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[/] [yifive/] [trunk/] [caravel_yifive/] [verilog/] [rtl/] [spi_master/] [src/] [spim_rx.sv] - Rev 20
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//////////////////////////////////////////////////////////////////////
//// ////
//// SPI RX Module ////
//// ////
//// This file is part of the YIFive cores project ////
//// http://www.opencores.org/cores/yifive/ ////
//// ////
//// Description ////
//// SPI RX module ////
//// ////
//// To Do: ////
//// nothing ////
//// ////
//// Author(s): ////
//// - Dinesh Annayya, dinesha@opencores.org ////
//// ////
//// Revision : ////
//// V.0 - June 8, 2021 ////
//// ////
//////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer. ////
//// ////
//// This source file is free software; you can redistribute it ////
//// and/or modify it under the terms of the GNU Lesser General ////
//// Public License as published by the Free Software Foundation; ////
//// either version 2.1 of the License, or (at your option) any ////
//// later version. ////
//// ////
//// This source 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 Lesser General Public License for more ////
//// details. ////
//// ////
//// You should have received a copy of the GNU Lesser General ////
//// Public License along with this source; if not, download it ////
//// from http://www.opencores.org/lgpl.shtml ////
//// ////
//////////////////////////////////////////////////////////////////////
module spim_rx #(
parameter ENDIEAN = 0 // 0 - Little, 1 - Big endian, since RISV is Little indian default set 0
)
(
input logic clk,
input logic rstn,
input logic en,
input logic rx_edge,
output logic rx_done,
input logic sdi0,
input logic sdi1,
input logic sdi2,
input logic sdi3,
input logic en_quad_in,
input logic [15:0] counter_in,
input logic counter_in_upd,
output logic [31:0] data,
input logic data_ready,
output logic data_valid,
output logic clk_en_o
);
logic [31:0] data_int;
logic [31:0] data_int_next;
logic [15:0] counter;
logic [15:0] counter_trgt;
logic [15:0] counter_next;
logic [15:0] counter_trgt_next;
logic reg_done;
enum logic [1:0] { IDLE, RECEIVE, WAIT_FIFO, WAIT_FIFO_DONE } rx_CS, rx_NS;
assign reg_done = (!en_quad_in && (counter[4:0] == 5'b11111)) || (en_quad_in && (counter[2:0] == 3'b111));
// RISV is little endian, so data is converted to little endian format
assign data = (ENDIEAN) ? data_int_next : {data_int_next[7:0],data_int_next[15:8],data_int_next[23:16],data_int_next[31:24]};
assign rx_done = (counter == (counter_trgt-1)) & rx_edge;
always_comb
begin
if (counter_in_upd)
counter_trgt_next = (en_quad_in) ? {2'b00,counter_in[15:2]} : counter_in;
else
counter_trgt_next = counter_trgt;
end
always_comb
begin
rx_NS = rx_CS;
clk_en_o = 1'b0;
data_int_next = data_int;
data_valid = 1'b0;
counter_next = counter;
case (rx_CS)
IDLE: begin
clk_en_o = 1'b0;
// check first if there is available space instead of later
if (en) begin
rx_NS = RECEIVE;
end
end
RECEIVE: begin
clk_en_o = 1'b1;
if (rx_edge) begin
counter_next = counter + 1;
if (en_quad_in)
data_int_next = {data_int[27:0],sdi3,sdi2,sdi1,sdi0};
else
data_int_next = {data_int[30:0],sdi1};
if (rx_done) begin
counter_next = 0;
data_valid = 1'b1;
if (data_ready)
rx_NS = IDLE;
else
rx_NS = WAIT_FIFO_DONE;
end else if (reg_done) begin
data_valid = 1'b1;
if (~data_ready) begin
// no space in the FIFO, wait for free space
clk_en_o = 1'b0;
rx_NS = WAIT_FIFO;
end
end
end
end
WAIT_FIFO_DONE: begin
data_valid = 1'b1;
if (data_ready)
rx_NS = IDLE;
end
WAIT_FIFO: begin
data_valid = 1'b1;
if (data_ready)
rx_NS = RECEIVE;
end
endcase
end
always_ff @(posedge clk, negedge rstn)
begin
if (rstn == 0)
begin
counter <= 0;
counter_trgt <= 'h8;
data_int <= '0;
rx_CS <= IDLE;
end
else
begin
counter <= counter_next;
counter_trgt <= counter_trgt_next;
data_int <= data_int_next;
rx_CS <= rx_NS;
end
end
endmodule
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