174 lines
3.8 KiB
VHDL
174 lines
3.8 KiB
VHDL
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library ieee;
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use ieee.std_logic_1164.all;
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use ieee.numeric_std.all;
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library design;
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use design.all;
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library ip;
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use ip.wishbone_package.all;
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entity bench_flashrom_wb is
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end entity bench_flashrom_wb;
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architecture RTL of bench_flashrom_wb is
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signal clk : std_logic;
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signal rst : std_logic;
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signal clr : std_logic;
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signal wb_in : wishbone_v3_slave_in;
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signal wb_out : wishbone_v3_slave_out;
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signal spi_si : std_logic;
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signal spi_so : std_logic;
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signal spi_sck : std_logic;
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signal spi_reset_n : std_logic;
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signal spi_cs_n : std_logic;
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signal spi_wp_n : std_logic;
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signal spi_busy : std_logic;
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procedure waitclk is
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begin
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wait until rising_edge(clk);
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end procedure waitclk;
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procedure waitnclk(n : integer) is
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begin
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for i in 1 to n loop
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wait until rising_edge(clk);
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end loop;
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end procedure waitnclk;
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procedure strobe(signal s : out std_logic) is
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begin
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s <= '1';
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waitclk;
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s <= '0';
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waitclk;
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end procedure strobe;
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begin
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DataFlash_inst : entity work.DataFlash
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generic map(
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flashmemory => "devicemodels/memory.txt",
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Rapid_interface => true,
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fsck => 66,
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DEVICE => "AT45DB011D", --AT45DB011D
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Tsck => 13.6 ns)
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port map(
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SI => spi_si,
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CSB => spi_cs_n,
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SCK => spi_sck,
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WPB => spi_wp_n,
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RESETB => spi_reset_n,
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SO => spi_so,
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RDYBSY => spi_busy
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);
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flashrom_wb_inst : entity design.flashrom_wb
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port map(
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clk => clk,
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rst => rst,
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clr => clr,
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wb_in => wb_in,
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wb_out => wb_out,
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spi_si => spi_si,
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spi_so => spi_so,
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spi_sck => spi_sck,
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spi_reset_n => spi_reset_n,
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spi_cs_n => spi_cs_n,
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spi_wp_n => spi_wp_n
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);
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clock_driver : process
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constant period : time := 10 ns;
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begin
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clk <= '0';
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wait for period / 2;
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clk <= '1';
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wait for period / 2;
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end process clock_driver;
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test : process is
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begin
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rst <= '1';
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wb_in.ADR <= (others => '0');
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wait for 10 ns * 2;
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wait until (rising_edge(clk));
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rst <= '0';
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wait for 10 ns * 2;
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wait until (rising_edge(clk));
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wb_in.ADR <= std_logic_vector(to_unsigned(0, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(4, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(4, 32));
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wb_in.DAT <= x"deadbeef";
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '1';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(4, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(256, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(256, 32));
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wb_in.DAT <= x"b000b1e5";
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '1';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(256, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wb_in.ADR <= std_logic_vector(to_unsigned(4, 32));
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wb_in.CYC <= '1';
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wb_in.STB <= '1';
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wb_in.WE <= '0';
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wait until wb_out.ACK = '1';
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wb_in.CYC <= '0';
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wb_in.STB <= '0';
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waitnclk(30);
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wait;
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end process test;
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end architecture RTL;
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