402 lines
9.2 KiB
Verilog
402 lines
9.2 KiB
Verilog
// SPDX-License-Identifier: AGPL-3.0-Only
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/*
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* Copyright (C) 2022 Sean Anderson <seanga2@gmail.com>
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*/
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`include "common.vh"
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`include "pcs.vh"
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`timescale 1ns/1ns
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module pcs_rx_bits (
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input clk,
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/*
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* Whether to start a new frame using the last value of @unaligned
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* (instead of @aligned). This will adjust the alignment of @aligned.
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* Should be a combinatorial input.
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*/
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input start,
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/*
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* Fill the input buffer with 1s. This will take effect the cycle
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* after it is asserted. It is possible that an overlapping R/J will
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* not be detected, but any legal (non-overlapping) R/J will be
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* detected properly. Should be a combinatorial input.
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*/
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input flush,
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/*
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* The input bits from the PMA. The @bits[1] should be the
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* oldest bit. If only one bit is valid, then @bits[1] will be
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* considered valid. There cannot be more than two valid bits in one
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* cycle.
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*/
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input [1:0] bits, bits_valid,
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/*
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* Whether there was activity detected, as defined by 24.2.4.4.1. When
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* this signal is asserted, then @unaligned contains valid code groups
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* (such as /I/J/).
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*/
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output reg activity,
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/*
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* Whether there are at least 10 1s in the input buffer, aligned
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* or unaligned. This signal may be used to detect the end of a carrier
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* event, as defined by 24.2.4.4.2.
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*/
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output reg idle,
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/*
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* Whether @aligned contains valid code groups. This signal will be
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* asserted (on average) every 5 clock cycles, and can be used as
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* a clock enable.
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*/
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output reg indicate,
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/*
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* The output bits from the alignment process. Despite the name, both
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* code groups are aligned. @unaligned assumes that we are not
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* receiving and tries to detect a new start of stream. @aligned
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* assumes that we are receiving and bases the alignment of its code
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* group off of a previous start of stream.
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*/
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output reg [9:0] aligned, unaligned
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);
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reg activity_next, idle_next, indicate_next;
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reg [9:0] aligned_next, unaligned_next;
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/* A shift buffer containing the previous values of @bits. */
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reg [9:0] buffer, buffer_next;
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initial buffer = { `CODE_I, `CODE_I };
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/*
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* The buffer combined with the new bits (e.g. the total set of bits we
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* have to work with)
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*/
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wire [11:0] raw_bits = { buffer, bits };
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/* buffer_next before being shifted by bits_valid */
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reg [11:0] buffer_next_raw;
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/*
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* The number of bits left to receive for the current code group.
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* A value of 0 (or 1 if @bits_valid is 2) indicates that the current
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* code group will be finished this cycle, and that @indicate_next will be
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* set.
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*/
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reg [2:0] bits_remaining, bits_remaining_next;
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initial bits_remaining = 4;
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/*
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* Whether the last unaligned code group had an "extra" valid bit. If
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* this was the case, then the buffer will already contain an extra
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* valid bit of the next code group.
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*/
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reg extra, extra_next;
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/* Detect an IJ pair (or a false carrier) */
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function start_ij(input [9:0] bits);
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start_ij = !(&bits[9:2]) && !bits[0];
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endfunction
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always @(*) begin
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idle_next = idle;
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if (bits_valid != 0)
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idle_next = &raw_bits[10:1];
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if (bits_valid & 2)
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idle_next = idle_next || &raw_bits[9:0];
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buffer_next_raw = raw_bits;
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if (flush)
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buffer_next_raw = { 9'h1FF, extra ? buffer[0] : 1'b1, bits };
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/* buffer_next = buffer_next_raw << bits_valid */
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if (bits_valid == 0)
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buffer_next = buffer_next_raw[11:2];
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else if (bits_valid == 1)
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buffer_next = buffer_next_raw[10:1];
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else
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buffer_next = buffer_next_raw[9:0];
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/* bits_remaining_next = (bits_remaining - bits_valid) % 5 */
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if (bits_valid > bits_remaining)
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bits_remaining_next = 5 + bits_remaining - bits_valid;
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else
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bits_remaining_next = bits_remaining - bits_valid;
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if (start)
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bits_remaining_next = 4 - bits_valid - extra;
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/* indicate = bits_remaining < bits_remaining_next */
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indicate_next = 0;
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if (bits_valid != 0)
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indicate_next = bits_remaining == 0;
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if (bits_valid & 2)
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indicate_next = indicate_next || bits_remaining == 1;
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/*
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* If we are re-aligning, then indicate will not be valid
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* (since it is using the old alignment). There should always
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* be at least 3 clock cycles between indicates, so it's safe
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* to just ignore it.
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*/
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if (start)
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indicate_next = 0;
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aligned_next = raw_bits[10:1];
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if (bits_valid & 2 && bits_remaining & 1)
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aligned_next = raw_bits[9:0];
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activity_next = 0;
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extra_next = 0;
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unaligned_next = raw_bits[10:1];
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if (bits_valid == 1) begin
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activity_next = start_ij(raw_bits[10:1]);
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end else if (bits_valid & 2) begin
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if (start_ij(raw_bits[10:1])) begin
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activity_next = 1;
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extra_next = 1;
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end else if (start_ij(raw_bits[9:0])) begin
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activity_next = 1;
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unaligned_next = raw_bits[9:0];
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end
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end
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/*
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* If we are flushing then activity is based on stale data.
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* Ignore it so we don't accidentally detect activity for data
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* we are going to flush anyway.
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*/
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if (flush)
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activity_next = 0;
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end
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always @(posedge clk) begin
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buffer <= buffer_next;
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bits_remaining <= bits_remaining_next;
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extra <= extra_next;
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activity <= activity_next;
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idle <= idle_next;
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indicate <= indicate_next;
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aligned <= aligned_next;
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unaligned <= unaligned_next;
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end
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endmodule
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/* Receive process */
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module pcs_rx (
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/* MII */
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input clk,
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output reg ce,
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output reg valid,
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output reg [3:0] data,
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output reg err,
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/* PMA */
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input [1:0] bits,
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input [1:0] bits_valid,
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input link_status,
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/* Internal */
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output reg rx
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);
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localparam IDLE = 0;
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localparam START_J = 1;
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localparam START_K = 2;
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localparam BAD_SSD = 3;
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localparam DATA = 4;
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localparam PREMATURE = 5;
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localparam FAILED = 6;
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reg start, flush;
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wire activity, idle, indicate;
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wire [9:0] aligned, unaligned;
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reg [3:0] data_next;
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reg ce_next, valid_next, err_next;
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reg [2:0] state, state_next;
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initial state = IDLE;
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/* Whether we are aligned and receiving */
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reg rx_next;
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pcs_rx_bits rx_bits (
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.clk(clk),
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.start(start),
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.flush(flush),
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.bits(bits),
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.bits_valid(bits_valid),
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.activity(activity),
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.idle(idle),
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.indicate(indicate),
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.aligned(aligned),
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.unaligned(unaligned)
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);
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always @(*) begin
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case (aligned[9:5])
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`CODE_0: data_next = 4'h0;
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`CODE_1: data_next = 4'h1;
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`CODE_2: data_next = 4'h2;
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`CODE_3: data_next = 4'h3;
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`CODE_4: data_next = 4'h4;
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`CODE_5: data_next = 4'h5;
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`CODE_6: data_next = 4'h6;
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`CODE_7: data_next = 4'h7;
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`CODE_8: data_next = 4'h8;
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`CODE_9: data_next = 4'h9;
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`CODE_A: data_next = 4'hA;
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`CODE_B: data_next = 4'hB;
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`CODE_C: data_next = 4'hC;
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`CODE_D: data_next = 4'hD;
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`CODE_E: data_next = 4'hE;
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`CODE_F: data_next = 4'hF;
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`CODE_J: data_next = 4'h5;
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`CODE_K: data_next = 4'h5;
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/* This doesn't do anything :( */
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default: data_next = 4'hX;
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endcase
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start = 0;
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/*
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* XXX: flush (unlike everything else here) is combinatorial;
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* we should only flush if we are actually evaluating the
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* state.
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*/
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flush = 0;
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rx_next = rx;
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ce_next = indicate;
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state_next = state;
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valid_next = valid;
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err_next = 0;
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`define BAD_SSD begin \
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state_next = BAD_SSD; \
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data_next = 4'b1110; \
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err_next = 1; \
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end
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case (state)
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/* These two states evaluate continuously */
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IDLE: begin
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rx_next = 0;
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valid_next = 0;
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if (activity) begin
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start = 1;
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rx_next = 1;
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ce_next = 0;
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if (unaligned == { `CODE_I, `CODE_J })
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state_next = START_J;
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else
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`BAD_SSD;
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end
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end
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BAD_SSD: begin
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`BAD_SSD;
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if (idle)
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state_next = IDLE;
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end
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/* These states transition only on indicate */
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START_J: begin
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if (aligned[4:0] == `CODE_K) begin
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state_next = START_K;
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valid_next = 1;
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end else
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`BAD_SSD;
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if (!indicate)
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state_next = START_J;
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end
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START_K: begin
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if (indicate)
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state_next = DATA;
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end
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DATA: begin
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case (aligned[9:5])
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`CODE_0,
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`CODE_1,
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`CODE_2,
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`CODE_3,
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`CODE_4,
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`CODE_5,
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`CODE_6,
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`CODE_7,
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`CODE_8,
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`CODE_9,
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`CODE_A,
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`CODE_B,
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`CODE_C,
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`CODE_D,
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`CODE_E,
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`CODE_F:
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;
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`CODE_T:
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if (aligned[4:0] == `CODE_R) begin
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if (indicate)
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flush = 1;
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state_next = IDLE;
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valid_next = 0;
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end else begin
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err_next = 1;
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end
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`CODE_I: begin
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err_next = 1;
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if (aligned[4:0] == `CODE_I)
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state_next = PREMATURE;
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end
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default:
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err_next = 1;
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endcase
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if (!indicate)
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state_next = DATA;
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end
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PREMATURE: begin
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valid_next = 0;
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if (indicate)
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state_next = IDLE;
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end
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FAILED: begin
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err_next = 1;
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rx_next = 0;
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if (indicate)
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state_next = IDLE;
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end
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endcase
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if (!link_status) begin
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flush = 1;
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if (indicate && valid_next) begin
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state_next = FAILED;
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err_next = 1;
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end else begin
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state_next = IDLE;
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end
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end
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end
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always @(posedge clk) begin
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rx <= rx_next;
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state <= state_next;
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ce <= ce_next;
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if (ce_next) begin
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data <= data_next;
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valid <= valid_next;
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err <= err_next;
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end
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end
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`ifndef SYNTHESIS
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wire [4:0] aligned_hi = aligned[9:5];
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wire [4:0] aligned_lo = aligned[4:0];
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wire [4:0] unaligned_hi = unaligned[9:5];
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wire [4:0] unaligned_lo = unaligned[4:0];
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reg [255:0] state_text;
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always @(*) begin
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case (state)
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IDLE: state_text = "IDLE";
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START_J: state_text = "START_J";
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START_K: state_text = "START_K";
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BAD_SSD: state_text = "BAD_SSD";
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DATA: state_text = "DATA";
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PREMATURE: state_text = "PREMATURE";
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FAILED: state_text = "FAILED";
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endcase
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end
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`endif
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endmodule
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