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[/] [open8_urisc/] [trunk/] [VHDL/] [o8_async_serial.vhd] - Rev 210

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-- Copyright (c)2020 Jeremy Seth Henry
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
--     * Redistributions of source code must retain the above copyright
--       notice, this list of conditions and the following disclaimer.
--     * 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,
--       where applicable (as part of a user interface, debugging port, etc.)
--
-- THIS SOFTWARE IS PROVIDED BY JEREMY SETH HENRY ``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 JEREMY SETH HENRY 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.
--
-- VHDL Units :  o8_async_serial
-- Description:  Provides a single 8-bit, asynchronous transceiver. While the
--               width is fixed at 8-bits, the bit rate and parity controls
--               are settable via generics.
--
-- Note: The baud rate generator will produce an approximate frequency. The
--        final bit rate should be within +/- 1% of the true bit rate to
--        ensure the receiver can successfully receive. With a sufficiently
--        high core clock, this is generally achievable for common PC serial
--        data rates.
 
library ieee;
use ieee.std_logic_1164.all;
use ieee.std_logic_unsigned.all;
use ieee.std_logic_arith.all;
use ieee.std_logic_misc.all;
 
library work;
  use work.open8_pkg.all;
 
entity o8_async_serial is
generic(
  Bit_Rate              : real;
  Enable_Parity         : boolean;
  Parity_Odd_Even_n     : std_logic;
  Sys_Freq              : real;
  Reset_Level           : std_logic;
  Address               : ADDRESS_TYPE
);
port(
  Clock                 : in  std_logic;
  Reset                 : in  std_logic;
  --
  Bus_Address           : in  ADDRESS_TYPE;
  Wr_Enable             : in  std_logic;
  Wr_Data               : in  DATA_TYPE;
  Rd_Enable             : in  std_logic;
  Rd_Data               : out DATA_TYPE;
  --
  TX_Out                : out std_logic;
  CTS_In                : in  std_logic;
  RX_In                 : in  std_logic;
  RTS_Out               : out std_logic
);
end entity;
 
architecture behave of o8_async_serial is
 
  signal FIFO_Reset          : std_logic := '0';
 
  constant User_Addr         : std_logic_vector(15 downto 1) :=
                                Address(15 downto 1);
  alias  Comp_Addr           is Bus_Address(15 downto 1);
  signal Addr_Match          : std_logic := '0';
 
  alias  Reg_Addr            is Bus_Address(0);
  signal Reg_Sel             : std_logic := '0';
  signal Rd_En               : std_logic := '0';
 
  signal TX_FIFO_Wr_En       : std_logic := '0';
  alias  TX_FIFO_Wr_Data     is Wr_Data;
  signal TX_FIFO_Rd_En       : std_logic := '0';
  signal TX_FIFO_Empty       : std_logic := '0';
  signal TX_FIFO_AFull       : std_logic := '0';
  signal TX_FIFO_Rd_Data     : DATA_TYPE := x"00";
 
  alias  Tx_Data             is TX_FIFO_Rd_Data;
 
  type TX_CTRL_STATES is (IDLE, TX_BYTE, TX_START, TX_WAIT );
  signal TX_Ctrl             : TX_CTRL_STATES := IDLE;
 
  signal TX_Xmit             : std_logic := '0';
  signal TX_Done             : std_logic := '0';
 
  constant BAUD_RATE_DIV     : integer := integer(Sys_Freq / Bit_Rate);
 
  signal CTS_sr              : std_logic_vector(3 downto 0) := "0000";
  alias  CTS_Okay            is CTS_sr(3);
 
  signal RX_FIFO_Wr_En       : std_logic := '0';
  signal RX_FIFO_Wr_Data     : DATA_TYPE := x"00";
  signal RX_FIFO_Rd_En       : std_logic := '0';
  signal RX_FIFO_Empty       : std_logic := '0';
  signal RX_FIFO_AFull       : std_logic := '0';
  signal RX_FIFO_Rd_Data     : DATA_TYPE := x"00";
 
begin
 
  Addr_Match                 <= '1' when Comp_Addr = User_Addr else '0';
 
  io_reg: process( Clock, Reset )
  begin
    if( Reset = Reset_Level )then
      Rd_En             <= '0';
      Rd_Data           <= OPEN8_NULLBUS;
      RTS_Out           <= '0';
    elsif( rising_edge( Clock ) )then
      Rd_Data           <= OPEN8_NULLBUS;
      Rd_En             <= Rd_Enable and Addr_Match;
      Reg_Sel           <= Reg_Addr;
      if( Rd_En = '1' and Reg_Sel = '1' )then
        Rd_Data(4)      <= RX_FIFO_Empty;
        Rd_Data(5)      <= RX_FIFO_AFull;
        Rd_Data(6)      <= TX_FIFO_Empty;
        Rd_Data(7)      <= TX_FIFO_AFull;
      end if;
      if( Rd_En = '1' and Reg_Sel = '0' )then
        Rd_Data         <= RX_FIFO_Rd_Data;
      end if;
      RTS_Out           <= not RX_FIFO_AFull;
    end if;
  end process;
 
  TX_FIFO_Wr_En              <= Wr_Enable and Addr_Match and not Reg_Addr;
 
  FIFO_Reset                 <= '1' when Reset = Reset_Level else '0';
 
  U_TX_FIFO : entity work.fifo_1k_core
  port map(
    aclr                     => FIFO_Reset,
    clock                    => Clock,
    data                     => TX_FIFO_Wr_Data,
    rdreq                    => TX_FIFO_Rd_En,
    wrreq                    => TX_FIFO_Wr_En,
    empty                    => TX_FIFO_Empty,
    almost_full              => TX_FIFO_AFull,
    q                        => TX_FIFO_Rd_Data
  );
 
  tx_FSM: process( Clock, Reset )
  begin
    if( Reset = Reset_Level )then
      TX_Ctrl                <= IDLE;
      TX_Xmit                <= '0';
      TX_FIFO_Rd_En          <= '0';
      CTS_sr                 <= (others => '0');
    elsif( rising_edge(Clock) )then
      TX_Xmit                <= '0';
      TX_FIFO_Rd_En          <= '0';
      CTS_sr                 <= CTS_sr(2 downto 0) & CTS_In;
 
      case( TX_Ctrl )is
        when IDLE =>
          if( TX_FIFO_Empty = '0' and CTS_Okay = '1' )then
            TX_FIFO_Rd_En    <= '1';
            TX_Ctrl          <= TX_BYTE;
          end if;
 
        when TX_BYTE =>
          TX_Xmit            <= '1';
          TX_Ctrl            <= TX_START;
 
        when TX_START =>
          if( Tx_Done = '0' )then
            TX_Ctrl          <= TX_WAIT;
          end if;
 
        when TX_WAIT =>
          if( Tx_Done = '1' )then
            TX_Ctrl          <= IDLE;
          end if;
 
        when others => null;
      end case;
 
    end if;
  end process;
 
  U_TX : entity work.async_ser_tx
  generic map(
    Reset_Level              => Reset_Level,
    Enable_Parity            => Enable_Parity,
    Parity_Odd_Even_n        => Parity_Odd_Even_n,
    Clock_Divider            => BAUD_RATE_DIV
  )
  port map(
    Clock                    => Clock,
    Reset                    => Reset,
    --
    Tx_Data                  => Tx_Data,
    Tx_Valid                 => TX_Xmit,
    --
    Tx_Out                   => TX_Out,
    Tx_Done                  => Tx_Done
  );
 
  U_RX : entity work.async_ser_rx
  generic map(
    Reset_Level              => Reset_Level,
    Enable_Parity            => Enable_Parity,
    Parity_Odd_Even_n        => Parity_Odd_Even_n,
    Clock_Divider            => BAUD_RATE_DIV
  )
  port map(
    Clock                    => Clock,
    Reset                    => Reset,
    --
    Rx_In                    => RX_In,
    --
    Rx_Data                  => RX_FIFO_Wr_Data,
    Rx_Valid                 => RX_FIFO_Wr_En,
    Rx_PErr                  => open
  );
 
  RX_FIFO_Rd_En              <= Rd_Enable and Addr_Match and not Reg_Addr;
 
  U_RX_FIFO : entity work.fifo_1k_core
  port map(
    aclr                     => FIFO_Reset,
    clock                    => Clock,
    data                     => RX_FIFO_Wr_Data,
    rdreq                    => RX_FIFO_Rd_En,
    wrreq                    => RX_FIFO_Wr_En,
    empty                    => RX_FIFO_Empty,
    almost_full              => RX_FIFO_AFull,
    q                        => RX_FIFO_Rd_Data
  );
 
end architecture;

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