// module that has registers used for debug module debug_regs ( input wb_clk_i, input wb_rst_i, input wbs_stb_i, input wbs_cyc_i, input wbs_we_i, input [3:0] wbs_sel_i, input [31:0] wbs_dat_i, input [31:0] wbs_adr_i, output reg wbs_ack_o, output reg [31:0] wbs_dat_o); reg [31:0] debug_reg_1; reg [31:0] debug_reg_2; // write always @(posedge wb_clk_i or posedge wb_rst_i) begin if (wb_rst_i) begin debug_reg_1 <=0; debug_reg_2 <=0; wbs_dat_o <=0; wbs_ack_o <=0; end else if (wbs_cyc_i && wbs_stb_i && wbs_we_i && !wbs_ack_o && (wbs_adr_i[3:0]==4'hC||wbs_adr_i[3:0]==4'h8))begin // write // write to reg1 debug_reg_1[7:0] <= ((wbs_adr_i[3:0]==4'h8) && wbs_sel_i[0])? wbs_dat_i[7:0] :debug_reg_1[7:0]; debug_reg_1[15:8] <= ((wbs_adr_i[3:0]==4'h8) && wbs_sel_i[1])? wbs_dat_i[15:8] :debug_reg_1[15:8]; debug_reg_1[23:16] <= ((wbs_adr_i[3:0]==4'h8) && wbs_sel_i[2])? wbs_dat_i[23:16] :debug_reg_1[23:16]; debug_reg_1[31:24] <= ((wbs_adr_i[3:0]==4'h8) && wbs_sel_i[3])? wbs_dat_i[31:24] :debug_reg_1[31:24]; // write to reg2 debug_reg_2[7:0] <= ((wbs_adr_i[3:0]==4'hC) && wbs_sel_i[0])? wbs_dat_i[7:0] :debug_reg_2[7:0]; debug_reg_2[15:8] <= ((wbs_adr_i[3:0]==4'hC) && wbs_sel_i[1])? wbs_dat_i[15:8] :debug_reg_2[15:8]; debug_reg_2[23:16] <= ((wbs_adr_i[3:0]==4'hC) && wbs_sel_i[2])? wbs_dat_i[23:16] :debug_reg_2[23:16]; debug_reg_2[31:24] <= ((wbs_adr_i[3:0]==4'hC) && wbs_sel_i[3])? wbs_dat_i[31:24] :debug_reg_2[31:24]; wbs_ack_o <= 1; end else if (wbs_cyc_i && wbs_stb_i && !wbs_we_i && !wbs_ack_o && (wbs_adr_i[3:0]==4'hC||wbs_adr_i[3:0]==4'h8)) begin // read wbs_dat_o <= ((wbs_adr_i[3:0]==4'hC)) ? debug_reg_2 : debug_reg_1; wbs_ack_o <= 1; end else begin wbs_ack_o <= 0; wbs_dat_o <= 0; end end endmodule `default_nettype wire