mor1kx-bemicrocv/cores/uart/uart_rx.vhd
2016-08-04 19:22:38 +02:00

156 lines
4.0 KiB
VHDL

-- A simple UART (TX)
-- Author : Kurisu <kurisu@shimatta.de>
-- Modifed : Markus <markus-oliver.koch@thalesgroup.com>
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity uart_rx is
port(
clk : in std_logic;
rst : in std_logic;
data : out std_logic_vector(7 downto 0);
byte_ready : out std_logic;
error : out std_logic;
ckDiv : in std_logic_vector(15 downto 0);
parityEnable : in std_logic;
parityOdd : in std_logic;
twoStopBits : in std_logic;
rx : in std_logic
);
end entity uart_rx;
architecture RTL of uart_rx is
constant SYNCH_COUNT : integer := 11; -- Min. 8
constant BITCOUNT : integer := 8;
type state_t is (SYNCH, IDLE, START, RECEIVE, PARITY, STOP);
signal state : state_t;
signal clkDivider : unsigned(15 downto 0);
signal bitCounter : integer range 0 to SYNCH_COUNT;
signal data_i : std_logic_vector(7 downto 0);
signal rx_edge : std_logic;
signal parity_calc : std_logic;
signal rx_i : std_logic;
begin
synchronizer_inst : entity work.synchronizer
generic map(
COUNT => 1
)
port map(
clk => clk,
rst => rst,
dIn(0) => rx,
dOut(0) => rx_i
);
edgeDetector_inst : entity work.edgeDetector
port map(clk => clk,
rst => rst,
sig => rx_i,
risingEdge => open,
fallingEdge => open,
anyEdge => rx_edge);
rxFSM : process(clk, rst, parityOdd, ckDiv) is
begin
if rst = '1' then
state <= SYNCH;
bitCounter <= SYNCH_COUNT;
clkDivider <= unsigned(ckDiv);
error <= '0';
parity_calc <= parityOdd;
data_i <= x"00";
data <= x"00";
byte_ready <= '0';
elsif rising_edge(clk) then
byte_ready <= '0';
error <= '0';
if (clkDivider = 0) then
clkDivider <= unsigned(ckDiv);
else
clkDivider <= clkDivider - 1;
end if;
case state is
when SYNCH => -- Wait for 11 consecutive ones
if (clkDivider = to_unsigned(0, clkDivider'length)) then
if rx_i = '1' then
if bitCounter = 0 then
state <= IDLE;
else
bitCounter <= bitcounter - 1;
end if;
else
bitCounter <= SYNCH_COUNT;
end if;
end if;
when IDLE => -- Detect transition for sync
if rx_i = '0' then
state <= START;
clkDivider <= unsigned('0' & ckDiv(15 downto 1)); -- cMax_half. After that we are in the middle of the start bit
parity_calc <= parityOdd;
end if;
when START =>
if (clkDivider = to_unsigned(0, clkDivider'length)) then
if rx_i = '0' then
state <= RECEIVE;
bitCounter <= 0;
else
report "uart_rx: START BIT ERROR" severity warning;
error <= '1';
state <= SYNCH;
end if;
end if;
when RECEIVE =>
if (clkDivider = to_unsigned(0, clkDivider'length)) then
data_i(bitCounter) <= rx_i;
if rx_i = '1' then
parity_calc <= not parity_calc;
end if;
if bitCounter = BITCOUNT - 1 then
bitCounter <= 0;
if parityEnable = '1' then
state <= PARITY;
else
state <= STOP;
end if;
else
bitCounter <= bitCounter + 1;
end if;
end if;
when PARITY =>
if (clkDivider = to_unsigned(0, clkDivider'length)) then
if parity_calc = rx_i then
state <= STOP;
else
state <= SYNCH;
error <= '1';
report "uart_rx: PARITY ERROR" severity warning;
end if;
end if;
when STOP =>
if (clkDivider = to_unsigned(0, clkDivider'length)) then
if (rx_i = '1') then
bitCounter <= bitCounter + 1;
if bitCounter = 1 or twoStopBits = '0' then
state <= IDLE;
data <= data_i;
byte_ready <= '1';
end if;
else
error <= '1';
state <= SYNCH;
report "uart_rx: STOP BIT ERROR" severity warning;
end if;
end if;
end case;
end if;
end process rxFSM;
end architecture RTL;