// RX side of flow control -- when we are running out of RX space, send a PAUSE module flow_ctrl_rx (input rst, //host processor input pause_frame_send_en, input [15:0] pause_quanta_set, input [15:0] fc_hwmark, input [15:0] fc_lwmark, // From MAC_rx_ctrl input rx_clk, input [15:0] rx_fifo_space, // MAC_tx_ctrl input tx_clk, output reg xoff_gen, output reg xon_gen, input xoff_gen_complete, input xon_gen_complete ); // ****************************************************************************** // Force our TX to send a PAUSE frame because our RX is nearly full // ****************************************************************************** reg xon_int, xoff_int; reg [21:0] countdown; always @(posedge rx_clk or posedge rst) if(rst) begin xon_int <= 0; xoff_int <= 0; end else begin xon_int <= 0; xoff_int <= 0; if(pause_frame_send_en) if(countdown == 0) if(rx_fifo_space < fc_lwmark) xoff_int <= 1; else ; else if(rx_fifo_space > fc_hwmark) xon_int <= 1; end // else: !if(rst) reg xoff_int_d1, xon_int_d1; always @(posedge rx_clk) xon_int_d1 <= xon_int; always @(posedge rx_clk) xoff_int_d1 <= xoff_int; always @ (posedge tx_clk or posedge rst) if (rst) xoff_gen <=0; else if (xoff_gen_complete) xoff_gen <=0; else if (xoff_int | xoff_int_d1) xoff_gen <=1; always @ (posedge tx_clk or posedge rst) if (rst) xon_gen <=0; else if (xon_gen_complete) xon_gen <=0; else if (xon_int | xon_int_d1) xon_gen <=1; wire [15:0] pq_reduced = pause_quanta_set - 2; always @(posedge tx_clk or posedge rst) if(rst) countdown <= 0; else if(xoff_gen) countdown <= {pq_reduced,6'd0}; else if(xon_gen) countdown <= 0; else if(countdown != 0) countdown <= countdown - 1; endmodule // flow_ctrl