]> git.zerfleddert.de Git - raggedstone/blobdiff - dhwk/source/pci/config_space_header.vhd
lot of new files
[raggedstone] / dhwk / source / pci / config_space_header.vhd
index 1adc96a2ba391ec57cffa0c9b7cd510bb887189b..15db761375688bbf78f5f44f9071e2e50aa0d795 100644 (file)
@@ -1,3 +1,5 @@
+-- VHDL model created from schematic config_space_header.sch -- Jan 09 09:34:16 2007
+
 LIBRARY ieee;
 
 USE ieee.std_logic_1164.ALL;
@@ -25,91 +27,6 @@ end CONFIG_SPACE_HEADER;
 
 architecture SCHEMATIC of CONFIG_SPACE_HEADER is
 
-        constant CONF_DEVICE_ID :std_logic_vector(31 downto 16) := X"AFFE";
-        --other comm. device
-        constant CONF_CLASS_CODE :std_logic_vector (31 downto 8) := X"078000";
-
-        signal CONF_MAX_LAT :std_logic_vector (31 downto 24);
-        signal CONF_MIN_GNT :std_logic_vector (23 downto 16);
-        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 CONF_STATUS :std_logic_vector(31 downto 16);
-        signal CONF_COMMAND :std_logic_vector(15 downto 0);
-
-        -- PCI Configuration Space Header
-        --
-        -- \ Bit
-        -- \
-        --Address |31 24|23 16|15 8|7 0|
-        -----------------------------------------------------------------
-        --00 |Device ID |Vendor ID |
-        --04 |Status |Command |
-        --08 |Class Code |Revision ID |
-        --0C |BIST |Header Type |Latency T. |Cache L.S. |
-        --10-24 |Base Address Register |
-        --28 |Cardbus CIS Pointer |
-        --2C |Subsystem ID |Subsystem Vendor ID |
-        --30 |Expansion ROM Base Address |
-        --34 |Reserved |
-        --38 |Reserved |
-        --3C |Max_Lat |Min_Gnt |Int_Pin |Int_Line |
-        --40-FF | |
-        -----------------------------------------------------------------
-
-
-        --PCI Bus Commands
-        --C/BE[3..0] Command Type
-        --------------------------------------
-        -- 0000 Interrupt Acknowledge
-        -- 0001 Special Cycle
-        -- 0010 I/O Read
-        -- 0011 I/O Write
-        -- 0100 Reserved
-        -- 0101 Reserved
-        -- 0110 Memory Read
-        -- 0111 Memory Write
-        --
-        -- 1000 Reserved
-        -- 1001 Reserved
-        -- 1010 Configuration Read
-        -- 1011 Configuration Write
-        -- 1100 Memory Read Multiple
-        -- 1101 Dual Address Cycle
-        -- 1110 Memory Read Line
-        -- 1111 Memory Write and Invalidate
-
-
-        --PCI Byte Enable
-        --C/BE[3..0] gueltige Datenbits
-        -------------------------------
-        -- 0000 AD 31..0
-        -- 1000 AD 23..0
-        -- 1100 AD 15..0
-        -- 1110 AD 7..0
-
-        constant CMD_INT_ACK :std_logic_vector(3 downto 0) := "0000";
-        constant CMD_SP_CYC :std_logic_vector(3 downto 0) := "0001";
-        constant CMD_IO_READ :std_logic_vector(3 downto 0) := "0010";
-        constant CMD_IO_WRITE :std_logic_vector(3 downto 0) := "0011";
-        constant CMD_RES_4 :std_logic_vector(3 downto 0) := "0100";
-        constant CMD_RES_5 :std_logic_vector(3 downto 0) := "0101";
-        constant CMD_MEM_READ :std_logic_vector(3 downto 0) := "0110";
-        constant CMD_MEM_WRITE :std_logic_vector(3 downto 0) := "0111";
-        constant CMD_RES_8 :std_logic_vector(3 downto 0) := "1000";
-        constant CMD_RES_9 :std_logic_vector(3 downto 0) := "1001";
-        constant CMD_CONF_READ :std_logic_vector(3 downto 0) := "1010";
-        constant CMD_CONF_WRITE :std_logic_vector(3 downto 0) := "1011";
-        constant CMD_MEM_READ_M :std_logic_vector(3 downto 0) := "1100";
-        constant CMD_DU_ADR_CYC :std_logic_vector(3 downto 0) := "1101";
-        constant CMD_MEN_READ_L :std_logic_vector(3 downto 0) := "1110";
-        constant CMD_MEM_WRITE_I :std_logic_vector(3 downto 0) := "1111";
-
-        signal CONFIG_ADDR :std_logic_vector(7 downto 0);
-        signal CONFIG_WRITE :std_logic_vector(3 downto 0);
-
         SIGNAL gnd : std_logic := '0';
         SIGNAL vcc : std_logic := '1';
 
@@ -117,228 +34,122 @@ architecture SCHEMATIC of CONFIG_SPACE_HEADER is
         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);
 
-begin
-        CONF_DATA_00H <= CONF_DEVICE_ID & VENDOR_ID;
-        CONF_DATA_08H <= CONF_CLASS_CODE & REVISION_ID;
-        CONF_DATA_04H <= CONF_STATUS & CONF_COMMAND;
-
-        CONF_MAX_LAT <= X"00";
-        CONF_MIN_GNT <= X"00";
-        -- CONF_INT_PIN <= X"00"; -- Interrupt -
-        CONF_INT_PIN <= X"01"; -- Interrupt A
-        -- CONF_INT_PIN <= X"02"; -- Interrupt B
-        -- CONF_INT_PIN <= X"03"; -- Interrupt C
-        -- CONF_INT_PIN <= X"04"; -- Interrupt D
-        -- CONF_INT_PIN <= X"05 - FF0"; -- Reserviert
-        CONF_DATA_3CH <= CONF_MAX_LAT & CONF_MIN_GNT & CONF_INT_PIN & CONF_INT_LINE;
-
-        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;
-
-        process (PCI_CLOCK,PCI_RSTn)
-        begin
-        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;
-
-                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;
-
-        --*******************************************************************
-        --************* PCI Configuration Space Header "STATUS" *************
-        --*******************************************************************
-
-        CONF_STATUS(20 downto 16) <= "00000";-- Reserved
-        CONF_STATUS(21 ) <= '0';-- MAS/TAR: "R_O" :'0'= 33MHz / '1'= 66MHz
-        CONF_STATUS(22 ) <= '0';-- MAS/TAR: "R_O"
-        CONF_STATUS(23 ) <= '0';-- ???/???: "R_O" : fast back-to-back
-        CONF_STATUS(24 ) <= '0';-- Master :
-        --CONF_STATUS(26 downto 25) <= "00";-- Mas/Tar: "R_O" : timing fast for "DEVSEL"
-        CONF_STATUS(26 downto 25) <= "01";-- Mas/Tar: "R_O" : timing medium for "DEVSEL"
-        --CONF_STATUS(26 downto 25) <= "10";-- Mas/Tar: "R_O" : timing slow for "DEVSEL"
-        --CONF_STATUS(26 downto 25) <= "11";-- Mas/Tar: "R_O" : reserved
-        CONF_STATUS(27 ) <= '0';-- Target : "R_W" : Taget-Abort
-        CONF_STATUS(28 ) <= '0';-- Master : "R_W" : Taget-Abort
-        CONF_STATUS(29 ) <= '0';-- Master : "R_W" : Master-Abort
-        --CONF_STATUS(30 ) <= SERR;-- Mas/Tar: "R_W" : SERR
-        --CONF_STATUS(31 ) <= PERR;-- Mas/Tar: "R_W" : PERR
-
-        process (PCI_CLOCK,PCI_RSTn)
-        begin
-        if PCI_RSTn = '0' then
-                CONF_STATUS(30) <= '0';
-                CONF_STATUS(31) <= '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;
+                       READ_SEL : Out std_logic_vector (2 downto 0) );
+        end component;
+
+        component CONFIG_WR_0
+                Port ( ADDR_REG : In std_logic_vector (31 downto 0);
+                       CF_WR_COM : In std_logic;
+                       IRDY_REGn : In std_logic;
+                       TRDYn : In std_logic;
+                       CONF_WR_04H : Out std_logic;
+                       CONF_WR_10H : Out std_logic;
+                       CONF_WR_3CH : Out std_logic );
+        end component;
+
+        component CONFIG_3CH
+                Port ( AD_REG : In std_logic_vector (31 downto 0);
+                       CBE_REGn : In std_logic_vector (3 downto 0);
+                       CONF_WR_3CH : In std_logic;
+                       PCI_CLOCK : In std_logic;
+                       PCI_RSTn : In std_logic;
+                       CONF_DATA_3CH : Out std_logic_vector (31 downto 0) );
+        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_08H
+                Port ( REVISION_ID : In std_logic_vector (7 downto 0);
+                       CONF_DATA_08H : Out std_logic_vector (31 downto 0) );
+        end component;
+
+        component CONFIG_00H
+                Port ( VENDOR_ID : In std_logic_vector (15 downto 0);
+                       CONF_DATA_00H : 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_WR_04H : In std_logic;
+                       PCI_CLOCK : In std_logic;
+                       PCI_RSTn : In std_logic;
+                       PERR : In std_logic;
+                       SERR : In std_logic;
+                       CONF_DATA_04H : Out std_logic_vector (31 downto 0) );
+        end component;
 
-        elsif (rising_edge(PCI_CLOCK)) then
-                if CONF_WR_04H = '1' and CBE_REGn(3) = '0' then
-                        CONF_STATUS(30) <= not (AD_REG(30) and CONF_STATUS(30));
-                        CONF_STATUS(31) <= not (AD_REG(31) and CONF_STATUS(31));
-
-                else
-                        CONF_STATUS(30) <= SERR or CONF_STATUS(30);
-                        CONF_STATUS(31) <= PERR or CONF_STATUS(31);
-
-                end if;
-        end if;
-        end process;
-
-        --*******************************************************************
-        --*********** PCI Configuration Space Header "COMMAND" **************
-        --*******************************************************************
-
-        -- CONF_COMMAND( 0) <= '0';-- I/O Space accesses ???
-        -- CONF_COMMAND( 1) <= '0';-- Mem Space accesses ???
-        -- CONF_COMMAND( 2) <= '0';-- abillity to act as a master on the PCI bus
-        -- CONF_COMMAND( 3) <= '0';-- Special Cycle ???
-        -- CONF_COMMAND( 4) <= '0';-- Master ???
-        -- CONF_COMMAND( 5) <= '0';-- VGA ???
-        -- CONF_COMMAND( 6) <= '0';-- Party checking enable/disable
-        CONF_COMMAND( 7) <= '0';-- address/data stepping ???
-        -- CONF_COMMAND( 8) <= '0';-- enable/disable "PCI_SERRn"
-        -- CONF_COMMAND( 9) <= '0';-- fast back-to-back
-        -- CONF_COMMAND(10) <= '0';-- Reserved
-        -- CONF_COMMAND(11) <= '0';-- Reserved
-        -- CONF_COMMAND(12) <= '0';-- Reserved
-        -- CONF_COMMAND(13) <= '0';-- Reserved
-        -- CONF_COMMAND(14) <= '0';-- Reserved
-        -- CONF_COMMAND(15) <= '0';-- Reserved
-
-        process (PCI_CLOCK,PCI_RSTn)
-        begin
-                if PCI_RSTn = '0' then
-                        CONF_COMMAND(15 downto 8) <= (others =>'0');
-                        CONF_COMMAND( 6 downto 0) <= (others =>'0');
-
-                elsif (rising_edge(PCI_CLOCK)) then
-
-                        if CONF_WR_04H = '1'and CBE_REGn(1) = '0' then
-                                CONF_COMMAND(15 downto 8) <= AD_REG(15 downto 8);
-                        else
-                                CONF_COMMAND(15 downto 8) <= CONF_COMMAND(15 downto 8);
-                        end if;
-
-                        if CONF_WR_04H = '1'and CBE_REGn(0) = '0' then
-                                CONF_COMMAND( 6 downto 0) <= AD_REG( 6 downto 0);
-                        else
-                                CONF_COMMAND( 6 downto 0) <= CONF_COMMAND( 6 downto 0);
-                        end if;
-                end if;
-        end process;
-
-
-        --*******************************************************************
-        --******************* PCI Write Configuration Address ***************
-        --*******************************************************************
-
-        CONFIG_ADDR(7 downto 0) <= ADDR_REG(7 downto 0);
-
-
-        process (CF_WR_COM,IRDY_REGn,TRDYn,CONFIG_ADDR)
-        begin
-
-                if CF_WR_COM = '1' and IRDY_REGn = '0' and TRDYn = '0' then
-
-                        if CONFIG_ADDR = X"04" then
-                                CONFIG_WRITE <= "0001";
-
-                        elsif CONFIG_ADDR = X"10" then
-                                CONFIG_WRITE <= "0010";
-
-                        elsif CONFIG_ADDR = X"3C" then
-                                CONFIG_WRITE <= "0100";
-
-                        -- elsif CONFIG_ADDR = X"40" then
-                        --         CONFIG_WRITE <= "1000";
-                        else
-                                CONFIG_WRITE <= "0000";
-                        end if;
-                else
-                        CONFIG_WRITE <= "0000";
-                end if;
-        end process;
-
-        CONF_WR_04H <= CONFIG_WRITE(0);
-        CONF_WR_10H <= CONFIG_WRITE(1);
-        CONF_WR_3CH <= CONFIG_WRITE(2);
-        --CONF_WR_40H <= CONFIG_WRITE(3);
-
-        process (CF_RD_COM, CONFIG_ADDR)
-        begin
-
-                if CF_RD_COM = '1' then
-                        if CONFIG_ADDR = X"00" then
-                                CONF_READ_SEL <= "000";
-
-                        elsif CONFIG_ADDR = X"04" then
-                                CONF_READ_SEL <= "001";
-
-                        elsif CONFIG_ADDR = X"08" then
-                                CONF_READ_SEL <= "010";
-
-                        elsif CONFIG_ADDR = X"10" then
-                                CONF_READ_SEL <= "011";
-
-                        elsif CONFIG_ADDR = X"3C" then
-                                CONF_READ_SEL <= "100";
-
-                        elsif CONFIG_ADDR = X"40" then
-                                CONF_READ_SEL <= "101";
+begin
 
-                        else
-                                CONF_READ_SEL <= "111";
-                        end if;
-                else
-                        CONF_READ_SEL <= "111";
-                end if;
-        end process;
+        CONF_DATA_04H <= CONF_DATA_04H_DUMMY;
+        CONF_DATA_10H <= CONF_DATA_10H_DUMMY;
+
+        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) );
+        I9 : CONFIG_RD_0
+        Port Map ( ADDR_REG(31 downto 0)=>ADDR_REG(31 downto 0),
+                   CF_RD_COM=>CF_RD_COM,
+                   READ_SEL(2 downto 0)=>CONF_READ_SEL(2 downto 0) );
+        I8 : CONFIG_WR_0
+        Port Map ( ADDR_REG(31 downto 0)=>ADDR_REG(31 downto 0),
+                   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 );
+        I6 : CONFIG_3CH
+        Port Map ( AD_REG(31 downto 0)=>AD_REG(31 downto 0),
+        CBE_REGn(3 downto 0)=>CBE_REGn(3 downto 0),
+        CONF_WR_3CH=>CONF_WR_3CH, PCI_CLOCK=>PCI_CLOCK,
+        PCI_RSTn=>PCI_RSTn,
+        CONF_DATA_3CH(31 downto 0)=>CONF_DATA_3CH(31 downto 0) );
+        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) );
+        I4 : CONFIG_08H
+        Port Map ( REVISION_ID(7 downto 0)=>REVISION_ID(7 downto 0),
+        CONF_DATA_08H(31 downto 0)=>CONF_DATA_08H(31 downto 0) );
+        I3 : CONFIG_00H
+        Port Map ( VENDOR_ID(15 downto 0)=>VENDOR_ID(15 downto 0),
+        CONF_DATA_00H(31 downto 0)=>CONF_DATA_00H(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),
+        CONF_WR_04H=>CONF_WR_04H, PCI_CLOCK=>PCI_CLOCK,
+        PCI_RSTn=>PCI_RSTn, PERR=>PERR, SERR=>SERR,
+        CONF_DATA_04H(31 downto 0)=>CONF_DATA_04H_DUMMY(31 downto 0) );
 
 end SCHEMATIC;
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