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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [actel/] [ordb1a3pe1500/] [rtl/] [verilog/] [arbiter/] [arbiter_dbus.v] - Rev 868
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////////////////////////////////////////////////////////////////////// /// //// /// Wishbone arbiter, burst-compatible //// /// //// /// Simple arbiter, multi-master, multi-slave with default slave //// /// for chaining with peripheral arbiter //// /// //// /// Julius Baxter, julius@opencores.org //// /// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2009, 2010 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// `include "orpsoc-defines.v" // 2 Masters, a few slaves module arbiter_dbus ( // or1200 data master // Wishbone Master interface wbm0_adr_o, wbm0_dat_o, wbm0_sel_o, wbm0_we_o, wbm0_cyc_o, wbm0_stb_o, wbm0_cti_o, wbm0_bte_o, wbm0_dat_i, wbm0_ack_i, wbm0_err_i, wbm0_rty_i, // or1200 debug master // Wishbone Master interface wbm1_adr_o, wbm1_dat_o, wbm1_sel_o, wbm1_we_o, wbm1_cyc_o, wbm1_stb_o, wbm1_cti_o, wbm1_bte_o, wbm1_dat_i, wbm1_ack_i, wbm1_err_i, wbm1_rty_i, // Slave one // Wishbone Slave interface wbs0_adr_i, wbs0_dat_i, wbs0_sel_i, wbs0_we_i, wbs0_cyc_i, wbs0_stb_i, wbs0_cti_i, wbs0_bte_i, wbs0_dat_o, wbs0_ack_o, wbs0_err_o, wbs0_rty_o, // Slave two // Wishbone Slave interface wbs1_adr_i, wbs1_dat_i, wbs1_sel_i, wbs1_we_i, wbs1_cyc_i, wbs1_stb_i, wbs1_cti_i, wbs1_bte_i, wbs1_dat_o, wbs1_ack_o, wbs1_err_o, wbs1_rty_o, // Slave three // Wishbone Slave interface wbs2_adr_i, wbs2_dat_i, wbs2_sel_i, wbs2_we_i, wbs2_cyc_i, wbs2_stb_i, wbs2_cti_i, wbs2_bte_i, wbs2_dat_o, wbs2_ack_o, wbs2_err_o, wbs2_rty_o, // Slave four // Wishbone Slave interface wbs3_adr_i, wbs3_dat_i, wbs3_sel_i, wbs3_we_i, wbs3_cyc_i, wbs3_stb_i, wbs3_cti_i, wbs3_bte_i, wbs3_dat_o, wbs3_ack_o, wbs3_err_o, wbs3_rty_o, /* // Slave five // Wishbone Slave interface wbs4_adr_i, wbs4_dat_i, wbs4_sel_i, wbs4_we_i, wbs4_cyc_i, wbs4_stb_i, wbs4_cti_i, wbs4_bte_i, wbs4_dat_o, wbs4_ack_o, wbs4_err_o, wbs4_rty_o, // Slave six // Wishbone Slave interface wbs5_adr_i, wbs5_dat_i, wbs5_sel_i, wbs5_we_i, wbs5_cyc_i, wbs5_stb_i, wbs5_cti_i, wbs5_bte_i, wbs5_dat_o, wbs5_ack_o, wbs5_err_o, wbs5_rty_o, // Slave seven // Wishbone Slave interface wbs6_adr_i, wbs6_dat_i, wbs6_sel_i, wbs6_we_i, wbs6_cyc_i, wbs6_stb_i, wbs6_cti_i, wbs6_bte_i, wbs6_dat_o, wbs6_ack_o, wbs6_err_o, wbs6_rty_o, // Slave eight // Wishbone Slave interface wbs7_adr_i, wbs7_dat_i, wbs7_sel_i, wbs7_we_i, wbs7_cyc_i, wbs7_stb_i, wbs7_cti_i, wbs7_bte_i, wbs7_dat_o, wbs7_ack_o, wbs7_err_o, wbs7_rty_o, // Slave nine // Wishbone Slave interface wbs8_adr_i, wbs8_dat_i, wbs8_sel_i, wbs8_we_i, wbs8_cyc_i, wbs8_stb_i, wbs8_cti_i, wbs8_bte_i, wbs8_dat_o, wbs8_ack_o, wbs8_err_o, wbs8_rty_o, // Slave ten // Wishbone Slave interface wbs9_adr_i, wbs9_dat_i, wbs9_sel_i, wbs9_we_i, wbs9_cyc_i, wbs9_stb_i, wbs9_cti_i, wbs9_bte_i, wbs9_dat_o, wbs9_ack_o, wbs9_err_o, wbs9_rty_o, // Slave eleven // Wishbone Slave interface wbs10_adr_i, wbs10_dat_i, wbs10_sel_i, wbs10_we_i, wbs10_cyc_i, wbs10_stb_i, wbs10_cti_i, wbs10_bte_i, wbs10_dat_o, wbs10_ack_o, wbs10_err_o, wbs10_rty_o, // Slave twelve // Wishbone Slave interface wbs11_adr_i, wbs11_dat_i, wbs11_sel_i, wbs11_we_i, wbs11_cyc_i, wbs11_stb_i, wbs11_cti_i, wbs11_bte_i, wbs11_dat_o, wbs11_ack_o, wbs11_err_o, wbs11_rty_o, // Slave thirteen // Wishbone Slave interface wbs12_adr_i, wbs12_dat_i, wbs12_sel_i, wbs12_we_i, wbs12_cyc_i, wbs12_stb_i, wbs12_cti_i, wbs12_bte_i, wbs12_dat_o, wbs12_ack_o, wbs12_err_o, wbs12_rty_o, // Slave fourteen // Wishbone Slave interface wbs13_adr_i, wbs13_dat_i, wbs13_sel_i, wbs13_we_i, wbs13_cyc_i, wbs13_stb_i, wbs13_cti_i, wbs13_bte_i, wbs13_dat_o, wbs13_ack_o, wbs13_err_o, wbs13_rty_o, // Slave fifteen // Wishbone Slave interface wbs14_adr_i, wbs14_dat_i, wbs14_sel_i, wbs14_we_i, wbs14_cyc_i, wbs14_stb_i, wbs14_cti_i, wbs14_bte_i, wbs14_dat_o, wbs14_ack_o, wbs14_err_o, wbs14_rty_o, // Slave sixteen // Wishbone Slave interface wbs15_adr_i, wbs15_dat_i, wbs15_sel_i, wbs15_we_i, wbs15_cyc_i, wbs15_stb_i, wbs15_cti_i, wbs15_bte_i, wbs15_dat_o, wbs15_ack_o, wbs15_err_o, wbs15_rty_o, // Slave seventeen // Wishbone Slave interface wbs16_adr_i, wbs16_dat_i, wbs16_sel_i, wbs16_we_i, wbs16_cyc_i, wbs16_stb_i, wbs16_cti_i, wbs16_bte_i, wbs16_dat_o, wbs16_ack_o, wbs16_err_o, wbs16_rty_o, */ wb_clk, wb_rst ); parameter wb_dat_width = 32; parameter wb_adr_width = 32; parameter wb_addr_match_width = 8; parameter wb_num_slaves = 2; // must also (un)comment things if changing // Slave addresses - these should be defparam'd from top level // Declare them as you need them parameter slave0_adr = 0; parameter slave1_adr = 0; parameter slave2_adr = 0; parameter slave3_adr = 0; parameter slave4_adr = 0; parameter slave5_adr = 0; parameter slave6_adr = 0; parameter slave7_adr = 0; parameter slave8_adr = 0; parameter slave9_adr = 0; parameter slave10_adr = 0; parameter slave11_adr = 0; parameter slave12_adr = 0; // Select for slave 0 `define WB_ARB_ADDR_MATCH_SEL_SLAVE0 wb_adr_width-1:wb_adr_width-4 `define WB_ARB_ADDR_MATCH_SEL wb_adr_width-1:wb_adr_width-wb_addr_match_width input wb_clk; input wb_rst; // WB Master one input [wb_adr_width-1:0] wbm0_adr_o; input [wb_dat_width-1:0] wbm0_dat_o; input [3:0] wbm0_sel_o; input wbm0_we_o; input wbm0_cyc_o; input wbm0_stb_o; input [2:0] wbm0_cti_o; input [1:0] wbm0_bte_o; output [wb_dat_width-1:0] wbm0_dat_i; output wbm0_ack_i; output wbm0_err_i; output wbm0_rty_i; input [wb_adr_width-1:0] wbm1_adr_o; input [wb_dat_width-1:0] wbm1_dat_o; input [3:0] wbm1_sel_o; input wbm1_we_o; input wbm1_cyc_o; input wbm1_stb_o; input [2:0] wbm1_cti_o; input [1:0] wbm1_bte_o; output [wb_dat_width-1:0] wbm1_dat_i; output wbm1_ack_i; output wbm1_err_i; output wbm1_rty_i; // Slave one // Wishbone Slave interface output [wb_adr_width-1:0] wbs0_adr_i; output [wb_dat_width-1:0] wbs0_dat_i; output [3:0] wbs0_sel_i; output wbs0_we_i; output wbs0_cyc_i; output wbs0_stb_i; output [2:0] wbs0_cti_i; output [1:0] wbs0_bte_i; input [wb_dat_width-1:0] wbs0_dat_o; input wbs0_ack_o; input wbs0_err_o; input wbs0_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs1_adr_i; output [wb_dat_width-1:0] wbs1_dat_i; output [3:0] wbs1_sel_i; output wbs1_we_i; output wbs1_cyc_i; output wbs1_stb_i; output [2:0] wbs1_cti_i; output [1:0] wbs1_bte_i; input [wb_dat_width-1:0] wbs1_dat_o; input wbs1_ack_o; input wbs1_err_o; input wbs1_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs2_adr_i; output [wb_dat_width-1:0] wbs2_dat_i; output [3:0] wbs2_sel_i; output wbs2_we_i; output wbs2_cyc_i; output wbs2_stb_i; output [2:0] wbs2_cti_i; output [1:0] wbs2_bte_i; input [wb_dat_width-1:0] wbs2_dat_o; input wbs2_ack_o; input wbs2_err_o; input wbs2_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs3_adr_i; output [wb_dat_width-1:0] wbs3_dat_i; output [3:0] wbs3_sel_i; output wbs3_we_i; output wbs3_cyc_i; output wbs3_stb_i; output [2:0] wbs3_cti_i; output [1:0] wbs3_bte_i; input [wb_dat_width-1:0] wbs3_dat_o; input wbs3_ack_o; input wbs3_err_o; input wbs3_rty_o; /* // Wishbone Slave interface output [wb_adr_width-1:0] wbs4_adr_i; output [wb_dat_width-1:0] wbs4_dat_i; output [3:0] wbs4_sel_i; output wbs4_we_i; output wbs4_cyc_i; output wbs4_stb_i; output [2:0] wbs4_cti_i; output [1:0] wbs4_bte_i; input [wb_dat_width-1:0] wbs4_dat_o; input wbs4_ack_o; input wbs4_err_o; input wbs4_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs5_adr_i; output [wb_dat_width-1:0] wbs5_dat_i; output [3:0] wbs5_sel_i; output wbs5_we_i; output wbs5_cyc_i; output wbs5_stb_i; output [2:0] wbs5_cti_i; output [1:0] wbs5_bte_i; input [wb_dat_width-1:0] wbs5_dat_o; input wbs5_ack_o; input wbs5_err_o; input wbs5_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs6_adr_i; output [wb_dat_width-1:0] wbs6_dat_i; output [3:0] wbs6_sel_i; output wbs6_we_i; output wbs6_cyc_i; output wbs6_stb_i; output [2:0] wbs6_cti_i; output [1:0] wbs6_bte_i; input [wb_dat_width-1:0] wbs6_dat_o; input wbs6_ack_o; input wbs6_err_o; input wbs6_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs7_adr_i; output [wb_dat_width-1:0] wbs7_dat_i; output [3:0] wbs7_sel_i; output wbs7_we_i; output wbs7_cyc_i; output wbs7_stb_i; output [2:0] wbs7_cti_i; output [1:0] wbs7_bte_i; input [wb_dat_width-1:0] wbs7_dat_o; input wbs7_ack_o; input wbs7_err_o; input wbs7_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs8_adr_i; output [wb_dat_width-1:0] wbs8_dat_i; output [3:0] wbs8_sel_i; output wbs8_we_i; output wbs8_cyc_i; output wbs8_stb_i; output [2:0] wbs8_cti_i; output [1:0] wbs8_bte_i; input [wb_dat_width-1:0] wbs8_dat_o; input wbs8_ack_o; input wbs8_err_o; input wbs8_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs9_adr_i; output [wb_dat_width-1:0] wbs9_dat_i; output [3:0] wbs9_sel_i; output wbs9_we_i; output wbs9_cyc_i; output wbs9_stb_i; output [2:0] wbs9_cti_i; output [1:0] wbs9_bte_i; input [wb_dat_width-1:0] wbs9_dat_o; input wbs9_ack_o; input wbs9_err_o; input wbs9_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs10_adr_i; output [wb_dat_width-1:0] wbs10_dat_i; output [3:0] wbs10_sel_i; output wbs10_we_i; output wbs10_cyc_i; output wbs10_stb_i; output [2:0] wbs10_cti_i; output [1:0] wbs10_bte_i; input [wb_dat_width-1:0] wbs10_dat_o; input wbs10_ack_o; input wbs10_err_o; input wbs10_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs11_adr_i; output [wb_dat_width-1:0] wbs11_dat_i; output [3:0] wbs11_sel_i; output wbs11_we_i; output wbs11_cyc_i; output wbs11_stb_i; output [2:0] wbs11_cti_i; output [1:0] wbs11_bte_i; input [wb_dat_width-1:0] wbs11_dat_o; input wbs11_ack_o; input wbs11_err_o; input wbs11_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs12_adr_i; output [wb_dat_width-1:0] wbs12_dat_i; output [3:0] wbs12_sel_i; output wbs12_we_i; output wbs12_cyc_i; output wbs12_stb_i; output [2:0] wbs12_cti_i; output [1:0] wbs12_bte_i; input [wb_dat_width-1:0] wbs12_dat_o; input wbs12_ack_o; input wbs12_err_o; input wbs12_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs13_adr_i; output [wb_dat_width-1:0] wbs13_dat_i; output [3:0] wbs13_sel_i; output wbs13_we_i; output wbs13_cyc_i; output wbs13_stb_i; output [2:0] wbs13_cti_i; output [1:0] wbs13_bte_i; input [wb_dat_width-1:0] wbs13_dat_o; input wbs13_ack_o; input wbs13_err_o; input wbs13_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs14_adr_i; output [wb_dat_width-1:0] wbs14_dat_i; output [3:0] wbs14_sel_i; output wbs14_we_i; output wbs14_cyc_i; output wbs14_stb_i; output [2:0] wbs14_cti_i; output [1:0] wbs14_bte_i; input [wb_dat_width-1:0] wbs14_dat_o; input wbs14_ack_o; input wbs14_err_o; input wbs14_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs15_adr_i; output [wb_dat_width-1:0] wbs15_dat_i; output [3:0] wbs15_sel_i; output wbs15_we_i; output wbs15_cyc_i; output wbs15_stb_i; output [2:0] wbs15_cti_i; output [1:0] wbs15_bte_i; input [wb_dat_width-1:0] wbs15_dat_o; input wbs15_ack_o; input wbs15_err_o; input wbs15_rty_o; // Wishbone Slave interface output [wb_adr_width-1:0] wbs16_adr_i; output [wb_dat_width-1:0] wbs16_dat_i; output [3:0] wbs16_sel_i; output wbs16_we_i; output wbs16_cyc_i; output wbs16_stb_i; output [2:0] wbs16_cti_i; output [1:0] wbs16_bte_i; input [wb_dat_width-1:0] wbs16_dat_o; input wbs16_ack_o; input wbs16_err_o; input wbs16_rty_o; */ reg watchdog_err; `ifdef ARBITER_DBUS_REGISTERING // Registering setup: // Masters typically register their outputs, so do the master selection and // muxing before registering in the arbiter. Keep the common parts outside // for code brevity. // Master ins -> |MUX> -> these wires wire [wb_adr_width-1:0] wbm_adr_o_w; wire [wb_dat_width-1:0] wbm_dat_o_w; wire [3:0] wbm_sel_o_w; wire wbm_we_o_w; wire wbm_cyc_o_w; wire wbm_stb_o_w; wire [2:0] wbm_cti_o_w; wire [1:0] wbm_bte_o_w; // Slave ins -> |MUX> -> these wires wire [wb_dat_width-1:0] wbm_dat_i; wire wbm_ack_i; wire wbm_err_i; wire wbm_rty_i; // Registers after masters input mux reg [wb_adr_width-1:0] wbm_adr_o_r; reg [wb_dat_width-1:0] wbm_dat_o_r; reg [3:0] wbm_sel_o_r; reg wbm_we_o_r; reg wbm_cyc_o_r; reg wbm_stb_o_r; reg [2:0] wbm_cti_o_r; reg [1:0] wbm_bte_o_r; // Master input mux register wires wire [wb_adr_width-1:0] wbm_adr_o; wire [wb_dat_width-1:0] wbm_dat_o; wire [3:0] wbm_sel_o; wire wbm_we_o; wire wbm_cyc_o; wire wbm_stb_o; wire [2:0] wbm_cti_o; wire [1:0] wbm_bte_o; // Registers after slaves input mux reg [wb_dat_width-1:0] wbm_dat_i_r; reg wbm_ack_i_r; reg wbm_err_i_r; reg wbm_rty_i_r; // Master select (MUX controls) wire [1:0] master_sel; // priority to wbm1, the debug master assign master_sel[0] = wbm0_cyc_o & !wbm1_cyc_o; assign master_sel[1] = wbm1_cyc_o; // Master input mux, priority to debug master assign wbm_adr_o_w = master_sel[1] ? wbm1_adr_o : wbm0_adr_o; assign wbm_dat_o_w = master_sel[1] ? wbm1_dat_o : wbm0_dat_o; assign wbm_sel_o_w = master_sel[1] ? wbm1_sel_o : wbm0_sel_o; assign wbm_we_o_w = master_sel[1] ? wbm1_we_o : wbm0_we_o; assign wbm_cyc_o_w = master_sel[1] ? wbm1_cyc_o : wbm0_cyc_o; assign wbm_stb_o_w = master_sel[1] ? wbm1_stb_o : wbm0_stb_o; assign wbm_cti_o_w = master_sel[1] ? wbm1_cti_o : wbm0_cti_o; assign wbm_bte_o_w = master_sel[1] ? wbm1_bte_o : wbm0_bte_o; // Register muxed master signals always @(posedge wb_clk) begin wbm_adr_o_r <= wbm_adr_o_w; wbm_dat_o_r <= wbm_dat_o_w; wbm_sel_o_r <= wbm_sel_o_w; wbm_we_o_r <= wbm_we_o_w; wbm_cyc_o_r <= wbm_cyc_o_w; wbm_stb_o_r <= wbm_stb_o_w & !wbm_ack_i & !wbm_ack_i_r; wbm_cti_o_r <= wbm_cti_o_w; wbm_bte_o_r <= wbm_bte_o_w; wbm_dat_i_r <= wbm_dat_i; wbm_ack_i_r <= wbm_ack_i; wbm_err_i_r <= wbm_err_i; wbm_rty_i_r <= wbm_rty_i; end // always @ (posedge wb_clk) assign wbm_adr_o = wbm_adr_o_r; assign wbm_dat_o = wbm_dat_o_r; assign wbm_sel_o = wbm_sel_o_r; assign wbm_we_o = wbm_we_o_r; assign wbm_cyc_o = wbm_cyc_o_r; assign wbm_stb_o = wbm_stb_o_r; assign wbm_cti_o = wbm_cti_o_r; assign wbm_bte_o = wbm_bte_o_r; // Master input mux, priority to debug master assign wbm0_dat_i = wbm_dat_i_r; assign wbm0_ack_i = wbm_ack_i_r & master_sel[0]; assign wbm0_err_i = wbm_err_i_r & master_sel[0]; assign wbm0_rty_i = wbm_rty_i_r & master_sel[0]; assign wbm1_dat_i = wbm_dat_i_r; assign wbm1_ack_i = wbm_ack_i_r & master_sel[1]; assign wbm1_err_i = wbm_err_i_r & master_sel[1]; assign wbm1_rty_i = wbm_rty_i_r & master_sel[1]; `else // !`ifdef ARBITER_DBUS_REGISTERING // Master input mux output wires wire [wb_adr_width-1:0] wbm_adr_o; wire [wb_dat_width-1:0] wbm_dat_o; wire [3:0] wbm_sel_o; wire wbm_we_o; wire wbm_cyc_o; wire wbm_stb_o; wire [2:0] wbm_cti_o; wire [1:0] wbm_bte_o; // Master select wire [1:0] master_sel; // priority to wbm1, the debug master assign master_sel[0] = wbm0_cyc_o & !wbm1_cyc_o; assign master_sel[1] = wbm1_cyc_o; // Master input mux, priority to debug master assign wbm_adr_o = master_sel[1] ? wbm1_adr_o : wbm0_adr_o; assign wbm_dat_o = master_sel[1] ? wbm1_dat_o : wbm0_dat_o; assign wbm_sel_o = master_sel[1] ? wbm1_sel_o : wbm0_sel_o; assign wbm_we_o = master_sel[1] ? wbm1_we_o : wbm0_we_o; assign wbm_cyc_o = master_sel[1] ? wbm1_cyc_o : wbm0_cyc_o; assign wbm_stb_o = master_sel[1] ? wbm1_stb_o : wbm0_stb_o; assign wbm_cti_o = master_sel[1] ? wbm1_cti_o : wbm0_cti_o; assign wbm_bte_o = master_sel[1] ? wbm1_bte_o : wbm0_bte_o; wire [wb_dat_width-1:0] wbm_dat_i; wire wbm_ack_i; wire wbm_err_i; wire wbm_rty_i; assign wbm0_dat_i = wbm_dat_i; assign wbm0_ack_i = wbm_ack_i & master_sel[0]; assign wbm0_err_i = wbm_err_i & master_sel[0]; assign wbm0_rty_i = wbm_rty_i & master_sel[0]; assign wbm1_dat_i = wbm_dat_i; assign wbm1_ack_i = wbm_ack_i & master_sel[1]; assign wbm1_err_i = wbm_err_i & master_sel[1]; assign wbm1_rty_i = wbm_rty_i & master_sel[1]; `endif // !`ifdef ARBITER_DBUS_REGISTERING // Slave select wire wire [wb_num_slaves-1:0] wb_slave_sel; reg [wb_num_slaves-1:0] wb_slave_sel_r; // Register wb_slave_sel_r to break combinatorial loop when selecting default // slave always @(posedge wb_clk) wb_slave_sel_r <= wb_slave_sel; // Slave out mux in wires wire [wb_dat_width-1:0] wbs_dat_o_mux_i [0:wb_num_slaves-1]; wire wbs_ack_o_mux_i [0:wb_num_slaves-1]; wire wbs_err_o_mux_i [0:wb_num_slaves-1]; wire wbs_rty_o_mux_i [0:wb_num_slaves-1]; // // Slave selects // assign wb_slave_sel[0] = wbm_adr_o[31:28] == slave0_adr | wbm_adr_o[31:28] == 4'hf; // Special case, point all reads to ROM address to here assign wb_slave_sel[1] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave1_adr; assign wb_slave_sel[2] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave2_adr; // Auto select last slave when others are not selected assign wb_slave_sel[3] = !(wb_slave_sel_r[0] | wb_slave_sel_r[1] | wb_slave_sel_r[2]); /* assign wb_slave_sel[3] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave3_adr; assign wb_slave_sel[4] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave4_adr; assign wb_slave_sel[5] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave5_adr; assign wb_slave_sel[6] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave6_adr; assign wb_slave_sel[7] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave7_adr; assign wb_slave_sel[8] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave8_adr; assign wb_slave_sel[9] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave9_adr; assign wb_slave_sel[10] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave10_adr; assign wb_slave_sel[11] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave11_adr; assign wb_slave_sel[12] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave12_adr; assign wb_slave_sel[13] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave13_adr; assign wb_slave_sel[14] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave14_adr; assign wb_slave_sel[15] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave15_adr; assign wb_slave_sel[16] = wbm_adr_o[`WB_ARB_ADDR_MATCH_SEL] == slave16_adr; */ `ifdef ARBITER_DBUS_WATCHDOG reg [`ARBITER_DBUS_WATCHDOG_TIMER_WIDTH:0] watchdog_timer; reg wbm_stb_r; // Register strobe wire wbm_stb_edge; // Detect its edge always @(posedge wb_clk) wbm_stb_r <= wbm_stb_o; assign wbm_stb_edge = (wbm_stb_o & !wbm_stb_r); // Counter logic always @(posedge wb_clk) if (wb_rst) watchdog_timer <= 0; else if (wbm_ack_i) // When we see an ack, turn off timer watchdog_timer <= 0; else if (wbm_stb_edge) // New access means start timer again watchdog_timer <= 1; else if (|watchdog_timer) // Continue counting if counter > 0 watchdog_timer <= watchdog_timer + 1; always @(posedge wb_clk) watchdog_err <= (&watchdog_timer); `else // !`ifdef ARBITER_DBUS_WATCHDOG always @(posedge wb_clk) watchdog_err <= 0; `endif // !`ifdef ARBITER_DBUS_WATCHDOG // Slave 0 inputs assign wbs0_adr_i = wbm_adr_o; assign wbs0_dat_i = wbm_dat_o; assign wbs0_sel_i = wbm_sel_o; assign wbs0_cyc_i = wbm_cyc_o & wb_slave_sel_r[0]; assign wbs0_stb_i = wbm_stb_o & wb_slave_sel_r[0]; assign wbs0_we_i = wbm_we_o; assign wbs0_cti_i = wbm_cti_o; assign wbs0_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[0] = wbs0_dat_o; assign wbs_ack_o_mux_i[0] = wbs0_ack_o & wb_slave_sel_r[0]; assign wbs_err_o_mux_i[0] = wbs0_err_o & wb_slave_sel_r[0]; assign wbs_rty_o_mux_i[0] = wbs0_rty_o & wb_slave_sel_r[0]; // Slave 1 inputs assign wbs1_adr_i = wbm_adr_o; assign wbs1_dat_i = wbm_dat_o; assign wbs1_sel_i = wbm_sel_o; assign wbs1_cyc_i = wbm_cyc_o & wb_slave_sel_r[1]; assign wbs1_stb_i = wbm_stb_o & wb_slave_sel_r[1]; assign wbs1_we_i = wbm_we_o; assign wbs1_cti_i = wbm_cti_o; assign wbs1_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[1] = wbs1_dat_o; assign wbs_ack_o_mux_i[1] = wbs1_ack_o & wb_slave_sel_r[1]; assign wbs_err_o_mux_i[1] = wbs1_err_o & wb_slave_sel_r[1]; assign wbs_rty_o_mux_i[1] = wbs1_rty_o & wb_slave_sel_r[1]; // Slave 2 inputs assign wbs2_adr_i = wbm_adr_o; assign wbs2_dat_i = wbm_dat_o; assign wbs2_sel_i = wbm_sel_o; assign wbs2_cyc_i = wbm_cyc_o & wb_slave_sel_r[2]; assign wbs2_stb_i = wbm_stb_o & wb_slave_sel_r[2]; assign wbs2_we_i = wbm_we_o; assign wbs2_cti_i = wbm_cti_o; assign wbs2_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[2] = wbs2_dat_o; assign wbs_ack_o_mux_i[2] = wbs2_ack_o & wb_slave_sel_r[2]; assign wbs_err_o_mux_i[2] = wbs2_err_o & wb_slave_sel_r[2]; assign wbs_rty_o_mux_i[2] = wbs2_rty_o & wb_slave_sel_r[2]; // Slave 3 inputs assign wbs3_adr_i = wbm_adr_o; assign wbs3_dat_i = wbm_dat_o; assign wbs3_sel_i = wbm_sel_o; assign wbs3_cyc_i = wbm_cyc_o & wb_slave_sel_r[3]; assign wbs3_stb_i = wbm_stb_o & wb_slave_sel_r[3]; assign wbs3_we_i = wbm_we_o; assign wbs3_cti_i = wbm_cti_o; assign wbs3_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[3] = wbs3_dat_o; assign wbs_ack_o_mux_i[3] = wbs3_ack_o & wb_slave_sel_r[3]; assign wbs_err_o_mux_i[3] = wbs3_err_o & wb_slave_sel_r[3]; assign wbs_rty_o_mux_i[3] = wbs3_rty_o & wb_slave_sel_r[3]; /* // Slave 4 inputs assign wbs4_adr_i = wbm_adr_o; assign wbs4_dat_i = wbm_dat_o; assign wbs4_sel_i = wbm_sel_o; assign wbs4_cyc_i = wbm_cyc_o & wb_slave_sel_r[4]; assign wbs4_stb_i = wbm_stb_o & wb_slave_sel_r[4]; assign wbs4_we_i = wbm_we_o; assign wbs4_cti_i = wbm_cti_o; assign wbs4_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[4] = wbs4_dat_o; assign wbs_ack_o_mux_i[4] = wbs4_ack_o & wb_slave_sel_r[4]; assign wbs_err_o_mux_i[4] = wbs4_err_o & wb_slave_sel_r[4]; assign wbs_rty_o_mux_i[4] = wbs4_rty_o & wb_slave_sel_r[4]; // Slave 5 inputs assign wbs5_adr_i = wbm_adr_o; assign wbs5_dat_i = wbm_dat_o; assign wbs5_sel_i = wbm_sel_o; assign wbs5_cyc_i = wbm_cyc_o & wb_slave_sel_r[5]; assign wbs5_stb_i = wbm_stb_o & wb_slave_sel_r[5]; assign wbs5_we_i = wbm_we_o; assign wbs5_cti_i = wbm_cti_o; assign wbs5_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[5] = wbs5_dat_o; assign wbs_ack_o_mux_i[5] = wbs5_ack_o & wb_slave_sel_r[5]; assign wbs_err_o_mux_i[5] = wbs5_err_o & wb_slave_sel_r[5]; assign wbs_rty_o_mux_i[5] = wbs5_rty_o & wb_slave_sel_r[5]; // Slave 6 inputs assign wbs6_adr_i = wbm_adr_o; assign wbs6_dat_i = wbm_dat_o; assign wbs6_sel_i = wbm_sel_o; assign wbs6_cyc_i = wbm_cyc_o & wb_slave_sel_r[6]; assign wbs6_stb_i = wbm_stb_o & wb_slave_sel_r[6]; assign wbs6_we_i = wbm_we_o; assign wbs6_cti_i = wbm_cti_o; assign wbs6_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[6] = wbs6_dat_o; assign wbs_ack_o_mux_i[6] = wbs6_ack_o & wb_slave_sel_r[6]; assign wbs_err_o_mux_i[6] = wbs6_err_o & wb_slave_sel_r[6]; assign wbs_rty_o_mux_i[6] = wbs6_rty_o & wb_slave_sel_r[6]; // Slave 7 inputs assign wbs7_adr_i = wbm_adr_o; assign wbs7_dat_i = wbm_dat_o; assign wbs7_sel_i = wbm_sel_o; assign wbs7_cyc_i = wbm_cyc_o & wb_slave_sel_r[7]; assign wbs7_stb_i = wbm_stb_o & wb_slave_sel_r[7]; assign wbs7_we_i = wbm_we_o; assign wbs7_cti_i = wbm_cti_o; assign wbs7_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[7] = wbs7_dat_o; assign wbs_ack_o_mux_i[7] = wbs7_ack_o & wb_slave_sel_r[7]; assign wbs_err_o_mux_i[7] = wbs7_err_o & wb_slave_sel_r[7]; assign wbs_rty_o_mux_i[7] = wbs7_rty_o & wb_slave_sel_r[7]; // Slave 8 inputs assign wbs8_adr_i = wbm_adr_o; assign wbs8_dat_i = wbm_dat_o; assign wbs8_sel_i = wbm_sel_o; assign wbs8_cyc_i = wbm_cyc_o & wb_slave_sel_r[8]; assign wbs8_stb_i = wbm_stb_o & wb_slave_sel_r[8]; assign wbs8_we_i = wbm_we_o; assign wbs8_cti_i = wbm_cti_o; assign wbs8_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[8] = wbs8_dat_o; assign wbs_ack_o_mux_i[8] = wbs8_ack_o & wb_slave_sel_r[8]; assign wbs_err_o_mux_i[8] = wbs8_err_o & wb_slave_sel_r[8]; assign wbs_rty_o_mux_i[8] = wbs8_rty_o & wb_slave_sel_r[8]; // Slave 9 inputs assign wbs9_adr_i = wbm_adr_o; assign wbs9_dat_i = wbm_dat_o; assign wbs9_sel_i = wbm_sel_o; assign wbs9_cyc_i = wbm_cyc_o & wb_slave_sel_r[9]; assign wbs9_stb_i = wbm_stb_o & wb_slave_sel_r[9]; assign wbs9_we_i = wbm_we_o; assign wbs9_cti_i = wbm_cti_o; assign wbs9_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[9] = wbs9_dat_o; assign wbs_ack_o_mux_i[9] = wbs9_ack_o & wb_slave_sel_r[9]; assign wbs_err_o_mux_i[9] = wbs9_err_o & wb_slave_sel_r[9]; assign wbs_rty_o_mux_i[9] = wbs9_rty_o & wb_slave_sel_r[9]; // Slave 10 inputs assign wbs10_adr_i = wbm_adr_o; assign wbs10_dat_i = wbm_dat_o; assign wbs10_sel_i = wbm_sel_o; assign wbs10_cyc_i = wbm_cyc_o & wb_slave_sel_r[10]; assign wbs10_stb_i = wbm_stb_o & wb_slave_sel_r[10]; assign wbs10_we_i = wbm_we_o; assign wbs10_cti_i = wbm_cti_o; assign wbs10_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[10] = wbs10_dat_o; assign wbs_ack_o_mux_i[10] = wbs10_ack_o & wb_slave_sel_r[10]; assign wbs_err_o_mux_i[10] = wbs10_err_o & wb_slave_sel_r[10]; assign wbs_rty_o_mux_i[10] = wbs10_rty_o & wb_slave_sel_r[10]; // Slave 11 inputs assign wbs11_adr_i = wbm_adr_o; assign wbs11_dat_i = wbm_dat_o; assign wbs11_sel_i = wbm_sel_o; assign wbs11_cyc_i = wbm_cyc_o & wb_slave_sel_r[11]; assign wbs11_stb_i = wbm_stb_o & wb_slave_sel_r[11]; assign wbs11_we_i = wbm_we_o; assign wbs11_cti_i = wbm_cti_o; assign wbs11_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[11] = wbs11_dat_o; assign wbs_ack_o_mux_i[11] = wbs11_ack_o & wb_slave_sel_r[11]; assign wbs_err_o_mux_i[11] = wbs11_err_o & wb_slave_sel_r[11]; assign wbs_rty_o_mux_i[11] = wbs11_rty_o & wb_slave_sel_r[11]; // Slave 12 inputs assign wbs12_adr_i = wbm_adr_o; assign wbs12_dat_i = wbm_dat_o; assign wbs12_sel_i = wbm_sel_o; assign wbs12_cyc_i = wbm_cyc_o & wb_slave_sel_r[12]; assign wbs12_stb_i = wbm_stb_o & wb_slave_sel_r[12]; assign wbs12_we_i = wbm_we_o; assign wbs12_cti_i = wbm_cti_o; assign wbs12_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[12] = wbs12_dat_o; assign wbs_ack_o_mux_i[12] = wbs12_ack_o & wb_slave_sel_r[12]; assign wbs_err_o_mux_i[12] = wbs12_err_o & wb_slave_sel_r[12]; assign wbs_rty_o_mux_i[12] = wbs12_rty_o & wb_slave_sel_r[12]; // Slave 13 inputs assign wbs13_adr_i = wbm_adr_o; assign wbs13_dat_i = wbm_dat_o; assign wbs13_sel_i = wbm_sel_o; assign wbs13_cyc_i = wbm_cyc_o & wb_slave_sel_r[13]; assign wbs13_stb_i = wbm_stb_o & wb_slave_sel_r[13]; assign wbs13_we_i = wbm_we_o; assign wbs13_cti_i = wbm_cti_o; assign wbs13_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[13] = wbs13_dat_o; assign wbs_ack_o_mux_i[13] = wbs13_ack_o & wb_slave_sel_r[13]; assign wbs_err_o_mux_i[13] = wbs13_err_o & wb_slave_sel_r[13]; assign wbs_rty_o_mux_i[13] = wbs13_rty_o & wb_slave_sel_r[13]; // Slave 14 inputs assign wbs14_adr_i = wbm_adr_o; assign wbs14_dat_i = wbm_dat_o; assign wbs14_sel_i = wbm_sel_o; assign wbs14_cyc_i = wbm_cyc_o & wb_slave_sel_r[14]; assign wbs14_stb_i = wbm_stb_o & wb_slave_sel_r[14]; assign wbs14_we_i = wbm_we_o; assign wbs14_cti_i = wbm_cti_o; assign wbs14_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[14] = wbs14_dat_o; assign wbs_ack_o_mux_i[14] = wbs14_ack_o & wb_slave_sel_r[14]; assign wbs_err_o_mux_i[14] = wbs14_err_o & wb_slave_sel_r[14]; assign wbs_rty_o_mux_i[14] = wbs14_rty_o & wb_slave_sel_r[14]; // Slave 15 inputs assign wbs15_adr_i = wbm_adr_o; assign wbs15_dat_i = wbm_dat_o; assign wbs15_sel_i = wbm_sel_o; assign wbs15_cyc_i = wbm_cyc_o & wb_slave_sel_r[15]; assign wbs15_stb_i = wbm_stb_o & wb_slave_sel_r[15]; assign wbs15_we_i = wbm_we_o; assign wbs15_cti_i = wbm_cti_o; assign wbs15_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[15] = wbs15_dat_o; assign wbs_ack_o_mux_i[15] = wbs15_ack_o & wb_slave_sel_r[15]; assign wbs_err_o_mux_i[15] = wbs15_err_o & wb_slave_sel_r[15]; assign wbs_rty_o_mux_i[15] = wbs15_rty_o & wb_slave_sel_r[15]; // Slave 16 inputs assign wbs16_adr_i = wbm_adr_o; assign wbs16_dat_i = wbm_dat_o; assign wbs16_sel_i = wbm_sel_o; assign wbs16_cyc_i = wbm_cyc_o & wb_slave_sel_r[16]; assign wbs16_stb_i = wbm_stb_o & wb_slave_sel_r[16]; assign wbs16_we_i = wbm_we_o; assign wbs16_cti_i = wbm_cti_o; assign wbs16_bte_i = wbm_bte_o; assign wbs_dat_o_mux_i[16] = wbs16_dat_o; assign wbs_ack_o_mux_i[16] = wbs16_ack_o & wb_slave_sel_r[16]; assign wbs_err_o_mux_i[16] = wbs16_err_o & wb_slave_sel_r[16]; assign wbs_rty_o_mux_i[16] = wbs16_rty_o & wb_slave_sel_r[16]; */ // Master out mux from slave in data assign wbm_dat_i = wb_slave_sel_r[0] ? wbs_dat_o_mux_i[0] : wb_slave_sel_r[1] ? wbs_dat_o_mux_i[1] : wb_slave_sel_r[2] ? wbs_dat_o_mux_i[2] : wb_slave_sel_r[3] ? wbs_dat_o_mux_i[3] : /* wb_slave_sel_r[4] ? wbs_dat_o_mux_i[4] : wb_slave_sel_r[5] ? wbs_dat_o_mux_i[5] : wb_slave_sel_r[6] ? wbs_dat_o_mux_i[6] : wb_slave_sel_r[7] ? wbs_dat_o_mux_i[7] : wb_slave_sel_r[8] ? wbs_dat_o_mux_i[8] : wb_slave_sel_r[9] ? wbs_dat_o_mux_i[9] : wb_slave_sel_r[10] ? wbs_dat_o_mux_i[10] : wb_slave_sel_r[11] ? wbs_dat_o_mux_i[11] : wb_slave_sel_r[12] ? wbs_dat_o_mux_i[12] : wb_slave_sel_r[13] ? wbs_dat_o_mux_i[13] : wb_slave_sel_r[14] ? wbs_dat_o_mux_i[14] : wb_slave_sel_r[15] ? wbs_dat_o_mux_i[15] : wb_slave_sel_r[16] ? wbs_dat_o_mux_i[16] : */ wbs_dat_o_mux_i[0]; // Master out acks, or together assign wbm_ack_i = wbs_ack_o_mux_i[0] | wbs_ack_o_mux_i[1] | wbs_ack_o_mux_i[2] | wbs_ack_o_mux_i[3] /*| wbs_ack_o_mux_i[4] | wbs_ack_o_mux_i[5] | wbs_ack_o_mux_i[6] | wbs_ack_o_mux_i[7] | wbs_ack_o_mux_i[8] | wbs_ack_o_mux_i[9] | wbs_ack_o_mux_i[10] | wbs_ack_o_mux_i[11] | wbs_ack_o_mux_i[12] | wbs_ack_o_mux_i[13] | wbs_ack_o_mux_i[14] | wbs_ack_o_mux_i[15] | wbs_ack_o_mux_i[16] */ ; assign wbm_err_i = wbs_err_o_mux_i[0] | wbs_err_o_mux_i[1] | wbs_err_o_mux_i[2] | wbs_err_o_mux_i[3] |/* wbs_err_o_mux_i[4] | wbs_err_o_mux_i[5] | wbs_err_o_mux_i[6] | wbs_err_o_mux_i[7] | wbs_err_o_mux_i[8] | wbs_err_o_mux_i[9] | wbs_err_o_mux_i[10] | wbs_err_o_mux_i[11] | wbs_err_o_mux_i[12] | wbs_err_o_mux_i[13] | wbs_err_o_mux_i[14] | wbs_err_o_mux_i[15] | wbs_err_o_mux_i[16] |*/ watchdog_err ; assign wbm_rty_i = wbs_rty_o_mux_i[0] | wbs_rty_o_mux_i[1] | wbs_rty_o_mux_i[2] | wbs_rty_o_mux_i[3] /*| wbs_rty_o_mux_i[4] | wbs_rty_o_mux_i[5] | wbs_rty_o_mux_i[6] | wbs_rty_o_mux_i[7] | wbs_rty_o_mux_i[8] | wbs_rty_o_mux_i[9] | wbs_rty_o_mux_i[10] | wbs_rty_o_mux_i[11] | wbs_rty_o_mux_i[12] | wbs_rty_o_mux_i[13] | wbs_rty_o_mux_i[14] | wbs_rty_o_mux_i[15] | wbs_rty_o_mux_i[16]*/; endmodule // arbiter_dbus
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