linux_sysfs.c revision 66337f63
14f5e7dd7Smrg/* 24f5e7dd7Smrg * (C) Copyright IBM Corporation 2006 34f5e7dd7Smrg * All Rights Reserved. 4cad31331Smrg * Copyright 2012 Red Hat, Inc. 54f5e7dd7Smrg * 64f5e7dd7Smrg * Permission is hereby granted, free of charge, to any person obtaining a 74f5e7dd7Smrg * copy of this software and associated documentation files (the "Software"), 84f5e7dd7Smrg * to deal in the Software without restriction, including without limitation 94f5e7dd7Smrg * on the rights to use, copy, modify, merge, publish, distribute, sub 104f5e7dd7Smrg * license, and/or sell copies of the Software, and to permit persons to whom 114f5e7dd7Smrg * the Software is furnished to do so, subject to the following conditions: 124f5e7dd7Smrg * 134f5e7dd7Smrg * The above copyright notice and this permission notice (including the next 144f5e7dd7Smrg * paragraph) shall be included in all copies or substantial portions of the 154f5e7dd7Smrg * Software. 164f5e7dd7Smrg * 174f5e7dd7Smrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 184f5e7dd7Smrg * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 194f5e7dd7Smrg * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL 204f5e7dd7Smrg * IBM AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 214f5e7dd7Smrg * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING 224f5e7dd7Smrg * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER 234f5e7dd7Smrg * DEALINGS IN THE SOFTWARE. 244f5e7dd7Smrg */ 254f5e7dd7Smrg 264f5e7dd7Smrg/** 274f5e7dd7Smrg * \file linux_sysfs.c 284f5e7dd7Smrg * Access PCI subsystem using Linux's sysfs interface. This interface is 294f5e7dd7Smrg * available starting somewhere in the late 2.5.x kernel phase, and is the 304f5e7dd7Smrg * preferred method on all 2.6.x kernels. 314f5e7dd7Smrg * 324f5e7dd7Smrg * \author Ian Romanick <idr@us.ibm.com> 334f5e7dd7Smrg */ 344f5e7dd7Smrg 354f5e7dd7Smrg#define _GNU_SOURCE 364f5e7dd7Smrg 376a94483fSmrg#ifdef HAVE_CONFIG_H 386a94483fSmrg#include "config.h" 396a94483fSmrg#endif 406a94483fSmrg 414f5e7dd7Smrg#include <stdlib.h> 424f5e7dd7Smrg#include <string.h> 434f5e7dd7Smrg#include <stdio.h> 444f5e7dd7Smrg#include <unistd.h> 454f5e7dd7Smrg#include <sys/types.h> 464f5e7dd7Smrg#include <sys/stat.h> 474f5e7dd7Smrg#include <fcntl.h> 4849310723Smrg#include <limits.h> 494f5e7dd7Smrg#include <sys/mman.h> 504f5e7dd7Smrg#include <dirent.h> 514f5e7dd7Smrg#include <errno.h> 524f5e7dd7Smrg 53cad31331Smrg#if defined(__i386__) || defined(__x86_64__) || defined(__arm__) 54cad31331Smrg#include <sys/io.h> 55cad31331Smrg#else 56cad31331Smrg#define inb(x) -1 57cad31331Smrg#define inw(x) -1 58cad31331Smrg#define inl(x) -1 59cad31331Smrg#define outb(x,y) do {} while (0) 60cad31331Smrg#define outw(x,y) do {} while (0) 61cad31331Smrg#define outl(x,y) do {} while (0) 62cad31331Smrg#define iopl(x) -1 63cad31331Smrg#endif 64cad31331Smrg 654f5e7dd7Smrg#ifdef HAVE_MTRR 664f5e7dd7Smrg#include <asm/mtrr.h> 674f5e7dd7Smrg#include <sys/ioctl.h> 684f5e7dd7Smrg#endif 694f5e7dd7Smrg 704f5e7dd7Smrg#include "pciaccess.h" 714f5e7dd7Smrg#include "pciaccess_private.h" 724f5e7dd7Smrg#include "linux_devmem.h" 734f5e7dd7Smrg 74e432255dSmrgstatic const struct pci_system_methods linux_sysfs_methods; 754f5e7dd7Smrg 764f5e7dd7Smrg#define SYS_BUS_PCI "/sys/bus/pci/devices" 774f5e7dd7Smrg 78e432255dSmrgstatic int 79e432255dSmrgpci_device_linux_sysfs_read( struct pci_device * dev, void * data, 80e432255dSmrg pciaddr_t offset, pciaddr_t size, 81e432255dSmrg pciaddr_t * bytes_read ); 824f5e7dd7Smrg 834f5e7dd7Smrgstatic int populate_entries(struct pci_system * pci_sys); 844f5e7dd7Smrg 854f5e7dd7Smrg/** 864f5e7dd7Smrg * Attempt to access PCI subsystem using Linux's sysfs interface. 874f5e7dd7Smrg */ 884f5e7dd7Smrg_pci_hidden int 894f5e7dd7Smrgpci_system_linux_sysfs_create( void ) 904f5e7dd7Smrg{ 914f5e7dd7Smrg int err = 0; 924f5e7dd7Smrg struct stat st; 934f5e7dd7Smrg 944f5e7dd7Smrg 954f5e7dd7Smrg /* If the directory "/sys/bus/pci/devices" exists, then the PCI subsystem 964f5e7dd7Smrg * can be accessed using this interface. 974f5e7dd7Smrg */ 98cad31331Smrg 994f5e7dd7Smrg if ( stat( SYS_BUS_PCI, & st ) == 0 ) { 1004f5e7dd7Smrg pci_sys = calloc( 1, sizeof( struct pci_system ) ); 1014f5e7dd7Smrg if ( pci_sys != NULL ) { 1024f5e7dd7Smrg pci_sys->methods = & linux_sysfs_methods; 1034f5e7dd7Smrg#ifdef HAVE_MTRR 104cad31331Smrg pci_sys->mtrr_fd = open("/proc/mtrr", O_WRONLY | O_CLOEXEC); 1054f5e7dd7Smrg#endif 1064f5e7dd7Smrg err = populate_entries(pci_sys); 1074f5e7dd7Smrg } 1084f5e7dd7Smrg else { 1094f5e7dd7Smrg err = ENOMEM; 1104f5e7dd7Smrg } 1114f5e7dd7Smrg } 1124f5e7dd7Smrg else { 1134f5e7dd7Smrg err = errno; 1144f5e7dd7Smrg } 1154f5e7dd7Smrg 1164f5e7dd7Smrg return err; 1174f5e7dd7Smrg} 1184f5e7dd7Smrg 1194f5e7dd7Smrg 1204f5e7dd7Smrg/** 12166337f63Smrg * Filter out the names "." and ".." from the scanned sysfs entries. 1224f5e7dd7Smrg * 1234f5e7dd7Smrg * \param d Directory entry being processed by \c scandir. 1244f5e7dd7Smrg * 1254f5e7dd7Smrg * \return 12666337f63Smrg * Zero if the entry name matches either "." or ".." 1274f5e7dd7Smrg * 1284f5e7dd7Smrg * \sa scandir, populate_entries 1294f5e7dd7Smrg */ 1304f5e7dd7Smrgstatic int 1314f5e7dd7Smrgscan_sys_pci_filter( const struct dirent * d ) 1324f5e7dd7Smrg{ 133cad31331Smrg return !((strcmp( d->d_name, "." ) == 0) 1344f5e7dd7Smrg || (strcmp( d->d_name, ".." ) == 0)); 1354f5e7dd7Smrg} 1364f5e7dd7Smrg 1374f5e7dd7Smrg 13849310723Smrgstatic int 13949310723Smrgparse_separate_sysfs_files(struct pci_device * dev) 14049310723Smrg{ 14149310723Smrg static const char *attrs[] = { 14249310723Smrg "vendor", 14349310723Smrg "device", 14449310723Smrg "class", 14549310723Smrg "revision", 14649310723Smrg "subsystem_vendor", 14749310723Smrg "subsystem_device", 14849310723Smrg }; 14949310723Smrg char name[256]; 15049310723Smrg char resource[512]; 15149310723Smrg uint64_t data[6]; 15249310723Smrg int fd; 15349310723Smrg int i; 15449310723Smrg 15549310723Smrg for (i = 0; i < 6; i++) { 15649310723Smrg snprintf(name, 255, "%s/%04x:%02x:%02x.%1u/%s", 15749310723Smrg SYS_BUS_PCI, 15849310723Smrg dev->domain, 15949310723Smrg dev->bus, 16049310723Smrg dev->dev, 16149310723Smrg dev->func, 16249310723Smrg attrs[i]); 16349310723Smrg 16449310723Smrg fd = open(name, O_RDONLY | O_CLOEXEC); 16549310723Smrg if (fd == -1) { 16649310723Smrg return errno; 16749310723Smrg } 16849310723Smrg 16949310723Smrg read(fd, resource, 512); 17049310723Smrg resource[511] = '\0'; 17149310723Smrg 17249310723Smrg close(fd); 17349310723Smrg 17449310723Smrg data[i] = strtoull(resource, NULL, 16); 17549310723Smrg } 17649310723Smrg 17749310723Smrg dev->vendor_id = data[0] & 0xffff; 17849310723Smrg dev->device_id = data[1] & 0xffff; 17949310723Smrg dev->device_class = data[2] & 0xffffff; 18049310723Smrg dev->revision = data[3] & 0xff; 18149310723Smrg dev->subvendor_id = data[4] & 0xffff; 18249310723Smrg dev->subdevice_id = data[5] & 0xffff; 18349310723Smrg 18449310723Smrg return 0; 18549310723Smrg} 18649310723Smrg 18749310723Smrg 1884f5e7dd7Smrgint 1894f5e7dd7Smrgpopulate_entries( struct pci_system * p ) 1904f5e7dd7Smrg{ 191cad31331Smrg struct dirent ** devices = NULL; 1924f5e7dd7Smrg int n; 1934f5e7dd7Smrg int i; 1944f5e7dd7Smrg int err = 0; 1954f5e7dd7Smrg 1964f5e7dd7Smrg 1974f5e7dd7Smrg n = scandir( SYS_BUS_PCI, & devices, scan_sys_pci_filter, alphasort ); 1984f5e7dd7Smrg if ( n > 0 ) { 1994f5e7dd7Smrg p->num_devices = n; 2004f5e7dd7Smrg p->devices = calloc( n, sizeof( struct pci_device_private ) ); 2014f5e7dd7Smrg 2024f5e7dd7Smrg if (p->devices != NULL) { 2034f5e7dd7Smrg for (i = 0 ; i < n ; i++) { 2044f5e7dd7Smrg uint8_t config[48]; 2054f5e7dd7Smrg pciaddr_t bytes; 2064f5e7dd7Smrg unsigned dom, bus, dev, func; 2074f5e7dd7Smrg struct pci_device_private *device = 2084f5e7dd7Smrg (struct pci_device_private *) &p->devices[i]; 2094f5e7dd7Smrg 2104f5e7dd7Smrg 21166337f63Smrg sscanf(devices[i]->d_name, "%x:%02x:%02x.%1u", 2124f5e7dd7Smrg & dom, & bus, & dev, & func); 2134f5e7dd7Smrg 2144f5e7dd7Smrg device->base.domain = dom; 21566337f63Smrg /* 21666337f63Smrg * Applications compiled with older versions do not expect 21766337f63Smrg * 32-bit domain numbers. To keep them working, we keep a 16-bit 21866337f63Smrg * version of the domain number at the previous location. 21966337f63Smrg */ 22066337f63Smrg if (dom > 0xffff) 22166337f63Smrg device->base.domain_16 = 0xffff; 22266337f63Smrg else 22366337f63Smrg device->base.domain_16 = dom; 2244f5e7dd7Smrg device->base.bus = bus; 2254f5e7dd7Smrg device->base.dev = dev; 2264f5e7dd7Smrg device->base.func = func; 2274f5e7dd7Smrg 2284f5e7dd7Smrg 22949310723Smrg err = parse_separate_sysfs_files(& device->base); 23049310723Smrg if (!err) 23149310723Smrg continue; 23249310723Smrg 2334f5e7dd7Smrg err = pci_device_linux_sysfs_read(& device->base, config, 0, 2344f5e7dd7Smrg 48, & bytes); 2354f5e7dd7Smrg if ((bytes == 48) && !err) { 2364f5e7dd7Smrg device->base.vendor_id = (uint16_t)config[0] 2374f5e7dd7Smrg + ((uint16_t)config[1] << 8); 2384f5e7dd7Smrg device->base.device_id = (uint16_t)config[2] 2394f5e7dd7Smrg + ((uint16_t)config[3] << 8); 2404f5e7dd7Smrg device->base.device_class = (uint32_t)config[9] 2414f5e7dd7Smrg + ((uint32_t)config[10] << 8) 2424f5e7dd7Smrg + ((uint32_t)config[11] << 16); 2434f5e7dd7Smrg device->base.revision = config[8]; 2444f5e7dd7Smrg device->base.subvendor_id = (uint16_t)config[44] 2454f5e7dd7Smrg + ((uint16_t)config[45] << 8); 2464f5e7dd7Smrg device->base.subdevice_id = (uint16_t)config[46] 2474f5e7dd7Smrg + ((uint16_t)config[47] << 8); 2484f5e7dd7Smrg } 2494f5e7dd7Smrg 2504f5e7dd7Smrg if (err) { 2514f5e7dd7Smrg break; 2524f5e7dd7Smrg } 2534f5e7dd7Smrg } 2544f5e7dd7Smrg } 2554f5e7dd7Smrg else { 2564f5e7dd7Smrg err = ENOMEM; 2574f5e7dd7Smrg } 2584f5e7dd7Smrg } 2594f5e7dd7Smrg 26049f872b5Smrg for (i = 0; i < n; i++) 26149f872b5Smrg free(devices[i]); 26249f872b5Smrg free(devices); 26349f872b5Smrg 2644f5e7dd7Smrg if (err) { 2654f5e7dd7Smrg free(p->devices); 2664f5e7dd7Smrg p->devices = NULL; 2674f5e7dd7Smrg } 2684f5e7dd7Smrg 2694f5e7dd7Smrg return err; 2704f5e7dd7Smrg} 2714f5e7dd7Smrg 2724f5e7dd7Smrg 2734f5e7dd7Smrgstatic int 2744f5e7dd7Smrgpci_device_linux_sysfs_probe( struct pci_device * dev ) 2754f5e7dd7Smrg{ 2764f5e7dd7Smrg char name[256]; 2774f5e7dd7Smrg uint8_t config[256]; 2784f5e7dd7Smrg char resource[512]; 2794f5e7dd7Smrg int fd; 2804f5e7dd7Smrg pciaddr_t bytes; 2814f5e7dd7Smrg unsigned i; 2824f5e7dd7Smrg int err; 2834f5e7dd7Smrg 2844f5e7dd7Smrg 2854f5e7dd7Smrg err = pci_device_linux_sysfs_read( dev, config, 0, 256, & bytes ); 2864f5e7dd7Smrg if ( bytes >= 64 ) { 2874f5e7dd7Smrg struct pci_device_private *priv = (struct pci_device_private *) dev; 2884f5e7dd7Smrg 2894f5e7dd7Smrg dev->irq = config[60]; 2904f5e7dd7Smrg priv->header_type = config[14]; 2914f5e7dd7Smrg 2924f5e7dd7Smrg 2934f5e7dd7Smrg /* The PCI config registers can be used to obtain information 2944f5e7dd7Smrg * about the memory and I/O regions for the device. However, 2954f5e7dd7Smrg * doing so requires some tricky parsing (to correctly handle 2964f5e7dd7Smrg * 64-bit memory regions) and requires writing to the config 2974f5e7dd7Smrg * registers. Since we'd like to avoid having to deal with the 2984f5e7dd7Smrg * parsing issues and non-root users can write to PCI config 2994f5e7dd7Smrg * registers, we use a different file in the device's sysfs 3004f5e7dd7Smrg * directory called "resource". 301cad31331Smrg * 3024f5e7dd7Smrg * The resource file contains all of the needed information in 3034f5e7dd7Smrg * a format that is consistent across all platforms. Each BAR 3044f5e7dd7Smrg * and the expansion ROM have a single line of data containing 3054f5e7dd7Smrg * 3, 64-bit hex values: the first address in the region, 3064f5e7dd7Smrg * the last address in the region, and the region's flags. 3074f5e7dd7Smrg */ 3084f5e7dd7Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/resource", 3094f5e7dd7Smrg SYS_BUS_PCI, 3104f5e7dd7Smrg dev->domain, 3114f5e7dd7Smrg dev->bus, 3124f5e7dd7Smrg dev->dev, 3134f5e7dd7Smrg dev->func ); 314cad31331Smrg fd = open( name, O_RDONLY | O_CLOEXEC); 3154f5e7dd7Smrg if ( fd != -1 ) { 3164f5e7dd7Smrg char * next; 3174f5e7dd7Smrg pciaddr_t low_addr; 3184f5e7dd7Smrg pciaddr_t high_addr; 3194f5e7dd7Smrg pciaddr_t flags; 3204f5e7dd7Smrg 3214f5e7dd7Smrg 3224f5e7dd7Smrg bytes = read( fd, resource, 512 ); 3234f5e7dd7Smrg resource[511] = '\0'; 3244f5e7dd7Smrg 3254f5e7dd7Smrg close( fd ); 3264f5e7dd7Smrg 3274f5e7dd7Smrg next = resource; 3284f5e7dd7Smrg for ( i = 0 ; i < 6 ; i++ ) { 3294f5e7dd7Smrg 3304f5e7dd7Smrg dev->regions[i].base_addr = strtoull( next, & next, 16 ); 3314f5e7dd7Smrg high_addr = strtoull( next, & next, 16 ); 3324f5e7dd7Smrg flags = strtoull( next, & next, 16 ); 333cad31331Smrg 3344f5e7dd7Smrg if ( dev->regions[i].base_addr != 0 ) { 335cad31331Smrg dev->regions[i].size = (high_addr 3364f5e7dd7Smrg - dev->regions[i].base_addr) + 1; 3374f5e7dd7Smrg 3384f5e7dd7Smrg dev->regions[i].is_IO = (flags & 0x01); 3394f5e7dd7Smrg dev->regions[i].is_64 = (flags & 0x04); 3404f5e7dd7Smrg dev->regions[i].is_prefetchable = (flags & 0x08); 3414f5e7dd7Smrg } 3424f5e7dd7Smrg } 3434f5e7dd7Smrg 3444f5e7dd7Smrg low_addr = strtoull( next, & next, 16 ); 3454f5e7dd7Smrg high_addr = strtoull( next, & next, 16 ); 3464f5e7dd7Smrg flags = strtoull( next, & next, 16 ); 3474f5e7dd7Smrg if ( low_addr != 0 ) { 3484f5e7dd7Smrg priv->rom_base = low_addr; 3494f5e7dd7Smrg dev->rom_size = (high_addr - low_addr) + 1; 3504f5e7dd7Smrg } 3514f5e7dd7Smrg } 3524f5e7dd7Smrg } 3534f5e7dd7Smrg 3544f5e7dd7Smrg return err; 3554f5e7dd7Smrg} 3564f5e7dd7Smrg 3574f5e7dd7Smrg 3584f5e7dd7Smrgstatic int 3594f5e7dd7Smrgpci_device_linux_sysfs_read_rom( struct pci_device * dev, void * buffer ) 3604f5e7dd7Smrg{ 3614f5e7dd7Smrg char name[256]; 3624f5e7dd7Smrg int fd; 3634f5e7dd7Smrg struct stat st; 3644f5e7dd7Smrg int err = 0; 3654f5e7dd7Smrg size_t rom_size; 3664f5e7dd7Smrg size_t total_bytes; 3674f5e7dd7Smrg 3684f5e7dd7Smrg 3694f5e7dd7Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/rom", 3704f5e7dd7Smrg SYS_BUS_PCI, 3714f5e7dd7Smrg dev->domain, 3724f5e7dd7Smrg dev->bus, 3734f5e7dd7Smrg dev->dev, 3744f5e7dd7Smrg dev->func ); 375cad31331Smrg 376cad31331Smrg fd = open( name, O_RDWR | O_CLOEXEC); 3774f5e7dd7Smrg if ( fd == -1 ) { 37849f872b5Smrg#ifdef LINUX_ROM 3794f5e7dd7Smrg /* If reading the ROM using sysfs fails, fall back to the old 3804f5e7dd7Smrg * /dev/mem based interface. 38149f872b5Smrg * disable this for newer kernels using configure 3824f5e7dd7Smrg */ 3834f5e7dd7Smrg return pci_device_linux_devmem_read_rom(dev, buffer); 38449f872b5Smrg#else 38549f872b5Smrg return errno; 38649f872b5Smrg#endif 3874f5e7dd7Smrg } 3884f5e7dd7Smrg 3894f5e7dd7Smrg 3904f5e7dd7Smrg if ( fstat( fd, & st ) == -1 ) { 3914f5e7dd7Smrg close( fd ); 3924f5e7dd7Smrg return errno; 3934f5e7dd7Smrg } 3944f5e7dd7Smrg 3954f5e7dd7Smrg rom_size = st.st_size; 3964f5e7dd7Smrg if ( rom_size == 0 ) 3974f5e7dd7Smrg rom_size = 0x10000; 3984f5e7dd7Smrg 3994f5e7dd7Smrg /* This is a quirky thing on Linux. Even though the ROM and the file 4004f5e7dd7Smrg * for the ROM in sysfs are read-only, the string "1" must be written to 4014f5e7dd7Smrg * the file to enable the ROM. After the data has been read, "0" must be 4024f5e7dd7Smrg * written to the file to disable the ROM. 4034f5e7dd7Smrg */ 4044f5e7dd7Smrg write( fd, "1", 1 ); 4054f5e7dd7Smrg lseek( fd, 0, SEEK_SET ); 4064f5e7dd7Smrg 4074f5e7dd7Smrg for ( total_bytes = 0 ; total_bytes < rom_size ; /* empty */ ) { 4084f5e7dd7Smrg const int bytes = read( fd, (char *) buffer + total_bytes, 4094f5e7dd7Smrg rom_size - total_bytes ); 4104f5e7dd7Smrg if ( bytes == -1 ) { 4114f5e7dd7Smrg err = errno; 4124f5e7dd7Smrg break; 4134f5e7dd7Smrg } 4144f5e7dd7Smrg else if ( bytes == 0 ) { 4154f5e7dd7Smrg break; 4164f5e7dd7Smrg } 4174f5e7dd7Smrg 4184f5e7dd7Smrg total_bytes += bytes; 4194f5e7dd7Smrg } 420cad31331Smrg 4214f5e7dd7Smrg 4224f5e7dd7Smrg lseek( fd, 0, SEEK_SET ); 4234f5e7dd7Smrg write( fd, "0", 1 ); 4244f5e7dd7Smrg 4254f5e7dd7Smrg close( fd ); 4264f5e7dd7Smrg return err; 4274f5e7dd7Smrg} 4284f5e7dd7Smrg 4294f5e7dd7Smrg 4304f5e7dd7Smrgstatic int 4314f5e7dd7Smrgpci_device_linux_sysfs_read( struct pci_device * dev, void * data, 4324f5e7dd7Smrg pciaddr_t offset, pciaddr_t size, 4334f5e7dd7Smrg pciaddr_t * bytes_read ) 4344f5e7dd7Smrg{ 4354f5e7dd7Smrg char name[256]; 4364f5e7dd7Smrg pciaddr_t temp_size = size; 4374f5e7dd7Smrg int err = 0; 4384f5e7dd7Smrg int fd; 4394f5e7dd7Smrg char *data_bytes = data; 4404f5e7dd7Smrg 4414f5e7dd7Smrg if ( bytes_read != NULL ) { 4424f5e7dd7Smrg *bytes_read = 0; 4434f5e7dd7Smrg } 4444f5e7dd7Smrg 4454f5e7dd7Smrg /* Each device has a directory under sysfs. Within that directory there 4464f5e7dd7Smrg * is a file named "config". This file used to access the PCI config 4474f5e7dd7Smrg * space. It is used here to obtain most of the information about the 4484f5e7dd7Smrg * device. 4494f5e7dd7Smrg */ 4504f5e7dd7Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/config", 4514f5e7dd7Smrg SYS_BUS_PCI, 4524f5e7dd7Smrg dev->domain, 4534f5e7dd7Smrg dev->bus, 4544f5e7dd7Smrg dev->dev, 4554f5e7dd7Smrg dev->func ); 4564f5e7dd7Smrg 457cad31331Smrg fd = open( name, O_RDONLY | O_CLOEXEC); 4584f5e7dd7Smrg if ( fd == -1 ) { 4594f5e7dd7Smrg return errno; 4604f5e7dd7Smrg } 4614f5e7dd7Smrg 4624f5e7dd7Smrg 4634f5e7dd7Smrg while ( temp_size > 0 ) { 4644f5e7dd7Smrg const ssize_t bytes = pread64( fd, data_bytes, temp_size, offset ); 4654f5e7dd7Smrg 4664f5e7dd7Smrg /* If zero bytes were read, then we assume it's the end of the 4674f5e7dd7Smrg * config file. 4684f5e7dd7Smrg */ 469cad31331Smrg if (bytes == 0) 470cad31331Smrg break; 471cad31331Smrg if ( bytes < 0 ) { 4724f5e7dd7Smrg err = errno; 4734f5e7dd7Smrg break; 4744f5e7dd7Smrg } 4754f5e7dd7Smrg 4764f5e7dd7Smrg temp_size -= bytes; 4774f5e7dd7Smrg offset += bytes; 4784f5e7dd7Smrg data_bytes += bytes; 4794f5e7dd7Smrg } 480cad31331Smrg 4814f5e7dd7Smrg if ( bytes_read != NULL ) { 4824f5e7dd7Smrg *bytes_read = size - temp_size; 4834f5e7dd7Smrg } 4844f5e7dd7Smrg 4854f5e7dd7Smrg close( fd ); 4864f5e7dd7Smrg return err; 4874f5e7dd7Smrg} 4884f5e7dd7Smrg 4894f5e7dd7Smrg 4904f5e7dd7Smrgstatic int 4914f5e7dd7Smrgpci_device_linux_sysfs_write( struct pci_device * dev, const void * data, 4924f5e7dd7Smrg pciaddr_t offset, pciaddr_t size, 4934f5e7dd7Smrg pciaddr_t * bytes_written ) 4944f5e7dd7Smrg{ 4954f5e7dd7Smrg char name[256]; 4964f5e7dd7Smrg pciaddr_t temp_size = size; 4974f5e7dd7Smrg int err = 0; 4984f5e7dd7Smrg int fd; 4994f5e7dd7Smrg const char *data_bytes = data; 5004f5e7dd7Smrg 5014f5e7dd7Smrg if ( bytes_written != NULL ) { 5024f5e7dd7Smrg *bytes_written = 0; 5034f5e7dd7Smrg } 5044f5e7dd7Smrg 5054f5e7dd7Smrg /* Each device has a directory under sysfs. Within that directory there 5064f5e7dd7Smrg * is a file named "config". This file used to access the PCI config 5074f5e7dd7Smrg * space. It is used here to obtain most of the information about the 5084f5e7dd7Smrg * device. 5094f5e7dd7Smrg */ 5104f5e7dd7Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/config", 5114f5e7dd7Smrg SYS_BUS_PCI, 5124f5e7dd7Smrg dev->domain, 5134f5e7dd7Smrg dev->bus, 5144f5e7dd7Smrg dev->dev, 5154f5e7dd7Smrg dev->func ); 5164f5e7dd7Smrg 517cad31331Smrg fd = open( name, O_WRONLY | O_CLOEXEC); 5184f5e7dd7Smrg if ( fd == -1 ) { 5194f5e7dd7Smrg return errno; 5204f5e7dd7Smrg } 5214f5e7dd7Smrg 5224f5e7dd7Smrg 5234f5e7dd7Smrg while ( temp_size > 0 ) { 5244f5e7dd7Smrg const ssize_t bytes = pwrite64( fd, data_bytes, temp_size, offset ); 5254f5e7dd7Smrg 5264f5e7dd7Smrg /* If zero bytes were written, then we assume it's the end of the 5274f5e7dd7Smrg * config file. 5284f5e7dd7Smrg */ 529cad31331Smrg if ( bytes == 0 ) 530cad31331Smrg break; 531cad31331Smrg if ( bytes < 0 ) { 5324f5e7dd7Smrg err = errno; 5334f5e7dd7Smrg break; 5344f5e7dd7Smrg } 5354f5e7dd7Smrg 5364f5e7dd7Smrg temp_size -= bytes; 5374f5e7dd7Smrg offset += bytes; 5384f5e7dd7Smrg data_bytes += bytes; 5394f5e7dd7Smrg } 540cad31331Smrg 5414f5e7dd7Smrg if ( bytes_written != NULL ) { 5424f5e7dd7Smrg *bytes_written = size - temp_size; 5434f5e7dd7Smrg } 5444f5e7dd7Smrg 5454f5e7dd7Smrg close( fd ); 5464f5e7dd7Smrg return err; 5474f5e7dd7Smrg} 5484f5e7dd7Smrg 5494f5e7dd7Smrgstatic int 5504f5e7dd7Smrgpci_device_linux_sysfs_map_range_wc(struct pci_device *dev, 5514f5e7dd7Smrg struct pci_device_mapping *map) 5524f5e7dd7Smrg{ 5534f5e7dd7Smrg char name[256]; 5544f5e7dd7Smrg int fd; 555cad31331Smrg const int prot = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0) 5564f5e7dd7Smrg ? (PROT_READ | PROT_WRITE) : PROT_READ; 557cad31331Smrg const int open_flags = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0) 5584f5e7dd7Smrg ? O_RDWR : O_RDONLY; 5594f5e7dd7Smrg const off_t offset = map->base - dev->regions[map->region].base_addr; 5604f5e7dd7Smrg 5614f5e7dd7Smrg snprintf(name, 255, "%s/%04x:%02x:%02x.%1u/resource%u_wc", 5624f5e7dd7Smrg SYS_BUS_PCI, 5634f5e7dd7Smrg dev->domain, 5644f5e7dd7Smrg dev->bus, 5654f5e7dd7Smrg dev->dev, 5664f5e7dd7Smrg dev->func, 5674f5e7dd7Smrg map->region); 568cad31331Smrg fd = open(name, open_flags | O_CLOEXEC); 5694f5e7dd7Smrg if (fd == -1) 5704f5e7dd7Smrg return errno; 5714f5e7dd7Smrg 5724f5e7dd7Smrg map->memory = mmap(NULL, map->size, prot, MAP_SHARED, fd, offset); 5734f5e7dd7Smrg if (map->memory == MAP_FAILED) { 5744f5e7dd7Smrg map->memory = NULL; 5754f5e7dd7Smrg close(fd); 5764f5e7dd7Smrg return errno; 5774f5e7dd7Smrg } 5784f5e7dd7Smrg 5794f5e7dd7Smrg close(fd); 5804f5e7dd7Smrg 5814f5e7dd7Smrg return 0; 5824f5e7dd7Smrg} 5834f5e7dd7Smrg 5844f5e7dd7Smrg/** 5854f5e7dd7Smrg * Map a memory region for a device using the Linux sysfs interface. 586cad31331Smrg * 5874f5e7dd7Smrg * \param dev Device whose memory region is to be mapped. 5884f5e7dd7Smrg * \param map Parameters of the mapping that is to be created. 589cad31331Smrg * 5904f5e7dd7Smrg * \return 5914f5e7dd7Smrg * Zero on success or an \c errno value on failure. 5924f5e7dd7Smrg * 5934f5e7dd7Smrg * \sa pci_device_map_rrange, pci_device_linux_sysfs_unmap_range 5944f5e7dd7Smrg * 5954f5e7dd7Smrg * \todo 5964f5e7dd7Smrg * Some older 2.6.x kernels don't implement the resourceN files. On those 5974f5e7dd7Smrg * systems /dev/mem must be used. On these systems it is also possible that 5984f5e7dd7Smrg * \c mmap64 may need to be used. 5994f5e7dd7Smrg */ 6004f5e7dd7Smrgstatic int 6014f5e7dd7Smrgpci_device_linux_sysfs_map_range(struct pci_device *dev, 6024f5e7dd7Smrg struct pci_device_mapping *map) 6034f5e7dd7Smrg{ 6044f5e7dd7Smrg char name[256]; 6054f5e7dd7Smrg int fd; 6064f5e7dd7Smrg int err = 0; 607cad31331Smrg const int prot = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0) 6084f5e7dd7Smrg ? (PROT_READ | PROT_WRITE) : PROT_READ; 609cad31331Smrg const int open_flags = ((map->flags & PCI_DEV_MAP_FLAG_WRITABLE) != 0) 6104f5e7dd7Smrg ? O_RDWR : O_RDONLY; 6114f5e7dd7Smrg const off_t offset = map->base - dev->regions[map->region].base_addr; 6124f5e7dd7Smrg#ifdef HAVE_MTRR 6134f5e7dd7Smrg struct mtrr_sentry sentry = { 6144f5e7dd7Smrg .base = map->base, 6154f5e7dd7Smrg .size = map->size, 6164f5e7dd7Smrg .type = MTRR_TYPE_UNCACHABLE 6174f5e7dd7Smrg }; 6184f5e7dd7Smrg#endif 6194f5e7dd7Smrg 6204f5e7dd7Smrg /* For WC mappings, try sysfs resourceN_wc file first */ 6214f5e7dd7Smrg if ((map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE) && 6224f5e7dd7Smrg !pci_device_linux_sysfs_map_range_wc(dev, map)) 6234f5e7dd7Smrg return 0; 6244f5e7dd7Smrg 6254f5e7dd7Smrg snprintf(name, 255, "%s/%04x:%02x:%02x.%1u/resource%u", 6264f5e7dd7Smrg SYS_BUS_PCI, 6274f5e7dd7Smrg dev->domain, 6284f5e7dd7Smrg dev->bus, 6294f5e7dd7Smrg dev->dev, 6304f5e7dd7Smrg dev->func, 6314f5e7dd7Smrg map->region); 6324f5e7dd7Smrg 633cad31331Smrg fd = open(name, open_flags | O_CLOEXEC); 6344f5e7dd7Smrg if (fd == -1) { 6354f5e7dd7Smrg return errno; 6364f5e7dd7Smrg } 6374f5e7dd7Smrg 6384f5e7dd7Smrg 6394f5e7dd7Smrg map->memory = mmap(NULL, map->size, prot, MAP_SHARED, fd, offset); 6404f5e7dd7Smrg if (map->memory == MAP_FAILED) { 6414f5e7dd7Smrg map->memory = NULL; 6424f5e7dd7Smrg close(fd); 6434f5e7dd7Smrg return errno; 6444f5e7dd7Smrg } 6454f5e7dd7Smrg 6464f5e7dd7Smrg#ifdef HAVE_MTRR 6474f5e7dd7Smrg if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) != 0) { 6484f5e7dd7Smrg sentry.type = MTRR_TYPE_WRBACK; 6494f5e7dd7Smrg } else if ((map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE) != 0) { 6504f5e7dd7Smrg sentry.type = MTRR_TYPE_WRCOMB; 6514f5e7dd7Smrg } 6524f5e7dd7Smrg 6534f5e7dd7Smrg if (pci_sys->mtrr_fd != -1 && sentry.type != MTRR_TYPE_UNCACHABLE) { 6544f5e7dd7Smrg if (ioctl(pci_sys->mtrr_fd, MTRRIOC_ADD_ENTRY, &sentry) < 0) { 6554f5e7dd7Smrg /* FIXME: Should we report an error in this case? 6564f5e7dd7Smrg */ 6574f5e7dd7Smrg fprintf(stderr, "error setting MTRR " 65849310723Smrg "(base = 0x%016" PRIx64 ", size = 0x%08x, type = %u) %s (%d)\n", 65949310723Smrg (pciaddr_t)sentry.base, sentry.size, sentry.type, 6604f5e7dd7Smrg strerror(errno), errno); 6614f5e7dd7Smrg/* err = errno;*/ 6624f5e7dd7Smrg } 6634f5e7dd7Smrg /* KLUDGE ALERT -- rewrite the PTEs to turn off the CD and WT bits */ 6644f5e7dd7Smrg mprotect (map->memory, map->size, PROT_NONE); 6654f5e7dd7Smrg err = mprotect (map->memory, map->size, PROT_READ|PROT_WRITE); 6664f5e7dd7Smrg 6674f5e7dd7Smrg if (err != 0) { 6684f5e7dd7Smrg fprintf(stderr, "mprotect(PROT_READ | PROT_WRITE) failed: %s\n", 6694f5e7dd7Smrg strerror(errno)); 6704f5e7dd7Smrg fprintf(stderr, "remapping without mprotect performance kludge.\n"); 6714f5e7dd7Smrg 6724f5e7dd7Smrg munmap(map->memory, map->size); 6734f5e7dd7Smrg map->memory = mmap(NULL, map->size, prot, MAP_SHARED, fd, offset); 6744f5e7dd7Smrg if (map->memory == MAP_FAILED) { 6754f5e7dd7Smrg map->memory = NULL; 6764f5e7dd7Smrg close(fd); 6774f5e7dd7Smrg return errno; 6784f5e7dd7Smrg } 6794f5e7dd7Smrg } 6804f5e7dd7Smrg } 6814f5e7dd7Smrg#endif 6824f5e7dd7Smrg 6834f5e7dd7Smrg close(fd); 6844f5e7dd7Smrg 6854f5e7dd7Smrg return 0; 6864f5e7dd7Smrg} 6874f5e7dd7Smrg 6884f5e7dd7Smrg/** 6894f5e7dd7Smrg * Unmap a memory region for a device using the Linux sysfs interface. 690cad31331Smrg * 6914f5e7dd7Smrg * \param dev Device whose memory region is to be unmapped. 6924f5e7dd7Smrg * \param map Parameters of the mapping that is to be destroyed. 693cad31331Smrg * 6944f5e7dd7Smrg * \return 6954f5e7dd7Smrg * Zero on success or an \c errno value on failure. 6964f5e7dd7Smrg * 6974f5e7dd7Smrg * \sa pci_device_map_rrange, pci_device_linux_sysfs_map_range 6984f5e7dd7Smrg * 6994f5e7dd7Smrg * \todo 7004f5e7dd7Smrg * Some older 2.6.x kernels don't implement the resourceN files. On those 7014f5e7dd7Smrg * systems /dev/mem must be used. On these systems it is also possible that 7024f5e7dd7Smrg * \c mmap64 may need to be used. 7034f5e7dd7Smrg */ 7044f5e7dd7Smrgstatic int 7054f5e7dd7Smrgpci_device_linux_sysfs_unmap_range(struct pci_device *dev, 7064f5e7dd7Smrg struct pci_device_mapping *map) 7074f5e7dd7Smrg{ 7084f5e7dd7Smrg int err = 0; 7094f5e7dd7Smrg#ifdef HAVE_MTRR 7104f5e7dd7Smrg struct mtrr_sentry sentry = { 7114f5e7dd7Smrg .base = map->base, 7124f5e7dd7Smrg .size = map->size, 7134f5e7dd7Smrg .type = MTRR_TYPE_UNCACHABLE 7144f5e7dd7Smrg }; 7154f5e7dd7Smrg#endif 7164f5e7dd7Smrg 7174f5e7dd7Smrg err = pci_device_generic_unmap_range (dev, map); 7184f5e7dd7Smrg if (err) 7194f5e7dd7Smrg return err; 720cad31331Smrg 7214f5e7dd7Smrg#ifdef HAVE_MTRR 7224f5e7dd7Smrg if ((map->flags & PCI_DEV_MAP_FLAG_CACHABLE) != 0) { 7234f5e7dd7Smrg sentry.type = MTRR_TYPE_WRBACK; 7244f5e7dd7Smrg } else if ((map->flags & PCI_DEV_MAP_FLAG_WRITE_COMBINE) != 0) { 7254f5e7dd7Smrg sentry.type = MTRR_TYPE_WRCOMB; 7264f5e7dd7Smrg } 7274f5e7dd7Smrg 7284f5e7dd7Smrg if (pci_sys->mtrr_fd != -1 && sentry.type != MTRR_TYPE_UNCACHABLE) { 7294f5e7dd7Smrg if (ioctl(pci_sys->mtrr_fd, MTRRIOC_DEL_ENTRY, &sentry) < 0) { 7304f5e7dd7Smrg /* FIXME: Should we report an error in this case? 7314f5e7dd7Smrg */ 7324f5e7dd7Smrg fprintf(stderr, "error setting MTRR " 73349310723Smrg "(base = 0x%016" PRIx64 ", size = 0x%08x, type = %u) %s (%d)\n", 73449310723Smrg (pciaddr_t)sentry.base, sentry.size, sentry.type, 7354f5e7dd7Smrg strerror(errno), errno); 7364f5e7dd7Smrg/* err = errno;*/ 7374f5e7dd7Smrg } 7384f5e7dd7Smrg } 7394f5e7dd7Smrg#endif 7404f5e7dd7Smrg 7414f5e7dd7Smrg return err; 7424f5e7dd7Smrg} 7434f5e7dd7Smrg 7444f5e7dd7Smrgstatic void pci_device_linux_sysfs_enable(struct pci_device *dev) 7454f5e7dd7Smrg{ 7464f5e7dd7Smrg char name[256]; 7474f5e7dd7Smrg int fd; 7484f5e7dd7Smrg 7494f5e7dd7Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/enable", 7504f5e7dd7Smrg SYS_BUS_PCI, 7514f5e7dd7Smrg dev->domain, 7524f5e7dd7Smrg dev->bus, 7534f5e7dd7Smrg dev->dev, 7544f5e7dd7Smrg dev->func ); 755cad31331Smrg 756cad31331Smrg fd = open( name, O_RDWR | O_CLOEXEC); 7574f5e7dd7Smrg if (fd == -1) 7584f5e7dd7Smrg return; 7594f5e7dd7Smrg 7604f5e7dd7Smrg write( fd, "1", 1 ); 7614f5e7dd7Smrg close(fd); 7624f5e7dd7Smrg} 76349f872b5Smrg 76449f872b5Smrgstatic int pci_device_linux_sysfs_boot_vga(struct pci_device *dev) 76549f872b5Smrg{ 76649f872b5Smrg char name[256]; 76749f872b5Smrg char reply[3]; 76849f872b5Smrg int fd, bytes_read; 76949f872b5Smrg int ret = 0; 77049f872b5Smrg 77149f872b5Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/boot_vga", 77249f872b5Smrg SYS_BUS_PCI, 77349f872b5Smrg dev->domain, 77449f872b5Smrg dev->bus, 77549f872b5Smrg dev->dev, 77649f872b5Smrg dev->func ); 777cad31331Smrg 778cad31331Smrg fd = open( name, O_RDONLY | O_CLOEXEC); 77949f872b5Smrg if (fd == -1) 78049f872b5Smrg return 0; 78149f872b5Smrg 78249f872b5Smrg bytes_read = read(fd, reply, 1); 78349f872b5Smrg if (bytes_read != 1) 78449f872b5Smrg goto out; 78549f872b5Smrg if (reply[0] == '1') 78649f872b5Smrg ret = 1; 78749f872b5Smrgout: 78849f872b5Smrg close(fd); 78949f872b5Smrg return ret; 79049f872b5Smrg} 79149f872b5Smrg 79249f872b5Smrgstatic int pci_device_linux_sysfs_has_kernel_driver(struct pci_device *dev) 79349f872b5Smrg{ 79449f872b5Smrg char name[256]; 79549f872b5Smrg struct stat dummy; 79649f872b5Smrg int ret; 79749f872b5Smrg 79849f872b5Smrg snprintf( name, 255, "%s/%04x:%02x:%02x.%1u/driver", 79949f872b5Smrg SYS_BUS_PCI, 80049f872b5Smrg dev->domain, 80149f872b5Smrg dev->bus, 80249f872b5Smrg dev->dev, 80349f872b5Smrg dev->func ); 804cad31331Smrg 80549f872b5Smrg ret = stat(name, &dummy); 80649f872b5Smrg if (ret < 0) 80749f872b5Smrg return 0; 80849f872b5Smrg return 1; 80949f872b5Smrg} 810e432255dSmrg 811e432255dSmrgstatic struct pci_io_handle * 812e432255dSmrgpci_device_linux_sysfs_open_device_io(struct pci_io_handle *ret, 813e432255dSmrg struct pci_device *dev, int bar, 814e432255dSmrg pciaddr_t base, pciaddr_t size) 815e432255dSmrg{ 816e432255dSmrg char name[PATH_MAX]; 817e432255dSmrg 818e432255dSmrg snprintf(name, PATH_MAX, "%s/%04x:%02x:%02x.%1u/resource%d", 819e432255dSmrg SYS_BUS_PCI, dev->domain, dev->bus, dev->dev, dev->func, bar); 820e432255dSmrg 821cad31331Smrg ret->fd = open(name, O_RDWR | O_CLOEXEC); 822e432255dSmrg 823e432255dSmrg if (ret->fd < 0) 824e432255dSmrg return NULL; 825e432255dSmrg 826e432255dSmrg ret->base = base; 827e432255dSmrg ret->size = size; 8286a94483fSmrg ret->is_legacy = 0; 829e432255dSmrg 830e432255dSmrg return ret; 831e432255dSmrg} 832e432255dSmrg 833e432255dSmrgstatic struct pci_io_handle * 834e432255dSmrgpci_device_linux_sysfs_open_legacy_io(struct pci_io_handle *ret, 835e432255dSmrg struct pci_device *dev, pciaddr_t base, 836e432255dSmrg pciaddr_t size) 837e432255dSmrg{ 838e432255dSmrg char name[PATH_MAX]; 839e432255dSmrg 840e432255dSmrg /* First check if there's a legacy io method for the device */ 841e432255dSmrg while (dev) { 842e432255dSmrg snprintf(name, PATH_MAX, "/sys/class/pci_bus/%04x:%02x/legacy_io", 843e432255dSmrg dev->domain, dev->bus); 844e432255dSmrg 845cad31331Smrg ret->fd = open(name, O_RDWR | O_CLOEXEC); 846e432255dSmrg if (ret->fd >= 0) 847e432255dSmrg break; 848e432255dSmrg 849e432255dSmrg dev = pci_device_get_parent_bridge(dev); 850e432255dSmrg } 851e432255dSmrg 852cad31331Smrg /* 853cad31331Smrg * You would think you'd want to use /dev/port here. Don't make that 854cad31331Smrg * mistake, /dev/port only does byte-wide i/o cycles which means it 855cad31331Smrg * doesn't work. If you think this is stupid, well, you're right. 856cad31331Smrg */ 857e432255dSmrg 858cad31331Smrg /* If we've no other choice, iopl */ 859cad31331Smrg if (ret->fd < 0) { 860cad31331Smrg if (iopl(3)) 861cad31331Smrg return NULL; 862cad31331Smrg } 863e432255dSmrg 864e432255dSmrg ret->base = base; 865e432255dSmrg ret->size = size; 8666a94483fSmrg ret->is_legacy = 1; 867e432255dSmrg 868e432255dSmrg return ret; 869e432255dSmrg} 870e432255dSmrg 871e432255dSmrgstatic void 872e432255dSmrgpci_device_linux_sysfs_close_io(struct pci_device *dev, 873e432255dSmrg struct pci_io_handle *handle) 874e432255dSmrg{ 875cad31331Smrg if (handle->fd > -1) 876cad31331Smrg close(handle->fd); 877e432255dSmrg} 878e432255dSmrg 879e432255dSmrgstatic uint32_t 880e432255dSmrgpci_device_linux_sysfs_read32(struct pci_io_handle *handle, uint32_t port) 881e432255dSmrg{ 882e432255dSmrg uint32_t ret; 883e432255dSmrg 8846a94483fSmrg if (handle->fd > -1) { 8856a94483fSmrg if (handle->is_legacy) 8866a94483fSmrg pread(handle->fd, &ret, 4, port + handle->base); 8876a94483fSmrg else 8886a94483fSmrg pread(handle->fd, &ret, 4, port); 8896a94483fSmrg } else { 890cad31331Smrg ret = inl(port + handle->base); 8916a94483fSmrg } 892cad31331Smrg 893e432255dSmrg return ret; 894e432255dSmrg} 895e432255dSmrg 896e432255dSmrgstatic uint16_t 897e432255dSmrgpci_device_linux_sysfs_read16(struct pci_io_handle *handle, uint32_t port) 898e432255dSmrg{ 899e432255dSmrg uint16_t ret; 900e432255dSmrg 9016a94483fSmrg if (handle->fd > -1) { 9026a94483fSmrg if (handle->is_legacy) 9036a94483fSmrg pread(handle->fd, &ret, 2, port + handle->base); 9046a94483fSmrg else 9056a94483fSmrg pread(handle->fd, &ret, 2, port); 9066a94483fSmrg } else { 907cad31331Smrg ret = inw(port + handle->base); 9086a94483fSmrg } 909e432255dSmrg 910e432255dSmrg return ret; 911e432255dSmrg} 912e432255dSmrg 913e432255dSmrgstatic uint8_t 914e432255dSmrgpci_device_linux_sysfs_read8(struct pci_io_handle *handle, uint32_t port) 915e432255dSmrg{ 916e432255dSmrg uint8_t ret; 917e432255dSmrg 9186a94483fSmrg if (handle->fd > -1) { 9196a94483fSmrg if (handle->is_legacy) 9206a94483fSmrg pread(handle->fd, &ret, 1, port + handle->base); 9216a94483fSmrg else 9226a94483fSmrg pread(handle->fd, &ret, 1, port); 9236a94483fSmrg } else { 924cad31331Smrg ret = inb(port + handle->base); 9256a94483fSmrg } 926e432255dSmrg 927e432255dSmrg return ret; 928e432255dSmrg} 929e432255dSmrg 930e432255dSmrgstatic void 931e432255dSmrgpci_device_linux_sysfs_write32(struct pci_io_handle *handle, uint32_t port, 932e432255dSmrg uint32_t data) 933e432255dSmrg{ 9346a94483fSmrg if (handle->fd > -1) { 9356a94483fSmrg if (handle->is_legacy) 9366a94483fSmrg pwrite(handle->fd, &data, 4, port + handle->base); 9376a94483fSmrg else 9386a94483fSmrg pwrite(handle->fd, &data, 4, port); 9396a94483fSmrg } else { 940cad31331Smrg outl(data, port + handle->base); 9416a94483fSmrg } 942e432255dSmrg} 943e432255dSmrg 944e432255dSmrgstatic void 945e432255dSmrgpci_device_linux_sysfs_write16(struct pci_io_handle *handle, uint32_t port, 946e432255dSmrg uint16_t data) 947e432255dSmrg{ 9486a94483fSmrg if (handle->fd > -1) { 9496a94483fSmrg if (handle->is_legacy) 9506a94483fSmrg pwrite(handle->fd, &data, 2, port + handle->base); 9516a94483fSmrg else 9526a94483fSmrg pwrite(handle->fd, &data, 2, port); 9536a94483fSmrg } else { 954cad31331Smrg outw(data, port + handle->base); 9556a94483fSmrg } 956e432255dSmrg} 957e432255dSmrg 958e432255dSmrgstatic void 959e432255dSmrgpci_device_linux_sysfs_write8(struct pci_io_handle *handle, uint32_t port, 960e432255dSmrg uint8_t data) 961e432255dSmrg{ 9626a94483fSmrg if (handle->fd > -1) { 9636a94483fSmrg if (handle->is_legacy) 9646a94483fSmrg pwrite(handle->fd, &data, 1, port + handle->base); 9656a94483fSmrg else 9666a94483fSmrg pwrite(handle->fd, &data, 1, port); 9676a94483fSmrg } else { 968cad31331Smrg outb(data, port + handle->base); 9696a94483fSmrg } 970cad31331Smrg} 971cad31331Smrg 972cad31331Smrgstatic int 973cad31331Smrgpci_device_linux_sysfs_map_legacy(struct pci_device *dev, pciaddr_t base, 974cad31331Smrg pciaddr_t size, unsigned map_flags, void **addr) 975cad31331Smrg{ 976cad31331Smrg char name[PATH_MAX]; 977cad31331Smrg int flags = O_RDONLY; 978cad31331Smrg int prot = PROT_READ; 979cad31331Smrg int fd; 980cad31331Smrg int ret=0; 981cad31331Smrg 982cad31331Smrg if (map_flags & PCI_DEV_MAP_FLAG_WRITABLE) { 983cad31331Smrg flags = O_RDWR; /* O_RDWR != O_WRONLY | O_RDONLY */; 984cad31331Smrg prot |= PROT_WRITE; 985cad31331Smrg } 986cad31331Smrg 987cad31331Smrg /* First check if there's a legacy memory method for the device */ 988cad31331Smrg while (dev) { 989cad31331Smrg snprintf(name, PATH_MAX, "/sys/class/pci_bus/%04x:%02x/legacy_mem", 990cad31331Smrg dev->domain, dev->bus); 991cad31331Smrg 992cad31331Smrg fd = open(name, flags | O_CLOEXEC); 993cad31331Smrg if (fd >= 0) 994cad31331Smrg break; 995cad31331Smrg 996cad31331Smrg dev = pci_device_get_parent_bridge(dev); 997cad31331Smrg } 998cad31331Smrg 999cad31331Smrg /* If not, /dev/mem is the best we can do */ 1000cad31331Smrg if (!dev) 1001cad31331Smrg fd = open("/dev/mem", flags | O_CLOEXEC); 1002cad31331Smrg 1003cad31331Smrg if (fd < 0) 1004cad31331Smrg return errno; 1005cad31331Smrg 1006cad31331Smrg *addr = mmap(NULL, size, prot, MAP_SHARED, fd, base); 1007cad31331Smrg if (*addr == MAP_FAILED) { 1008cad31331Smrg ret = errno; 1009cad31331Smrg } 1010cad31331Smrg 1011cad31331Smrg close(fd); 1012cad31331Smrg return ret; 1013cad31331Smrg} 1014cad31331Smrg 1015cad31331Smrgstatic int 1016cad31331Smrgpci_device_linux_sysfs_unmap_legacy(struct pci_device *dev, void *addr, pciaddr_t size) 1017cad31331Smrg{ 1018cad31331Smrg return munmap(addr, size); 1019cad31331Smrg} 1020cad31331Smrg 1021cad31331Smrg 1022cad31331Smrgstatic void 1023cad31331Smrgpci_system_linux_destroy(void) 1024cad31331Smrg{ 1025cad31331Smrg#ifdef HAVE_MTRR 1026cad31331Smrg if (pci_sys->mtrr_fd != -1) 1027cad31331Smrg close(pci_sys->mtrr_fd); 1028cad31331Smrg#endif 1029e432255dSmrg} 1030e432255dSmrg 1031e432255dSmrgstatic const struct pci_system_methods linux_sysfs_methods = { 1032cad31331Smrg .destroy = pci_system_linux_destroy, 1033e432255dSmrg .destroy_device = NULL, 1034e432255dSmrg .read_rom = pci_device_linux_sysfs_read_rom, 1035e432255dSmrg .probe = pci_device_linux_sysfs_probe, 1036e432255dSmrg .map_range = pci_device_linux_sysfs_map_range, 1037e432255dSmrg .unmap_range = pci_device_linux_sysfs_unmap_range, 1038e432255dSmrg 1039e432255dSmrg .read = pci_device_linux_sysfs_read, 1040e432255dSmrg .write = pci_device_linux_sysfs_write, 1041e432255dSmrg 1042e432255dSmrg .fill_capabilities = pci_fill_capabilities_generic, 1043e432255dSmrg .enable = pci_device_linux_sysfs_enable, 1044e432255dSmrg .boot_vga = pci_device_linux_sysfs_boot_vga, 1045e432255dSmrg .has_kernel_driver = pci_device_linux_sysfs_has_kernel_driver, 1046e432255dSmrg 1047e432255dSmrg .open_device_io = pci_device_linux_sysfs_open_device_io, 1048e432255dSmrg .open_legacy_io = pci_device_linux_sysfs_open_legacy_io, 1049e432255dSmrg .close_io = pci_device_linux_sysfs_close_io, 1050e432255dSmrg .read32 = pci_device_linux_sysfs_read32, 1051e432255dSmrg .read16 = pci_device_linux_sysfs_read16, 1052e432255dSmrg .read8 = pci_device_linux_sysfs_read8, 1053e432255dSmrg .write32 = pci_device_linux_sysfs_write32, 1054e432255dSmrg .write16 = pci_device_linux_sysfs_write16, 1055e432255dSmrg .write8 = pci_device_linux_sysfs_write8, 1056cad31331Smrg 1057cad31331Smrg .map_legacy = pci_device_linux_sysfs_map_legacy, 1058cad31331Smrg .unmap_legacy = pci_device_linux_sysfs_unmap_legacy, 1059e432255dSmrg}; 1060