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1-- J.STELZNER
2-- INFORMATIK-3 LABOR
3-- 23.08.2006
4-- File: CONFIG_RD_0.VHD
5
6library IEEE;
7use IEEE.std_logic_1164.all;
8
9entity CONFIG_RD_0 is
10 port
11 (
12 ADDR_REG :in std_logic_vector (31 downto 0);
13 CF_RD_COM :in std_logic;
14 READ_SEL :out std_logic_vector ( 2 downto 0)
15 );
16end entity CONFIG_RD_0;
17
18architecture CONFIG_RD_0_DESIGN of CONFIG_RD_0 is
19
20 --
21 --
22 --
23 --
24 --
25 -- PCI Configuration Space Header
26 --
27 -- \ Bit
28 -- \
29 --Address |31 24|23 16|15 8|7 0|
30 -----------------------------------------------------------------
31 --00 |Device ID |Vendor ID |
32 --04 |Status |Command |
33 --08 |Class Code |Revision ID|
34 --0C |BIST |Header Type|Latency T. |Cache L.S. |
35 --10-24 |Base Address Register |
36 --28 |Cardbus CIS Pointer |
37 --2C |Subsystem ID |Subsystem Vendor ID |
38 --30 |Expansion ROM Base Address |
39 --34 |Reserved |
40 --38 |Reserved |
41 --3C |Max_Lat |Min_Gnt |Int_Pin |Int_Line |
42 --40-FF | |
43 -----------------------------------------------------------------
44
45
46 --PCI Bus Commands
47 --C/BE[3..0] Command Type
48 --------------------------------------
49 -- 0000 Interrupt Acknowledge
50 -- 0001 Special Cycle
51 -- 0010 I/O Read
52 -- 0011 I/O Write
53 -- 0100 Reserved
54 -- 0101 Reserved
55 -- 0110 Memory Read
56 -- 0111 Memory Write
57 --
58 -- 1000 Reserved
59 -- 1001 Reserved
60 -- 1010 Configuration Read
61 -- 1011 Configuration Write
62 -- 1100 Memory Read Multiple
63 -- 1101 Dual Address Cycle
64 -- 1110 Memory Read Line
65 -- 1111 Memory Write and Invalidate
66
67
68 --PCI Byte Enable
69 --C/BE[3..0] gueltige Datenbits
70 -------------------------------
71 -- 0000 AD 31..0
72 -- 1000 AD 23..0
73 -- 1100 AD 15..0
74 -- 1110 AD 7..0
75
76 constant CMD_INT_ACK :std_logic_vector(3 downto 0) := "0000";
77 constant CMD_SP_CYC :std_logic_vector(3 downto 0) := "0001";
78 constant CMD_IO_READ :std_logic_vector(3 downto 0) := "0010";
79 constant CMD_IO_WRITE :std_logic_vector(3 downto 0) := "0011";
80 constant CMD_RES_4 :std_logic_vector(3 downto 0) := "0100";
81 constant CMD_RES_5 :std_logic_vector(3 downto 0) := "0101";
82 constant CMD_MEM_READ :std_logic_vector(3 downto 0) := "0110";
83 constant CMD_MEM_WRITE :std_logic_vector(3 downto 0) := "0111";
84 constant CMD_RES_8 :std_logic_vector(3 downto 0) := "1000";
85 constant CMD_RES_9 :std_logic_vector(3 downto 0) := "1001";
86 constant CMD_CONF_READ :std_logic_vector(3 downto 0) := "1010";
87 constant CMD_CONF_WRITE :std_logic_vector(3 downto 0) := "1011";
88 constant CMD_MEM_READ_M :std_logic_vector(3 downto 0) := "1100";
89 constant CMD_DU_ADR_CYC :std_logic_vector(3 downto 0) := "1101";
90 constant CMD_MEN_READ_L :std_logic_vector(3 downto 0) := "1110";
91 constant CMD_MEM_WRITE_I :std_logic_vector(3 downto 0) := "1111";
92
93 signal MUX :std_logic_vector(31 downto 0);
94 signal CONFIG_ADDR :std_logic_vector( 7 downto 0);
95
96begin
97
98 CONFIG_ADDR(7 downto 0) <= ADDR_REG(7 downto 0);
99
100 --*******************************************************************
101 --*********************** PCI Read Address **************************
102 --*******************************************************************
103
104 process (CF_RD_COM, CONFIG_ADDR)
105 begin
106
107 if CF_RD_COM = '1' then
108 if CONFIG_ADDR = X"00" then
109 READ_SEL <= "000";
110
111 elsif CONFIG_ADDR = X"04" then
112 READ_SEL <= "001";
113
114 elsif CONFIG_ADDR = X"08" then
115 READ_SEL <= "010";
116
117 elsif CONFIG_ADDR = X"10" then
118 READ_SEL <= "011";
119
120 elsif CONFIG_ADDR = X"3C" then
121 READ_SEL <= "100";
122
123 elsif CONFIG_ADDR = X"40" then
124 READ_SEL <= "101";
125
126 else
127 READ_SEL <= "111";
128 end if;
129 else
130 READ_SEL <= "111";
131 end if;
132 end process;
133
134end architecture CONFIG_RD_0_DESIGN;
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