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SEm-Labos/Libs/RS232_test/hdl/serialPortFIFO_tester_test.vhd

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6.3 KiB
VHDL
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2024-02-23 13:01:05 +00:00
ARCHITECTURE test OF serialPortFIFO_tester IS
-- reset and clock
constant clockPeriod: time := (1.0/clockFrequency) * 1 sec;
signal clock_int: std_uLogic := '1';
-- RS232 speed
constant rs232Frequency: real := baudRate;
constant rs232Period: time := (1.0/rs232Frequency) * 1 sec;
constant rs232WriteInterval: time := 10*rs232Period;
-- RS232 Rx test
signal rs232OutString : string(1 to 32);
signal rs232SendOutString: std_uLogic;
signal rs232SendOutDone: std_uLogic;
signal rs232OutByte: character;
signal rs232SendOutByte: std_uLogic;
signal rs232OutByteReturned: std_ulogic_vector(rxData'range);
-- RS232 Tx test
signal rs232InString : string(1 to 32);
signal rs232SendInString: std_uLogic;
signal rs232SendInDone: std_uLogic;
signal rs232InByte: character;
signal rs232InByteReturned: character;
BEGIN
------------------------------------------------------------------------------
-- reset and clock
reset <= '1', '0' after 2*clockPeriod;
clock_int <= not clock_int after clockPeriod/2;
clock <= transport clock_int after clockPeriod*9/10;
------------------------------------------------------------------------------
-- RS232 Rx test
process
begin
rs232SendOutString <= '0';
wait for 4*rs232Period;
rs232OutString <= "test 1 ";
rs232SendOutString <= '1', '0' after 1 ns;
wait until rs232SendOutDone = '1';
wait for rs232WriteInterval;
rs232OutString <= "test 2 ";
rs232SendOutString <= '1', '0' after 1 ns;
wait until rs232SendOutDone = '1';
wait for rs232WriteInterval;
rs232OutString <= "test 3 ";
rs232SendOutString <= '1', '0' after 1 ns;
wait until rs232SendOutDone = '1';
wait for rs232WriteInterval;
rs232OutString <= "test 4 ";
rs232SendOutString <= '1', '0' after 1 ns;
wait until rs232SendOutDone = '1';
wait for rs232WriteInterval;
wait;
end process;
readRxFifo: process
begin
rxRd <= '0';
wait until falling_edge(rxEmpty);
rxRd <= '1';
wait for clockPeriod;
rs232OutByteReturned <= rxData;
end process readRxFifo;
------------------------------------------------------------------------------
-- RS232 Tx test
process
begin
rs232SendInString <= '0';
wait for 4*rs232Period;
rs232InString <= "hello 1 ";
rs232SendInString <= '1', '0' after 1 ns;
wait until rs232SendInDone = '1';
wait for rs232WriteInterval;
rs232InString <= "hello 2 ";
rs232SendInString <= '1', '0' after 1 ns;
wait until rs232SendInDone = '1';
wait for rs232WriteInterval;
rs232InString <= "hello 3 ";
rs232SendInString <= '1', '0' after 1 ns;
wait until rs232SendInDone = '1';
wait for rs232WriteInterval;
rs232InString <= "hello 4 ";
rs232SendInString <= '1', '0' after 1 ns;
wait until rs232SendInDone = '1';
wait for rs232WriteInterval;
wait;
end process;
--============================================================================
-- RS232 send
rsSendSerialString: process
constant rs232BytePeriod : time := 15*rs232Period;
variable commandRight: natural;
begin
rs232SendOutByte <= '0';
rs232SendOutDone <= '0';
wait until rising_edge(rs232SendOutString);
commandRight := rs232OutString'right;
while rs232OutString(commandRight) = ' ' loop
commandRight := commandRight-1;
end loop;
for index in rs232OutString'left to commandRight loop
rs232OutByte <= rs232OutString(index);
rs232SendOutByte <= '1', '0' after 1 ns;
wait for rs232BytePeriod;
end loop;
rs232OutByte <= cr;
rs232SendOutByte <= '1', '0' after 1 ns;
wait for rs232BytePeriod;
rs232SendOutDone <= '1';
wait for 1 ns;
end process rsSendSerialString;
rsSendSerialByte: process
variable txData: unsigned(7 downto 0);
begin
RxD <= '1';
wait until rising_edge(rs232SendOutByte);
txData := to_unsigned(character'pos(rs232OutByte), txData'length);
RxD <= '0';
wait for rs232Period;
for index in txData'reverse_range loop
RxD <= txData(index);
wait for rs232Period;
end loop;
end process rsSendSerialByte;
rsSendParallelString: process
variable commandRight: natural;
begin
rs232SendInDone <= '0';
txWr <= '0';
wait until rising_edge(rs232SendInString);
commandRight := rs232OutString'right;
while rs232InString(commandRight) = ' ' loop
commandRight := commandRight-1;
end loop;
wait until rising_edge(clock_int);
for index in rs232InString'left to commandRight loop
wait until rising_edge(clock_int);
while txFull = '1' loop
txWr <= '0';
wait until rising_edge(clock_int);
end loop;
rs232InByte <= rs232InString(index);
txWr <= '1';
end loop;
wait until rising_edge(clock_int);
while txFull = '1' loop
txWr <= '0';
wait until rising_edge(clock_int);
end loop;
rs232InByte <= cr;
txWr <= '1';
wait until rising_edge(clock_int);
txWr <= '0';
rs232SendInDone <= '1';
wait for 1 ns;
end process rsSendParallelString;
txData <= std_ulogic_vector(to_unsigned(character'pos(rs232InByte), txData'length));
------------------------------------------------------------------------------
-- RS232 receive
rsReceiveByte: process
variable rxData: unsigned(7 downto 0);
begin
wait until falling_edge(TxD);
wait for 1.5 * rs232Period;
for index in rxData'reverse_range loop
rxData(index) := TxD;
wait for rs232Period;
end loop;
rs232InByteReturned <= character'val(to_integer(rxData));
end process rsReceiveByte;
END ARCHITECTURE test;