/* * wb_epbuf.v * * vim: ts=4 sw=4 * * Copyright (C) 2020 Sylvain Munaut * SPDX-License-Identifier: CERN-OHL-P-2.0 */ `default_nettype none module wb_epbuf #( parameter integer AW = 9, parameter integer DW = 32 )( // Wishbone slave input wire [AW-1:0] wb_addr, output wire [DW-1:0] wb_rdata, input wire [DW-1:0] wb_wdata, input wire wb_we, input wire wb_cyc, output wire wb_ack, // USB EP-Buf master output wire [AW-1:0] ep_tx_addr_0, output wire [DW-1:0] ep_tx_data_0, output wire ep_tx_we_0, output wire [AW-1:0] ep_rx_addr_0, input wire [DW-1:0] ep_rx_data_1, output wire ep_rx_re_0, // Clock / Reset input wire clk, input wire rst ); reg ack_i; assign ep_tx_addr_0 = wb_addr; assign ep_rx_addr_0 = wb_addr; assign ep_tx_data_0 = wb_wdata; assign wb_rdata = ep_rx_data_1; assign ep_tx_we_0 = wb_cyc & wb_we & ~ack_i; assign ep_rx_re_0 = 1'b1; assign wb_ack = ack_i; always @(posedge clk or posedge rst) if (rst) ack_i <= 1'b0; else ack_i <= wb_cyc & ~ack_i; endmodule // wb_epbuf