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|
/* $Id$
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* Copyright (C) 1992 - 1997, 2000 Silicon Graphics, Inc.
* Copyright (C) 2000 by Colin Ngam
*/
#ifndef _ASM_SN_PCI_PCIIO_H
#define _ASM_SN_PCI_PCIIO_H
/*
* pciio.h -- platform-independent PCI interface
*/
#include <asm/sn/ioerror.h>
#include <asm/sn/iobus.h>
#if defined(_LANGUAGE_C) || defined(_LANGUAGE_C_PLUS_PLUS)
#include <asm/sn/dmamap.h>
#include <asm/sn/alenlist.h>
#ifdef __cplusplus
extern "C" {
#endif
typedef int pciio_vendor_id_t;
#define PCIIO_VENDOR_ID_NONE -1
typedef int pciio_device_id_t;
#define PCIIO_DEVICE_ID_NONE -1
#ifdef colin
typedef char pciio_bus_t; /* PCI bus number (0..255) */
typedef char pciio_slot_t; /* PCI slot number (0..31, 255) */
typedef char pciio_function_t; /* PCI func number (0..7, 255) */
#else
typedef uint8_t pciio_bus_t; /* PCI bus number (0..255) */
typedef uint8_t pciio_slot_t; /* PCI slot number (0..31, 255) */
typedef uint8_t pciio_function_t; /* PCI func number (0..7, 255) */
#endif
#define PCIIO_SLOTS ((pciio_slot_t)32)
#define PCIIO_FUNCS ((pciio_function_t)8)
#define PCIIO_SLOT_NONE ((pciio_slot_t)255)
#define PCIIO_FUNC_NONE ((pciio_function_t)255)
typedef int pciio_intr_line_t; /* PCI interrupt line(s) */
#define PCIIO_INTR_LINE(n) (0x1 << (n))
#define PCIIO_INTR_LINE_A (0x1)
#define PCIIO_INTR_LINE_B (0x2)
#define PCIIO_INTR_LINE_C (0x4)
#define PCIIO_INTR_LINE_D (0x8)
typedef int pciio_space_t; /* PCI address space designation */
#define PCIIO_SPACE_NONE (0)
#define PCIIO_SPACE_ROM (1)
#define PCIIO_SPACE_IO (2)
/* PCIIO_SPACE_ (3) */
#define PCIIO_SPACE_MEM (4)
#define PCIIO_SPACE_MEM32 (5)
#define PCIIO_SPACE_MEM64 (6)
#define PCIIO_SPACE_CFG (7)
#define PCIIO_SPACE_WIN0 (8)
#define PCIIO_SPACE_WIN(n) (PCIIO_SPACE_WIN0+(n)) /* 8..13 */
/* PCIIO_SPACE_ (14) */
#define PCIIO_SPACE_BAD (15)
#if 1 /* does anyone really use these? */
#define PCIIO_SPACE_USER0 (20)
#define PCIIO_SPACE_USER(n) (PCIIO_SPACE_USER0+(n)) /* 20 .. ? */
#endif
/*
* PCI_NOWHERE is the error value returned in
* place of a PCI address when there is no
* corresponding address.
*/
#define PCI_NOWHERE (0)
/*
* Acceptable flag bits for pciio service calls
*
* PCIIO_FIXED: require that mappings be established
* using fixed sharable resources; address
* translation results will be permanently
* available. (PIOMAP_FIXED and DMAMAP_FIXED are
* the same numeric value and are acceptable).
* PCIIO_NOSLEEP: if any part of the operation would
* sleep waiting for resoruces, return an error
* instead. (PIOMAP_NOSLEEP and DMAMAP_NOSLEEP are
* the same numeric value and are acceptable).
* PCIIO_INPLACE: when operating on alenlist structures,
* reuse the source alenlist rather than creating a
* new one. (PIOMAP_INPLACE and DMAMAP_INPLACE are
* the same numeric value and are acceptable).
*
* PCIIO_DMA_CMD: configure this stream as a
* generic "command" stream. Generally this
* means turn off prefetchers and write
* gatherers, and whatever else might be
* necessary to make command ring DMAs
* work as expected.
* PCIIO_DMA_DATA: configure this stream as a
* generic "data" stream. Generally, this
* means turning on prefetchers and write
* gatherers, and anything else that might
* increase the DMA throughput (short of
* using "high priority" or "real time"
* resources that may lower overall system
* performance).
* PCIIO_DMA_A64: this device is capable of
* using 64-bit DMA addresses. Unless this
* flag is specified, it is assumed that
* the DMA address must be in the low 4G
* of PCI space.
* PCIIO_PREFETCH: if there are prefetchers
* available, they can be turned on.
* PCIIO_NOPREFETCH: any prefetchers along
* the dma path should be turned off.
* PCIIO_WRITE_GATHER: if there are write gatherers
* available, they can be turned on.
* PCIIO_NOWRITE_GATHER: any write gatherers along
* the dma path should be turned off.
*
* PCIIO_BYTE_STREAM: the DMA stream represents a group
* of ordered bytes. Arrange all byte swapping
* hardware so that the bytes land in the correct
* order. This is a common setting for data
* channels, but is NOT implied by PCIIO_DMA_DATA.
* PCIIO_WORD_VALUES: the DMA stream is used to
* communicate quantities stored in multiple bytes,
* and the device doing the DMA is little-endian;
* arrange any swapping hardware so that
* 32-bit-wide values are maintained. This is a
* common setting for command rings that contain
* DMA addresses and counts, but is NOT implied by
* PCIIO_DMA_CMD. CPU Accesses to 16-bit fields
* must have their address xor-ed with 2, and
* accesses to individual bytes must have their
* addresses xor-ed with 3 relative to what the
* device expects.
*
* NOTE: any "provider specific" flags that
* conflict with the generic flags will
* override the generic flags, locally
* at that provider.
*
* Also, note that PCI-generic flags (PCIIO_) are
* in bits 0-14. The upper bits, 15-31, are reserved
* for PCI implementation-specific flags.
*/
#define PCIIO_FIXED DMAMAP_FIXED
#define PCIIO_NOSLEEP DMAMAP_NOSLEEP
#define PCIIO_INPLACE DMAMAP_INPLACE
#define PCIIO_DMA_CMD 0x0010
#define PCIIO_DMA_DATA 0x0020
#define PCIIO_DMA_A64 0x0040
#define PCIIO_WRITE_GATHER 0x0100
#define PCIIO_NOWRITE_GATHER 0x0200
#define PCIIO_PREFETCH 0x0400
#define PCIIO_NOPREFETCH 0x0800
/* Requesting an endianness setting that the
* underlieing hardware can not support
* WILL result in a failure to allocate
* dmamaps or complete a dmatrans.
*/
#define PCIIO_BYTE_STREAM 0x1000 /* set BYTE SWAP for "byte stream" */
#define PCIIO_WORD_VALUES 0x2000 /* set BYTE SWAP for "word values" */
/*
* Interface to deal with PCI endianness.
* The driver calls pciio_endian_set once, supplying the actual endianness of
* the device and the desired endianness. On SGI systems, only use LITTLE if
* dealing with a driver that does software swizzling. Most of the time,
* it's preferable to request BIG. The return value indicates the endianness
* that is actually achieved. On systems that support hardware swizzling,
* the achieved endianness will be the desired endianness. On systems without
* swizzle hardware, the achieved endianness will be the device's endianness.
*/
typedef enum pciio_endian_e {
PCIDMA_ENDIAN_BIG,
PCIDMA_ENDIAN_LITTLE
} pciio_endian_t;
/*
* Interface to set PCI arbitration priority for devices that require
* realtime characteristics. pciio_priority_set is used to switch a
* device between the PCI high-priority arbitration ring and the low
* priority arbitration ring.
*
* (Note: this is strictly for the PCI arbitrary priority. It has
* no direct relationship to GBR.)
*/
typedef enum pciio_priority_e {
PCI_PRIO_LOW,
PCI_PRIO_HIGH
} pciio_priority_t;
/*
* handles of various sorts
*/
typedef struct pciio_piomap_s *pciio_piomap_t;
typedef struct pciio_dmamap_s *pciio_dmamap_t;
typedef struct pciio_intr_s *pciio_intr_t;
typedef struct pciio_info_s *pciio_info_t;
typedef struct pciio_piospace_s *pciio_piospace_t;
/* PIO MANAGEMENT */
/*
* A NOTE ON PCI PIO ADDRESSES
*
* PCI supports three different address spaces: CFG
* space, MEM space and I/O space. Further, each
* card always accepts CFG accesses at an address
* based on which slot it is attached to, but can
* decode up to six address ranges.
*
* Assignment of the base address registers for all
* PCI devices is handled centrally; most commonly,
* device drivers will want to talk to offsets
* within one or another of the address ranges. In
* order to do this, which of these "address
* spaces" the PIO is directed into must be encoded
* in the flag word.
*
* We reserve the right to defer allocation of PCI
* address space for a device window until the
* driver makes a piomap_alloc or piotrans_addr
* request.
*
* If a device driver mucks with its device's base
* registers through a PIO mapping to CFG space,
* results of further PIO through the corresponding
* window are UNDEFINED.
*
* Windows are named by the index in the base
* address register set for the device of the
* desired register; IN THE CASE OF 64 BIT base
* registers, the index should be to the word of
* the register that contains the mapping type
* bits; since the PCI CFG space is natively
* organized little-endian fashion, this is the
* first of the two words.
*
* AT THE MOMENT, any required corrections for
* endianness are the responsibility of the device
* driver; not all platforms support control in
* hardware of byteswapping hardware. We anticipate
* providing flag bits to the PIO and DMA
* management interfaces to request different
* configurations of byteswapping hardware.
*
* PIO Accesses to CFG space via the "Bridge" ASIC
* used in IP30 platforms preserve the native byte
* significance within the 32-bit word; byte
* addresses for single byte accesses need to be
* XORed with 3, and addresses for 16-bit accesses
* need to be XORed with 2.
*
* The IOC3 used on IP30, and other SGI PCI devices
* as well, require use of 32-bit accesses to their
* configuration space registers. Any potential PCI
* bus providers need to be aware of this requirement.
*/
#define PCIIO_PIOMAP_CFG (0x1)
#define PCIIO_PIOMAP_MEM (0x2)
#define PCIIO_PIOMAP_IO (0x4)
#define PCIIO_PIOMAP_WIN(n) (0x8+(n))
typedef pciio_piomap_t
pciio_piomap_alloc_f (devfs_handle_t dev, /* set up mapping for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* which address space */
iopaddr_t pcipio_addr, /* starting address */
size_t byte_count,
size_t byte_count_max, /* maximum size of a mapping */
unsigned flags); /* defined in sys/pio.h */
typedef void
pciio_piomap_free_f (pciio_piomap_t pciio_piomap);
typedef caddr_t
pciio_piomap_addr_f (pciio_piomap_t pciio_piomap, /* mapping resources */
iopaddr_t pciio_addr, /* map for this pcipio address */
size_t byte_count); /* map this many bytes */
typedef void
pciio_piomap_done_f (pciio_piomap_t pciio_piomap);
typedef caddr_t
pciio_piotrans_addr_f (devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* which address space */
iopaddr_t pciio_addr, /* starting address */
size_t byte_count, /* map this many bytes */
unsigned flags);
typedef caddr_t
pciio_pio_addr_f (devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* which address space */
iopaddr_t pciio_addr, /* starting address */
size_t byte_count, /* map this many bytes */
pciio_piomap_t *mapp, /* in case a piomap was needed */
unsigned flags);
typedef iopaddr_t
pciio_piospace_alloc_f (devfs_handle_t dev, /* PIO space for this device */
device_desc_t dev_desc, /* Device descriptor */
pciio_space_t space, /* which address space */
size_t byte_count, /* Number of bytes of space */
size_t alignment); /* Alignment of allocation */
typedef void
pciio_piospace_free_f (devfs_handle_t dev, /* Device freeing space */
pciio_space_t space, /* Which space is freed */
iopaddr_t pci_addr, /* Address being freed */
size_t size); /* Size freed */
/* DMA MANAGEMENT */
typedef pciio_dmamap_t
pciio_dmamap_alloc_f (devfs_handle_t dev, /* set up mappings for this device */
device_desc_t dev_desc, /* device descriptor */
size_t byte_count_max, /* max size of a mapping */
unsigned flags); /* defined in dma.h */
typedef void
pciio_dmamap_free_f (pciio_dmamap_t dmamap);
typedef iopaddr_t
pciio_dmamap_addr_f (pciio_dmamap_t dmamap, /* use these mapping resources */
paddr_t paddr, /* map for this address */
size_t byte_count); /* map this many bytes */
typedef alenlist_t
pciio_dmamap_list_f (pciio_dmamap_t dmamap, /* use these mapping resources */
alenlist_t alenlist, /* map this address/length list */
unsigned flags);
typedef void
pciio_dmamap_done_f (pciio_dmamap_t dmamap);
typedef iopaddr_t
pciio_dmatrans_addr_f (devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
paddr_t paddr, /* system physical address */
size_t byte_count, /* length */
unsigned flags); /* defined in dma.h */
typedef alenlist_t
pciio_dmatrans_list_f (devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
alenlist_t palenlist, /* system address/length list */
unsigned flags); /* defined in dma.h */
typedef void
pciio_dmamap_drain_f (pciio_dmamap_t map);
typedef void
pciio_dmaaddr_drain_f (devfs_handle_t vhdl,
paddr_t addr,
size_t bytes);
typedef void
pciio_dmalist_drain_f (devfs_handle_t vhdl,
alenlist_t list);
/* INTERRUPT MANAGEMENT */
typedef pciio_intr_t
pciio_intr_alloc_f (devfs_handle_t dev, /* which PCI device */
device_desc_t dev_desc, /* device descriptor */
pciio_intr_line_t lines, /* which line(s) will be used */
devfs_handle_t owner_dev); /* owner of this intr */
typedef void
pciio_intr_free_f (pciio_intr_t intr_hdl);
typedef int
pciio_intr_connect_f (pciio_intr_t intr_hdl, /* pciio intr resource handle */
intr_func_t intr_func, /* pciio intr handler */
intr_arg_t intr_arg, /* arg to intr handler */
void *thread); /* intr thread to use */
typedef void
pciio_intr_disconnect_f (pciio_intr_t intr_hdl);
typedef devfs_handle_t
pciio_intr_cpu_get_f (pciio_intr_t intr_hdl); /* pciio intr resource handle */
/* CONFIGURATION MANAGEMENT */
typedef void
pciio_provider_startup_f (devfs_handle_t pciio_provider);
typedef void
pciio_provider_shutdown_f (devfs_handle_t pciio_provider);
typedef int
pciio_reset_f (devfs_handle_t conn); /* pci connection point */
typedef int
pciio_write_gather_flush_f (devfs_handle_t dev); /* Device flushing buffers */
typedef pciio_endian_t /* actual endianness */
pciio_endian_set_f (devfs_handle_t dev, /* specify endianness for this device */
pciio_endian_t device_end, /* endianness of device */
pciio_endian_t desired_end); /* desired endianness */
typedef pciio_priority_t
pciio_priority_set_f (devfs_handle_t pcicard,
pciio_priority_t device_prio);
typedef uint64_t
pciio_config_get_f (devfs_handle_t conn, /* pci connection point */
unsigned reg, /* register byte offset */
unsigned size); /* width in bytes (1..4) */
typedef void
pciio_config_set_f (devfs_handle_t conn, /* pci connection point */
unsigned reg, /* register byte offset */
unsigned size, /* width in bytes (1..4) */
uint64_t value); /* value to store */
typedef int
pciio_error_devenable_f (devfs_handle_t pconn_vhdl, int error_code);
typedef pciio_slot_t
pciio_error_extract_f (devfs_handle_t vhdl,
pciio_space_t *spacep,
iopaddr_t *addrp);
/*
* Adapters that provide a PCI interface adhere to this software interface.
*/
typedef struct pciio_provider_s {
/* PIO MANAGEMENT */
pciio_piomap_alloc_f *piomap_alloc;
pciio_piomap_free_f *piomap_free;
pciio_piomap_addr_f *piomap_addr;
pciio_piomap_done_f *piomap_done;
pciio_piotrans_addr_f *piotrans_addr;
pciio_piospace_alloc_f *piospace_alloc;
pciio_piospace_free_f *piospace_free;
/* DMA MANAGEMENT */
pciio_dmamap_alloc_f *dmamap_alloc;
pciio_dmamap_free_f *dmamap_free;
pciio_dmamap_addr_f *dmamap_addr;
pciio_dmamap_list_f *dmamap_list;
pciio_dmamap_done_f *dmamap_done;
pciio_dmatrans_addr_f *dmatrans_addr;
pciio_dmatrans_list_f *dmatrans_list;
pciio_dmamap_drain_f *dmamap_drain;
pciio_dmaaddr_drain_f *dmaaddr_drain;
pciio_dmalist_drain_f *dmalist_drain;
/* INTERRUPT MANAGEMENT */
pciio_intr_alloc_f *intr_alloc;
pciio_intr_free_f *intr_free;
pciio_intr_connect_f *intr_connect;
pciio_intr_disconnect_f *intr_disconnect;
pciio_intr_cpu_get_f *intr_cpu_get;
/* CONFIGURATION MANAGEMENT */
pciio_provider_startup_f *provider_startup;
pciio_provider_shutdown_f *provider_shutdown;
pciio_reset_f *reset;
pciio_write_gather_flush_f *write_gather_flush;
pciio_endian_set_f *endian_set;
pciio_priority_set_f *priority_set;
pciio_config_get_f *config_get;
pciio_config_set_f *config_set;
/* Error handling interface */
pciio_error_devenable_f *error_devenable;
pciio_error_extract_f *error_extract;
} pciio_provider_t;
/* PCI devices use these standard PCI provider interfaces */
extern pciio_piomap_alloc_f pciio_piomap_alloc;
extern pciio_piomap_free_f pciio_piomap_free;
extern pciio_piomap_addr_f pciio_piomap_addr;
extern pciio_piomap_done_f pciio_piomap_done;
extern pciio_piotrans_addr_f pciio_piotrans_addr;
extern pciio_pio_addr_f pciio_pio_addr;
extern pciio_piospace_alloc_f pciio_piospace_alloc;
extern pciio_piospace_free_f pciio_piospace_free;
extern pciio_dmamap_alloc_f pciio_dmamap_alloc;
extern pciio_dmamap_free_f pciio_dmamap_free;
extern pciio_dmamap_addr_f pciio_dmamap_addr;
extern pciio_dmamap_list_f pciio_dmamap_list;
extern pciio_dmamap_done_f pciio_dmamap_done;
extern pciio_dmatrans_addr_f pciio_dmatrans_addr;
extern pciio_dmatrans_list_f pciio_dmatrans_list;
extern pciio_dmamap_drain_f pciio_dmamap_drain;
extern pciio_dmaaddr_drain_f pciio_dmaaddr_drain;
extern pciio_dmalist_drain_f pciio_dmalist_drain;
extern pciio_intr_alloc_f pciio_intr_alloc;
extern pciio_intr_free_f pciio_intr_free;
extern pciio_intr_connect_f pciio_intr_connect;
extern pciio_intr_disconnect_f pciio_intr_disconnect;
extern pciio_intr_cpu_get_f pciio_intr_cpu_get;
extern pciio_provider_startup_f pciio_provider_startup;
extern pciio_provider_shutdown_f pciio_provider_shutdown;
extern pciio_reset_f pciio_reset;
extern pciio_write_gather_flush_f pciio_write_gather_flush;
extern pciio_endian_set_f pciio_endian_set;
extern pciio_priority_set_f pciio_priority_set;
extern pciio_config_get_f pciio_config_get;
extern pciio_config_set_f pciio_config_set;
extern pciio_error_devenable_f pciio_error_devenable;
extern pciio_error_extract_f pciio_error_extract;
/* Widgetdev in the IOERROR structure is encoded as follows.
* +---------------------------+
* | slot (7:3) | function(2:0)|
* +---------------------------+
* Following are the convenience interfaces to get at form
* a widgetdev or to break it into its constituents.
*/
#define PCIIO_WIDGETDEV_SLOT_SHFT 3
#define PCIIO_WIDGETDEV_SLOT_MASK 0x1f
#define PCIIO_WIDGETDEV_FUNC_MASK 0x7
#ifdef IRIX
#define pciio_widgetdev_create(slot,func) \
((slot) << PCIIO_WIDGETDEV_SLOT_SHFT + (func))
#else
#define pciio_widgetdev_create(slot,func) \
(((slot) << PCIIO_WIDGETDEV_SLOT_SHFT) + (func))
#endif
#define pciio_widgetdev_slot_get(wdev) \
(((wdev) >> PCIIO_WIDGETDEV_SLOT_SHFT) & PCIIO_WIDGETDEV_SLOT_MASK)
#define pciio_widgetdev_func_get(wdev) \
((wdev) & PCIIO_WIDGETDEV_FUNC_MASK)
/* Generic PCI card initialization interface
*/
extern int
pciio_driver_register (pciio_vendor_id_t vendor_id, /* card's vendor number */
pciio_device_id_t device_id, /* card's device number */
char *driver_prefix, /* driver prefix */
unsigned flags);
extern void
pciio_error_register (devfs_handle_t pconn, /* which slot */
error_handler_f *efunc, /* function to call */
error_handler_arg_t einfo); /* first parameter */
extern void pciio_driver_unregister(char *driver_prefix);
typedef void pciio_iter_f(devfs_handle_t pconn); /* a connect point */
extern void pciio_iterate(char *driver_prefix,
pciio_iter_f *func);
/* Interfaces used by PCI Bus Providers to talk to
* the Generic PCI layer.
*/
extern devfs_handle_t
pciio_device_register (devfs_handle_t connectpt, /* vertex at center of bus */
devfs_handle_t master, /* card's master ASIC (pci provider) */
pciio_slot_t slot, /* card's slot (0..?) */
pciio_function_t func, /* card's func (0..?) */
pciio_vendor_id_t vendor, /* card's vendor number */
pciio_device_id_t device); /* card's device number */
extern void
pciio_device_unregister(devfs_handle_t connectpt);
extern pciio_info_t
pciio_device_info_new (pciio_info_t pciio_info, /* preallocated info struct */
devfs_handle_t master, /* card's master ASIC (pci provider) */
pciio_slot_t slot, /* card's slot (0..?) */
pciio_function_t func, /* card's func (0..?) */
pciio_vendor_id_t vendor, /* card's vendor number */
pciio_device_id_t device); /* card's device number */
extern void
pciio_device_info_free(pciio_info_t pciio_info);
extern devfs_handle_t
pciio_device_info_register(
devfs_handle_t connectpt, /* vertex at center of bus */
pciio_info_t pciio_info); /* details about conn point */
extern void
pciio_device_info_unregister(
devfs_handle_t connectpt, /* vertex at center of bus */
pciio_info_t pciio_info); /* details about conn point */
extern int pciio_device_attach(devfs_handle_t pcicard); /* vertex created by pciio_device_register */
extern int pciio_device_detach(devfs_handle_t pcicard); /* vertex created by pciio_device_register */
/*
* Generic PCI interface, for use with all PCI providers
* and all PCI devices.
*/
/* Generic PCI interrupt interfaces */
extern devfs_handle_t pciio_intr_dev_get(pciio_intr_t pciio_intr);
extern devfs_handle_t pciio_intr_cpu_get(pciio_intr_t pciio_intr);
/* Generic PCI pio interfaces */
extern devfs_handle_t pciio_pio_dev_get(pciio_piomap_t pciio_piomap);
extern pciio_slot_t pciio_pio_slot_get(pciio_piomap_t pciio_piomap);
extern pciio_space_t pciio_pio_space_get(pciio_piomap_t pciio_piomap);
extern iopaddr_t pciio_pio_pciaddr_get(pciio_piomap_t pciio_piomap);
extern ulong pciio_pio_mapsz_get(pciio_piomap_t pciio_piomap);
extern caddr_t pciio_pio_kvaddr_get(pciio_piomap_t pciio_piomap);
#ifdef IRIX
#ifdef USE_PCI_PIO
extern uint8_t pciio_pio_read8(volatile uint8_t *addr);
extern uint16_t pciio_pio_read16(volatile uint16_t *addr);
extern uint32_t pciio_pio_read32(volatile uint32_t *addr);
extern uint64_t pciio_pio_read64(volatile uint64_t *addr);
extern void pciio_pio_write8(uint8_t val, volatile uint8_t *addr);
extern void pciio_pio_write16(uint16_t val, volatile uint16_t *addr);
extern void pciio_pio_write32(uint32_t val, volatile uint32_t *addr);
extern void pciio_pio_write64(uint64_t val, volatile uint64_t *addr);
#else /* !USE_PCI_PIO */
__inline uint8_t pciio_pio_read8(volatile uint8_t *addr)
{
return *addr;
}
__inline uint16_t pciio_pio_read16(volatile uint16_t *addr)
{
return *addr;
}
__inline uint32_t pciio_pio_read32(volatile uint32_t *addr)
{
return *addr;
}
__inline uint64_t pciio_pio_read64(volatile uint64_t *addr)
{
return *addr;
}
__inline void pciio_pio_write8(uint8_t val, volatile uint8_t *addr)
{
*addr = val;
}
__inline void pciio_pio_write16(uint16_t val, volatile uint16_t *addr)
{
*addr = val;
}
__inline void pciio_pio_write32(uint32_t val, volatile uint32_t *addr)
{
*addr = val;
}
__inline void pciio_pio_write64(uint64_t val, volatile uint64_t *addr)
{
*addr = val;
}
#endif /* USE_PCI_PIO */
#endif
/* Generic PCI dma interfaces */
extern devfs_handle_t pciio_dma_dev_get(pciio_dmamap_t pciio_dmamap);
/* Register/unregister PCI providers and get implementation handle */
extern void pciio_provider_register(devfs_handle_t provider, pciio_provider_t *pciio_fns);
extern void pciio_provider_unregister(devfs_handle_t provider);
extern pciio_provider_t *pciio_provider_fns_get(devfs_handle_t provider);
/* Generic pci slot information access interface */
extern pciio_info_t pciio_info_chk(devfs_handle_t vhdl);
extern pciio_info_t pciio_info_get(devfs_handle_t vhdl);
extern void pciio_info_set(devfs_handle_t vhdl, pciio_info_t widget_info);
extern devfs_handle_t pciio_info_dev_get(pciio_info_t pciio_info);
extern pciio_bus_t pciio_info_bus_get(pciio_info_t pciio_info);
extern pciio_slot_t pciio_info_slot_get(pciio_info_t pciio_info);
extern pciio_function_t pciio_info_function_get(pciio_info_t pciio_info);
extern pciio_vendor_id_t pciio_info_vendor_id_get(pciio_info_t pciio_info);
extern pciio_device_id_t pciio_info_device_id_get(pciio_info_t pciio_info);
extern devfs_handle_t pciio_info_master_get(pciio_info_t pciio_info);
extern arbitrary_info_t pciio_info_mfast_get(pciio_info_t pciio_info);
extern pciio_provider_t *pciio_info_pops_get(pciio_info_t pciio_info);
extern error_handler_f *pciio_info_efunc_get(pciio_info_t);
extern error_handler_arg_t *pciio_info_einfo_get(pciio_info_t);
extern pciio_space_t pciio_info_bar_space_get(pciio_info_t, int);
extern iopaddr_t pciio_info_bar_base_get(pciio_info_t, int);
extern size_t pciio_info_bar_size_get(pciio_info_t, int);
extern iopaddr_t pciio_info_rom_base_get(pciio_info_t);
extern size_t pciio_info_rom_size_get(pciio_info_t);
extern int pciio_error_handler(devfs_handle_t, int, ioerror_mode_t, ioerror_t *);
extern int pciio_dma_enabled(devfs_handle_t);
#ifdef __cplusplus
};
#endif
#endif /* C or C++ */
#endif /* _ASM_SN_PCI_PCIIO_H */
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