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+//
+// Copyright 2011 Ettus Research LLC
+//
+// This program is free software: you can redistribute it and/or modify
+// it under the terms of the GNU General Public License as published by
+// the Free Software Foundation, either version 3 of the License, or
+// (at your option) any later version.
+//
+// This program is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+// GNU General Public License for more details.
+//
+// You should have received a copy of the GNU General Public License
+// along with this program. If not, see <http://www.gnu.org/licenses/>.
+//
+
+//////////////////////////////////////////////////////////////////////////////////
+
+//this is a FIFO master interface for the FX2 in "slave fifo" mode.
+
+module slave_fifo
+ #(parameter TXFIFOSIZE = 11, parameter RXFIFOSIZE = 11)
+ (// GPIF signals
+ input gpif_clk, input gpif_rst,
+ inout [15:0] gpif_d,
+ input [3:0] gpif_ctl,
+ output sloe, output slrd, output slwr, output pktend, output [1:0] fifoadr,
+
+ // Wishbone signals
+ input wb_clk, input wb_rst,
+ output [15:0] wb_adr_o, output [15:0] wb_dat_mosi, input [15:0] wb_dat_miso,
+ output [1:0] wb_sel_o, output wb_cyc_o, output wb_stb_o, output wb_we_o, input wb_ack_i,
+ input [7:0] triggers,
+
+ input dsp_rx_run,
+
+ // FIFO interface
+ input fifo_clk, input fifo_rst, input clear_tx, input clear_rx,
+ output [35:0] tx_data_o, output tx_src_rdy_o, input tx_dst_rdy_i,
+ input [35:0] rx_data_i, input rx_src_rdy_i, output rx_dst_rdy_o,
+ input [35:0] tx_err_data_i, input tx_err_src_rdy_i, output tx_err_dst_rdy_o,
+ output tx_underrun, output rx_overrun,
+
+ input [15:0] test_len, input [7:0] test_rate, input [3:0] test_ctrl,
+ output [31:0] debug0, output [31:0] debug1
+ );
+
+ // inputs to FPGA (all active low)
+ wire FX2_DE = ~gpif_ctl[0]; //EP2 FX2 FIFO empty (FLAGA)
+ wire FX2_CE = ~gpif_ctl[1]; //EP4 FX2 FIFO empty (FLAGB)
+ wire FX2_DF = ~gpif_ctl[2]; //EP6 FX2 FIFO full (FLAGC)
+ wire FX2_CF = ~gpif_ctl[3]; //EP8 FX2 FIFO full (FLAGD)
+
+ wire [17:0] gpif_d_out_ctrl, gpif_d_out_data, gpif_d_out;
+
+ // ////////////////////////////////////////////////////////////////////
+ // GPIF bus master state machine
+
+ //transfer size for GPIF data. this can be anything really, it's specified only for
+ //fairness in bus sharing. 256 lines is 512 bytes over the wire, half the size of
+ //the double buffers in B100/B150. this should probably be a toplevel parameter or even
+ //a settings register value.
+ localparam data_transfer_size = 256;
+ localparam ctrl_transfer_size = 16; //probably unnecessary since ctrl xfers won't back up
+
+ // state machine i/o to four fifos
+ //tx
+ wire ctrl_tx_dst_rdy; //sm input, ctrl tx path has space
+ wire ctrl_tx_src_rdy; //sm output, ctrl tx path enable
+ reg data_tx_dst_rdy; //sm input, data tx path has space
+ wire data_tx_src_rdy; //sm output, data tx path enable
+
+ //rx
+ wire ctrl_rx_dst_rdy; //sm output, ctrl rx path enable
+ wire ctrl_rx_src_rdy; //sm input, ctrl rx path has space
+ wire data_rx_dst_rdy; //sm output, data rx path enable
+ wire data_rx_src_rdy; //sm input, data rx path has space
+
+ reg [9:0] transfer_count; //number of lines (a line is 16 bits) in active transfer
+
+ wire sop, eop; //SOP/EOP markers for TX data packets
+
+ reg pktend_latch;
+
+ reg [3:0] state; //state machine current state
+ localparam STATE_IDLE = 0;
+ localparam STATE_DATA_RX = 5;
+ localparam STATE_DATA_TX = 3;
+ localparam STATE_CTRL_RX = 6;
+ localparam STATE_CTRL_TX = 9;
+ localparam STATE_DATA_TX_SLOE = 2;
+ localparam STATE_CTRL_TX_SLOE = 8;
+ localparam STATE_DATA_RX_ADR = 1;
+ localparam STATE_CTRL_RX_ADR = 4;
+ localparam STATE_PKTEND = 7;
+
+ //logs the last bus user for xfer fairness
+ //we only care about data rx vs. tx since ctrl pkts are so short
+ reg last_data_bus_hog;
+ localparam BUS_HOG_RX = 0;
+ localparam BUS_HOG_TX = 1;
+
+ // //////////////////////////////////////////////////////////////
+ // FX2 slave FIFO bus master state machine
+ //
+ always @(posedge gpif_clk)
+ if(gpif_rst)
+ state <= STATE_IDLE;
+ else
+ begin
+ case (state)
+ STATE_IDLE:
+ begin
+ transfer_count <= 0;
+ //handle transitions to other states
+ if(ctrl_tx_dst_rdy & ~FX2_CE) //if there's room in the ctrl fifo and the FX2 has ctrl data
+ state <= STATE_CTRL_TX_SLOE;
+ else if(ctrl_rx_src_rdy & ~FX2_CF) //if the ctrl fifo has data and the FX2 isn't full
+ state <= STATE_CTRL_RX_ADR;
+ else if(data_tx_dst_rdy & ~FX2_DE & last_data_bus_hog == BUS_HOG_RX) //if there's room in the data fifo and the FX2 has data
+ state <= STATE_DATA_TX_SLOE;
+ else if(data_rx_src_rdy & ~FX2_DF & last_data_bus_hog == BUS_HOG_TX) //if the data fifo has data and the FX2 isn't full
+ state <= STATE_DATA_RX_ADR;
+ else if(data_tx_dst_rdy & ~FX2_DE)
+ state <= STATE_DATA_TX_SLOE;
+ else if(data_rx_src_rdy & ~FX2_DF)
+ state <= STATE_DATA_RX_ADR;
+ else if(~data_rx_src_rdy & ~dsp_rx_run & pktend_latch)
+ state <= STATE_PKTEND;
+
+ if(dsp_rx_run)
+ pktend_latch <= 1;
+ end
+
+ STATE_DATA_TX_SLOE: //just to assert SLOE one cycle before SLRD
+ state <= STATE_DATA_TX;
+ STATE_CTRL_TX_SLOE:
+ state <= STATE_CTRL_TX;
+
+ STATE_DATA_RX_ADR: //just to assert FIFOADR one cycle before SLWR
+ state <= STATE_DATA_RX;
+ STATE_CTRL_RX_ADR:
+ state <= STATE_CTRL_RX;
+
+ STATE_DATA_RX:
+ begin
+ if((transfer_count == data_transfer_size) | FX2_DF | (~data_rx_src_rdy))
+ state <= STATE_IDLE;
+
+ transfer_count <= transfer_count + 1;
+ last_data_bus_hog <= BUS_HOG_RX;
+ end
+
+ STATE_PKTEND:
+ begin
+ state <= STATE_IDLE;
+ pktend_latch <= 0;
+ end
+
+ STATE_DATA_TX:
+ begin
+ if((transfer_count == data_transfer_size) | FX2_DE )/*| (~data_tx_dst_rdy))*/
+ state <= STATE_IDLE;
+ transfer_count <= transfer_count + 1;
+ last_data_bus_hog <= BUS_HOG_TX;
+ end
+ STATE_CTRL_RX:
+ begin
+ if(FX2_CF | (~ctrl_rx_src_rdy))
+ state <= STATE_IDLE;
+ transfer_count <= transfer_count + 1;
+ end
+ STATE_CTRL_TX:
+ begin
+ if(FX2_CE | (~ctrl_tx_dst_rdy))
+ state <= STATE_IDLE;
+ transfer_count <= transfer_count + 1;
+ end
+ endcase
+ end
+
+ // ///////////////////////////////////////////////////////////////////
+ // fifo signal assignments and enables
+
+ //enable fifos
+ assign data_rx_dst_rdy = (state == STATE_DATA_RX);
+ assign data_tx_src_rdy = (state == STATE_DATA_TX);
+ assign ctrl_rx_dst_rdy = (state == STATE_CTRL_RX);
+ assign ctrl_tx_src_rdy = (state == STATE_CTRL_TX);
+
+ //tx framing (this is super suspect)
+ //eop should be used only to set the EOP bit going into FIFOs
+ wire eop_data, eop_ctrl;
+ assign sop = (transfer_count == 0);
+ assign eop_data = (transfer_count == (data_transfer_size-1));
+ assign eop_ctrl = (transfer_count == (ctrl_transfer_size-1));
+ assign eop = (state == STATE_DATA_TX) ? eop_data : eop_ctrl;
+
+ // ////////////////////////////////////////////////////////////////////
+ // set GPIF pins
+
+ //set fifoadr to the appropriate endpoint
+ // {0,0}: EP2, data TX from host
+ // {0,1}: EP4, ctrl TX from host
+ // {1,0}: EP6, data RX to host
+ // {1,1}: EP8, ctrl RX to host
+ assign fifoadr = {(state == STATE_DATA_RX) | (state == STATE_CTRL_RX) | (state == STATE_DATA_RX_ADR) | (state == STATE_CTRL_RX_ADR) | (state == STATE_PKTEND),
+ (state == STATE_CTRL_RX) | (state == STATE_CTRL_RX_ADR) | (state == STATE_CTRL_TX) | (state == STATE_CTRL_TX_SLOE)};
+ //set sloe, slwr, slrd (all active low)
+ //SLOE gets asserted when we want data from the FX2; i.e., TX mode
+ assign sloe = ~{(state == STATE_DATA_TX) | (state == STATE_CTRL_TX) | (state == STATE_DATA_TX_SLOE) | (state == STATE_CTRL_TX_SLOE)};
+ //"read" and "write" here are from the master's point of view;
+ //so "read" means "transmit" and "write" means "receive"
+ assign slwr = ~{(state == STATE_DATA_RX) | (state == STATE_CTRL_RX)};
+ assign slrd = ~{(state == STATE_DATA_TX) | (state == STATE_CTRL_TX)};
+
+ wire pktend_ctrl, pktend_data;
+ assign pktend_ctrl = ((~ctrl_rx_src_rdy | gpif_d_out_ctrl[17]) & (state == STATE_CTRL_RX));
+ assign pktend_data = (state == STATE_PKTEND);
+ assign pktend = ~(pktend_ctrl | pktend_data);
+
+ //mux between ctrl/data RX data out based on endpoint selection
+ assign gpif_d_out = fifoadr[0] ? gpif_d_out_ctrl : gpif_d_out_data;
+ // GPIF output data lines, tristate
+ assign gpif_d = sloe ? gpif_d_out : 16'bz;
+
+ // ////////////////////////////////////////////////////////////////////
+ // TX Data Path
+
+ wire [18:0] tx19_data;
+ wire tx19_src_rdy, tx19_dst_rdy;
+ wire [35:0] tx36_data;
+ wire tx36_src_rdy, tx36_dst_rdy;
+ wire [17:0] data_tx_int;
+ wire tx_src_rdy_int, tx_dst_rdy_int;
+
+ wire [15:0] wr_fifo_space;
+
+ always @(posedge gpif_clk)
+ if(gpif_rst)
+ data_tx_dst_rdy <= 0;
+ else
+ data_tx_dst_rdy <= wr_fifo_space >= 256;
+
+ fifo_cascade #(.WIDTH(18), .SIZE(10)) wr_fifo
+ (.clk(gpif_clk), .reset(gpif_rst), .clear(0),
+ .datain({eop,sop,gpif_d}), .src_rdy_i(data_tx_src_rdy), .dst_rdy_o(/*data_tx_dst_rdy*/), .space(wr_fifo_space),
+ .dataout(data_tx_int), .src_rdy_o(tx_src_rdy_int), .dst_rdy_i(tx_dst_rdy_int), .occupied());
+
+ fifo_2clock_cascade #(.WIDTH(18), .SIZE(4)) wr_fifo_2clk
+ (.wclk(gpif_clk), .datain(data_tx_int), .src_rdy_i(tx_src_rdy_int), .dst_rdy_o(tx_dst_rdy_int), .space(),
+ .rclk(fifo_clk), .dataout(tx19_data[17:0]), .src_rdy_o(tx19_src_rdy), .dst_rdy_i(tx19_dst_rdy), .occupied(),
+ .arst(fifo_rst));
+
+ assign tx19_data[18] = 1'b0;
+
+ // join vita packets which are longer than one frame, drop frame padding
+ wire [18:0] refr_data;
+ wire refr_src_rdy, refr_dst_rdy;
+ wire refr_state;
+ wire refr_eof;
+ wire [15:0] refr_len;
+
+ packet_reframer tx_packet_reframer
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx),
+ .data_i(tx19_data), .src_rdy_i(tx19_src_rdy), .dst_rdy_o(tx19_dst_rdy),
+ .data_o(refr_data), .src_rdy_o(refr_src_rdy), .dst_rdy_i(refr_dst_rdy),
+ .state(refr_state), .eof_out(refr_eof), .length(refr_len));
+
+ fifo19_to_fifo36 #(.LE(1)) f19_to_f36
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(0),
+ .f19_datain(refr_data), .f19_src_rdy_i(refr_src_rdy), .f19_dst_rdy_o(refr_dst_rdy),
+ .f36_dataout(tx36_data), .f36_src_rdy_o(tx36_src_rdy), .f36_dst_rdy_i(tx36_dst_rdy));
+
+ fifo_cascade #(.WIDTH(36), .SIZE(TXFIFOSIZE)) tx_fifo36
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx),
+ .datain(tx36_data), .src_rdy_i(tx36_src_rdy), .dst_rdy_o(tx36_dst_rdy),
+ .dataout(tx_data_o), .src_rdy_o(tx_src_rdy_o), .dst_rdy_i(tx_dst_rdy_i));
+
+ // ////////////////////////////////////////////
+ // RX Data Path
+
+ wire [35:0] rx36_data;
+ wire rx36_src_rdy, rx36_dst_rdy;
+ wire [18:0] rx19_data;
+ wire rx19_src_rdy, rx19_dst_rdy;
+ wire [15:0] rxfifospace;
+
+ //deep 36 bit wide input fifo buffers from DSP
+ fifo_cascade #(.WIDTH(36), .SIZE(8)) rx_fifo36
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .datain(rx_data_i), .src_rdy_i(rx_src_rdy_i), .dst_rdy_o(rx_dst_rdy_o),
+ .dataout(rx36_data), .src_rdy_o(rx36_src_rdy), .dst_rdy_i(rx36_dst_rdy));
+
+ //convert to fifo19
+ fifo36_to_fifo19 #(.LE(1)) f36_to_f19
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .f36_datain(rx36_data), .f36_src_rdy_i(rx36_src_rdy), .f36_dst_rdy_o(rx36_dst_rdy),
+ .f19_dataout(rx19_data), .f19_src_rdy_o(rx19_src_rdy), .f19_dst_rdy_i(rx19_dst_rdy) );
+
+ wire [18:0] data_rx_int;
+ wire rx_src_rdy_int, rx_dst_rdy_int;
+ //clock domain crossing fifo for RX data
+ fifo_2clock_cascade #(.WIDTH(19), .SIZE(4)) rd_fifo_2clk
+ (.wclk(fifo_clk), .datain(rx19_data), .src_rdy_i(rx19_src_rdy), .dst_rdy_o(rx19_dst_rdy), .space(),
+ .rclk(~gpif_clk), .dataout(data_rx_int), .src_rdy_o(rx_src_rdy_int), .dst_rdy_i(rx_dst_rdy_int), .occupied(),
+ .arst(fifo_rst));
+
+ //rd_fifo buffers writes to the 2clock fifo above
+ fifo_cascade #(.WIDTH(19), .SIZE(12)) rd_fifo
+ (.clk(~gpif_clk), .reset(gpif_rst), .clear(0),
+ .datain(data_rx_int), .src_rdy_i(rx_src_rdy_int), .dst_rdy_o(rx_dst_rdy_int), .space(rxfifospace),
+ .dataout(gpif_d_out_data), .src_rdy_o(data_rx_src_rdy), .dst_rdy_i(data_rx_dst_rdy), .occupied());
+
+ // ////////////////////////////////////////////////////////////////////
+ // FIFO to Wishbone interface
+
+ wire [18:0] resp_data, resp_int;
+ wire resp_src_rdy, resp_dst_rdy;
+ wire resp_src_rdy_int, resp_dst_rdy_int;
+
+ wire [18:0] tx_err19_data;
+ wire tx_err19_src_rdy, tx_err19_dst_rdy;
+
+ wire [18:0] ctrl_data;
+ wire ctrl_src_rdy, ctrl_dst_rdy;
+
+ fifo_to_wb fifo_to_wb
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(0),
+ .data_i(ctrl_data), .src_rdy_i(ctrl_src_rdy), .dst_rdy_o(ctrl_dst_rdy),
+ .data_o(resp_int), .src_rdy_o(resp_src_rdy_int), .dst_rdy_i(resp_dst_rdy_int),
+ .wb_adr_o(wb_adr_o), .wb_dat_mosi(wb_dat_mosi), .wb_dat_miso(wb_dat_miso), .wb_sel_o(wb_sel_o),
+ .wb_cyc_o(wb_cyc_o), .wb_stb_o(wb_stb_o), .wb_we_o(wb_we_o), .wb_ack_i(wb_ack_i),
+ .triggers(triggers),
+ .debug0(), .debug1());
+
+ // ////////////////////////////////////////////////////////////////////
+ // TX CTRL PATH (ctrl commands into Wishbone)
+
+ //how does this use fifo_clk instead of wb_clk
+ //answer: on b100 fifo clk IS wb clk
+ fifo_2clock_cascade #(.WIDTH(19), .SIZE(4)) ctrl_fifo_2clk
+ (.wclk(gpif_clk), .datain({1'b0,eop,sop,gpif_d}),
+ .src_rdy_i(ctrl_tx_src_rdy), .dst_rdy_o(ctrl_tx_dst_rdy), .space(),
+ .rclk(fifo_clk), .dataout(ctrl_data),
+ .src_rdy_o(ctrl_src_rdy), .dst_rdy_i(ctrl_dst_rdy), .occupied(),
+ .arst(fifo_rst));
+
+ // ////////////////////////////////////////////////////////////////////
+ // RX CTRL PATH (async packets, ctrl response data)
+
+ //tx_err_data_i is the 36wide tx async err data clocked on fifo_clk
+ fifo36_to_fifo19 #(.LE(1)) f36_to_f19_txerr
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .f36_datain(tx_err_data_i), .f36_src_rdy_i(tx_err_src_rdy_i), .f36_dst_rdy_o(tx_err_dst_rdy_o),
+ .f19_dataout(tx_err19_data), .f19_src_rdy_o(tx_err19_src_rdy), .f19_dst_rdy_i(tx_err19_dst_rdy) );
+
+ //mux FIFO-to-WB along with async tx err pkts into one ctrl resp fifo
+ //how is this clocked on wb_clk?
+ fifo19_mux #(.prio(0)) mux_err_stream
+ (.clk(wb_clk), .reset(wb_rst), .clear(0),
+ .data0_i(resp_int), .src0_rdy_i(resp_src_rdy_int), .dst0_rdy_o(resp_dst_rdy_int),
+ .data1_i(tx_err19_data), .src1_rdy_i(tx_err19_src_rdy), .dst1_rdy_o(tx_err19_dst_rdy),
+ .data_o(resp_data), .src_rdy_o(resp_src_rdy), .dst_rdy_i(resp_dst_rdy));
+
+ //clock domain crossing cascade fifo for mux_err_stream to get from wb_clk to gpif_clk
+ //the output of this fifo is CTRL DATA PENDING FOR GPIF
+ fifo_2clock_cascade #(.WIDTH(18), .SIZE(4)) resp_fifo_2clk
+ (.wclk(wb_clk), .datain(resp_data[17:0]), .src_rdy_i(resp_src_rdy), .dst_rdy_o(resp_dst_rdy), .space(),
+ .rclk(~gpif_clk), .dataout(gpif_d_out_ctrl),
+ .src_rdy_o(ctrl_rx_src_rdy), .dst_rdy_i(ctrl_rx_dst_rdy), .occupied(),
+ .arst(wb_rst));
+
+
+ // ////////////////////////////////////////////////////////////////////
+ // Debug support, timed and loopback
+ // RX side muxes test data into the same stream
+
+ ///////////////////////////////////////////////////////////////////////
+ // debug lines
+ wire [31:0] debug_rd, debug_wr, debug_split0, debug_split1;
+
+ wire [35:0] timedrx_data, loopbackrx_data, testrx_data;
+ wire [35:0] timedtx_data, loopbacktx_data, testtx_data;
+ wire timedrx_src_rdy, timedrx_dst_rdy, loopbackrx_src_rdy, loopbackrx_dst_rdy,
+ testrx_src_rdy, testrx_dst_rdy;
+ wire timedtx_src_rdy, timedtx_dst_rdy, loopbacktx_src_rdy, loopbacktx_dst_rdy,
+ testtx_src_rdy, testtx_dst_rdy;
+ wire timedrx_src_rdy_int, timedrx_dst_rdy_int, timedtx_src_rdy_int, timedtx_dst_rdy_int;
+
+ wire [31:0] total, crc_err, seq_err, len_err;
+ wire sel_testtx = test_ctrl[0];
+ wire sel_loopbacktx = test_ctrl[1];
+ wire pkt_src_enable = test_ctrl[2];
+ wire pkt_sink_enable = test_ctrl[3];
+/*
+ fifo36_mux rx_test_mux_lvl_1
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .data0_i(timedrx_data), .src0_rdy_i(timedrx_src_rdy), .dst0_rdy_o(timedrx_dst_rdy),
+ .data1_i(loopbackrx_data), .src1_rdy_i(loopbackrx_src_rdy), .dst1_rdy_o(loopbackrx_dst_rdy),
+ .data_o(testrx_data), .src_rdy_o(testrx_src_rdy), .dst_rdy_i(testrx_dst_rdy));
+
+ fifo36_mux rx_test_mux_lvl_2
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .data0_i(testrx_data), .src0_rdy_i(testrx_src_rdy), .dst0_rdy_o(testrx_dst_rdy),
+ .data1_i(rx_data_i), .src1_rdy_i(rx_src_rdy_i), .dst1_rdy_o(rx_dst_rdy_o),
+ .data_o(rx_data), .src_rdy_o(rx_src_rdy), .dst_rdy_i(rx_dst_rdy));
+
+ fifo_short #(.WIDTH(36)) loopback_fifo
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx | clear_rx),
+ .datain(loopbacktx_data), .src_rdy_i(loopbacktx_src_rdy), .dst_rdy_o(loopbacktx_dst_rdy),
+ .dataout(loopbackrx_data), .src_rdy_o(loopbackrx_src_rdy), .dst_rdy_i(loopbackrx_dst_rdy));
+
+ // Crossbar used as a demux for switching TX stream to main DSP or to test logic
+ crossbar36 tx_crossbar_lvl_1
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx),
+ .cross(sel_testtx),
+ .data0_i(tx_data), .src0_rdy_i(tx_src_rdy), .dst0_rdy_o(tx_dst_rdy),
+ .data1_i(tx_data), .src1_rdy_i(1'b0), .dst1_rdy_o(), // No 2nd input
+ .data0_o(tx_data_o), .src0_rdy_o(tx_src_rdy_o), .dst0_rdy_i(tx_dst_rdy_i),
+ .data1_o(testtx_data), .src1_rdy_o(testtx_src_rdy), .dst1_rdy_i(testtx_dst_rdy) );
+
+ crossbar36 tx_crossbar_lvl_2
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx),
+ .cross(sel_loopbacktx),
+ .data0_i(testtx_data), .src0_rdy_i(testtx_src_rdy), .dst0_rdy_o(testtx_dst_rdy),
+ .data1_i(testtx_data), .src1_rdy_i(1'b0), .dst1_rdy_o(), // No 2nd input
+ .data0_o(timedtx_data), .src0_rdy_o(timedtx_src_rdy), .dst0_rdy_i(timedtx_dst_rdy),
+ .data1_o(loopbacktx_data), .src1_rdy_o(loopbacktx_src_rdy), .dst1_rdy_i(loopbacktx_dst_rdy) );
+
+ // Fixed rate TX traffic consumer
+ fifo_pacer tx_pacer
+ (.clk(fifo_clk), .reset(fifo_rst), .rate(test_rate), .enable(pkt_sink_enable),
+ .src1_rdy_i(timedtx_src_rdy), .dst1_rdy_o(timedtx_dst_rdy),
+ .src2_rdy_o(timedtx_src_rdy_int), .dst2_rdy_i(timedtx_dst_rdy_int),
+ .underrun(tx_underrun), .overrun());
+
+ packet_verifier32 pktver32
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_tx),
+ .data_i(timedtx_data), .src_rdy_i(timedtx_src_rdy_int), .dst_rdy_o(timedtx_dst_rdy_int),
+ .total(total), .crc_err(crc_err), .seq_err(seq_err), .len_err(len_err));
+
+ // Fixed rate RX traffic generator
+ vita_pkt_gen pktgen
+ (.clk(fifo_clk), .reset(fifo_rst), .clear(clear_rx),
+ .len(test_len),
+ .data_o(timedrx_data), .src_rdy_o(timedrx_src_rdy_int), .dst_rdy_i(timedrx_dst_rdy_int));
+
+ fifo_pacer rx_pacer
+ (.clk(fifo_clk), .reset(fifo_rst), .rate(test_rate), .enable(pkt_src_enable),
+ .src1_rdy_i(timedrx_src_rdy_int), .dst1_rdy_o(timedrx_dst_rdy_int),
+ .src2_rdy_o(timedrx_src_rdy), .dst2_rdy_i(timedrx_dst_rdy),
+ .underrun(), .overrun(rx_overrun));
+*/
+ // ////////////////////////////////////////////
+ // DEBUG
+
+ //assign debug0 = { data_tx_dst_rdy, refr_state, gpif_ctl[3:0], refr_eof, slrd, slwr, pktend, fifoadr[1:0], state[3:0], refr_len[15:0]};
+ assign debug0 = { data_tx_src_rdy, data_tx_dst_rdy, tx_src_rdy_int, tx_dst_rdy_int,
+ tx19_src_rdy, tx19_dst_rdy, refr_src_rdy, refr_dst_rdy,
+ tx36_src_rdy, tx36_dst_rdy,
+ gpif_ctl[3:0], fifoadr[1:0],
+ wr_fifo_space[15:0]};
+ assign debug1 = { 16'b0, transfer_count[7:0], ctrl_rx_src_rdy, ctrl_tx_dst_rdy, data_rx_src_rdy,
+ data_tx_dst_rdy, ctrl_tx_src_rdy, ctrl_rx_dst_rdy, data_tx_src_rdy, data_rx_dst_rdy};
+endmodule // slave_fifo