library ieee;
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use ieee.std_logic_1164.all;
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entity SpiSlaveE is
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generic (
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G_DATA_WIDTH : positive := 8; --* data bus width
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G_SPI_CPOL : natural range 0 to 1 := 0; --* SPI clock polarity
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G_SPI_CPHA : natural range 0 to 1 := 0 --* SPI clock phase
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);
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port (
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--+ system if
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Reset_n_i : in std_logic;
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Clk_i : in std_logic;
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--+ SPI slave if
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SpiSclk_i : in std_logic;
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SpiSte_i : in std_logic;
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SpiMosi_i : in std_logic;
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SpiMiso_o : out std_logic;
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--+ local VAI if
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Data_i : in std_logic_vector(G_DATA_WIDTH-1 downto 0);
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DataValid_i : in std_logic;
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DataAccept_o : out std_logic;
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Data_o : out std_logic_vector(G_DATA_WIDTH-1 downto 0);
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DataValid_o : out std_logic;
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DataAccept_i : in std_logic
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);
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end entity SpiSlaveE;
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architecture rtl of SpiSlaveE is
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type t_spi_state is (IDLE, TRANSFER, STORE);
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signal s_spi_state : t_spi_state;
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signal s_send_register : std_logic_vector(G_DATA_WIDTH-1 downto 0);
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signal s_recv_register : std_logic_vector(G_DATA_WIDTH-1 downto 0);
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signal s_sclk_d : std_logic_vector(2 downto 0);
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signal s_ste_d : std_logic_vector(2 downto 0);
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signal s_mosi_d : std_logic_vector(2 downto 0);
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signal s_miso : std_logic;
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signal s_data_valid : std_logic;
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signal s_transfer_valid : boolean;
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signal s_sclk_rising : boolean;
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signal s_sclk_falling : boolean;
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signal s_read_edge : boolean;
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signal s_write_edge : boolean;
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alias a_ste : std_logic is s_ste_d(s_ste_d'left);
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alias a_mosi : std_logic is s_mosi_d(s_mosi_d'left);
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begin
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--* help signals for edge detection on sclk
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s_sclk_rising <= true when s_sclk_d(2 downto 1) = "01" else false;
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s_sclk_falling <= true when s_sclk_d(2 downto 1) = "10" else false;
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s_read_edge <= s_sclk_rising when G_SPI_CPOL = G_SPI_CPHA else s_sclk_falling;
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s_write_edge <= s_sclk_falling when G_SPI_CPOL = G_SPI_CPHA else s_sclk_rising;
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--* Sync asynchronous SPI inputs with 3 stage FF line
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--* We use 3 FF because of edge detection on sclk line
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--* Mosi & ste are also registered with 3 FF to stay in
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--* sync with registered sclk
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SpiSyncP : process (Reset_n_i, Clk_i) is
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begin
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if (Reset_n_i = '0') then
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if (G_SPI_CPOL = 0) then
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s_sclk_d <= (others => '0');
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else
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s_sclk_d <= (others => '1');
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end if;
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s_ste_d <= (others => '1');
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s_mosi_d <= (others => '0');
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elsif rising_edge(Clk_i) then
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s_sclk_d <= s_sclk_d(1 downto 0) & SpiSclk_i;
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s_ste_d <= s_ste_d(1 downto 0) & SpiSte_i;
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s_mosi_d <= s_mosi_d(1 downto 0) & SpiMosi_i;
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end if;
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end process SpiSyncP;
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--* Save local data input when new data is provided and
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--* we're not inside a running SPI transmission
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SendRegisterP : process (Reset_n_i, Clk_i) is
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begin
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if (Reset_n_i = '0') then
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s_send_register <= (others => '0');
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DataAccept_o <= '0';
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elsif rising_edge(Clk_i) then
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DataAccept_o <= '0';
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if (DataValid_i = '1' and s_spi_state = IDLE) then
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s_send_register <= Data_i;
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DataAccept_o <= '1';
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end if;
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end if;
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end process SendRegisterP;
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--* Spi slave control FSM
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SpiControlP : process (Reset_n_i, Clk_i) is
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variable v_bit_counter : natural range 0 to G_DATA_WIDTH-1;
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begin
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if (Reset_n_i = '0') then
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s_miso <= '0';
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s_recv_register <= (others => '0');
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v_bit_counter := G_DATA_WIDTH-1;
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s_transfer_valid <= false;
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s_spi_state <= IDLE;
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elsif rising_edge(Clk_i) then
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case s_spi_state is
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when IDLE =>
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s_miso <= '0';
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s_recv_register <= (others => '0');
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v_bit_counter := G_DATA_WIDTH-1;
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s_transfer_valid <= false;
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if (a_ste = '0') then
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if (G_SPI_CPHA = 0) then
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s_miso <= s_send_register(v_bit_counter);
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end if;
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s_spi_state <= TRANSFER;
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end if;
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when TRANSFER =>
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if s_read_edge then
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s_recv_register(v_bit_counter) <= a_mosi;
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if (v_bit_counter = 0) then
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s_spi_state <= STORE;
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else
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v_bit_counter := v_bit_counter - 1;
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end if;
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elsif s_write_edge then
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s_miso <= s_send_register(v_bit_counter);
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else
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if (a_ste = '1') then
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s_spi_state <= IDLE;
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end if;
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end if;
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when STORE =>
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if (a_ste = '1') then
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s_transfer_valid <= true;
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s_spi_state <= IDLE;
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end if;
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when others =>
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s_spi_state <= IDLE;
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end case;
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end if;
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end process SpiControlP;
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--* Provide received SPI data to local interface
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--* Output data is overwritten if it isn't fetched
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--* until next finished SPI transmission
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RecvRegisterP : process (Reset_n_i, Clk_i) is
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begin
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if (Reset_n_i = '0') then
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Data_o <= (others => '0');
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s_data_valid <= '0';
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elsif rising_edge(Clk_i) then
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if (s_transfer_valid) then
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Data_o <= s_recv_register;
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s_data_valid <= '1';
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end if;
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if (DataAccept_i = '1' and s_data_valid = '1') then
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s_data_valid <= '0';
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end if;
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end if;
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end process RecvRegisterP;
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--+ Output port connections
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DataValid_o <= s_data_valid;
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SpiMiso_o <= 'Z' when SpiSte_i = '1' else s_miso;
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-- psl default clock is rising_edge(Clk_i);
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--
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-- psl assert always (s_spi_state = IDLE or s_spi_state = TRANSFER or s_spi_state = STORE);
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-- psl assert always (s_data_valid and DataAccept_i) -> next not(s_data_valid);
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end architecture rtl;
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