| // Licensed under the Apache License, Version 2.0, see LICENSE for details. |
| // SPDX-License-Identifier: Apache-2.0 |
| |
| module eb1_iccm_controller ( |
| clk_i, |
| rst_ni, |
| rx_dv_i, |
| rx_byte_i, |
| we_o, |
| addr_o, |
| wdata_o, |
| reset_o |
| ); |
| input wire clk_i; |
| input wire rst_ni; |
| input wire rx_dv_i; |
| input wire [7:0] rx_byte_i; |
| output wire we_o; |
| output wire [13:0] addr_o; |
| output wire [31:0] wdata_o; |
| output wire reset_o; |
| reg [1:0] ctrl_fsm_cs; |
| reg [1:0] ctrl_fsm_ns; |
| wire [7:0] rx_byte_d; |
| reg [7:0] rx_byte_q0; |
| reg [7:0] rx_byte_q1; |
| reg [7:0] rx_byte_q2; |
| reg [7:0] rx_byte_q3; |
| reg we_q; |
| reg we_d; |
| reg [13:0] addr_q; |
| reg [13:0] addr_d; |
| reg reset_q; |
| reg reset_d; |
| reg [1:0] byte_count; |
| localparam [1:0] DONE = 3; |
| localparam [1:0] LOAD = 1; |
| localparam [1:0] PROG = 2; |
| localparam [1:0] RESET = 0; |
| always @(*) begin |
| we_d = we_q; |
| addr_d = addr_q; |
| reset_d = reset_q; |
| ctrl_fsm_ns = ctrl_fsm_cs; |
| case (ctrl_fsm_cs) |
| RESET: begin |
| we_d = 1'b0; |
| reset_d = 1'b0; |
| if (rx_dv_i) |
| ctrl_fsm_ns = LOAD; |
| else |
| ctrl_fsm_ns = RESET; |
| end |
| LOAD: |
| if (((byte_count == 2'b11) && (rx_byte_q2 != 8'h0f)) && (rx_byte_d != 8'hff)) begin |
| we_d = 1'b1; |
| ctrl_fsm_ns = PROG; |
| end |
| else |
| ctrl_fsm_ns = DONE; |
| PROG: begin |
| we_d = 1'b0; |
| ctrl_fsm_ns = DONE; |
| end |
| DONE: |
| if (wdata_o == 32'h00000fff) begin |
| ctrl_fsm_ns = DONE; |
| reset_d = 1'b1; |
| end |
| else if (rx_dv_i) |
| ctrl_fsm_ns = LOAD; |
| else |
| ctrl_fsm_ns = DONE; |
| //default: ctrl_fsm_ns = RESET; |
| endcase |
| end |
| assign rx_byte_d = rx_byte_i; |
| assign we_o = we_q; |
| assign addr_o = addr_q; |
| assign wdata_o = {rx_byte_q0, rx_byte_q1, rx_byte_q2, rx_byte_q3}; |
| assign reset_o = reset_q; |
| always @(posedge clk_i or negedge rst_ni) |
| if (!rst_ni) begin |
| we_q <= 1'b0; |
| addr_q <= 14'b00000000000000; |
| rx_byte_q0 <= 8'b00000000; |
| rx_byte_q1 <= 8'b00000000; |
| rx_byte_q2 <= 8'b00000000; |
| rx_byte_q3 <= 8'b00000000; |
| reset_q <= 1'b0; |
| byte_count <= 2'b00; |
| ctrl_fsm_cs <= RESET; |
| end |
| else begin |
| we_q <= we_d; |
| if (ctrl_fsm_cs == LOAD) begin |
| if (byte_count == 2'b00) begin |
| rx_byte_q0 <= rx_byte_d; |
| byte_count <= 2'b01; |
| end |
| else if (byte_count == 2'b01) begin |
| rx_byte_q1 <= rx_byte_d; |
| byte_count <= 2'b10; |
| end |
| else if (byte_count == 2'b10) begin |
| rx_byte_q2 <= rx_byte_d; |
| byte_count <= 2'b11; |
| end |
| else begin |
| rx_byte_q3 <= rx_byte_d; |
| byte_count <= 2'b00; |
| end |
| addr_q <= addr_d; |
| end |
| if (ctrl_fsm_cs == PROG) |
| addr_q <= addr_d + 2'h2; |
| reset_q <= reset_d; |
| ctrl_fsm_cs <= ctrl_fsm_ns; |
| end |
| endmodule |