///////////////////////////////////////////////////////////////////// // // Copyright 2018 Ettus Research, A National Instruments Company // // SPDX-License-Identifier: LGPL-3.0-or-later // // Module: chdr_deframer_2clk // Description: // - Takes a sample stream in and uses the tuser input to frame // a CHDR packet which is output by the module // samples at the output // ///////////////////////////////////////////////////////////////////// module chdr_deframer_2clk #( parameter WIDTH = 32 // 32 and 64 bits supported ) ( input samp_clk, input samp_rst, input pkt_clk, input pkt_rst, input [63:0] i_tdata, input i_tlast, input i_tvalid, output i_tready, output [WIDTH-1:0] o_tdata, output [127:0] o_tuser, output o_tlast, output o_tvalid, input o_tready ); localparam [1:0] ST_HEAD = 2'd0; localparam [1:0] ST_TIME = 2'd1; localparam [1:0] ST_BODY = 2'd2; reg [1:0] chdr_state; wire [127:0] hdr_i_tuser, hdr_o_tuser; wire hdr_i_tvalid, hdr_i_tready; wire hdr_o_tvalid, hdr_o_tready; wire [63:0] body_i_tdata, body_o_tdata; wire body_i_tlast, body_o_tlast; wire body_i_tvalid, body_o_tvalid; wire body_i_tready, body_o_tready; wire has_time = i_tdata[61]; reg [63:0] held_i_tdata; reg second_half; assign body_i_tdata = i_tdata; assign body_i_tlast = i_tlast; assign body_i_tvalid = (chdr_state == ST_BODY) ? i_tvalid : 1'b0; assign hdr_i_tuser = (chdr_state == ST_HEAD) ? { i_tdata, i_tdata } : { held_i_tdata, i_tdata }; // 2nd half ignored if no time assign hdr_i_tvalid = (chdr_state == ST_TIME) ? i_tvalid : ((chdr_state == ST_HEAD) & ~has_time) ? i_tvalid : 1'b0; assign i_tready = (chdr_state == ST_BODY) ? body_i_tready : hdr_i_tready; // FIXME handle packets with no body always @(posedge pkt_clk) begin if (pkt_rst) begin chdr_state <= ST_HEAD; end else begin case(chdr_state) ST_HEAD: if (i_tvalid & hdr_i_tready) if (has_time) begin chdr_state <= ST_TIME; held_i_tdata <= i_tdata; end else begin chdr_state <= ST_BODY; end ST_TIME: if (i_tvalid & hdr_i_tready) chdr_state <= ST_BODY; ST_BODY: if (i_tvalid & body_i_tready & i_tlast) chdr_state <= ST_HEAD; endcase end end wire pkt_rst_stretch; pulse_stretch #(.SCALE('d10)) pkt_reset_i ( .clk(pkt_clk), .rst(1'b0), .pulse(pkt_rst), .pulse_stretched(pkt_rst_stretch) ); axi_fifo_2clk #(.WIDTH(128), .SIZE(5)) hdr_fifo_i ( .i_aclk(pkt_clk), .o_aclk(samp_clk), .reset(pkt_rst_stretch), .i_tdata(hdr_i_tuser), .i_tvalid(hdr_i_tvalid), .i_tready(hdr_i_tready), .o_tdata(hdr_o_tuser), .o_tvalid(hdr_o_tvalid), .o_tready(hdr_o_tready) ); axi_fifo_2clk #(.WIDTH(65), .SIZE(9)) body_fifo ( .i_aclk(pkt_clk), .o_aclk(samp_clk), .reset(pkt_rst_stretch), .i_tdata({body_i_tlast, body_i_tdata}), .i_tvalid(body_i_tvalid), .i_tready(body_i_tready), .o_tdata({body_o_tlast, body_o_tdata}), .o_tvalid(body_o_tvalid), .o_tready(body_o_tready) ); wire odd_len = hdr_o_tuser[98] ^ |hdr_o_tuser[97:96]; generate if (WIDTH == 32) begin : gen_32bit_output // 32-bit Output always @(posedge samp_clk) begin if(samp_rst) begin second_half <= 1'b0; end else begin if(o_tvalid & o_tready) begin if(o_tlast) second_half <= 1'b0; else second_half <= ~second_half; end end end assign o_tdata = second_half ? body_o_tdata[WIDTH-1:0] : body_o_tdata[(2*WIDTH)-1:WIDTH]; assign o_tlast = body_o_tlast & (second_half | odd_len); assign o_tuser = hdr_o_tuser; assign o_tvalid = hdr_o_tvalid & body_o_tvalid; assign hdr_o_tready = o_tvalid & o_tready & o_tlast; assign body_o_tready = o_tvalid & o_tready & (o_tlast | second_half); end else begin : gen_64bit_output // 64-bit Output assign o_tdata = body_o_tdata; assign o_tlast = body_o_tlast; assign o_tuser = hdr_o_tuser; assign o_tvalid = hdr_o_tvalid & body_o_tvalid; assign hdr_o_tready = o_tvalid & o_tready & o_tlast; assign body_o_tready = o_tvalid & o_tready; end endgenerate endmodule