// // Copyright 2018 Ettus Research, A National Instruments Company // // SPDX-License-Identifier: LGPL-3.0-or-later // // Module: chdr_xb_routing_table // Description: // A routing table for the CHDR crossbar. This table is designed // to be shared between all ports. It has an AXI-Stream lookup // interface and a ctrlport (reduced) configuration interface. module chdr_xb_routing_table #( parameter SIZE = 6, parameter NPORTS = 4, parameter EXT_INS_PORT_EN = 1 ) ( // Clocks and resets input wire clk, input wire reset, // Insertion Interface (for XB ports) input wire [NPORTS-1:0] port_req_wr, input wire [(16*NPORTS)-1:0] port_req_addr, input wire [(32*NPORTS)-1:0] port_req_data, output wire [NPORTS-1:0] port_resp_ack, // Insertion Interface (External) input wire ext_req_wr, input wire [15:0] ext_req_addr, input wire [31:0] ext_req_data, output wire ext_resp_ack, // Find Interface input wire [(16*NPORTS)-1:0] axis_find_tdata, input wire [NPORTS-1:0] axis_find_tvalid, output wire [NPORTS-1:0] axis_find_tready, // Result Interface (for Find) output wire [($clog2(NPORTS)*NPORTS)-1:0] axis_result_tdata, output wire [NPORTS-1:0] axis_result_tkeep, output wire [NPORTS-1:0] axis_result_tvalid, input wire [NPORTS-1:0] axis_result_tready ); localparam NPORTS_W = $clog2(NPORTS); localparam CFG_W = NPORTS_W + 16; localparam CFG_PORTS = NPORTS + EXT_INS_PORT_EN; // CAM-based lookup table wire [15:0] insert_tdest; wire [NPORTS_W-1:0] insert_tdata; wire insert_tvalid; wire insert_tready; axis_muxed_kv_map #( .KEY_WIDTH(16), .VAL_WIDTH(NPORTS_W), .SIZE(SIZE), .NUM_PORTS(NPORTS) ) kv_map_i ( .clk (clk ), .reset (reset ), .axis_insert_tdata (insert_tdata ), .axis_insert_tdest (insert_tdest ), .axis_insert_tvalid(insert_tvalid ), .axis_insert_tready(insert_tready ), .axis_find_tdata (axis_find_tdata ), .axis_find_tvalid (axis_find_tvalid ), .axis_find_tready (axis_find_tready ), .axis_result_tdata (axis_result_tdata ), .axis_result_tkeep (axis_result_tkeep ), .axis_result_tvalid(axis_result_tvalid), .axis_result_tready(axis_result_tready) ); // Logic to convert from ctrlport to AXI-Stream wire ins_req_wr [0:CFG_PORTS-1]; wire [15:0] ins_req_addr[0:CFG_PORTS-1]; wire [NPORTS_W-1:0] ins_req_data[0:CFG_PORTS-1]; wire ins_resp_ack[0:CFG_PORTS-1]; reg [(CFG_PORTS*CFG_W)-1:0] cfg_tdata; reg [CFG_PORTS-1:0] cfg_tvalid = {CFG_PORTS{1'b0}}; wire [CFG_PORTS-1:0] cfg_tready; genvar i; generate for (i = 0; i < CFG_PORTS; i=i+1) begin assign ins_req_wr [i] = (i < NPORTS) ? port_req_wr[i] : ext_req_wr; assign ins_req_addr[i] = (i < NPORTS) ? port_req_addr[i*16 +: 16] : ext_req_addr; assign ins_req_data[i] = (i < NPORTS) ? port_req_data[i*32 +: NPORTS_W] : ext_req_data[NPORTS_W-1:0]; if (i < NPORTS) assign port_resp_ack[i] = ins_resp_ack[i]; else assign ext_resp_ack = ins_resp_ack[i]; always @(posedge clk) begin if (reset) begin cfg_tvalid[i] <= 1'b0; end else begin if (~cfg_tvalid[i]) begin if (ins_req_wr[i]) begin cfg_tvalid[i] <= 1'b1; cfg_tdata[(CFG_W*i) +: CFG_W] <= {ins_req_data[i], ins_req_addr[i]}; end end else begin cfg_tvalid[i] <= ~cfg_tready[i]; end end end assign ins_resp_ack[i] = cfg_tvalid[i] & cfg_tready[i]; end endgenerate // Multiplexer between XB ports and external cfg axi_mux #( .WIDTH(CFG_W), .SIZE(CFG_PORTS), .PRE_FIFO_SIZE(0), .POST_FIFO_SIZE(1) ) rtcfg_mux_i ( .clk(clk), .reset(reset), .clear(1'b0), .i_tdata(cfg_tdata), .i_tlast({(NPORTS_W + 16){1'b1}}), .i_tvalid(cfg_tvalid), .i_tready(cfg_tready), .o_tdata({insert_tdata, insert_tdest}), .o_tlast(), .o_tvalid(insert_tvalid), .o_tready(insert_tready) ); endmodule