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cdf2018-principal/fpga/communication_tb.vhd

314 lines
9.3 KiB
VHDL

-- Testbench automatically generated online
-- at http://vhdl.lapinoo.net
-- Generation date : 24.2.2018 16:12:08 GMT
library ieee;
use ieee.std_logic_1164.all;
use IEEE.NUMERIC_STD.ALL;
entity communication_tb is
end communication_tb;
architecture tb of communication_tb is
component communication
port (clock : in std_logic;
reset : in std_logic;
left : in integer;
right : in integer;
front : in integer;
zerocoder : out std_logic;
back : in integer;
txData : out std_logic_vector (7 downto 0);
txStb : out std_logic;
txAck : in std_logic;
rxData : in std_logic_vector (7 downto 0);
rxStb : in std_logic;
enA : out std_logic_vector(7 downto 0);
in1enC : out std_logic_vector(7 downto 0);
in2 : out std_logic;
enB : out std_logic_vector(7 downto 0);
in3enD : out std_logic_vector(7 downto 0);
in4 : out std_logic
);
end component;
signal clock : std_logic;
signal reset : std_logic;
signal left : integer;
signal right : integer;
signal front : integer;
signal back : integer;
signal txData : std_logic_vector (7 downto 0);
signal txStb : std_logic;
signal zerocoder : std_logic;
signal txAck : std_logic;
signal rxData : std_logic_vector (7 downto 0);
signal rxStb : std_logic;
signal enA : std_logic_vector(7 downto 0);
signal in1enC : std_logic_vector(7 downto 0);
signal in2 : std_logic;
signal enB : std_logic_vector(7 downto 0);
signal in3enD : std_logic_vector(7 downto 0);
signal in4 : std_logic;
constant TbPeriod : time := 20 ns;
signal TbClock : std_logic := '0';
signal TbSimEnded : std_logic := '0';
type multipleChar is array (0 to 15) of std_logic_vector(7 downto 0);
begin
dut : communication
port map (clock => clock,
reset => reset,
left => left,
right => right,
front => front,
back => back,
txData => txData,
txStb => txStb,
zerocoder => zerocoder,
txAck => txAck,
rxData => rxData,
rxStb => rxStb,
enA => enA,
in1enC => in1enC,
in2 => in2,
enB => enB,
in3enD => in3enD,
in4 => in4
);
-- Clock generation
TbClock <= not TbClock after TbPeriod/2 when TbSimEnded /= '1' else '0';
clock <= TbClock;
stimuli : process
variable tampon : multipleChar;
begin
front <= 0;
back <= 0;
left <= 1152;
right <= 11614;
txAck <= '0';
rxData <= (others => '0');
rxStb <= '0';
-- Reset generation
reset <= '1';
wait for 100 ns;
reset <= '0';
wait for 100 ns;
-- Test Ping
report "TEST Receiving 'P'" severity note;
rxData <= x"50";
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for 100 ns;
assert txData = x"50" report "Not sent 'P'" severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
wait for 100 ns;
assert txStb = '0' report "Not stopping send" severity error;
wait for 100 ns; -- Margin
-- Test unknown char
report "TEST Receiving '?'" severity note;
rxData <= x"3F";
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for 100 ns;
assert txData = x"45" report "Not sent 'E'" severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
wait for 100 ns;
assert txData = x"43" report "Not sent 'C'" severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
wait for 100 ns;
assert txStb = '0' report "Not stopping send" severity error;
wait for 100 ns; -- Margin
-- Test queue
report "TEST Receiving 'P' three times" severity note;
rxData <= x"50";
for I in 0 to 2 loop
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for 100 ns;
end loop;
for I in 0 to 2 loop
wait for 100 ns;
assert txData = x"50" report "Not sent 'P'" severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
end loop;
wait for 100 ns;
assert txStb = '0' report "Not stopping send" severity error;
-- Test captor
front <= 1152;
back <= 11614;
report "TEST Receiving 'C'" severity note;
rxData <= x"43";
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
tampon(0 to 4) := (x"43", x"80", x"04", x"5E", x"2D");
for I in 0 to 4 loop
wait for 100 ns;
assert txData = tampon(I) report "Not sent correct data, got " & integer'image(to_integer(unsigned(txData))) & ", expected " & integer'image(to_integer(unsigned(tampon(I))))severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
end loop;
wait for 100 ns;
assert txStb = '0' report "Not stopping send" severity error;
-- Test encoder
report "TEST Receiving 'D'" severity note;
rxData <= x"44";
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for TbPeriod;
assert zerocoder = '1' report "Not reseting coder values" severity error;
left <= 0;
right <= 0;
wait for TbPeriod;
assert zerocoder = '0' report "Not stopping reseting coder values" severity error;
tampon(0 to 4) := (x"44", x"80", x"04", x"5E", x"2D");
for I in 0 to 4 loop
wait for 100 ns;
assert txData = tampon(I) report "Not sent correct data, got " & integer'image(to_integer(unsigned(txData))) & ", expected " & integer'image(to_integer(unsigned(tampon(I)))) severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
end loop;
wait for 100 ns;
assert txStb = '0' report "Not stopping send" severity error;
-- Test capt trigger
report "TEST Receiving 'c'" severity note;
tampon(0 to 4) := (x"63", x"80", x"04", x"5E", x"2D");
for I in 0 to 4 loop
rxData <= tampon(I);
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for TbPeriod;
end loop;
wait for 100 ns;
front <= 11614;
back <= 11614;
tampon(0 to 4) := (x"43", x"5E", x"2D", x"5E", x"2D");
for I in 0 to 4 loop
wait for 100 ns;
assert txData = tampon(I) report "Not sent correct data, got " & integer'image(to_integer(unsigned(txData))) & ", expected " & integer'image(to_integer(unsigned(tampon(I))))severity error;
assert txStb = '1' report "Not sending" severity error;
wait for 100 ns;
txAck <= '1';
wait for TbPeriod;
txAck <= '0';
end loop;
wait for 100 ns;
-- Test PWM1
report "TEST Receiving 'W'" severity note;
tampon(0 to 3) := (x"57", x"CC", x"77", x"03");
for I in 0 to 3 loop
rxData <= tampon(I);
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for TbPeriod;
end loop;
assert enA = x"CC" report "ENA not at correct value" severity error;
assert enB = x"77" report "ENB not at correct value" severity error;
assert in1enC = x"FF" report "IN1 not at correct value" severity error;
assert in2 = '1' report "IN1 not at correct value" severity error;
assert in3enD = x"00" report "IN3 not at correct value" severity error;
assert in4 = '0' report "IN4 not at correct value" severity error;
wait for 100 ns;
-- Test PWM2
report "TEST Receiving 'w'" severity note;
tampon(0 to 4) := (x"77", x"11", x"22", x"33", x"44");
for I in 0 to 4 loop
rxData <= tampon(I);
rxStb <= '1';
wait for TbPeriod;
rxStb <= '0';
wait for TbPeriod;
end loop;
assert enA = x"11" report "ENA not at correct value" severity error;
assert in1enC = x"22" report "ENC not at correct value" severity error;
assert enB = x"33" report "ENB not at correct value" severity error;
assert in3enD = x"44" report "END not at correct value" severity error;
wait for 100 ns;
TbSimEnded <= '1';
wait;
end process;
end tb;