taxi/rtl/eth/taxi_eth_mac_phy_10g_fifo.sv

// SPDX-License-Identifier: CERN-OHL-S-2.0
/*

Copyright (c) 2019-2025 FPGA Ninja, LLC

Authors:
- Alex Forencich

*/

`resetall
`timescale 1ns / 1ps
`default_nettype none

/*
 * 10G Ethernet MAC/PHY combination with TX and RX FIFOs
 */
module taxi_eth_mac_phy_10g_fifo #
(
    parameter DATA_W = 64,
    parameter HDR_W = (DATA_W/32),
    parameter logic PADDING_EN = 1'b1,
    parameter logic DIC_EN = 1'b1,
    parameter MIN_FRAME_LEN = 64,
    parameter logic PTP_TS_EN = 1'b0,
    parameter logic PTP_TS_FMT_TOD = 1'b1,
    parameter PTP_TS_W = PTP_TS_FMT_TOD ? 96 : 64,
    parameter logic BIT_REVERSE = 1'b0,
    parameter logic SCRAMBLER_DISABLE = 1'b0,
    parameter logic PRBS31_EN = 1'b0,
    parameter TX_SERDES_PIPELINE = 0,
    parameter RX_SERDES_PIPELINE = 0,
    parameter BITSLIP_HIGH_CYCLES = 0,
    parameter BITSLIP_LOW_CYCLES = 7,
    parameter COUNT_125US = 125000/6.4,
    parameter TX_FIFO_DEPTH = 4096,
    parameter TX_FIFO_RAM_PIPELINE = 1,
    parameter logic TX_FRAME_FIFO = 1'b1,
    parameter logic TX_DROP_OVERSIZE_FRAME = TX_FRAME_FIFO,
    parameter logic TX_DROP_BAD_FRAME = TX_DROP_OVERSIZE_FRAME,
    parameter logic TX_DROP_WHEN_FULL = 1'b0,
    parameter TX_CPL_FIFO_DEPTH = 64,
    parameter RX_FIFO_DEPTH = 4096,
    parameter RX_FIFO_RAM_PIPELINE = 1,
    parameter logic RX_FRAME_FIFO = 1'b1,
    parameter logic RX_DROP_OVERSIZE_FRAME = RX_FRAME_FIFO,
    parameter logic RX_DROP_BAD_FRAME = RX_DROP_OVERSIZE_FRAME,
    parameter logic RX_DROP_WHEN_FULL = RX_DROP_OVERSIZE_FRAME
)
(
    input  wire logic                 rx_clk,
    input  wire logic                 rx_rst,
    input  wire logic                 tx_clk,
    input  wire logic                 tx_rst,
    input  wire logic                 logic_clk,
    input  wire logic                 logic_rst,
    input  wire logic                 ptp_sample_clk,

    /*
     * Transmit interface (AXI stream)
     */
    taxi_axis_if.snk                  s_axis_tx,
    taxi_axis_if.src                  m_axis_tx_cpl,

    /*
     * Receive interface (AXI stream)
     */
    taxi_axis_if.src                  m_axis_rx,

    /*
     * SERDES interface
     */
    output wire logic [DATA_W-1:0]    serdes_tx_data,
    output wire logic [HDR_W-1:0]     serdes_tx_hdr,
    input  wire logic [DATA_W-1:0]    serdes_rx_data,
    input  wire logic [HDR_W-1:0]     serdes_rx_hdr,
    output wire logic                 serdes_rx_bitslip,
    output wire logic                 serdes_rx_reset_req,

    /*
     * Status
     */
    output wire logic                 tx_error_underflow,
    output wire logic                 tx_fifo_overflow,
    output wire logic                 tx_fifo_bad_frame,
    output wire logic                 tx_fifo_good_frame,
    output wire logic                 rx_error_bad_frame,
    output wire logic                 rx_error_bad_fcs,
    output wire logic                 rx_bad_block,
    output wire logic                 rx_sequence_error,
    output wire logic                 rx_block_lock,
    output wire logic                 rx_high_ber,
    output wire logic                 rx_status,
    output wire logic                 rx_fifo_overflow,
    output wire logic                 rx_fifo_bad_frame,
    output wire logic                 rx_fifo_good_frame,

    /*
     * PTP clock
     */
    input  wire logic [PTP_TS_W-1:0]  ptp_ts = '0,
    input  wire logic                 ptp_ts_step = 1'b0,

    /*
     * Configuration
     */
    input  wire logic [7:0]           cfg_ifg = 8'd12,
    input  wire logic                 cfg_tx_enable = 1'b1,
    input  wire logic                 cfg_rx_enable = 1'b1,
    input  wire logic                 cfg_tx_prbs31_enable = 1'b0,
    input  wire logic                 cfg_rx_prbs31_enable = 1'b0
);

localparam KEEP_W = DATA_W/8;
localparam TX_USER_W = 1;
localparam RX_USER_W = (PTP_TS_EN ? PTP_TS_W : 0) + 1;
localparam TX_TAG_W = s_axis_tx.ID_W;

taxi_axis_if #(.DATA_W(DATA_W), .KEEP_W(KEEP_W), .USER_EN(1), .USER_W(TX_USER_W), .ID_EN(1), .ID_W(TX_TAG_W)) axis_tx_int();
taxi_axis_if #(.DATA_W(PTP_TS_W), .KEEP_W(1), .ID_EN(1), .ID_W(TX_TAG_W)) axis_tx_cpl_int();
taxi_axis_if #(.DATA_W(DATA_W), .KEEP_W(KEEP_W), .USER_EN(1), .USER_W(RX_USER_W)) axis_rx_int();

wire [PTP_TS_W-1:0] tx_ptp_ts;
wire [PTP_TS_W-1:0] rx_ptp_ts;

wire tx_ptp_locked;
wire rx_ptp_locked;

// synchronize MAC status signals into logic clock domain
wire tx_error_underflow_int;

reg [0:0] tx_sync_reg_1 = '0;
reg [0:0] tx_sync_reg_2 = '0;
reg [0:0] tx_sync_reg_3 = '0;
reg [0:0] tx_sync_reg_4 = '0;

assign tx_error_underflow = tx_sync_reg_3[0] ^ tx_sync_reg_4[0];

always @(posedge tx_clk or posedge tx_rst) begin
    if (tx_rst) begin
        tx_sync_reg_1 <= '0;
    end else begin
        tx_sync_reg_1 <= tx_sync_reg_1 ^ {tx_error_underflow_int};
    end
end

always @(posedge logic_clk or posedge logic_rst) begin
    if (logic_rst) begin
        tx_sync_reg_2 <= '0;
        tx_sync_reg_3 <= '0;
        tx_sync_reg_4 <= '0;
    end else begin
        tx_sync_reg_2 <= tx_sync_reg_1;
        tx_sync_reg_3 <= tx_sync_reg_2;
        tx_sync_reg_4 <= tx_sync_reg_3;
    end
end

wire rx_error_bad_frame_int;
wire rx_error_bad_fcs_int;
wire rx_bad_block_int;
wire rx_sequence_error_int;
wire rx_block_lock_int;
wire rx_high_ber_int;
wire rx_status_int;

reg [6:0] rx_sync_reg_1 = '0;
reg [6:0] rx_sync_reg_2 = '0;
reg [6:0] rx_sync_reg_3 = '0;
reg [6:0] rx_sync_reg_4 = '0;

assign rx_error_bad_frame = rx_sync_reg_3[0] ^ rx_sync_reg_4[0];
assign rx_error_bad_fcs = rx_sync_reg_3[1] ^ rx_sync_reg_4[1];
assign rx_bad_block = rx_sync_reg_3[2] ^ rx_sync_reg_4[2];
assign rx_sequence_error = rx_sync_reg_3[3] ^ rx_sync_reg_4[3];
assign rx_block_lock = rx_sync_reg_4[4];
assign rx_high_ber = rx_sync_reg_4[5];
assign rx_status = rx_sync_reg_4[6];

always @(posedge rx_clk or posedge rx_rst) begin
    if (rx_rst) begin
        rx_sync_reg_1 <= '0;
    end else begin
        rx_sync_reg_1[0] <= rx_sync_reg_1[0] ^ rx_error_bad_frame_int;
        rx_sync_reg_1[1] <= rx_sync_reg_1[1] ^ rx_error_bad_fcs_int;
        rx_sync_reg_1[2] <= rx_sync_reg_1[2] ^ rx_bad_block_int;
        rx_sync_reg_1[3] <= rx_sync_reg_1[3] ^ rx_sequence_error_int;
        rx_sync_reg_1[4] <= rx_block_lock_int;
        rx_sync_reg_1[5] <= rx_high_ber_int;
        rx_sync_reg_1[6] <= rx_status_int;
    end
end

always @(posedge logic_clk or posedge logic_rst) begin
    if (logic_rst) begin
        rx_sync_reg_2 <= '0;
        rx_sync_reg_3 <= '0;
        rx_sync_reg_4 <= '0;
    end else begin
        rx_sync_reg_2 <= rx_sync_reg_1;
        rx_sync_reg_3 <= rx_sync_reg_2;
        rx_sync_reg_4 <= rx_sync_reg_3;
    end
end

// PTP timestamping
if (PTP_TS_EN) begin : ptp
    
    taxi_ptp_clock_cdc #(
        .TS_W(PTP_TS_W),
        .NS_W(6)
    )
    tx_ptp_cdc (
        .input_clk(logic_clk),
        .input_rst(logic_rst),
        .output_clk(tx_clk),
        .output_rst(tx_rst),
        .sample_clk(ptp_sample_clk),
        .input_ts(ptp_ts),
        .input_ts_step(ptp_ts_step),
        .output_ts(tx_ptp_ts),
        .output_ts_step(),
        .output_pps(),
        .output_pps_str(),
        .locked(tx_ptp_locked)
    );

    taxi_ptp_clock_cdc #(
        .TS_W(PTP_TS_W),
        .NS_W(6)
    )
    rx_ptp_cdc (
        .input_clk(logic_clk),
        .input_rst(logic_rst),
        .output_clk(rx_clk),
        .output_rst(rx_rst),
        .sample_clk(ptp_sample_clk),
        .input_ts(ptp_ts),
        .input_ts_step(ptp_ts_step),
        .output_ts(rx_ptp_ts),
        .output_ts_step(),
        .output_pps(),
        .output_pps_str(),
        .locked(rx_ptp_locked)
    );

end else begin

    assign tx_ptp_ts = '0;
    assign rx_ptp_ts = '0;

    assign tx_ptp_locked = 1'b0;
    assign rx_ptp_locked = 1'b0;

end

taxi_eth_mac_phy_10g #(
    .DATA_W(DATA_W),
    .HDR_W(HDR_W),
    .PADDING_EN(PADDING_EN),
    .DIC_EN(DIC_EN),
    .MIN_FRAME_LEN(MIN_FRAME_LEN),
    .PTP_TS_EN(PTP_TS_EN),
    .PTP_TS_FMT_TOD(PTP_TS_FMT_TOD),
    .PTP_TS_W(PTP_TS_W),
    .BIT_REVERSE(BIT_REVERSE),
    .SCRAMBLER_DISABLE(SCRAMBLER_DISABLE),
    .PRBS31_EN(PRBS31_EN),
    .TX_SERDES_PIPELINE(TX_SERDES_PIPELINE),
    .RX_SERDES_PIPELINE(RX_SERDES_PIPELINE),
    .BITSLIP_HIGH_CYCLES(BITSLIP_HIGH_CYCLES),
    .BITSLIP_LOW_CYCLES(BITSLIP_LOW_CYCLES),
    .COUNT_125US(COUNT_125US)
)
eth_mac_phy_10g_inst (
    .tx_clk(tx_clk),
    .tx_rst(tx_rst),
    .rx_clk(rx_clk),
    .rx_rst(rx_rst),

    /*
     * Transmit interface (AXI stream)
     */
    .s_axis_tx(axis_tx_int),
    .m_axis_tx_cpl(axis_tx_cpl_int),

    /*
     * Receive interface (AXI stream)
     */
    .m_axis_rx(axis_rx_int),

    /*
     * Serdes interface
     */
    .serdes_tx_data(serdes_tx_data),
    .serdes_tx_hdr(serdes_tx_hdr),
    .serdes_rx_data(serdes_rx_data),
    .serdes_rx_hdr(serdes_rx_hdr),
    .serdes_rx_bitslip(serdes_rx_bitslip),
    .serdes_rx_reset_req(serdes_rx_reset_req),

    /*
     * PTP
     */
    .tx_ptp_ts(tx_ptp_ts),
    .rx_ptp_ts(rx_ptp_ts),

    /*
     * Link-level Flow Control (LFC) (IEEE 802.3 annex 31B PAUSE)
     */
    .tx_lfc_req(0),
    .tx_lfc_resend(0),
    .rx_lfc_en(0),
    .rx_lfc_req(),
    .rx_lfc_ack(0),

    /*
     * Priority Flow Control (PFC) (IEEE 802.3 annex 31D PFC)
     */
    .tx_pfc_req(0),
    .tx_pfc_resend(0),
    .rx_pfc_en(0),
    .rx_pfc_req(),
    .rx_pfc_ack(0),

    /*
     * Pause interface
     */
    .tx_lfc_pause_en(0),
    .tx_pause_req(0),
    .tx_pause_ack(),

    /*
     * Status
     */
    .tx_start_packet(),
    .tx_error_underflow(tx_error_underflow_int),
    .rx_start_packet(),
    .rx_error_count(),
    .rx_error_bad_frame(rx_error_bad_frame_int),
    .rx_error_bad_fcs(rx_error_bad_fcs_int),
    .rx_bad_block(rx_bad_block_int),
    .rx_sequence_error(rx_sequence_error_int),
    .rx_block_lock(rx_block_lock_int),
    .rx_high_ber(rx_high_ber_int),
    .rx_status(rx_status_int),
    .stat_tx_mcf(),
    .stat_rx_mcf(),
    .stat_tx_lfc_pkt(),
    .stat_tx_lfc_xon(),
    .stat_tx_lfc_xoff(),
    .stat_tx_lfc_paused(),
    .stat_tx_pfc_pkt(),
    .stat_tx_pfc_xon(),
    .stat_tx_pfc_xoff(),
    .stat_tx_pfc_paused(),
    .stat_rx_lfc_pkt(),
    .stat_rx_lfc_xon(),
    .stat_rx_lfc_xoff(),
    .stat_rx_lfc_paused(),
    .stat_rx_pfc_pkt(),
    .stat_rx_pfc_xon(),
    .stat_rx_pfc_xoff(),
    .stat_rx_pfc_paused(),

    /*
     * Configuration
     */
    .cfg_ifg(cfg_ifg),
    .cfg_tx_enable(cfg_tx_enable),
    .cfg_rx_enable(cfg_rx_enable),
    .cfg_tx_prbs31_enable(cfg_tx_prbs31_enable),
    .cfg_rx_prbs31_enable(cfg_rx_prbs31_enable),
    .cfg_mcf_rx_eth_dst_mcast('0),
    .cfg_mcf_rx_check_eth_dst_mcast('0),
    .cfg_mcf_rx_eth_dst_ucast('0),
    .cfg_mcf_rx_check_eth_dst_ucast('0),
    .cfg_mcf_rx_eth_src('0),
    .cfg_mcf_rx_check_eth_src('0),
    .cfg_mcf_rx_eth_type('0),
    .cfg_mcf_rx_opcode_lfc('0),
    .cfg_mcf_rx_check_opcode_lfc('0),
    .cfg_mcf_rx_opcode_pfc('0),
    .cfg_mcf_rx_check_opcode_pfc('0),
    .cfg_mcf_rx_forward('0),
    .cfg_mcf_rx_enable('0),
    .cfg_tx_lfc_eth_dst('0),
    .cfg_tx_lfc_eth_src('0),
    .cfg_tx_lfc_eth_type('0),
    .cfg_tx_lfc_opcode('0),
    .cfg_tx_lfc_en('0),
    .cfg_tx_lfc_quanta('0),
    .cfg_tx_lfc_refresh('0),
    .cfg_tx_pfc_eth_dst('0),
    .cfg_tx_pfc_eth_src('0),
    .cfg_tx_pfc_eth_type('0),
    .cfg_tx_pfc_opcode('0),
    .cfg_tx_pfc_en('0),
    .cfg_tx_pfc_quanta('{8{'0}}),
    .cfg_tx_pfc_refresh('{8{'0}}),
    .cfg_rx_lfc_opcode('0),
    .cfg_rx_lfc_en('0),
    .cfg_rx_pfc_opcode('0),
    .cfg_rx_pfc_en('0)
);

taxi_axis_async_fifo_adapter #(
    .DEPTH(TX_FIFO_DEPTH),
    .RAM_PIPELINE(TX_FIFO_RAM_PIPELINE),
    .FRAME_FIFO(TX_FRAME_FIFO),
    .USER_BAD_FRAME_VALUE(1'b1),
    .USER_BAD_FRAME_MASK(1'b1),
    .DROP_OVERSIZE_FRAME(TX_DROP_OVERSIZE_FRAME),
    .DROP_BAD_FRAME(TX_DROP_BAD_FRAME),
    .DROP_WHEN_FULL(TX_DROP_WHEN_FULL)
)
tx_fifo (
    /*
     * AXI4-Stream input (sink)
     */
    .s_clk(logic_clk),
    .s_rst(logic_rst),
    .s_axis(s_axis_tx),

    /*
     * AXI4-Stream output (source)
     */
    .m_clk(tx_clk),
    .m_rst(tx_rst),
    .m_axis(axis_tx_int),

    /*
     * Pause
     */
    .s_pause_req(1'b0),
    .s_pause_ack(),
    .m_pause_req(1'b0),
    .m_pause_ack(),

    /*
     * Status
     */
    .s_status_depth(),
    .s_status_depth_commit(),
    .s_status_overflow(tx_fifo_overflow),
    .s_status_bad_frame(tx_fifo_bad_frame),
    .s_status_good_frame(tx_fifo_good_frame),
    .m_status_depth(),
    .m_status_depth_commit(),
    .m_status_overflow(),
    .m_status_bad_frame(),
    .m_status_good_frame()
);

taxi_axis_async_fifo #(
    .DEPTH(TX_CPL_FIFO_DEPTH),
    .FRAME_FIFO(1'b0)
)
tx_cpl_fifo (
    /*
     * AXI4-Stream input (sink)
     */
    .s_clk(tx_clk),
    .s_rst(tx_rst),
    .s_axis(axis_tx_cpl_int),

    /*
     * AXI4-Stream output (source)
     */
    .m_clk(logic_clk),
    .m_rst(logic_rst),
    .m_axis(m_axis_tx_cpl),

    /*
     * Pause
     */
    .s_pause_req(1'b0),
    .s_pause_ack(),
    .m_pause_req(1'b0),
    .m_pause_ack(),

    /*
     * Status
     */
    .s_status_depth(),
    .s_status_depth_commit(),
    .s_status_overflow(),
    .s_status_bad_frame(),
    .s_status_good_frame(),
    .m_status_depth(),
    .m_status_depth_commit(),
    .m_status_overflow(),
    .m_status_bad_frame(),
    .m_status_good_frame()
);

taxi_axis_async_fifo_adapter #(
    .DEPTH(RX_FIFO_DEPTH),
    .RAM_PIPELINE(RX_FIFO_RAM_PIPELINE),
    .FRAME_FIFO(RX_FRAME_FIFO),
    .USER_BAD_FRAME_VALUE(1'b1),
    .USER_BAD_FRAME_MASK(1'b1),
    .DROP_OVERSIZE_FRAME(RX_DROP_OVERSIZE_FRAME),
    .DROP_BAD_FRAME(RX_DROP_BAD_FRAME),
    .DROP_WHEN_FULL(RX_DROP_WHEN_FULL)
)
rx_fifo (
    /*
     * AXI4-Stream input (sink)
     */
    .s_clk(rx_clk),
    .s_rst(rx_rst),
    .s_axis(axis_rx_int),

    /*
     * AXI4-Stream output (source)
     */
    .m_clk(logic_clk),
    .m_rst(logic_rst),
    .m_axis(m_axis_rx),

    /*
     * Pause
     */
    .s_pause_req(1'b0),
    .s_pause_ack(),
    .m_pause_req(1'b0),
    .m_pause_ack(),

    /*
     * Status
     */
    .s_status_depth(),
    .s_status_depth_commit(),
    .s_status_overflow(),
    .s_status_bad_frame(),
    .s_status_good_frame(),
    .m_status_depth(),
    .m_status_depth_commit(),
    .m_status_overflow(rx_fifo_overflow),
    .m_status_bad_frame(rx_fifo_bad_frame),
    .m_status_good_frame(rx_fifo_good_frame)
);

endmodule

`resetall