module gen_context_pkt #(parameter PROT_ENG_FLAGS=1) (input clk, input reset, input clear, input trigger, output sent, input [31:0] streamid, input [63:0] vita_time, input [31:0] message, input [31:0] seqnum, output [35:0] data_o, output src_rdy_o, input dst_rdy_i); localparam CTXT_IDLE = 0; localparam CTXT_PROT_ENG = 1; localparam CTXT_HEADER = 2; localparam CTXT_STREAMID = 3; localparam CTXT_SECS = 4; localparam CTXT_TICS = 5; localparam CTXT_TICS2 = 6; localparam CTXT_MESSAGE = 7; localparam CTXT_FLOWCTRL = 8; localparam CTXT_DONE = 9; reg [33:0] data_int; wire src_rdy_int, dst_rdy_int; reg [3:0] seqno; reg [3:0] ctxt_state; reg [63:0] err_time; reg [31:0] stored_message; always @(posedge clk) if(reset | clear) stored_message <= 0; else if(trigger) stored_message <= message; else if(ctxt_state == CTXT_DONE) stored_message <= 0; // Don't want to clear most of this to avoid getting stuck with a half packet in the pipe always @(posedge clk) if(reset) begin ctxt_state <= CTXT_IDLE; seqno <= 0; end else case(ctxt_state) CTXT_IDLE : if(trigger) begin err_time <= vita_time; if(PROT_ENG_FLAGS) ctxt_state <= CTXT_PROT_ENG; else ctxt_state <= CTXT_HEADER; end CTXT_DONE : begin ctxt_state <= CTXT_IDLE; seqno <= seqno + 4'd1; end default : if(dst_rdy_int) ctxt_state <= ctxt_state + 1; endcase // case (ctxt_state) assign src_rdy_int = ~( (ctxt_state == CTXT_IDLE) | (ctxt_state == CTXT_DONE) ); always @* case(ctxt_state) CTXT_PROT_ENG : data_int <= { 2'b01, 16'd1, 16'd32 }; CTXT_HEADER : data_int <= { 1'b0, (PROT_ENG_FLAGS ? 1'b0 : 1'b1), 12'b010100001101, seqno, 16'd7 }; CTXT_STREAMID : data_int <= { 2'b00, streamid }; CTXT_SECS : data_int <= { 2'b00, err_time[63:32] }; CTXT_TICS : data_int <= { 2'b00, 32'd0 }; CTXT_TICS2 : data_int <= { 2'b00, err_time[31:0] }; CTXT_MESSAGE : data_int <= { 2'b00, message }; CTXT_FLOWCTRL : data_int <= { 2'b10, seqnum }; default : data_int <= {2'b00, 32'b00}; endcase // case (ctxt_state) fifo_short #(.WIDTH(34)) ctxt_fifo (.clk(clk), .reset(reset), .clear(0), .datain(data_int), .src_rdy_i(src_rdy_int), .dst_rdy_o(dst_rdy_int), .dataout(data_o[33:0]), .src_rdy_o(src_rdy_o), .dst_rdy_i(dst_rdy_i)); assign data_o[35:34] = 2'b00; endmodule // gen_context_pkt