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-- -- 16450 compatible UART with synchronous bus interface -- RClk/BaudOut is XIn enable instead of actual clock -- -- Version : 0249b -- -- Copyright (c) 2002 Daniel Wallner (jesus@opencores.org) -- -- All rights reserved -- -- Redistribution and use in source and synthezised 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 synthesized 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. -- -- Neither the name of the author nor the names of other contributors may -- be used to endorse or promote products derived from this software without -- specific prior written permission. -- -- 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 AUTHOR 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. -- -- Please report bugs to the author, but before you do so, please -- make sure that this is not a derivative work and that -- you have the latest version of this file. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First release -- -- 0249 : Fixed interrupt and baud rate bugs found by Andy Dyer -- Added modem status and break detection -- Added support for 1.5 and 2 stop bits -- -- 0249b : Fixed loopback break generation bugs found by Andy Dyer -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; entity T16450 is port( MR_n : in std_logic; XIn : in std_logic; RClk : in std_logic; CS_n : in std_logic; Rd_n : in std_logic; Wr_n : in std_logic; A : in std_logic_vector(2 downto 0); D_In : in std_logic_vector(7 downto 0); D_Out : out std_logic_vector(7 downto 0); SIn : in std_logic; CTS_n : in std_logic; DSR_n : in std_logic; RI_n : in std_logic; DCD_n : in std_logic; SOut : out std_logic; RTS_n : out std_logic; DTR_n : out std_logic; OUT1_n : out std_logic; OUT2_n : out std_logic; BaudOut : out std_logic; Intr : out std_logic ); end T16450; architecture rtl of T16450 is signal RBR : std_logic_vector(7 downto 0); -- Reciever Buffer Register signal THR : std_logic_vector(7 downto 0); -- Transmitter Holding Register signal IER : std_logic_vector(7 downto 0); -- Interrupt Enable Register signal IIR : std_logic_vector(7 downto 0); -- Interrupt Ident. Register signal LCR : std_logic_vector(7 downto 0); -- Line Control Register signal MCR : std_logic_vector(7 downto 0); -- MODEM Control Register signal LSR : std_logic_vector(7 downto 0); -- Line Status Register signal MSR : std_logic_vector(7 downto 0); -- MODEM Status Register signal SCR : std_logic_vector(7 downto 0); -- Scratch Register signal DLL : std_logic_vector(7 downto 0); -- Divisor Latch (LS) signal DLM : std_logic_vector(7 downto 0); -- Divisor Latch (MS) signal DM0 : std_logic_vector(7 downto 0); signal DM1 : std_logic_vector(7 downto 0); signal MSR_In : std_logic_vector(3 downto 0); signal Bit_Phase : unsigned(3 downto 0); signal Brk_Cnt : unsigned(3 downto 0); signal RX_Filtered : std_logic; signal RX_ShiftReg : std_logic_vector(7 downto 0); signal RX_Bit_Cnt : integer range 0 to 11; signal RX_Parity : std_logic; signal RXD : std_logic; signal TX_Tick : std_logic; signal TX_ShiftReg : std_logic_vector(7 downto 0); signal TX_Bit_Cnt : integer range 0 to 11; signal TX_Parity : std_logic; signal TX_Next_Is_Stop : std_logic; signal TX_Stop_Bit : std_logic; signal TXD : std_logic; begin DTR_n <= MCR(4) or not MCR(0); RTS_n <= MCR(4) or not MCR(1); OUT1_n <= MCR(4) or not MCR(2); OUT2_n <= MCR(4) or not MCR(3); SOut <= MCR(4) or (TXD and not LCR(6)); RXD <= SIn when MCR(4) = '0' else (TXD and not LCR(6)); Intr <= not IIR(0); -- Registers DM0 <= DLL when LCR(7) = '1' else RBR; DM1 <= DLM when LCR(7) = '1' else IER; with A select D_Out <= DM0 when "000", DM1 when "001", IIR when "010", LCR when "011", MCR when "100", LSR when "101", MSR when "110", SCR when others; process (MR_n, XIn) begin if MR_n = '0' then THR <= "00000000"; IER <= "00000000"; LCR <= "00000000"; MCR <= "00000000"; MSR(3 downto 0) <= "0000"; SCR <= "00000000"; -- ?? DLL <= "00000000"; -- ?? DLM <= "00000000"; -- ?? elsif XIn'event and XIn = '1' then if Wr_n = '0' and CS_n = '0' then case A is when "000" => if LCR(7) = '1' then DLL <= D_In; else THR <= D_In; end if; when "001" => if LCR(7) = '1' then DLM <= D_In; else IER(3 downto 0) <= D_In(3 downto 0); end if; when "011" => LCR <= D_In; when "100" => MCR <= D_In; when "111" => SCR <= D_In; when others => end case; end if; if Rd_n = '0' and CS_n = '0' and A = "110" then MSR(3 downto 0) <= "0000"; end if; if MSR(4) /= MSR_In(0) then MSR(0) <= '1'; end if; if MSR(5) /= MSR_In(1) then MSR(1) <= '1'; end if; if MSR(6) = '0' and MSR_In(2) = '1' then MSR(2) <= '1'; end if; if MSR(7) /= MSR_In(3) then MSR(3) <= '1'; end if; end if; end process; process (XIn) begin if XIn'event and XIn = '1' then if MCR(4) = '0' then MSR(4) <= MSR_In(0); MSR(5) <= MSR_In(1); MSR(6) <= MSR_In(2); MSR(7) <= MSR_In(3); else MSR(4) <= MCR(1); MSR(5) <= MCR(0); MSR(6) <= MCR(2); MSR(7) <= MCR(3); end if; MSR_In(0) <= CTS_n; MSR_In(1) <= DSR_n; MSR_In(2) <= RI_n; MSR_In(3) <= DCD_n; end if; end process; IIR(7 downto 3) <= "00000"; IIR(2 downto 0) <= "110" when IER(2) = '1' and LSR(4 downto 1) /= "0000" else "100" when (IER(0) and LSR(0)) = '1' else "010" when (IER(1) and LSR(5)) = '1' else "000" when IER(3) = '1' and ((MCR(4) = '0' and MSR(3 downto 0) /= "0000") or (MCR(4) = '1' and MCR(3 downto 0) /= "0000")) else "001"; -- Baud x 16 clock generator process (MR_n, XIn) variable Baud_Cnt : unsigned(15 downto 0); begin if MR_n = '0' then Baud_Cnt := "0000000000000000"; BaudOut <= '0'; elsif XIn'event and XIn = '1' then if Baud_Cnt(15 downto 1) = "000000000000000" or (Wr_n = '0' and CS_n = '0' and A(2 downto 1) = "00" and LCR(7) = '1') then Baud_Cnt(15 downto 8) := unsigned(DLM); Baud_Cnt(7 downto 0) := unsigned(DLL); BaudOut <= '1'; else Baud_Cnt := Baud_Cnt - 1; BaudOut <= '0'; end if; end if; end process; -- Input filter process (MR_n, XIn) variable Samples : std_logic_vector(1 downto 0); begin if MR_n = '0' then Samples := "11"; RX_Filtered <= '1'; elsif XIn'event and XIn = '1' then if RClk = '1' then Samples(1) := Samples(0); Samples(0) := RXD; end if; if Samples = "00" then RX_Filtered <= '0'; end if; if Samples = "11" then RX_Filtered <= '1'; end if; end if; end process; -- Receive state machine process (MR_n, XIn) begin if MR_n = '0' then RBR <= "00000000"; LSR(4 downto 0) <= "00000"; Bit_Phase <= "0000"; Brk_Cnt <= "0000"; RX_ShiftReg(7 downto 0) <= "00000000"; RX_Bit_Cnt <= 0; RX_Parity <= '0'; elsif XIn'event and XIn = '1' then if A = "000" and LCR(7) = '0' and Rd_n = '0' and CS_n = '0' then LSR(0) <= '0'; -- DR end if; if A = "101" and Rd_n = '0' and CS_n = '0' then LSR(4) <= '0'; -- BI LSR(3) <= '0'; -- FE LSR(2) <= '0'; -- PE LSR(1) <= '0'; -- OE end if; if RClk = '1' then if RX_Bit_Cnt = 0 and (RX_Filtered = '1' or Bit_Phase = "0111") then Bit_Phase <= "0000"; else Bit_Phase <= Bit_Phase + 1; end if; if Bit_Phase = "1111" then if RX_Filtered = '1' then Brk_Cnt <= "0000"; else Brk_Cnt <= Brk_Cnt + 1; end if; if Brk_Cnt = "1100" then LSR(4) <= '1'; -- BI end if; end if; if RX_Bit_Cnt = 0 then if Bit_Phase = "0111" then RX_Bit_Cnt <= RX_Bit_Cnt + 1; RX_Parity <= not LCR(4); -- EPS end if; elsif Bit_Phase = "1111" then RX_Bit_Cnt <= RX_Bit_Cnt + 1; if RX_Bit_Cnt = 10 then -- Parity stop bit RX_Bit_Cnt <= 0; LSR(0) <= '1'; -- UART Receive complete LSR(3) <= not RX_Filtered; -- Framing error elsif (RX_Bit_Cnt = 9 and LCR(1 downto 0) = "11") or (RX_Bit_Cnt = 8 and LCR(1 downto 0) = "10") or (RX_Bit_Cnt = 7 and LCR(1 downto 0) = "01") or (RX_Bit_Cnt = 6 and LCR(1 downto 0) = "00") then -- Stop bit/Parity RX_Bit_Cnt <= 0; if LCR(3) = '1' then -- PEN RX_Bit_Cnt <= 10; if LCR(5) = '1' then -- Stick parity if RX_Filtered = LCR(4) then LSR(2) <= '1'; end if; else if RX_Filtered /= RX_Parity then LSR(2) <= '1'; end if; end if; else LSR(0) <= '1'; -- UART Receive complete LSR(3) <= not RX_Filtered; -- Framing error end if; RBR <= RX_ShiftReg(7 downto 0); LSR(1) <= LSR(0); if A = "101" and Rd_n = '0' and CS_n = '0' then LSR(1) <= '0'; end if; else RX_ShiftReg(6 downto 0) <= RX_ShiftReg(7 downto 1); RX_ShiftReg(7) <= RX_Filtered; if LCR(1 downto 0) = "10" then RX_ShiftReg(7) <= '0'; RX_ShiftReg(6) <= RX_Filtered; end if; if LCR(1 downto 0) = "01" then RX_ShiftReg(7) <= '0'; RX_ShiftReg(6) <= '0'; RX_ShiftReg(5) <= RX_Filtered; end if; if LCR(1 downto 0) = "00" then RX_ShiftReg(7) <= '0'; RX_ShiftReg(6) <= '0'; RX_ShiftReg(5) <= '0'; RX_ShiftReg(4) <= RX_Filtered; end if; RX_Parity <= RX_Filtered xor RX_Parity; end if; end if; end if; end if; end process; -- Transmit bit tick process (MR_n, XIn) variable TX_Cnt : unsigned(4 downto 0); begin if MR_n = '0' then TX_Cnt := "00000"; TX_Tick <= '0'; elsif XIn'event and XIn = '1' then TX_Tick <= '0'; if RClk = '1' then TX_Cnt := TX_Cnt + 1; if LCR(2) = '1' and TX_Stop_Bit = '1' then if LCR(1 downto 0) = "00" then if TX_Cnt = "10111" then TX_Tick <= '1'; TX_Cnt(3 downto 0) := "0000"; end if; else if TX_Cnt = "11111" then TX_Tick <= '1'; TX_Cnt(3 downto 0) := "0000"; end if; end if; else TX_Cnt(4) := '1'; if TX_Cnt(3 downto 0) = "1111" then TX_Tick <= '1'; end if; end if; end if; end if; end process; -- Transmit state machine process (MR_n, XIn) begin if MR_n = '0' then LSR(7 downto 5) <= "011"; TX_Bit_Cnt <= 0; TX_ShiftReg <= (others => '0'); TXD <= '1'; TX_Parity <= '0'; TX_Next_Is_Stop <= '0'; TX_Stop_Bit <= '0'; elsif XIn'event and XIn = '1' then if TX_Tick = '1' then TX_Next_Is_Stop <= '0'; TX_Stop_Bit <= TX_Next_Is_Stop; case TX_Bit_Cnt is when 0 => if LSR(5) <= '0' then -- THRE TX_Bit_Cnt <= 1; end if; TXD <= '1'; when 1 => -- Start bit TX_ShiftReg(7 downto 0) <= THR; LSR(5) <= '1'; -- THRE TXD <= '0'; TX_Parity <= not LCR(4); -- EPS TX_Bit_Cnt <= TX_Bit_Cnt + 1; when 10 => -- Parity bit TXD <= TX_Parity; if LCR(5) = '1' then -- Stick parity TXD <= not LCR(4); end if; TX_Bit_Cnt <= 0; TX_Next_Is_Stop <= '1'; when others => TX_Bit_Cnt <= TX_Bit_Cnt + 1; if (TX_Bit_Cnt = 9 and LCR(1 downto 0) = "11") or (TX_Bit_Cnt = 8 and LCR(1 downto 0) = "10") or (TX_Bit_Cnt = 7 and LCR(1 downto 0) = "01") or (TX_Bit_Cnt = 6 and LCR(1 downto 0) = "00") then TX_Bit_Cnt <= 0; if LCR(3) = '1' then -- PEN TX_Bit_Cnt <= 10; else TX_Next_Is_Stop <= '1'; end if; LSR(6) <= '1'; -- TEMT end if; TXD <= TX_ShiftReg(0); TX_ShiftReg(6 downto 0) <= TX_ShiftReg(7 downto 1); TX_Parity <= TX_ShiftReg(0) xor TX_Parity; end case; end if; if Wr_n = '0' and CS_n = '0' and A = "000" and LCR(7) = '0' then LSR(5) <= '0'; -- THRE LSR(6) <= '0'; -- TEMT end if; end if; end process; end;
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