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/*
* (C) Copyright IBM Corporation 2006
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* on the rights to use, copy, modify, merge, publish, distribute, sub
* license, and/or sell copies of the Software, and to permit persons to whom
* the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
* IBM AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
/**
* \file linux_sysfs.c
* Access PCI subsystem using Linux's sysfs interface. This interface is
* available starting somewhere in the late 2.5.x kernel phase, and is the
* prefered method on all 2.6.x kernels.
*
* \author Ian Romanick <idr@us.ibm.com>
*/
#define _GNU_SOURCE
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <dirent.h>
#include <errno.h>
#include "config.h"
#ifdef HAVE_MTRR
#include <asm/mtrr.h>
#include <sys/ioctl.h>
#endif
#include "pciaccess.h"
#include "pciaccess_private.h"
#include "linux_devmem.h"
static int pci_device_linux_sysfs_read_rom( struct pci_device * dev,
void * buffer );
static int pci_device_linux_sysfs_probe( struct pci_device * dev );
static int pci_device_linux_sysfs_map_range(struct pci_device *dev,
struct pci_device_mapping *map);
static int pci_device_linux_sysfs_unmap_range(struct pci_device *dev,
struct pci_device_mapping *map);
static int pci_device_linux_sysfs_read( struct pci_device * dev, void * data,
pciaddr_t offset, pciaddr_t size, pciaddr_t * bytes_read );
static int pci_device_linux_sysfs_write( struct pci_device * dev,
const void * data, pciaddr_t offset, pciaddr_t size,
pciaddr_t * bytes_wrtten );
static const struct pci_system_methods linux_sysfs_methods = {
.destroy = NULL,
.destroy_device = NULL,
.read_rom = pci_device_linux_sysfs_read_rom,
.probe = pci_device_linux_sysfs_probe,
.map_range = pci_device_linux_sysfs_map_range,
.unmap_range = pci_device_linux_sysfs_unmap_range,
.read = pci_device_linux_sysfs_read,
.write = pci_device_linux_sysfs_write,
.fill_capabilities = pci_fill_capabilities_generic
};
#define SYS_BUS_PCI "/sys/bus/pci/devices"
static int populate_entries(struct pci_system * pci_sys);
/**
* Attempt to access PCI subsystem using Linux's sysfs interface.
*/
int
pci_system_linux_sysfs_create( void )
{
int err = 0;
struct stat st;
/* If the directory "/sys/bus/pci/devices" exists, then the PCI subsystem
* can be accessed using this interface.
*/
if ( stat( SYS_BUS_PCI, & st ) == 0 ) {
pci_sys = calloc( 1, sizeof( struct pci_system ) );
if ( pci_sys != NULL ) {
pci_sys->methods = & linux_sysfs_methods;
err = populate_entries(pci_sys);
}
else {
err = ENOMEM;
}
}
else {
err = errno;
}
#ifdef HAVE_MTRR
pci_sys->mtrr_fd = open("/proc/mtrr", O_WRONLY);
#endif
return err;
}
/**
* Filter out the names "." and ".." from the scanned sysfs entries.
*
* \param d Directory entry being processed by \c scandir.
*
* \return
* Zero if the entry name matches either "." or "..", non-zero otherwise.
*
* \sa scandir, populate_entries
*/
static int
scan_sys_pci_filter( const struct dirent * d )
{
return !((strcmp( d->d_name, "." ) == 0)
|| (strcmp( d->d_name, ".." ) == 0));
}
int
populate_entries( struct pci_system * p )
{
struct dirent ** devices;
int n;
int i;
int err = 0;
n = scandir( SYS_BUS_PCI, & devices, scan_sys_pci_filter, alphasort );
if ( n > 0 ) {
p->num_devices = n;
p->devices = calloc( n, sizeof( struct pci_device_private ) );
if (p->devices != NULL) {
for (i = 0 ; i < n ; i++) {
uint8_t config[48];
pciaddr_t bytes;
unsigned dom, bus, dev, func;
struct pci_device_private *device =
(struct pci_device_private *) &p->devices[i];
sscanf(devices[i]->d_name, "%04x:%02x:%02x.%1u",
& dom, & bus, & dev, & func);
device->base.domain = dom;
device->base.bus = bus;
device->base.dev = dev;
device->base.func = func;
err = pci_device_linux_sysfs_read(& device->base, config, 0,
48, & bytes);
if ((bytes == 48) && !err) {
device->base.vendor_id = (uint16_t)config[0]
+ ((uint16_t)config[1] << 8);
device->base.device_id = (uint16_t)config[2]
+ ((uint16_t)config[3] << 8);
device->base.device_class = (uint32_t)config[9]
+ ((uint32_t)config[10] << 8)
+ ((uint32_t)config[11] << 16);
device->base.revision = config[8];
device->base.subvendor_id = (uint16_t)config[44]
+ ((uint16_t)config[45] << 8);
device->base.subdevice_id = (uint16_t)config[46]
+ ((uint16_t)config[47] << 8);
}
if (err) {
break;
}
}
}
else {
err = ENOMEM;
}
}
if (err) {
free(p->devices);
p->devices = NULL;
}
return err;
}
static int
pci_device_linux_sysfs_probe( struct pci_device * dev )
{
char name[256];
uint8_t config[256];
char resource[512];
int fd;
pciaddr_t bytes;
unsigned i;
int err;
err = pci_device_linux_sysfs_read( dev, config, 0, 256, & bytes );
if ( bytes >= 64 ) {
struct pci_device_private *priv = (struct pci_device_private *) dev;
dev->irq = config[60];
priv->header_type = config[14];
/* The PCI config registers can be used to obtain information
* about the memory and I/O regions for the device. However,
* doing so requires some tricky parsing (to correctly handle
* 64-bit memory regions) and requires writing to the config
* registers. Since we'd like to avoid having to deal with the
* parsing issues and non-root users can write to PCI config
* registers, we use a different file in the device's sysfs
* directory called "resource".
*
* The resource file contains all of the needed information in
* a format that is consistent across all platforms. Each BAR
* and the expansion ROM have a single line of data containing
* 3, 64-bit hex values: the first address in the region,
* the last address in the region, and the region's flags.
*/
snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/resource",
SYS_BUS_PCI,
dev->domain,
dev->bus,
dev->dev,
dev->func );
fd = open( name, O_RDONLY );
if ( fd != -1 ) {
char * next;
pciaddr_t low_addr;
pciaddr_t high_addr;
pciaddr_t flags;
bytes = read( fd, resource, 512 );
resource[511] = '\0';
close( fd );
next = resource;
for ( i = 0 ; i < 6 ; i++ ) {
dev->regions[i].base_addr = strtoull( next, & next, 16 );
high_addr = strtoull( next, & next, 16 );
flags = strtoull( next, & next, 16 );
if ( dev->regions[i].base_addr != 0 ) {
dev->regions[i].size = (high_addr
- dev->regions[i].base_addr) + 1;
dev->regions[i].is_IO = (flags & 0x01);
dev->regions[i].is_64 = (flags & 0x04);
dev->regions[i].is_prefetchable = (flags & 0x08);
}
}
low_addr = strtoull( next, & next, 16 );
high_addr = strtoull( next, & next, 16 );
flags = strtoull( next, & next, 16 );
if ( low_addr != 0 ) {
priv->rom_base = low_addr;
dev->rom_size = (high_addr - low_addr) + 1;
}
}
}
return err;
}
static int
pci_device_linux_sysfs_read_rom( struct pci_device * dev, void * buffer )
{
char name[256];
int fd;
struct stat st;
int err = 0;
size_t total_bytes;
snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/rom",
SYS_BUS_PCI,
dev->domain,
dev->bus,
dev->dev,
dev->func );
fd = open( name, O_RDWR );
if ( fd == -1 ) {
/* If reading the ROM using sysfs fails, fall back to the old
* /dev/mem based interface.
*/
return pci_device_linux_devmem_read_rom(dev, buffer);
}
if ( fstat( fd, & st ) == -1 ) {
close( fd );
return errno;
}
/* This is a quirky thing on Linux. Even though the ROM and the file
* for the ROM in sysfs are read-only, the string "1" must be written to
* the file to enable the ROM. After the data has been read, "0" must be
* written to the file to disable the ROM.
*/
write( fd, "1", 1 );
lseek( fd, 0, SEEK_SET );
for ( total_bytes = 0 ; total_bytes < st.st_size ; /* empty */ ) {
const int bytes = read( fd, (char *) buffer + total_bytes,
st.st_size - total_bytes );
if ( bytes == -1 ) {
err = errno;
break;
}
else if ( bytes == 0 ) {
break;
}
total_bytes += bytes;
}
lseek( fd, 0, SEEK_SET );
write( fd, "0", 1 );
close( fd );
return err;
}
static int
pci_device_linux_sysfs_read( struct pci_device * dev, void * data,
pciaddr_t offset, pciaddr_t size,
pciaddr_t * bytes_read )
{
char name[256];
pciaddr_t temp_size = size;
int err = 0;
int fd;
char *data_bytes = data;
if ( bytes_read != NULL ) {
*bytes_read = 0;
}
/* Each device has a directory under sysfs. Within that directory there
* is a file named "config". This file used to access the PCI config
* space. It is used here to obtain most of the information about the
* device.
*/
snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/config",
SYS_BUS_PCI,
dev->domain,
dev->bus,
dev->dev,
dev->func );
fd = open( name, O_RDONLY );
if ( fd == -1 ) {
return errno;
}
while ( temp_size > 0 ) {
const ssize_t bytes = pread64( fd, data_bytes, temp_size, offset );
/* If zero bytes were read, then we assume it's the end of the
* config file.
*/
if ( bytes <= 0 ) {
err = errno;
break;
}
temp_size -= bytes;
offset += bytes;
data_bytes += bytes;
}
if ( bytes_read != NULL ) {
*bytes_read = size - temp_size;
}
close( fd );
return err;
}
static int
pci_device_linux_sysfs_write( struct pci_device * dev, const void * data,
pciaddr_t offset, pciaddr_t size,
pciaddr_t * bytes_written )
{
char name[256];
pciaddr_t temp_size = size;
int err = 0;
int fd;
const char *data_bytes = data;
if ( bytes_written != NULL ) {
*bytes_written = 0;
}
/* Each device has a directory under sysfs. Within that directory there
* is a file named "config". This file used to access the PCI config
* space. It is used here to obtain most of the information about the
* device.
*/
snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/config",
SYS_BUS_PCI,
dev->domain,
dev->bus,
dev->dev,
dev->func );
fd = open( name, O_WRONLY );
if ( fd == -1 ) {
return errno;
}
while ( temp_size > 0 ) {
const ssize_t bytes = pwrite64( fd, data_bytes, temp_size, offset );
/* If zero bytes were written, then we assume it's the end of the
* config file.
*/
if ( bytes <= 0 ) {
err = errno;
break;
}
temp_size -= bytes;
offset += bytes;
data_bytes += bytes;
}
if ( bytes_written != NULL ) {
*bytes_written = size - temp_size;
}
close( fd );
return err;
}
/**
* Map a memory region for a device using the Linux sysfs interface.
*
* \param dev Device whose memory region is to be mapped.
* \param map Parameters of the mapping that is to be created.
*
* \return
* Zero on success or an \c errno value on failure.
*
* \sa pci_device_map_rrange, pci_device_linux_sysfs_unmap_range
*
* \todo
* Some older 2.6.x kernels don't implement the resourceN files. On those
* systems /dev/mem must be used. On these systems it is also possible that
* \c mmap64 may need to be used.
*/
static int
pci_device_linux_sysfs_map_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
char name[256];
int fd;
int err = 0;
const int prot = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0)
? (PROT_READ | PROT_WRITE) : PROT_READ;
const int open_flags = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0)
? O_RDWR : O_RDONLY;
const off_t offset = map->base - dev->regions[map->region].base_addr;
#ifdef HAVE_MTRR
struct mtrr_sentry sentry = {
.base = map->base,
.size = map->size,
.type = MTRR_TYPE_UNCACHABLE
};
#endif
snprintf(name, 255, "%s/%04x:%02x:%02x.%1u/resource%u",
SYS_BUS_PCI,
dev->domain,
dev->bus,
dev->dev,
dev->func,
map->region);
fd = open(name, open_flags);
if (fd == -1) {
return errno;
}
map->memory = mmap(NULL, map->size, prot, MAP_SHARED, fd, offset);
if (map->memory == MAP_FAILED) {
err = errno;
map->memory = NULL;
}
close(fd);
#ifdef HAVE_MTRR
if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) != 0) {
sentry.type = MTRR_TYPE_WRBACK;
} else if ((map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE) != 0) {
sentry.type = MTRR_TYPE_WRCOMB;
}
if (pci_sys->mtrr_fd != -1 && sentry.type != MTRR_TYPE_UNCACHABLE) {
if (ioctl(pci_sys->mtrr_fd, MTRRIOC_ADD_ENTRY, &sentry) < 0) {
/* FIXME: Should we report an error in this case?
*/
fprintf(stderr, "error setting MTRR "
"(base = 0x%08lx, size = 0x%08x, type = %u) %s (%d)\n",
sentry.base, sentry.size, sentry.type,
strerror(errno), errno);
/* err = errno;*/
}
}
#endif
return err;
}
/**
* Unmap a memory region for a device using the Linux sysfs interface.
*
* \param dev Device whose memory region is to be unmapped.
* \param map Parameters of the mapping that is to be destroyed.
*
* \return
* Zero on success or an \c errno value on failure.
*
* \sa pci_device_map_rrange, pci_device_linux_sysfs_map_range
*
* \todo
* Some older 2.6.x kernels don't implement the resourceN files. On those
* systems /dev/mem must be used. On these systems it is also possible that
* \c mmap64 may need to be used.
*/
static int
pci_device_linux_sysfs_unmap_range(struct pci_device *dev,
struct pci_device_mapping *map)
{
int err = 0;
#ifdef HAVE_MTRR
struct mtrr_sentry sentry = {
.base = map->base,
.size = map->size,
.type = MTRR_TYPE_UNCACHABLE
};
#endif
err = pci_device_generic_unmap_range (dev, map);
if (err)
return err;
#ifdef HAVE_MTRR
if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) != 0) {
sentry.type = MTRR_TYPE_WRBACK;
} else if ((map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE) != 0) {
sentry.type = MTRR_TYPE_WRCOMB;
}
if (pci_sys->mtrr_fd != -1 && sentry.type != MTRR_TYPE_UNCACHABLE) {
if (ioctl(pci_sys->mtrr_fd, MTRRIOC_DEL_ENTRY, &sentry) < 0) {
/* FIXME: Should we report an error in this case?
*/
fprintf(stderr, "error setting MTRR "
"(base = 0x%08lx, size = 0x%08x, type = %u) %s (%d)\n",
sentry.base, sentry.size, sentry.type,
strerror(errno), errno);
/* err = errno;*/
}
}
#endif
return err;
}
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