demo: Add MAC demo design

This commit is contained in:
Markus Koch 2022-01-23 16:29:31 +01:00
parent d1e0143c9d
commit d1150fb7db
7 changed files with 708 additions and 0 deletions

7
demo/lattice_brevia2/.gitignore vendored Normal file
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impl1/
*.ccl
.recovery
.run_manager.ini
.setting.ini
.spread_sheet.ini
.spreadsheet_view.ini

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-- VHDL netlist generated by SCUBA Diamond (64-bit) 3.12.0.240.2
-- Module Version: 5.7
--/usr/local/diamond/3.12/ispfpga/bin/lin64/scuba -w -n pll0 -lang vhdl -synth lse -arch mg5a00 -type pll -fin 50 -phase_cntl STATIC -fclkop 140 -fclkop_tol 0.0 -fb_mode CLOCKTREE -noclkos -noclkok -norst -noclkok2
-- Sat Jan 22 20:39:11 2022
library IEEE;
use IEEE.std_logic_1164.all;
-- synopsys translate_off
library xp2;
use xp2.components.all;
-- synopsys translate_on
entity pll0 is
port(
CLK : in std_logic;
CLKOP : out std_logic;
LOCK : out std_logic);
end pll0;
architecture Structure of pll0 is
-- internal signal declarations
signal CLKOP_t : std_logic;
signal scuba_vlo : std_logic;
-- local component declarations
component VLO
port(Z : out std_logic);
end component;
component EPLLD1
-- synopsys translate_off
generic(CLKOK_BYPASS : in String; CLKOS_BYPASS : in String;
CLKOP_BYPASS : in String; DUTY : in Integer;
PHASEADJ : in String; PHASE_CNTL : in String;
CLKOK_DIV : in Integer; CLKFB_DIV : in Integer;
CLKOP_DIV : in Integer; CLKI_DIV : in Integer);
-- synopsys translate_on
port(CLKI : in std_logic; CLKFB : in std_logic; RST : in std_logic;
RSTK : in std_logic; DPAMODE : in std_logic; DRPAI3 : in std_logic;
DRPAI2 : in std_logic; DRPAI1 : in std_logic; DRPAI0 : in std_logic;
DFPAI3 : in std_logic; DFPAI2 : in std_logic; DFPAI1 : in std_logic;
DFPAI0 : in std_logic; PWD : in std_logic; CLKOP : out std_logic;
CLKOS : out std_logic; CLKOK : out std_logic; LOCK : out std_logic;
CLKINTFB : out std_logic);
end component;
attribute CLKOK_BYPASS : string;
attribute CLKOS_BYPASS : string;
attribute FREQUENCY_PIN_CLKOP : string;
attribute CLKOP_BYPASS : string;
attribute PHASE_CNTL : string;
attribute DUTY : string;
attribute PHASEADJ : string;
attribute FREQUENCY_PIN_CLKI : string;
attribute CLKOK_DIV : string;
attribute CLKOP_DIV : string;
attribute CLKFB_DIV : string;
attribute CLKI_DIV : string;
attribute FIN : string;
attribute CLKOK_BYPASS of PLLInst_0 : label is "DISABLED";
attribute CLKOS_BYPASS of PLLInst_0 : label is "DISABLED";
attribute FREQUENCY_PIN_CLKOP of PLLInst_0 : label is "140.000000";
attribute CLKOP_BYPASS of PLLInst_0 : label is "DISABLED";
attribute PHASE_CNTL of PLLInst_0 : label is "STATIC";
attribute DUTY of PLLInst_0 : label is "8";
attribute PHASEADJ of PLLInst_0 : label is "0.0";
attribute FREQUENCY_PIN_CLKI of PLLInst_0 : label is "50.000000";
attribute CLKOK_DIV of PLLInst_0 : label is "2";
attribute CLKOP_DIV of PLLInst_0 : label is "4";
attribute CLKFB_DIV of PLLInst_0 : label is "14";
attribute CLKI_DIV of PLLInst_0 : label is "5";
attribute FIN of PLLInst_0 : label is "50.000000";
attribute syn_keep : boolean;
attribute NGD_DRC_MASK : integer;
attribute NGD_DRC_MASK of Structure : architecture is 1;
begin
-- component instantiation statements
scuba_vlo_inst : VLO
port map(Z => scuba_vlo);
PLLInst_0 : EPLLD1
-- synopsys translate_off
generic map(CLKOK_BYPASS => "DISABLED", CLKOS_BYPASS => "DISABLED",
CLKOP_BYPASS => "DISABLED", PHASE_CNTL => "STATIC", DUTY => 8,
PHASEADJ => "0.0", CLKOK_DIV => 2, CLKOP_DIV => 4, CLKFB_DIV => 14,
CLKI_DIV => 5)
-- synopsys translate_on
port map(CLKI => CLK, CLKFB => CLKOP_t, RST => scuba_vlo,
RSTK => scuba_vlo, DPAMODE => scuba_vlo, DRPAI3 => scuba_vlo,
DRPAI2 => scuba_vlo, DRPAI1 => scuba_vlo, DRPAI0 => scuba_vlo,
DFPAI3 => scuba_vlo, DFPAI2 => scuba_vlo, DFPAI1 => scuba_vlo,
DFPAI0 => scuba_vlo, PWD => scuba_vlo, CLKOP => CLKOP_t,
CLKOS => open, CLKOK => open, LOCK => LOCK, CLKINTFB => open);
CLKOP <= CLKOP_t;
end Structure;
-- synopsys translate_off
library xp2;
configuration Structure_CON of pll0 is
for Structure
for all : VLO
use entity xp2.VLO(V);
end for;
for all : EPLLD1
use entity xp2.EPLLD1(V);
end for;
end for;
end Structure_CON;
-- synopsys translate_on

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<?xml version="1.0" encoding="UTF-8"?>
<BaliProject version="3.2" title="mac_test" device="LFXP2-5E-6TN144C" default_implementation="impl1">
<Options/>
<Implementation title="impl1" dir="impl1" description="impl1" synthesis="lse" default_strategy="Strategy1">
<Options def_top="trashernet.trashernet_eth" lib="work" top="top_mac_test"/>
<Source name="../../design/top_mac_test.vhd" type="VHDL" type_short="VHDL">
<Options lib="work" top_module="top_mac_test"/>
</Source>
<Source name="../../trashernet/cdc_strobe.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/crc.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/synchronizer.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/trashernet_eth.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/trashernet_mac.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/trashernet_phy.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/trashernet_phy_cdc.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../trashernet/trashernet_pkg.vhd" type="VHDL" type_short="VHDL">
<Options lib="trashernet"/>
</Source>
<Source name="../../ip/pll0.vhd" type="VHDL" type_short="VHDL">
<Options lib="work"/>
</Source>
<Source name="../../design/ledcon.vhd" type="VHDL" type_short="VHDL">
<Options lib="work"/>
</Source>
<Source name="impl1/impl1.xcf" type="Programming Project File" type_short="Programming">
<Options/>
</Source>
<Source name="mac_test.lpf" type="Logic Preference" type_short="LPF">
<Options/>
</Source>
</Implementation>
<Strategy name="Strategy1" file="mac_test1.sty"/>
</BaliProject>

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BLOCK RESETPATHS ;
BLOCK ASYNCPATHS ;
LOCATE COMP "clk" SITE "21" ;
LOCATE COMP "rst_n" SITE "19" ;
LOCATE COMP "rx_p" SITE "94" ;
LOCATE COMP "led_n[0]" SITE "37" ;
LOCATE COMP "led_n[1]" SITE "38" ;
LOCATE COMP "led_n[2]" SITE "39" ;
LOCATE COMP "led_n[3]" SITE "40" ;
LOCATE COMP "led_n[4]" SITE "43" ;
LOCATE COMP "led_n[5]" SITE "44" ;
LOCATE COMP "led_n[6]" SITE "45" ;
LOCATE COMP "led_n[7]" SITE "46" ;
IOBUF PORT "rx_p" IO_TYPE=LVPECL33 ;
IOBUF PORT "clk" IO_TYPE=LVCMOS33 ;
IOBUF PORT "rst_n" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[0]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[1]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[2]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[3]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[4]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[5]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[6]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "debug_data[7]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[0]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[1]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[2]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[3]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[4]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[5]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[6]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "led_n[7]" IO_TYPE=LVCMOS33 ;
IOBUF PORT "tx_n" IO_TYPE=LVCMOS33 ;
IOBUF PORT "tx_p" IO_TYPE=LVCMOS33 ;
LOCATE COMP "tx_n" SITE "114" ;
LOCATE COMP "tx_p" SITE "116" ;
LOCATE COMP "button_n[0]" SITE "54" ;
LOCATE COMP "debug_data[0]" SITE "73" ;
LOCATE COMP "debug_data[1]" SITE "74" ;
LOCATE COMP "debug_data[2]" SITE "77" ;
LOCATE COMP "debug_data[3]" SITE "87" ;
LOCATE COMP "debug_data[4]" SITE "88" ;
LOCATE COMP "debug_data[5]" SITE "89" ;
LOCATE COMP "debug_data[6]" SITE "90" ;
LOCATE COMP "debug_data[7]" SITE "91" ;
BLOCK PATH FROM CLKNET "clk_c" TO CLKNET "clk_phy" ;
BLOCK PATH FROM CLKNET "clk_phy" TO CLKNET "clk_c" ;

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<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE strategy>
<Strategy version="1.0" predefined="0" description="" label="Strategy1">
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<Property name="PROP_BIT_EnIOBitGen" value="TriStateDuringReConfig" time="0"/>
<Property name="PROP_BIT_EnIntOscBitGen" value="Disable" time="0"/>
<Property name="PROP_BIT_ExtClockBitGen" value="False" time="0"/>
<Property name="PROP_BIT_GSREnableBitGen" value="True" time="0"/>
<Property name="PROP_BIT_GSRRelOnBitGen" value="DoneIn" time="0"/>
<Property name="PROP_BIT_GranTimBitGen" value="0" time="0"/>
<Property name="PROP_BIT_IOTriRelBitGen" value="Cycle 2" time="0"/>
<Property name="PROP_BIT_JTAGEnableBitGen" value="False" time="0"/>
<Property name="PROP_BIT_LenBitsBitGen" value="24" time="0"/>
<Property name="PROP_BIT_MIFFileBitGen" value="" time="0"/>
<Property name="PROP_BIT_NoHeader" value="False" time="0"/>
<Property name="PROP_BIT_OutFormatBitGen" value="Bit File (Binary)" time="0"/>
<Property name="PROP_BIT_OutFormatBitGen_REF" value="Bit File (Binary)" time="0"/>
<Property name="PROP_BIT_OutFormatPromGen" value="Intel Hex 32-bit" time="0"/>
<Property name="PROP_BIT_ParityCheckBitGen" value="True" time="0"/>
<Property name="PROP_BIT_ReadBackBitGen" value="Flash" time="0"/>
<Property name="PROP_BIT_ReadCaptureBitGen" value="Disable" time="0"/>
<Property name="PROP_BIT_RemZeroFramesBitGen" value="False" time="0"/>
<Property name="PROP_BIT_RunDRCBitGen" value="True" time="0"/>
<Property name="PROP_BIT_SearchPthBitGen" value="" time="0"/>
<Property name="PROP_BIT_StartUpClkBitGen" value="Cclk" time="0"/>
<Property name="PROP_BIT_SynchIOBitGen" value="True" time="0"/>
<Property name="PROP_BIT_SysClockConBitGen" value="Reset" time="0"/>
<Property name="PROP_BIT_SysConBitGen" value="Reset" time="0"/>
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<Property name="PROP_LST_DisableDistRam" value="False" time="0"/>
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<Property name="PROP_LST_EdfHardtimer" value="Enable" time="0"/>
<Property name="PROP_LST_EdfInLibPath" value="" time="0"/>
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<Property name="PROP_LST_FIXGATEDCLKS" value="True" time="0"/>
<Property name="PROP_LST_FSMEncodeStyle" value="Auto" time="0"/>
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<Property name="PROP_LST_MaxFanout" value="1000" time="0"/>
<Property name="PROP_LST_MuxStyle" value="Auto" time="0"/>
<Property name="PROP_LST_NumCriticalPaths" value="" time="0"/>
<Property name="PROP_LST_OptimizeGoal" value="Timing" time="0"/>
<Property name="PROP_LST_PropagatConst" value="True" time="0"/>
<Property name="PROP_LST_RAMStyle" value="Auto" time="0"/>
<Property name="PROP_LST_ROMStyle" value="Auto" time="0"/>
<Property name="PROP_LST_RemoveDupRegs" value="True" time="0"/>
<Property name="PROP_LST_ResolvedMixedDrivers" value="False" time="0"/>
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<Property name="PROP_LST_UseIOReg" value="Auto" time="0"/>
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<Property name="PROP_TIM_TransportModeOfPathDelay" value="False" time="0"/>
<Property name="PROP_TIM_TrgtSpeedGrade" value="" time="0"/>
<Property name="PROP_TIM_WriteVerboseNetlist" value="False" time="0"/>
<Property name="PROP_TMCHK_EnableCheck" value="True" time="0"/>
</Strategy>

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-- -------------------------------------------------------------------------- --
-- TRASHERNET - A Trashy Ethernet Stack for FPGAs --
-- -------------------------------------------------------------------------- --
-- ledcon.vhd : Simple debug LED helper
-- To blink or not blink.
-- -------------------------------------------------------------------------- --
-- 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 ieee.math_real.all;
entity ledcon is
generic(
F_CLK : integer;
BLINK : boolean_vector
);
port(
clk : in std_logic;
rst : in std_logic;
sig : in std_logic_vector;
led_n : out std_logic_vector
);
end entity ledcon;
architecture RTL of ledcon is
constant MS_CNT_MAX : integer := integer(round(real(F_CLK) * (1.0 * 10.0 ** (-3))));
signal ms_cnt : integer range 0 to MS_CNT_MAX;
signal ms_tick : std_logic;
begin
mstimer : process(clk, rst) is
begin
if rst then
ms_cnt <= MS_CNT_MAX;
elsif rising_edge(clk) then
if (ms_cnt = 0) then
ms_cnt <= MS_CNT_MAX;
else
ms_cnt <= ms_cnt - 1;
end if;
end if;
end process mstimer;
ms_tick <= '1' when ms_cnt = 0 else '0';
ledcongen : for i in sig'low to sig'high generate
ledblock : block
constant LED_CNT_MAX : integer := 50; -- on time, in ms
constant LED_CNT_MIN : integer := -50; -- off time, in ms
signal led_cnt : integer range LED_CNT_MIN to LED_CNT_MAX;
begin
ledgen : if BLINK(i) generate
ledproc : process(clk, rst) is
begin
if rst then
led_cnt <= LED_CNT_MIN;
elsif rising_edge(clk) then
if (led_cnt = LED_CNT_MIN) then
if sig(i) then
led_cnt <= LED_CNT_MAX;
end if;
elsif ms_tick then
led_cnt <= led_cnt - 1;
end if;
end if;
end process ledproc;
led_n(i) <= '0' when led_cnt > 0 else '1';
else generate
led_n(i) <= not sig(i);
end generate ledgen;
end block ledblock;
end generate ledcongen;
end architecture RTL;

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-- -------------------------------------------------------------------------- --
-- TRASHERNET - A Trashy Ethernet Stack for FPGAs --
-- -------------------------------------------------------------------------- --
-- top_mac_test.vhd: Test design to verify the functionality of the MAC core
-- Sends a broadcast with 100 decrementing numbers every 250 ms or when a
-- button is pushed. It will also directly reply with that content to any
-- packet addressed to us.
--
-- Target: Lattice Brevia 2 (LFXP2-5E)
-- -------------------------------------------------------------------------- --
-- 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 ieee.math_real.all;
library trashernet;
use trashernet.trashernet_pkg.all;
entity top_mac_test is
port(
clk : in std_logic;
rst_n : in std_logic;
rx_p : in std_logic;
tx_p : out std_logic;
tx_n : out std_logic;
led_n : out std_logic_vector(7 downto 0);
button_n : in std_logic_vector(3 downto 0);
debug_data : out std_logic_vector(7 downto 0)
);
end entity top_mac_test;
architecture rtl of top_mac_test is
component pll0
port(
CLK : in std_logic;
CLKOP : out std_logic;
LOCK : out std_logic
);
end component pll0;
constant F_CLK : integer := 50000000;
constant F_CLK_PHY : integer := 140000000;
constant LED_BLINK : boolean_vector(led_n'range) := (
6 downto 2 => true,
others => false
);
constant ETH_CONFIG : configuration_t := (
mac_address => (x"00", x"ff", x"ff", x"11", x"22", x"33")
);
signal rst : std_logic;
signal clk_phy : std_logic;
signal phy_pll_lock : std_logic;
signal led_sig : std_logic_vector(led_n'range);
signal phy_out : phy_out_t;
signal phy_in : phy_in_t;
signal mac_out : mac_out_t;
signal mac_in : mac_in_t;
type status_t is (IDLE, TX, WAITDONE);
signal state : status_t;
constant BYTE_CNT_MAX : integer := 100;
signal byte_cnt : integer range 0 to BYTE_CNT_MAX;
signal button_n_sync : std_logic_vector(button_n'range);
signal button : std_logic_vector(button_n'range);
constant TMO_MAX : integer := integer(round((real(F_CLK) * 0.25))) - 1;
signal tmo : integer range 0 to TMO_MAX;
begin
trashernet_mac_inst : entity trashernet.trashernet_mac
port map(
clk => clk,
rst => rst,
phy_out => phy_out,
phy_in => phy_in,
mac_out => mac_out,
mac_in => mac_in
);
pll0_inst : pll0
port map(
CLK => clk,
CLKOP => clk_phy,
LOCK => phy_pll_lock
);
trashernet_phy_cdc_inst : entity trashernet.trashernet_phy_cdc
generic map(
F_CLK => F_CLK,
F_CLK_PHY => F_CLK_PHY
)
port map(
clk => clk,
phy_clk => clk_phy,
rst => rst,
phy_out => phy_out,
phy_in => phy_in,
rx_p => rx_p,
tx_p => tx_p,
tx_n => tx_n
);
reset_sync : process(clk, rst_n) is
begin
if (rst_n = '0') then
rst <= '1';
elsif (rising_edge(clk)) then
rst <= '0';
end if;
end process reset_sync;
ledcon_inst : entity work.ledcon
generic map(
F_CLK => F_CLK,
BLINK => LED_BLINK
)
port map(
clk => clk,
rst => rst,
sig => led_sig,
led_n => led_n
);
led_sig <= (
0 => phy_pll_lock,
1 => phy_out.carrier_detect,
2 => phy_out.rx_active,
3 => phy_out.rx_error,
4 => mac_out.rx_mac_crc_ok,
5 => mac_out.rx_mac_crc_error,
6 => mac_out.tx_active,
7 => '0'
);
synchronizer_inst : entity trashernet.synchronizer
generic map(
SIZE => 2
)
port map(
clk => clk,
rst => rst,
data_in => button_n(0),
data_out => button_n_sync(0)
);
button <= not button_n_sync;
receiver : process(clk, rst) is
begin
if rst then
state <= IDLE;
mac_in.tx_mac_data_en <= '0';
tmo <= 0;
elsif rising_edge(clk) then
if (tmo /= 0) then
tmo <= tmo - 1;
end if;
case state is
when IDLE =>
if mac_out.rx_mac_crc_ok then
if (mac_out.rx_header.mac_destination = ETH_CONFIG.mac_address) then -- Note: We won't respond to broadcasts!
state <= TX;
byte_cnt <= BYTE_CNT_MAX;
mac_in.tx_header.mac_destination <= mac_out.rx_header.mac_source;
end if;
end if;
if (tmo = 0) or (button(0) = '1') then
state <= TX;
byte_cnt <= BYTE_CNT_MAX;
mac_in.tx_header.mac_destination <= (others => x"FF");
end if;
when TX =>
tmo <= TMO_MAX;
mac_in.tx_header.mac_ethertype <= (x"00", std_logic_vector(to_unsigned(BYTE_CNT_MAX, 8)));
mac_in.tx_mac_data_en <= '1';
mac_in.tx_mac_data <= std_logic_vector(to_unsigned(byte_cnt, 8));
if mac_out.tx_mac_data_ack then
if byte_cnt = 1 then
mac_in.tx_mac_data_en <= '0';
state <= WAITDONE;
else
byte_cnt <= byte_cnt - 1;
end if;
end if;
when WAITDONE =>
if mac_out.tx_active = '0' then
state <= IDLE;
end if;
end case;
end if;
end process receiver;
mac_in.tx_header.mac_source <= ETH_CONFIG.mac_address;
debug_data(0) <= tx_p;
debug_data(1) <= tx_n;
end architecture rtl;