mor1kx-bemicrocv/bench/bench_flashrom_spi.vhd

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4.6 KiB
VHDL
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2016-08-04 19:22:38 +02:00
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use std.textio.all;
library design;
use design.all;
entity bench_flashrom_spi is
end entity bench_flashrom_spi;
architecture rtl of bench_flashrom_spi is
signal clk : std_logic;
signal rst : std_logic;
procedure waitclk is
begin
wait until rising_edge(clk);
end procedure waitclk;
procedure waitnclk(n : integer) is
begin
for i in 1 to n loop
wait until rising_edge(clk);
end loop;
end procedure waitnclk;
procedure strobe(signal s : out std_logic) is
begin
s <= '1';
waitclk;
s <= '0';
waitclk;
end procedure strobe;
constant max_word_length : integer := 16;
constant max_dummy_bits : integer := 16;
signal clr : std_logic;
signal spi_si : std_logic;
signal spi_so : std_logic := '0';
signal spi_sck : std_logic;
signal spi_cs_n : std_logic;
signal data_in_valid : std_logic;
signal data_in : std_logic_vector(max_word_length - 1 downto 0);
signal data_next : std_logic;
signal data_out : std_logic_vector(max_word_length - 1 downto 0);
signal data_out_valid : std_logic;
signal data_in_length : integer range 0 to max_word_length;
signal data_out_length : integer range 0 to max_word_length;
signal data_out_dummy_bits : integer range 0 to max_dummy_bits;
signal transmission_active : std_logic;
begin
flashrom_spi_inst : entity design.flashrom_spi
generic map(
clk_divider => 4,
max_word_length => max_word_length,
max_dummy_bits => max_dummy_bits)
port map(
data_out_dummy_bits => data_out_dummy_bits,
data_out_length => data_out_length,
clk => clk,
rst => rst,
clr => clr,
spi_si => spi_si,
spi_so => spi_so,
spi_sck => spi_sck,
spi_cs_n => spi_cs_n,
data_in_valid => data_in_valid,
data_in => data_in,
data_next => data_next,
data_out => data_out,
data_out_valid => data_out_valid,
data_in_length => data_in_length,
transmission_active => transmission_active
);
-- clock driver
clock_driver : process
constant PERIOD : time := 10 ns;
begin
clk <= '0';
wait for PERIOD / 2;
clk <= '1';
wait for PERIOD / 2;
end process clock_driver;
--testbench
bench : process is
begin
rst <= '1';
data_in <= x"0000";
data_in_valid <= '0';
wait for 10 ns * 2;
wait until (rising_edge(clk));
rst <= '0';
wait for 10 ns * 2;
wait until (rising_edge(clk));
-- bench code here
data_out_dummy_bits <= 0;
data_in_length <= 8;
data_out_length <= 8;
data_in <= x"FF00";
data_in_valid <= '1';
wait until data_next = '1';
data_in_length <= 16;
data_out_length <= 16;
data_in <= x"0055";
data_in_valid <= '1';
wait until data_next = '1';
data_in_valid <= '0';
wait until transmission_active = '0';
waitnclk(10); -- new SPI transaction
data_out_dummy_bits <= 16;
data_in_length <= 16;
data_out_length <= 16;
data_in <= x"0055";
data_in_valid <= '1';
wait until data_next = '1';
wait until data_next = '1'; -- 32 bits total
data_in_valid <= '0';
wait;
end process bench;
spi_so_p : process is
procedure spitx(constant value : std_logic) is
begin
spi_so <= value;
wait until rising_edge(spi_sck);
end procedure spitx;
begin
spi_so <= '0';
wait until rising_edge(spi_sck);
wait until rising_edge(spi_sck);
-- 8 bit word
spitx('1');
for i in 1 to 7 loop
spitx('0');
end loop;
-- 8 bit word
spitx('0');
spitx('1');
for i in 1 to 6 loop
spitx('0');
end loop;
-- 8 bit word
spitx('0');
spitx('0');
spitx('1');
for i in 1 to 5 loop
spitx('0');
end loop;
wait until rising_edge(spi_sck);
-- 0x80 (dummy)
spitx('1');
spitx('0');
spitx('0');
spitx('0');
spitx('0');
spitx('0');
spitx('0');
spitx('0');
-- 0x88
spitx('1');
spitx('0');
spitx('0');
spitx('0');
spitx('1');
spitx('0');
spitx('0');
spitx('0');
-- 0x44
spitx('0');
spitx('1');
spitx('0');
spitx('0');
spitx('0');
spitx('1');
spitx('0');
spitx('0');
-- 0x22
spitx('0');
spitx('0');
spitx('1');
spitx('0');
spitx('0');
spitx('0');
spitx('1');
spitx('0');
wait;
end process spi_so_p;
end architecture rtl;