//====================================================================== // // alpha_top.v // ------------ // Top module for the Cryptech Alpha FPGA framework. This design // allow us to run the FMC interface at one clock and cores including // core selector with the always present global clock. // // // Author: Pavel Shatov // Copyright (c) 2016, 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 alpha_fmc_top ( input wire gclk_pin, // 50 MHz input wire ct_noise, // cryptech avalanche noise circuit input wire fmc_clk, // clock input wire [23: 0] fmc_a, // address inout wire [31: 0] fmc_d, // data input wire fmc_ne1, // chip select input wire fmc_noe, // output enable input wire fmc_nwe, // write enable input wire fmc_nl, // latch enable output wire fmc_nwait,// wait output wire mkm_sclk, output wire mkm_cs_n, input wire mkm_do, output wire mkm_di, output wire [7: 0] gpio_a, output wire [7: 0] gpio_b, output wire [3: 0] led_pins // {red, yellow, green, blue} ); //---------------------------------------------------------------- // Dummy assignments to bypass unconnected outpins pins check in BitGen //---------------------------------------------------------------- assign led_pins[3:1] = 3'b000; //---------------------------------------------------------------- // Clock Manager // // Clock manager is used to generate SYS_CLK from GCLK // and implement the reset logic. // ---------------------------------------------------------------- wire sys_clk; wire sys_rst_n; alpha_clkmgr # ( .CLK_OUT_MUL (20.0), // 2..64 .CLK_OUT_DIV (20.0) // 1..128 ) clkmgr ( .gclk (gclk_pin), .sys_clk (sys_clk), .sys_rst_n (sys_rst_n) ); //---------------------------------------------------------------- // BUFG // // FMC clock must be routed through the global clocking backbone. // ---------------------------------------------------------------- wire fmc_clk_bug; BUFG BUFG_fmc_clk ( .I (fmc_clk), .O (fmc_clk_bufg) ); //---------------------------------------------------------------- // FMC Arbiter // // FMC arbiter handles FMC access and transfers it into // `sys_clk' clock domain. //---------------------------------------------------------------- wire [23: 0] sys_fmc_addr; // address wire sys_fmc_wren; // write enable wire sys_fmc_rden; // read enable wire [31: 0] sys_fmc_dout; // data output (from STM32 to FPGA) wire [31: 0] sys_fmc_din; // data input (from FPGA to STM32) fmc_arbiter # ( .NUM_ADDR_BITS(24) // change to 26 when Alpha is alive! ) fmc ( .fmc_clk(fmc_clk_bufg), .fmc_a(fmc_a), .fmc_d(fmc_d), .fmc_ne1(fmc_ne1), .fmc_nl(fmc_nl), .fmc_nwe(fmc_nwe), .fmc_noe(fmc_noe), .fmc_nwait(fmc_nwait), .sys_clk(sys_clk), .sys_addr(sys_fmc_addr), .sys_wr_en(sys_fmc_wren), .sys_rd_en(sys_fmc_rden), .sys_data_out(sys_fmc_dout), .sys_data_in(sys_fmc_din) ); //---------------------------------------------------------------- // LED Driver // // A simple utility LED driver that turns on the Alpha // board LED when the FMC interface is active. //---------------------------------------------------------------- fmc_indicator led ( .sys_clk(sys_clk), .sys_rst_n(sys_rst_n), .fmc_active(sys_fmc_wren | sys_fmc_rden), .led_out(led_pins[0]) ); //---------------------------------------------------------------- // Core Selector // // This multiplexer is used to map different types of cores, such as // hashes, RNGs and ciphers to different regions (segments) of memory. //---------------------------------------------------------------- core_selector cores ( .sys_clk(sys_clk), .sys_rst_n(sys_rst_n), .sys_fmc_addr(sys_fmc_addr), .sys_fmc_wr(sys_fmc_wren), .sys_fmc_rd(sys_fmc_rden), .sys_write_data(sys_fmc_dout), .sys_read_data(sys_fmc_din), .noise(ct_noise), .mkm_sclk(mkm_sclk), .mkm_cs_n(mkm_cs_n), .mkm_do(mkm_do), .mkm_di(mkm_di) ); //---------------------------------------------------------------- // sys_clk_toggle // // Simple circuit that allows observation of the sys_clk on // an output pin. The sys_clk is divided down to allow // measurement with simple equipment. // // One toggle cycle will be 2 * TOGGLE_DELAY_CYCLES. The // number of cycles are selected to generate a 500 kHz period // when sys_clk is running at 50 MHz. // // The toggle signal is presented at pin 0 of both GPIO banks // available to the FPGA on the Alpha board. //---------------------------------------------------------------- localparam TOGGLE_DELAY_CYCLES = 50; reg [15 : 0] toggle_ctr_reg; reg [15 : 0] toggle_ctr_new; reg toggle_reg; reg toggle_we; assign gpio_a = {7'b0101010, toggle_reg}; assign gpio_b = {7'b1010101, toggle_reg}; always @(posedge sys_clk) begin: sys_clk_toggle_reg_update if (!reset_n) begin toggle_ctr_reg <= 16'h0; toggle_reg <= 1'b0; end else begin toggle_ctr_reg <= toggle_ctr_new; if (toggle_we) toggle_reg <= ~toggle_reg; end end always @* begin : sys_clk_toggle if (toggle_ctr_reg == TOGGLE_DELAY_CYCLES) begin toggle_ctr_new = 16'h0; toggle_we = 1'b1; end else begin toggle_ctr_new = toggle_ctr_reg + 1'b1; toggle_we = 1'b0; end end endmodule // alpha_fmc_top