+++ /dev/null
--- J.STELZNER
--- INFORMATIK-3 LABOR
--- 23.08.2006
--- File: CONFIG_10H.VHD
-
-library IEEE;
-use IEEE.std_logic_1164.all;
-
-entity CONFIG_10H is
- port
- (
- PCI_CLOCK :in std_logic;
- PCI_RSTn :in std_logic;
- AD_REG :in std_logic_vector(31 downto 0);
- CBE_REGn :in std_logic_vector( 3 downto 0);
- CONF_WR_10H :in std_logic;
- CONF_DATA_10H :out std_logic_vector(31 downto 0)
- );
-end entity CONFIG_10H;
-
-architecture CONFIG_10H_DESIGN of CONFIG_10H is
-
- signal CONF_BAS_ADDR_REG :std_logic_vector(31 downto 0);
-
-begin
-
- --*******************************************************************
- --***** PCI Configuration Space Header "BASE ADDRESS REGISTER" ******
- --*******************************************************************
-
- CONF_BAS_ADDR_REG(1 downto 0) <= "01";-- Base Address Register for "I/O"
- CONF_BAS_ADDR_REG(3 downto 2) <= "00";-- IO Bereich = 16 BYTE
-
- process (PCI_CLOCK,PCI_RSTn)
- begin
-
- -- if PCI_RSTn = '0' then CONF_BAS_ADDR_REG(31 downto 2) <= (others =>'0');
- if PCI_RSTn = '0' then
- CONF_BAS_ADDR_REG(31 downto 4) <= (others =>'0');
-
- elsif (rising_edge(PCI_CLOCK)) then
-
- if CONF_WR_10H = '1'and CBE_REGn(3) = '0' then
- CONF_BAS_ADDR_REG(31 downto 24) <= AD_REG(31 downto 24);
- else
- CONF_BAS_ADDR_REG(31 downto 24) <= CONF_BAS_ADDR_REG(31 downto 24);
- end if;
-
- if CONF_WR_10H = '1'and CBE_REGn(2) = '0' then
- CONF_BAS_ADDR_REG(23 downto 16) <= AD_REG(23 downto 16);
- else
- CONF_BAS_ADDR_REG(23 downto 16) <= CONF_BAS_ADDR_REG(23 downto 16);
- end if;
-
- if CONF_WR_10H = '1'and CBE_REGn(1) = '0' then
- CONF_BAS_ADDR_REG(15 downto 8) <= AD_REG(15 downto 8);
- else
- CONF_BAS_ADDR_REG(15 downto 8) <= CONF_BAS_ADDR_REG(15 downto 8);
- end if;
-
- -- if CONF_WR_10H = '1'and CBE_REGn(0) = '0' then
- -- CONF_BAS_ADDR_REG( 7 downto 2) <= AD_REG( 7 downto 2);
- -- else
- -- CONF_BAS_ADDR_REG( 7 downto 2) <= CONF_BAS_ADDR_REG( 7 downto 2);
- -- end if;
-
- if CONF_WR_10H = '1'and CBE_REGn(0) = '0' then
- CONF_BAS_ADDR_REG( 7 downto 4) <= AD_REG( 7 downto 4);
- else
- CONF_BAS_ADDR_REG( 7 downto 4) <= CONF_BAS_ADDR_REG( 7 downto 4);
- end if;
- end if;
-end process;
-
-CONF_DATA_10H <= CONF_BAS_ADDR_REG;
-
-end architecture CONFIG_10H_DESIGN;
signal CONF_INT_PIN :std_logic_vector (15 downto 8);
signal CONF_INT_LINE :std_logic_vector ( 7 downto 0);
+ signal CONF_BAS_ADDR_REG :std_logic_vector(31 downto 0);
+
SIGNAL gnd : std_logic := '0';
SIGNAL vcc : std_logic := '1';
signal CONF_WR_10H : std_logic;
signal CONF_WR_3CH : std_logic;
signal CONF_READ_SEL : std_logic_vector (2 downto 0);
- signal CONF_DATA_10H_DUMMY : std_logic_vector (31 downto 0);
signal CONF_DATA_04H_DUMMY : std_logic_vector (31 downto 0);
signal CONF_DATA_3CH : std_logic_vector (31 downto 0);
signal CONF_DATA_08H : std_logic_vector (31 downto 0);
signal CONF_DATA_00H : std_logic_vector (31 downto 0);
- component CONFIG_MUX_0
- Port ( CONF_DATA_00H : In std_logic_vector (31 downto 0);
- CONF_DATA_04H : In std_logic_vector (31 downto 0);
- CONF_DATA_08H : In std_logic_vector (31 downto 0);
- CONF_DATA_10H : In std_logic_vector (31 downto 0);
- CONF_DATA_3CH : In std_logic_vector (31 downto 0);
- READ_SEL : In std_logic_vector (2 downto 0);
- CONF_DATA : Out std_logic_vector (31 downto 0) );
- end component;
-
component CONFIG_RD_0
Port ( ADDR_REG : In std_logic_vector (31 downto 0);
CF_RD_COM : In std_logic;
CONF_WR_3CH : Out std_logic );
end component;
- component CONFIG_10H
- Port ( AD_REG : In std_logic_vector (31 downto 0);
- CBE_REGn : In std_logic_vector (3 downto 0);
- CONF_WR_10H : In std_logic;
- PCI_CLOCK : In std_logic;
- PCI_RSTn : In std_logic;
- CONF_DATA_10H : Out std_logic_vector (31 downto 0) );
- end component;
-
component CONFIG_04H
Port ( AD_REG : In std_logic_vector (31 downto 0);
CBE_REGn : In std_logic_vector (3 downto 0);
CONF_DATA_08H <= CONF_CLASS_CODE & REVISION_ID;
CONF_DATA_04H <= CONF_DATA_04H_DUMMY;
- CONF_DATA_10H <= CONF_DATA_10H_DUMMY;
CONF_MAX_LAT <= X"00";
CONF_MIN_GNT <= X"00";
-- CONF_INT_PIN <= X"05 - FF0"; -- Reserviert
CONF_DATA_3CH <= CONF_MAX_LAT & CONF_MIN_GNT & CONF_INT_PIN & CONF_INT_LINE;
- I10 : CONFIG_MUX_0
- Port Map ( CONF_DATA_00H(31 downto 0)=>CONF_DATA_00H(31 downto 0),
- CONF_DATA_04H(31 downto 0)=>CONF_DATA_04H_DUMMY(31 downto 0),
- CONF_DATA_08H(31 downto 0)=>CONF_DATA_08H(31 downto 0),
- CONF_DATA_10H(31 downto 0)=>CONF_DATA_10H_DUMMY(31 downto 0),
- CONF_DATA_3CH(31 downto 0)=>CONF_DATA_3CH(31 downto 0),
- READ_SEL(2 downto 0)=>CONF_READ_SEL(2 downto 0),
- CONF_DATA(31 downto 0)=>CONF_DATA(31 downto 0) );
+ CONF_BAS_ADDR_REG(1 downto 0) <= "01";-- Base Address Register for "I/O"
+ CONF_BAS_ADDR_REG(3 downto 2) <= "00";-- IO Bereich = 16 BYTE
+ CONF_DATA_10H <= CONF_BAS_ADDR_REG;
+
I9 : CONFIG_RD_0
Port Map ( ADDR_REG(31 downto 0)=>ADDR_REG(31 downto 0),
CF_RD_COM=>CF_RD_COM,
CF_WR_COM=>CF_WR_COM, IRDY_REGn=>IRDY_REGn,
TRDYn=>TRDYn, CONF_WR_04H=>CONF_WR_04H,
CONF_WR_10H=>CONF_WR_10H, CONF_WR_3CH=>CONF_WR_3CH );
- I5 : CONFIG_10H
- Port Map ( AD_REG(31 downto 0)=>AD_REG(31 downto 0),
- CBE_REGn(3 downto 0)=>CBE_REGn(3 downto 0),
- CONF_WR_10H=>CONF_WR_10H, PCI_CLOCK=>PCI_CLOCK,
- PCI_RSTn=>PCI_RSTn,
- CONF_DATA_10H(31 downto 0)=>CONF_DATA_10H_DUMMY(31 downto 0) );
I2 : CONFIG_04H
Port Map ( AD_REG(31 downto 0)=>AD_REG(31 downto 0),
CBE_REGn(3 downto 0)=>CBE_REGn(3 downto 0),
process (PCI_CLOCK,PCI_RSTn)
begin
- if PCI_RSTn = '0' then
- CONF_INT_LINE <= (others => '0');
+ if PCI_RSTn = '0' then
+ CONF_INT_LINE <= (others => '0');
+
+ elsif (rising_edge(PCI_CLOCK)) then
+ if CONF_WR_3CH = '1'and CBE_REGn(0) = '0' then
+ CONF_INT_LINE(7 downto 0) <= AD_REG(7 downto 0);
+ end if;
+ end if;
+ end process;
+
+ process (PCI_CLOCK,PCI_RSTn)
+ begin
+
+ -- if PCI_RSTn = '0' then CONF_BAS_ADDR_REG(31 downto 2) <= (others =>'0');
+ if PCI_RSTn = '0' then
+ CONF_BAS_ADDR_REG(31 downto 4) <= (others =>'0');
+
+ elsif (rising_edge(PCI_CLOCK)) then
+
+ if CONF_WR_10H = '1'and CBE_REGn(3) = '0' then
+ CONF_BAS_ADDR_REG(31 downto 24) <= AD_REG(31 downto 24);
+ else
+ CONF_BAS_ADDR_REG(31 downto 24) <= CONF_BAS_ADDR_REG(31 downto 24);
+ end if;
+
+ if CONF_WR_10H = '1'and CBE_REGn(2) = '0' then
+ CONF_BAS_ADDR_REG(23 downto 16) <= AD_REG(23 downto 16);
+ else
+ CONF_BAS_ADDR_REG(23 downto 16) <= CONF_BAS_ADDR_REG(23 downto 16);
+ end if;
+
+ if CONF_WR_10H = '1'and CBE_REGn(1) = '0' then
+ CONF_BAS_ADDR_REG(15 downto 8) <= AD_REG(15 downto 8);
+ else
+ CONF_BAS_ADDR_REG(15 downto 8) <= CONF_BAS_ADDR_REG(15 downto 8);
+ end if;
+
+ -- if CONF_WR_10H = '1'and CBE_REGn(0) = '0' then
+ -- CONF_BAS_ADDR_REG( 7 downto 2) <= AD_REG( 7 downto 2);
+ -- else
+ -- CONF_BAS_ADDR_REG( 7 downto 2) <= CONF_BAS_ADDR_REG( 7 downto 2);
+ -- end if;
- elsif (rising_edge(PCI_CLOCK)) then
- if CONF_WR_3CH = '1'and CBE_REGn(0) = '0' then
- CONF_INT_LINE(7 downto 0) <= AD_REG(7 downto 0);
- end if;
+ if CONF_WR_10H = '1'and CBE_REGn(0) = '0' then
+ CONF_BAS_ADDR_REG( 7 downto 4) <= AD_REG( 7 downto 4);
+ else
+ CONF_BAS_ADDR_REG( 7 downto 4) <= CONF_BAS_ADDR_REG( 7 downto 4);
end if;
+ end if;
end process;
end SCHEMATIC;
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