/* Copyright (c) 2015-2023 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 /* * 10G Ethernet MAC */ module eth_mac_10g # ( parameter DATA_WIDTH = 64, parameter KEEP_WIDTH = (DATA_WIDTH/8), parameter CTRL_WIDTH = (DATA_WIDTH/8), parameter ENABLE_PADDING = 1, parameter ENABLE_DIC = 1, parameter MIN_FRAME_LENGTH = 64, parameter PTP_PERIOD_NS = 4'h6, parameter PTP_PERIOD_FNS = 16'h6666, parameter TX_PTP_TS_ENABLE = 0, parameter TX_PTP_TS_WIDTH = 96, parameter TX_PTP_TS_CTRL_IN_TUSER = 0, parameter TX_PTP_TAG_ENABLE = TX_PTP_TS_ENABLE, parameter TX_PTP_TAG_WIDTH = 16, parameter RX_PTP_TS_ENABLE = TX_PTP_TS_ENABLE, parameter RX_PTP_TS_WIDTH = 96, parameter TX_USER_WIDTH = (TX_PTP_TS_ENABLE ? (TX_PTP_TAG_ENABLE ? TX_PTP_TAG_WIDTH : 0) + (TX_PTP_TS_CTRL_IN_TUSER ? 1 : 0) : 0) + 1, parameter RX_USER_WIDTH = (RX_PTP_TS_ENABLE ? RX_PTP_TS_WIDTH : 0) + 1, parameter PFC_ENABLE = 0, parameter PAUSE_ENABLE = PFC_ENABLE ) ( input wire rx_clk, input wire rx_rst, input wire tx_clk, input wire tx_rst, /* * AXI input */ input wire [DATA_WIDTH-1:0] tx_axis_tdata, input wire [KEEP_WIDTH-1:0] tx_axis_tkeep, input wire tx_axis_tvalid, output wire tx_axis_tready, input wire tx_axis_tlast, input wire [TX_USER_WIDTH-1:0] tx_axis_tuser, /* * AXI output */ output wire [DATA_WIDTH-1:0] rx_axis_tdata, output wire [KEEP_WIDTH-1:0] rx_axis_tkeep, output wire rx_axis_tvalid, output wire rx_axis_tlast, output wire [RX_USER_WIDTH-1:0] rx_axis_tuser, /* * XGMII interface */ input wire [DATA_WIDTH-1:0] xgmii_rxd, input wire [CTRL_WIDTH-1:0] xgmii_rxc, output wire [DATA_WIDTH-1:0] xgmii_txd, output wire [CTRL_WIDTH-1:0] xgmii_txc, /* * PTP */ input wire [TX_PTP_TS_WIDTH-1:0] tx_ptp_ts, input wire [RX_PTP_TS_WIDTH-1:0] rx_ptp_ts, output wire [TX_PTP_TS_WIDTH-1:0] tx_axis_ptp_ts, output wire [TX_PTP_TAG_WIDTH-1:0] tx_axis_ptp_ts_tag, output wire tx_axis_ptp_ts_valid, /* * Link-level Flow Control (LFC) (IEEE 802.3 annex 31B PAUSE) */ input wire tx_lfc_req, input wire tx_lfc_resend, input wire rx_lfc_en, output wire rx_lfc_req, input wire rx_lfc_ack, /* * Priority Flow Control (PFC) (IEEE 802.3 annex 31D PFC) */ input wire [7:0] tx_pfc_req, input wire tx_pfc_resend, input wire [7:0] rx_pfc_en, output wire [7:0] rx_pfc_req, input wire [7:0] rx_pfc_ack, /* * Pause interface */ input wire tx_lfc_pause_en, input wire tx_pause_req, output wire tx_pause_ack, /* * Status */ output wire [1:0] tx_start_packet, output wire tx_error_underflow, output wire [1:0] rx_start_packet, output wire rx_error_bad_frame, output wire rx_error_bad_fcs, output wire stat_tx_mcf, output wire stat_rx_mcf, output wire stat_tx_lfc_pkt, output wire stat_tx_lfc_xon, output wire stat_tx_lfc_xoff, output wire stat_tx_lfc_paused, output wire stat_tx_pfc_pkt, output wire [7:0] stat_tx_pfc_xon, output wire [7:0] stat_tx_pfc_xoff, output wire [7:0] stat_tx_pfc_paused, output wire stat_rx_lfc_pkt, output wire stat_rx_lfc_xon, output wire stat_rx_lfc_xoff, output wire stat_rx_lfc_paused, output wire stat_rx_pfc_pkt, output wire [7:0] stat_rx_pfc_xon, output wire [7:0] stat_rx_pfc_xoff, output wire [7:0] stat_rx_pfc_paused, /* * Configuration */ input wire [7:0] cfg_ifg, input wire cfg_tx_enable, input wire cfg_rx_enable, input wire [47:0] cfg_mcf_rx_eth_dst_mcast, input wire cfg_mcf_rx_check_eth_dst_mcast, input wire [47:0] cfg_mcf_rx_eth_dst_ucast, input wire cfg_mcf_rx_check_eth_dst_ucast, input wire [47:0] cfg_mcf_rx_eth_src, input wire cfg_mcf_rx_check_eth_src, input wire [15:0] cfg_mcf_rx_eth_type, input wire [15:0] cfg_mcf_rx_opcode_lfc, input wire cfg_mcf_rx_check_opcode_lfc, input wire [15:0] cfg_mcf_rx_opcode_pfc, input wire cfg_mcf_rx_check_opcode_pfc, input wire cfg_mcf_rx_forward, input wire cfg_mcf_rx_enable, input wire [47:0] cfg_tx_lfc_eth_dst, input wire [47:0] cfg_tx_lfc_eth_src, input wire [15:0] cfg_tx_lfc_eth_type, input wire [15:0] cfg_tx_lfc_opcode, input wire cfg_tx_lfc_en, input wire [15:0] cfg_tx_lfc_quanta, input wire [15:0] cfg_tx_lfc_refresh, input wire [47:0] cfg_tx_pfc_eth_dst, input wire [47:0] cfg_tx_pfc_eth_src, input wire [15:0] cfg_tx_pfc_eth_type, input wire [15:0] cfg_tx_pfc_opcode, input wire cfg_tx_pfc_en, input wire [8*16-1:0] cfg_tx_pfc_quanta, input wire [8*16-1:0] cfg_tx_pfc_refresh, input wire [15:0] cfg_rx_lfc_opcode, input wire cfg_rx_lfc_en, input wire [15:0] cfg_rx_pfc_opcode, input wire cfg_rx_pfc_en ); parameter MAC_CTRL_ENABLE = PAUSE_ENABLE || PFC_ENABLE; parameter TX_USER_WIDTH_INT = MAC_CTRL_ENABLE ? (TX_PTP_TS_ENABLE ? (TX_PTP_TAG_ENABLE ? TX_PTP_TAG_WIDTH : 0) + 1 : 0) + 1 : TX_USER_WIDTH; // bus width assertions initial begin if (DATA_WIDTH != 32 && DATA_WIDTH != 64) begin $error("Error: Interface width must be 32 or 64"); $finish; end if (KEEP_WIDTH * 8 != DATA_WIDTH || CTRL_WIDTH * 8 != DATA_WIDTH) begin $error("Error: Interface requires byte (8-bit) granularity"); $finish; end end wire [DATA_WIDTH-1:0] tx_axis_tdata_int; wire [KEEP_WIDTH-1:0] tx_axis_tkeep_int; wire tx_axis_tvalid_int; wire tx_axis_tready_int; wire tx_axis_tlast_int; wire [TX_USER_WIDTH_INT-1:0] tx_axis_tuser_int; wire [DATA_WIDTH-1:0] rx_axis_tdata_int; wire [KEEP_WIDTH-1:0] rx_axis_tkeep_int; wire rx_axis_tvalid_int; wire rx_axis_tlast_int; wire [RX_USER_WIDTH-1:0] rx_axis_tuser_int; generate if (DATA_WIDTH == 64) begin axis_xgmii_rx_64 #( .DATA_WIDTH(DATA_WIDTH), .KEEP_WIDTH(KEEP_WIDTH), .CTRL_WIDTH(CTRL_WIDTH), .PTP_PERIOD_NS(PTP_PERIOD_NS), .PTP_PERIOD_FNS(PTP_PERIOD_FNS), .PTP_TS_ENABLE(RX_PTP_TS_ENABLE), .PTP_TS_WIDTH(RX_PTP_TS_WIDTH), .USER_WIDTH(RX_USER_WIDTH) ) axis_xgmii_rx_inst ( .clk(rx_clk), .rst(rx_rst), .xgmii_rxd(xgmii_rxd), .xgmii_rxc(xgmii_rxc), .m_axis_tdata(rx_axis_tdata_int), .m_axis_tkeep(rx_axis_tkeep_int), .m_axis_tvalid(rx_axis_tvalid_int), .m_axis_tlast(rx_axis_tlast_int), .m_axis_tuser(rx_axis_tuser_int), .ptp_ts(rx_ptp_ts), .cfg_rx_enable(cfg_rx_enable), .start_packet(rx_start_packet), .error_bad_frame(rx_error_bad_frame), .error_bad_fcs(rx_error_bad_fcs) ); axis_xgmii_tx_64 #( .DATA_WIDTH(DATA_WIDTH), .KEEP_WIDTH(KEEP_WIDTH), .CTRL_WIDTH(CTRL_WIDTH), .ENABLE_PADDING(ENABLE_PADDING), .ENABLE_DIC(ENABLE_DIC), .MIN_FRAME_LENGTH(MIN_FRAME_LENGTH), .PTP_PERIOD_NS(PTP_PERIOD_NS), .PTP_PERIOD_FNS(PTP_PERIOD_FNS), .PTP_TS_ENABLE(TX_PTP_TS_ENABLE), .PTP_TS_WIDTH(TX_PTP_TS_WIDTH), .PTP_TS_CTRL_IN_TUSER(MAC_CTRL_ENABLE ? TX_PTP_TS_ENABLE : TX_PTP_TS_CTRL_IN_TUSER), .PTP_TAG_ENABLE(TX_PTP_TAG_ENABLE), .PTP_TAG_WIDTH(TX_PTP_TAG_WIDTH), .USER_WIDTH(TX_USER_WIDTH_INT) ) axis_xgmii_tx_inst ( .clk(tx_clk), .rst(tx_rst), .s_axis_tdata(tx_axis_tdata_int), .s_axis_tkeep(tx_axis_tkeep_int), .s_axis_tvalid(tx_axis_tvalid_int), .s_axis_tready(tx_axis_tready_int), .s_axis_tlast(tx_axis_tlast_int), .s_axis_tuser(tx_axis_tuser_int), .xgmii_txd(xgmii_txd), .xgmii_txc(xgmii_txc), .ptp_ts(tx_ptp_ts), .m_axis_ptp_ts(tx_axis_ptp_ts), .m_axis_ptp_ts_tag(tx_axis_ptp_ts_tag), .m_axis_ptp_ts_valid(tx_axis_ptp_ts_valid), .cfg_ifg(cfg_ifg), .cfg_tx_enable(cfg_tx_enable), .start_packet(tx_start_packet), .error_underflow(tx_error_underflow) ); end else begin axis_xgmii_rx_32 #( .DATA_WIDTH(DATA_WIDTH), .KEEP_WIDTH(KEEP_WIDTH), .CTRL_WIDTH(CTRL_WIDTH), .PTP_TS_ENABLE(RX_PTP_TS_ENABLE), .PTP_TS_WIDTH(RX_PTP_TS_WIDTH), .USER_WIDTH(RX_USER_WIDTH) ) axis_xgmii_rx_inst ( .clk(rx_clk), .rst(rx_rst), .xgmii_rxd(xgmii_rxd), .xgmii_rxc(xgmii_rxc), .m_axis_tdata(rx_axis_tdata_int), .m_axis_tkeep(rx_axis_tkeep_int), .m_axis_tvalid(rx_axis_tvalid_int), .m_axis_tlast(rx_axis_tlast_int), .m_axis_tuser(rx_axis_tuser_int), .ptp_ts(rx_ptp_ts), .cfg_rx_enable(cfg_rx_enable), .start_packet(rx_start_packet[0]), .error_bad_frame(rx_error_bad_frame), .error_bad_fcs(rx_error_bad_fcs) ); assign rx_start_packet[1] = 1'b0; axis_xgmii_tx_32 #( .DATA_WIDTH(DATA_WIDTH), .KEEP_WIDTH(KEEP_WIDTH), .CTRL_WIDTH(CTRL_WIDTH), .ENABLE_PADDING(ENABLE_PADDING), .ENABLE_DIC(ENABLE_DIC), .MIN_FRAME_LENGTH(MIN_FRAME_LENGTH), .PTP_TS_ENABLE(TX_PTP_TS_ENABLE), .PTP_TS_WIDTH(TX_PTP_TS_WIDTH), .PTP_TS_CTRL_IN_TUSER(MAC_CTRL_ENABLE ? TX_PTP_TS_ENABLE : TX_PTP_TS_CTRL_IN_TUSER), .PTP_TAG_ENABLE(TX_PTP_TAG_ENABLE), .PTP_TAG_WIDTH(TX_PTP_TAG_WIDTH), .USER_WIDTH(TX_USER_WIDTH_INT) ) axis_xgmii_tx_inst ( .clk(tx_clk), .rst(tx_rst), .s_axis_tdata(tx_axis_tdata_int), .s_axis_tkeep(tx_axis_tkeep_int), .s_axis_tvalid(tx_axis_tvalid_int), .s_axis_tready(tx_axis_tready_int), .s_axis_tlast(tx_axis_tlast_int), .s_axis_tuser(tx_axis_tuser_int), .xgmii_txd(xgmii_txd), .xgmii_txc(xgmii_txc), .ptp_ts(tx_ptp_ts), .m_axis_ptp_ts(tx_axis_ptp_ts), .m_axis_ptp_ts_tag(tx_axis_ptp_ts_tag), .m_axis_ptp_ts_valid(tx_axis_ptp_ts_valid), .cfg_ifg(cfg_ifg), .cfg_tx_enable(cfg_tx_enable), .start_packet(tx_start_packet[0]), .error_underflow(tx_error_underflow) ); assign tx_start_packet[1] = 1'b0; end if (MAC_CTRL_ENABLE) begin : mac_ctrl localparam MCF_PARAMS_SIZE = PFC_ENABLE ? 18 : 2; wire tx_mcf_valid; wire tx_mcf_ready; wire [47:0] tx_mcf_eth_dst; wire [47:0] tx_mcf_eth_src; wire [15:0] tx_mcf_eth_type; wire [15:0] tx_mcf_opcode; wire [MCF_PARAMS_SIZE*8-1:0] tx_mcf_params; wire rx_mcf_valid; wire [47:0] rx_mcf_eth_dst; wire [47:0] rx_mcf_eth_src; wire [15:0] rx_mcf_eth_type; wire [15:0] rx_mcf_opcode; wire [MCF_PARAMS_SIZE*8-1:0] rx_mcf_params; // terminate LFC pause requests from RX internally on TX side wire tx_pause_req_int; wire rx_lfc_ack_int; reg tx_lfc_req_sync_reg_1 = 1'b0; reg tx_lfc_req_sync_reg_2 = 1'b0; reg tx_lfc_req_sync_reg_3 = 1'b0; always @(posedge rx_clk or posedge rx_rst) begin if (rx_rst) begin tx_lfc_req_sync_reg_1 <= 1'b0; end else begin tx_lfc_req_sync_reg_1 <= rx_lfc_req; end end always @(posedge tx_clk or posedge tx_rst) begin if (tx_rst) begin tx_lfc_req_sync_reg_2 <= 1'b0; tx_lfc_req_sync_reg_3 <= 1'b0; end else begin tx_lfc_req_sync_reg_2 <= tx_lfc_req_sync_reg_1; tx_lfc_req_sync_reg_3 <= tx_lfc_req_sync_reg_2; end end reg rx_lfc_ack_sync_reg_1 = 1'b0; reg rx_lfc_ack_sync_reg_2 = 1'b0; reg rx_lfc_ack_sync_reg_3 = 1'b0; always @(posedge tx_clk or posedge tx_rst) begin if (tx_rst) begin rx_lfc_ack_sync_reg_1 <= 1'b0; end else begin rx_lfc_ack_sync_reg_1 <= tx_lfc_pause_en ? tx_pause_ack : 0; end end always @(posedge rx_clk or posedge rx_rst) begin if (rx_rst) begin rx_lfc_ack_sync_reg_2 <= 1'b0; rx_lfc_ack_sync_reg_3 <= 1'b0; end else begin rx_lfc_ack_sync_reg_2 <= rx_lfc_ack_sync_reg_1; rx_lfc_ack_sync_reg_3 <= rx_lfc_ack_sync_reg_2; end end assign tx_pause_req_int = tx_pause_req || (tx_lfc_pause_en ? tx_lfc_req_sync_reg_3 : 0); assign rx_lfc_ack_int = rx_lfc_ack || rx_lfc_ack_sync_reg_3; // handle PTP TS enable bit in tuser wire [TX_USER_WIDTH_INT-1:0] tx_axis_tuser_in; if (TX_PTP_TS_ENABLE && !TX_PTP_TS_CTRL_IN_TUSER) begin assign tx_axis_tuser_in = {tx_axis_tuser[TX_USER_WIDTH-1:1], 1'b1, tx_axis_tuser[0]}; end else begin assign tx_axis_tuser_in = tx_axis_tuser; end mac_ctrl_tx #( .DATA_WIDTH(DATA_WIDTH), .KEEP_ENABLE(1), .KEEP_WIDTH(KEEP_WIDTH), .ID_ENABLE(0), .DEST_ENABLE(0), .USER_ENABLE(1), .USER_WIDTH(TX_USER_WIDTH_INT), .MCF_PARAMS_SIZE(MCF_PARAMS_SIZE) ) mac_ctrl_tx_inst ( .clk(tx_clk), .rst(tx_rst), /* * AXI stream input */ .s_axis_tdata(tx_axis_tdata), .s_axis_tkeep(tx_axis_tkeep), .s_axis_tvalid(tx_axis_tvalid), .s_axis_tready(tx_axis_tready), .s_axis_tlast(tx_axis_tlast), .s_axis_tid(0), .s_axis_tdest(0), .s_axis_tuser(tx_axis_tuser_in), /* * AXI stream output */ .m_axis_tdata(tx_axis_tdata_int), .m_axis_tkeep(tx_axis_tkeep_int), .m_axis_tvalid(tx_axis_tvalid_int), .m_axis_tready(tx_axis_tready_int), .m_axis_tlast(tx_axis_tlast_int), .m_axis_tid(), .m_axis_tdest(), .m_axis_tuser(tx_axis_tuser_int), /* * MAC control frame interface */ .mcf_valid(tx_mcf_valid), .mcf_ready(tx_mcf_ready), .mcf_eth_dst(tx_mcf_eth_dst), .mcf_eth_src(tx_mcf_eth_src), .mcf_eth_type(tx_mcf_eth_type), .mcf_opcode(tx_mcf_opcode), .mcf_params(tx_mcf_params), .mcf_id(0), .mcf_dest(0), .mcf_user(0), /* * Pause interface */ .tx_pause_req(tx_pause_req_int), .tx_pause_ack(tx_pause_ack), /* * Status */ .stat_tx_mcf(stat_tx_mcf) ); mac_ctrl_rx #( .DATA_WIDTH(DATA_WIDTH), .KEEP_ENABLE(1), .KEEP_WIDTH(KEEP_WIDTH), .ID_ENABLE(0), .DEST_ENABLE(0), .USER_ENABLE(1), .USER_WIDTH(RX_USER_WIDTH), .USE_READY(0), .MCF_PARAMS_SIZE(MCF_PARAMS_SIZE) ) mac_ctrl_rx_inst ( .clk(rx_clk), .rst(rx_rst), /* * AXI stream input */ .s_axis_tdata(rx_axis_tdata_int), .s_axis_tkeep(rx_axis_tkeep_int), .s_axis_tvalid(rx_axis_tvalid_int), .s_axis_tready(), .s_axis_tlast(rx_axis_tlast_int), .s_axis_tid(0), .s_axis_tdest(0), .s_axis_tuser(rx_axis_tuser_int), /* * AXI stream output */ .m_axis_tdata(rx_axis_tdata), .m_axis_tkeep(rx_axis_tkeep), .m_axis_tvalid(rx_axis_tvalid), .m_axis_tready(1'b1), .m_axis_tlast(rx_axis_tlast), .m_axis_tid(), .m_axis_tdest(), .m_axis_tuser(rx_axis_tuser), /* * MAC control frame interface */ .mcf_valid(rx_mcf_valid), .mcf_eth_dst(rx_mcf_eth_dst), .mcf_eth_src(rx_mcf_eth_src), .mcf_eth_type(rx_mcf_eth_type), .mcf_opcode(rx_mcf_opcode), .mcf_params(rx_mcf_params), .mcf_id(), .mcf_dest(), .mcf_user(), /* * Configuration */ .cfg_mcf_rx_eth_dst_mcast(cfg_mcf_rx_eth_dst_mcast), .cfg_mcf_rx_check_eth_dst_mcast(cfg_mcf_rx_check_eth_dst_mcast), .cfg_mcf_rx_eth_dst_ucast(cfg_mcf_rx_eth_dst_ucast), .cfg_mcf_rx_check_eth_dst_ucast(cfg_mcf_rx_check_eth_dst_ucast), .cfg_mcf_rx_eth_src(cfg_mcf_rx_eth_src), .cfg_mcf_rx_check_eth_src(cfg_mcf_rx_check_eth_src), .cfg_mcf_rx_eth_type(cfg_mcf_rx_eth_type), .cfg_mcf_rx_opcode_lfc(cfg_mcf_rx_opcode_lfc), .cfg_mcf_rx_check_opcode_lfc(cfg_mcf_rx_check_opcode_lfc), .cfg_mcf_rx_opcode_pfc(cfg_mcf_rx_opcode_pfc), .cfg_mcf_rx_check_opcode_pfc(cfg_mcf_rx_check_opcode_pfc && PFC_ENABLE), .cfg_mcf_rx_forward(cfg_mcf_rx_forward), .cfg_mcf_rx_enable(cfg_mcf_rx_enable), /* * Status */ .stat_rx_mcf(stat_rx_mcf) ); mac_pause_ctrl_tx #( .MCF_PARAMS_SIZE(MCF_PARAMS_SIZE), .PFC_ENABLE(PFC_ENABLE) ) mac_pause_ctrl_tx_inst ( .clk(tx_clk), .rst(tx_rst), /* * MAC control frame interface */ .mcf_valid(tx_mcf_valid), .mcf_ready(tx_mcf_ready), .mcf_eth_dst(tx_mcf_eth_dst), .mcf_eth_src(tx_mcf_eth_src), .mcf_eth_type(tx_mcf_eth_type), .mcf_opcode(tx_mcf_opcode), .mcf_params(tx_mcf_params), /* * Pause (IEEE 802.3 annex 31B) */ .tx_lfc_req(tx_lfc_req), .tx_lfc_resend(tx_lfc_resend), /* * Priority Flow Control (PFC) (IEEE 802.3 annex 31D) */ .tx_pfc_req(tx_pfc_req), .tx_pfc_resend(tx_pfc_resend), /* * Configuration */ .cfg_tx_lfc_eth_dst(cfg_tx_lfc_eth_dst), .cfg_tx_lfc_eth_src(cfg_tx_lfc_eth_src), .cfg_tx_lfc_eth_type(cfg_tx_lfc_eth_type), .cfg_tx_lfc_opcode(cfg_tx_lfc_opcode), .cfg_tx_lfc_en(cfg_tx_lfc_en), .cfg_tx_lfc_quanta(cfg_tx_lfc_quanta), .cfg_tx_lfc_refresh(cfg_tx_lfc_refresh), .cfg_tx_pfc_eth_dst(cfg_tx_pfc_eth_dst), .cfg_tx_pfc_eth_src(cfg_tx_pfc_eth_src), .cfg_tx_pfc_eth_type(cfg_tx_pfc_eth_type), .cfg_tx_pfc_opcode(cfg_tx_pfc_opcode), .cfg_tx_pfc_en(cfg_tx_pfc_en), .cfg_tx_pfc_quanta(cfg_tx_pfc_quanta), .cfg_tx_pfc_refresh(cfg_tx_pfc_refresh), .cfg_quanta_step((DATA_WIDTH*256)/512), .cfg_quanta_clk_en(1'b1), /* * Status */ .stat_tx_lfc_pkt(stat_tx_lfc_pkt), .stat_tx_lfc_xon(stat_tx_lfc_xon), .stat_tx_lfc_xoff(stat_tx_lfc_xoff), .stat_tx_lfc_paused(stat_tx_lfc_paused), .stat_tx_pfc_pkt(stat_tx_pfc_pkt), .stat_tx_pfc_xon(stat_tx_pfc_xon), .stat_tx_pfc_xoff(stat_tx_pfc_xoff), .stat_tx_pfc_paused(stat_tx_pfc_paused) ); mac_pause_ctrl_rx #( .MCF_PARAMS_SIZE(18), .PFC_ENABLE(PFC_ENABLE) ) mac_pause_ctrl_rx_inst ( .clk(rx_clk), .rst(rx_rst), /* * MAC control frame interface */ .mcf_valid(rx_mcf_valid), .mcf_eth_dst(rx_mcf_eth_dst), .mcf_eth_src(rx_mcf_eth_src), .mcf_eth_type(rx_mcf_eth_type), .mcf_opcode(rx_mcf_opcode), .mcf_params(rx_mcf_params), /* * Pause (IEEE 802.3 annex 31B) */ .rx_lfc_en(rx_lfc_en), .rx_lfc_req(rx_lfc_req), .rx_lfc_ack(rx_lfc_ack_int), /* * Priority Flow Control (PFC) (IEEE 802.3 annex 31D) */ .rx_pfc_en(rx_pfc_en), .rx_pfc_req(rx_pfc_req), .rx_pfc_ack(rx_pfc_ack), /* * Configuration */ .cfg_rx_lfc_opcode(cfg_rx_lfc_opcode), .cfg_rx_lfc_en(cfg_rx_lfc_en), .cfg_rx_pfc_opcode(cfg_rx_pfc_opcode), .cfg_rx_pfc_en(cfg_rx_pfc_en), .cfg_quanta_step((DATA_WIDTH*256)/512), .cfg_quanta_clk_en(1'b1), /* * Status */ .stat_rx_lfc_pkt(stat_rx_lfc_pkt), .stat_rx_lfc_xon(stat_rx_lfc_xon), .stat_rx_lfc_xoff(stat_rx_lfc_xoff), .stat_rx_lfc_paused(stat_rx_lfc_paused), .stat_rx_pfc_pkt(stat_rx_pfc_pkt), .stat_rx_pfc_xon(stat_rx_pfc_xon), .stat_rx_pfc_xoff(stat_rx_pfc_xoff), .stat_rx_pfc_paused(stat_rx_pfc_paused) ); end else begin assign tx_axis_tdata_int = tx_axis_tdata; assign tx_axis_tkeep_int = tx_axis_tkeep; assign tx_axis_tvalid_int = tx_axis_tvalid; assign tx_axis_tready = tx_axis_tready_int; assign tx_axis_tlast_int = tx_axis_tlast; assign tx_axis_tuser_int = tx_axis_tuser; assign rx_axis_tdata = rx_axis_tdata_int; assign rx_axis_tkeep = rx_axis_tkeep_int; assign rx_axis_tvalid = rx_axis_tvalid_int; assign rx_axis_tlast = rx_axis_tlast_int; assign rx_axis_tuser = rx_axis_tuser_int; assign rx_lfc_req = 0; assign rx_pfc_req = 0; assign tx_pause_ack = 0; assign stat_tx_mcf = 0; assign stat_rx_mcf = 0; assign stat_tx_lfc_pkt = 0; assign stat_tx_lfc_xon = 0; assign stat_tx_lfc_xoff = 0; assign stat_tx_lfc_paused = 0; assign stat_tx_pfc_pkt = 0; assign stat_tx_pfc_xon = 0; assign stat_tx_pfc_xoff = 0; assign stat_tx_pfc_paused = 0; assign stat_rx_lfc_pkt = 0; assign stat_rx_lfc_xon = 0; assign stat_rx_lfc_xoff = 0; assign stat_rx_lfc_paused = 0; assign stat_rx_pfc_pkt = 0; assign stat_rx_pfc_xon = 0; assign stat_rx_pfc_xoff = 0; assign stat_rx_pfc_paused = 0; end endgenerate endmodule `resetall