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[/] [ha1588/] [trunk/] [rtl/] [tsu/] [ptp_parser.v] - Rev 73
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/* * ptp_parser.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 ptp_parser ( input clk, rst, input [31:0] int_data, input int_valid, input int_sop, input int_eop, input [ 1:0] int_mod, input [ 7:0] ptp_msgid_mask, output reg ptp_found, output reg [31:0] ptp_infor ); // constant values parameter c_vlan_tpid_1 = 16'h8100; parameter c_vlan_tpid_2 = 16'h88a8; parameter c_vlan_tpid_3 = 16'h9100; parameter c_mpls_type_1 = 16'h8847; parameter c_mpls_type_2 = 16'h8848; parameter c_ipv4_type = 16'h0800; parameter c_ipv6_type = 16'h86dd; parameter c_ptp2_type = 16'h88f7; parameter c_ptp4_port_1 = 16'h013f; parameter c_ptp4_port_2 = 16'h0140; // buffer data input reg [31:0] int_data_d1; always @(posedge rst or posedge clk) begin if (rst) begin int_data_d1 <= 32'h00000000; end else begin if (int_valid) begin int_data_d1 <= int_data; end end end // packet parser: counter reg [ 9:0] int_cnt, bypass_ipv4_cnt, bypass_ipv6_cnt, bypass_udp_cnt, ptp_cnt; reg bypass_vlan, ptp_l2, bypass_mpls, bypass_ipv4, bypass_ipv6, found_udp, bypass_udp, ptp_l4, ptp_event; always @(posedge rst or posedge clk) begin if (rst) begin int_cnt <= 10'd0; bypass_ipv4_cnt <= 10'd0; bypass_ipv6_cnt <= 10'd0; bypass_udp_cnt <= 10'd0; end else begin if (int_valid && int_sop) int_cnt <= 10'd0; else if (int_valid) int_cnt <= int_cnt + 10'd1 - bypass_vlan - bypass_mpls - (bypass_ipv4 || bypass_ipv6 || bypass_udp); if (int_valid && int_sop) bypass_ipv4_cnt <= 10'd0; else if (int_valid && bypass_ipv4) bypass_ipv4_cnt <= bypass_ipv4_cnt + 10'd1; if (int_valid && int_sop) bypass_ipv6_cnt <= 10'd0; else if (int_valid && bypass_ipv6) bypass_ipv6_cnt <= bypass_ipv6_cnt + 10'd1; if (int_valid && int_sop) bypass_udp_cnt <= 10'd0; else if (int_valid && bypass_udp) bypass_udp_cnt <= bypass_udp_cnt + 10'd1; if (int_valid && int_sop) ptp_cnt <= 10'd0; else if (int_valid && (ptp_l2 || (bypass_udp_cnt>=10'd2 && ptp_l4))) ptp_cnt <= ptp_cnt + 10'd1; end end // packet parser: comparator always @(posedge rst or posedge clk) begin if (rst) begin bypass_vlan <= 1'b0; bypass_mpls <= 1'b0; bypass_ipv4 <= 1'b0; bypass_ipv6 <= 1'b0; found_udp <= 1'b0; bypass_udp <= 1'b0; ptp_l2 <= 1'b0; ptp_l4 <= 1'b0; ptp_event <= 1'b0; end else if (int_valid && int_sop) begin bypass_vlan <= 1'b0; bypass_mpls <= 1'b0; bypass_ipv4 <= 1'b0; bypass_ipv6 <= 1'b0; found_udp <= 1'b0; bypass_udp <= 1'b0; ptp_l2 <= 1'b0; ptp_l4 <= 1'b0; ptp_event <= 1'b0; end else begin // bypass vlan if (int_valid && int_cnt==10'd4 && (int_data[31:16]==c_vlan_tpid_1 || int_data[31:16]==c_vlan_tpid_2 || int_data[31:16]==c_vlan_tpid_3)) // ether_type == vlan bypass_vlan <= 1'b1; else if (int_valid && int_cnt==10'd5 && (int_data[31:16]==c_vlan_tpid_1 || int_data[31:16]==c_vlan_tpid_2 || int_data[31:16]==c_vlan_tpid_3) && bypass_vlan) // vlan_type == vlan bypass_vlan <= 1'b1; else if (int_valid && bypass_vlan) bypass_vlan <= 1'b0; // bypass mpls if (int_valid && (int_cnt==10'd4 || bypass_vlan && int_cnt==10'd5) && (int_data[31:16]==c_mpls_type_1 || int_data[31:16]==c_mpls_type_2)) // ether_type == mpls bypass_mpls <= 1'b1; else if (int_valid && int_cnt==10'd5 && bypass_mpls && int_data[24]==1'b0) // bottom of label stack == 0 bypass_mpls <= 1'b1; else if (int_valid && bypass_mpls) bypass_mpls <= 1'b0; // bypass ipv4 if (int_valid && (int_cnt==10'd4 || (bypass_vlan || bypass_mpls) && int_cnt==10'd5) && bypass_ipv4_cnt==10'd0 && (int_data[31:16]==c_ipv4_type || bypass_mpls) && int_data[15:12]==4'h4) // ether_type == ipv4, ip_version == 4 bypass_ipv4 <= 1'b1; else if (int_valid && bypass_ipv4_cnt==10'd4) bypass_ipv4 <= 1'b0; // bypass ipv6 if (int_valid && (int_cnt==10'd4 || (bypass_vlan || bypass_mpls) && int_cnt==10'd5) && bypass_ipv6_cnt==10'd0 && (int_data[31:16]==c_ipv6_type || bypass_mpls) && int_data[15:12]==4'h6) // ether_type == ipv6, ip_version == 6 bypass_ipv6 <= 1'b1; else if (int_valid && bypass_ipv6_cnt==10'd9) bypass_ipv6 <= 1'b0; // check if it is udp if (int_valid && bypass_ipv4_cnt==10'd1 && int_data[ 7: 0]== 8'h11) // ipv4_protocol == udp found_udp <= 1'b1; else if (int_valid && bypass_ipv6_cnt==10'd1 && int_data[31:24]== 8'h11) // ipv6_protocol == udp found_udp <= 1'b1; // bypass udp if (int_valid && bypass_ipv4_cnt==10'd4 && bypass_udp_cnt==10'd0 && found_udp) // ipv4_udp bypass_udp <= 1'b1; else if (int_valid && bypass_ipv6_cnt==10'd9 && bypass_udp_cnt==10'd0 && found_udp) // ipv6_udp bypass_udp <= 1'b1; else if (int_valid && bypass_udp_cnt==10'd2) bypass_udp <= 1'b0; // check if it is L2 PTP if (int_valid && (int_cnt==10'd4 || bypass_vlan && int_cnt==10'd5) && int_data[31:16]==c_ptp2_type) // ether_type == ptp ptp_l2 <= 1'b1; // check if it is L4 PTP if (int_valid && bypass_udp_cnt==10'd0 && bypass_udp && (int_data[31:16]==c_ptp4_port_1 || int_data[31:16]==c_ptp4_port_2)) // udp_dest_port == ptp_event || ptp_general ptp_l4 <= 1'b1; // check if it is PTP Event message if (int_valid && (int_cnt==10'd4 || bypass_vlan && int_cnt==10'd5) && int_data[31:16]==c_ptp2_type && (ptp_msgid_mask[int_data[11: 8]])) // ptp_message_id == ptp_event ptp_event <= 1'b1; else if (int_valid && int_cnt==10'd5 && bypass_udp_cnt==10'd1 && ptp_l4 && (ptp_msgid_mask[int_data[11: 8]])) // ptp_message_id == ptp_event ptp_event <= 1'b1; end end // ptp message reg [31:0] ptp_data; reg [ 3:0] ptp_msgid; reg [15:0] ptp_seqid; reg [11:0] ptp_cksum; always @(posedge rst or posedge clk) begin if (rst) begin ptp_data <= 32'd0; ptp_msgid <= 4'd0; ptp_seqid <= 16'd0; ptp_cksum <= 12'd0; end else if (int_valid && int_sop) begin ptp_data <= 32'd0; ptp_msgid <= 4'd0; ptp_seqid <= 16'd0; ptp_cksum <= 12'd0; end else begin // get PTP identification information as additional information to Timestamp // ptp message body if (int_valid && (ptp_l2 || (bypass_udp_cnt>=10'd2 && ptp_l4))) ptp_data <= {int_data_d1[15:0], int_data[31:16]}; // message id if (int_valid && ptp_cnt==10'd1) ptp_msgid <= ptp_data[27:24]; // sequence id if (int_valid && ptp_cnt==10'd8) ptp_seqid <= ptp_data[15:0]; // sum up clock id and source port id if (int_valid && ptp_cnt==10'd6) ptp_cksum <= ptp_data[31:24] + ptp_data[23:16] + ptp_data[15: 8] + ptp_data[ 7: 0] + ptp_cksum; if (int_valid && ptp_cnt==10'd7) ptp_cksum <= ptp_data[31:24] + ptp_data[23:16] + ptp_data[15: 8] + ptp_data[ 7: 0] + ptp_cksum; if (int_valid && ptp_cnt==10'd8) ptp_cksum <= ptp_data[31:24] + ptp_data[23:16] + ptp_cksum; end end // parser output always @(posedge rst or posedge clk) begin if (rst) begin ptp_found <= 1'b0; ptp_infor <= 32'd0; end else if (int_valid && int_sop) begin ptp_found <= 1'b0; ptp_infor <= 32'd0; end else if (int_valid && ptp_cnt==10'd9) begin ptp_found <= ptp_event; ptp_infor <= {ptp_msgid, ptp_cksum, ptp_seqid}; // 4+12+16 end end endmodule
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