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0847110969e6f2a584f6942ba82b3efe5b494272
linuxcnc/5i24/configs/hostmot2/source/TopUSBHostMot2.vhd
Thaddeus-Maximus f3953d66ae ?
2026-04-03 15:58:58 -05:00

795 lines
23 KiB
VHDL
Executable File
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library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_ARITH.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;
library UNISIM;
use UNISIM.VComponents.all;
--
-- Copyright (C) 2007, Peter C. Wallace, Mesa Electronics
-- http://www.mesanet.com
--
-- This program is is licensed under a disjunctive dual license giving you
-- the choice of one of the two following sets of free software/open source
-- licensing terms:
--
-- * GNU General Public License (GPL), version 2.0 or later
-- * 3-clause BSD License
--
--
-- The GNU GPL License:
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 2 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program; if not, write to the Free Software
-- Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
--
--
-- The 3-clause BSD License:
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions
-- are met:
--
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
--
-- * Redistributions in binary form must reproduce the above
-- copyright notice, this list of conditions and the following
-- disclaimer in the documentation and/or other materials
-- provided with the distribution.
--
-- * Neither the name of Mesa Electronics nor the names of its
-- contributors may be used to endorse or promote products
-- derived from this software without specific prior written
-- permission.c1
--
--
-- Disclaimer:
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
-- FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
-- COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
-- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
-- BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
-- CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
-- LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
-- ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
-- POSSIBILITY OF SUCH DAMAGE.
--
-- dont change these:
use work.IDROMConst.all;
-------------------- option selection area ----------------------------
-------------------- select one card type------------------------------
use work.@Card@.all;
--use work.i43_200card.all; -- needs 7i43u.ucf and SP3 200K 144 pin
--use work.i43_400card.all; -- needs 7i43u.ucf and SP3 400K 144 pin
--use work.i61_x16card.all; -- needs 7i61u.ucf and SP6 x16 256 pin
--use work.i61_x25card.all; -- needs 7i61u.ucf and SP6 x25 256 pin
-----------------------------------------------------------------------
-------------------- select (or add) one pinout -----------------------
-- note that all the USB configurations drop the address translation
-- as the LB Protocol has its own address system
use work.@Pin@.all;
-- 48 I/O pinouts for the 7I43
--use work.PIN_SV8_48.all;
--use work.PIN_SVSPD6_2_48.all;
--use work.PIN_SPSVST_7I47_7I65_48.all;
--use work.PIN_SVSP6_2_48.all;
--use work.PIN_SVST4_4_48.all;
--use work.PIN_SVST4_6_48.all;
--use work.PIN_SVST2_4_7I47_48.all;
--use work.PIN_SVST4_12_48.all ;
--use work.PIN_SVSSP4_6_7I46_48.all;
--use work.PIN_SVST2_4_7I47_48.all ;
--use work.PIN_SVUA4_8_48.all;
--use work.PIN_SVSS4_8_48.all;
--use work.PIN_SVSI8_48.all;
--use work.PIN_SVFA8_48.all;
--use work.PIN_SVTW4_24_24_48.all ;
--use work.PIN_SVTP4_7I39_48.all;
--use work.PIN_SVST6_6_7I48_48.all;
--use work.PIN_SVRM6_48.all;
--use work.PIN_SISVST6_2_3_7I47_48.all;
--use work.PIN_BOSSV.all ;
--use work.PIN_Enslavko_48.all;
-- 96 I/O pinouts for 7I61:
--use work.PIN_SV16_96.all;
--use work.PIN_SVST8_8_96.all;
--use work.PIN_SVST8_24_96.all;
--use work.PIN_SVSTSP8_12_6_96.all;
--use work.PIN_SV12_2X7I49_96.all;
--use work.PIN_SVST12_12_2X7I48_2X7I47_96.all;
----------------------------------------------------------------------
-- dont change anything below unless you know what you are doing -----
entity TopUSBHostMot2 is -- for 7I43/7I61 in USB mode
generic
(
ThePinDesc: PinDescType := PinDesc;
TheModuleID: ModuleIDType := ModuleID;
PWMRefWidth: integer := 13; -- PWM resolution is PWMRefWidth-1 bits
IDROMType: integer := 3;
UseIRQLogic: boolean := true;
UseWatchDog: boolean := true;
OffsetToModules: integer := 64;
OffsetToPinDesc: integer := 448;
BusWidth: integer := 32;
AddrWidth: integer := 16;
InstStride0: integer := 4; -- instance stride 0 = 4 bytes = 1 x 32 bit
InstStride1: integer := 64; -- instance stride 1 = 64 bytes = 16 x 32 bit registers
RegStride0: integer := 256; -- register stride 0 = 256 bytes = 64 x 32 bit registers
RegStride1: integer := 256 -- register stride 1 = 256 bytes - 64 x 32 bit
);
Port ( CLK : in std_logic;
LEDS : out std_logic_vector(LEDCount -1 downto 0);
IOBITS : inout std_logic_vector(IOWidth -1 downto 0);
DATABUS : inout std_logic_vector(7 downto 0);
USB_WRITE : out std_logic;
USB_RD : out std_logic;
USB_TXE : in std_logic;
USB_RXF : in std_logic;
RECONFIG : out std_logic;
HRECONFIG : out std_logic;
PARACONFIG : out std_logic;
SPICLK : out std_logic;
SPIIN : in std_logic;
SPIOUT : out std_logic;
SPICS : out std_logic
);
end TopUSBHostMot2;
architecture Behavioral of TopUSBHostMot2 is
-- GPIO interface signals
signal ReconfigSel : std_logic;
signal ReConfigreg : std_logic := '0';
signal LoadSPIReg : std_logic;
signal ReadSPIReg : std_logic;
signal LoadSPICS : std_logic;
signal ReadSPICS : std_logic;
signal LoadUSBDataReg : std_logic;
signal ReadUSBData : std_logic;
signal LoadUSBControlReg : std_logic;
signal ReadUSBStatus : std_logic;
signal USBDataReg : std_logic_vector(7 downto 0);
signal USBContReg : std_logic_vector(2 downto 0) := "011";
alias USB_RdReg : std_logic is USBContReg(0);
alias USB_WriteReg : std_logic is USBContReg(1);
alias USB_TSEn : std_logic is USBContReg(2);
signal iabus : std_logic_vector(10 downto 0); -- program address bus (changed to 11 bits 8/2010)
signal idbus : std_logic_vector(15 downto 0); -- program data bus
signal mradd : std_logic_vector(11 downto 0); -- memory read address
signal ioradd : std_logic_vector(11 downto 0); -- I/O read address
signal mwadd : std_logic_vector(11 downto 0); -- memory write address
signal mibus : std_logic_vector(7 downto 0); -- memory data in bus
signal mobus : std_logic_vector(7 downto 0); -- memory data out bus
signal mwrite : std_logic; -- memory write signal
signal mread : std_logic; -- memory read signal
signal pagedmradd : std_logic_vector(10 downto 0);
signal pagedmwadd : std_logic_vector(10 downto 0);
signal pagedmwrite : std_logic;
signal mibus_ram : std_logic_vector(7 downto 0); -- memory data in bus RAM
signal mibus_io : std_logic_vector(7 downto 0); -- memory data in bus IO
alias wiosel : std_logic is mwadd(10);
alias riosel : std_logic is ioradd(10);
signal WriteLEDs : std_logic;
Signal LocalLEDs : std_logic_vector(7 downto 0);
signal ReadExtData : std_logic;
signal WriteExtData : std_logic;
signal ReadExtAddLow : std_logic;
signal WriteExtAddLow : std_logic;
signal ReadExtAddHigh : std_logic;
signal WriteExtAddHigh : std_logic;
signal StartExtRead : std_logic;
signal StartExtReadRQ : std_logic;
signal StartExtReadDel : std_logic_vector(1 downto 0);
signal StartExtWrite : std_logic;
signal StartExtWriteRQ : std_logic;
signal StartExtWriteDel : std_logic_vector(1 downto 0);
signal ReadEIOCookie : std_logic;
signal HM2ReadBuffer0 : std_logic_vector(31 downto 0);
signal HM2WriteBuffer0 : std_logic_vector(31 downto 0);
signal HM2ReadBuffer1 : std_logic_vector(31 downto 0);
signal HM2WriteBuffer1 : std_logic_vector(31 downto 0);
signal Write32 : std_logic;
signal Read32 : std_logic;
signal ExtAddress0: std_logic_vector(15 downto 0);
signal ExtAddress1: std_logic_vector(15 downto 0);
signal HM2obus : std_logic_vector(31 downto 0);
signal wseladd: std_logic_vector(7 downto 0);
signal rseladd: std_logic_vector(7 downto 0);
signal clk0fx : std_logic;
signal clk0 : std_logic;
signal procclk : std_logic;
signal clk1fx : std_logic;
signal clk1 : std_logic;
signal hm2fastclock : std_logic;
constant EIOCookie: std_logic_vector(7 downto 0) := x"EE";
begin
ahostmot2: entity work.HostMot2
generic map (
thepindesc => ThePinDesc,
themoduleid => TheModuleID,
idromtype => IDROMType,
sepclocks => SepClocks,
onews => OneWS,
useirqlogic => UseIRQLogic,
pwmrefwidth => PWMRefWidth,
usewatchdog => UseWatchDog,
offsettomodules => OffsetToModules,
offsettopindesc => OffsetToPinDesc,
clockhigh => ClockHigh,
clockmed => ClockMed,
clocklow => ClockLow,
boardnamelow => BoardNameLow,
boardnamehigh => BoardNameHigh,
fpgasize => FPGASize,
fpgapins => FPGAPins,
ioports => IOPorts,
iowidth => IOWidth,
liowidth => LIOWidth,
portwidth => PortWidth,
buswidth => BusWidth,
addrwidth => AddrWidth,
inststride0 => InstStride0,
inststride1 => InstStride1,
regstride0 => RegStride0,
regstride1 => RegStride1,
ledcount => LEDCount )
port map (
ibus => HM2WriteBuffer1,
obus => HM2obus,
addr => ExtAddress1(15 downto 2),
readstb => Read32,
writestb => Write32,
clklow => CLK,
clkmed => procclk,
clkhigh => hm2fastclock,
-- int => INT,
leds => LEDS,
iobits => IOBITS
);
Is7I61: if (BoardNameHigh = BoardName7i61) generate
ClockMult0 : DCM
generic map (
CLKDV_DIVIDE => 2.0,
CLKFX_DIVIDE => 4,
CLKFX_MULTIPLY =>2, -- 4/2 for 100 MHz
CLKIN_DIVIDE_BY_2 => FALSE,
CLKIN_PERIOD => 19.5,
CLKOUT_PHASE_SHIFT => "NONE",
CLK_FEEDBACK => "1X",
DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS",
DFS_FREQUENCY_MODE => "LOW",
DLL_FREQUENCY_MODE => "LOW",
DUTY_CYCLE_CORRECTION => TRUE,
FACTORY_JF => X"C080",
PHASE_SHIFT => 0,
STARTUP_WAIT => FALSE)
port map (
CLK0 => clk0, --
CLKFB => clk0, -- DCM clock feedback
CLKFX => clk0fx,
CLKIN => hm2fastclock, -- cascaded clock input (from IBUFG, BUFG or DCM) fails on spartan 3
PSCLK => '0', -- Dynamic phase adjust clock input
PSEN => '0', -- Dynamic phase adjust enable input
PSINCDEC => '0', -- Dynamic phase adjust increment/decrement
RST => '0' -- DCM asynchronous reset input
);
BUFG0_inst : BUFG
port map (
O => procclk, -- Clock buffer output
I => clk0fx -- Clock buffer input
);
ClockMult1 : DCM
generic map (
CLKDV_DIVIDE => 2.0,
CLKFX_DIVIDE => 2,
CLKFX_MULTIPLY =>8, -- 8/2 for 200 MHz
CLKIN_DIVIDE_BY_2 => FALSE,
CLKIN_PERIOD => 19.5,
CLKOUT_PHASE_SHIFT => "NONE",
CLK_FEEDBACK => "1X",
DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS",
DFS_FREQUENCY_MODE => "LOW",
DLL_FREQUENCY_MODE => "LOW",
DUTY_CYCLE_CORRECTION => TRUE,
FACTORY_JF => X"C080",
PHASE_SHIFT => 0,
STARTUP_WAIT => FALSE)
port map (
CLK0 => clk1, --
CLKFB => clk1, -- DCM clock feedback
CLKFX => clk1fx,
CLKIN => CLK, -- Clock input (from IBUFG, BUFG or DCM)
PSCLK => '0', -- Dynamic phase adjust clock input
PSEN => '0', -- Dynamic phase adjust enable input
PSINCDEC => '0', -- Dynamic phase adjust increment/decrement
RST => '0' -- DCM asynchronous reset input
);
BUFG1_inst : BUFG
port map (
O => hm2fastclock, -- Clock buffer output
I => clk1fx -- Clock buffer input
);
-- End of DCM_inst instantiation
end generate;
Isnot7I61: if (BoardNameHigh /= BoardName7i61) generate
ClockMult0 : DCM
generic map (
CLKDV_DIVIDE => 2.0,
CLKFX_DIVIDE => 2,
CLKFX_MULTIPLY =>3, -- 3/2 FOR 75 MHz
CLKIN_DIVIDE_BY_2 => FALSE,
CLKIN_PERIOD => 19.5,
CLKOUT_PHASE_SHIFT => "NONE",
CLK_FEEDBACK => "1X",
DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS",
DFS_FREQUENCY_MODE => "LOW",
DLL_FREQUENCY_MODE => "LOW",
DUTY_CYCLE_CORRECTION => TRUE,
FACTORY_JF => X"C080",
PHASE_SHIFT => 0,
STARTUP_WAIT => FALSE)
port map (
CLK0 => clk0, --
CLKFB => clk0, -- DCM clock feedback
CLKFX => clk0fx,
CLKIN => CLK, -- External clock input (from IBUFG, BUFG or DCM) not possible on SP6 7I61
PSCLK => '0', -- Dynamic phase adjust clock input
PSEN => '0', -- Dynamic phase adjust enable input
PSINCDEC => '0', -- Dynamic phase adjust increment/decrement
RST => '0' -- DCM asynchronous reset input
);
BUFG0_inst : BUFG
port map (
O => procclk, -- Clock buffer output
I => clk0fx -- Clock buffer input
);
ClockMult1 : DCM
generic map (
CLKDV_DIVIDE => 2.0,
CLKFX_DIVIDE => 2,
CLKFX_MULTIPLY =>4, -- 4/2 for 100 MHz
CLKIN_DIVIDE_BY_2 => FALSE,
CLKIN_PERIOD => 19.5,
CLKOUT_PHASE_SHIFT => "NONE",
CLK_FEEDBACK => "1X",
DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS",
DFS_FREQUENCY_MODE => "LOW",
DLL_FREQUENCY_MODE => "LOW",
DUTY_CYCLE_CORRECTION => TRUE,
FACTORY_JF => X"C080",
PHASE_SHIFT => 0,
STARTUP_WAIT => FALSE)
port map (
CLK0 => clk1, --
CLKFB => clk1, -- DCM clock feedback
CLKFX => clk1fx,
CLKIN => CLK, -- Clock input (from IBUFG, BUFG or DCM)
PSCLK => '0', -- Dynamic phase adjust clock input
PSEN => '0', -- Dynamic phase adjust enable input
PSINCDEC => '0', -- Dynamic phase adjust increment/decrement
RST => '0' -- DCM asynchronous reset input
);
BUFG1_inst : BUFG
port map (
O => hm2fastclock, -- Clock buffer output
I => clk1fx -- Clock buffer input
);
-- End of DCM_inst instantiation
end generate;
asimplspi: entity work.simplespi8
generic map
(
buswidth => 8,
div => 2, -- for divide by 3
bits => 8
)
port map
(
clk => procclk,
ibus => mobus,
obus => mibus_io,
loaddata => LoadSPIReg,
readdata => ReadSPIReg,
loadcs => LoadSPICS,
readcs => ReadSPICS,
spiclk => SPIClk,
spiin => SPIIn,
spiout => SPIOut,
spics =>SPICS
);
processor: entity work.DumbAss8sq
port map (
clk => procclk,
reset => '0',
iabus => iabus, -- program address bus
idbus => idbus, -- program data bus
mradd => mradd, -- memory read address
mwadd => mwadd, -- memory write address
mibus => mibus, -- memory data in bus
mobus => mobus, -- memory data out bus
mwrite => mwrite, -- memory write signal
mread => mread -- memory read signal
-- carryflg => -- carry flag
);
programROM : entity work.usbrom
port map(
addr => iabus,
clk => procclk,
din => x"0000",
dout => idbus,
we => '0'
);
DataRam : entity work.usbram
port map(
addra => pagedmwadd,
addrb => pagedmradd,
clk => procclk,
dina => mobus,
-- douta =>
doutb => mibus_ram,
wea => pagedmwrite
);
MiscProcFixes : process (procclk, mradd, mwadd, mwrite) -- need to match BlockRAM address pipeline register for I/O
begin -- and map memory/IO so 1K IO,1K memory, 1K IO, 1K memory
if rising_edge(procclk) then
ioradd <= mradd;
end if;
pagedmradd <= mradd(11) & mradd(9 downto 0);
pagedmwadd <= mwadd(11) & mwadd(9 downto 0);
pagedmwrite <= mwrite and mwadd(10);
end process;
ram_iomux : process (ioradd(10),mibus_ram,mibus_io)
begin
if ioradd(10) = '1' then
mibus <= mibus_ram;
else
mibus <= mibus_io;
end if;
end process;
iodecode: process(ioradd,mwadd,mwrite,rseladd,wseladd,extaddress0,writeextdata,readextdata)
begin
rseladd <= ioradd(7 downto 0);
wseladd <= mwadd(7 downto 0);
if rseladd (7 downto 3) = "01100" and riosel = '0' then -- 0x60 through 0x67
ReadExtData <= '1';
else
ReadExtData <= '0';
end if;
if wseladd (7 downto 3) = "01100" and wiosel = '0' and mwrite = '1' then -- 0x60 through 0x67
WriteExtData <= '1';
else
WriteExtData <= '0';
end if;
if rseladd = x"68" and riosel = '0' then
ReadExtAddLow <= '1';
else
ReadExtAddLow <= '0';
end if;
if wseladd = x"68" and wiosel = '0' and mwrite= '1' then
WriteExtAddLow <= '1';
else
WriteExtAddLow <= '0';
end if;
if rseladd = x"69" and riosel = '0' then
ReadExtAddHigh <= '1';
else
ReadExtAddHigh <= '0';
end if;
if wseladd = x"69" and wiosel = '0' and mwrite= '1' then
WriteExtAddHigh <= '1';
else
WriteExtAddHigh <= '0';
end if;
if wseladd = x"6D" and wiosel = '0' and mwrite = '1' then
StartExtRead <= '1';
else
StartExtRead <= '0';
end if;
if wseladd = x"6E" and wiosel = '0' and mwrite= '1' then
StartExtWrite <= '1';
else
StartExtWrite <= '0';
end if;
if rseladd = x"6F" and riosel = '0' then
ReadEIOCookie <= '1';
else
ReadEIOCookie <= '0';
end if;
if wseladd = x"7A" and wiosel = '0' and mwrite = '1'then
WriteLEDs <= '1';
else
WriteLEDs <= '0';
end if;
if wseladd = x"7B" and wiosel = '0' and mwrite = '1'then
LoadUSBControlReg <= '1';
else
LoadUSBControlReg <= '0';
end if;
if rseladd = x"7B" and riosel = '0' then
ReadUSBStatus <= '1';
else
ReadUSBStatus <= '0';
end if;
if wseladd = x"7C" and wiosel = '0' and mwrite = '1'then
LoadUSBDataReg <= '1';
else
LoadUSBDataReg <= '0';
end if;
if rseladd = x"7C" and riosel = '0' then
ReadUSBData <= '1';
else
ReadUSBData <= '0';
end if;
if wseladd = x"007D" and wiosel = '0' and mwrite = '1' then
LoadSPICS <= '1';
else
LoadSPICS <= '0';
end if;
if rseladd = x"007D" and riosel = '0' then
ReadSPICS <= '1';
else
ReadSPICS <= '0';
end if;
if wseladd = x"007E" and wiosel = '0' and mwrite = '1'then
LoadSPIReg <= '1';
else
LoadSPIReg <= '0';
end if;
if rseladd = x"007E" and riosel = '0' then
ReadSPIReg <= '1';
else
ReadSPIReg <= '0';
end if;
if ExtAddress0 = x"7F7F" and WriteExtData = '1' and wiosel = '0' and mwrite = '1' then
ReconfigSel <= '1';
else
ReconfigSel <= '0';
end if;
end process iodecode;
doreconfig: process (procclk,ReConfigreg)
begin
if rising_edge(procclk) then
if ReconfigSel = '1' then
if mobus = x"5A" then
ReConfigreg <= '1';
end if;
end if;
end if;
RECONFIG <= not ReConfigreg;
HRECONFIG <= not ReConfigreg; -- for 7I43H
end process doreconfig;
HM2InterfaceShim: process (procclk,CLK,startextreaddel,
startextwritedel,readextdata,rseladd,
HM2ReadBuffer1,extaddress0,readextaddhigh,
extaddress0,readeiocookie,readextaddlow)
begin
if rising_edge(procclk) then
if WriteLEDS = '1' then
LocalLEDs <= mobus;
end if;
HM2ReadBuffer1 <= HM2ReadBuffer0;
if WriteExtData = '1' then
case wseladd(1 downto 0) is
when "00" => HM2WriteBuffer0( 7 downto 0) <= mobus;
when "01" => HM2WriteBuffer0(15 downto 8) <= mobus;
when "10" => HM2WriteBuffer0(23 downto 16) <= mobus;
when "11" => HM2WriteBuffer0(31 downto 24) <= mobus;
when others => null;
end case;
end if;
if StartExtRead = '1' then -- set read request - this is to sync processor I/O to
StartExtReadRq <= '1'; -- slower HM2 base clock
end if;
if StartExtWrite = '1' then -- set write request - this is to sync processor I/O to
StartExtWriteRq <= '1'; -- slower HM2 base clock
end if;
if WriteExtAddLow = '1' then
ExtAddress0(7 downto 0) <= mobus;
end if;
if WriteExtAddHigh = '1' then
ExtAddress0(15 downto 8) <= mobus;
end if;
end if; -- procclk
if rising_edge(CLK) then
HM2WriteBuffer1 <= HM2WriteBuffer0;
ExtAddress1 <= ExtAddress0;
StartExtReadDel <= StartExtReadDel(0) & StartExtReadRq;
StartExtWriteDel <= StartExtWriteDel(0) & StartExtWriteRq;
if Read32 = '1' then
HM2ReadBuffer0 <= HM2OBus;
end if;
end if;
if StartExtReadDel = "11" then
Read32 <= '1';
else
Read32 <= '0';
end if;
if StartExtWriteDel = "11" then
Write32 <= '1';
else
Write32 <= '0';
end if;
if StartExtReadDel(1) = '1' then -- asynchronous clear read request
StartExtReadRq <= '0';
end if;
if StartExtWriteDel(1) = '1' then -- asynchronous clear write request
StartExtWriteRq <= '0';
end if;
mibus_io <= "ZZZZZZZZ";
if ReadExtData = '1' then
case rseladd(1 downto 0) is
when "00" => mibus_io <= HM2ReadBuffer1( 7 downto 0);
when "01" => mibus_io <= HM2ReadBuffer1(15 downto 8);
when "10" => mibus_io <= HM2ReadBuffer1(23 downto 16);
when "11" => mibus_io <= HM2ReadBuffer1(31 downto 24);
when others => null;
end case;
end if;
if ReadExtAddLow = '1' then
mibus_io <= ExtAddress0( 7 downto 0);
end if;
if ReadExtAddHigh = '1' then
mibus_io <= ExtAddress0(15 downto 8);
end if;
if ReadEIOCookie = '1' then
mibus_io <= EIOCookie;
end if;
-- LEDS <= HM2WriteBuffer1(7 downto 0); -- debug kludge
end process;
USBInterfaceDrive: process (procclk, USBDataReg, DATABUS, USB_TSEn,
ReadUSBData, ReadUSBStatus, USB_RXF, USB_TXE)
begin
DATABUS <= "ZZZZZZZZ";
if USB_TSEn = '1' then
DATABUS <= USBDataReg;
end if;
mibus_io <= "ZZZZZZZZ";
if ReadUSBData = '1' and ReadUSBStatus = '0' then
mibus_io <= DATABUS;
end if;
if ReadUSBStatus = '1' and ReadUSBData = '0' then
mibus_io(0) <= USB_RXF; -- active low receiver has data
mibus_io(1) <= USB_TXE; -- active low xmit buffer has space
mibus_io(7 downto 2) <= "101010";
end if;
if rising_edge(procclk) then
if LoadUSBControlReg = '1' then
USBContReg <= mobus(2 downto 0);
end if;
if LoadUSBDataReg = '1' then
USBDataReg <= mobus;
end if;
end if;
USB_RD <= USB_RdReg;
USB_WRITE <= USB_WriteReg;
-- LEDS <= not LocalLEDs; -- debug kludge
-- LEDS <= not ExtAddress0(7 downto 0); -- debug kludge
-- LEDS <= not ExtAddress0(15 downto 8); -- debug kludge
-- LEDS <= not HM2WriteBuffer0(7 downto 0); -- debug kludge
PARACONFIG <= '0';
end process USBInterfaceDrive;
end Behavioral;
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