mac: Implement TX path

This commit is contained in:
Markus Koch 2021-09-04 19:15:21 +02:00
parent 5a1363615f
commit 2bee387081

View File

@ -11,13 +11,14 @@ entity trashernet_mac is
rst : in std_logic; -- Asynchronous reset rst : in std_logic; -- Asynchronous reset
-- PHY signals -- PHY signals
rx_data : in std_logic_vector(7 downto 0); -- RX Data rx_data : in byte; -- RX Data
rx_data_valid : in std_logic; -- RX Data valid rx_data_valid : in std_logic; -- RX Data valid
rx_active : in std_logic; -- RX of packet in progress rx_active : in std_logic; -- RX of packet in progress
tx_data : out std_logic_vector(7 downto 0); -- TX Data tx_data : out byte; -- TX Data
tx_data_en : out std_logic; -- Transmitter enable tx_data_en : out std_logic; -- Transmitter enable
tx_data_ack : in std_logic; -- Latched data_tx tx_data_ack : in std_logic; -- Latched data_tx
tx_active : in std_logic; -- Transmitter active
carrier_detect : in std_logic; -- Carrier detected carrier_detect : in std_logic; -- Carrier detected
rx_error : in std_logic; -- Receive error rx_error : in std_logic; -- Receive error
@ -30,14 +31,19 @@ entity trashernet_mac is
rx_mac_valid : out std_logic; -- `rx_mac` values (headers + data) are valid rx_mac_valid : out std_logic; -- `rx_mac` values (headers + data) are valid
rx_mac_header_rcv : out std_logic; -- `rx_mac` header have been received and are valid rx_mac_header_rcv : out std_logic; -- `rx_mac` header have been received and are valid
rx_mac_crc_ok : out std_logic; -- End of packet, CRC OK (strobe independent from other rx_mac fields) rx_mac_crc_ok : out std_logic; -- End of packet, CRC OK (strobe independent from other rx_mac fields)
rx_mac_crc_error : out std_logic -- End of packet, CRC invalid rx_mac_crc_error : out std_logic; -- End of packet, CRC invalid
tx_mac_destination : in mac_addr_t; -- Destination MAC address
tx_mac_source : in mac_addr_t; -- Source MAC address
tx_mac_ethertype : in ethertype_t; -- Ethertype or length
tx_mac_data : in byte; -- Payload
tx_mac_data_en : in std_logic; -- Start (and keep) transmitting a frame
tx_mac_data_ack : out std_logic -- The byte on `tx_mac_data` has been latched. Update to next word.
); );
end entity trashernet_mac; end entity trashernet_mac;
architecture rtl of trashernet_mac is architecture rtl of trashernet_mac is
signal crc : std_logic_vector(31 downto 0); constant ETH_POLYNOMIAL : std_logic_vector(31 downto 0) := x"04C11DB7";
signal crc_ok : std_logic;
signal crc_clear : std_logic;
begin begin
rx : block rx : block
@ -52,7 +58,9 @@ begin
signal sr_payload : byte_vector(0 to 4); signal sr_payload : byte_vector(0 to 4);
constant ETH_POLYNOMIAL : std_logic_vector(crc'range) := x"04C11DB7"; signal crc : std_logic_vector(ETH_POLYNOMIAL'range);
signal crc_ok : std_logic;
signal crc_clear : std_logic;
begin begin
crc_inst : entity work.crc crc_inst : entity work.crc
generic map( generic map(
@ -136,4 +144,88 @@ begin
end block rx; end block rx;
tx : block
type tx_state_t is (IDLE, HEADER, DATA, TXCRC);
signal tx_state : tx_state_t;
signal sr : byte_vector(0 to tx_mac_destination'length + tx_mac_source'length + tx_mac_ethertype'length - 1);
constant BIT_CNT_MAX : integer := sr'high;
signal byte_cnt : integer range 0 to BIT_CNT_MAX;
signal crc : std_logic_vector(ETH_POLYNOMIAL'range);
signal crc_clear : std_logic;
signal crc_valid : std_logic;
begin
crc_inst : entity work.crc
generic map(
POLYNOMIAL => ETH_POLYNOMIAL,
START => x"FFFFFFFF",
FINAL_XOR => x"FFFFFFFF",
REVERSE_OUT => true
)
port map(
clk => clk,
rst => rst,
data => tx_data,
data_valid => crc_valid,
crc_clear => crc_clear,
crc_out => crc
);
tx_main : process(clk, rst) is
begin
if rst then
tx_mac_data_ack <= '0';
elsif rising_edge(clk) then
tx_mac_data_ack <= '0';
crc_valid <= '0';
if tx_data_ack then
sr <= sr(sr'low + 1 to sr'high) & x"00";
crc_valid <= '1';
if byte_cnt /= 0 then
byte_cnt <= byte_cnt - 1;
end if;
end if;
case tx_state is
when IDLE =>
if not tx_active and tx_mac_data_en then
sr(0 to 7) <= byte_vector'(0 to 6 => x"55", 7 => x"D5");
byte_cnt <= 7;
tx_state <= HEADER;
end if;
when HEADER =>
if (tx_data_ack = '1') and (byte_cnt = 0) then -- Sync Header TX complete
sr <= tx_mac_destination & tx_mac_source & tx_mac_ethertype;
crc_valid <= '1';
byte_cnt <= BIT_CNT_MAX;
tx_state <= DATA;
end if;
when DATA =>
if (tx_data_ack = '1') and (byte_cnt = 0) then -- MAC Header TX complete
if tx_mac_data_en then
sr(0) <= tx_mac_data;
tx_mac_data_ack <= '1';
else
sr(0 to 3) <= (crc(7 downto 0), crc(15 downto 8), crc(23 downto 16), crc(31 downto 24));
byte_cnt <= 4 - 1;
tx_state <= TXCRC;
end if;
end if;
when TXCRC =>
if (tx_data_ack = '1') and (byte_cnt = 0) then -- CRC TX complete
tx_state <= IDLE;
end if;
end case;
end if;
end process tx_main;
tx_data_en <= '1' when tx_state /= IDLE else '0';
crc_clear <= '1' when tx_state = HEADER else '0';
tx_data <= sr(sr'low);
end block tx;
end architecture rtl; end architecture rtl;