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axis_gmii_rx.sv
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axis_gmii_rx.sv
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/*
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.
origin https://github.com/alexforencich/verilog-ethernet.git
commit ebe31e811cee9db615a7d5ec8472f972f3368b90
Author: Alex Forencich <[email protected]>
Date: Thu Nov 8 13:15:47 2018 -0800
Modified by Jonathan Kimmitt to extract CRC bytes
lfsr submodule renamed rgmii_lfsr to avoid name clash with main project
*/
// Language: Verilog 2001
/*
* AXI4-Stream GMII frame receiver (GMII in, AXI out)
*/
module axis_gmii_rx
(
input wire clk,
input wire rst,
/*
* GMII input
*/
input wire [7:0] gmii_rxd,
input wire gmii_rx_dv,
input wire gmii_rx_er,
/*
* AXI output
*/
output wire [7:0] m_axis_tdata,
output wire m_axis_tvalid,
output wire m_axis_tlast,
output wire m_axis_tuser,
/*
* Control
*/
input wire clk_enable,
input wire mii_select,
/*
* Status
*/
output wire error_bad_frame,
output wire error_bad_fcs,
/* debug */
output reg [31:0] fcs_reg
);
localparam [7:0]
ETH_PRE = 8'h55,
ETH_SFD = 8'hD5;
localparam [2:0]
STATE_IDLE = 3'd0,
STATE_PAYLOAD = 3'd1,
STATE_WAIT_LAST = 3'd2,
STATE_CRC = 3'd3;
reg [2:0] state_reg, state_next;
// datapath control signals
reg reset_crc;
reg update_crc;
reg mii_odd;
reg mii_locked;
reg [7:0] gmii_rxd_d0;
reg [7:0] gmii_rxd_d1;
reg [7:0] gmii_rxd_d2;
reg [7:0] gmii_rxd_d3;
reg [7:0] gmii_rxd_d4;
reg gmii_rx_dv_d0;
reg gmii_rx_dv_d1;
reg gmii_rx_dv_d2;
reg gmii_rx_dv_d3;
reg gmii_rx_dv_d4;
reg gmii_rx_er_d0;
reg gmii_rx_er_d1;
reg gmii_rx_er_d2;
reg gmii_rx_er_d3;
reg gmii_rx_er_d4;
reg [7:0] m_axis_tdata_reg, m_axis_tdata_next;
reg m_axis_tvalid_reg, m_axis_tvalid_next;
reg m_axis_tlast_reg, m_axis_tlast_next;
reg m_axis_tuser_reg, m_axis_tuser_next;
reg error_bad_frame_reg, error_bad_frame_next;
reg error_bad_fcs_reg, error_bad_fcs_next;
reg [31:0] fcs_next;
reg [31:0] crc_state;
reg [1:0] crc_cnt, crc_cnt_next;
wire [31:0] crc_next;
assign m_axis_tdata = m_axis_tdata_reg;
assign m_axis_tvalid = m_axis_tvalid_reg;
assign m_axis_tlast = m_axis_tlast_reg;
assign m_axis_tuser = m_axis_tuser_reg;
assign error_bad_frame = error_bad_frame_reg;
assign error_bad_fcs = error_bad_fcs_reg;
rgmii_lfsr #(
.LFSR_WIDTH(32),
.LFSR_POLY(32'h4c11db7),
.LFSR_CONFIG("GALOIS"),
.LFSR_FEED_FORWARD(0),
.REVERSE(1),
.DATA_WIDTH(8),
.STYLE("AUTO")
)
eth_crc_8 (
.data_in(gmii_rxd_d4),
.state_in(crc_state),
.data_out(),
.state_out(crc_next)
);
always @* begin
state_next = STATE_IDLE;
reset_crc = 1'b0;
update_crc = 1'b0;
m_axis_tdata_next = 8'd0;
m_axis_tvalid_next = 1'b0;
m_axis_tlast_next = 1'b0;
m_axis_tuser_next = 1'b0;
error_bad_frame_next = 1'b0;
error_bad_fcs_next = 1'b0;
fcs_next = fcs_reg;
crc_cnt_next = crc_cnt;
if (!clk_enable) begin
// clock disabled - hold state
state_next = state_reg;
end else if (mii_select && !mii_odd) begin
// MII even cycle - hold state
state_next = state_reg;
end else begin
case (state_reg)
STATE_IDLE: begin
// idle state - wait for packet
reset_crc = 1'b1;
if (gmii_rx_dv_d4 && !gmii_rx_er_d4 && gmii_rxd_d4 == ETH_SFD) begin
state_next = STATE_PAYLOAD;
end else begin
state_next = STATE_IDLE;
end
end
STATE_PAYLOAD: begin
// read payload
update_crc = 1'b1;
m_axis_tdata_next = gmii_rxd_d4;
m_axis_tvalid_next = 1'b1;
if (gmii_rx_dv_d4 && gmii_rx_er_d4) begin
// error
m_axis_tlast_next = 1'b1;
m_axis_tuser_next = 1'b1;
error_bad_frame_next = 1'b1;
fcs_next = 32'HDEADBEEF;
state_next = STATE_WAIT_LAST;
end else if (!gmii_rx_dv) begin
// end of packet
if (gmii_rx_er_d0 || gmii_rx_er_d1 || gmii_rx_er_d2 || gmii_rx_er_d3) begin
// error received in FCS bytes
m_axis_tuser_next = 1'b1;
error_bad_frame_next = 1'b1;
end else if ({gmii_rxd_d0, gmii_rxd_d1, gmii_rxd_d2, gmii_rxd_d3} == ~crc_next) begin
// FCS good
m_axis_tuser_next = 1'b0;
end else begin
// FCS bad
m_axis_tuser_next = 1'b1;
error_bad_frame_next = 1'b1;
error_bad_fcs_next = 1'b1;
end
crc_cnt_next = 2'b0;
state_next = STATE_CRC;
end else begin
state_next = STATE_PAYLOAD;
end
end
STATE_CRC: begin
// wait for CRC
update_crc = 1'b1;
m_axis_tdata_next = gmii_rxd_d4;
m_axis_tvalid_next = 1'b1;
crc_cnt_next = crc_cnt + 1;
if (&crc_cnt) begin
// end of packet + CRC bytes
fcs_next = crc_next;
m_axis_tlast_next = 1'b1;
state_next = STATE_IDLE;
end else begin
fcs_next = 32'b0;
state_next = STATE_CRC;
end
end
STATE_WAIT_LAST: begin
// wait for end of packet
if (~gmii_rx_dv) begin
state_next = STATE_IDLE;
end else begin
state_next = STATE_WAIT_LAST;
end
end
default:;
endcase
end
end
always @(posedge clk) begin
if (rst) begin
state_reg <= STATE_IDLE;
m_axis_tvalid_reg <= 1'b0;
error_bad_frame_reg <= 1'b0;
error_bad_fcs_reg <= 1'b0;
fcs_reg <= 32'hFFFFFFFF;
crc_state <= 32'hFFFFFFFF;
crc_cnt <= 2'b0;
mii_locked <= 1'b0;
mii_odd <= 1'b0;
gmii_rx_dv_d0 <= 1'b0;
gmii_rx_dv_d1 <= 1'b0;
gmii_rx_dv_d2 <= 1'b0;
gmii_rx_dv_d3 <= 1'b0;
gmii_rx_dv_d4 <= 1'b0;
end else begin
state_reg <= state_next;
m_axis_tvalid_reg <= m_axis_tvalid_next;
error_bad_frame_reg <= error_bad_frame_next;
error_bad_fcs_reg <= error_bad_fcs_next;
fcs_reg <= fcs_next;
crc_cnt <= crc_cnt_next;
// datapath
if (reset_crc) begin
crc_state <= 32'hFFFFFFFF;
end else if (update_crc) begin
crc_state <= crc_next;
end
if (clk_enable) begin
if (mii_select) begin
mii_odd <= !mii_odd;
if (mii_locked) begin
mii_locked <= gmii_rx_dv;
end else if (gmii_rx_dv && {gmii_rxd[3:0], gmii_rxd_d0[7:4]} == ETH_SFD) begin
mii_locked <= 1'b1;
mii_odd <= 1'b1;
end
if (mii_odd) begin
gmii_rx_dv_d0 <= gmii_rx_dv & gmii_rx_dv_d0;
gmii_rx_dv_d1 <= gmii_rx_dv_d0 & gmii_rx_dv;
gmii_rx_dv_d2 <= gmii_rx_dv_d1 & gmii_rx_dv;
gmii_rx_dv_d3 <= gmii_rx_dv_d2 & gmii_rx_dv;
gmii_rx_dv_d4 <= gmii_rx_dv_d3 & gmii_rx_dv;
end else begin
gmii_rx_dv_d0 <= gmii_rx_dv;
end
end else begin
gmii_rx_dv_d0 <= gmii_rx_dv;
gmii_rx_dv_d1 <= gmii_rx_dv_d0 & gmii_rx_dv;
gmii_rx_dv_d2 <= gmii_rx_dv_d1 & gmii_rx_dv;
gmii_rx_dv_d3 <= gmii_rx_dv_d2 & gmii_rx_dv;
gmii_rx_dv_d4 <= gmii_rx_dv_d3 & gmii_rx_dv;
end
end
end
m_axis_tdata_reg <= m_axis_tdata_next;
m_axis_tlast_reg <= m_axis_tlast_next;
m_axis_tuser_reg <= m_axis_tuser_next;
// delay input
if (clk_enable) begin
if (mii_select) begin
gmii_rxd_d0 <= {gmii_rxd[3:0], gmii_rxd_d0[7:4]};
if (mii_odd) begin
gmii_rxd_d1 <= gmii_rxd_d0;
gmii_rxd_d2 <= gmii_rxd_d1;
gmii_rxd_d3 <= gmii_rxd_d2;
gmii_rxd_d4 <= gmii_rxd_d3;
gmii_rx_er_d0 <= gmii_rx_er | gmii_rx_er_d0;
gmii_rx_er_d1 <= gmii_rx_er_d0;
gmii_rx_er_d2 <= gmii_rx_er_d1;
gmii_rx_er_d3 <= gmii_rx_er_d2;
gmii_rx_er_d4 <= gmii_rx_er_d3;
end else begin
gmii_rx_er_d0 <= gmii_rx_er;
end
end else begin
gmii_rxd_d0 <= gmii_rxd;
gmii_rxd_d1 <= gmii_rxd_d0;
gmii_rxd_d2 <= gmii_rxd_d1;
gmii_rxd_d3 <= gmii_rxd_d2;
gmii_rxd_d4 <= gmii_rxd_d3;
gmii_rx_er_d0 <= gmii_rx_er;
gmii_rx_er_d1 <= gmii_rx_er_d0;
gmii_rx_er_d2 <= gmii_rx_er_d1;
gmii_rx_er_d3 <= gmii_rx_er_d2;
gmii_rx_er_d4 <= gmii_rx_er_d3;
end
end
end
endmodule