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[/] [System09/] [trunk/] [rtl/] [VHDL/] [trap.vhd] - Blame information for rev 159

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1 99 davidgb
--===========================================================================--
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--                                                                           --
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--             Synthesizable Hardware Breakpoint Trap                        --
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--                                                                           --
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--===========================================================================--
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--
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--  File name      : trap.vhd
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--
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--  Entity name    : trap
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--
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--  Purpose        : Implements a 8 bit address and data hardware breakpoint comparator
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--                   which generates an interrupt output on qualified match conditions
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--
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--  Dependencies   : ieee.Std_Logic_1164
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--                   ieee.std_logic_unsigned
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--
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--  Author         : John E. Kent      
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--
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--  Email          : dilbert57@opencores.org      
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--
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--  Web            : http://opencores.org/project,system09
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-- 
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--  Description    : Register Memory Map
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--
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--                   Base + $00 - Address Comparitor High Byte
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--                   Base + $01 - Address Comparitor Low byte
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--                   Base + $02 - Data    Comparitor
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--                   Base + $03 - Control Comparitor
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--                   Base + $04 - Address Qualifier High Byte
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--                   Base + $05 - Address Qualifier Low byte
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--                   Base + $06 - Data    Qualifier
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--                   Base + $07 - Control Qualifier
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--
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--                   Address, Data and Control signals 
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--                   must match in the Comparitor registers 
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--                   Matches are qualified by setting a bit 
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--                   in the Qualifier registers
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--
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--                   Control Comparitor / Control Qualify (write)
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--                   b0 - r/w        1=read  0=write
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--                   b1 - vma        1=valid 0=invalid
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--                   b7 - irq output 1=match 0=mismatch
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--
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--                   Control Qualifier Read
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--                   b7 - match flag
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--
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--  Copyright (C) 2003 - 2010 John Kent
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--
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--  This program is free software: you can redistribute it and/or modify
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--  it under the terms of the GNU General Public License as published by
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--  the Free Software Foundation, either version 3 of the License, or
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--  (at your option) any later version.
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--
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--  This program is distributed in the hope that it will be useful,
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--  but WITHOUT ANY WARRANTY; without even the implied warranty of
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--  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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--  GNU General Public License for more details.
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--
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--  You should have received a copy of the GNU General Public License
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--  along with this program.  If not, see <http://www.gnu.org/licenses/>.
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--
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--===========================================================================--
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--                                                                           --
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--                             Revision History                              --
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--                                                                           --
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--===========================================================================--
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-- Version Author     Date        Description
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-- 0.1     John Kent  2003-05-05  Initial version
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-- 0.2     John kent  2010-08-09  Updated header & GPL information
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--
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library ieee;
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use ieee.std_logic_1164.all;
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use ieee.std_logic_unsigned.all;
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entity trap is
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        port (
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         clk        : in  std_logic;
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    rst        : in  std_logic;
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    cs         : in  std_logic;
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    rw         : in  std_logic;
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         vma        : in  std_logic;
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    addr       : in  std_logic_vector(15 downto 0);
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    data_in    : in  std_logic_vector(7 downto 0);
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         data_out   : out std_logic_vector(7 downto 0);
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         irq        : out std_logic
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  );
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end;
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architecture trap_arch of trap is
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--
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-- Trap registers
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--
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signal comp_addr_hi : std_logic_vector(7 downto 0);
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signal comp_addr_lo : std_logic_vector(7 downto 0);
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signal qual_addr_hi : std_logic_vector(7 downto 0);
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signal qual_addr_lo : std_logic_vector(7 downto 0);
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signal comp_data    : std_logic_vector(7 downto 0);
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signal qual_data    : std_logic_vector(7 downto 0);
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signal comp_ctrl    : std_logic_vector(7 downto 0);
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signal qual_ctrl    : std_logic_vector(7 downto 0);
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signal match_flag   : std_logic;
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begin
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--------------------------------
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--
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-- write control registers
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--
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--------------------------------
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trap_write : process( clk, rst, cs, rw, addr, data_in,
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                      comp_addr_hi, comp_addr_lo, comp_data, comp_ctrl,
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                      qual_addr_hi, qual_addr_lo, qual_data, qual_ctrl )
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begin
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  if clk'event and clk = '0' then
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    if rst = '1' then
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                  comp_addr_hi <= "00000000";
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                  comp_addr_lo <= "00000000";
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                  comp_data    <= "00000000";
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                  comp_ctrl    <= "00000000";
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                  qual_addr_hi <= "00000000";
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                  qual_addr_lo <= "00000000";
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                  qual_data    <= "00000000";
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                  qual_ctrl    <= "00000000";
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    elsif cs = '1' and rw = '0' then
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           case addr(2 downto 0) is
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                when "000" =>
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                  comp_addr_hi <= data_in;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "001" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= data_in;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "010" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= data_in;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "011" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= data_in;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "100" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= data_in;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "101" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= data_in;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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                when "110" =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= data_in;
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                  qual_ctrl    <= qual_ctrl;
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--              when "111" =>
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      when others =>
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= data_in;
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                end case;
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         else
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                  comp_addr_hi <= comp_addr_hi;
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                  comp_addr_lo <= comp_addr_lo;
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                  comp_data    <= comp_data;
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                  comp_ctrl    <= comp_ctrl;
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                  qual_addr_hi <= qual_addr_hi;
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                  qual_addr_lo <= qual_addr_lo;
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                  qual_data    <= qual_data;
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                  qual_ctrl    <= qual_ctrl;
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         end if;
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  end if;
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end process;
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--
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-- trap data output mux
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--
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trap_read : process( addr,
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                     comp_addr_hi, comp_addr_lo, comp_data, comp_ctrl,
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                     qual_addr_hi, qual_addr_lo, qual_data, qual_ctrl,
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                                                        match_flag )
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begin
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   case addr(2 downto 0) is
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        when "000" =>
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           data_out <= comp_addr_hi;
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        when "001" =>
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           data_out <= comp_addr_lo;
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        when "010" =>
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           data_out <= comp_data;
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        when "011" =>
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           data_out <= comp_ctrl;
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        when "100" =>
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           data_out <= qual_addr_hi;
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        when "101" =>
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           data_out <= qual_addr_lo;
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        when "110" =>
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           data_out <= qual_data;
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--      when "111" =>
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   when others =>
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           data_out(6 downto 0) <= qual_ctrl(6 downto 0);
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                data_out(7) <= match_flag;
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        end case;
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end process;
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--
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-- Trap hardware
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--
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trap_match : process( Clk, rst, cs, rw, addr, vma, match_flag, data_in,
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                      comp_addr_hi, comp_addr_lo, comp_data, comp_ctrl,
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                                                         qual_addr_hi, qual_addr_lo, qual_data, qual_ctrl)
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variable match         : std_logic;
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variable match_addr_hi : std_logic;
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variable match_addr_lo : std_logic;
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variable match_data    : std_logic;
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variable match_ctrl    : std_logic;
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begin
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  match_addr_hi :=
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           ((comp_addr_hi(7) xor addr(15)  ) and qual_addr_hi(7) ) or
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                     ((comp_addr_hi(6) xor addr(14)  ) and qual_addr_hi(6) ) or
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                     ((comp_addr_hi(5) xor addr(13)  ) and qual_addr_hi(5) ) or
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                     ((comp_addr_hi(4) xor addr(12)  ) and qual_addr_hi(4) ) or
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                     ((comp_addr_hi(3) xor addr(11)  ) and qual_addr_hi(3) ) or
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                     ((comp_addr_hi(2) xor addr(10)  ) and qual_addr_hi(2) ) or
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                     ((comp_addr_hi(1) xor addr( 9)  ) and qual_addr_hi(1) ) or
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                     ((comp_addr_hi(0) xor addr( 8)  ) and qual_addr_hi(0) );
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  match_addr_lo :=
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                     ((comp_addr_lo(7) xor addr( 7)  ) and qual_addr_lo(7) ) or
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                     ((comp_addr_lo(6) xor addr( 6)  ) and qual_addr_lo(6) ) or
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                     ((comp_addr_lo(5) xor addr( 5)  ) and qual_addr_lo(5) ) or
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                     ((comp_addr_lo(4) xor addr( 4)  ) and qual_addr_lo(4) ) or
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                     ((comp_addr_lo(3) xor addr( 3)  ) and qual_addr_lo(3) ) or
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                     ((comp_addr_lo(2) xor addr( 2)  ) and qual_addr_lo(2) ) or
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                     ((comp_addr_lo(1) xor addr( 1)  ) and qual_addr_lo(1) ) or
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                     ((comp_addr_lo(0) xor addr( 0)  ) and qual_addr_lo(0) );
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  match_data :=
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           ((comp_data(7)    xor data_in(7)) and qual_data(7)    ) or
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           ((comp_data(6)    xor data_in(6)) and qual_data(6)    ) or
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           ((comp_data(5)    xor data_in(5)) and qual_data(5)    ) or
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           ((comp_data(4)    xor data_in(4)) and qual_data(4)    ) or
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           ((comp_data(3)    xor data_in(3)) and qual_data(3)    ) or
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           ((comp_data(2)    xor data_in(2)) and qual_data(2)    ) or
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           ((comp_data(1)    xor data_in(1)) and qual_data(1)    ) or
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           ((comp_data(0)    xor data_in(0)) and qual_data(0)    );
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  match_ctrl :=
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           ((comp_ctrl(0)    xor rw        ) and qual_ctrl(0)    ) or
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           ((comp_ctrl(1)    xor vma       ) and qual_ctrl(1)    );
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  match := not ( match_addr_hi or match_addr_lo or match_data or match_ctrl);
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         if rst = '1' then
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                match_flag <= '0';
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    elsif clk'event and clk = '0' then
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      if cs = '1' and rw = '0' then
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                  match_flag <= '0';
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      else
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                  if match = comp_ctrl(7) then
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                    match_flag <= '1';
299
                  end if;
300
                end if;
301
    end if;
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         irq <= match_flag and qual_ctrl(7);
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  end process;
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305
end trap_arch;
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