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verilog-ethernet/rtl/ip_demux.v

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Convert generated ip_demux to verilog parametrized module
2018-11-02 00:25:23 -07:00
/*
Copyright (c) 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.
*/
// Language: Verilog 2001
`timescale 1ns / 1ps
/*
* IP demultiplexer
*/
module ip_demux #
(
parameter M_COUNT = 4,
parameter DATA_WIDTH = 8,
parameter KEEP_ENABLE = (DATA_WIDTH>8),
parameter KEEP_WIDTH = (DATA_WIDTH/8),
parameter ID_ENABLE = 0,
parameter ID_WIDTH = 8,
parameter DEST_ENABLE = 0,
parameter DEST_WIDTH = 8,
parameter USER_ENABLE = 1,
parameter USER_WIDTH = 1
)
(
input wire clk,
input wire rst,
/*
* IP frame input
*/
input wire s_ip_hdr_valid,
output wire s_ip_hdr_ready,
input wire [47:0] s_eth_dest_mac,
input wire [47:0] s_eth_src_mac,
input wire [15:0] s_eth_type,
input wire [3:0] s_ip_version,
input wire [3:0] s_ip_ihl,
input wire [5:0] s_ip_dscp,
input wire [1:0] s_ip_ecn,
input wire [15:0] s_ip_length,
input wire [15:0] s_ip_identification,
input wire [2:0] s_ip_flags,
input wire [12:0] s_ip_fragment_offset,
input wire [7:0] s_ip_ttl,
input wire [7:0] s_ip_protocol,
input wire [15:0] s_ip_header_checksum,
input wire [31:0] s_ip_source_ip,
input wire [31:0] s_ip_dest_ip,
input wire [DATA_WIDTH-1:0] s_ip_payload_axis_tdata,
input wire [KEEP_WIDTH-1:0] s_ip_payload_axis_tkeep,
input wire s_ip_payload_axis_tvalid,
output wire s_ip_payload_axis_tready,
input wire s_ip_payload_axis_tlast,
input wire [ID_WIDTH-1:0] s_ip_payload_axis_tid,
input wire [DEST_WIDTH-1:0] s_ip_payload_axis_tdest,
input wire [USER_WIDTH-1:0] s_ip_payload_axis_tuser,
/*
* IP frame outputs
*/
output wire [M_COUNT-1:0] m_ip_hdr_valid,
input wire [M_COUNT-1:0] m_ip_hdr_ready,
output wire [M_COUNT*48-1:0] m_eth_dest_mac,
output wire [M_COUNT*48-1:0] m_eth_src_mac,
output wire [M_COUNT*16-1:0] m_eth_type,
output wire [M_COUNT*4-1:0] m_ip_version,
output wire [M_COUNT*4-1:0] m_ip_ihl,
output wire [M_COUNT*6-1:0] m_ip_dscp,
output wire [M_COUNT*2-1:0] m_ip_ecn,
output wire [M_COUNT*16-1:0] m_ip_length,
output wire [M_COUNT*16-1:0] m_ip_identification,
output wire [M_COUNT*3-1:0] m_ip_flags,
output wire [M_COUNT*13-1:0] m_ip_fragment_offset,
output wire [M_COUNT*8-1:0] m_ip_ttl,
output wire [M_COUNT*8-1:0] m_ip_protocol,
output wire [M_COUNT*16-1:0] m_ip_header_checksum,
output wire [M_COUNT*32-1:0] m_ip_source_ip,
output wire [M_COUNT*32-1:0] m_ip_dest_ip,
output wire [M_COUNT*DATA_WIDTH-1:0] m_ip_payload_axis_tdata,
output wire [M_COUNT*KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep,
output wire [M_COUNT-1:0] m_ip_payload_axis_tvalid,
input wire [M_COUNT-1:0] m_ip_payload_axis_tready,
output wire [M_COUNT-1:0] m_ip_payload_axis_tlast,
output wire [M_COUNT*ID_WIDTH-1:0] m_ip_payload_axis_tid,
output wire [M_COUNT*DEST_WIDTH-1:0] m_ip_payload_axis_tdest,
output wire [M_COUNT*USER_WIDTH-1:0] m_ip_payload_axis_tuser,
/*
* Control
*/
input wire enable,
input wire drop,
input wire [$clog2(M_COUNT)-1:0] select
);
parameter CL_M_COUNT = $clog2(M_COUNT);
reg [CL_M_COUNT-1:0] select_reg = {CL_M_COUNT{1'b0}}, select_ctl, select_next;
reg drop_reg = 1'b0, drop_ctl, drop_next;
reg frame_reg = 1'b0, frame_ctl, frame_next;
reg s_ip_hdr_ready_reg = 1'b0, s_ip_hdr_ready_next;
reg s_ip_payload_axis_tready_reg = 1'b0, s_ip_payload_axis_tready_next;
reg [M_COUNT-1:0] m_ip_hdr_valid_reg = 0, m_ip_hdr_valid_next;
reg [47:0] m_eth_dest_mac_reg = 48'd0, m_eth_dest_mac_next;
reg [47:0] m_eth_src_mac_reg = 48'd0, m_eth_src_mac_next;
reg [15:0] m_eth_type_reg = 16'd0, m_eth_type_next;
reg [3:0] m_ip_version_reg = 4'd0, m_ip_version_next;
reg [3:0] m_ip_ihl_reg = 4'd0, m_ip_ihl_next;
reg [5:0] m_ip_dscp_reg = 6'd0, m_ip_dscp_next;
reg [1:0] m_ip_ecn_reg = 2'd0, m_ip_ecn_next;
reg [15:0] m_ip_length_reg = 16'd0, m_ip_length_next;
reg [15:0] m_ip_identification_reg = 16'd0, m_ip_identification_next;
reg [2:0] m_ip_flags_reg = 3'd0, m_ip_flags_next;
reg [12:0] m_ip_fragment_offset_reg = 13'd0, m_ip_fragment_offset_next;
reg [7:0] m_ip_ttl_reg = 8'd0, m_ip_ttl_next;
reg [7:0] m_ip_protocol_reg = 8'd0, m_ip_protocol_next;
reg [15:0] m_ip_header_checksum_reg = 16'd0, m_ip_header_checksum_next;
reg [31:0] m_ip_source_ip_reg = 32'd0, m_ip_source_ip_next;
reg [31:0] m_ip_dest_ip_reg = 32'd0, m_ip_dest_ip_next;
// internal datapath
reg [DATA_WIDTH-1:0] m_ip_payload_axis_tdata_int;
reg [KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep_int;
reg [M_COUNT-1:0] m_ip_payload_axis_tvalid_int;
reg m_ip_payload_axis_tready_int_reg = 1'b0;
reg m_ip_payload_axis_tlast_int;
reg [ID_WIDTH-1:0] m_ip_payload_axis_tid_int;
reg [DEST_WIDTH-1:0] m_ip_payload_axis_tdest_int;
reg [USER_WIDTH-1:0] m_ip_payload_axis_tuser_int;
wire m_ip_payload_axis_tready_int_early;
assign s_ip_hdr_ready = s_ip_hdr_ready_reg && enable;
assign s_ip_payload_axis_tready = s_ip_payload_axis_tready_reg && enable;
assign m_ip_hdr_valid = m_ip_hdr_valid_reg;
assign m_eth_dest_mac = {M_COUNT{m_eth_dest_mac_reg}};
assign m_eth_src_mac = {M_COUNT{m_eth_src_mac_reg}};
assign m_eth_type = {M_COUNT{m_eth_type_reg}};
assign m_ip_version = {M_COUNT{m_ip_version_reg}};
assign m_ip_ihl = {M_COUNT{m_ip_ihl_reg}};
assign m_ip_dscp = {M_COUNT{m_ip_dscp_reg}};
assign m_ip_ecn = {M_COUNT{m_ip_ecn_reg}};
assign m_ip_length = {M_COUNT{m_ip_length_reg}};
assign m_ip_identification = {M_COUNT{m_ip_identification_reg}};
assign m_ip_flags = {M_COUNT{m_ip_flags_reg}};
assign m_ip_fragment_offset = {M_COUNT{m_ip_fragment_offset_reg}};
assign m_ip_ttl = {M_COUNT{m_ip_ttl_reg}};
assign m_ip_protocol = {M_COUNT{m_ip_protocol_reg}};
assign m_ip_header_checksum = {M_COUNT{m_ip_header_checksum_reg}};
assign m_ip_source_ip = {M_COUNT{m_ip_source_ip_reg}};
assign m_ip_dest_ip = {M_COUNT{m_ip_dest_ip_reg}};
integer i;
always @* begin
select_next = select_reg;
select_ctl = select_reg;
drop_next = drop_reg;
drop_ctl = drop_reg;
frame_next = frame_reg;
frame_ctl = frame_reg;
s_ip_hdr_ready_next = 1'b0;
s_ip_payload_axis_tready_next = 1'b0;
m_ip_hdr_valid_next = m_ip_hdr_valid_reg & ~m_ip_hdr_ready;
m_eth_dest_mac_next = m_eth_dest_mac_reg;
m_eth_src_mac_next = m_eth_src_mac_reg;
m_eth_type_next = m_eth_type_reg;
m_ip_version_next = m_ip_version_reg;
m_ip_ihl_next = m_ip_ihl_reg;
m_ip_dscp_next = m_ip_dscp_reg;
m_ip_ecn_next = m_ip_ecn_reg;
m_ip_length_next = m_ip_length_reg;
m_ip_identification_next = m_ip_identification_reg;
m_ip_flags_next = m_ip_flags_reg;
m_ip_fragment_offset_next = m_ip_fragment_offset_reg;
m_ip_ttl_next = m_ip_ttl_reg;
m_ip_protocol_next = m_ip_protocol_reg;
m_ip_header_checksum_next = m_ip_header_checksum_reg;
m_ip_source_ip_next = m_ip_source_ip_reg;
m_ip_dest_ip_next = m_ip_dest_ip_reg;
if (s_ip_payload_axis_tvalid && s_ip_payload_axis_tready) begin
// end of frame detection
if (s_ip_payload_axis_tlast) begin
frame_next = 1'b0;
drop_next = 1'b0;
end
end
if (!frame_reg && s_ip_hdr_valid && s_ip_hdr_ready) begin
// start of frame, grab select value
select_ctl = select;
drop_ctl = drop;
frame_ctl = 1'b1;
select_next = select_ctl;
drop_next = drop_ctl;
frame_next = frame_ctl;
s_ip_hdr_ready_next = 1'b0;
m_ip_hdr_valid_next = (!drop_ctl) << select_ctl;
m_eth_dest_mac_next = s_eth_dest_mac;
m_eth_src_mac_next = s_eth_src_mac;
m_eth_type_next = s_eth_type;
m_ip_version_next = s_ip_version;
m_ip_ihl_next = s_ip_ihl;
m_ip_dscp_next = s_ip_dscp;
m_ip_ecn_next = s_ip_ecn;
m_ip_length_next = s_ip_length;
m_ip_identification_next = s_ip_identification;
m_ip_flags_next = s_ip_flags;
m_ip_fragment_offset_next = s_ip_fragment_offset;
m_ip_ttl_next = s_ip_ttl;
m_ip_protocol_next = s_ip_protocol;
m_ip_header_checksum_next = s_ip_header_checksum;
m_ip_source_ip_next = s_ip_source_ip;
m_ip_dest_ip_next = s_ip_dest_ip;
end
s_ip_hdr_ready_next = !frame_next && !m_ip_hdr_valid_next;
s_ip_payload_axis_tready_next = (m_ip_payload_axis_tready_int_early || drop_ctl) && frame_ctl;
m_ip_payload_axis_tdata_int = s_ip_payload_axis_tdata;
m_ip_payload_axis_tkeep_int = s_ip_payload_axis_tkeep;
m_ip_payload_axis_tvalid_int = (s_ip_payload_axis_tvalid && s_ip_payload_axis_tready && !drop_ctl) << select_ctl;
m_ip_payload_axis_tlast_int = s_ip_payload_axis_tlast;
m_ip_payload_axis_tid_int = s_ip_payload_axis_tid;
m_ip_payload_axis_tdest_int = s_ip_payload_axis_tdest;
m_ip_payload_axis_tuser_int = s_ip_payload_axis_tuser;
end
always @(posedge clk) begin
if (rst) begin
select_reg <= 2'd0;
drop_reg <= 1'b0;
frame_reg <= 1'b0;
s_ip_hdr_ready_reg <= 1'b0;
s_ip_payload_axis_tready_reg <= 1'b0;
m_ip_hdr_valid_reg <= 0;
end else begin
select_reg <= select_next;
drop_reg <= drop_next;
frame_reg <= frame_next;
s_ip_hdr_ready_reg <= s_ip_hdr_ready_next;
s_ip_payload_axis_tready_reg <= s_ip_payload_axis_tready_next;
m_ip_hdr_valid_reg <= m_ip_hdr_valid_next;
end
m_eth_dest_mac_reg <= m_eth_dest_mac_next;
m_eth_src_mac_reg <= m_eth_src_mac_next;
m_eth_type_reg <= m_eth_type_next;
m_ip_version_reg <= m_ip_version_next;
m_ip_ihl_reg <= m_ip_ihl_next;
m_ip_dscp_reg <= m_ip_dscp_next;
m_ip_ecn_reg <= m_ip_ecn_next;
m_ip_length_reg <= m_ip_length_next;
m_ip_identification_reg <= m_ip_identification_next;
m_ip_flags_reg <= m_ip_flags_next;
m_ip_fragment_offset_reg <= m_ip_fragment_offset_next;
m_ip_ttl_reg <= m_ip_ttl_next;
m_ip_protocol_reg <= m_ip_protocol_next;
m_ip_header_checksum_reg <= m_ip_header_checksum_next;
m_ip_source_ip_reg <= m_ip_source_ip_next;
m_ip_dest_ip_reg <= m_ip_dest_ip_next;
end
// output datapath logic
reg [DATA_WIDTH-1:0] m_ip_payload_axis_tdata_reg = {DATA_WIDTH{1'b0}};
reg [KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep_reg = {KEEP_WIDTH{1'b0}};
reg [M_COUNT-1:0] m_ip_payload_axis_tvalid_reg = {M_COUNT{1'b0}}, m_ip_payload_axis_tvalid_next;
reg m_ip_payload_axis_tlast_reg = 1'b0;
reg [ID_WIDTH-1:0] m_ip_payload_axis_tid_reg = {ID_WIDTH{1'b0}};
reg [DEST_WIDTH-1:0] m_ip_payload_axis_tdest_reg = {DEST_WIDTH{1'b0}};
reg [USER_WIDTH-1:0] m_ip_payload_axis_tuser_reg = {USER_WIDTH{1'b0}};
reg [DATA_WIDTH-1:0] temp_m_ip_payload_axis_tdata_reg = {DATA_WIDTH{1'b0}};
reg [KEEP_WIDTH-1:0] temp_m_ip_payload_axis_tkeep_reg = {KEEP_WIDTH{1'b0}};
reg [M_COUNT-1:0] temp_m_ip_payload_axis_tvalid_reg = {M_COUNT{1'b0}}, temp_m_ip_payload_axis_tvalid_next;
reg temp_m_ip_payload_axis_tlast_reg = 1'b0;
reg [ID_WIDTH-1:0] temp_m_ip_payload_axis_tid_reg = {ID_WIDTH{1'b0}};
reg [DEST_WIDTH-1:0] temp_m_ip_payload_axis_tdest_reg = {DEST_WIDTH{1'b0}};
reg [USER_WIDTH-1:0] temp_m_ip_payload_axis_tuser_reg = {USER_WIDTH{1'b0}};
// datapath control
reg store_axis_int_to_output;
reg store_axis_int_to_temp;
reg store_ip_payload_axis_temp_to_output;
assign m_ip_payload_axis_tdata = {M_COUNT{m_ip_payload_axis_tdata_reg}};
assign m_ip_payload_axis_tkeep = KEEP_ENABLE ? {M_COUNT{m_ip_payload_axis_tkeep_reg}} : {M_COUNT*KEEP_WIDTH{1'b1}};
assign m_ip_payload_axis_tvalid = m_ip_payload_axis_tvalid_reg;
assign m_ip_payload_axis_tlast = {M_COUNT{m_ip_payload_axis_tlast_reg}};
assign m_ip_payload_axis_tid = ID_ENABLE ? {M_COUNT{m_ip_payload_axis_tid_reg}} : {M_COUNT*ID_WIDTH{1'b0}};
assign m_ip_payload_axis_tdest = DEST_ENABLE ? {M_COUNT{m_ip_payload_axis_tdest_reg}} : {M_COUNT*DEST_WIDTH{1'b0}};
assign m_ip_payload_axis_tuser = USER_ENABLE ? {M_COUNT{m_ip_payload_axis_tuser_reg}} : {M_COUNT*USER_WIDTH{1'b0}};
// enable ready input next cycle if output is ready or the temp reg will not be filled on the next cycle (output reg empty or no input)
assign m_ip_payload_axis_tready_int_early = (m_ip_payload_axis_tready & m_ip_payload_axis_tvalid) || (!temp_m_ip_payload_axis_tvalid_reg && (!m_ip_payload_axis_tvalid || !m_ip_payload_axis_tvalid_int));
always @* begin
// transfer sink ready state to source
m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_reg;
temp_m_ip_payload_axis_tvalid_next = temp_m_ip_payload_axis_tvalid_reg;
store_axis_int_to_output = 1'b0;
store_axis_int_to_temp = 1'b0;
store_ip_payload_axis_temp_to_output = 1'b0;
if (m_ip_payload_axis_tready_int_reg) begin
// input is ready
if ((m_ip_payload_axis_tready & m_ip_payload_axis_tvalid) || !m_ip_payload_axis_tvalid) begin
// output is ready or currently not valid, transfer data to output
m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_int;
store_axis_int_to_output = 1'b1;
end else begin
// output is not ready, store input in temp
temp_m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_int;
store_axis_int_to_temp = 1'b1;
end
end else if (m_ip_payload_axis_tready & m_ip_payload_axis_tvalid) begin
// input is not ready, but output is ready
m_ip_payload_axis_tvalid_next = temp_m_ip_payload_axis_tvalid_reg;
temp_m_ip_payload_axis_tvalid_next = 1'b0;
store_ip_payload_axis_temp_to_output = 1'b1;
end
end
always @(posedge clk) begin
if (rst) begin
m_ip_payload_axis_tvalid_reg <= {M_COUNT{1'b0}};
m_ip_payload_axis_tready_int_reg <= 1'b0;
temp_m_ip_payload_axis_tvalid_reg <= 1'b0;
end else begin
m_ip_payload_axis_tvalid_reg <= m_ip_payload_axis_tvalid_next;
m_ip_payload_axis_tready_int_reg <= m_ip_payload_axis_tready_int_early;
temp_m_ip_payload_axis_tvalid_reg <= temp_m_ip_payload_axis_tvalid_next;
end
// datapath
if (store_axis_int_to_output) begin
m_ip_payload_axis_tdata_reg <= m_ip_payload_axis_tdata_int;
m_ip_payload_axis_tkeep_reg <= m_ip_payload_axis_tkeep_int;
m_ip_payload_axis_tlast_reg <= m_ip_payload_axis_tlast_int;
m_ip_payload_axis_tid_reg <= m_ip_payload_axis_tid_int;
m_ip_payload_axis_tdest_reg <= m_ip_payload_axis_tdest_int;
m_ip_payload_axis_tuser_reg <= m_ip_payload_axis_tuser_int;
end else if (store_ip_payload_axis_temp_to_output) begin
m_ip_payload_axis_tdata_reg <= temp_m_ip_payload_axis_tdata_reg;
m_ip_payload_axis_tkeep_reg <= temp_m_ip_payload_axis_tkeep_reg;
m_ip_payload_axis_tlast_reg <= temp_m_ip_payload_axis_tlast_reg;
m_ip_payload_axis_tid_reg <= temp_m_ip_payload_axis_tid_reg;
m_ip_payload_axis_tdest_reg <= temp_m_ip_payload_axis_tdest_reg;
m_ip_payload_axis_tuser_reg <= temp_m_ip_payload_axis_tuser_reg;
end
if (store_axis_int_to_temp) begin
temp_m_ip_payload_axis_tdata_reg <= m_ip_payload_axis_tdata_int;
temp_m_ip_payload_axis_tkeep_reg <= m_ip_payload_axis_tkeep_int;
temp_m_ip_payload_axis_tlast_reg <= m_ip_payload_axis_tlast_int;
temp_m_ip_payload_axis_tid_reg <= m_ip_payload_axis_tid_int;
temp_m_ip_payload_axis_tdest_reg <= m_ip_payload_axis_tdest_int;
temp_m_ip_payload_axis_tuser_reg <= m_ip_payload_axis_tuser_int;
end
end
endmodule
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