trashernet/trashernet/trashernet_eth.vhd

171 lines
6.8 KiB
VHDL

-- -------------------------------------------------------------------------- --
-- TRASHERNET - A Trashy Ethernet Stack for FPGAs --
-- -------------------------------------------------------------------------- --
-- trashernet_eth.vhd : Ethernet OSI Layer 2, Data Link, ETH I/II Ethertype
-- Implements arbitration of different ethertypes.
-- -------------------------------------------------------------------------- --
-- Author : Markus Koch <markus@notsyncing.net>
-- Contributors : None
-- License : Mozilla Public License (MPL) Version 2
-- -------------------------------------------------------------------------- --
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.trashernet_pkg.all;
entity trashernet_eth is
generic(
ETHERNET_II_PROTOCOLS : ethernet_ii_protocol_vector := ETHERNET_II_PROTOCOLS_NONE
);
port(
-- Global
clk : in std_logic; -- Global clock
rst : in std_logic; -- Asynchronous reset
-- MAC application interface
mac_out : in mac_out_t; -- MAC application IF (out of MAC)
mac_in : out mac_in_t; -- MAC application IF (into MAC)
-- Configuration
config : in configuration_t; -- Global Trashernet configuration
-- Ethernet 802.3 application interface
ethernet_i_out : out ethernet_i_out_t; -- Ethernet 802.3 IF (out from MAC)
ethernet_i_in : in ethernet_i_in_t := ETHERNET_I_IN_UNUSED; -- Ethernet 802.3 IF (out from MAC)
-- Ethernet II application interface
ethernet_ii_out : out ethernet_ii_out_vector(ETHERNET_II_PROTOCOLS'range); -- Ethernet II IF (out from MAC)
ethernet_ii_in : in ethernet_ii_in_vector(ETHERNET_II_PROTOCOLS'range) := (others => ETHERNET_II_IN_UNUSED) -- Ethernet II IF (into MAC)
);
end entity trashernet_eth;
architecture rtl of trashernet_eth is
signal tx_data_ack_ii : std_logic_vector(ethernet_ii_out'range);
signal tx_data_ack_i : std_logic;
begin
rx : block
constant SEL_ETH_I : integer := ethernet_ii_out'low - 1;
constant SEL_ETH_NONE : integer := ethernet_ii_out'low - 2;
signal sel : integer range SEL_ETH_NONE to ethernet_ii_out'high;
signal mac_destination_matches : std_logic;
signal rx_mac_header_rcv_delayed : std_logic;
begin
mac_destination_matches <= '1' when --
((mac_out.rx_header.mac_destination = (x"FF", x"FF", x"FF", x"FF", x"FF", x"FF")) or --
(mac_out.rx_header.mac_destination = config.mac_address)) else
'0';
mux : process(clk, rst) is
begin
if rst then
sel <= SEL_ETH_NONE;
rx_mac_header_rcv_delayed <= '0';
elsif rising_edge(clk) then
rx_mac_header_rcv_delayed <= mac_out.rx_mac_header_rcv;
if mac_out.rx_mac_header_rcv then
sel <= SEL_ETH_NONE; -- By default, let's assume it's not for us
if mac_destination_matches then
if (unsigned(std_logic_vector'(mac_out.rx_header.mac_ethertype(0) & mac_out.rx_header.mac_ethertype(1))) < 1500) then -- Ethernet 802.3 Frame
sel <= SEL_ETH_I;
else -- Ethernet II Frame
for i in ETHERNET_II_PROTOCOLS'range loop
if (mac_out.rx_header.mac_ethertype = ETHERNET_II_PROTOCOLS(i).ethertype) then
sel <= i;
end if;
end loop;
end if;
end if;
end if;
end if;
end process mux;
-- Shared fields in the Ethernet II application interface
shared_fields : for i in ethernet_ii_out'range generate
ethernet_ii_out(i).rx_mac_address <= mac_out.rx_header.mac_source;
ethernet_ii_out(i).rx_data <= mac_out.rx_mac_data;
ethernet_ii_out(i).rx_data_valid <= mac_out.rx_mac_valid when sel = i else '0';
ethernet_ii_out(i).rx_crc_error <= mac_out.rx_mac_crc_error when sel = i else '0';
ethernet_ii_out(i).rx_crc_ok <= mac_out.rx_mac_crc_ok when sel = i else '0';
ethernet_ii_out(i).rx_header_rcv <= rx_mac_header_rcv_delayed when sel = i else '0';
end generate shared_fields;
-- Shared fields in the Ethernet application interface
ethernet_i_out.rx_data <= mac_out.rx_mac_data;
ethernet_i_out.rx_data_valid <= mac_out.rx_mac_valid when sel = SEL_ETH_I;
ethernet_i_out.rx_crc_error <= mac_out.rx_mac_crc_error when sel = SEL_ETH_I else '0';
ethernet_i_out.rx_crc_ok <= mac_out.rx_mac_crc_ok when sel = SEL_ETH_I else '0';
ethernet_i_out.rx_header_rcv <= rx_mac_header_rcv_delayed when sel = SEL_ETH_I else '0';
ethernet_i_out.rx_mac_address <= mac_out.rx_header.mac_source;
ethernet_i_out.rx_length <= unsigned(mac_out.rx_header.mac_ethertype(0)) & unsigned(mac_out.rx_header.mac_ethertype(1));
-- TX fields (need to be driven here to avoid multiple drivers (blocks drive ALL signals of a record))
tx_fields : for i in ethernet_ii_out'range generate
ethernet_ii_out(i).tx_data_ack <= tx_data_ack_ii(i);
end generate;
ethernet_i_out.tx_data_ack <= tx_data_ack_i;
end block rx;
tx : block
type state_t is (IDLE, TXD);
signal state : state_t;
constant SEL_ETH_I : integer := ethernet_ii_out'low - 1;
signal sel : integer range SEL_ETH_I to ethernet_ii_in'high;
begin
arb : process(clk, rst) is
begin
if rst then
elsif rising_edge(clk) then
case state is
when IDLE =>
if mac_out.tx_active then
if (ethernet_i_in.tx_en) then -- ETH I has priority
sel <= SEL_ETH_I;
state <= TXD;
else
for i in ethernet_ii_in'range loop
if ethernet_ii_in(i).tx_en then
sel <= i;
state <= TXD;
exit; -- Prioritize according to vector
end if;
end loop;
end if;
end if;
when TXD =>
state <= IDLE when (mac_in.tx_mac_data_en or mac_out.tx_active);
end case;
end if;
end process arb;
mux : process(all) is
begin
if (sel = SEL_ETH_I) then
mac_in.tx_mac_data_en <= ethernet_i_in.tx_en;
mac_in.tx_mac_data <= ethernet_i_in.tx_data;
tx_data_ack_i <= mac_out.tx_mac_data_ack;
mac_in.tx_header.mac_destination <= ethernet_i_in.tx_mac_address;
mac_in.tx_header.mac_ethertype <= byte(ethernet_i_in.tx_length(15 downto 8)) & byte(ethernet_i_in.tx_length(7 downto 0));
else
mac_in.tx_mac_data_en <= ethernet_ii_in(sel).tx_en;
mac_in.tx_mac_data <= ethernet_ii_in(sel).tx_data;
txack : for i in ethernet_ii_out'range loop
tx_data_ack_ii(i) <= mac_out.tx_mac_data_ack when sel = i else '0';
end loop txack;
mac_in.tx_header.mac_destination <= ethernet_ii_in(sel).tx_mac_address;
mac_in.tx_header.mac_ethertype <= ETHERNET_II_PROTOCOLS(sel).ethertype;
end if;
mac_in.tx_header.mac_source <= config.mac_address;
end process mux;
end block tx;
end architecture rtl;