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[/] [udp_ip_stack/] [trunk/] [rtl/] [vhdl/] [ml605/] [IP_complete.vhd] - Rev 2
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---------------------------------------------------------------------------------- -- Company: -- Engineer: Peter Fall -- -- Create Date: 20:25:56 06/03/2011 -- Design Name: -- Module Name: IP_complete - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: Implements complete IP stack with ARP and MAC -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; use IEEE.NUMERIC_STD.ALL; use work.axi.all; use work.ipv4_types.all; use work.arp_types.all; entity IP_complete is Port ( -- IP Layer signals ip_tx_start : in std_logic; ip_tx : in ipv4_tx_type; -- IP tx cxns ip_tx_result : out std_logic_vector (1 downto 0); -- tx status (changes during transmission) ip_tx_data_out_ready : out std_logic; -- indicates IP TX is ready to take data ip_rx_start : out std_logic; -- indicates receipt of ip frame. ip_rx : out ipv4_rx_type; -- system signals clk_in_p : in std_logic; -- 200MHz clock input from board clk_in_n : in std_logic; clk_out : out std_logic; reset : in STD_LOGIC; our_ip_address : in STD_LOGIC_VECTOR (31 downto 0); our_mac_address : in std_logic_vector (47 downto 0); -- status signals arp_pkt_count : out STD_LOGIC_VECTOR(7 downto 0); -- count of arp pkts received ip_pkt_count : out STD_LOGIC_VECTOR(7 downto 0); -- number of IP pkts received for us -- GMII Interface phy_resetn : out std_logic; gmii_txd : out std_logic_vector(7 downto 0); gmii_tx_en : out std_logic; gmii_tx_er : out std_logic; gmii_tx_clk : out std_logic; gmii_rxd : in std_logic_vector(7 downto 0); gmii_rx_dv : in std_logic; gmii_rx_er : in std_logic; gmii_rx_clk : in std_logic; gmii_col : in std_logic; gmii_crs : in std_logic; mii_tx_clk : in std_logic ); end IP_complete; architecture structural of IP_complete is ------------------------------------------------------------------------------ -- Component Declaration for the IP layer ------------------------------------------------------------------------------ COMPONENT IP_complete_nomac PORT( -- IP Layer signals ip_tx_start : in std_logic; ip_tx : in ipv4_tx_type; -- IP tx cxns ip_tx_result : out std_logic_vector (1 downto 0); -- tx status (changes during transmission) ip_tx_data_out_ready : out std_logic; -- indicates IP TX is ready to take data ip_rx_start : out std_logic; -- indicates receipt of ip frame. ip_rx : out ipv4_rx_type; -- system signals clk : in std_logic; reset : in STD_LOGIC; our_ip_address : in STD_LOGIC_VECTOR (31 downto 0); our_mac_address : in std_logic_vector (47 downto 0); -- status signals arp_pkt_count : out STD_LOGIC_VECTOR(7 downto 0); -- count of arp pkts received ip_pkt_count : out STD_LOGIC_VECTOR(7 downto 0); -- number of IP pkts received for us -- MAC Transmitter mac_tx_tdata : out std_logic_vector(7 downto 0); -- data byte to tx mac_tx_tvalid : out std_logic; -- tdata is valid mac_tx_tready : in std_logic; -- mac is ready to accept data mac_tx_tlast : out std_logic; -- indicates last byte of frame -- MAC Receiver mac_rx_tdata : in std_logic_vector(7 downto 0); -- data byte received mac_rx_tvalid : in std_logic; -- indicates tdata is valid mac_rx_tready : out std_logic; -- tells mac that we are ready to take data mac_rx_tlast : in std_logic -- indicates last byte of the trame ); END COMPONENT; ------------------------------------------------------------------------------ -- Component Declaration for the MAC layer ------------------------------------------------------------------------------ component mac_layer port ( -- System controls ------------------ glbl_rst : in std_logic; -- asynchronous reset mac_reset : in std_logic; -- reset mac layer clk_in_p : in std_logic; -- 200MHz clock input from board clk_in_n : in std_logic; -- MAC Transmitter (AXI-S) Interface --------------------------------------------- mac_tx_clock : out std_logic; -- data sampled on rising edge mac_tx_tdata : in std_logic_vector(7 downto 0); -- data byte to tx mac_tx_tvalid : in std_logic; -- tdata is valid mac_tx_tready : out std_logic; -- mac is ready to accept data mac_tx_tlast : in std_logic; -- indicates last byte of frame -- MAC Receiver (AXI-S) Interface ------------------------------------------ mac_rx_clock : out std_logic; -- data valid on rising edge mac_rx_tdata : out std_logic_vector(7 downto 0); -- data byte received mac_rx_tvalid : out std_logic; -- indicates tdata is valid mac_rx_tready : in std_logic; -- tells mac that we are ready to take data mac_rx_tlast : out std_logic; -- indicates last byte of the trame -- GMII Interface ----------------- phy_resetn : out std_logic; gmii_txd : out std_logic_vector(7 downto 0); gmii_tx_en : out std_logic; gmii_tx_er : out std_logic; gmii_tx_clk : out std_logic; gmii_rxd : in std_logic_vector(7 downto 0); gmii_rx_dv : in std_logic; gmii_rx_er : in std_logic; gmii_rx_clk : in std_logic; gmii_col : in std_logic; gmii_crs : in std_logic; mii_tx_clk : in std_logic ); end component; --------------------------- -- Signals --------------------------- -- MAC RX bus signal mac_rx_clock : std_logic; signal mac_rx_tdata : std_logic_vector (7 downto 0); signal mac_rx_tvalid : std_logic; signal mac_rx_tready : std_logic; signal mac_rx_tlast : std_logic; -- MAC TX bus signal mac_tx_clock : std_logic; signal mac_tx_tdata : std_logic_vector (7 downto 0); signal mac_tx_tvalid : std_logic; signal mac_tx_tready : std_logic; signal mac_tx_tlast : std_logic; -- control signals signal mac_tx_tready_int : std_logic; signal mac_tx_granted_int : std_logic; begin clk_out <= mac_rx_clock; ------------------------------------------------------------------------------ -- Instantiate the IP layer ------------------------------------------------------------------------------ IP_layer : IP_complete_nomac PORT MAP ( -- IP Layer signals ip_tx_start => ip_tx_start, ip_tx => ip_tx, ip_tx_result => ip_tx_result, ip_tx_data_out_ready => ip_tx_data_out_ready, ip_rx_start => ip_rx_start, ip_rx => ip_rx, -- system signals clk => mac_rx_clock, reset => reset, our_ip_address => our_ip_address, our_mac_address => our_mac_address, -- status signals arp_pkt_count => arp_pkt_count, ip_pkt_count => ip_pkt_count, -- MAC Transmitter mac_tx_tready => mac_tx_tready_int, mac_tx_tvalid => mac_tx_tvalid, mac_tx_tlast => mac_tx_tlast, mac_tx_tdata => mac_tx_tdata, -- MAC Receiver mac_rx_tdata => mac_rx_tdata, mac_rx_tvalid => mac_rx_tvalid, mac_rx_tready => mac_rx_tready, mac_rx_tlast => mac_rx_tlast ); ------------------------------------------------------------------------------ -- Instantiate the MAC layer ------------------------------------------------------------------------------ mac_block : mac_layer Port map( -- System controls ------------------ glbl_rst => reset, mac_reset => '0', clk_in_p => clk_in_p, clk_in_n => clk_in_n, -- MAC Transmitter (AXI-S) Interface --------------------------------------------- mac_tx_clock => mac_tx_clock, mac_tx_tdata => mac_tx_tdata, mac_tx_tvalid => mac_tx_tvalid, mac_tx_tready => mac_tx_tready_int, mac_tx_tlast => mac_tx_tlast, -- MAC Receiver (AXI-S) Interface ------------------------------------------ mac_rx_clock => mac_rx_clock, mac_rx_tdata => mac_rx_tdata, mac_rx_tvalid => mac_rx_tvalid, mac_rx_tready => mac_rx_tready, mac_rx_tlast => mac_rx_tlast, -- GMII Interface ----------------- phy_resetn => phy_resetn, gmii_txd => gmii_txd, gmii_tx_en => gmii_tx_en, gmii_tx_er => gmii_tx_er, gmii_tx_clk => gmii_tx_clk, gmii_rxd => gmii_rxd, gmii_rx_dv => gmii_rx_dv, gmii_rx_er => gmii_rx_er, gmii_rx_clk => gmii_rx_clk, gmii_col => gmii_col, gmii_crs => gmii_crs, mii_tx_clk => mii_tx_clk ); end structural;
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