// The input FIFO contents should be 16 bits wide // The first word is 1 for fast path (accelerated protocol) // 0 for software implemented protocol // The second word is the number of bytes in the packet, // and must be valid even if we are in slow path mode // Odd means the last word is half full // Flags[1:0] is {eop, sop} // Protocol word format is: // 19 Last Header Line // 18 IP Header Checksum XOR // 17 IP Length Here // 16 UDP Length Here // 15:0 data word to be sent module prot_eng_tx #(parameter BASE=0) (input clk, input reset, input clear, input set_stb, input [7:0] set_addr, input [31:0] set_data, input [18:0] datain, input src_rdy_i, output dst_rdy_o, output [18:0] dataout, output src_rdy_o, input dst_rdy_i); wire [2:0] flags_i = datain[18:16]; reg [15:0] dataout_int; reg fast_path, sof_o; wire [2:0] flags_o = {flags_i[2], flags_i[1], sof_o}; // OCC, EOF, SOF assign dataout = {flags_o[2:0], dataout_int[15:0]}; reg [4:0] state; wire do_payload = (state == 31); assign dst_rdy_o = dst_rdy_i & (do_payload | (state==0) | (state==1) | (state==30)); assign src_rdy_o = src_rdy_i & ~((state==0) | (state==1) | (state==30)); localparam HDR_WIDTH = 16 + 4; // 16 bits plus flags localparam HDR_LEN = 32; // Up to 64 bytes of protocol // Store header values in a small dual-port (distributed) ram reg [HDR_WIDTH-1:0] header_ram[0:HDR_LEN-1]; wire [HDR_WIDTH-1:0] header_word; always @(posedge clk) if(set_stb & ((set_addr & 8'hE0) == BASE)) header_ram[set_addr[4:0]] <= set_data; assign header_word = header_ram[state]; wire last_hdr_line = header_word[19]; wire ip_chk = header_word[18]; wire ip_len = header_word[17]; wire udp_len = header_word[16]; // Protocol State Machine reg [15:0] length; wire [15:0] ip_length = length + 28; // IP HDR + UDP HDR wire [15:0] udp_length = length + 8; // UDP HDR always @(posedge clk) if(reset) begin state <= 0; fast_path <= 0; sof_o <= 0; end else if(src_rdy_i & dst_rdy_i) case(state) 0 : begin fast_path <= datain[0]; state <= 1; end 1 : begin length <= datain[15:0]; sof_o <= 1; if(fast_path) state <= 2; else state <= 30; // Skip 1 word for alignment end 30 : state <= 31; 31 : begin sof_o <= 0; if(flags_i[1]) // eop state <= 0; end default : begin sof_o <= 0; if(~last_hdr_line) state <= state + 1; else state <= 31; end endcase // case (state) wire [15:0] checksum; add_onescomp #(.WIDTH(16)) add_onescomp (.A(header_word[15:0]),.B(ip_length),.SUM(checksum)); always @* if(ip_chk) //dataout_int <= header_word[15:0] ^ ip_length; dataout_int <= 16'hFFFF ^ checksum; else if(ip_len) dataout_int <= ip_length; else if(udp_len) dataout_int <= udp_length; else if(do_payload) dataout_int <= datain[15:0]; else dataout_int <= header_word[15:0]; endmodule // prot_eng_tx