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----------------------------------------------------------------------------------
-- Company: 
-- Engineer:            Peter Fall
-- 
-- Create Date:    12:00:04 05/31/2011 
-- Design Name: 
-- Module Name:    arp_rx - Behavioral 
-- Project Name: 
-- Target Devices: 
-- Tool versions: 
-- Description:
--              handle receipt of arp pkt
--              ignores other types of pkt
--
--              When it receives an ARP pkt that is either addressed to our IP or is a global request,
--              it outputs for a single clock cycle either recv_who_has or recv_I_have along
--              with associated mac or arp entry data.
--
--              Note that if recv who_has and we have it, then we also assert I_have so that we can cache the rev lookup
--              on the expectation that we will want to reply to this host.
--
-- Dependencies: 
--
-- Revision: 
-- Revision 0.01 - File Created - refactored from arp v0.02 module
-- Additional Comments: 
--
----------------------------------------------------------------------------------
library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.NUMERIC_STD.ALL;
use work.arp_types.all;
 
entity arp_rx is
    Port (
                        -- MAC layer RX signals
                        data_in                                 : in  STD_LOGIC_VECTOR (7 downto 0);             -- ethernet frame (from dst mac addr through to last byte of frame)
                        data_in_valid           : in  STD_LOGIC;                                                                        -- indicates data_in valid on clock
                        data_in_last            : in  STD_LOGIC;                                                                        -- indicates last data in frame
                        -- ARP output signals
                        recv_who_has            : out std_logic;                                                                        -- pulse will be latched
                        arp_entry_for_who_has   : out arp_entry_t;                                              -- target for who_has msg (Iie, who to reply to)
                        recv_I_have                     : out std_logic;                                                                        -- pulse will be latched
                        arp_entry_for_I_have    : out arp_entry_t;                                                      -- arp target for I_have msg
                        -- control and status signals
                        req_count                       : out STD_LOGIC_VECTOR(7 downto 0);                      -- count of arp pkts received
                        -- system signals
                        our_ip_address  : in STD_LOGIC_VECTOR (31 downto 0);
                        rx_clk                          : in std_logic;
                        reset                           : in  STD_LOGIC
                        );
end arp_rx;
 
 
architecture Behavioral of arp_rx is
 
        type rx_state_t is (IDLE,PARSE,PROCESS_ARP,WAIT_END);
        type rx_event_t is (NO_EVENT,DATA);
        type count_mode_t is (RST,INCR,HOLD);
        type arp_oper_t is (NOP,REQUEST,REPLY);
 
        type tx_state_type is (IDLE,WAIT_MAC,SEND);
 
        -- state variables
        signal send_request_needed              : std_logic;
        signal tx_mac_chn_reqd  : std_logic;
 
        signal rx_state                         : rx_state_t;
        signal rx_count                         : unsigned (7 downto 0);
        signal arp_operation            : arp_oper_t;
        signal arp_req_count            : unsigned (7 downto 0);
        signal new_arp_entry            : arp_entry_t;
 
-- FIXME        - remove these debug state signals
        signal arp_err_data             : std_logic_vector (7 downto 0);
        signal set_err_data             : std_logic;
 
  attribute keep : string;
  attribute keep of arp_err_data             : signal is "true";
 
 
        -- rx control signals
        signal next_rx_state    : rx_state_t;
        signal set_rx_state             : std_logic;
        signal rx_event                         : rx_event_t;
        signal rx_count_mode    : count_mode_t;
        signal set_arp_oper             : std_logic;
        signal arp_oper_set_val : arp_oper_t;
        signal dataval                  : std_logic_vector (7 downto 0);
        signal count_arp_rcvd   : std_logic;
 
        signal set_mac5                         : std_logic;
        signal set_mac4                         : std_logic;
        signal set_mac3                         : std_logic;
        signal set_mac2                         : std_logic;
        signal set_mac1                         : std_logic;
        signal set_mac0                         : std_logic;
 
        signal set_ip3                  : std_logic;
        signal set_ip2                  : std_logic;
        signal set_ip1                  : std_logic;
        signal set_ip0                  : std_logic;
 
 
 
        -- function to determine whether the rx pkt is an arp pkt and whether we want to process it
        -- Returns 1 if we should discard
        -- The following will make us ignore the frame (all values hexadecimal):
        -- PDU type /= 0806
        -- Protocol Type /= 0800
        -- Hardware Type /= 1
        -- Hardware Length /= 6
        -- Protocol Length /= 4
        -- Operation /= 1 or 2
        -- Target IP /= our IP (i.er. message is not meant for us)
        --
        function not_our_arp(data : STD_LOGIC_VECTOR; count : unsigned; our_ip : std_logic_vector) return std_logic is
        begin
                if
                        (count = 12 and data /= x"08") or                                               -- PDU type 0806 : ARP
                        (count = 13 and data /= x"06") or
                        (count = 14 and data /= x"00") or                                               -- HW type 1 : eth
                        (count = 15 and data /= x"01") or
                        (count = 16 and data /= x"08") or                                               -- Protocol 0800 : IP
                        (count = 17 and data /= x"00") or
                        (count = 18 and data /= x"06") or                                               -- HW Length 6
                        (count = 19 and data /= x"04") or                                               -- protocol length 4
                        (count = 20 and data /= x"00") or                                               -- operation 1 or 2 (req or reply)
                        (count = 21 and data /= x"01" and data /= x"02") or
                        (count = 38 and data /= our_ip(31 downto 24)) or        -- target IP is ours
                        (count = 39 and data /= our_ip(23 downto 16)) or
                        (count = 40 and data /= our_ip(15 downto 8)) or
                        (count = 41 and data /= our_ip(7 downto 0))
                then
                        return '1';
                else
                        return '0';
                end if;
        end function not_our_arp;
 
begin
 
        rx_combinatorial : process (
                -- input signals
                data_in, data_in_valid, data_in_last, our_ip_address,
                -- state variables
                rx_state, rx_count, arp_operation, arp_req_count, arp_err_data, new_arp_entry,
                -- control signals
                next_rx_state, set_rx_state, rx_event, rx_count_mode, set_arp_oper, arp_oper_set_val,
                dataval,set_mac5,set_mac4,set_mac3,set_mac2,set_mac1,set_mac0,set_ip3,set_ip2,set_ip1,set_ip0, set_err_data,
                count_arp_rcvd
                )
        begin
                -- set output followers
                req_count <= STD_LOGIC_VECTOR(arp_req_count);
 
                -- set defaults for combinatorial outputs
                recv_who_has <= '0';
                arp_entry_for_who_has.ip <= (others => '0');
                arp_entry_for_who_has.mac <= (others => '0');
                recv_I_have <= '0';
                arp_entry_for_I_have.ip <= (others => '0');
                arp_entry_for_I_have.mac <= (others => '0');
 
                -- set signal defaults
                next_rx_state <= IDLE;
                set_rx_state <= '0';
                rx_event <= NO_EVENT;
                rx_count_mode <= HOLD;
                set_arp_oper <= '0';
                arp_oper_set_val <= NOP;
                dataval <= (others => '0');
                set_mac5 <= '0';
                set_mac4 <= '0';
                set_mac3 <= '0';
                set_mac2 <= '0';
                set_mac1 <= '0';
                set_mac0 <= '0';
                set_ip3 <= '0';
                set_ip2 <= '0';
                set_ip1 <= '0';
                set_ip0 <= '0';
                count_arp_rcvd <= '0';
                set_err_data <= '0';
 
                -- determine event (if any)
                if data_in_valid = '1' then
                        rx_event <= DATA;
                end if;
 
                -- RX FSM
                case rx_state is
                        when IDLE =>
                                rx_count_mode <= RST;
                                case rx_event is
                                        when NO_EVENT => -- (nothing to do)
                                        when DATA =>
                                                next_rx_state <= PARSE;
                                                set_rx_state <= '1';
                                                rx_count_mode <= INCR;
                                end case;
 
                        when PARSE =>
                                case rx_event is
                                        when NO_EVENT => -- (nothing to do)
                                        when DATA =>
                                                rx_count_mode <= INCR;
                                                -- handle early frame termination
                                                if data_in_last = '1' then
                                                        next_rx_state <= IDLE;
                                                        set_rx_state <= '1';
                                                else
                                                        -- check for end of frame. Also, detect and discard if not our frame
                                                        if rx_count = 42 then
                                                                next_rx_state <= PROCESS_ARP;
                                                                set_rx_state <= '1';
                                                        elsif not_our_arp(data_in,rx_count,our_ip_address) = '1' then
                                                                dataval <= data_in;
                                                                set_err_data <= '1';
                                                                next_rx_state <= WAIT_END;
                                                                set_rx_state <= '1';
                                                        elsif rx_count = 21 then
                                                                -- capture ARP operation
                                                                case data_in is
                                                                        when x"01" =>
                                                                                arp_oper_set_val <= REQUEST;
                                                                                set_arp_oper <= '1';
                                                                        when x"02" =>
                                                                                arp_oper_set_val <= REPLY;
                                                                                set_arp_oper <= '1';
                                                                        when others =>  -- ignore other values
                                                                end case;
                                                        -- capture source mac addr
                                                        elsif rx_count = 22 then
                                                                set_mac5 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 23 then
                                                                set_mac4 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 24 then
                                                                set_mac3 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 25 then
                                                                set_mac2 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 26 then
                                                                set_mac1 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 27 then
                                                                set_mac0 <= '1';
                                                                dataval <= data_in;
                                                        -- capture source ip addr
                                                        elsif rx_count = 28 then
                                                                set_ip3 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 29 then
                                                                set_ip2 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 30 then
                                                                set_ip1 <= '1';
                                                                dataval <= data_in;
                                                        elsif rx_count = 31 then
                                                                set_ip0 <= '1';
                                                                dataval <= data_in;
                                                        end if;
                                                end if;
                                end case;
 
                        when PROCESS_ARP =>
                                next_rx_state <= WAIT_END;
                                set_rx_state <= '1';
                                arp_oper_set_val <= NOP;
                                set_arp_oper <= '1';
                                case arp_operation is
                                        when NOP => -- (nothing to do)
                                        when REQUEST =>
                                                        count_arp_rcvd <= '1';
                                                        recv_who_has <= '1';
                                                        arp_entry_for_who_has <= new_arp_entry;
                                                        -- setting I_Have as well allows us to cache the remote node's entry immediately
                                                        recv_I_have <= '1';
                                                        arp_entry_for_I_have    <= new_arp_entry;
                                        when REPLY =>
                                                        count_arp_rcvd <= '1';
                                                        recv_I_have <= '1';
                                                        arp_entry_for_I_have    <= new_arp_entry;
                                end case;
 
                        when WAIT_END =>
                                case rx_event is
                                        when NO_EVENT => -- (nothing to do)
                                        when DATA =>
                                                if data_in_last = '1' then
                                                        next_rx_state <= IDLE;
                                                        set_rx_state <= '1';
                                                end if;
                                end case;
 
                end case;
 
        end process;
 
        rx_sequential : process (rx_clk)
        begin
                if rising_edge(rx_clk) then
                        if reset = '1' then
                                -- reset state variables
                                rx_state <= IDLE;
                                rx_count <= x"00";
                                arp_operation <= NOP;
                                arp_req_count <= x"00";
                                arp_err_data <= (others => '0');
                        else
                                -- Next rx_state processing
                                if set_rx_state = '1' then
                                        rx_state <= next_rx_state;
                                else
                                        rx_state <= rx_state;
                                end if;
 
                                -- rx_count processing
                                case rx_count_mode is
                                        when RST =>
                                                rx_count <= x"00";
                                        when INCR =>
                                                rx_count <= rx_count + 1;
                                        when HOLD =>
                                                rx_count <= rx_count;
                                end case;
 
                                -- err data
                                if set_err_data = '1' then
                                        arp_err_data <= data_in;
                                else
                                        arp_err_data <= arp_err_data;
                                end if;
 
                                -- arp operation processing
                                if set_arp_oper = '1' then
                                        arp_operation <= arp_oper_set_val;
                                else
                                        arp_operation <= arp_operation;
                                end if;
 
                                -- source mac capture
                                if (set_mac5 = '1') then new_arp_entry.mac(47 downto 40) <= dataval; end if;
                                if (set_mac4 = '1') then new_arp_entry.mac(39 downto 32) <= dataval; end if;
                                if (set_mac3 = '1') then new_arp_entry.mac(31 downto 24) <= dataval; end if;
                                if (set_mac2 = '1') then new_arp_entry.mac(23 downto 16) <= dataval; end if;
                                if (set_mac1 = '1') then new_arp_entry.mac(15 downto 8) <= dataval; end if;
                                if (set_mac0 = '1') then new_arp_entry.mac(7 downto 0) <= dataval; end if;
 
                                -- source ip capture
                                if (set_ip3 = '1') then new_arp_entry.ip(31 downto 24) <= dataval; end if;
                                if (set_ip2 = '1') then new_arp_entry.ip(23 downto 16) <= dataval; end if;
                                if (set_ip1 = '1') then new_arp_entry.ip(15 downto 8) <= dataval; end if;
                                if (set_ip0 = '1') then new_arp_entry.ip(7 downto 0) <= dataval; end if;
 
                                -- set arp entry request
                                if count_arp_rcvd = '1' then
                                        -- count another ARP pkt received
                                        arp_req_count <= arp_req_count + 1;
                                else
                                        arp_req_count <= arp_req_count;
                                end if;
 
                        end if;
                end if;
        end process;
 
end Behavioral;
 

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Subversion Repositories udp_ip_stack

[/] [udp_ip_stack/] [trunk/] [rtl/] [vhdl/] [arp_RX.vhd] - Blame information for rev 11

Line No.	Rev	Author	Line
1	10	pjf	`----------------------------------------------------------------------------------`
2			`-- Company:`
3			`-- Engineer: Peter Fall`
4			`--`
5			`-- Create Date: 12:00:04 05/31/2011`
6			`-- Design Name:`
7			`-- Module Name: arp_rx - Behavioral`
8			`-- Project Name:`
9			`-- Target Devices:`
10			`-- Tool versions:`
11			`-- Description:`
12			`-- handle receipt of arp pkt`
13			`-- ignores other types of pkt`
14			`--`
15			`-- When it receives an ARP pkt that is either addressed to our IP or is a global request,`
16			`-- it outputs for a single clock cycle either recv_who_has or recv_I_have along`
17			`-- with associated mac or arp entry data.`
18			`--`
19			`-- Note that if recv who_has and we have it, then we also assert I_have so that we can cache the rev lookup`
20			`-- on the expectation that we will want to reply to this host.`
21			`--`
22			`-- Dependencies:`
23			`--`
24			`-- Revision:`
25			`-- Revision 0.01 - File Created - refactored from arp v0.02 module`
26			`-- Additional Comments:`
27			`--`
28			`----------------------------------------------------------------------------------`
29			`library IEEE;`
30			`use IEEE.STD_LOGIC_1164.ALL;`
31			`use IEEE.NUMERIC_STD.ALL;`
32			`use work.arp_types.all;`
33
34			`entity arp_rx is`
35			`Port (`
36			`-- MAC layer RX signals`
37			`data_in : in STD_LOGIC_VECTOR (7 downto 0); -- ethernet frame (from dst mac addr through to last byte of frame)`
38			`data_in_valid : in STD_LOGIC; -- indicates data_in valid on clock`
39			`data_in_last : in STD_LOGIC; -- indicates last data in frame`
40			`-- ARP output signals`
41			`recv_who_has : out std_logic; -- pulse will be latched`
42			`arp_entry_for_who_has : out arp_entry_t; -- target for who_has msg (Iie, who to reply to)`
43			`recv_I_have : out std_logic; -- pulse will be latched`
44			`arp_entry_for_I_have : out arp_entry_t; -- arp target for I_have msg`
45			`-- control and status signals`
46			`req_count : out STD_LOGIC_VECTOR(7 downto 0); -- count of arp pkts received`
47			`-- system signals`
48			`our_ip_address : in STD_LOGIC_VECTOR (31 downto 0);`
49			`rx_clk : in std_logic;`
50			`reset : in STD_LOGIC`
51			`);`
52			`end arp_rx;`
53
54
55			`architecture Behavioral of arp_rx is`
56
57			`type rx_state_t is (IDLE,PARSE,PROCESS_ARP,WAIT_END);`
58			`type rx_event_t is (NO_EVENT,DATA);`
59			`type count_mode_t is (RST,INCR,HOLD);`
60			`type arp_oper_t is (NOP,REQUEST,REPLY);`
61
62			`type tx_state_type is (IDLE,WAIT_MAC,SEND);`
63
64			`-- state variables`
65			`signal send_request_needed : std_logic;`
66			`signal tx_mac_chn_reqd : std_logic;`
67
68			`signal rx_state : rx_state_t;`
69			`signal rx_count : unsigned (7 downto 0);`
70			`signal arp_operation : arp_oper_t;`
71			`signal arp_req_count : unsigned (7 downto 0);`
72			`signal new_arp_entry : arp_entry_t;`
73
74			`-- FIXME - remove these debug state signals`
75			`signal arp_err_data : std_logic_vector (7 downto 0);`
76			`signal set_err_data : std_logic;`
77
78			`attribute keep : string;`
79			`attribute keep of arp_err_data : signal is "true";`
80
81
82			`-- rx control signals`
83			`signal next_rx_state : rx_state_t;`
84			`signal set_rx_state : std_logic;`
85			`signal rx_event : rx_event_t;`
86			`signal rx_count_mode : count_mode_t;`
87			`signal set_arp_oper : std_logic;`
88			`signal arp_oper_set_val : arp_oper_t;`
89			`signal dataval : std_logic_vector (7 downto 0);`
90			`signal count_arp_rcvd : std_logic;`
91
92			`signal set_mac5 : std_logic;`
93			`signal set_mac4 : std_logic;`
94			`signal set_mac3 : std_logic;`
95			`signal set_mac2 : std_logic;`
96			`signal set_mac1 : std_logic;`
97			`signal set_mac0 : std_logic;`
98
99			`signal set_ip3 : std_logic;`
100			`signal set_ip2 : std_logic;`
101			`signal set_ip1 : std_logic;`
102			`signal set_ip0 : std_logic;`
103
104
105
106			`-- function to determine whether the rx pkt is an arp pkt and whether we want to process it`
107			`-- Returns 1 if we should discard`
108			`-- The following will make us ignore the frame (all values hexadecimal):`
109			`-- PDU type /= 0806`
110			`-- Protocol Type /= 0800`
111			`-- Hardware Type /= 1`
112			`-- Hardware Length /= 6`
113			`-- Protocol Length /= 4`
114			`-- Operation /= 1 or 2`
115			`-- Target IP /= our IP (i.er. message is not meant for us)`
116			`--`
117			`function not_our_arp(data : STD_LOGIC_VECTOR; count : unsigned; our_ip : std_logic_vector) return std_logic is`
118			`begin`
119			`if`
120			`(count = 12 and data /= x"08") or -- PDU type 0806 : ARP`
121			`(count = 13 and data /= x"06") or`
122			`(count = 14 and data /= x"00") or -- HW type 1 : eth`
123			`(count = 15 and data /= x"01") or`
124			`(count = 16 and data /= x"08") or -- Protocol 0800 : IP`
125			`(count = 17 and data /= x"00") or`
126			`(count = 18 and data /= x"06") or -- HW Length 6`
127			`(count = 19 and data /= x"04") or -- protocol length 4`
128			`(count = 20 and data /= x"00") or -- operation 1 or 2 (req or reply)`
129			`(count = 21 and data /= x"01" and data /= x"02") or`
130			`(count = 38 and data /= our_ip(31 downto 24)) or -- target IP is ours`
131			`(count = 39 and data /= our_ip(23 downto 16)) or`
132			`(count = 40 and data /= our_ip(15 downto 8)) or`
133			`(count = 41 and data /= our_ip(7 downto 0))`
134			`then`
135			`return '1';`
136			`else`
137			`return '0';`
138			`end if;`
139			`end function not_our_arp;`
140
141			`begin`
142
143			`rx_combinatorial : process (`
144			`-- input signals`
145			`data_in, data_in_valid, data_in_last, our_ip_address,`
146			`-- state variables`
147			`rx_state, rx_count, arp_operation, arp_req_count, arp_err_data, new_arp_entry,`
148			`-- control signals`
149			`next_rx_state, set_rx_state, rx_event, rx_count_mode, set_arp_oper, arp_oper_set_val,`
150			`dataval,set_mac5,set_mac4,set_mac3,set_mac2,set_mac1,set_mac0,set_ip3,set_ip2,set_ip1,set_ip0, set_err_data,`
151			`count_arp_rcvd`
152			`)`
153			`begin`
154			`-- set output followers`
155			`req_count <= STD_LOGIC_VECTOR(arp_req_count);`
156
157			`-- set defaults for combinatorial outputs`
158			`recv_who_has <= '0';`
159			`arp_entry_for_who_has.ip <= (others => '0');`
160			`arp_entry_for_who_has.mac <= (others => '0');`
161			`recv_I_have <= '0';`
162			`arp_entry_for_I_have.ip <= (others => '0');`
163			`arp_entry_for_I_have.mac <= (others => '0');`
164
165			`-- set signal defaults`
166			`next_rx_state <= IDLE;`
167			`set_rx_state <= '0';`
168			`rx_event <= NO_EVENT;`
169			`rx_count_mode <= HOLD;`
170			`set_arp_oper <= '0';`
171			`arp_oper_set_val <= NOP;`
172			`dataval <= (others => '0');`
173			`set_mac5 <= '0';`
174			`set_mac4 <= '0';`
175			`set_mac3 <= '0';`
176			`set_mac2 <= '0';`
177			`set_mac1 <= '0';`
178			`set_mac0 <= '0';`
179			`set_ip3 <= '0';`
180			`set_ip2 <= '0';`
181			`set_ip1 <= '0';`
182			`set_ip0 <= '0';`
183			`count_arp_rcvd <= '0';`
184			`set_err_data <= '0';`
185
186			`-- determine event (if any)`
187			`if data_in_valid = '1' then`
188			`rx_event <= DATA;`
189			`end if;`
190
191			`-- RX FSM`
192			`case rx_state is`
193			`when IDLE =>`
194			`rx_count_mode <= RST;`
195			`case rx_event is`
196			`when NO_EVENT => -- (nothing to do)`
197			`when DATA =>`
198			`next_rx_state <= PARSE;`
199			`set_rx_state <= '1';`
200			`rx_count_mode <= INCR;`
201			`end case;`
202
203			`when PARSE =>`
204			`case rx_event is`
205			`when NO_EVENT => -- (nothing to do)`
206			`when DATA =>`
207			`rx_count_mode <= INCR;`
208			`-- handle early frame termination`
209			`if data_in_last = '1' then`
210			`next_rx_state <= IDLE;`
211			`set_rx_state <= '1';`
212			`else`
213			`-- check for end of frame. Also, detect and discard if not our frame`
214			`if rx_count = 42 then`
215			`next_rx_state <= PROCESS_ARP;`
216			`set_rx_state <= '1';`
217			`elsif not_our_arp(data_in,rx_count,our_ip_address) = '1' then`
218			`dataval <= data_in;`
219			`set_err_data <= '1';`
220			`next_rx_state <= WAIT_END;`
221			`set_rx_state <= '1';`
222			`elsif rx_count = 21 then`
223			`-- capture ARP operation`
224			`case data_in is`
225			`when x"01" =>`
226			`arp_oper_set_val <= REQUEST;`
227			`set_arp_oper <= '1';`
228			`when x"02" =>`
229			`arp_oper_set_val <= REPLY;`
230			`set_arp_oper <= '1';`
231			`when others => -- ignore other values`
232			`end case;`
233			`-- capture source mac addr`
234			`elsif rx_count = 22 then`
235			`set_mac5 <= '1';`
236			`dataval <= data_in;`
237			`elsif rx_count = 23 then`
238			`set_mac4 <= '1';`
239			`dataval <= data_in;`
240			`elsif rx_count = 24 then`
241			`set_mac3 <= '1';`
242			`dataval <= data_in;`
243			`elsif rx_count = 25 then`
244			`set_mac2 <= '1';`
245			`dataval <= data_in;`
246			`elsif rx_count = 26 then`
247			`set_mac1 <= '1';`
248			`dataval <= data_in;`
249			`elsif rx_count = 27 then`
250			`set_mac0 <= '1';`
251			`dataval <= data_in;`
252			`-- capture source ip addr`
253			`elsif rx_count = 28 then`
254			`set_ip3 <= '1';`
255			`dataval <= data_in;`
256			`elsif rx_count = 29 then`
257			`set_ip2 <= '1';`
258			`dataval <= data_in;`
259			`elsif rx_count = 30 then`
260			`set_ip1 <= '1';`
261			`dataval <= data_in;`
262			`elsif rx_count = 31 then`
263			`set_ip0 <= '1';`
264			`dataval <= data_in;`
265			`end if;`
266			`end if;`
267			`end case;`
268
269			`when PROCESS_ARP =>`
270			`next_rx_state <= WAIT_END;`
271			`set_rx_state <= '1';`
272			`arp_oper_set_val <= NOP;`
273			`set_arp_oper <= '1';`
274			`case arp_operation is`
275			`when NOP => -- (nothing to do)`
276			`when REQUEST =>`
277			`count_arp_rcvd <= '1';`
278			`recv_who_has <= '1';`
279			`arp_entry_for_who_has <= new_arp_entry;`
280			`-- setting I_Have as well allows us to cache the remote node's entry immediately`
281			`recv_I_have <= '1';`
282			`arp_entry_for_I_have <= new_arp_entry;`
283			`when REPLY =>`
284			`count_arp_rcvd <= '1';`
285			`recv_I_have <= '1';`
286			`arp_entry_for_I_have <= new_arp_entry;`
287			`end case;`
288
289			`when WAIT_END =>`
290			`case rx_event is`
291			`when NO_EVENT => -- (nothing to do)`
292			`when DATA =>`
293			`if data_in_last = '1' then`
294			`next_rx_state <= IDLE;`
295			`set_rx_state <= '1';`
296			`end if;`
297			`end case;`
298
299			`end case;`
300
301			`end process;`
302
303			`rx_sequential : process (rx_clk)`
304			`begin`
305			`if rising_edge(rx_clk) then`
306			`if reset = '1' then`
307			`-- reset state variables`
308			`rx_state <= IDLE;`
309			`rx_count <= x"00";`
310			`arp_operation <= NOP;`
311			`arp_req_count <= x"00";`
312			`arp_err_data <= (others => '0');`
313			`else`
314			`-- Next rx_state processing`
315			`if set_rx_state = '1' then`
316			`rx_state <= next_rx_state;`
317			`else`
318			`rx_state <= rx_state;`
319			`end if;`
320
321			`-- rx_count processing`
322			`case rx_count_mode is`
323			`when RST =>`
324			`rx_count <= x"00";`
325			`when INCR =>`
326			`rx_count <= rx_count + 1;`
327			`when HOLD =>`
328			`rx_count <= rx_count;`
329			`end case;`
330
331			`-- err data`
332			`if set_err_data = '1' then`
333			`arp_err_data <= data_in;`
334			`else`
335			`arp_err_data <= arp_err_data;`
336			`end if;`
337
338			`-- arp operation processing`
339			`if set_arp_oper = '1' then`
340			`arp_operation <= arp_oper_set_val;`
341			`else`
342			`arp_operation <= arp_operation;`
343			`end if;`
344
345			`-- source mac capture`
346			`if (set_mac5 = '1') then new_arp_entry.mac(47 downto 40) <= dataval; end if;`
347			`if (set_mac4 = '1') then new_arp_entry.mac(39 downto 32) <= dataval; end if;`
348			`if (set_mac3 = '1') then new_arp_entry.mac(31 downto 24) <= dataval; end if;`
349			`if (set_mac2 = '1') then new_arp_entry.mac(23 downto 16) <= dataval; end if;`
350			`if (set_mac1 = '1') then new_arp_entry.mac(15 downto 8) <= dataval; end if;`
351			`if (set_mac0 = '1') then new_arp_entry.mac(7 downto 0) <= dataval; end if;`
352
353			`-- source ip capture`
354			`if (set_ip3 = '1') then new_arp_entry.ip(31 downto 24) <= dataval; end if;`
355			`if (set_ip2 = '1') then new_arp_entry.ip(23 downto 16) <= dataval; end if;`
356			`if (set_ip1 = '1') then new_arp_entry.ip(15 downto 8) <= dataval; end if;`
357			`if (set_ip0 = '1') then new_arp_entry.ip(7 downto 0) <= dataval; end if;`
358
359			`-- set arp entry request`
360			`if count_arp_rcvd = '1' then`
361			`-- count another ARP pkt received`
362			`arp_req_count <= arp_req_count + 1;`
363			`else`
364			`arp_req_count <= arp_req_count;`
365			`end if;`
366
367			`end if;`
368			`end if;`
369			`end process;`
370
371			`end Behavioral;`
372