static int hwloc_look_pci(struct hwloc_backend *backend) { struct hwloc_topology *topology = backend->topology; struct hwloc_obj *first_obj = NULL, *last_obj = NULL; #ifdef HWLOC_HAVE_LIBPCIACCESS int ret; struct pci_device_iterator *iter; struct pci_device *pcidev; #else /* HWLOC_HAVE_PCIUTILS */ struct pci_access *pciaccess; struct pci_dev *pcidev; #endif if (!(hwloc_topology_get_flags(topology) & (HWLOC_TOPOLOGY_FLAG_IO_DEVICES|HWLOC_TOPOLOGY_FLAG_WHOLE_IO))) return 0; if (hwloc_get_next_pcidev(topology, NULL)) { hwloc_debug("%s", "PCI objects already added, ignoring pci backend.\n"); return 0; } if (!hwloc_topology_is_thissystem(topology)) { hwloc_debug("%s", "\nno PCI detection (not thissystem)\n"); return 0; } hwloc_debug("%s", "\nScanning PCI buses...\n"); /* initialize PCI scanning */ #ifdef HWLOC_HAVE_LIBPCIACCESS ret = pci_system_init(); if (ret) { hwloc_debug("%s", "Can not initialize libpciaccess\n"); return -1; } iter = pci_slot_match_iterator_create(NULL); #else /* HWLOC_HAVE_PCIUTILS */ pciaccess = pci_alloc(); pciaccess->error = hwloc_pci_error; pciaccess->warning = hwloc_pci_warning; if (setjmp(err_buf)) { pci_cleanup(pciaccess); return -1; } pci_init(pciaccess); pci_scan_bus(pciaccess); #endif /* iterate over devices */ #ifdef HWLOC_HAVE_LIBPCIACCESS for (pcidev = pci_device_next(iter); pcidev; pcidev = pci_device_next(iter)) #else /* HWLOC_HAVE_PCIUTILS */ for (pcidev = pciaccess->devices; pcidev; pcidev = pcidev->next) #endif { const char *vendorname, *devicename, *fullname; unsigned char config_space_cache[CONFIG_SPACE_CACHESIZE]; struct hwloc_obj *obj; unsigned os_index; unsigned domain; unsigned device_class; unsigned short tmp16; char name[128]; unsigned offset; #ifdef HWLOC_HAVE_PCI_FIND_CAP struct pci_cap *cap; #endif /* initialize the config space in case we fail to read it (missing permissions, etc). */ memset(config_space_cache, 0xff, CONFIG_SPACE_CACHESIZE); #ifdef HWLOC_HAVE_LIBPCIACCESS pci_device_probe(pcidev); pci_device_cfg_read(pcidev, config_space_cache, 0, CONFIG_SPACE_CACHESIZE, NULL); #else /* HWLOC_HAVE_PCIUTILS */ pci_read_block(pcidev, 0, config_space_cache, CONFIG_SPACE_CACHESIZE); /* doesn't even tell how much it actually reads */ #endif /* try to read the domain */ #if (defined HWLOC_HAVE_LIBPCIACCESS) || (defined HWLOC_HAVE_PCIDEV_DOMAIN) domain = pcidev->domain; #else domain = 0; /* default domain number */ #endif /* try to read the device_class */ #ifdef HWLOC_HAVE_LIBPCIACCESS device_class = pcidev->device_class >> 8; #else /* HWLOC_HAVE_PCIUTILS */ #ifdef HWLOC_HAVE_PCIDEV_DEVICE_CLASS device_class = pcidev->device_class; #else device_class = config_space_cache[PCI_CLASS_DEVICE] | (config_space_cache[PCI_CLASS_DEVICE+1] << 8); #endif #endif /* might be useful for debugging (note that domain might be truncated) */ os_index = (domain << 20) + (pcidev->bus << 12) + (pcidev->dev << 4) + pcidev->func; obj = hwloc_alloc_setup_object(HWLOC_OBJ_PCI_DEVICE, os_index); obj->attr->pcidev.domain = domain; obj->attr->pcidev.bus = pcidev->bus; obj->attr->pcidev.dev = pcidev->dev; obj->attr->pcidev.func = pcidev->func; obj->attr->pcidev.vendor_id = pcidev->vendor_id; obj->attr->pcidev.device_id = pcidev->device_id; obj->attr->pcidev.class_id = device_class; obj->attr->pcidev.revision = config_space_cache[PCI_REVISION_ID]; obj->attr->pcidev.linkspeed = 0; /* unknown */ #ifdef HWLOC_HAVE_PCI_FIND_CAP cap = pci_find_cap(pcidev, PCI_CAP_ID_EXP, PCI_CAP_NORMAL); offset = cap ? cap->addr : 0; #else offset = hwloc_pci_find_cap(config_space_cache, PCI_CAP_ID_EXP); #endif /* HWLOC_HAVE_PCI_FIND_CAP */ if (0xffff == pcidev->vendor_id && 0xffff == pcidev->device_id) { /* SR-IOV puts ffff:ffff in Virtual Function config space. * The actual VF device ID is stored at a special (dynamic) location in the Physical Function config space. * VF and PF have the same vendor ID. * * libpciaccess just returns ffff:ffff, needs to be fixed. * linuxpci is OK because sysfs files are already fixed the kernel. * pciutils is OK when it uses those Linux sysfs files. * * Reading these files is an easy way to work around the libpciaccess issue on Linux, * but we have no way to know if this is caused by SR-IOV or not. * * TODO: * If PF has CAP_ID_PCIX or CAP_ID_EXP (offset>0), * look for extended capability PCI_EXT_CAP_ID_SRIOV (need extended config space (more than 256 bytes)), * then read the VF device ID after it (PCI_IOV_DID bytes later). * Needs access to extended config space (needs root on Linux). * TODO: * Add string info attributes in VF and PF objects? */ #ifdef HWLOC_LINUX_SYS /* Workaround for Linux (the kernel returns the VF device/vendor IDs). */ char path[64]; char value[16]; FILE *file; snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/vendor", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { fread(value, sizeof(value), 1, file); fclose(file); obj->attr->pcidev.vendor_id = strtoul(value, NULL, 16); } snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/device", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { fread(value, sizeof(value), 1, file); fclose(file); obj->attr->pcidev.device_id = strtoul(value, NULL, 16); } #endif } if (offset > 0 && offset + 20 /* size of PCI express block up to link status */ <= CONFIG_SPACE_CACHESIZE) hwloc_pci_find_linkspeed(config_space_cache, offset, &obj->attr->pcidev.linkspeed); hwloc_pci_prepare_bridge(obj, config_space_cache); if (obj->type == HWLOC_OBJ_PCI_DEVICE) { memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_VENDOR_ID], sizeof(tmp16)); obj->attr->pcidev.subvendor_id = tmp16; memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_ID], sizeof(tmp16)); obj->attr->pcidev.subdevice_id = tmp16; } else { /* TODO: * bridge must lookup PCI_CAP_ID_SSVID and then look at offset+PCI_SSVID_VENDOR/DEVICE_ID * cardbus must look at PCI_CB_SUBSYSTEM_VENDOR_ID and PCI_CB_SUBSYSTEM_ID */ } /* starting from pciutils 2.2, pci_lookup_name() takes a variable number * of arguments, and supports the PCI_LOOKUP_NO_NUMBERS flag. */ /* get the vendor name */ #ifdef HWLOC_HAVE_LIBPCIACCESS vendorname = pci_device_get_vendor_name(pcidev); #else /* HWLOC_HAVE_PCIUTILS */ vendorname = pci_lookup_name(pciaccess, name, sizeof(name), #if HAVE_DECL_PCI_LOOKUP_NO_NUMBERS PCI_LOOKUP_VENDOR|PCI_LOOKUP_NO_NUMBERS, pcidev->vendor_id #else PCI_LOOKUP_VENDOR, pcidev->vendor_id, 0, 0, 0 #endif ); #endif /* HWLOC_HAVE_PCIUTILS */ if (vendorname && *vendorname) hwloc_obj_add_info(obj, "PCIVendor", vendorname); /* get the device name */ #ifdef HWLOC_HAVE_LIBPCIACCESS devicename = pci_device_get_device_name(pcidev); #else /* HWLOC_HAVE_PCIUTILS */ devicename = pci_lookup_name(pciaccess, name, sizeof(name), #if HAVE_DECL_PCI_LOOKUP_NO_NUMBERS PCI_LOOKUP_DEVICE|PCI_LOOKUP_NO_NUMBERS, pcidev->vendor_id, pcidev->device_id #else PCI_LOOKUP_DEVICE, pcidev->vendor_id, pcidev->device_id, 0, 0 #endif ); #endif /* HWLOC_HAVE_PCIUTILS */ if (devicename && *devicename) hwloc_obj_add_info(obj, "PCIDevice", devicename); /* generate or get the fullname */ #ifdef HWLOC_HAVE_LIBPCIACCESS snprintf(name, sizeof(name), "%s%s%s", vendorname ? vendorname : "", vendorname && devicename ? " " : "", devicename ? devicename : ""); fullname = name; if (*name) obj->name = strdup(name); #else /* HWLOC_HAVE_PCIUTILS */ fullname = pci_lookup_name(pciaccess, name, sizeof(name), #if HAVE_DECL_PCI_LOOKUP_NO_NUMBERS PCI_LOOKUP_VENDOR|PCI_LOOKUP_DEVICE|PCI_LOOKUP_NO_NUMBERS, pcidev->vendor_id, pcidev->device_id #else PCI_LOOKUP_VENDOR|PCI_LOOKUP_DEVICE, pcidev->vendor_id, pcidev->device_id, 0, 0 #endif ); if (fullname && *fullname) obj->name = strdup(fullname); #endif /* HWLOC_HAVE_PCIUTILS */ hwloc_debug(" %04x:%02x:%02x.%01x %04x %04x:%04x %s\n", domain, pcidev->bus, pcidev->dev, pcidev->func, device_class, pcidev->vendor_id, pcidev->device_id, fullname && *fullname ? fullname : "??"); /* queue the object for now */ if (first_obj) last_obj->next_sibling = obj; else first_obj = obj; last_obj = obj; } /* finalize device scanning */ #ifdef HWLOC_HAVE_LIBPCIACCESS pci_iterator_destroy(iter); pci_system_cleanup(); #else /* HWLOC_HAVE_PCIUTILS */ pci_cleanup(pciaccess); #endif return hwloc_insert_pci_device_list(backend, first_obj); }
static int hwloc_look_pci(struct hwloc_backend *backend) { struct hwloc_topology *topology = backend->topology; struct hwloc_obj *first_obj = NULL, *last_obj = NULL; int ret; struct pci_device_iterator *iter; struct pci_device *pcidev; #ifdef HWLOC_LINUX_SYS DIR *dir; #endif if (!(hwloc_topology_get_flags(topology) & (HWLOC_TOPOLOGY_FLAG_IO_DEVICES|HWLOC_TOPOLOGY_FLAG_WHOLE_IO))) return 0; if (hwloc_get_next_pcidev(topology, NULL)) { hwloc_debug("%s", "PCI objects already added, ignoring pci backend.\n"); return 0; } if (!hwloc_topology_is_thissystem(topology)) { hwloc_debug("%s", "\nno PCI detection (not thissystem)\n"); return 0; } hwloc_debug("%s", "\nScanning PCI buses...\n"); /* initialize PCI scanning */ ret = pci_system_init(); if (ret) { hwloc_debug("%s", "Can not initialize libpciaccess\n"); return -1; } iter = pci_slot_match_iterator_create(NULL); /* iterate over devices */ for (pcidev = pci_device_next(iter); pcidev; pcidev = pci_device_next(iter)) { const char *vendorname, *devicename, *fullname; unsigned char config_space_cache[CONFIG_SPACE_CACHESIZE]; struct hwloc_obj *obj; unsigned os_index; unsigned domain; unsigned device_class; unsigned short tmp16; char name[128]; unsigned offset; /* initialize the config space in case we fail to read it (missing permissions, etc). */ memset(config_space_cache, 0xff, CONFIG_SPACE_CACHESIZE); pci_device_probe(pcidev); pci_device_cfg_read(pcidev, config_space_cache, 0, CONFIG_SPACE_CACHESIZE, NULL); /* try to read the domain */ domain = pcidev->domain; /* try to read the device_class */ device_class = pcidev->device_class >> 8; /* fixup SR-IOV buggy VF device/vendor IDs */ if (0xffff == pcidev->vendor_id && 0xffff == pcidev->device_id) { /* SR-IOV puts ffff:ffff in Virtual Function config space. * The actual VF device ID is stored at a special (dynamic) location in the Physical Function config space. * VF and PF have the same vendor ID. * * libpciaccess just returns ffff:ffff, needs to be fixed. * linuxpci is OK because sysfs files are already fixed the kernel. * (pciutils is OK when it uses those Linux sysfs files.) * * Reading these files is an easy way to work around the libpciaccess issue on Linux, * but we have no way to know if this is caused by SR-IOV or not. * * TODO: * If PF has CAP_ID_PCIX or CAP_ID_EXP (offset>0), * look for extended capability PCI_EXT_CAP_ID_SRIOV (need extended config space (more than 256 bytes)), * then read the VF device ID after it (PCI_IOV_DID bytes later). * Needs access to extended config space (needs root on Linux). * TODO: * Add string info attributes in VF and PF objects? */ #ifdef HWLOC_LINUX_SYS /* Workaround for Linux (the kernel returns the VF device/vendor IDs). */ char path[64]; char value[16]; FILE *file; size_t read; snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/vendor", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { read = fread(value, 1, sizeof(value), file); fclose(file); if (read) /* fixup the pciaccess struct so that pci_device_get_vendor_name() is correct later. */ pcidev->vendor_id = strtoul(value, NULL, 16); } snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/device", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { read = fread(value, 1, sizeof(value), file); fclose(file); if (read) /* fixup the pciaccess struct so that pci_device_get_device_name() is correct later. */ pcidev->device_id = strtoul(value, NULL, 16); } #endif } /* might be useful for debugging (note that domain might be truncated) */ os_index = (domain << 20) + (pcidev->bus << 12) + (pcidev->dev << 4) + pcidev->func; obj = hwloc_alloc_setup_object(HWLOC_OBJ_PCI_DEVICE, os_index); obj->attr->pcidev.domain = domain; obj->attr->pcidev.bus = pcidev->bus; obj->attr->pcidev.dev = pcidev->dev; obj->attr->pcidev.func = pcidev->func; obj->attr->pcidev.vendor_id = pcidev->vendor_id; obj->attr->pcidev.device_id = pcidev->device_id; obj->attr->pcidev.class_id = device_class; obj->attr->pcidev.revision = config_space_cache[PCI_REVISION_ID]; obj->attr->pcidev.linkspeed = 0; /* unknown */ offset = hwloc_pci_find_cap(config_space_cache, PCI_CAP_ID_EXP); if (offset > 0 && offset + 20 /* size of PCI express block up to link status */ <= CONFIG_SPACE_CACHESIZE) hwloc_pci_find_linkspeed(config_space_cache, offset, &obj->attr->pcidev.linkspeed); hwloc_pci_prepare_bridge(obj, config_space_cache); if (obj->type == HWLOC_OBJ_PCI_DEVICE) { memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_VENDOR_ID], sizeof(tmp16)); obj->attr->pcidev.subvendor_id = tmp16; memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_ID], sizeof(tmp16)); obj->attr->pcidev.subdevice_id = tmp16; } else { /* TODO: * bridge must lookup PCI_CAP_ID_SSVID and then look at offset+PCI_SSVID_VENDOR/DEVICE_ID * cardbus must look at PCI_CB_SUBSYSTEM_VENDOR_ID and PCI_CB_SUBSYSTEM_ID */ } /* get the vendor name */ vendorname = pci_device_get_vendor_name(pcidev); if (vendorname && *vendorname) hwloc_obj_add_info(obj, "PCIVendor", vendorname); /* get the device name */ devicename = pci_device_get_device_name(pcidev); if (devicename && *devicename) hwloc_obj_add_info(obj, "PCIDevice", devicename); /* generate or get the fullname */ snprintf(name, sizeof(name), "%s%s%s", vendorname ? vendorname : "", vendorname && devicename ? " " : "", devicename ? devicename : ""); fullname = name; if (*name) obj->name = strdup(name); hwloc_debug(" %04x:%02x:%02x.%01x %04x %04x:%04x %s\n", domain, pcidev->bus, pcidev->dev, pcidev->func, device_class, pcidev->vendor_id, pcidev->device_id, fullname && *fullname ? fullname : "??"); /* queue the object for now */ if (first_obj) last_obj->next_sibling = obj; else first_obj = obj; last_obj = obj; } /* finalize device scanning */ pci_iterator_destroy(iter); pci_system_cleanup(); #ifdef HWLOC_LINUX_SYS dir = opendir("/sys/bus/pci/slots/"); if (dir) { struct dirent *dirent; while ((dirent = readdir(dir)) != NULL) { char path[64]; FILE *file; if (dirent->d_name[0] == '.') continue; snprintf(path, sizeof(path), "/sys/bus/pci/slots/%s/address", dirent->d_name); file = fopen(path, "r"); if (file) { unsigned domain, bus, dev; if (fscanf(file, "%x:%x:%x", &domain, &bus, &dev) == 3) { hwloc_obj_t obj = first_obj; while (obj) { if (obj->attr->pcidev.domain == domain && obj->attr->pcidev.bus == bus && obj->attr->pcidev.dev == dev && obj->attr->pcidev.func == 0) { hwloc_obj_add_info(obj, "PCISlot", dirent->d_name); break; } obj = obj->next_sibling; } } fclose(file); } } closedir(dir); } #endif return hwloc_insert_pci_device_list(backend, first_obj); }
static int hwloc_look_pci(struct hwloc_backend *backend) { struct hwloc_topology *topology = backend->topology; enum hwloc_type_filter_e pfilter, bfilter; struct hwloc_obj *tree = NULL, *tmp; int ret; struct pci_device_iterator *iter; struct pci_device *pcidev; hwloc_topology_get_type_filter(topology, HWLOC_OBJ_PCI_DEVICE, &pfilter); hwloc_topology_get_type_filter(topology, HWLOC_OBJ_BRIDGE, &bfilter); if (bfilter == HWLOC_TYPE_FILTER_KEEP_NONE && pfilter == HWLOC_TYPE_FILTER_KEEP_NONE) return 0; /* don't do anything if another backend attached PCI already * (they are attached to root until later in the core discovery) */ tmp = hwloc_get_root_obj(topology)->io_first_child; while (tmp) { if (tmp->type == HWLOC_OBJ_PCI_DEVICE || (tmp->type == HWLOC_OBJ_BRIDGE && tmp->attr->bridge.downstream_type == HWLOC_OBJ_BRIDGE_PCI)) { hwloc_debug("%s", "PCI objects already added, ignoring linuxpci backend.\n"); return 0; } tmp = tmp->next_sibling; } hwloc_debug("%s", "\nScanning PCI buses...\n"); /* initialize PCI scanning */ ret = pci_system_init(); if (ret) { hwloc_debug("%s", "Can not initialize libpciaccess\n"); return -1; } iter = pci_slot_match_iterator_create(NULL); /* iterate over devices */ for (pcidev = pci_device_next(iter); pcidev; pcidev = pci_device_next(iter)) { const char *vendorname, *devicename; unsigned char config_space_cache[CONFIG_SPACE_CACHESIZE]; hwloc_obj_type_t type; struct hwloc_obj *obj; unsigned domain; unsigned device_class; unsigned short tmp16; unsigned offset; /* initialize the config space in case we fail to read it (missing permissions, etc). */ memset(config_space_cache, 0xff, CONFIG_SPACE_CACHESIZE); pci_device_probe(pcidev); pci_device_cfg_read(pcidev, config_space_cache, 0, CONFIG_SPACE_CACHESIZE, NULL); /* try to read the domain */ domain = pcidev->domain; /* try to read the device_class */ device_class = pcidev->device_class >> 8; /* bridge or pci dev? */ type = hwloc_pci_check_bridge_type(device_class, config_space_cache); /* filtered? */ if (type == HWLOC_OBJ_PCI_DEVICE) { enum hwloc_type_filter_e filter; hwloc_topology_get_type_filter(topology, HWLOC_OBJ_PCI_DEVICE, &filter); if (filter == HWLOC_TYPE_FILTER_KEEP_NONE) continue; if (filter == HWLOC_TYPE_FILTER_KEEP_IMPORTANT && !hwloc_filter_check_pcidev_subtype_important(device_class)) continue; } else if (type == HWLOC_OBJ_BRIDGE) { enum hwloc_type_filter_e filter; hwloc_topology_get_type_filter(topology, HWLOC_OBJ_BRIDGE, &filter); if (filter == HWLOC_TYPE_FILTER_KEEP_NONE) continue; /* HWLOC_TYPE_FILTER_KEEP_IMPORTANT filtered later in the core */ } /* fixup SR-IOV buggy VF device/vendor IDs */ if (0xffff == pcidev->vendor_id && 0xffff == pcidev->device_id) { /* SR-IOV puts ffff:ffff in Virtual Function config space. * The actual VF device ID is stored at a special (dynamic) location in the Physical Function config space. * VF and PF have the same vendor ID. * * libpciaccess just returns ffff:ffff, needs to be fixed. * linuxpci is OK because sysfs files are already fixed the kernel. * (pciutils is OK when it uses those Linux sysfs files.) * * Reading these files is an easy way to work around the libpciaccess issue on Linux, * but we have no way to know if this is caused by SR-IOV or not. * * TODO: * If PF has CAP_ID_PCIX or CAP_ID_EXP (offset>0), * look for extended capability PCI_EXT_CAP_ID_SRIOV (need extended config space (more than 256 bytes)), * then read the VF device ID after it (PCI_IOV_DID bytes later). * Needs access to extended config space (needs root on Linux). * TODO: * Add string info attributes in VF and PF objects? */ #ifdef HWLOC_LINUX_SYS /* Workaround for Linux (the kernel returns the VF device/vendor IDs). */ char path[64]; char value[16]; FILE *file; size_t read; snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/vendor", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { read = fread(value, 1, sizeof(value), file); fclose(file); if (read) /* fixup the pciaccess struct so that pci_device_get_vendor_name() is correct later. */ pcidev->vendor_id = strtoul(value, NULL, 16); } snprintf(path, sizeof(path), "/sys/bus/pci/devices/%04x:%02x:%02x.%01x/device", domain, pcidev->bus, pcidev->dev, pcidev->func); file = fopen(path, "r"); if (file) { read = fread(value, 1, sizeof(value), file); fclose(file); if (read) /* fixup the pciaccess struct so that pci_device_get_device_name() is correct later. */ pcidev->device_id = strtoul(value, NULL, 16); } #endif } obj = hwloc_alloc_setup_object(type, -1); obj->attr->pcidev.domain = domain; obj->attr->pcidev.bus = pcidev->bus; obj->attr->pcidev.dev = pcidev->dev; obj->attr->pcidev.func = pcidev->func; obj->attr->pcidev.vendor_id = pcidev->vendor_id; obj->attr->pcidev.device_id = pcidev->device_id; obj->attr->pcidev.class_id = device_class; obj->attr->pcidev.revision = config_space_cache[PCI_REVISION_ID]; obj->attr->pcidev.linkspeed = 0; /* unknown */ offset = hwloc_pci_find_cap(config_space_cache, PCI_CAP_ID_EXP); if (offset > 0 && offset + 20 /* size of PCI express block up to link status */ <= CONFIG_SPACE_CACHESIZE) hwloc_pci_find_linkspeed(config_space_cache, offset, &obj->attr->pcidev.linkspeed); if (type == HWLOC_OBJ_BRIDGE) { if (hwloc_pci_setup_bridge_attr(obj, config_space_cache) < 0) continue; } if (obj->type == HWLOC_OBJ_PCI_DEVICE) { memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_VENDOR_ID], sizeof(tmp16)); obj->attr->pcidev.subvendor_id = tmp16; memcpy(&tmp16, &config_space_cache[PCI_SUBSYSTEM_ID], sizeof(tmp16)); obj->attr->pcidev.subdevice_id = tmp16; } else { /* TODO: * bridge must lookup PCI_CAP_ID_SSVID and then look at offset+PCI_SSVID_VENDOR/DEVICE_ID * cardbus must look at PCI_CB_SUBSYSTEM_VENDOR_ID and PCI_CB_SUBSYSTEM_ID */ } /* get the vendor name */ vendorname = pci_device_get_vendor_name(pcidev); if (vendorname && *vendorname) hwloc_obj_add_info(obj, "PCIVendor", vendorname); /* get the device name */ devicename = pci_device_get_device_name(pcidev); if (devicename && *devicename) hwloc_obj_add_info(obj, "PCIDevice", devicename); hwloc_debug(" %04x:%02x:%02x.%01x %04x %04x:%04x %s %s\n", domain, pcidev->bus, pcidev->dev, pcidev->func, device_class, pcidev->vendor_id, pcidev->device_id, vendorname && *vendorname ? vendorname : "??", devicename && *devicename ? devicename : "??"); hwloc_pci_tree_insert_by_busid(&tree, obj); } /* finalize device scanning */ pci_iterator_destroy(iter); pci_system_cleanup(); hwloc_pci_tree_attach_belowroot(topology, tree); return 0; }