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//======================================================================
//
// Copyright (c) 2018, NORDUnet A/S All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// - Redistributions of source code must retain the above copyright
//   notice, this list of conditions and the following disclaimer.
//
// - Redistributions in binary form must reproduce the above copyright
//   notice, this list of conditions and the following disclaimer in the
//   documentation and/or other materials provided with the distribution.
//
// - Neither the name of the NORDUnet nor the names of its contributors may
//   be used to endorse or promote products derived from this software
//   without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
// IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
// PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
// TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
//======================================================================

`timescale 1ns / 1ps

module ecdhp256
  (
   input wire 	      clk,
   input wire 	      rst_n,

   input wire 	      next,
   output wire 	      valid,

   input wire 	      bus_cs,
   input wire 	      bus_we,
   input wire [ 5:0]  bus_addr,
   input wire [31:0]  bus_data_wr,
   output wire [31:0] bus_data_rd
   );


   //
   // Memory Banks
   //
   localparam [2:0] BUS_ADDR_BANK_K			= 3'd0;
   localparam [2:0] BUS_ADDR_BANK_IN_X		= 3'd1;
   localparam [2:0] BUS_ADDR_BANK_IN_Y		= 3'd2;
   localparam [2:0] BUS_ADDR_BANK_OUT_X	= 3'd3;
   localparam [2:0] BUS_ADDR_BANK_OUT_Y	= 3'd4;

   wire [2:0] 	      bus_addr_upper = bus_addr[5:3];
   wire [2:0] 	      bus_addr_lower = bus_addr[2:0];


   //
   // Memories
   //

   wire [31:0] 	      user_rw_k_bram_out;
   wire [31:0] 	      user_rw_in_x_bram_out;
   wire [31:0] 	      user_rw_in_y_bram_out;
   wire [31:0] 	      user_ro_out_x_bram_out;
   wire [31:0] 	      user_ro_out_y_bram_out;

   wire [ 2:0] 	      core_ro_k_bram_addr;
   wire [ 2:0] 	      core_ro_in_x_bram_addr;
   wire [ 2:0] 	      core_ro_in_y_bram_addr;
   wire [ 2:0] 	      core_rw_out_x_bram_addr;
   wire [ 2:0] 	      core_rw_out_y_bram_addr;

   wire 	      core_rw_out_x_bram_wren;
   wire 	      core_rw_out_y_bram_wren;

   wire [31:0] 	      core_ro_k_bram_dout;
   wire [31:0] 	      core_ro_in_x_bram_dout;
   wire [31:0] 	      core_ro_in_y_bram_dout;
   wire [31:0] 	      core_rw_out_x_bram_din;
   wire [31:0] 	      core_rw_out_y_bram_din;


   bram_1rw_1ro_readfirst #
     (	.MEM_WIDTH(32), .MEM_ADDR_BITS(3)
	)
   bram_k
     (	.clk(clk),
	.a_addr(bus_addr_lower), .a_out(user_rw_k_bram_out), .a_wr(bus_cs && bus_we && (bus_addr_upper == BUS_ADDR_BANK_K)), .a_in(bus_data_wr),
	.b_addr(core_ro_k_bram_addr), .b_out(core_ro_k_bram_dout)
	);

   bram_1rw_1ro_readfirst #
     (	.MEM_WIDTH(32), .MEM_ADDR_BITS(3)
	)
   bram_in_x
     (	.clk(clk),
	.a_addr(bus_addr_lower), .a_out(user_rw_in_x_bram_out), .a_wr(bus_cs && bus_we && (bus_addr_upper == BUS_ADDR_BANK_IN_X)), .a_in(bus_data_wr),
	.b_addr(core_ro_in_x_bram_addr), .b_out(core_ro_in_x_bram_dout)
	);

   bram_1rw_1ro_readfirst #
     (	.MEM_WIDTH(32), .MEM_ADDR_BITS(3)
	)
   bram_in_y
     (	.clk(clk),
	.a_addr(bus_addr_lower), .a_out(user_rw_in_y_bram_out), .a_wr(bus_cs && bus_we && (bus_addr_upper == BUS_ADDR_BANK_IN_Y)), .a_in(bus_data_wr),
	.b_addr(core_ro_in_y_bram_addr), .b_out(core_ro_in_y_bram_dout)
	);

   bram_1rw_1ro_readfirst #
     (	.MEM_WIDTH(32), .MEM_ADDR_BITS(3)
	)
   bram_out_x
     (	.clk(clk),
	.a_addr(core_rw_out_x_bram_addr), .a_out(), .a_wr(core_rw_out_x_bram_wren), .a_in(core_rw_out_x_bram_din),
	.b_addr(bus_addr_lower),      .b_out(user_ro_out_x_bram_out)
	);

   bram_1rw_1ro_readfirst #
     (	.MEM_WIDTH(32), .MEM_ADDR_BITS(3)
	)
   bram_out_y
     (	.clk(clk),
	.a_addr(core_rw_out_y_bram_addr), .a_out(), .a_wr(core_rw_out_y_bram_wren), .a_in(core_rw_out_y_bram_din),
	.b_addr(bus_addr_lower),      .b_out(user_ro_out_y_bram_out)
	);


   //
   // Curve Point Multiplier
   //
   reg		next_dly;

   always @(posedge clk) next_dly <= next;

   wire		next_trig = next && !next_dly;

   point_mul_256 point_multiplier_p256
     (
      .clk	(clk),
      .rst_n	(rst_n),

      .ena	(next_trig),
      .rdy	(valid),

      .k_addr	(core_ro_k_bram_addr),
      .qx_addr	(core_ro_in_x_bram_addr),
      .qy_addr	(core_ro_in_y_bram_addr),
      .rx_addr	(core_rw_out_x_bram_addr),
      .ry_addr	(core_rw_out_y_bram_addr),

      .rx_wren	(core_rw_out_x_bram_wren),
      .ry_wren	(core_rw_out_y_bram_wren),

      .k_din	(core_ro_k_bram_dout),
      .qx_din	(core_ro_in_x_bram_dout),
      .qy_din	(core_ro_in_y_bram_dout),
      .rx_dout	(core_rw_out_x_bram_din),
      .ry_dout	(core_rw_out_y_bram_din)
      );

   //
   // Output Selector
   //
   reg [2:0] 	      bus_addr_upper_prev;
   always @(posedge clk) bus_addr_upper_prev = bus_addr_upper;

   reg [31: 0] 	      bus_data_rd_mux;
   assign bus_data_rd = bus_data_rd_mux;

   always @(*)
     //
     case (bus_addr_upper_prev)
       //
       BUS_ADDR_BANK_K: bus_data_rd_mux = user_rw_k_bram_out;
       BUS_ADDR_BANK_IN_X: bus_data_rd_mux = user_rw_in_x_bram_out;
       BUS_ADDR_BANK_IN_Y: bus_data_rd_mux = user_rw_in_y_bram_out;
       BUS_ADDR_BANK_OUT_X: bus_data_rd_mux = user_ro_out_x_bram_out;
       BUS_ADDR_BANK_OUT_Y: bus_data_rd_mux = user_ro_out_y_bram_out;
       //
       default:         bus_data_rd_mux = {32{1'b0}};
       //
     endcase

endmodule