+-- `Deep Thought', a softcore CPU implemented on a FPGA
+--
+-- Copyright (C) 2010 Markus Hofstaetter <markus.manrow@gmx.at>
+-- Copyright (C) 2010 Martin Perner <e0725782@student.tuwien.ac.at>
+-- Copyright (C) 2010 Stefan Rebernig <stefan.rebernig@gmail.com>
+-- Copyright (C) 2010 Manfred Schwarz <e0725898@student.tuwien.ac.at>
+-- Copyright (C) 2010 Bernhard Urban <lewurm@gmail.com>
+--
+-- 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 3 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, see <http://www.gnu.org/licenses/>.
+
library IEEE;
use IEEE.std_logic_1164.all;
use IEEE.numeric_std.all;
use work.common_pkg.all;
-
+--use work.alu_pkg.all;
+--use work.gpm_pkg.all;
package extension_pkg is
constant EXTWORDL : integer := log2c(4);
constant BYTEADDR : integer := log2c(4);
-constant PCOUNT : integer := log2c(4);
+constant PCOUNT : integer := 3;
constant EXTWORDS : integer := EXTWORDL + BYTEADDR;
subtype ext_addrid_t is std_logic_vector(gp_register_t'high - EXTWORDS downto 0);
subtype ext_addr_t is std_logic_vector((gp_register_t'high-BYTEADDR) downto 0);
-subtype pointer_count is std_logic_vector(PCOUNT-1 downto 0);
+subtype paddr_t is std_logic_vector(log2c(PCOUNT)-1 downto 0);
type extmod_rec is record
sel : std_logic;
wr_en : std_logic;
- byte_en : std_logic_vector(gp_register_t'length/byte_t'length-1 downto 0);
+ byte_en : byte_en_t;
data : gp_register_t;
addr : ext_addr_t;
end record;
+type status_rec is record
+ zero : std_logic;
+ oflo : std_logic;
+ sign : std_logic;
+ carry : std_logic;
+end record;
+procedure put_word_be (tmp : out gp_register_t; signal reg : in gp_register_t; signal byte_en : byte_en_t);
-constant EXT_7SEG_ADDR: ext_addrid_t := x"FFFFFFA";
+-- Addressen der bis jetzt vorhanden extensions
+constant EXT_UART_ADDR: ext_addrid_t := x"0000200";
+constant EXT_7SEG_ADDR: ext_addrid_t := x"0000201";
+constant EXT_INT_ADDR: ext_addrid_t := x"0000202";
+constant EXT_IMP_ADDR: ext_addrid_t := x"0000203";
+constant EXT_TIMER_ADDR: ext_addrid_t := x"0000204";
+-- dummy addressen
constant EXT_EXTMEM_ADDR: ext_addrid_t := x"FFFFFFB";
-constant EXT_TIMER_ADDR: ext_addrid_t := x"FFFFFFC";
constant EXT_AC97_ADDR: ext_addrid_t := x"FFFFFFD";
-constant EXT_UART_ADDR: ext_addrid_t := x"FFFFFFE";
-constant EXT_GPM_ADDR: ext_addrid_t := x"FFFFFFF";
-
-
-
+constant EXT_GPMP_ADDR: ext_addrid_t := x"FFFFFFF";
+
+component extension_gpm is
+ --some modules won't need all inputs/outputs
+ generic (
+ -- active reset value
+ RESET_VALUE : std_logic
+ );
+ port(
+ --System inputs
+ clk : in std_logic;
+ reset : in std_logic;
+ -- general extension interface
+ ext_reg : in extmod_rec;
+ data_out : out gp_register_t;
+ -- Input
+ psw_nxt : in status_rec;
+ paddr : in paddr_t;
+ pinc : in std_logic;
+ pwr_en : in std_logic;
+ -- Ouput
+ psw : out status_rec;
+ pval : out gp_register_t;
+ pval_nxt : out gp_register_t
+ );
+ end component extension_gpm;
+
+component extension_interrupt is
+ --some modules won't need all inputs/outputs
+ generic (
+ -- active reset value
+ RESET_VALUE : std_logic
+ );
+ port(
+ --System inputs
+ clk : in std_logic;
+ reset : in std_logic;
+ -- general extension interface
+ ext_reg : in extmod_rec;
+ data_out : out gp_register_t;
+ -- Input
+ uart_int : in std_logic;
+ -- Ouput
+ int_req : out interrupt_t
+ );
+ end component extension_interrupt;
end package extension_pkg;
+
+package body extension_pkg is
+ procedure put_word_be (tmp : out gp_register_t; signal reg : in gp_register_t; signal byte_en : byte_en_t) is
+ begin
+ for i in 0 to 3 loop
+ if byte_en(i) = '1' then
+ tmp(((i+1)*byte_t'length-1) downto i*byte_t'length) := reg(((i+1)*byte_t'length-1) downto i*byte_t'length);
+ end if;
+ end loop;
+ end;
+end package body extension_pkg;