edited simulation files

This commit is contained in:
Mario Hüttel 2018-04-07 19:09:27 +02:00
parent 9dd10afae1
commit c909e0c703
2 changed files with 66 additions and 56 deletions

View File

@ -67,7 +67,7 @@ begin -- architecture bench
rst <= '0'; rst <= '0';
dv <= '0'; dv <= '0';
rx <= "00"; rx <= "00";
wait for 100 us; wait for 350 us;
sendRMII(x"55"); sendRMII(x"55");
sendRMII(x"55"); sendRMII(x"55");
sendRMII(x"55"); sendRMII(x"55");
@ -104,10 +104,10 @@ begin -- architecture bench
sendRMII(x"AA"); sendRMII(x"AA");
sendRMII(x"55"); sendRMII(x"55");
-- Send FCS -- Send FCS
sendRMII(x"2B"); sendRMII(x"3A");
sendRMII(x"69"); sendRMII(x"97");
sendRMII(x"4E"); sendRMII(x"D9");
sendRMII(x"A8"); sendRMII(x"7A");
-- sendRMII(x"AB"); -- sendRMII(x"AB");

26
top.vhd
View File

@ -6,7 +6,7 @@
-- Author : Mario Hüttel <mario.huettel@gmx.net> -- Author : Mario Hüttel <mario.huettel@gmx.net>
-- Company : -- Company :
-- Created : 2018-04-05 -- Created : 2018-04-05
-- Last update: 2018-04-06 -- Last update: 2018-04-07
-- Platform : -- Platform :
-- Standard : VHDL'93/02 -- Standard : VHDL'93/02
------------------------------------------------------------------------------- -------------------------------------------------------------------------------
@ -36,11 +36,12 @@ entity top is
end entity top; end entity top;
architecture RTL of top is architecture RTL of top is
constant DELAYCNTVAL : integer := 100000; constant DELAYCNTVAL : integer := 100000; -- set to low value for
-- simulation
constant DEFMAC : std_logic_vector(47 downto 0) := x"00DEADBEEF00"; constant DEFMAC : std_logic_vector(47 downto 0) := x"00DEADBEEF00";
type smi_state_t is (IDLE, STROBE); type smi_state_t is (IDLE, STROBE);
type smi_init_state_t is (RESET, INIT, DELAY, INIT_COMPLETE); type smi_init_state_t is (SMI_POR, RESET, INIT, DELAY, INIT_COMPLETE);
type ws_send_t is (WS_READY, WS_SYNC, WS_RED, WS_GREEN, WS_BLUE, WS_PIPE, WS_POST); type ws_send_t is (WS_READY, WS_SYNC, WS_RED, WS_GREEN, WS_BLUE, WS_PIPE, WS_POST);
type receive_t is (PRE, DESTMAC, HEADER, RECV, WAITFORACK); type receive_t is (PRE, DESTMAC, HEADER, RECV, WAITFORACK);
@ -48,7 +49,8 @@ architecture RTL of top is
signal dat_cnt_s : unsigned(3 downto 0); signal dat_cnt_s : unsigned(3 downto 0);
signal sendstate : smi_state_t; signal sendstate : smi_state_t;
signal initstate : smi_init_state_t := RESET; signal initstate : smi_init_state_t := SMI_POR;
signal after_delay_state : smi_init_state_t := RESET;
signal rst_rxtx : std_logic; signal rst_rxtx : std_logic;
signal delaycounter : unsigned(19 downto 0); signal delaycounter : unsigned(19 downto 0);
signal smi_reg : std_logic_vector(4 downto 0); signal smi_reg : std_logic_vector(4 downto 0);
@ -186,19 +188,27 @@ begin -- architecture RTL
smi_dat <= (others => '0'); smi_dat <= (others => '0');
smi_strb <= '0'; smi_strb <= '0';
rst_rxtx <= '1'; rst_rxtx <= '1';
initstate <= RESET; initstate <= SMI_POR;
sendstate <= IDLE; sendstate <= IDLE;
after_delay_state <= RESET;
delaycounter <= (others => '0'); delaycounter <= (others => '0');
elsif rising_edge(clk) then elsif rising_edge(clk) then
smi_strb <= '0'; smi_strb <= '0';
rst_rxtx <= '1'; rst_rxtx <= '1';
case initstate is case initstate is
when SMI_POR =>
after_delay_state <= RESET;
delaycounter <= (others => '0');
initstate <= DELAY;
when RESET => when RESET =>
after_delay_state <= INIT;
delaycounter <= (others => '0');
sendsmi((others => '0'), x"8000", DELAY); sendsmi((others => '0'), x"8000", DELAY);
when DELAY => when DELAY =>
delaycounter <= delaycounter + 1; delaycounter <= delaycounter + 1;
if delaycounter = DELAYCNTVAL then -- Set to 100000 if delaycounter = DELAYCNTVAL then -- Set to 100000
initstate <= INIT; initstate <= after_delay_state;
end if; end if;
when INIT => when INIT =>
sendsmi((others => '0'), "00" & '1' & '1' & "000" & '1' & "00000000", INIT_COMPLETE); sendsmi((others => '0'), "00" & '1' & '1' & "000" & '1' & "00000000", INIT_COMPLETE);
@ -257,7 +267,7 @@ begin -- architecture RTL
if recv_cnt = 7 then if recv_cnt = 7 then
if mac = DEFMAC then if mac = DEFMAC then
recv_state <= RECV; recv_state <= RECV;
dat_cnt_s <= (others =>'0'); dat_cnt_s <= (others => '0');
else else
recv_state <= PRE; recv_state <= PRE;
@ -272,7 +282,7 @@ begin -- architecture RTL
dat_cnt_s <= dat_cnt_s +1; dat_cnt_s <= dat_cnt_s +1;
end if; end if;
if eof = '1' then if eof = '1' then
if crc_valid = '1' then-- or crc_valid = '0' then if crc_valid = '1' then -- or crc_valid = '0' then
recv_state <= WAITFORACK; recv_state <= WAITFORACK;
fifo_data_avail <= '1'; fifo_data_avail <= '1';
--led2 <= '0'; --led2 <= '0';