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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/>.
//
module vita_rx_control
#(parameter BASE=0,
parameter WIDTH=32)
(input clk, input reset, input clear,
input set_stb, input [7:0] set_addr, input [31:0] set_data,
input [63:0] vita_time,
output overrun,
// To vita_rx_framer
output [5+64+WIDTH-1:0] sample_fifo_o,
output sample_fifo_src_rdy_o,
input sample_fifo_dst_rdy_i,
// From DSP Core
input [WIDTH-1:0] sample,
output run,
input strobe,
output [31:0] debug_rx
);
// FIXME add TX Interruption (halt, pause, continue) functionality
wire [63:0] new_time;
wire [31:0] new_command;
wire sc_pre1;
wire [63:0] rcvtime_pre;
reg [63:0] rcvtime;
wire [28:0] numlines_pre;
wire send_imm_pre, chain_pre, reload_pre;
reg send_imm, chain, reload;
wire read_ctrl, not_empty_ctrl, write_ctrl;
reg sc_pre2;
wire [33:0] fifo_line;
reg [28:0] lines_left, lines_total;
reg [2:0] ibs_state;
wire now, early, late;
wire sample_fifo_in_rdy;
setting_reg #(.my_addr(BASE)) sr_cmd
(.clk(clk),.rst(reset),.strobe(set_stb),.addr(set_addr),
.in(set_data),.out(new_command),.changed());
setting_reg #(.my_addr(BASE+1)) sr_time_h
(.clk(clk),.rst(reset),.strobe(set_stb),.addr(set_addr),
.in(set_data),.out(new_time[63:32]),.changed());
setting_reg #(.my_addr(BASE+2)) sr_time_l
(.clk(clk),.rst(reset),.strobe(set_stb),.addr(set_addr),
.in(set_data),.out(new_time[31:0]),.changed(sc_pre1));
// FIFO to store commands sent from the settings bus
always @(posedge clk)
if(reset | clear)
sc_pre2 <= 0;
else
sc_pre2 <= sc_pre1;
assign write_ctrl = sc_pre1 & ~sc_pre2;
wire [4:0] command_queue_len;
fifo_short #(.WIDTH(96)) commandfifo
(.clk(clk),.reset(reset),.clear(clear),
.datain({new_command,new_time}), .src_rdy_i(write_ctrl), .dst_rdy_o(),
.dataout({send_imm_pre,chain_pre,reload_pre,numlines_pre,rcvtime_pre}),
.src_rdy_o(not_empty_ctrl), .dst_rdy_i(read_ctrl),
.occupied(command_queue_len), .space() );
reg [33:0] pkt_fifo_line;
localparam IBS_IDLE = 0;
localparam IBS_WAITING = 1;
localparam IBS_RUNNING = 2;
localparam IBS_OVERRUN = 4;
localparam IBS_BROKENCHAIN = 5;
localparam IBS_LATECMD = 6;
localparam IBS_ZEROLEN = 7;
wire signal_cmd_done = (lines_left == 1) & (~chain | (not_empty_ctrl & (numlines_pre==0)));
wire signal_overrun = (ibs_state == IBS_OVERRUN);
wire signal_brokenchain = (ibs_state == IBS_BROKENCHAIN);
wire signal_latecmd = (ibs_state == IBS_LATECMD);
wire signal_zerolen = (ibs_state == IBS_ZEROLEN);
// Buffer of samples for while we're writing the packet headers
wire [4:0] flags = {signal_zerolen,signal_overrun,signal_brokenchain,signal_latecmd,signal_cmd_done};
wire attempt_sample_write = ((run & strobe) | (ibs_state==IBS_OVERRUN) |
(ibs_state==IBS_BROKENCHAIN) | (ibs_state==IBS_LATECMD) |
(ibs_state==IBS_ZEROLEN));
fifo_short #(.WIDTH(5+64+WIDTH)) rx_sample_fifo
(.clk(clk),.reset(reset),.clear(clear),
.datain({flags,vita_time,sample}), .src_rdy_i(attempt_sample_write), .dst_rdy_o(sample_fifo_in_rdy),
.dataout(sample_fifo_o),
.src_rdy_o(sample_fifo_src_rdy_o), .dst_rdy_i(sample_fifo_dst_rdy_i),
.space(), .occupied() );
// Inband Signalling State Machine
time_compare
time_compare (.time_now(vita_time), .trigger_time(rcvtime), .now(now), .early(early), .late(late));
wire too_late = late & ~send_imm;
wire go_now = now | send_imm;
wire full = ~sample_fifo_in_rdy;
always @(posedge clk)
if(reset | clear)
begin
ibs_state <= IBS_IDLE;
lines_left <= 0;
lines_total <= 0;
rcvtime <= 0;
send_imm <= 0;
chain <= 0;
reload <= 0;
end
else
case(ibs_state)
IBS_IDLE :
if(not_empty_ctrl)
begin
lines_left <= numlines_pre;
lines_total <= numlines_pre;
rcvtime <= rcvtime_pre;
if(numlines_pre == 0)
ibs_state <= IBS_ZEROLEN;
else
ibs_state <= IBS_WAITING;
send_imm <= send_imm_pre;
chain <= chain_pre;
reload <= reload_pre;
end
IBS_WAITING :
if(go_now)
ibs_state <= IBS_RUNNING;
else if(too_late)
ibs_state <= IBS_LATECMD;
IBS_RUNNING :
if(strobe)
if(full)
ibs_state <= IBS_OVERRUN;
else
begin
lines_left <= lines_left - 1;
if(lines_left == 1)
if(~chain)
ibs_state <= IBS_IDLE;
else if(~not_empty_ctrl & reload)
begin
ibs_state <= IBS_RUNNING;
lines_left <= lines_total;
end
else if(~not_empty_ctrl)
ibs_state <= IBS_BROKENCHAIN;
else
begin
lines_left <= numlines_pre;
lines_total <= numlines_pre;
rcvtime <= rcvtime_pre;
send_imm <= send_imm_pre;
chain <= chain_pre;
reload <= reload_pre;
if(numlines_pre == 0) // If we are told to stop here
ibs_state <= IBS_IDLE;
else
ibs_state <= IBS_RUNNING;
end
end // else: !if(full)
IBS_OVERRUN :
if(sample_fifo_in_rdy)
ibs_state <= IBS_IDLE;
IBS_LATECMD :
if(sample_fifo_in_rdy)
ibs_state <= IBS_IDLE;
IBS_BROKENCHAIN :
if(sample_fifo_in_rdy)
ibs_state <= IBS_IDLE;
IBS_ZEROLEN :
if(sample_fifo_in_rdy)
ibs_state <= IBS_IDLE;
endcase // case(ibs_state)
assign overrun = (ibs_state == IBS_OVERRUN);
assign run = (ibs_state == IBS_RUNNING);
assign read_ctrl = ( (ibs_state == IBS_IDLE) | ((ibs_state == IBS_RUNNING) & strobe & ~full & (lines_left==1) & chain) )
& not_empty_ctrl;
assign debug_rx = { { ibs_state[2:0], command_queue_len },
{ 8'd0 },
{ go_now, too_late, run, strobe, read_ctrl, write_ctrl, 1'b0, ~not_empty_ctrl },
{ 2'b0, overrun, chain_pre, sample_fifo_in_rdy, attempt_sample_write, sample_fifo_src_rdy_o,sample_fifo_dst_rdy_i} };
endmodule // vita_rx_control
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