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#ifndef CYGONCE_PLF_IO_H
#define CYGONCE_PLF_IO_H
 
//=============================================================================
//
//      plf_io.h
//
//      Platform specific IO support
//
//=============================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
// This file is part of eCos, the Embedded Configurable Operating System.
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
//
// eCos 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 2 or (at your option) any later version.
//
// eCos 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 eCos; if not, write to the Free Software Foundation, Inc.,
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
//
// As a special exception, if other files instantiate templates or use macros
// or inline functions from this file, or you compile this file and link it
// with other works to produce a work based on this file, this file does not
// by itself cause the resulting work to be covered by the GNU General Public
// License. However the source code for this file must still be made available
// in accordance with section (3) of the GNU General Public License.
//
// This exception does not invalidate any other reasons why a work based on
// this file might be covered by the GNU General Public License.
//
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
// at http://sources.redhat.com/ecos/ecos-license/
// -------------------------------------------
//####ECOSGPLCOPYRIGHTEND####
//=============================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s):    hmt, jskov 
// Contributors: hmt, jskov
// Date:         1999-08-09
// Purpose:      Intel EBSA285 PCI IO support macros
// Description: 
// Usage:        #include <cyg/hal/plf_io.h>
//
// Note:         Based on information in 
//               "21285 Core Logic for SA-110 Microprocessor"
//####DESCRIPTIONEND####
//
//=============================================================================
 
#include <pkgconf/hal_arm_ebsa285.h>
 
#include <cyg/hal/hal_ebsa285.h>
 
#include <cyg/hal/hal_io.h>             // IO macros
#include <cyg/hal/hal_platform_ints.h>  // Interrupt vectors
 
// Memory map is 1-1
#define CYGARC_PHYSICAL_ADDRESS(_x_) (_x_)
 
// The PCI resources required by the EBSA are hardcoded to the lowest
// addresses in the PCI address space, thus:
// PCI Memory Space
#define EBSA_SDRAM_PCI_ADDR   0
#define EBSA_SDRAM_PCI_SIZE   (CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE)
#define EBSA_CSR_MEM_PCI_ADDR (EBSA_SDRAM_PCI_SIZE)
#define EBSA_CSR_MEM_PCI_SIZE 0x80
// PCI IO Space
#define EBSA_CSR_IO_PCI_ADDR  0
#define EBSA_CSR_IO_PCI_SIZE  0x80
 
// Incidentally I now understand why it's necessary to force PCI reset
// (2000-08-07) - with RedBoot in ROM, the RAM app was unconditionally
// reinitializing the PCI bus when it was already initialized, without
// resetting it.  We cannot play the same game here as with
// hal_platform_setup.h - I tried - because otherwise the net cannot
// re-initialize itself; the scan for devices fails.
 
// Initialize the PCI bus.
#define HAL_PCI_INIT()                                                   \
    CYG_MACRO_START                                                      \
    cyg_uint32 __tmp, __tmp2;                                            \
                                                                         \
    /* Assert PCI_reset                                               */ \
    HAL_READ_UINT32(SA110_CONTROL, __tmp);                               \
    __tmp &= ~SA110_CONTROL_RST_I;                                       \
    HAL_WRITE_UINT32(SA110_CONTROL, __tmp);                              \
                                                                         \
    /* Disable PCI Outbound interrupts                                */ \
    /* (according to 7-14 SA110_OUT_INT_MASK is not accessible        */ \
    /* by SA-100)                                                     */ \
    HAL_WRITE_UINT32(SA110_OUT_INT_STATUS,                               \
                     SA110_OUT_INT_STATUS_DOORBELL_INT                   \
                     |SA110_OUT_INT_STATUS_OUTBOUND_INT);                \
                                                                         \
    /* Disable Doorbells                                              */ \
    HAL_WRITE_UINT32(SA110_DOORBELL_PCI_MASK, 0);                        \
    HAL_WRITE_UINT32(SA110_DOORBELL_SA_MASK, 0);                         \
                                                                         \
    /* Map high PCI address bits to 0                                 */ \
    HAL_WRITE_UINT32(SA110_PCI_ADDR_EXT, 0);                             \
                                                                         \
    /* Interrupt ID to 1                                              */ \
    HAL_WRITE_UINT16(SA110_PCI_CFG_INT_LINE, 0x0100);                    \
                                                                         \
    /* Remove PCI_reset                                               */ \
    HAL_READ_UINT32(SA110_CONTROL, __tmp);                               \
    __tmp |= SA110_CONTROL_RST_I;                                        \
    HAL_WRITE_UINT32(SA110_CONTROL, __tmp);                              \
                                                                         \
    /* Open a window to SDRAM from PCI address space                  */ \
    HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_MASK,                      \
           ((CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE-1) & 0xfffc0000));  \
    HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_OFFSET,                    \
             CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_BASE);                   \
                                                                         \
    /* Only init PCI if central function is set and */                   \
    /* standalone bit is cleared                    */                   \
    HAL_READ_UINT32(SA110_CONTROL, __tmp);                               \
    HAL_READ_UINT32(SA110_XBUS_XCS2, __tmp2);                            \
    if ((__tmp & SA110_CONTROL_CFN) == SA110_CONTROL_CFN                 \
        && (__tmp2 & SA110_XBUS_XCS2_PCI_DISABLE) == 0) {                \
                                                                         \
        /* Don't respond to any commands                              */ \
        HAL_WRITE_UINT16(SA110_PCI_CFG_COMMAND, 0);                      \
                                                                         \
        /* Set up default addresses for board's resources.            */ \
        HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_MEM_BAR,                      \
                         EBSA_CSR_MEM_PCI_ADDR);                         \
        HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_IO_BAR, EBSA_CSR_IO_PCI_ADDR);\
        HAL_WRITE_UINT32(SA110_PCI_CFG_SDRAM_BAR, EBSA_SDRAM_PCI_ADDR);  \
                                                                         \
        /* Respond to I/O space & Memory transactions.                */ \
        HAL_WRITE_UINT32(SA110_PCI_CFG_COMMAND,                          \
                         CYG_PCI_CFG_COMMAND_INVALIDATE                  \
                         |CYG_PCI_CFG_COMMAND_IO                         \
                         |CYG_PCI_CFG_COMMAND_MEMORY                     \
                         |CYG_PCI_CFG_COMMAND_MASTER);                   \
    }                                                                    \
    /* Signal PCI_init_complete                                       */ \
    HAL_READ_UINT32(SA110_CONTROL, __tmp);                               \
    __tmp |= SA110_CONTROL_INIT_COMPLETE;                                \
    HAL_WRITE_UINT32(SA110_CONTROL, __tmp);                              \
                                                                         \
    CYG_MACRO_END
 
 
// Compute address necessary to access PCI config space for the given
// bus and device.
#define HAL_PCI_CONFIG_ADDRESS( __bus, __devfn, __offset )               \
    ({                                                                   \
    cyg_uint32 __addr;                                                   \
    cyg_uint32 __dev = CYG_PCI_DEV_GET_DEV(__devfn);                     \
    if (0 == __bus) {                                                    \
        if (0 == __dev) {                                                \
            /* Access self via CSR base */                               \
            __addr = SA110_CONTROL_STATUS_BASE;                          \
        } else {                                                         \
            /* Page 3-17, table 3-5: bits 15-11 generate PCI address */  \
            __addr = SA110_PCI_CONFIG0_BASE | 0x00c00000 | (__dev << 11);\
        }                                                                \
    } else {                                                             \
        __addr = SA110_PCI_CONFIG1_BASE | (__bus << 16) | (__dev << 11); \
    }                                                                    \
    __addr |= CYG_PCI_DEV_GET_FN(__devfn) << 8;                          \
    __addr |= __offset;                                                  \
    __addr;                                                              \
    })
 
// Read a value from the PCI configuration space of the appropriate
// size at an address composed from the bus, devfn and offset.
#define HAL_PCI_CFG_READ_UINT8( __bus, __devfn, __offset, __val )  \
    HAL_READ_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
#define HAL_PCI_CFG_READ_UINT16( __bus, __devfn, __offset, __val ) \
    HAL_READ_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
#define HAL_PCI_CFG_READ_UINT32( __bus, __devfn, __offset, __val ) \
    HAL_READ_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
// Write a value to the PCI configuration space of the appropriate
// size at an address composed from the bus, devfn and offset.
#define HAL_PCI_CFG_WRITE_UINT8( __bus, __devfn, __offset, __val )  \
    HAL_WRITE_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
#define HAL_PCI_CFG_WRITE_UINT16( __bus, __devfn, __offset, __val ) \
    HAL_WRITE_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
#define HAL_PCI_CFG_WRITE_UINT32( __bus, __devfn, __offset, __val ) \
    HAL_WRITE_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)
 
//-----------------------------------------------------------------------------
// Resources
 
// Map PCI device resources starting from these addresses in PCI space.
#define HAL_PCI_ALLOC_BASE_MEMORY (EBSA_SDRAM_PCI_SIZE+EBSA_CSR_MEM_PCI_SIZE)
#define HAL_PCI_ALLOC_BASE_IO     (EBSA_CSR_IO_PCI_SIZE)
 
// This is where the PCI spaces are mapped in the CPU's address space.
#define HAL_PCI_PHYSICAL_MEMORY_BASE    0x80000000
#define HAL_PCI_PHYSICAL_IO_BASE        0x7c000000
 
// Translate the PCI interrupt requested by the device (INTA#, INTB#,
// INTC# or INTD#) to the associated CPU interrupt (i.e., HAL vector).
#define HAL_PCI_TRANSLATE_INTERRUPT( __bus, __devfn, __vec, __valid)          \
    CYG_MACRO_START                                                           \
    cyg_uint8 __req;                                                          \
    HAL_PCI_CFG_READ_UINT8(__bus, __devfn, CYG_PCI_CFG_INT_PIN, __req);       \
    if (0 != __req) {                                                         \
        /* Interrupt assignment as 21285 sees them. (From                 */  \
        /* EBSA285 Eval Board Reference Manual, 3.4 Interrupt Assignment) */  \
        CYG_ADDRWORD __translation[4] = {                                     \
            CYGNUM_HAL_INTERRUPT_IRQ_IN_1,  /* INTC# */                       \
            CYGNUM_HAL_INTERRUPT_IRQ_IN_0,  /* INTB# */                       \
            CYGNUM_HAL_INTERRUPT_PCI_IRQ,   /* INTA# */                       \
            CYGNUM_HAL_INTERRUPT_IRQ_IN_3}; /* INTD# */                       \
                                                                              \
        /* The PCI lines from the different slots are wired like this  */     \
        /* on the PCI backplane:                                       */     \
        /*                pin6A     pin7B    pin7A   pin8B             */     \
        /* System Slot    INTA#     INTB#    INTC#   INTD#             */     \
        /* I/O Slot 1     INTB#     INTC#    INTD#   INTA#             */     \
        /* I/O Slot 2     INTC#     INTD#    INTA#   INTB#             */     \
        /* I/O Slot 3     INTD#     INTA#    INTB#   INTC#             */     \
        /* I/O Slot 4     INTA#     INTB#    INTC#   INTD#             */     \
        /*                                                             */     \
        /* (From PCI Development Backplane, 3.2.2 Interrupts)          */     \
        /*                                                             */     \
        /* Devsel signals are wired to, resulting in device IDs:       */     \
        /* I/O Slot 1     AD19 / dev 8       [(8+1)&3 = 1]             */     \
        /* I/O Slot 2     AD18 / dev 7       [(7+1)&3 = 0]             */     \
        /* I/O Slot 3     AD17 / dev 6       [(6+1)&3 = 3]             */     \
        /* I/O Slot 4     AD16 / dev 5       [(5+1)&3 = 2]             */     \
        /*                                                             */     \
        /* (From PCI Development Backplane, 3.2.1 General)             */     \
        /*                                                             */     \
        /* The observant reader will notice that the array does not    */     \
        /* match the table of how interrupts are wired. The array      */     \
        /* does however match observed behavior of the hardware:       */     \
        /*                                                             */     \
        /* Observed interrupts with an Intel ethernet card             */     \
        /* put in the slots in turn and set to generate interrupts:    */     \
        /*  slot 1/intA# (dev 8): caused host INTB#                    */     \
        /*  slot 2/intA# (dev 7): caused host INTC#                    */     \
        /*  slot 3/intA# (dev 6): caused host INTD#                    */     \
        /*  slot 4/intA# (dev 5): caused host INTA#                    */     \
                                                                              \
        __vec = __translation[((__req+CYG_PCI_DEV_GET_DEV(__devfn))&3)];      \
        __valid = true;                                                       \
    } else {                                                                  \
        /* Device will not generate interrupt requests. */                    \
        __valid = false;                                                      \
    }                                                                         \
    CYG_MACRO_END
 
//-----------------------------------------------------------------------------
// end of plf_io.h
#endif // CYGONCE_PLF_IO_H

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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [arm/] [ebsa285/] [v2_0/] [include/] [plf_io.h] - Blame information for rev 174

Line No.	Rev	Author	Line
1	27	unneback	`#ifndef CYGONCE_PLF_IO_H`
2			`#define CYGONCE_PLF_IO_H`
3
4			`//=============================================================================`
5			`//`
6			`// plf_io.h`
7			`//`
8			`// Platform specific IO support`
9			`//`
10			`//=============================================================================`
11			`//####ECOSGPLCOPYRIGHTBEGIN####`
12			`// -------------------------------------------`
13			`// This file is part of eCos, the Embedded Configurable Operating System.`
14			`// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.`
15			`//`
16			`// eCos is free software; you can redistribute it and/or modify it under`
17			`// the terms of the GNU General Public License as published by the Free`
18			`// Software Foundation; either version 2 or (at your option) any later version.`
19			`//`
20			`// eCos is distributed in the hope that it will be useful, but WITHOUT ANY`
21			`// WARRANTY; without even the implied warranty of MERCHANTABILITY or`
22			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
23			`// for more details.`
24			`//`
25			`// You should have received a copy of the GNU General Public License along`
26			`// with eCos; if not, write to the Free Software Foundation, Inc.,`
27			`// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.`
28			`//`
29			`// As a special exception, if other files instantiate templates or use macros`
30			`// or inline functions from this file, or you compile this file and link it`
31			`// with other works to produce a work based on this file, this file does not`
32			`// by itself cause the resulting work to be covered by the GNU General Public`
33			`// License. However the source code for this file must still be made available`
34			`// in accordance with section (3) of the GNU General Public License.`
35			`//`
36			`// This exception does not invalidate any other reasons why a work based on`
37			`// this file might be covered by the GNU General Public License.`
38			`//`
39			`// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.`
40			`// at http://sources.redhat.com/ecos/ecos-license/`
41			`// -------------------------------------------`
42			`//####ECOSGPLCOPYRIGHTEND####`
43			`//=============================================================================`
44			`//#####DESCRIPTIONBEGIN####`
45			`//`
46			`// Author(s): hmt, jskov`
47			`// Contributors: hmt, jskov`
48			`// Date: 1999-08-09`
49			`// Purpose: Intel EBSA285 PCI IO support macros`
50			`// Description:`
51			`// Usage: #include <cyg/hal/plf_io.h>`
52			`//`
53			`// Note: Based on information in`
54			`// "21285 Core Logic for SA-110 Microprocessor"`
55			`//####DESCRIPTIONEND####`
56			`//`
57			`//=============================================================================`
58
59			`#include <pkgconf/hal_arm_ebsa285.h>`
60
61			`#include <cyg/hal/hal_ebsa285.h>`
62
63			`#include <cyg/hal/hal_io.h> // IO macros`
64			`#include <cyg/hal/hal_platform_ints.h> // Interrupt vectors`
65
66			`// Memory map is 1-1`
67			`#define CYGARC_PHYSICAL_ADDRESS(_x_) (_x_)`
68
69			`// The PCI resources required by the EBSA are hardcoded to the lowest`
70			`// addresses in the PCI address space, thus:`
71			`// PCI Memory Space`
72			`#define EBSA_SDRAM_PCI_ADDR 0`
73			`#define EBSA_SDRAM_PCI_SIZE (CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE)`
74			`#define EBSA_CSR_MEM_PCI_ADDR (EBSA_SDRAM_PCI_SIZE)`
75			`#define EBSA_CSR_MEM_PCI_SIZE 0x80`
76			`// PCI IO Space`
77			`#define EBSA_CSR_IO_PCI_ADDR 0`
78			`#define EBSA_CSR_IO_PCI_SIZE 0x80`
79
80			`// Incidentally I now understand why it's necessary to force PCI reset`
81			`// (2000-08-07) - with RedBoot in ROM, the RAM app was unconditionally`
82			`// reinitializing the PCI bus when it was already initialized, without`
83			`// resetting it. We cannot play the same game here as with`
84			`// hal_platform_setup.h - I tried - because otherwise the net cannot`
85			`// re-initialize itself; the scan for devices fails.`
86
87			`// Initialize the PCI bus.`
88			`#define HAL_PCI_INIT() \`
89			`CYG_MACRO_START \`
90			`cyg_uint32 __tmp, __tmp2; \`
91			`\`
92			`/* Assert PCI_reset */ \`
93			`HAL_READ_UINT32(SA110_CONTROL, __tmp); \`
94			`__tmp &= ~SA110_CONTROL_RST_I; \`
95			`HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \`
96			`\`
97			`/* Disable PCI Outbound interrupts */ \`
98			`/* (according to 7-14 SA110_OUT_INT_MASK is not accessible */ \`
99			`/* by SA-100) */ \`
100			`HAL_WRITE_UINT32(SA110_OUT_INT_STATUS, \`
101			`SA110_OUT_INT_STATUS_DOORBELL_INT \`
102			`\|SA110_OUT_INT_STATUS_OUTBOUND_INT); \`
103			`\`
104			`/* Disable Doorbells */ \`
105			`HAL_WRITE_UINT32(SA110_DOORBELL_PCI_MASK, 0); \`
106			`HAL_WRITE_UINT32(SA110_DOORBELL_SA_MASK, 0); \`
107			`\`
108			`/* Map high PCI address bits to 0 */ \`
109			`HAL_WRITE_UINT32(SA110_PCI_ADDR_EXT, 0); \`
110			`\`
111			`/* Interrupt ID to 1 */ \`
112			`HAL_WRITE_UINT16(SA110_PCI_CFG_INT_LINE, 0x0100); \`
113			`\`
114			`/* Remove PCI_reset */ \`
115			`HAL_READ_UINT32(SA110_CONTROL, __tmp); \`
116			`__tmp \|= SA110_CONTROL_RST_I; \`
117			`HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \`
118			`\`
119			`/* Open a window to SDRAM from PCI address space */ \`
120			`HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_MASK, \`
121			`((CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_SIZE-1) & 0xfffc0000)); \`
122			`HAL_WRITE_UINT32(SA110_SDRAM_BASE_ADDRESS_OFFSET, \`
123			`CYGHWR_HAL_ARM_EBSA285_PCI_MEM_MAP_BASE); \`
124			`\`
125			`/* Only init PCI if central function is set and */ \`
126			`/* standalone bit is cleared */ \`
127			`HAL_READ_UINT32(SA110_CONTROL, __tmp); \`
128			`HAL_READ_UINT32(SA110_XBUS_XCS2, __tmp2); \`
129			`if ((__tmp & SA110_CONTROL_CFN) == SA110_CONTROL_CFN \`
130			`&& (__tmp2 & SA110_XBUS_XCS2_PCI_DISABLE) == 0) { \`
131			`\`
132			`/* Don't respond to any commands */ \`
133			`HAL_WRITE_UINT16(SA110_PCI_CFG_COMMAND, 0); \`
134			`\`
135			`/* Set up default addresses for board's resources. */ \`
136			`HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_MEM_BAR, \`
137			`EBSA_CSR_MEM_PCI_ADDR); \`
138			`HAL_WRITE_UINT32(SA110_PCI_CFG_CSR_IO_BAR, EBSA_CSR_IO_PCI_ADDR);\`
139			`HAL_WRITE_UINT32(SA110_PCI_CFG_SDRAM_BAR, EBSA_SDRAM_PCI_ADDR); \`
140			`\`
141			`/* Respond to I/O space & Memory transactions. */ \`
142			`HAL_WRITE_UINT32(SA110_PCI_CFG_COMMAND, \`
143			`CYG_PCI_CFG_COMMAND_INVALIDATE \`
144			`\|CYG_PCI_CFG_COMMAND_IO \`
145			`\|CYG_PCI_CFG_COMMAND_MEMORY \`
146			`\|CYG_PCI_CFG_COMMAND_MASTER); \`
147			`} \`
148			`/* Signal PCI_init_complete */ \`
149			`HAL_READ_UINT32(SA110_CONTROL, __tmp); \`
150			`__tmp \|= SA110_CONTROL_INIT_COMPLETE; \`
151			`HAL_WRITE_UINT32(SA110_CONTROL, __tmp); \`
152			`\`
153			`CYG_MACRO_END`
154
155
156			`// Compute address necessary to access PCI config space for the given`
157			`// bus and device.`
158			`#define HAL_PCI_CONFIG_ADDRESS( __bus, __devfn, __offset ) \`
159			`({ \`
160			`cyg_uint32 __addr; \`
161			`cyg_uint32 __dev = CYG_PCI_DEV_GET_DEV(__devfn); \`
162			`if (0 == __bus) { \`
163			`if (0 == __dev) { \`
164			`/* Access self via CSR base */ \`
165			`__addr = SA110_CONTROL_STATUS_BASE; \`
166			`} else { \`
167			`/* Page 3-17, table 3-5: bits 15-11 generate PCI address */ \`
168			`__addr = SA110_PCI_CONFIG0_BASE \| 0x00c00000 \| (__dev << 11);\`
169			`} \`
170			`} else { \`
171			`__addr = SA110_PCI_CONFIG1_BASE \| (__bus << 16) \| (__dev << 11); \`
172			`} \`
173			`__addr \|= CYG_PCI_DEV_GET_FN(__devfn) << 8; \`
174			`__addr \|= __offset; \`
175			`__addr; \`
176			`})`
177
178			`// Read a value from the PCI configuration space of the appropriate`
179			`// size at an address composed from the bus, devfn and offset.`
180			`#define HAL_PCI_CFG_READ_UINT8( __bus, __devfn, __offset, __val ) \`
181			`HAL_READ_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
182
183			`#define HAL_PCI_CFG_READ_UINT16( __bus, __devfn, __offset, __val ) \`
184			`HAL_READ_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
185
186			`#define HAL_PCI_CFG_READ_UINT32( __bus, __devfn, __offset, __val ) \`
187			`HAL_READ_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
188
189			`// Write a value to the PCI configuration space of the appropriate`
190			`// size at an address composed from the bus, devfn and offset.`
191			`#define HAL_PCI_CFG_WRITE_UINT8( __bus, __devfn, __offset, __val ) \`
192			`HAL_WRITE_UINT8(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
193
194			`#define HAL_PCI_CFG_WRITE_UINT16( __bus, __devfn, __offset, __val ) \`
195			`HAL_WRITE_UINT16(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
196
197			`#define HAL_PCI_CFG_WRITE_UINT32( __bus, __devfn, __offset, __val ) \`
198			`HAL_WRITE_UINT32(HAL_PCI_CONFIG_ADDRESS(__bus, __devfn, __offset), __val)`
199
200			`//-----------------------------------------------------------------------------`
201			`// Resources`
202
203			`// Map PCI device resources starting from these addresses in PCI space.`
204			`#define HAL_PCI_ALLOC_BASE_MEMORY (EBSA_SDRAM_PCI_SIZE+EBSA_CSR_MEM_PCI_SIZE)`
205			`#define HAL_PCI_ALLOC_BASE_IO (EBSA_CSR_IO_PCI_SIZE)`
206
207			`// This is where the PCI spaces are mapped in the CPU's address space.`
208			`#define HAL_PCI_PHYSICAL_MEMORY_BASE 0x80000000`
209			`#define HAL_PCI_PHYSICAL_IO_BASE 0x7c000000`
210
211			`// Translate the PCI interrupt requested by the device (INTA#, INTB#,`
212			`// INTC# or INTD#) to the associated CPU interrupt (i.e., HAL vector).`
213			`#define HAL_PCI_TRANSLATE_INTERRUPT( __bus, __devfn, __vec, __valid) \`
214			`CYG_MACRO_START \`
215			`cyg_uint8 __req; \`
216			`HAL_PCI_CFG_READ_UINT8(__bus, __devfn, CYG_PCI_CFG_INT_PIN, __req); \`
217			`if (0 != __req) { \`
218			`/* Interrupt assignment as 21285 sees them. (From */ \`
219			`/* EBSA285 Eval Board Reference Manual, 3.4 Interrupt Assignment) */ \`
220			`CYG_ADDRWORD __translation[4] = { \`
221			`CYGNUM_HAL_INTERRUPT_IRQ_IN_1, /* INTC# */ \`
222			`CYGNUM_HAL_INTERRUPT_IRQ_IN_0, /* INTB# */ \`
223			`CYGNUM_HAL_INTERRUPT_PCI_IRQ, /* INTA# */ \`
224			`CYGNUM_HAL_INTERRUPT_IRQ_IN_3}; /* INTD# */ \`
225			`\`
226			`/* The PCI lines from the different slots are wired like this */ \`
227			`/* on the PCI backplane: */ \`
228			`/* pin6A pin7B pin7A pin8B */ \`
229			`/* System Slot INTA# INTB# INTC# INTD# */ \`
230			`/* I/O Slot 1 INTB# INTC# INTD# INTA# */ \`
231			`/* I/O Slot 2 INTC# INTD# INTA# INTB# */ \`
232			`/* I/O Slot 3 INTD# INTA# INTB# INTC# */ \`
233			`/* I/O Slot 4 INTA# INTB# INTC# INTD# */ \`
234			`/* */ \`
235			`/* (From PCI Development Backplane, 3.2.2 Interrupts) */ \`
236			`/* */ \`
237			`/* Devsel signals are wired to, resulting in device IDs: */ \`
238			`/* I/O Slot 1 AD19 / dev 8 [(8+1)&3 = 1] */ \`
239			`/* I/O Slot 2 AD18 / dev 7 [(7+1)&3 = 0] */ \`
240			`/* I/O Slot 3 AD17 / dev 6 [(6+1)&3 = 3] */ \`
241			`/* I/O Slot 4 AD16 / dev 5 [(5+1)&3 = 2] */ \`
242			`/* */ \`
243			`/* (From PCI Development Backplane, 3.2.1 General) */ \`
244			`/* */ \`
245			`/* The observant reader will notice that the array does not */ \`
246			`/* match the table of how interrupts are wired. The array */ \`
247			`/* does however match observed behavior of the hardware: */ \`
248			`/* */ \`
249			`/* Observed interrupts with an Intel ethernet card */ \`
250			`/* put in the slots in turn and set to generate interrupts: */ \`
251			`/* slot 1/intA# (dev 8): caused host INTB# */ \`
252			`/* slot 2/intA# (dev 7): caused host INTC# */ \`
253			`/* slot 3/intA# (dev 6): caused host INTD# */ \`
254			`/* slot 4/intA# (dev 5): caused host INTA# */ \`
255			`\`
256			`__vec = __translation[((__req+CYG_PCI_DEV_GET_DEV(__devfn))&3)]; \`
257			`__valid = true; \`
258			`} else { \`
259			`/* Device will not generate interrupt requests. */ \`
260			`__valid = false; \`
261			`} \`
262			`CYG_MACRO_END`
263
264			`//-----------------------------------------------------------------------------`
265			`// end of plf_io.h`
266			`#endif // CYGONCE_PLF_IO_H`