| 1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950515253545556575859606162636465666768697071727374757677787980818283848586878889909192939495969798 |
- /*
- * mailbox_wb.v
- *
- * vim: ts=4 sw=4
- *
- * Copyright (C) 2025 Krzysztof Skrzynecki, Jakub Duchniewicz <j.duchniewicz@gmail.com>
- * SPDX-License-Identifier: TODO:
- */
- `default_nettype none
- module mailbox_wb #(
- parameter AW = 4, // Address width for 16 registers (4 bits)
- parameter DW = 32 // Data width for the Wishbone interface (32 bits)
- )(
- input wire clk,
- input wire rst,
- // Wishbone Interface
- input wire [AW-1:0] wb_addr,
- input wire [DW-1:0] wb_wdata,
- output reg [DW-1:0] wb_rdata,
- input wire wb_we,
- input wire wb_cyc,
- output reg wb_ack,
- // Flattened custom hardware side (RTL)
- output wire [16*DW-1:0] registers_flat // Flattened register array (16 registers of 16 bits each)
- );
- // Internal registers (16 registers, each 16 bits wide)
- reg [15:0] registers_array[15:0];
- // Always reset the registers on reset signal
- integer i;
- always @(posedge clk or posedge rst) begin
- if (rst) begin
- wb_ack <= 1'b0;
- for (i = 0; i < 16; i = i + 1) begin
- registers_array[i] <= 16'h0; // Reset all registers to 0
- end
- end else begin
- // Handle Wishbone communication
- wb_ack <= wb_cyc;
- // Write operation (if write enable is active)
- if (wb_we && wb_cyc) begin
- case (wb_addr)
- 4'b0000: registers_array[0] <= wb_wdata[15:0]; // Only use lower 16 bits
- 4'b0001: registers_array[1] <= wb_wdata[15:0];
- 4'b0010: registers_array[2] <= wb_wdata[15:0];
- 4'b0011: registers_array[3] <= wb_wdata[15:0];
- 4'b0100: registers_array[4] <= wb_wdata[15:0];
- 4'b0101: registers_array[5] <= wb_wdata[15:0];
- 4'b0110: registers_array[6] <= wb_wdata[15:0];
- 4'b0111: registers_array[7] <= wb_wdata[15:0];
- 4'b1000: registers_array[8] <= wb_wdata[15:0];
- 4'b1001: registers_array[9] <= wb_wdata[15:0];
- 4'b1010: registers_array[10] <= wb_wdata[15:0];
- 4'b1011: registers_array[11] <= wb_wdata[15:0];
- 4'b1100: registers_array[12] <= wb_wdata[15:0];
- 4'b1101: registers_array[13] <= wb_wdata[15:0];
- 4'b1110: registers_array[14] <= wb_wdata[15:0];
- 4'b1111: registers_array[15] <= wb_wdata[15:0];
- endcase
- end
- // Read operation (read the correct register based on address)
- case (wb_addr)
- 4'b0000: wb_rdata <= {16'h0, registers_array[0]}; // Place 16-bit value in lower half of 32-bit bus
- 4'b0001: wb_rdata <= {16'h0, registers_array[1]};
- 4'b0010: wb_rdata <= {16'h0, registers_array[2]};
- 4'b0011: wb_rdata <= {16'h0, registers_array[3]};
- 4'b0100: wb_rdata <= {16'h0, registers_array[4]};
- 4'b0101: wb_rdata <= {16'h0, registers_array[5]};
- 4'b0110: wb_rdata <= {16'h0, registers_array[6]};
- 4'b0111: wb_rdata <= {16'h0, registers_array[7]};
- 4'b1000: wb_rdata <= {16'h0, registers_array[8]};
- 4'b1001: wb_rdata <= {16'h0, registers_array[9]};
- 4'b1010: wb_rdata <= {16'h0, registers_array[10]};
- 4'b1011: wb_rdata <= {16'h0, registers_array[11]};
- 4'b1100: wb_rdata <= {16'h0, registers_array[12]};
- 4'b1101: wb_rdata <= {16'h0, registers_array[13]};
- 4'b1110: wb_rdata <= {16'h0, registers_array[14]};
- 4'b1111: wb_rdata <= {16'h0, registers_array[15]};
- default: wb_rdata <= 32'hDEAD_BEEF; // Default error value
- endcase
- end
- end
- // Flatten the registers array to the output port (registers_flat)
- generate
- genvar j;
- for (j = 0; j < 16; j = j + 1) begin : flatten
- assign registers_flat[16*(j+1)-1:16*j] = registers_array[j];
- end
- endgenerate
- endmodule
|
