:27] c10;
  57.   reg [0:27] c11;
  58.   reg [0:27] c12;
  59.   reg [0:27] c13;
  60.   reg [0:27] c14;
  61.   reg [0:27] c15;
  62.   reg [0:27] c16;
  63.   reg [0:27] d0;
  64.   reg [0:27] d1;
  65.   reg [0:27] d2;
  66.   reg [0:27] d3;
  67.   reg [0:27] d4;
  68.   reg [0:27] d5;
  69.   reg [0:27] d6;
  70.   reg [0:27] d7;
  71.   reg [0:27] d8;
  72.   reg [0:27] d9;
  73.   reg [0:27] d10;
  74.   reg [0:27] d11;
  75.   reg [0:27] d12;
  76.   reg [0:27] d13;
  77.   reg [0:27] d14;
  78.   reg [0:27] d15;
  79.   reg [0:27] d16;
  80.   // key register
  81.   wire [0:47] key1;
  82.   wire [0:47] key2;
  83.   wire [0:47] key3;
  84.   wire [0:47] key4;
  85.   wire [0:47] key5;
  86.   wire [0:47] key6;
  87.   wire [0:47] key7;
  88.   wire [0:47] key8;
  89.   wire [0:47] key9;
  90.   wire [0:47] key10;
  91.   wire [0:47] key11;
  92.   wire [0:47] key12;
  93.   wire [0:47] key13;
  94.   wire [0:47] key14;
  95.   wire [0:47] key15;
  96.   wire [0:47] key16;
  97.   // register for left, right data blocks
  98.   reg [0:31] l;
  99.   reg [0:31] l0;
  100.   reg [0:31] l1;
  101.   reg [0:31] l2;
  102.   reg [0:31] l3;
  103.   reg [0:31] l4;
  104.   reg [0:31] l5;
  105.   reg [0:31] l6;
  106.   reg [0:31] l7;
  107.   reg [0:31] l8;
  108.   reg [0:31] l9;
  109.   reg [0:31] l10;
  110.   reg [0:31] l11;
  111.   reg [0:31] l12;
  112.   reg [0:31] l13;
  113.   reg [0:31] l14;
  114.   reg [0:31] l15;
  115.   reg [0:31] l16;
  116.   reg [0:31] r;
  117.   reg [0:31] r0;
  118.   reg [0:31] r1;
  119.   reg [0:31] r2;
  120.   reg [0:31] r3;
  121.   reg [0:31] r4;
  122.   reg [0:31] r5;
  123.   reg [0:31] r6;
  124.   reg [0:31] r7;
  125.   reg [0:31] r8;
  126.   reg [0:31] r9;
  127.   reg [0:31] r10;
  128.   reg [0:31] r11;
  129.   reg [0:31] r12;
  130.   reg [0:31] r13;
  131.   reg [0:31] r14;
  132.   reg [0:31] r15;
  133.   reg [0:31] r16;
  134. 

  135.   wire valid_o = valid[18];
  136. 

  137.   // valid, mode register
  138.   always @(posedge clk_i, negedge reset_i) begin
  139.     if(~reset_i) begin
  140.       valid <= 0;
  141.       mode  <= 0;
  142.     end
  143.     else begin
  144.       // shift registers
  145.       valid[1:18] <= valid[0:17];
  146.       valid[0]    <= valid_i;
  147.       mode[1:17]  <= mode[0:16];
  148.       mode[0]     <= mode_i;
  149.     end
  150.   end
  151. 

  152.   // des algorithm pipeline
  153.   always @(posedge clk_i, negedge reset_i) begin
  154.     if(~reset_i) begin
  155.       l      <= 0;
  156.       r      <= 0;
  157.       l0     <= 0;
  158.       l1     <= 0;
  159.       l2     <= 0;
  160.       l3     <= 0;
  161.       l4     <= 0;
  162.       l5     <= 0;
  163.       l6     <= 0;
  164.       l7     <= 0;
  165.       l8     <= 0;
  166.       l9     <= 0;
  167.       l10    <= 0;
  168.       l11    <= 0;
  169.       l12    <= 0;
  170.       l13    <= 0;
  171.       l14    <= 0;
  172.       l15    <= 0;
  173.       l16    <= 0;
  174.       r0     <= 0;
  175.       r1     <= 0;
  176.       r2     <= 0;
  177.       r3     <= 0;
  178.       r4     <= 0;
  179.       r5     <= 0;
  180.       r6     <= 0;
  181.       r7     <= 0;
  182.       r8     <= 0;
  183.       r9     <= 0;
  184.       r10    <= 0;
  185.       r11    <= 0;
  186.       r12    <= 0;
  187.       r13    <= 0;
  188.       r14    <= 0;
  189.       r15    <= 0;
  190.       r16    <= 0;
  191.       data_o <= 0;
  192.     end
  193.     else begin
  194.       // output stage
  195.       data_o <= ipn({r16, l16});
  196.       // 16. stage
  197.       l16   <= r15;
  198.       r16   <= l15 ^ (f(r15, key16));
  199.       // 15. stage
  200.       l15   <= r14;
  201.       r15   <= l14 ^ (f(r14, key15));
  202.       // 14. stage
  203.       l14   <= r13;
  204.       r14   <= l13 ^ (f(r13, key14));
  205.       // 13. stage
  206.       l13   <= r12;
  207.       r13   <= l12 ^ (f(r12, key13));
  208.       // 12. stage
  209.       l12   <= r11;
  210.       r12   <= l11 ^ (f(r11, key12));
  211.       // 11. stage
  212.       l11   <= r10;
  213.       r11   <= l10 ^ (f(r10, key11));
  214.       // 10. stage
  215.       l10   <= r9;
  216.       r10   <= l9 ^ (f(r9, key10));
  217.       // 9. stage
  218.       l9   <= r8;
  219.       r9   <= l8 ^ (f(r8, key9));
  220.       // 8. stage
  221.       l8   <= r7;
  222.       r8   <= l7 ^ (f(r7, key8));
  223.       // 7. stage
  224.       l7   <= r6;
  225.       r7   <= l6 ^ (f(r6, key7));
  226.       // 6. stage
  227.       l6   <= r5;
  228.       r6   <= l5 ^ (f(r5, key6));
  229.       // 5. stage
  230.       l5   <= r4;
  231.       r5   <= l4 ^ (f(r4, key5));
  232.       // 4. stage
  233.       l4   <= r3;
  234.       r4   <= l3 ^ (f(r3, key4));
  235.       // 3. stage
  236.       l3   <= r2;
  237.       r3   <= l2 ^ (f(r2, key3));
  238.       // 2. stage
  239.       l2   <= r1;
  240.       r2   <= l1 ^ (f(r1, key2));
  241.       // 1. stage
  242.       l1   <= r0;
  243.       r1   <= l0 ^ (f(r0, key1));
  244.       // 1. state
  245.       l0   <= l;
  246.       r0   <= r;
  247.       // input stage
  248.       l   <= ip0(data_i);
  249.       r   <= ip1(data_i);
  250.     end
  251.   end
  252. 

  253.   // des key pipeline
  254.   always @(posedge clk_i, negedge reset_i) begin
  255.     if(~reset_i) begin
  256.       c0     <= 0;
  257.       c1     <= 0;
  258.       c2     <= 0;
  259.       c3     <= 0;
  260.       c4     <= 0;
  261.       c5     <= 0;
  262.       c6     <= 0;
  263.       c7     <= 0;
  264.       c8     <= 0;
  265.       c9     <= 0;
  266.       c10    <= 0;
  267.       c11    <= 0;
  268.       c12    <= 0;
  269.       c13    <= 0;
  270.       c14    <= 0;
  271.       c15    <= 0;
  272.       c16    <= 0;
  273.       d0     <= 0;
  274.       d1     <= 0;
  275.       d2     <= 0;
  276.       d3     <= 0;
  277.       d4     <= 0;
  278.       d5     <= 0;
  279.       d6     <= 0;
  280.       d7     <= 0;
  281.       d8     <= 0;
  282.       d9     <= 0;
  283.       d10    <= 0;
  284.       d11    <= 0;
  285.       d12    <= 0;
  286.       d13    <= 0;
  287.       d14    <= 0;
  288.       d15    <= 0;
  289.       d16    <= 0;
  290.     end
  291.     else begin
  292.       // input stage
  293.       c0 <= pc1_c(key_i);
  294.       d0 <= pc1_d(key_i);
  295.       // 1st stage
  296.       if (~mode[0]) begin
  297.         c1 <= {c0[1:27], c0[0]};
  298.         d1 <= {d0[1:27], d0[0]};
  299.       end
  300.       else begin
  301.         c1 <= c0;
  302.         d1 <= d0;
  303.       end
  304.       // 2nd stage
  305.       if (~mode[1]) begin
  306.         c2 <= {c1[1:27], c1[0]};
  307.         d2 <= {d1[1:27], d1[0]};
  308.       end
  309.       else begin
  310.         c2 <= {c1[27], c1[0:26]};
  311.         d2 <= {d1[27], d1[0:26]};
  312.       end
  313.       // 3rd stage
  314.       if (~mode[2]) begin
  315.         c3 <= {c2[2:27], c2[0:1]};
  316.         d3 <= {d2[2:27], d2[0:1]};
  317.       end
  318.       else begin
  319.         c3 <= {c2[26:27], c2[0:25]};
  320.         d3 <= {d2[26:27], d2[0:25]};
  321.       end
  322.       // 4th stage
  323.       if (~mode[3]) begin
  324.         c4 <= {c3[2:27], c3[0:1]};
  325.         d4 <= {d3[2:27], d3[0:1]};
  326.       end
  327.       else begin
  328.         c4 <= {c3[26:27], c3[0:25]};
  329.         d4 <= {d3[26:27], d3[0:25]};
  330.       end
  331.       // 5th stage
  332.       if (~mode[4]) begin
  333.         c5 <= {c4[2:27], c4[0:1]};
  334.         d5 <= {d4[2:27], d4[0:1]};
  335.       end
  336.       else begin
  337.         c5 <= {c4[26:27], c4[0:25]};
  338.         d5 <= {d4[26:27], d4[0:25]};
  339.       end
  340.       // 6. stage
  341.       if (~mode[5]) begin
  342.         c6 <= {c5[2:27], c5[0:1]};
  343.         d6 <= {d5[2:27], d5[0:1]};
  344.       end
  345.       else begin
  346.         c6 <= {c5[26:27], c5[0:25]};
  347.         d6 <= {d5[26:27], d5[0:25]};
  348.       end
  349.       // 7. stage
  350.       if (~mode[6]) begin
  351.         c7 <= {c6[2:27], c6[0:1]};
  352.         d7 <= {d6[2:27], d6[0:1]};
  353.       end
  354.       else begin
  355.         c7 <= {c6[26:27], c6[0:25]};
  356.         d7 <= {d6[26:27], d6[0:25]};
  357.       end
  358.       // 8. stage
  359.       if (~mode[7]) begin
  360.         c8 <= {c7[2:27], c7[0:1]};
  361.         d8 <= {d7[2:27], d7[0:1]};
  362.       end
  363.       else begin
  364.         c8 <= {c7[26:27], c7[0:25]};
  365.         d8 <= {d7[26:27], d7[0:25]};
  366.       end
  367.       // 9. stage
  368.       if (~mode[8]) begin
  369.         c9 <= {c8[1:27], c8[0]};
  370.         d9 <= {d8[1:27], d8[0]};
  371.       end
  372.       else begin
  373.         c9 <= {c8[27], c8[0:26]};
  374.         d9 <= {d8[27], d8[0:26]};
  375.       end
  376.       // 10. stage
  377.       if (~mode[9]) begin
  378.         c10 <= {c9[2:27], c9[0:1]};
  379.         d10 <= {d9[2:27], d9[0:1]};
  380.       end
  381.       else begin
  382.         c10 <= {c9[26:27], c9[0:25]};
  383.         d10 <= {d9[26:27], d9[0:25]};
  384.       end
  385.       // 6. stage
  386.       if (~mode[10]) begin
  387.         c11 <= {c10[2:27], c10[0:1]};
  388.         d11 <= {d10[2:27], d10[0:1]};
  389.       end
  390.       else begin
  391.         c11 <= {c10[26:27], c10[0:25]};
  392.         d11 <= {d10[26:27], d10[0:25]};
  393.       end
  394.       // 6. stage
  395.       if (~mode[11]) begin
  396.         c12 <= {c11[2:27], c11[0:1]};
  397.         d12 <= {d11[2:27], d11[0:1]};
  398.       end
  399.       else begin
  400.         c12 <= {c11[26:27], c11[0:25]};
  401.         d12 <= {d11[26:27], d11[0:25]};
  402.       end
  403.       // 6. stage
  404.       if (~mode[12]) begin
  405.         c13 <= {c12[2:27], c12[0:1]};
  406.         d13 <= {d12[2:27], d12[0:1]};
  407.       end
  408.       else begin
  409.         c13 <= {c12[26:27], c12[0:25]};
  410.         d13 <= {d12[26:27], d12[0:25]};
  411.       end
  412.       // 6. stage
  413.       if (~mode[13]) begin
  414.         c14 <= {c13[2:27], c13[0:1]};
  415.         d14 <= {d13[2:27], d13[0:1]};
  416.       end
  417.       else begin
  418.         c14 <= {c13[26:27], c13[0:25]};
  419.         d14 <= {d13[26:27], d13[0:25]};
  420.       end
  421.       // 6. stage
  422.       if (~mode[14]) begin
  423.         c15 <= {c14[2:27], c14[0:1]};
  424.         d15 <= {d14[2:27], d14[0:1]};
  425.       end
  426.       else begin
  427.         c15 <= {c14[26:27], c14[0:25]};
  428.         d15 <= {d14[26:27], d14[0:25]};
  429.       end
  430.       // 6. stage
  431.       if (~mode[15]) begin
  432.         c16 <= {c15[1:27], c15[0]};
  433.         d16 <= {d15[1:27], d15[0]};
  434.       end
  435.       else begin
  436.         c16 <= {c15[27], c15[0:26]};
  437.         d16 <= {d15[27], d15[0:26]};
  438.       end
  439.     end
  440.   end
  441. 

  442.   // key assignments
  443.   assign key1  = pc2({c1, d1});
  444.   assign key2  = pc2({c2, d2});
  445.   assign key3  = pc2({c3, d3});
  446.   assign key4  = pc2({c4, d4});
  447.   assign key5  = pc2({c5, d5});
  448.   assign key6  = pc2({c6, d6});
  449.   assign key7  = pc2({c7, d7});
  450.   assign key8  = pc2({c8, d8});
  451.   assign key9  = pc2({c9, d9});
  452.   assign key10 = pc2({c10, d10});
  453.   assign key11 = pc2({c11, d11});
  454.   assign key12 = pc2({c12, d12});
  455.   assign key13 = pc2({c13, d13});
  456.   assign key14 = pc2({c14, d14});
  457.   assign key15 = pc2({c15, d15});
  458.   assign key16 = pc2({c16, d16});
  459. 

  460. 

  461. endmodule
  462. 

  463. 

  464. 

  465.