/* Copyright (c) 2015-2018 Alex Forencich Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ // Language: Verilog 2001 `resetall `timescale 1ns / 1ps `default_nettype none /* * 1G Ethernet MAC with RGMII interface */ module eth_mac_1g_rgmii # ( // target ("SIM", "GENERIC", "XILINX", "ALTERA") parameter TARGET = "GENERIC", // IODDR style ("IODDR", "IODDR2") // Use IODDR for Virtex-4, Virtex-5, Virtex-6, 7 Series, Ultrascale // Use IODDR2 for Spartan-6 parameter IODDR_STYLE = "IODDR2", // Clock input style ("BUFG", "BUFR", "BUFIO", "BUFIO2") // Use BUFR for Virtex-6, 7-series // Use BUFG for Virtex-5, Spartan-6, Ultrascale parameter CLOCK_INPUT_STYLE = "BUFG", // Use 90 degree clock for RGMII transmit ("TRUE", "FALSE") parameter USE_CLK90 = "TRUE", parameter ENABLE_PADDING = 1, parameter MIN_FRAME_LENGTH = 64 ) ( input wire gtx_clk, input wire gtx_clk90, input wire gtx_rst, output wire rx_clk, output wire rx_rst, output wire tx_clk, output wire tx_rst, /* * AXI input */ input wire [7:0] tx_axis_tdata, input wire tx_axis_tvalid, output wire tx_axis_tready, input wire tx_axis_tlast, input wire tx_axis_tuser, /* * AXI output */ output wire [7:0] rx_axis_tdata, output wire rx_axis_tvalid, output wire rx_axis_tlast, output wire rx_axis_tuser, /* * RGMII interface */ input wire rgmii_rx_clk, input wire [3:0] rgmii_rxd, input wire rgmii_rx_ctl, output wire rgmii_tx_clk, output wire [3:0] rgmii_txd, output wire rgmii_tx_ctl, /* * Status */ output wire tx_error_underflow, output wire rx_error_bad_frame, output wire rx_error_bad_fcs, output wire [1:0] speed, /* * Configuration */ input wire [7:0] cfg_ifg, input wire cfg_tx_enable, input wire cfg_rx_enable ); wire [7:0] mac_gmii_rxd; wire mac_gmii_rx_dv; wire mac_gmii_rx_er; wire mac_gmii_tx_clk_en; wire [7:0] mac_gmii_txd; wire mac_gmii_tx_en; wire mac_gmii_tx_er; reg [1:0] speed_reg = 2'b10; reg mii_select_reg = 1'b0; (* srl_style = "register" *) reg [1:0] tx_mii_select_sync = 2'd0; always @(posedge tx_clk) begin tx_mii_select_sync <= {tx_mii_select_sync[0], mii_select_reg}; end (* srl_style = "register" *) reg [1:0] rx_mii_select_sync = 2'd0; always @(posedge rx_clk) begin rx_mii_select_sync <= {rx_mii_select_sync[0], mii_select_reg}; end // PHY speed detection reg [2:0] rx_prescale = 3'd0; always @(posedge rx_clk) begin rx_prescale <= rx_prescale + 3'd1; end (* srl_style = "register" *) reg [2:0] rx_prescale_sync = 3'd0; always @(posedge gtx_clk) begin rx_prescale_sync <= {rx_prescale_sync[1:0], rx_prescale[2]}; end reg [6:0] rx_speed_count_1 = 0; reg [1:0] rx_speed_count_2 = 0; always @(posedge gtx_clk) begin if (gtx_rst) begin rx_speed_count_1 <= 0; rx_speed_count_2 <= 0; speed_reg <= 2'b10; mii_select_reg <= 1'b0; end else begin rx_speed_count_1 <= rx_speed_count_1 + 1; if (rx_prescale_sync[1] ^ rx_prescale_sync[2]) begin rx_speed_count_2 <= rx_speed_count_2 + 1; end if (&rx_speed_count_1) begin // reference count overflow - 10M rx_speed_count_1 <= 0; rx_speed_count_2 <= 0; speed_reg <= 2'b00; mii_select_reg <= 1'b1; end if (&rx_speed_count_2) begin // prescaled count overflow - 100M or 1000M rx_speed_count_1 <= 0; rx_speed_count_2 <= 0; if (rx_speed_count_1[6:5]) begin // large reference count - 100M speed_reg <= 2'b01; mii_select_reg <= 1'b1; end else begin // small reference count - 1000M speed_reg <= 2'b10; mii_select_reg <= 1'b0; end end end end assign speed = speed_reg; rgmii_phy_if #( .TARGET(TARGET), .IODDR_STYLE(IODDR_STYLE), .CLOCK_INPUT_STYLE(CLOCK_INPUT_STYLE), .USE_CLK90(USE_CLK90) ) rgmii_phy_if_inst ( .clk(gtx_clk), .clk90(gtx_clk90), .rst(gtx_rst), .mac_gmii_rx_clk(rx_clk), .mac_gmii_rx_rst(rx_rst), .mac_gmii_rxd(mac_gmii_rxd), .mac_gmii_rx_dv(mac_gmii_rx_dv), .mac_gmii_rx_er(mac_gmii_rx_er), .mac_gmii_tx_clk(tx_clk), .mac_gmii_tx_rst(tx_rst), .mac_gmii_tx_clk_en(mac_gmii_tx_clk_en), .mac_gmii_txd(mac_gmii_txd), .mac_gmii_tx_en(mac_gmii_tx_en), .mac_gmii_tx_er(mac_gmii_tx_er), .phy_rgmii_rx_clk(rgmii_rx_clk), .phy_rgmii_rxd(rgmii_rxd), .phy_rgmii_rx_ctl(rgmii_rx_ctl), .phy_rgmii_tx_clk(rgmii_tx_clk), .phy_rgmii_txd(rgmii_txd), .phy_rgmii_tx_ctl(rgmii_tx_ctl), .speed(speed) ); eth_mac_1g #( .ENABLE_PADDING(ENABLE_PADDING), .MIN_FRAME_LENGTH(MIN_FRAME_LENGTH) ) eth_mac_1g_inst ( .tx_clk(tx_clk), .tx_rst(tx_rst), .rx_clk(rx_clk), .rx_rst(rx_rst), .tx_axis_tdata(tx_axis_tdata), .tx_axis_tvalid(tx_axis_tvalid), .tx_axis_tready(tx_axis_tready), .tx_axis_tlast(tx_axis_tlast), .tx_axis_tuser(tx_axis_tuser), .rx_axis_tdata(rx_axis_tdata), .rx_axis_tvalid(rx_axis_tvalid), .rx_axis_tlast(rx_axis_tlast), .rx_axis_tuser(rx_axis_tuser), .gmii_rxd(mac_gmii_rxd), .gmii_rx_dv(mac_gmii_rx_dv), .gmii_rx_er(mac_gmii_rx_er), .gmii_txd(mac_gmii_txd), .gmii_tx_en(mac_gmii_tx_en), .gmii_tx_er(mac_gmii_tx_er), .rx_clk_enable(1'b1), .tx_clk_enable(mac_gmii_tx_clk_en), .rx_mii_select(rx_mii_select_sync[1]), .tx_mii_select(tx_mii_select_sync[1]), .tx_error_underflow(tx_error_underflow), .rx_error_bad_frame(rx_error_bad_frame), .rx_error_bad_fcs(rx_error_bad_fcs), .cfg_ifg(cfg_ifg), .cfg_tx_enable(cfg_tx_enable), .cfg_rx_enable(cfg_rx_enable) ); endmodule `resetall