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cpu_test.vhdl
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cpu_test.vhdl
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library ieee;
USE ieee.std_logic_1164.ALL;
use ieee.numeric_std.all;
use work.all;
use work.debugtools.all;
entity cpu_test is
end cpu_test;
architecture behavior of cpu_test is
signal pmoda : std_logic_vector(7 downto 0) := "ZZZZZZZZ";
signal pmodc : std_logic_vector(7 downto 0) := "ZZZZZZZZ";
signal pixelclock : std_logic := '0';
signal cpuclock : std_logic := '0';
signal ioclock : std_logic := '0';
signal clock50mhz : std_logic := '0';
signal reset : std_logic := '0';
signal irq : std_logic := '1';
signal nmi : std_logic := '1';
signal vsync : std_logic;
signal hsync : std_logic;
signal vgared : unsigned(3 downto 0);
signal vgagreen : unsigned(3 downto 0);
signal vgablue : unsigned(3 downto 0);
signal slowram_datain : std_logic_vector(7 downto 0);
signal slowram_addr : std_logic_vector(26 downto 0);
signal slowram_addr_integer : integer range 0 to (1048576*128-1);
signal slowram_we : std_logic;
signal slowram_request_toggle : std_logic;
signal slowram_done_toggle : std_logic;
signal cache_address : std_logic_vector(8 downto 0);
signal cache_read_data : std_logic_vector(150 downto 0);
signal led : std_logic_vector(15 downto 0);
signal sw : std_logic_vector(15 downto 0) := (others => '0');
signal btn : std_logic_vector(4 downto 0) := (others => '0');
signal qspidb : std_logic_vector(3 downto 0) := (others => '0');
signal qspicsn : std_logic;
signal qspisck : std_logic;
signal aclsck : std_logic;
signal UART_TXD : std_logic;
signal RsRx : std_logic;
signal sseg_ca : std_logic_vector(7 downto 0);
signal sseg_an : std_logic_vector(7 downto 0);
component slowram is
port (address : in std_logic_vector(26 downto 0);
datain : in std_logic_vector(7 downto 0);
request_toggle : in std_logic;
done_toggle : out std_logic;
cache_address : in std_logic_vector(8 downto 0);
we : in std_logic;
cache_read_data : out std_logic_vector(150 downto 0)
);
end component;
component machine is
Port ( pixelclock : STD_LOGIC;
pixelclock2x : STD_LOGIC;
cpuclock : STD_LOGIC;
clock50mhz : in STD_LOGIC;
ioclock : STD_LOGIC;
uartclock : STD_LOGIC;
btnCpuReset : in STD_LOGIC;
irq : in STD_LOGIC;
nmi : in STD_LOGIC;
no_kickstart : in std_logic;
ddr_counter : in unsigned(7 downto 0);
ddr_state : in unsigned(7 downto 0);
----------------------------------------------------------------------
-- VGA output
----------------------------------------------------------------------
vsync : out STD_LOGIC;
hsync : out STD_LOGIC;
vgared : out UNSIGNED (3 downto 0);
vgagreen : out UNSIGNED (3 downto 0);
vgablue : out UNSIGNED (3 downto 0);
----------------------------------------------------------------------
-- Flash RAM for holding config
----------------------------------------------------------------------
QspiSCK : out std_logic;
QspiDB : inout std_logic_vector(3 downto 0);
QspiCSn : out std_logic;
fpga_temperature : in std_logic_vector(11 downto 0);
---------------------------------------------------------------------------
-- IO lines to the ethernet controller
---------------------------------------------------------------------------
eth_mdio : inout std_logic;
eth_mdc : out std_logic;
eth_reset : out std_logic;
eth_rxd : in unsigned(1 downto 0);
eth_txd : out unsigned(1 downto 0);
eth_txen : out std_logic;
eth_rxdv : in std_logic;
eth_rxer : in std_logic;
eth_interrupt : in std_logic;
-------------------------------------------------------------------------
-- Lines for the SDcard interface itself
-------------------------------------------------------------------------
cs_bo : out std_logic;
sclk_o : out std_logic;
mosi_o : out std_logic;
miso_i : in std_logic;
aclMISO : in std_logic;
aclMOSI : out std_logic;
aclSS : out std_logic;
aclInt1 : in std_logic;
aclInt2 : in std_logic;
aclSCK : out std_logic;
ampPWM : out std_logic;
ampSD : out std_logic;
micData : in std_logic;
micClk : out std_logic;
micLRSel : out std_logic;
tmpSDA : out std_logic;
tmpSCL : out std_logic;
tmpInt : in std_logic;
tmpCT : in std_logic;
--------------------------------------------------------------------
-- Slow RAM interface: null for now
--------------------------------------------------------------------
slowram_addr_reflect : in std_logic_vector(26 downto 0);
slowram_datain_reflect : in std_logic_vector(7 downto 0);
slowram_addr : out std_logic_vector(26 downto 0);
slowram_we : out std_logic;
slowram_request_toggle : out std_logic;
slowram_done_toggle : in std_logic;
slowram_datain : out std_logic_vector(7 downto 0);
-- simple-dual-port cache RAM interface so that CPU doesn't have to read
-- data cross-clock
cache_address : out std_logic_vector(8 downto 0);
cache_read_data : in std_logic_vector(150 downto 0);
----------------------------------------------------------------------
-- PS/2 adapted USB keyboard & joystick connector.
-- For now we will use a keyrah adapter to connect to the keyboard.
----------------------------------------------------------------------
ps2data : in std_logic;
ps2clock : in std_logic;
----------------------------------------------------------------------
-- PMOD interface for keyboard, joystick, expansion port etc board.
----------------------------------------------------------------------
pmod_clock : in std_logic;
pmod_start_of_sequence : in std_logic;
pmod_data_in : in std_logic_vector(3 downto 0);
pmod_data_out : out std_logic_vector(1 downto 0);
pmoda : inout std_logic_vector(7 downto 0);
uart_rx : in std_logic;
uart_tx : out std_logic;
----------------------------------------------------------------------
-- Debug interfaces on Nexys4 board
----------------------------------------------------------------------
led : out std_logic_vector(15 downto 0);
sw : in std_logic_vector(15 downto 0);
btn : in std_logic_vector(4 downto 0);
UART_TXD : out std_logic;
RsRx : in std_logic;
sseg_ca : out std_logic_vector(7 downto 0);
sseg_an : out std_logic_vector(7 downto 0)
);
end component;
-- Sample ethernet frame to test CRC calculation
type ram_t is array (0 to 4095) of unsigned(7 downto 0);
signal frame : ram_t := (
-- A real ping packet captured on the wire
x"FF", x"FF", x"FF", x"FF", x"FF", x"FF", x"C8", x"2A", x"14", x"08",
x"DA", x"E2", x"08", x"00", x"45", x"00", x"00", x"54", x"53", x"17",
x"00", x"00", x"FF", x"01", x"6A", x"73", x"A9", x"FE", x"AA", x"21",
x"A9", x"FE", x"FF", x"FF", x"08", x"00", x"DD", x"A7", x"CF", x"6E",
x"00", x"79", x"53", x"DB", x"32", x"3C", x"00", x"00", x"D9", x"55",
x"08", x"09", x"0A", x"0B", x"0C", x"0D", x"0E", x"0F", x"10", x"11",
x"12", x"13", x"14", x"15", x"16", x"17", x"18", x"19", x"1A", x"1B",
x"1C", x"1D", x"1E", x"1F", x"20", x"21", x"22", x"23", x"24", x"25",
x"26", x"27", x"28", x"29", x"2A", x"2B", x"2C", x"2D", x"2E", x"2F",
x"30", x"31", x"32", x"33", x"34", x"35", x"36", x"37", x"46", x"44",
x"25", x"A6",
others => x"00");
signal eth_rxdv : std_logic := '0';
signal eth_rxd : unsigned(1 downto 0) := "00";
signal eth_txen : std_logic;
signal eth_txd : unsigned(1 downto 0);
begin
slowram0: slowram
port map(address => slowram_addr,
datain => slowram_datain,
we => slowram_we,
request_toggle => slowram_request_toggle,
done_toggle => slowram_done_toggle,
cache_address => cache_address,
cache_read_data => cache_read_data
);
core0: machine
port map (
ddr_counter => (others => '1'),
ddr_state => (others => '1'),
fpga_temperature => (others => '1'),
pixelclock => pixelclock,
pixelclock2x => pixelclock, -- XXX we don't need the 2x clock in
-- simulation. as it is only used for the
-- alpha blender.
cpuclock => cpuclock,
clock50mhz => clock50mhz,
ioclock => cpuclock,
uartclock => ioclock,
btnCpuReset => reset,
irq => '1',
nmi => '1',
no_kickstart => '0',
ps2data => '1',
ps2clock => '1',
pmod_clock => '0',
pmod_start_of_sequence => '1',
pmod_data_in => "0000",
pmoda => pmoda,
uart_rx => pmodc(1),
uart_tx => pmodc(2),
miso_i => '1',
qspidb => qspidb,
qspicsn => qspicsn,
qspisck => qspisck,
aclsck => aclsck,
aclMISO => '1',
aclInt1 => '0',
aclInt2 => '0',
micData => '0',
tmpInt => '0',
tmpCT => '0',
eth_txd => eth_txd,
eth_txen => eth_txen,
eth_rxd => eth_rxd,
eth_rxdv => eth_rxdv,
eth_rxer => '0',
eth_interrupt => '0',
slowram_addr_reflect => slowram_addr,
slowram_datain_reflect => slowram_datain,
slowram_datain => slowram_datain,
slowram_addr => slowram_addr,
slowram_we => slowram_we,
slowram_request_toggle => slowram_request_toggle,
slowram_done_toggle => slowram_done_toggle,
cache_address => cache_address,
cache_read_data => cache_read_data,
vsync => vsync,
hsync => hsync,
vgared => vgared,
vgagreen => vgagreen,
vgablue => vgablue,
led => led,
sw => sw,
btn => btn,
-- UART monitor interface
uart_txd => uart_txd,
rsrx => rsrx,
sseg_ca => sseg_ca,
sseg_an => sseg_an);
process
begin -- process tb
report "beginning simulation" severity note;
for i in 1 to 2000000 loop
pixelclock <= '0'; cpuclock <= '0'; ioclock <= '0';
wait for 5 ns;
pixelclock <= '1'; cpuclock <= '0'; ioclock <= '0';
wait for 5 ns;
pixelclock <= '0'; cpuclock <= '0'; ioclock <= '0';
wait for 5 ns;
pixelclock <= '1'; cpuclock <= '0'; ioclock <= '0';
wait for 5 ns;
pixelclock <= '0'; cpuclock <= '1'; ioclock <= '1';
wait for 5 ns;
pixelclock <= '1'; cpuclock <= '1'; ioclock <= '1';
wait for 5 ns;
pixelclock <= '0'; cpuclock <= '1'; ioclock <= '1';
wait for 5 ns;
pixelclock <= '1'; cpuclock <= '1'; ioclock <= '1';
wait for 5 ns;
reset <= '1';
end loop; -- i
assert false report "End of simulation" severity failure;
end process;
-- Deliver dummy ethernet frames
process
begin
for i in 1 to 20 loop
eth_rxdv <= '0'; eth_rxd <= "00";
-- Wait a few cycles before feeding frame
for j in 1 to 50 loop
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
end loop;
-- Announce RX carrier
eth_rxdv <= '1'; eth_rxd <= "00";
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
-- Send preamble
report "CRC: Starting to send preamble";
for j in 1 to 31 loop
eth_rxd <= "01";
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
end loop;
-- Send end of preamble
eth_rxd <= "11";
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
-- Feed bytes
report "CRC: Starting to send frame";
for j in 0 to 101 loop
report "ETHRXINJECT: Injecting $" & to_hstring(frame(j));
eth_rxd <= frame(j)(1 downto 0);
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
eth_rxd <= frame(j)(3 downto 2);
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
eth_rxd <= frame(j)(5 downto 4);
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
eth_rxd <= frame(j)(7 downto 6);
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
end loop;
-- Disassert carrier
eth_rxdv <= '0';
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
-- Wait a few cycles before feeding next frame
for j in 1 to 10000 loop
clock50mhz <= '0';
wait for 10 ns;
clock50mhz <= '1';
wait for 10 ns;
end loop;
end loop;
end process;
process
variable txbyte : unsigned(7 downto 0) := x"00";
variable txbits : integer range 0 to 7 := 0;
begin
for i in 1 to 200000000 loop
if clock50mhz='1' then
if eth_txen='1' then
report "ETHTX: bits " & to_string(std_logic_vector(eth_txd));
txbyte := eth_txd & txbyte(7 downto 2);
if txbits = 6 then
txbits := 0;
report "ETHTX: byte $" & to_hstring(txbyte);
else
txbits := txbits + 2;
end if;
else
-- report "ETHTX: bits NO CARRIER";
end if;
end if;
wait for 10 ns;
end loop;
end process;
end behavior;