// NOTE: Will not work with single-line frames module ethrx_realign (input clk, input reset, input clear, input [35:0] datain, input src_rdy_i, output dst_rdy_o, output [35:0] dataout, output src_rdy_o, input dst_rdy_i); reg [1:0] state; reg [15:0] held; reg [1:0] held_occ; wire xfer_in = src_rdy_i & dst_rdy_o; wire xfer_out = src_rdy_o & dst_rdy_i; wire sof_in = datain[32]; wire eof_in = datain[33]; wire [1:0] occ_in = datain[35:34]; wire sof_out, eof_out; wire [1:0] occ_out; always @(posedge clk) if(reset | clear) begin held <= 0; held_occ <= 0; end else if(xfer_in) begin held <= datain[15:0]; held_occ <= datain[35:34]; end localparam RE_IDLE = 0; localparam RE_HELD = 1; localparam RE_DONE = 2; always @(posedge clk) if(reset | clear) state <= RE_IDLE; else case(state) RE_IDLE : if(src_rdy_i & dst_rdy_i) if(eof_in) state <= RE_DONE; else state <= RE_HELD; RE_HELD : if(src_rdy_i & dst_rdy_i & eof_in) if((occ_in==0)|(occ_in==3)) state <= RE_DONE; else state <= RE_IDLE; RE_DONE : if(dst_rdy_i) state <= RE_IDLE; endcase // case (state) assign sof_out = (state == RE_IDLE); assign eof_out = (state == RE_DONE) | (occ_in == 1) | (occ_in == 2); assign occ_out = (state == RE_DONE) ? ((held_occ == 3) ? 1 : 2) : (occ_in == 1) ? 3 : 0; assign dataout = {occ_out,eof_out,sof_out,held,datain[31:16]}; assign src_rdy_o = (state == RE_DONE) | src_rdy_i; assign dst_rdy_o = dst_rdy_i & ((state == RE_IDLE)|(state == RE_HELD)); endmodule // ethrx_realign