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|
/*
* Copyright (c) 2018 Damien Zammit
* Copyright (c) 2017 Joan Lledó
* Copyright (c) 2009, 2012 Samuel Thibault
* Heavily inspired from the freebsd, netbsd, and openbsd backends
* (C) Copyright Eric Anholt 2006
* (C) Copyright IBM Corporation 2006
* Copyright (c) 2008 Juan Romero Pardines
* Copyright (c) 2008 Mark Kettenis
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "x86_pci.h"
#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <string.h>
#include <strings.h>
#include "pciaccess.h"
#include "pciaccess_private.h"
#if defined(__GNU__)
#include <sys/io.h>
int
x86_enable_io(void)
{
if (!ioperm(0, 0xffff, 1))
return 0;
return errno;
}
int
x86_disable_io(void)
{
if (!ioperm(0, 0xffff, 0))
return 0;
return errno;
}
#elif defined(__GLIBC__)
#include <sys/io.h>
static int
x86_enable_io(void)
{
if (!iopl(3))
return 0;
return errno;
}
static int
x86_disable_io(void)
{
if (!iopl(0))
return 0;
return errno;
}
#elif defined(__CYGWIN__)
#include <windows.h>
/* WinIo declarations */
typedef BYTE bool;
typedef struct tagPhysStruct {
DWORD64 dwPhysMemSizeInBytes;
DWORD64 pvPhysAddress;
DWORD64 PhysicalMemoryHandle;
DWORD64 pvPhysMemLin;
DWORD64 pvPhysSection;
} tagPhysStruct;
typedef bool (_stdcall* INITIALIZEWINIO)(void);
typedef void (_stdcall* SHUTDOWNWINIO)(void);
typedef bool (_stdcall* GETPORTVAL)(WORD,PDWORD,BYTE);
typedef bool (_stdcall* SETPORTVAL)(WORD,DWORD,BYTE);
typedef PBYTE (_stdcall* MAPPHYSTOLIN)(tagPhysStruct*);
typedef bool (_stdcall* UNMAPPHYSMEM)(tagPhysStruct*);
SHUTDOWNWINIO ShutdownWinIo;
GETPORTVAL GetPortVal;
SETPORTVAL SetPortVal;
INITIALIZEWINIO InitializeWinIo;
MAPPHYSTOLIN MapPhysToLin;
UNMAPPHYSMEM UnmapPhysicalMemory;
static int
x86_enable_io(void)
{
HMODULE lib = NULL;
if ((GetVersion() & 0x80000000) == 0) {
/* running on NT, try WinIo version 3 (32 or 64 bits) */
#ifdef WIN64
lib = LoadLibrary("WinIo64.dll");
#else
lib = LoadLibrary("WinIo32.dll");
#endif
}
if (!lib) {
fprintf(stderr, "Failed to load WinIo library.\n");
return 1;
}
#define GETPROC(n, d) \
n = (d) GetProcAddress(lib, #n); \
if (!n) { \
fprintf(stderr, "Failed to load " #n " function.\n"); \
return 1; \
}
GETPROC(InitializeWinIo, INITIALIZEWINIO);
GETPROC(ShutdownWinIo, SHUTDOWNWINIO);
GETPROC(GetPortVal, GETPORTVAL);
GETPROC(SetPortVal, SETPORTVAL);
GETPROC(MapPhysToLin, MAPPHYSTOLIN);
GETPROC(UnmapPhysicalMemory, UNMAPPHYSMEM);
#undef GETPROC
if (!InitializeWinIo()) {
fprintf(stderr, "Failed to initialize WinIo.\n"
"NOTE: WinIo.dll and WinIo.sys must be in the same directory as the executable!\n");
return 0;
}
return 0;
}
static int
x86_disable_io(void)
{
ShutdownWinIo();
return 1;
}
static inline uint8_t
inb(uint16_t port)
{
DWORD pv;
if (GetPortVal(port, &pv, 1))
return (uint8_t)pv;
return 0;
}
static inline uint16_t
inw(uint16_t port)
{
DWORD pv;
if (GetPortVal(port, &pv, 2))
return (uint16_t)pv;
return 0;
}
static inline uint32_t
inl(uint16_t port)
{
DWORD pv;
if (GetPortVal(port, &pv, 4))
return (uint32_t)pv;
return 0;
}
static inline void
outb(uint8_t value, uint16_t port)
{
SetPortVal(port, value, 1);
}
static inline void
outw(uint16_t value, uint16_t port)
{
SetPortVal(port, value, 2);
}
static inline void
outl(uint32_t value, uint16_t port)
{
SetPortVal(port, value, 4);
}
#else
#error How to enable IO ports on this system?
#endif
static int
pci_system_x86_conf1_probe(void)
{
unsigned long sav;
int res = ENODEV;
outb(0x01, 0xCFB);
sav = inl(0xCF8);
outl(0x80000000, 0xCF8);
if (inl(0xCF8) == 0x80000000)
res = 0;
outl(sav, 0xCF8);
return res;
}
static int
pci_system_x86_conf1_read(unsigned bus, unsigned dev, unsigned func, pciaddr_t reg, void *data, unsigned size)
{
unsigned addr = 0xCFC + (reg & 3);
unsigned long sav;
int ret = 0;
if (bus >= 0x100 || dev >= 32 || func >= 8 || reg >= 0x100 || size > 4 || size == 3)
return EIO;
sav = inl(0xCF8);
outl(0x80000000 | (bus << 16) | (dev << 11) | (func << 8) | (reg & ~3), 0xCF8);
/* NOTE: x86 is already LE */
switch (size) {
case 1: {
uint8_t *val = data;
*val = inb(addr);
break;
}
case 2: {
uint16_t *val = data;
*val = inw(addr);
break;
}
case 4: {
uint32_t *val = data;
*val = inl(addr);
break;
}
}
outl(sav, 0xCF8);
return ret;
}
static int
pci_system_x86_conf1_write(unsigned bus, unsigned dev, unsigned func, pciaddr_t reg, const void *data, unsigned size)
{
unsigned addr = 0xCFC + (reg & 3);
unsigned long sav;
int ret = 0;
if (bus >= 0x100 || dev >= 32 || func >= 8 || reg >= 0x100 || size > 4 || size == 3)
return EIO;
sav = inl(0xCF8);
outl(0x80000000 | (bus << 16) | (dev << 11) | (func << 8) | (reg & ~3), 0xCF8);
/* NOTE: x86 is already LE */
switch (size) {
case 1: {
const uint8_t *val = data;
outb(*val, addr);
break;
}
case 2: {
const uint16_t *val = data;
outw(*val, addr);
break;
}
case 4: {
const uint32_t *val = data;
outl(*val, addr);
break;
}
}
outl(sav, 0xCF8);
return ret;
}
static int
pci_system_x86_conf2_probe(void)
{
outb(0, 0xCFB);
outb(0, 0xCF8);
outb(0, 0xCFA);
if (inb(0xCF8) == 0 && inb(0xCFA) == 0)
return 0;
return ENODEV;
}
static int
pci_system_x86_conf2_read(unsigned bus, unsigned dev, unsigned func, pciaddr_t reg, void *data, unsigned size)
{
unsigned addr = 0xC000 | dev << 8 | reg;
int ret = 0;
if (bus >= 0x100 || dev >= 16 || func >= 8 || reg >= 0x100)
return EIO;
outb((func << 1) | 0xF0, 0xCF8);
outb(bus, 0xCFA);
/* NOTE: x86 is already LE */
switch (size) {
case 1: {
uint8_t *val = data;
*val = inb(addr);
break;
}
case 2: {
uint16_t *val = data;
*val = inw(addr);
break;
}
case 4: {
uint32_t *val = data;
*val = inl(addr);
break;
}
default:
ret = EIO;
break;
}
outb(0, 0xCF8);
return ret;
}
static int
pci_system_x86_conf2_write(unsigned bus, unsigned dev, unsigned func, pciaddr_t reg, const void *data, unsigned size)
{
unsigned addr = 0xC000 | dev << 8 | reg;
int ret = 0;
if (bus >= 0x100 || dev >= 16 || func >= 8 || reg >= 0x100)
return EIO;
outb((func << 1) | 0xF0, 0xCF8);
outb(bus, 0xCFA);
/* NOTE: x86 is already LE */
switch (size) {
case 1: {
const uint8_t *val = data;
outb(*val, addr);
break;
}
case 2: {
const uint16_t *val = data;
outw(*val, addr);
break;
}
case 4: {
const uint32_t *val = data;
outl(*val, addr);
break;
}
default:
ret = EIO;
break;
}
outb(0, 0xCF8);
return ret;
}
/* Check that this really looks like a PCI configuration. */
static error_t
pci_system_x86_check (void)
{
int dev;
uint16_t class, vendor;
struct pci_device tmpdev = { 0 };
/* Look on bus 0 for a device that is a host bridge, a VGA card,
* or an intel or compaq device. */
tmpdev.bus = 0;
tmpdev.func = 0;
class = 0;
vendor = 0;
for (dev = 0; dev < 32; dev++) {
tmpdev.dev = dev;
if (pci_device_cfg_read_u16 (&tmpdev, &class, PCI_CLASS_DEVICE))
continue;
if (class == PCI_CLASS_BRIDGE_HOST || class == PCI_CLASS_DISPLAY_VGA)
return 0;
if (pci_device_cfg_read_u16 (&tmpdev, &vendor, PCI_VENDOR_ID))
continue;
if (vendor == PCI_VENDOR_ID_INTEL || class == PCI_VENDOR_ID_COMPAQ)
return 0;
}
return ENODEV;
}
static int
pci_nfuncs(struct pci_device *dev, uint8_t *nfuncs)
{
uint8_t hdr;
int err;
struct pci_device tmpdev = *dev;
tmpdev.func = 0;
err = pci_device_cfg_read_u8 (&tmpdev, &hdr, PCI_HDRTYPE);
if (err)
return err;
*nfuncs = hdr & 0x80 ? 8 : 1;
return err;
}
/**
* Read a PCI rom.
*/
static error_t
pci_device_x86_read_rom(struct pci_device *dev, void *buffer)
{
void *bios;
int memfd;
struct pci_device_private *d = (struct pci_device_private *)dev;
memfd = open("/dev/mem", O_RDONLY | O_CLOEXEC);
if (memfd == -1)
return errno;
bios = mmap(NULL, dev->rom_size, PROT_READ, 0, memfd, d->rom_base);
if (bios == MAP_FAILED) {
close(memfd);
return errno;
}
memcpy(buffer, bios, dev->rom_size);
munmap(bios, dev->rom_size);
close(memfd);
return 0;
}
/** Returns the number of regions (base address registers) the device has */
static int
pci_device_x86_get_num_regions(uint8_t header_type)
{
switch (header_type & 0x7f) {
case 0:
return 6;
case 1:
return 2;
case 2:
return 1;
default:
fprintf(stderr,"unknown header type %02x\n", header_type);
return 0;
}
}
/** Masks out the flag bigs of the base address register value */
static uint32_t
get_map_base( uint32_t val )
{
if (val & 0x01)
return val & ~0x03;
else
return val & ~0x0f;
}
/** Returns the size of a region based on the all-ones test value */
static unsigned
get_test_val_size( uint32_t testval )
{
unsigned size = 1;
if (testval == 0)
return 0;
/* Mask out the flag bits */
testval = get_map_base( testval );
if (!testval)
return 0;
while ((testval & 1) == 0) {
size <<= 1;
testval >>= 1;
}
return size;
}
/* Read BAR `reg_num' in `dev' and map the data if any */
static error_t
pci_device_x86_region_probe (struct pci_device *dev, int reg_num)
{
error_t err;
uint8_t offset;
uint32_t reg, addr, testval;
int memfd;
offset = PCI_BAR_ADDR_0 + 0x4 * reg_num;
/* Get the base address */
err = pci_device_cfg_read_u32 (dev, &addr, offset);
if (err)
return err;
/* Test write all ones to the register, then restore it. */
reg = 0xffffffff;
err = pci_device_cfg_write_u32 (dev, reg, offset);
if (err)
return err;
err = pci_device_cfg_read_u32 (dev, &testval, offset);
if (err)
return err;
err = pci_device_cfg_write_u32 (dev, addr, offset);
if (err)
return err;
if (addr & 0x01)
dev->regions[reg_num].is_IO = 1;
if (addr & 0x04)
dev->regions[reg_num].is_64 = 1;
if (addr & 0x08)
dev->regions[reg_num].is_prefetchable = 1;
/* Set the size */
dev->regions[reg_num].size = get_test_val_size (testval);
/* Set the base address value */
dev->regions[reg_num].base_addr = get_map_base (addr);
if (dev->regions[reg_num].is_64)
{
err = pci_device_cfg_read_u32 (dev, &addr, offset + 4);
if (err)
return err;
dev->regions[reg_num].base_addr |= ((uint64_t) addr << 32);
}
if (dev->regions[reg_num].is_IO)
{
/* Enable the I/O Space bit */
err = pci_device_cfg_read_u32 (dev, ®, PCI_COMMAND);
if (err)
return err;
if (!(reg & 0x1))
{
reg |= 0x1;
err = pci_device_cfg_write_u32 (dev, reg, PCI_COMMAND);
if (err)
return err;
}
/* Clear the map pointer */
dev->regions[reg_num].memory = 0;
}
else if (dev->regions[reg_num].size > 0)
{
/* Enable the Memory Space bit */
err = pci_device_cfg_read_u32 (dev, ®, PCI_COMMAND);
if (err)
return err;
if (!(reg & 0x2))
{
reg |= 0x2;
err = pci_device_cfg_write_u32 (dev, reg, PCI_COMMAND);
if (err)
return err;
}
/* Map the region in our space */
memfd = open ("/dev/mem", O_RDONLY | O_CLOEXEC);
if (memfd == -1)
return errno;
dev->regions[reg_num].memory =
mmap (NULL, dev->regions[reg_num].size, PROT_READ | PROT_WRITE, 0,
memfd, dev->regions[reg_num].base_addr);
if (dev->regions[reg_num].memory == MAP_FAILED)
{
dev->regions[reg_num].memory = 0;
close (memfd);
return errno;
}
close (memfd);
}
return 0;
}
/* Read the XROMBAR in `dev' and save the rom size and rom base */
static error_t
pci_device_x86_probe_rom (struct pci_device *dev)
{
error_t err;
uint8_t reg_8, xrombar_addr;
uint32_t reg, reg_back;
pciaddr_t rom_size;
pciaddr_t rom_base;
struct pci_device_private *d = (struct pci_device_private *)dev;
/* First we need to know which type of header is this */
err = pci_device_cfg_read_u8 (dev, ®_8, PCI_HDRTYPE);
if (err)
return err;
/* Get the XROMBAR register address */
switch (reg_8 & 0x3)
{
case PCI_HDRTYPE_DEVICE:
xrombar_addr = PCI_XROMBAR_ADDR_00;
break;
case PCI_HDRTYPE_BRIDGE:
xrombar_addr = PCI_XROMBAR_ADDR_01;
break;
default:
return -1;
}
/* Get size and physical address */
err = pci_device_cfg_read_u32 (dev, ®, xrombar_addr);
if (err)
return err;
reg_back = reg;
reg = 0xFFFFF800; /* Base address: first 21 bytes */
err = pci_device_cfg_write_u32 (dev, reg, xrombar_addr);
if (err)
return err;
err = pci_device_cfg_read_u32 (dev, ®, xrombar_addr);
if (err)
return err;
rom_size = (~reg + 1);
rom_base = reg_back & reg;
if (rom_size == 0)
return 0;
/* Enable the address decoder and write the physical address back */
reg_back |= 0x1;
err = pci_device_cfg_write_u32 (dev, reg_back, xrombar_addr);
if (err)
return err;
/* Enable the Memory Space bit */
err = pci_device_cfg_read_u32 (dev, ®, PCI_COMMAND);
if (err)
return err;
if (!(reg & 0x2))
{
reg |= 0x2;
err = pci_device_cfg_write_u32 (dev, reg, PCI_COMMAND);
if (err)
return err;
}
dev->rom_size = rom_size;
d->rom_base = rom_base;
return 0;
}
/* Configure BARs and ROM */
static error_t
pci_device_x86_probe (struct pci_device *dev)
{
error_t err;
uint8_t hdrtype;
int i;
/* Probe BARs */
err = pci_device_cfg_read_u8 (dev, &hdrtype, PCI_HDRTYPE);
if (err)
return err;
for (i = 0; i < pci_device_x86_get_num_regions (hdrtype); i++)
{
err = pci_device_x86_region_probe (dev, i);
if (err)
return err;
if (dev->regions[i].is_64)
/* Move the pointer one BAR ahead */
i++;
}
/* Probe ROM */
pci_device_x86_probe_rom(dev);
return 0;
}
/* Recursively scan bus number `bus' */
static error_t
pci_system_x86_scan_bus (uint8_t bus)
{
error_t err;
uint8_t dev, func, nfuncs, hdrtype, secbus;
uint32_t reg;
struct pci_device_private *d, *devices;
struct pci_device scratchdev;
scratchdev.bus = bus;
for (dev = 0; dev < 32; dev++)
{
scratchdev.dev = dev;
scratchdev.func = 0;
err = pci_nfuncs (&scratchdev, &nfuncs);
if (err)
return err;
for (func = 0; func < nfuncs; func++)
{
scratchdev.func = func;
err = pci_device_cfg_read_u32 (&scratchdev, ®, PCI_VENDOR_ID);
if (err)
return err;
if (PCI_VENDOR (reg) == PCI_VENDOR_INVALID || PCI_VENDOR (reg) == 0)
continue;
err = pci_device_cfg_read_u32 (&scratchdev, ®, PCI_CLASS);
if (err)
return err;
err = pci_device_cfg_read_u8 (&scratchdev, &hdrtype, PCI_HDRTYPE);
if (err)
return err;
devices =
realloc (pci_sys->devices,
(pci_sys->num_devices + 1) * sizeof (struct pci_device_private));
if (!devices)
return ENOMEM;
d = devices + pci_sys->num_devices;
memset (d, 0, sizeof (struct pci_device_private));
/* Fixed values as PCI express is still not supported */
d->base.domain = 0;
d->base.bus = bus;
d->base.dev = dev;
d->base.func = func;
d->base.device_class = reg >> 8;
err = pci_device_x86_probe (&d->base);
if (err)
return err;
pci_sys->devices = devices;
pci_sys->num_devices++;
switch (hdrtype & 0x3)
{
case PCI_HDRTYPE_DEVICE:
break;
case PCI_HDRTYPE_BRIDGE:
case PCI_HDRTYPE_CARDBUS:
{
err = pci_device_cfg_read_u8 (&scratchdev, &secbus, PCI_SECONDARY_BUS);
if (err)
return err;
err = pci_system_x86_scan_bus (secbus);
if (err)
return err;
break;
}
default:
/* Unknown header, do nothing */
break;
}
}
}
return 0;
}
#if defined(__CYGWIN__)
static int
pci_device_x86_map_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
tagPhysStruct phys;
phys.pvPhysAddress = (DWORD64)(DWORD32)map->base;
phys.dwPhysMemSizeInBytes = map->size;
map->memory = (PDWORD)MapPhysToLin(&phys);
if (map->memory == NULL)
return EFAULT;
return 0;
}
static int
pci_device_x86_unmap_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
tagPhysStruct phys;
phys.pvPhysAddress = (DWORD64)(DWORD32)map->base;
phys.dwPhysMemSizeInBytes = map->size;
if (!UnmapPhysicalMemory(&phys))
return EFAULT;
return 0;
}
#else
int
pci_device_x86_map_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
int memfd = open("/dev/mem", O_RDWR | O_CLOEXEC);
int prot = PROT_READ;
if (memfd == -1)
return errno;
if (map->flags & PCI_DEV_MAP_FLAG_WRITABLE)
prot |= PROT_WRITE;
map->memory = mmap(NULL, map->size, prot, MAP_SHARED, memfd, map->base);
close(memfd);
if (map->memory == MAP_FAILED)
return errno;
return 0;
}
int
pci_device_x86_unmap_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
return pci_device_generic_unmap_range(dev, map);
}
#endif
static int
pci_device_x86_read_conf1(struct pci_device *dev, void *data,
pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_read)
{
int err;
*bytes_read = 0;
while (size > 0) {
int toread = 1 << (ffs(0x4 + (offset & 0x03)) - 1);
if (toread > size)
toread = size;
err = pci_system_x86_conf1_read(dev->bus, dev->dev, dev->func, offset, data, toread);
if (err)
return err;
offset += toread;
data = (char*)data + toread;
size -= toread;
*bytes_read += toread;
}
return 0;
}
static int
pci_device_x86_read_conf2(struct pci_device *dev, void *data,
pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_read)
{
int err;
*bytes_read = 0;
while (size > 0) {
int toread = 1 << (ffs(0x4 + (offset & 0x03)) - 1);
if (toread > size)
toread = size;
err = pci_system_x86_conf2_read(dev->bus, dev->dev, dev->func, offset, data, toread);
if (err)
return err;
offset += toread;
data = (char*)data + toread;
size -= toread;
*bytes_read += toread;
}
return 0;
}
static int
pci_device_x86_write_conf1(struct pci_device *dev, const void *data,
pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_written)
{
int err;
*bytes_written = 0;
while (size > 0) {
int towrite = 4;
if (towrite > size)
towrite = size;
if (towrite > 4 - (offset & 0x3))
towrite = 4 - (offset & 0x3);
err = pci_system_x86_conf1_write(dev->bus, dev->dev, dev->func, offset, data, towrite);
if (err)
return err;
offset += towrite;
data = (const char*)data + towrite;
size -= towrite;
*bytes_written += towrite;
}
return 0;
}
static int
pci_device_x86_write_conf2(struct pci_device *dev, const void *data,
pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_written)
{
int err;
*bytes_written = 0;
while (size > 0) {
int towrite = 4;
if (towrite > size)
towrite = size;
if (towrite > 4 - (offset & 0x3))
towrite = 4 - (offset & 0x3);
err = pci_system_x86_conf2_write(dev->bus, dev->dev, dev->func, offset, data, towrite);
if (err)
return err;
offset += towrite;
data = (const char*)data + towrite;
size -= towrite;
*bytes_written += towrite;
}
return 0;
}
void
pci_system_x86_destroy(void)
{
x86_disable_io();
}
struct pci_io_handle *
pci_device_x86_open_legacy_io(struct pci_io_handle *ret,
struct pci_device *dev, pciaddr_t base, pciaddr_t size)
{
x86_enable_io();
ret->base = base;
ret->size = size;
ret->is_legacy = 1;
return ret;
}
void
pci_device_x86_close_io(struct pci_device *dev, struct pci_io_handle *handle)
{
/* Like in the Linux case, do not disable I/O, as it may be opened several
* times, and closed fewer times. */
/* x86_disable_io(); */
}
uint32_t
pci_device_x86_read32(struct pci_io_handle *handle, uint32_t reg)
{
return inl(reg + handle->base);
}
uint16_t
pci_device_x86_read16(struct pci_io_handle *handle, uint32_t reg)
{
return inw(reg + handle->base);
}
uint8_t
pci_device_x86_read8(struct pci_io_handle *handle, uint32_t reg)
{
return inb(reg + handle->base);
}
void
pci_device_x86_write32(struct pci_io_handle *handle, uint32_t reg,
uint32_t data)
{
outl(data, reg + handle->base);
}
void
pci_device_x86_write16(struct pci_io_handle *handle, uint32_t reg,
uint16_t data)
{
outw(data, reg + handle->base);
}
void
pci_device_x86_write8(struct pci_io_handle *handle, uint32_t reg,
uint8_t data)
{
outb(data, reg + handle->base);
}
int
pci_device_x86_map_legacy(struct pci_device *dev, pciaddr_t base,
pciaddr_t size, unsigned map_flags, void **addr)
{
struct pci_device_mapping map;
int err;
map.base = base;
map.size = size;
map.flags = map_flags;
err = pci_device_x86_map_range(dev, &map);
*addr = map.memory;
return err;
}
int
pci_device_x86_unmap_legacy(struct pci_device *dev, void *addr,
pciaddr_t size)
{
struct pci_device_mapping map;
map.size = size;
map.flags = 0;
map.memory = addr;
return pci_device_x86_unmap_range(dev, &map);
}
static const struct pci_system_methods x86_pci_method_conf1 = {
.destroy = pci_system_x86_destroy,
.read_rom = pci_device_x86_read_rom,
.probe = pci_device_x86_probe,
.map_range = pci_device_x86_map_range,
.unmap_range = pci_device_x86_unmap_range,
.read = pci_device_x86_read_conf1,
.write = pci_device_x86_write_conf1,
.fill_capabilities = pci_fill_capabilities_generic,
.open_legacy_io = pci_device_x86_open_legacy_io,
.close_io = pci_device_x86_close_io,
.read32 = pci_device_x86_read32,
.read16 = pci_device_x86_read16,
.read8 = pci_device_x86_read8,
.write32 = pci_device_x86_write32,
.write16 = pci_device_x86_write16,
.write8 = pci_device_x86_write8,
.map_legacy = pci_device_x86_map_legacy,
.unmap_legacy = pci_device_x86_unmap_legacy,
};
static const struct pci_system_methods x86_pci_method_conf2 = {
.destroy = pci_system_x86_destroy,
.read_rom = pci_device_x86_read_rom,
.probe = pci_device_x86_probe,
.map_range = pci_device_x86_map_range,
.unmap_range = pci_device_x86_unmap_range,
.read = pci_device_x86_read_conf2,
.write = pci_device_x86_write_conf2,
.fill_capabilities = pci_fill_capabilities_generic,
.open_legacy_io = pci_device_x86_open_legacy_io,
.close_io = pci_device_x86_close_io,
.read32 = pci_device_x86_read32,
.read16 = pci_device_x86_read16,
.read8 = pci_device_x86_read8,
.write32 = pci_device_x86_write32,
.write16 = pci_device_x86_write16,
.write8 = pci_device_x86_write8,
.map_legacy = pci_device_x86_map_legacy,
.unmap_legacy = pci_device_x86_unmap_legacy,
};
static int pci_probe(void)
{
pci_sys->methods = &x86_pci_method_conf1;
if (pci_system_x86_conf1_probe() == 0) {
if (pci_system_x86_check() == 0)
return 1;
}
pci_sys->methods = &x86_pci_method_conf2;
if (pci_system_x86_conf2_probe() == 0) {
if (pci_system_x86_check() == 0)
return 2;
}
pci_sys->methods = NULL;
return 0;
}
_pci_hidden int
pci_system_x86_create(void)
{
error_t err;
int confx;
err = x86_enable_io ();
if (err)
return err;
pci_sys = calloc (1, sizeof (struct pci_system));
if (pci_sys == NULL)
{
x86_disable_io ();
return ENOMEM;
}
confx = pci_probe ();
if (!confx)
{
x86_disable_io ();
free (pci_sys);
pci_sys = NULL;
return ENODEV;
}
else if (confx == 1)
pci_sys->methods = &x86_pci_method_conf1;
else
pci_sys->methods = &x86_pci_method_conf2;
/* Recursive scan */
pci_sys->num_devices = 0;
err = pci_system_x86_scan_bus (0);
if (err)
{
x86_disable_io ();
free (pci_sys);
pci_sys = NULL;
return err;
}
return 0;
}
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