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|
//======================================================================
//
// uart_core.v
// -----------
// A simple universal asynchronous receiver/transmitter (UART)
// interface. The interface contains 16 byte wide transmit and
// receivea buffers and can handle start and stop bits. But in
// general is rather simple. The primary purpose is as host
// interface for the coretest design. The core also has a
// loopback mode to allow testing of a serial link.
//
// Note that the UART has a separate API interface to allow
// a control core to change settings such as speed. But the core
// has default values to allow it to start operating directly
// after reset. No config should be needed.
//
//
// Author: Joachim Strombergson
// Copyright (c) 2014, SUNET
//
// Redistribution and use in source and binary forms, with or
// without modification, are permitted provided that the following
// conditions are met:
//
// 1. Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in
// the documentation and/or other materials provided with the
// distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
// COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
//======================================================================
module uart_core(
input wire clk,
input wire reset_n,
// Configuration parameters
input wire [15 : 0] bit_rate,
input wire [3 : 0] data_bits,
input wire [1 : 0] stop_bits,
// External data interface
input wire rxd,
output wire txd,
// Internal receive interface.
output wire rxd_syn,
output [7 : 0] rxd_data,
input wire rxd_ack,
// Internal transmit interface.
input wire txd_syn,
input wire [7 : 0] txd_data,
output wire txd_ack
);
//----------------------------------------------------------------
// Internal constant and parameter definitions.
//----------------------------------------------------------------
parameter ERX_IDLE = 0;
parameter ERX_START = 1;
parameter ERX_BITS = 2;
parameter ERX_STOP = 3;
parameter ERX_SYN = 4;
parameter ETX_IDLE = 0;
parameter ETX_ACK = 1;
parameter ETX_START = 2;
parameter ETX_BITS = 3;
parameter ETX_STOP = 4;
//----------------------------------------------------------------
// Registers including update variables and write enable.
//----------------------------------------------------------------
reg rxd_reg;
reg [7 : 0] rxd_byte_reg;
reg rxd_byte_we;
reg [4 : 0] rxd_bit_ctr_reg;
reg [4 : 0] rxd_bit_ctr_new;
reg rxd_bit_ctr_we;
reg rxd_bit_ctr_rst;
reg rxd_bit_ctr_inc;
reg [15 : 0] rxd_bitrate_ctr_reg;
reg [15 : 0] rxd_bitrate_ctr_new;
reg rxd_bitrate_ctr_we;
reg rxd_bitrate_ctr_rst;
reg rxd_bitrate_ctr_inc;
reg rxd_syn_reg;
reg rxd_syn_new;
reg rxd_syn_we;
reg [2 : 0] erx_ctrl_reg;
reg [2 : 0] erx_ctrl_new;
reg erx_ctrl_we;
reg txd_reg;
reg txd_new;
reg txd_we;
reg [7 : 0] txd_byte_reg;
reg [7 : 0] txd_byte_new;
reg txd_byte_we;
reg [4 : 0] txd_bit_ctr_reg;
reg [4 : 0] txd_bit_ctr_new;
reg txd_bit_ctr_we;
reg txd_bit_ctr_rst;
reg txd_bit_ctr_inc;
reg [15 : 0] txd_bitrate_ctr_reg;
reg [15 : 0] txd_bitrate_ctr_new;
reg txd_bitrate_ctr_we;
reg txd_bitrate_ctr_rst;
reg txd_bitrate_ctr_inc;
reg txd_ack_reg;
reg txd_ack_new;
reg txd_ack_we;
reg [2 : 0] etx_ctrl_reg;
reg [2 : 0] etx_ctrl_new;
reg etx_ctrl_we;
//----------------------------------------------------------------
// Wires.
//----------------------------------------------------------------
wire [15 : 0] half_bit_rate;
//----------------------------------------------------------------
// Concurrent connectivity for ports etc.
//----------------------------------------------------------------
assign txd = txd_reg;
assign rxd_syn = rxd_syn_reg;
assign rxd_data = rxd_byte_reg;
assign txd_ack = txd_ack_reg;
assign half_bit_rate = {1'b0, bit_rate[15 : 1]};
//----------------------------------------------------------------
// reg_update
//
// Update functionality for all registers in the core.
// All registers are positive edge triggered with
// asynchronous active low reset.
//----------------------------------------------------------------
always @ (posedge clk or negedge reset_n)
begin: reg_update
if (!reset_n)
begin
rxd_reg <= 0;
rxd_byte_reg <= 8'h00;
rxd_bit_ctr_reg <= 4'h0;
rxd_bitrate_ctr_reg <= 16'h0000;
rxd_syn_reg <= 0;
erx_ctrl_reg <= ERX_IDLE;
txd_reg <= 1;
txd_byte_reg <= 8'h00;
txd_bit_ctr_reg <= 4'h0;
txd_bitrate_ctr_reg <= 16'h0000;
txd_ack_reg <= 0;
etx_ctrl_reg <= ETX_IDLE;
end
else
begin
// We sample the rx input port every cycle.
rxd_reg <= rxd;
// We shift the rxd bit into msb.
if (rxd_byte_we)
begin
rxd_byte_reg <= {rxd_reg, rxd_byte_reg[7 : 1]};
end
if (rxd_bit_ctr_we)
begin
rxd_bit_ctr_reg <= rxd_bit_ctr_new;
end
if (rxd_bitrate_ctr_we)
begin
rxd_bitrate_ctr_reg <= rxd_bitrate_ctr_new;
end
if (rxd_syn_we)
begin
rxd_syn_reg <= rxd_syn_new;
end
if (erx_ctrl_we)
begin
erx_ctrl_reg <= erx_ctrl_new;
end
if (txd_we)
begin
txd_reg <= txd_new;
end
if (txd_byte_we)
begin
txd_byte_reg <= txd_byte_new;
end
if (txd_bit_ctr_we)
begin
txd_bit_ctr_reg <= txd_bit_ctr_new;
end
if (txd_bitrate_ctr_we)
begin
txd_bitrate_ctr_reg <= txd_bitrate_ctr_new;
end
if (txd_ack_we)
begin
txd_ack_reg <= txd_ack_new;
end
if (etx_ctrl_we)
begin
etx_ctrl_reg <= etx_ctrl_new;
end
end
end // reg_update
//----------------------------------------------------------------
// rxd_bit_ctr
//
// Bit counter for receiving data on the external
// serial interface.
//----------------------------------------------------------------
always @*
begin: rxd_bit_ctr
rxd_bit_ctr_new = 4'h0;
rxd_bit_ctr_we = 0;
if (rxd_bit_ctr_rst)
begin
rxd_bit_ctr_new = 4'h0;
rxd_bit_ctr_we = 1;
end
else if (rxd_bit_ctr_inc)
begin
rxd_bit_ctr_new = rxd_bit_ctr_reg + 4'b0001;
rxd_bit_ctr_we = 1;
end
end // rxd_bit_ctr
//----------------------------------------------------------------
// rxd_bitrate_ctr
//
// Bitrate counter for receiving data on the external
// serial interface.
//----------------------------------------------------------------
always @*
begin: rxd_bitrate_ctr
rxd_bitrate_ctr_new = 16'h0000;
rxd_bitrate_ctr_we = 0;
if (rxd_bitrate_ctr_rst)
begin
rxd_bitrate_ctr_new = 16'h0000;
rxd_bitrate_ctr_we = 1;
end
else if (rxd_bitrate_ctr_inc)
begin
rxd_bitrate_ctr_new = rxd_bitrate_ctr_reg + 16'h0001;
rxd_bitrate_ctr_we = 1;
end
end // rxd_bitrate_ctr
//----------------------------------------------------------------
// txd_bit_ctr
//
// Bit counter for transmitting data on the external
// serial interface.
//----------------------------------------------------------------
always @*
begin: txd_bit_ctr
txd_bit_ctr_new = 4'h0;
txd_bit_ctr_we = 0;
if (txd_bit_ctr_rst)
begin
txd_bit_ctr_new = 4'h0;
txd_bit_ctr_we = 1;
end
else if (txd_bit_ctr_inc)
begin
txd_bit_ctr_new = txd_bit_ctr_reg + 4'b0001;
txd_bit_ctr_we = 1;
end
end // txd_bit_ctr
//----------------------------------------------------------------
// txd_bitrate_ctr
//
// Bitrate counter for transmitting data on the external
// serial interface.
//----------------------------------------------------------------
always @*
begin: txd_bitrate_ctr
txd_bitrate_ctr_new = 16'h0000;
txd_bitrate_ctr_we = 0;
if (txd_bitrate_ctr_rst)
begin
txd_bitrate_ctr_new = 16'h0000;
txd_bitrate_ctr_we = 1;
end
else if (txd_bitrate_ctr_inc)
begin
txd_bitrate_ctr_new = txd_bitrate_ctr_reg + 16'h0001;
txd_bitrate_ctr_we = 1;
end
end // txd_bitrate_ctr
//----------------------------------------------------------------
// external_rx_engine
//
// Logic that implements the receive engine towards
// the external interface. Detects incoming data, collects it,
// if required checks parity and store correct data into
// the rx buffer.
//----------------------------------------------------------------
always @*
begin: external_rx_engine
rxd_bit_ctr_rst = 0;
rxd_bit_ctr_inc = 0;
rxd_bitrate_ctr_rst = 0;
rxd_bitrate_ctr_inc = 0;
rxd_byte_we = 0;
rxd_syn_new = 0;
rxd_syn_we = 0;
erx_ctrl_new = ERX_IDLE;
erx_ctrl_we = 0;
case (erx_ctrl_reg)
ERX_IDLE:
begin
if (!rxd_reg)
begin
// Possible start bit detected.
rxd_bitrate_ctr_rst = 1;
erx_ctrl_new = ERX_START;
erx_ctrl_we = 1;
end
end
ERX_START:
begin
rxd_bitrate_ctr_inc = 1;
if (rxd_reg)
begin
// Just a glitch.
erx_ctrl_new = ERX_IDLE;
erx_ctrl_we = 1;
end
else
begin
if (rxd_bitrate_ctr_reg == half_bit_rate)
begin
// start bit assumed. We start sampling data.
rxd_bit_ctr_rst = 1;
rxd_bitrate_ctr_rst = 1;
erx_ctrl_new = ERX_BITS;
erx_ctrl_we = 1;
end
end
end
ERX_BITS:
begin
if (rxd_bitrate_ctr_reg < bit_rate)
begin
rxd_bitrate_ctr_inc = 1;
end
else
begin
rxd_byte_we = 1;
rxd_bit_ctr_inc = 1;
rxd_bitrate_ctr_rst = 1;
if (rxd_bit_ctr_reg == data_bits - 1)
begin
erx_ctrl_new = ERX_STOP;
erx_ctrl_we = 1;
end
end
end
ERX_STOP:
begin
rxd_bitrate_ctr_inc = 1;
if (rxd_bitrate_ctr_reg == bit_rate * stop_bits)
begin
rxd_syn_new = 1;
rxd_syn_we = 1;
erx_ctrl_new = ERX_SYN;
erx_ctrl_we = 1;
end
end
ERX_SYN:
begin
if (rxd_ack)
begin
rxd_syn_new = 0;
rxd_syn_we = 1;
erx_ctrl_new = ERX_IDLE;
erx_ctrl_we = 1;
end
end
default:
begin
end
endcase // case (erx_ctrl_reg)
end // external_rx_engine
//----------------------------------------------------------------
// external_tx_engine
//
// Logic that implements the transmit engine towards
// the external interface.
//----------------------------------------------------------------
always @*
begin: external_tx_engine
txd_new = 0;
txd_we = 0;
txd_byte_new = 0;
txd_byte_we = 0;
txd_bit_ctr_rst = 0;
txd_bit_ctr_inc = 0;
txd_bitrate_ctr_rst = 0;
txd_bitrate_ctr_inc = 0;
txd_ack_new = 0;
txd_ack_we = 0;
etx_ctrl_new = ETX_IDLE;
etx_ctrl_we = 0;
case (etx_ctrl_reg)
ETX_IDLE:
begin
txd_new = 1;
txd_we = 1;
if (txd_syn)
begin
txd_byte_new = txd_data;
txd_byte_we = 1;
txd_ack_new = 1;
txd_ack_we = 1;
txd_bitrate_ctr_rst = 1;
etx_ctrl_new = ETX_ACK;
etx_ctrl_we = 1;
end
end
ETX_ACK:
begin
if (!txd_syn)
begin
txd_new = 0;
txd_we = 1;
txd_ack_new = 0;
txd_ack_we = 1;
etx_ctrl_new = ETX_START;
etx_ctrl_we = 1;
end
end
ETX_START:
begin
if (txd_bitrate_ctr_reg == bit_rate)
begin
txd_bit_ctr_rst = 1;
etx_ctrl_new = ETX_BITS;
etx_ctrl_we = 1;
end
else
begin
txd_bitrate_ctr_inc = 1;
end
end
ETX_BITS:
begin
if (txd_bitrate_ctr_reg < bit_rate)
begin
txd_bitrate_ctr_inc = 1;
end
else
begin
txd_bitrate_ctr_rst = 1;
if (txd_bit_ctr_reg == data_bits)
begin
txd_new = 1;
txd_we = 1;
etx_ctrl_new = ETX_STOP;
etx_ctrl_we = 1;
end
else
begin
txd_new = txd_byte_reg[txd_bit_ctr_reg];
txd_we = 1;
txd_bit_ctr_inc = 1;
end
end
end
ETX_STOP:
begin
txd_bitrate_ctr_inc = 1;
if (txd_bitrate_ctr_reg == bit_rate * stop_bits)
begin
etx_ctrl_new = ETX_IDLE;
etx_ctrl_we = 1;
end
end
default:
begin
end
endcase // case (etx_ctrl_reg)
end // external_tx_engine
endmodule // uart
//======================================================================
// EOF uart.v
//======================================================================
|