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[/] [ha1588/] [trunk/] [rtl/] [tsu/] [tsu.v] - Rev 70
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/* * tsu.v * * Copyright (c) 2012, BABY&HW. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301 USA */ `timescale 1ns/1ns module tsu ( input rst, input gmii_clk, input gmii_ctrl, input [7:0] gmii_data, input giga_mode, input [7:0] ptp_msgid_mask, input rtc_timer_clk, input [79:0] rtc_timer_in, // timeStamp1s_48bit + timeStamp1ns_32bit input q_rst, input q_rd_clk, input q_rd_en, output [ 7:0] q_rd_stat, output [127:0] q_rd_data // null_16bit + timeStamp1s_48bit + timeStamp1ns_32bit + msgId_4bit + ckSum_12bit + seqId_16bit ); // mii to gmii converter reg nibble_h; always @(posedge rst or posedge gmii_clk) begin if (rst) nibble_h <= 1'b0; else if (gmii_ctrl) nibble_h <= !nibble_h; end reg gmii_ctrl_conv; reg [7:0] gmii_data_conv; always @(posedge rst or posedge gmii_clk) begin if (rst) begin gmii_ctrl_conv <= 1'b0; gmii_data_conv <= 8'd0; end else begin if (giga_mode) begin gmii_ctrl_conv <= gmii_ctrl; gmii_data_conv[7:0] <= gmii_data[7:0]; end else begin // 4b-8b datapath gearbox if (gmii_ctrl) begin gmii_ctrl_conv <= ( nibble_h)? 1'b1:1'b0; gmii_data_conv[7:4] <= ( nibble_h)? gmii_data[3:0]:gmii_data_conv[7:4]; gmii_data_conv[3:0] <= (!nibble_h)? gmii_data[3:0]:gmii_data_conv[3:0]; end else begin gmii_ctrl_conv <= 1'b0; gmii_data_conv[7:4] <= gmii_data_conv[7:4]; gmii_data_conv[3:0] <= gmii_data_conv[3:0]; end end end end // buffer gmii input reg gmii_ctrl_conv_d1, gmii_ctrl_conv_d2, gmii_ctrl_conv_d3, gmii_ctrl_conv_d4, gmii_ctrl_conv_d5, gmii_ctrl_conv_d6, gmii_ctrl_conv_d7, gmii_ctrl_conv_d8, gmii_ctrl_conv_d9, gmii_ctrl_conv_da; reg [7:0] gmii_data_conv_d1, gmii_data_conv_d2, gmii_data_conv_d3, gmii_data_conv_d4, gmii_data_conv_d5, gmii_data_conv_d6, gmii_data_conv_d7, gmii_data_conv_d8, gmii_data_conv_d9, gmii_data_conv_da; always @(posedge rst or posedge gmii_clk) begin if (rst) begin gmii_ctrl_conv_d1 <= 1'b0; gmii_ctrl_conv_d2 <= 1'b0; gmii_ctrl_conv_d3 <= 1'b0; gmii_ctrl_conv_d4 <= 1'b0; gmii_ctrl_conv_d5 <= 1'b0; gmii_ctrl_conv_d6 <= 1'b0; gmii_ctrl_conv_d7 <= 1'b0; gmii_ctrl_conv_d8 <= 1'b0; gmii_ctrl_conv_d9 <= 1'b0; gmii_ctrl_conv_da <= 1'b0; gmii_data_conv_d1 <= 8'd0; gmii_data_conv_d2 <= 8'd0; gmii_data_conv_d3 <= 8'd0; gmii_data_conv_d4 <= 8'd0; gmii_data_conv_d5 <= 8'd0; gmii_data_conv_d6 <= 8'd0; gmii_data_conv_d7 <= 8'd0; gmii_data_conv_d8 <= 8'd0; gmii_data_conv_d9 <= 8'd0; gmii_data_conv_da <= 8'd0; end else begin gmii_ctrl_conv_d1 <= gmii_ctrl_conv; gmii_ctrl_conv_d2 <= gmii_ctrl_conv_d1; gmii_ctrl_conv_d3 <= gmii_ctrl_conv_d2; gmii_ctrl_conv_d4 <= gmii_ctrl_conv_d3; gmii_ctrl_conv_d5 <= gmii_ctrl_conv_d4; gmii_ctrl_conv_d6 <= gmii_ctrl_conv_d5; gmii_ctrl_conv_d7 <= gmii_ctrl_conv_d6; gmii_ctrl_conv_d8 <= gmii_ctrl_conv_d7; gmii_ctrl_conv_d9 <= gmii_ctrl_conv_d8; gmii_ctrl_conv_da <= gmii_ctrl_conv_d9; gmii_data_conv_d1 <= gmii_data_conv; gmii_data_conv_d2 <= gmii_data_conv_d1; gmii_data_conv_d3 <= gmii_data_conv_d2; gmii_data_conv_d4 <= gmii_data_conv_d3; gmii_data_conv_d5 <= gmii_data_conv_d4; gmii_data_conv_d6 <= gmii_data_conv_d5; gmii_data_conv_d7 <= gmii_data_conv_d6; gmii_data_conv_d8 <= gmii_data_conv_d7; gmii_data_conv_d9 <= gmii_data_conv_d8; gmii_data_conv_da <= gmii_data_conv_d9; end end // choose buffered gmii input reg int_gmii_ctrl; reg int_gmii_ctrl_d1, int_gmii_ctrl_d2, int_gmii_ctrl_d3, int_gmii_ctrl_d4, int_gmii_ctrl_d5; reg [7:0] int_gmii_data; reg [7:0] int_gmii_data_d1, int_gmii_data_d2, int_gmii_data_d3, int_gmii_data_d4, int_gmii_data_d5; always @(posedge rst or posedge gmii_clk) begin if (rst) begin int_gmii_ctrl <= 1'b0; int_gmii_data <= 8'h00; int_gmii_ctrl_d1 <= 1'b0; int_gmii_data_d1 <= 8'h00; int_gmii_ctrl_d2 <= 1'b0; int_gmii_data_d2 <= 8'h00; int_gmii_ctrl_d3 <= 1'b0; int_gmii_data_d3 <= 8'h00; int_gmii_ctrl_d4 <= 1'b0; int_gmii_data_d4 <= 8'h00; int_gmii_ctrl_d5 <= 1'b0; int_gmii_data_d5 <= 8'h00; end else begin if (giga_mode) begin int_gmii_ctrl <= gmii_ctrl_conv; int_gmii_data <= gmii_data_conv; int_gmii_ctrl_d1 <= gmii_ctrl_conv_d1; int_gmii_data_d1 <= gmii_data_conv_d1; int_gmii_ctrl_d2 <= gmii_ctrl_conv_d2; int_gmii_data_d2 <= gmii_data_conv_d2; int_gmii_ctrl_d3 <= gmii_ctrl_conv_d3; int_gmii_data_d3 <= gmii_data_conv_d3; int_gmii_ctrl_d4 <= gmii_ctrl_conv_d4; int_gmii_data_d4 <= gmii_data_conv_d4; int_gmii_ctrl_d5 <= gmii_ctrl_conv_d5; int_gmii_data_d5 <= gmii_data_conv_d5; end else begin int_gmii_ctrl <= gmii_ctrl_conv; int_gmii_data <= gmii_data_conv; int_gmii_ctrl_d1 <= gmii_ctrl_conv_d2; int_gmii_data_d1 <= gmii_data_conv_d2; int_gmii_ctrl_d2 <= gmii_ctrl_conv_d4; int_gmii_data_d2 <= gmii_data_conv_d4; int_gmii_ctrl_d3 <= gmii_ctrl_conv_d6; int_gmii_data_d3 <= gmii_data_conv_d6; int_gmii_ctrl_d4 <= gmii_ctrl_conv_d8; int_gmii_data_d4 <= gmii_data_conv_d8; int_gmii_ctrl_d5 <= gmii_ctrl_conv_da; int_gmii_data_d5 <= gmii_data_conv_da; end end end // ptp CDC time stamping wire ts_req = int_gmii_ctrl; // TODO: check frame start delimiter reg ts_req_d1, ts_req_d2, ts_req_d3; always @(posedge rst or posedge rtc_timer_clk) begin if (rst) begin ts_req_d1 <= 1'b0; ts_req_d2 <= 1'b0; ts_req_d3 <= 1'b0; end else begin ts_req_d1 <= ts_req; ts_req_d2 <= ts_req_d1; ts_req_d3 <= ts_req_d2; end end reg [79:0] rtc_time_stamp; always @(posedge rst or posedge rtc_timer_clk) begin if (rst) rtc_time_stamp <= 80'd0; else if (ts_req_d2 & !ts_req_d3) rtc_time_stamp <= rtc_timer_in; end reg ts_ack, ts_ack_clr; always @(posedge ts_ack_clr or posedge rtc_timer_clk) begin if (ts_ack_clr) ts_ack <= 1'b0; else if (ts_req_d2 & !ts_req_d3) ts_ack <= 1'b1; end reg ts_ack_d1, ts_ack_d2, ts_ack_d3; always @(posedge rst or posedge gmii_clk) begin if (rst) begin ts_ack_d1 <= 1'b0; ts_ack_d2 <= 1'b0; ts_ack_d3 <= 1'b0; end else begin ts_ack_d1 <= ts_ack; ts_ack_d2 <= ts_ack_d1; ts_ack_d3 <= ts_ack_d2; end end reg [79:0] tsu_time_stamp; always @(posedge rst or posedge gmii_clk) begin if (rst) begin tsu_time_stamp <= 80'd0; ts_ack_clr <= 1'b0; end else begin if (ts_ack_d2 & !ts_ack_d3) begin tsu_time_stamp <= rtc_time_stamp; ts_ack_clr <= 1'b1; end else begin tsu_time_stamp <= tsu_time_stamp; ts_ack_clr <= 1'b0; end end end // 8b-32b datapath gearbox reg int_valid; reg int_sop, int_eop; reg [ 1:0] int_bcnt, int_mod; reg [31:0] int_data; always @(posedge rst or posedge gmii_clk) begin if (rst) int_bcnt <= 2'd0; else if ( int_gmii_ctrl & !int_gmii_ctrl_d1) int_bcnt <= 2'd0; // clear on sop else if ( int_gmii_ctrl) int_bcnt <= int_bcnt + 2'd1; // increment else if (!int_gmii_ctrl & int_gmii_ctrl_d3 & (int_bcnt!=2'd0)) int_bcnt <= int_bcnt + 2'd1; // end on eop with mod end always @(posedge rst or posedge gmii_clk) begin if (rst) begin int_data <= 32'd0; int_valid <= 1'b0; int_mod <= 2'd0; end else begin if (int_gmii_ctrl) begin int_data[ 7: 0] <= (int_bcnt==2'd3)? int_gmii_data_d1:int_data[ 7: 0]; int_data[15: 8] <= (int_bcnt==2'd2)? int_gmii_data_d1:int_data[15: 8]; int_data[23:16] <= (int_bcnt==2'd1)? int_gmii_data_d1:int_data[23:16]; int_data[31:24] <= (int_bcnt==2'd0)? int_gmii_data_d1:int_data[31:24]; end if (int_gmii_ctrl & int_bcnt==2'd3) int_valid <= 1'b1; else int_valid <= 1'b0; if (int_gmii_ctrl_d1 & !int_gmii_ctrl_d2) int_mod <= 2'd0; else if (!int_gmii_ctrl_d1 & int_gmii_ctrl_d2) int_mod <= int_bcnt; if (int_gmii_ctrl_d4 & !int_gmii_ctrl_d5 & int_bcnt==2'd3) int_sop <= 1'b1; else int_sop <= 1'b0; if (!int_gmii_ctrl & int_gmii_ctrl_d3 & int_bcnt==2'd3) int_eop <= 1'b1; else int_eop <= 1'b0; end end reg [31:0] int_data_d1; reg int_valid_d1; reg int_sop_d1; reg int_eop_d1; reg [ 1:0] int_mod_d1; always @(posedge rst or posedge gmii_clk) begin if (rst) begin int_data_d1 <= 32'h00000000; int_valid_d1 <= 1'b0; int_sop_d1 <= 1'b0; int_eop_d1 <= 1'b0; int_mod_d1 <= 2'b00; end else begin if (int_valid) begin int_data_d1 <= int_data; int_mod_d1 <= int_mod; end int_valid_d1 <= int_valid; int_sop_d1 <= int_sop; int_eop_d1 <= int_eop; end end // ptp packet parser here // works at 1/4 gmii_clk frequency, needs multicycle timing constraint wire ptp_found; wire [31:0] ptp_infor; ptp_parser parser( .clk(gmii_clk), .rst(rst), .int_data(int_data_d1), .int_valid(int_valid_d1), .int_sop(int_sop_d1), .int_eop(int_eop_d1), .int_mod(int_mod_d1), .ptp_msgid_mask(ptp_msgid_mask), .ptp_found(ptp_found), .ptp_infor(ptp_infor) ); // ptp time stamp dcfifo wire q_wr_clk = gmii_clk; wire q_wr_en = ptp_found && int_eop_d1; wire [127:0] q_wr_data = {16'd0, tsu_time_stamp, ptp_infor}; // 16+80+32 bit wire [3:0] q_wrusedw; wire [3:0] q_rdusedw; wire q_wr_full; wire q_rd_empty; ptp_queue queue( .aclr(q_rst), .wrclk(q_wr_clk), .wrreq(q_wr_en && !q_wr_full), // write with overflow protection .data(q_wr_data), .wrfull(q_wr_full), .wrusedw(q_wrusedw), .rdclk(q_rd_clk), .rdreq(q_rd_en && !q_rd_empty), // read with underflow protection .q(q_rd_data), .rdempty(q_rd_empty), .rdusedw(q_rdusedw) ); assign q_rd_stat = {4'd0, q_rdusedw}; endmodule
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