/* * node_device_udev.c: node device enumeration - libudev implementation * * Copyright (C) 2009-2015 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see * . * * Author: Dave Allan */ #include #include #include #include #include #include "dirname.h" #include "node_device_conf.h" #include "node_device_event.h" #include "node_device_driver.h" #include "node_device_linux_sysfs.h" #include "node_device_udev.h" #include "virerror.h" #include "driver.h" #include "datatypes.h" #include "virlog.h" #include "viralloc.h" #include "viruuid.h" #include "virbuffer.h" #include "virfile.h" #include "virpci.h" #include "virstring.h" #include "virnetdev.h" #define VIR_FROM_THIS VIR_FROM_NODEDEV VIR_LOG_INIT("node_device.node_device_udev"); #ifndef TYPE_RAID # define TYPE_RAID 12 #endif struct _udevPrivate { struct udev_monitor *udev_monitor; int watch; bool privileged; }; static bool udevHasDeviceProperty(struct udev_device *dev, const char *key) { if (udev_device_get_property_value(dev, key)) return true; return false; } static const char *udevGetDeviceProperty(struct udev_device *udev_device, const char *property_key) { const char *ret = NULL; ret = udev_device_get_property_value(udev_device, property_key); VIR_DEBUG("Found property key '%s' value '%s' for device with sysname '%s'", property_key, NULLSTR(ret), udev_device_get_sysname(udev_device)); return ret; } static int udevGetStringProperty(struct udev_device *udev_device, const char *property_key, char **value) { if (VIR_STRDUP(*value, udevGetDeviceProperty(udev_device, property_key)) < 0) return -1; return 0; } static int udevGetIntProperty(struct udev_device *udev_device, const char *property_key, int *value, int base) { const char *str = NULL; str = udevGetDeviceProperty(udev_device, property_key); if (str && virStrToLong_i(str, NULL, base, value) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to convert '%s' to int"), str); return -1; } return 0; } static int udevGetUintProperty(struct udev_device *udev_device, const char *property_key, unsigned int *value, int base) { const char *str = NULL; str = udevGetDeviceProperty(udev_device, property_key); if (str && virStrToLong_ui(str, NULL, base, value) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to convert '%s' to int"), str); return -1; } return 0; } static const char *udevGetDeviceSysfsAttr(struct udev_device *udev_device, const char *attr_name) { const char *ret = NULL; ret = udev_device_get_sysattr_value(udev_device, attr_name); VIR_DEBUG("Found sysfs attribute '%s' value '%s' " "for device with sysname '%s'", attr_name, NULLSTR(ret), udev_device_get_sysname(udev_device)); return ret; } static int udevGetStringSysfsAttr(struct udev_device *udev_device, const char *attr_name, char **value) { if (VIR_STRDUP(*value, udevGetDeviceSysfsAttr(udev_device, attr_name)) < 0) return -1; virStringStripControlChars(*value); if (*value != NULL && (STREQ(*value, ""))) VIR_FREE(*value); return 0; } static int udevGetIntSysfsAttr(struct udev_device *udev_device, const char *attr_name, int *value, int base) { const char *str = NULL; str = udevGetDeviceSysfsAttr(udev_device, attr_name); if (str && virStrToLong_i(str, NULL, base, value) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to convert '%s' to int"), str); return -1; } return 0; } static int udevGetUintSysfsAttr(struct udev_device *udev_device, const char *attr_name, unsigned int *value, int base) { const char *str = NULL; str = udevGetDeviceSysfsAttr(udev_device, attr_name); if (str && virStrToLong_ui(str, NULL, base, value) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to convert '%s' to unsigned int"), str); return -1; } return 0; } static int udevGetUint64SysfsAttr(struct udev_device *udev_device, const char *attr_name, unsigned long long *value) { const char *str = NULL; str = udevGetDeviceSysfsAttr(udev_device, attr_name); if (str && virStrToLong_ull(str, NULL, 0, value) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to convert '%s' to unsigned long long"), str); return -1; } return 0; } static int udevGenerateDeviceName(struct udev_device *device, virNodeDeviceDefPtr def, const char *s) { size_t i; virBuffer buf = VIR_BUFFER_INITIALIZER; virBufferAsprintf(&buf, "%s_%s", udev_device_get_subsystem(device), udev_device_get_sysname(device)); if (s != NULL) virBufferAsprintf(&buf, "_%s", s); if (virBufferCheckError(&buf) < 0) return -1; def->name = virBufferContentAndReset(&buf); for (i = 0; i < strlen(def->name); i++) { if (!(c_isalnum(*(def->name + i)))) *(def->name + i) = '_'; } return 0; } #if HAVE_UDEV_LOGGING typedef void (*udevLogFunctionPtr)(struct udev *udev, int priority, const char *file, int line, const char *fn, const char *format, va_list args); static void ATTRIBUTE_FMT_PRINTF(6, 0) udevLogFunction(struct udev *udev ATTRIBUTE_UNUSED, int priority, const char *file, int line, const char *fn, const char *fmt, va_list args) { virBuffer buf = VIR_BUFFER_INITIALIZER; char *format = NULL; virBufferAdd(&buf, fmt, -1); virBufferTrim(&buf, "\n", -1); format = virBufferContentAndReset(&buf); virLogVMessage(&virLogSelf, virLogPriorityFromSyslog(priority), file, line, fn, NULL, format ? format : fmt, args); VIR_FREE(format); } #endif static int udevTranslatePCIIds(unsigned int vendor, unsigned int product, char **vendor_string, char **product_string) { struct pci_id_match m; const char *vendor_name = NULL, *device_name = NULL; m.vendor_id = vendor; m.device_id = product; m.subvendor_id = PCI_MATCH_ANY; m.subdevice_id = PCI_MATCH_ANY; m.device_class = 0; m.device_class_mask = 0; m.match_data = 0; /* pci_get_strings returns void */ pci_get_strings(&m, &device_name, &vendor_name, NULL, NULL); if (VIR_STRDUP(*vendor_string, vendor_name) < 0 || VIR_STRDUP(*product_string, device_name) < 0) return -1; return 0; } static int udevProcessPCI(struct udev_device *device, virNodeDeviceDefPtr def) { const char *syspath = NULL; virNodeDevCapDataPtr data = &def->caps->data; virPCIEDeviceInfoPtr pci_express = NULL; virPCIDevicePtr pciDev = NULL; udevPrivate *priv = driver->privateData; int ret = -1; char *p; syspath = udev_device_get_syspath(device); if (udevGetUintProperty(device, "PCI_CLASS", &data->pci_dev.class, 16) < 0) goto cleanup; if ((p = strrchr(syspath, '/')) == NULL || virStrToLong_ui(p + 1, &p, 16, &data->pci_dev.domain) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 16, &data->pci_dev.bus) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 16, &data->pci_dev.slot) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 16, &data->pci_dev.function) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("failed to parse the PCI address from sysfs path: '%s'"), syspath); goto cleanup; } if (udevGetUintSysfsAttr(device, "vendor", &data->pci_dev.vendor, 16) < 0) goto cleanup; if (udevGetUintSysfsAttr(device, "device", &data->pci_dev.product, 16) < 0) goto cleanup; if (udevTranslatePCIIds(data->pci_dev.vendor, data->pci_dev.product, &data->pci_dev.vendor_name, &data->pci_dev.product_name) != 0) { goto cleanup; } if (udevGenerateDeviceName(device, def, NULL) != 0) goto cleanup; /* The default value is -1, because it can't be 0 * as zero is valid node number. */ data->pci_dev.numa_node = -1; if (udevGetIntSysfsAttr(device, "numa_node", &data->pci_dev.numa_node, 10) < 0) goto cleanup; if (nodeDeviceSysfsGetPCIRelatedDevCaps(syspath, data) < 0) goto cleanup; if (!(pciDev = virPCIDeviceNew(data->pci_dev.domain, data->pci_dev.bus, data->pci_dev.slot, data->pci_dev.function))) goto cleanup; /* We need to be root to read PCI device configs */ if (priv->privileged) { if (virPCIGetHeaderType(pciDev, &data->pci_dev.hdrType) < 0) goto cleanup; if (virPCIDeviceIsPCIExpress(pciDev) > 0) { if (VIR_ALLOC(pci_express) < 0) goto cleanup; if (virPCIDeviceHasPCIExpressLink(pciDev) > 0) { if (VIR_ALLOC(pci_express->link_cap) < 0 || VIR_ALLOC(pci_express->link_sta) < 0) goto cleanup; if (virPCIDeviceGetLinkCapSta(pciDev, &pci_express->link_cap->port, &pci_express->link_cap->speed, &pci_express->link_cap->width, &pci_express->link_sta->speed, &pci_express->link_sta->width) < 0) goto cleanup; pci_express->link_sta->port = -1; /* PCIe can't negotiate port. Yet :) */ } data->pci_dev.flags |= VIR_NODE_DEV_CAP_FLAG_PCIE; data->pci_dev.pci_express = pci_express; pci_express = NULL; } } ret = 0; cleanup: virPCIDeviceFree(pciDev); virPCIEDeviceInfoFree(pci_express); return ret; } static int udevProcessUSBDevice(struct udev_device *device, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; if (udevGetUintProperty(device, "BUSNUM", &data->usb_dev.bus, 10) < 0) return -1; if (udevGetUintProperty(device, "DEVNUM", &data->usb_dev.device, 10) < 0) return -1; if (udevGetUintProperty(device, "ID_VENDOR_ID", &data->usb_dev.vendor, 16) < 0) return -1; if (udevGetStringProperty(device, "ID_VENDOR_FROM_DATABASE", &data->usb_dev.vendor_name) < 0) return -1; if (!data->usb_dev.vendor_name && udevGetStringSysfsAttr(device, "manufacturer", &data->usb_dev.vendor_name) < 0) return -1; if (udevGetUintProperty(device, "ID_MODEL_ID", &data->usb_dev.product, 16) < 0) return -1; if (udevGetStringProperty(device, "ID_MODEL_FROM_DATABASE", &data->usb_dev.product_name) < 0) return -1; if (!data->usb_dev.product_name && udevGetStringSysfsAttr(device, "product", &data->usb_dev.product_name) < 0) return -1; if (udevGenerateDeviceName(device, def, NULL) != 0) return -1; return 0; } static int udevProcessUSBInterface(struct udev_device *device, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; if (udevGetUintSysfsAttr(device, "bInterfaceNumber", &data->usb_if.number, 16) < 0) return -1; if (udevGetUintSysfsAttr(device, "bInterfaceClass", &data->usb_if._class, 16) < 0) return -1; if (udevGetUintSysfsAttr(device, "bInterfaceSubClass", &data->usb_if.subclass, 16) < 0) return -1; if (udevGetUintSysfsAttr(device, "bInterfaceProtocol", &data->usb_if.protocol, 16) < 0) return -1; if (udevGenerateDeviceName(device, def, NULL) != 0) return -1; return 0; } static int udevProcessNetworkInterface(struct udev_device *device, virNodeDeviceDefPtr def) { const char *devtype = udev_device_get_devtype(device); virNodeDevCapDataPtr data = &def->caps->data; if (devtype && STREQ(devtype, "wlan")) { data->net.subtype = VIR_NODE_DEV_CAP_NET_80211; } else { data->net.subtype = VIR_NODE_DEV_CAP_NET_80203; } if (udevGetStringProperty(device, "INTERFACE", &data->net.ifname) < 0) return -1; if (udevGetStringSysfsAttr(device, "address", &data->net.address) < 0) return -1; if (udevGetUintSysfsAttr(device, "addr_len", &data->net.address_len, 0) < 0) return -1; if (udevGenerateDeviceName(device, def, data->net.address) != 0) return -1; if (virNetDevGetLinkInfo(data->net.ifname, &data->net.lnk) < 0) return -1; if (virNetDevGetFeatures(data->net.ifname, &data->net.features) < 0) return -1; return 0; } static int udevProcessSCSIHost(struct udev_device *device ATTRIBUTE_UNUSED, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; char *filename = NULL; char *str; filename = last_component(def->sysfs_path); if (!(str = STRSKIP(filename, "host")) || virStrToLong_ui(str, NULL, 0, &data->scsi_host.host) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("failed to parse SCSI host '%s'"), filename); return -1; } nodeDeviceSysfsGetSCSIHostCaps(&def->caps->data); if (udevGenerateDeviceName(device, def, NULL) != 0) return -1; return 0; } static int udevProcessSCSITarget(struct udev_device *device ATTRIBUTE_UNUSED, virNodeDeviceDefPtr def) { const char *sysname = NULL; virNodeDevCapDataPtr data = &def->caps->data; sysname = udev_device_get_sysname(device); if (VIR_STRDUP(data->scsi_target.name, sysname) < 0) return -1; if (udevGenerateDeviceName(device, def, NULL) != 0) return -1; return 0; } static int udevGetSCSIType(virNodeDeviceDefPtr def ATTRIBUTE_UNUSED, unsigned int type, char **typestring) { int ret = 0; int foundtype = 1; *typestring = NULL; switch (type) { case TYPE_DISK: ignore_value(VIR_STRDUP(*typestring, "disk")); break; case TYPE_TAPE: ignore_value(VIR_STRDUP(*typestring, "tape")); break; case TYPE_PROCESSOR: ignore_value(VIR_STRDUP(*typestring, "processor")); break; case TYPE_WORM: ignore_value(VIR_STRDUP(*typestring, "worm")); break; case TYPE_ROM: ignore_value(VIR_STRDUP(*typestring, "cdrom")); break; case TYPE_SCANNER: ignore_value(VIR_STRDUP(*typestring, "scanner")); break; case TYPE_MOD: ignore_value(VIR_STRDUP(*typestring, "mod")); break; case TYPE_MEDIUM_CHANGER: ignore_value(VIR_STRDUP(*typestring, "changer")); break; case TYPE_ENCLOSURE: ignore_value(VIR_STRDUP(*typestring, "enclosure")); break; case TYPE_RAID: ignore_value(VIR_STRDUP(*typestring, "raid")); break; case TYPE_NO_LUN: default: foundtype = 0; break; } if (*typestring == NULL) { if (foundtype == 1) { ret = -1; } else { VIR_DEBUG("Failed to find SCSI device type %d for %s", type, def->sysfs_path); } } return ret; } static int udevProcessSCSIDevice(struct udev_device *device ATTRIBUTE_UNUSED, virNodeDeviceDefPtr def) { int ret = -1; unsigned int tmp = 0; virNodeDevCapDataPtr data = &def->caps->data; char *filename = NULL, *p = NULL; filename = last_component(def->sysfs_path); if (virStrToLong_ui(filename, &p, 10, &data->scsi.host) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 10, &data->scsi.bus) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 10, &data->scsi.target) < 0 || p == NULL || virStrToLong_ui(p + 1, &p, 10, &data->scsi.lun) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("failed to parse the SCSI address from filename: '%s'"), filename); return -1; } if (udev_device_get_sysattr_value(device, "type")) { if (udevGetUintSysfsAttr(device, "type", &tmp, 0) < 0) goto cleanup; if (udevGetSCSIType(def, tmp, &data->scsi.type) < 0) goto cleanup; } if (udevGenerateDeviceName(device, def, NULL) != 0) goto cleanup; ret = 0; cleanup: if (ret != 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to process SCSI device with sysfs path '%s'"), def->sysfs_path); } return ret; } static int udevProcessDisk(struct udev_device *device, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; if (udevGetUint64SysfsAttr(device, "size", &data->storage.num_blocks) < 0) return -1; if (udevGetUint64SysfsAttr(device, "queue/logical_block_size", &data->storage.logical_block_size) < 0) return -1; data->storage.size = data->storage.num_blocks * data->storage.logical_block_size; return 0; } static int udevProcessRemoveableMedia(struct udev_device *device, virNodeDeviceDefPtr def, int has_media) { virNodeDevCapDataPtr data = &def->caps->data; int is_removable = 0; if (udevGetIntSysfsAttr(device, "removable", &is_removable, 0) < 0) return -1; if (is_removable == 1) def->caps->data.storage.flags |= VIR_NODE_DEV_CAP_STORAGE_REMOVABLE; if (!has_media) return 0; def->caps->data.storage.flags |= VIR_NODE_DEV_CAP_STORAGE_REMOVABLE_MEDIA_AVAILABLE; if (udevGetStringProperty(device, "ID_FS_LABEL", &data->storage.media_label) < 0) return -1; if (udevGetUint64SysfsAttr(device, "size", &data->storage.num_blocks) < 0) return -1; if (udevGetUint64SysfsAttr(device, "queue/logical_block_size", &data->storage.logical_block_size) < 0) return -1; /* XXX This calculation is wrong for the qemu virtual cdrom * which reports the size in 512 byte blocks, but the logical * block size as 2048. I don't have a physical cdrom on a * devel system to see how they behave. */ def->caps->data.storage.removable_media_size = def->caps->data.storage.num_blocks * def->caps->data.storage.logical_block_size; return 0; } static int udevProcessCDROM(struct udev_device *device, virNodeDeviceDefPtr def) { int has_media = 0; /* NB: the drive_type string provided by udev is different from * that provided by HAL; now it's "cd" instead of "cdrom" We * change it to cdrom to preserve compatibility with earlier * versions of libvirt. */ VIR_FREE(def->caps->data.storage.drive_type); if (VIR_STRDUP(def->caps->data.storage.drive_type, "cdrom") < 0) return -1; if (udevHasDeviceProperty(device, "ID_CDROM_MEDIA") && udevGetIntProperty(device, "ID_CDROM_MEDIA", &has_media, 0) < 0) return -1; return udevProcessRemoveableMedia(device, def, has_media); } static int udevProcessFloppy(struct udev_device *device, virNodeDeviceDefPtr def) { int has_media = 0; if (udevHasDeviceProperty(device, "ID_CDROM_MEDIA")) { /* USB floppy */ if (udevGetIntProperty(device, "DKD_MEDIA_AVAILABLE", &has_media, 0) < 0) return -1; } else if (udevHasDeviceProperty(device, "ID_FS_LABEL")) { /* Legacy floppy */ has_media = 1; } return udevProcessRemoveableMedia(device, def, has_media); } static int udevProcessSD(struct udev_device *device, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; if (udevGetUint64SysfsAttr(device, "size", &data->storage.num_blocks) < 0) return -1; if (udevGetUint64SysfsAttr(device, "queue/logical_block_size", &data->storage.logical_block_size) < 0) return -1; data->storage.size = data->storage.num_blocks * data->storage.logical_block_size; return 0; } /* This function exists to deal with the case in which a driver does * not provide a device type in the usual place, but udev told us it's * a storage device, and we can make a good guess at what kind of * storage device it is from other information that is provided. */ static int udevKludgeStorageType(virNodeDeviceDefPtr def) { VIR_DEBUG("Could not find definitive storage type for device " "with sysfs path '%s', trying to guess it", def->sysfs_path); /* virtio disk */ if (STRPREFIX(def->caps->data.storage.block, "/dev/vd") && VIR_STRDUP(def->caps->data.storage.drive_type, "disk") > 0) { VIR_DEBUG("Found storage type '%s' for device " "with sysfs path '%s'", def->caps->data.storage.drive_type, def->sysfs_path); return 0; } VIR_DEBUG("Could not determine storage type " "for device with sysfs path '%s'", def->sysfs_path); return -1; } static int udevProcessStorage(struct udev_device *device, virNodeDeviceDefPtr def) { virNodeDevCapDataPtr data = &def->caps->data; int ret = -1; const char* devnode; devnode = udev_device_get_devnode(device); if (!devnode) { VIR_DEBUG("No devnode for '%s'", udev_device_get_devpath(device)); goto cleanup; } if (VIR_STRDUP(data->storage.block, devnode) < 0) goto cleanup; if (udevGetStringProperty(device, "ID_BUS", &data->storage.bus) < 0) goto cleanup; if (udevGetStringProperty(device, "ID_SERIAL", &data->storage.serial) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "device/vendor", &data->storage.vendor) < 0) goto cleanup; if (def->caps->data.storage.vendor) virTrimSpaces(def->caps->data.storage.vendor, NULL); if (udevGetStringSysfsAttr(device, "device/model", &data->storage.model) < 0) goto cleanup; if (def->caps->data.storage.model) virTrimSpaces(def->caps->data.storage.model, NULL); /* There is no equivalent of the hotpluggable property in libudev, * but storage is going toward a world in which hotpluggable is * expected, so I don't see a problem with not having a property * for it. */ if (udevGetStringProperty(device, "ID_TYPE", &data->storage.drive_type) < 0) goto cleanup; if (!data->storage.drive_type || STREQ(def->caps->data.storage.drive_type, "generic")) { int val = 0; const char *str = NULL; /* All floppy drives have the ID_DRIVE_FLOPPY prop. This is * needed since legacy floppies don't have a drive_type */ if (udevGetIntProperty(device, "ID_DRIVE_FLOPPY", &val, 0) < 0) goto cleanup; else if (val == 1) str = "floppy"; if (!str) { if (udevGetIntProperty(device, "ID_CDROM", &val, 0) < 0) goto cleanup; else if (val == 1) str = "cd"; } if (!str) { if (udevGetIntProperty(device, "ID_DRIVE_FLASH_SD", &val, 0) < 0) goto cleanup; if (val == 1) str = "sd"; } if (str) { if (VIR_STRDUP(data->storage.drive_type, str) < 0) goto cleanup; } else { /* If udev doesn't have it, perhaps we can guess it. */ if (udevKludgeStorageType(def) != 0) goto cleanup; } } if (STREQ(def->caps->data.storage.drive_type, "cd")) { ret = udevProcessCDROM(device, def); } else if (STREQ(def->caps->data.storage.drive_type, "disk")) { ret = udevProcessDisk(device, def); } else if (STREQ(def->caps->data.storage.drive_type, "floppy")) { ret = udevProcessFloppy(device, def); } else if (STREQ(def->caps->data.storage.drive_type, "sd")) { ret = udevProcessSD(device, def); } else { VIR_DEBUG("Unsupported storage type '%s'", def->caps->data.storage.drive_type); goto cleanup; } if (udevGenerateDeviceName(device, def, data->storage.serial) != 0) goto cleanup; cleanup: VIR_DEBUG("Storage ret=%d", ret); return ret; } static int udevProcessSCSIGeneric(struct udev_device *dev, virNodeDeviceDefPtr def) { if (udevGetStringProperty(dev, "DEVNAME", &def->caps->data.sg.path) < 0 || !def->caps->data.sg.path) return -1; if (udevGenerateDeviceName(dev, def, NULL) != 0) return -1; return 0; } static int udevGetDeviceType(struct udev_device *device, virNodeDevCapType *type) { const char *devtype = NULL; char *subsystem = NULL; int ret = -1; devtype = udev_device_get_devtype(device); *type = 0; if (devtype) { if (STREQ(devtype, "usb_device")) *type = VIR_NODE_DEV_CAP_USB_DEV; else if (STREQ(devtype, "usb_interface")) *type = VIR_NODE_DEV_CAP_USB_INTERFACE; else if (STREQ(devtype, "scsi_host")) *type = VIR_NODE_DEV_CAP_SCSI_HOST; else if (STREQ(devtype, "scsi_target")) *type = VIR_NODE_DEV_CAP_SCSI_TARGET; else if (STREQ(devtype, "scsi_device")) *type = VIR_NODE_DEV_CAP_SCSI; else if (STREQ(devtype, "disk")) *type = VIR_NODE_DEV_CAP_STORAGE; else if (STREQ(devtype, "wlan")) *type = VIR_NODE_DEV_CAP_NET; } else { /* PCI devices don't set the DEVTYPE property. */ if (udevHasDeviceProperty(device, "PCI_CLASS")) *type = VIR_NODE_DEV_CAP_PCI_DEV; /* Wired network interfaces don't set the DEVTYPE property, * USB devices also have an INTERFACE property, but they do * set DEVTYPE, so if devtype is NULL and the INTERFACE * property exists, we have a network device. */ if (udevHasDeviceProperty(device, "INTERFACE")) *type = VIR_NODE_DEV_CAP_NET; /* SCSI generic device doesn't set DEVTYPE property */ if (udevGetStringProperty(device, "SUBSYSTEM", &subsystem) < 0) return -1; if (STREQ_NULLABLE(subsystem, "scsi_generic")) *type = VIR_NODE_DEV_CAP_SCSI_GENERIC; VIR_FREE(subsystem); } if (!*type) VIR_DEBUG("Could not determine device type for device " "with sysfs name '%s'", udev_device_get_sysname(device)); else ret = 0; return ret; } static int udevGetDeviceDetails(struct udev_device *device, virNodeDeviceDefPtr def) { int ret = 0; switch (def->caps->data.type) { case VIR_NODE_DEV_CAP_SYSTEM: /* There's no libudev equivalent of system, so ignore it. */ break; case VIR_NODE_DEV_CAP_PCI_DEV: ret = udevProcessPCI(device, def); break; case VIR_NODE_DEV_CAP_USB_DEV: ret = udevProcessUSBDevice(device, def); break; case VIR_NODE_DEV_CAP_USB_INTERFACE: ret = udevProcessUSBInterface(device, def); break; case VIR_NODE_DEV_CAP_NET: ret = udevProcessNetworkInterface(device, def); break; case VIR_NODE_DEV_CAP_SCSI_HOST: ret = udevProcessSCSIHost(device, def); break; case VIR_NODE_DEV_CAP_SCSI_TARGET: ret = udevProcessSCSITarget(device, def); break; case VIR_NODE_DEV_CAP_SCSI: ret = udevProcessSCSIDevice(device, def); break; case VIR_NODE_DEV_CAP_STORAGE: ret = udevProcessStorage(device, def); break; case VIR_NODE_DEV_CAP_SCSI_GENERIC: ret = udevProcessSCSIGeneric(device, def); break; default: virReportError(VIR_ERR_INTERNAL_ERROR, _("Unknown device type %d"), def->caps->data.type); ret = -1; break; } return ret; } static int udevRemoveOneDevice(struct udev_device *device) { virNodeDeviceObjPtr dev = NULL; virObjectEventPtr event = NULL; const char *name = NULL; int ret = -1; name = udev_device_get_syspath(device); dev = virNodeDeviceFindBySysfsPath(&driver->devs, name); if (!dev) { VIR_DEBUG("Failed to find device to remove that has udev name '%s'", name); goto cleanup; } event = virNodeDeviceEventLifecycleNew(dev->def->name, VIR_NODE_DEVICE_EVENT_DELETED, 0); VIR_DEBUG("Removing device '%s' with sysfs path '%s'", dev->def->name, name); virNodeDeviceObjRemove(&driver->devs, &dev); ret = 0; cleanup: if (event) virObjectEventStateQueue(driver->nodeDeviceEventState, event); return ret; } static int udevSetParent(struct udev_device *device, virNodeDeviceDefPtr def) { struct udev_device *parent_device = NULL; const char *parent_sysfs_path = NULL; virNodeDeviceObjPtr dev = NULL; int ret = -1; parent_device = device; do { parent_device = udev_device_get_parent(parent_device); if (parent_device == NULL) break; parent_sysfs_path = udev_device_get_syspath(parent_device); if (parent_sysfs_path == NULL) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Could not get syspath for parent of '%s'"), udev_device_get_syspath(parent_device)); goto cleanup; } dev = virNodeDeviceFindBySysfsPath(&driver->devs, parent_sysfs_path); if (dev != NULL) { if (VIR_STRDUP(def->parent, dev->def->name) < 0) { virNodeDeviceObjUnlock(dev); goto cleanup; } virNodeDeviceObjUnlock(dev); if (VIR_STRDUP(def->parent_sysfs_path, parent_sysfs_path) < 0) goto cleanup; } } while (def->parent == NULL && parent_device != NULL); if (!def->parent && VIR_STRDUP(def->parent, "computer") < 0) goto cleanup; ret = 0; cleanup: return ret; } static int udevAddOneDevice(struct udev_device *device) { virNodeDeviceDefPtr def = NULL; virNodeDeviceObjPtr dev = NULL; virObjectEventPtr event = NULL; bool new_device = true; int ret = -1; if (VIR_ALLOC(def) != 0) goto cleanup; if (VIR_STRDUP(def->sysfs_path, udev_device_get_syspath(device)) < 0) goto cleanup; if (udevGetStringProperty(device, "DRIVER", &def->driver) < 0) goto cleanup; if (VIR_ALLOC(def->caps) != 0) goto cleanup; if (udevGetDeviceType(device, &def->caps->data.type) != 0) goto cleanup; if (udevGetDeviceDetails(device, def) != 0) goto cleanup; if (udevSetParent(device, def) != 0) goto cleanup; dev = virNodeDeviceFindByName(&driver->devs, def->name); if (dev) { virNodeDeviceObjUnlock(dev); new_device = false; } /* If this is a device change, the old definition will be freed * and the current definition will take its place. */ dev = virNodeDeviceAssignDef(&driver->devs, def); if (dev == NULL) goto cleanup; if (new_device) event = virNodeDeviceEventLifecycleNew(dev->def->name, VIR_NODE_DEVICE_EVENT_CREATED, 0); else event = virNodeDeviceEventUpdateNew(dev->def->name); virNodeDeviceObjUnlock(dev); ret = 0; cleanup: if (event) virObjectEventStateQueue(driver->nodeDeviceEventState, event); if (ret != 0) { VIR_DEBUG("Discarding device %d %p %s", ret, def, def ? NULLSTR(def->sysfs_path) : ""); virNodeDeviceDefFree(def); } return ret; } static int udevProcessDeviceListEntry(struct udev *udev, struct udev_list_entry *list_entry) { struct udev_device *device; const char *name = NULL; int ret = -1; name = udev_list_entry_get_name(list_entry); device = udev_device_new_from_syspath(udev, name); if (device != NULL) { if (udevAddOneDevice(device) != 0) { VIR_DEBUG("Failed to create node device for udev device '%s'", name); } ret = 0; } udev_device_unref(device); return ret; } /* We do not care about every device (see udevGetDeviceType). * Do not bother enumerating over subsystems that do not * contain interesting devices. */ const char *subsystem_blacklist[] = { "acpi", "tty", "vc", "i2c", }; static int udevEnumerateAddMatches(struct udev_enumerate *udev_enumerate) { size_t i; for (i = 0; i < ARRAY_CARDINALITY(subsystem_blacklist); i++) { const char *s = subsystem_blacklist[i]; if (udev_enumerate_add_nomatch_subsystem(udev_enumerate, s) < 0) { virReportSystemError(errno, "%s", _("failed to add susbsystem filter")); return -1; } } return 0; } static int udevEnumerateDevices(struct udev *udev) { struct udev_enumerate *udev_enumerate = NULL; struct udev_list_entry *list_entry = NULL; int ret = -1; udev_enumerate = udev_enumerate_new(udev); if (udevEnumerateAddMatches(udev_enumerate) < 0) goto cleanup; ret = udev_enumerate_scan_devices(udev_enumerate); if (ret != 0) { virReportError(VIR_ERR_INTERNAL_ERROR, _("udev scan devices returned %d"), ret); goto cleanup; } udev_list_entry_foreach(list_entry, udev_enumerate_get_list_entry(udev_enumerate)) { udevProcessDeviceListEntry(udev, list_entry); } cleanup: udev_enumerate_unref(udev_enumerate); return ret; } static void udevPCITranslateDeinit(void) { #if defined __s390__ || defined __s390x_ /* Nothing was initialized, nothing needs to be cleaned up */ #else /* pci_system_cleanup returns void */ pci_system_cleanup(); #endif return; } static int nodeStateCleanup(void) { udevPrivate *priv = NULL; struct udev_monitor *udev_monitor = NULL; struct udev *udev = NULL; if (!driver) return -1; nodeDeviceLock(); virObjectEventStateFree(driver->nodeDeviceEventState); priv = driver->privateData; if (priv) { if (priv->watch != -1) virEventRemoveHandle(priv->watch); udev_monitor = DRV_STATE_UDEV_MONITOR(driver); if (udev_monitor != NULL) { udev = udev_monitor_get_udev(udev_monitor); udev_monitor_unref(udev_monitor); } } if (udev != NULL) udev_unref(udev); virNodeDeviceObjListFree(&driver->devs); nodeDeviceUnlock(); virMutexDestroy(&driver->lock); VIR_FREE(driver); VIR_FREE(priv); udevPCITranslateDeinit(); return 0; } static void udevEventHandleCallback(int watch ATTRIBUTE_UNUSED, int fd, int events ATTRIBUTE_UNUSED, void *data ATTRIBUTE_UNUSED) { struct udev_device *device = NULL; struct udev_monitor *udev_monitor = DRV_STATE_UDEV_MONITOR(driver); const char *action = NULL; int udev_fd = -1; nodeDeviceLock(); udev_fd = udev_monitor_get_fd(udev_monitor); if (fd != udev_fd) { virReportError(VIR_ERR_INTERNAL_ERROR, _("File descriptor returned by udev %d does not " "match node device file descriptor %d"), fd, udev_fd); goto cleanup; } device = udev_monitor_receive_device(udev_monitor); if (device == NULL) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("udev_monitor_receive_device returned NULL")); goto cleanup; } action = udev_device_get_action(device); VIR_DEBUG("udev action: '%s'", action); if (STREQ(action, "add") || STREQ(action, "change")) { udevAddOneDevice(device); goto cleanup; } if (STREQ(action, "remove")) { udevRemoveOneDevice(device); goto cleanup; } cleanup: udev_device_unref(device); nodeDeviceUnlock(); return; } /* DMI is intel-compatible specific */ #if defined(__x86_64__) || defined(__i386__) || defined(__amd64__) static void udevGetDMIData(virNodeDevCapDataPtr data) { struct udev *udev = NULL; struct udev_device *device = NULL; udev = udev_monitor_get_udev(DRV_STATE_UDEV_MONITOR(driver)); device = udev_device_new_from_syspath(udev, DMI_DEVPATH); if (device == NULL) { device = udev_device_new_from_syspath(udev, DMI_DEVPATH_FALLBACK); if (device == NULL) { virReportError(VIR_ERR_INTERNAL_ERROR, _("Failed to get udev device for syspath '%s' or '%s'"), DMI_DEVPATH, DMI_DEVPATH_FALLBACK); return; } } if (udevGetStringSysfsAttr(device, "product_name", &data->system.product_name) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "sys_vendor", &data->system.hardware.vendor_name) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "product_version", &data->system.hardware.version) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "product_serial", &data->system.hardware.serial) < 0) goto cleanup; if (virGetHostUUID(data->system.hardware.uuid)) goto cleanup; if (udevGetStringSysfsAttr(device, "bios_vendor", &data->system.firmware.vendor_name) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "bios_version", &data->system.firmware.version) < 0) goto cleanup; if (udevGetStringSysfsAttr(device, "bios_date", &data->system.firmware.release_date) < 0) goto cleanup; cleanup: if (device != NULL) udev_device_unref(device); return; } #endif static int udevSetupSystemDev(void) { virNodeDeviceDefPtr def = NULL; virNodeDeviceObjPtr dev = NULL; int ret = -1; if (VIR_ALLOC(def) < 0) return -1; if (VIR_STRDUP(def->name, "computer") < 0) goto cleanup; if (VIR_ALLOC(def->caps) != 0) goto cleanup; #if defined(__x86_64__) || defined(__i386__) || defined(__amd64__) udevGetDMIData(&def->caps->data); #endif dev = virNodeDeviceAssignDef(&driver->devs, def); if (dev == NULL) goto cleanup; virNodeDeviceObjUnlock(dev); ret = 0; cleanup: if (ret == -1) virNodeDeviceDefFree(def); return ret; } static int udevPCITranslateInit(bool privileged ATTRIBUTE_UNUSED) { #if defined __s390__ || defined __s390x_ /* On s390(x) system there is no PCI bus. * Therefore there is nothing to initialize here. */ #else int rc; if ((rc = pci_system_init()) != 0) { /* Ignore failure as non-root; udev is not as helpful in that * situation, but a non-privileged user won't benefit much * from udev in the first place. */ if (errno != ENOENT && (privileged || errno != EACCES)) { virReportSystemError(rc, "%s", _("Failed to initialize libpciaccess")); return -1; } } #endif return 0; } static int nodeStateInitialize(bool privileged, virStateInhibitCallback callback ATTRIBUTE_UNUSED, void *opaque ATTRIBUTE_UNUSED) { udevPrivate *priv = NULL; struct udev *udev = NULL; int ret = -1; if (VIR_ALLOC(priv) < 0) return -1; priv->watch = -1; priv->privileged = privileged; if (VIR_ALLOC(driver) < 0) { VIR_FREE(priv); return -1; } if (virMutexInit(&driver->lock) < 0) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("Unable to initialize mutex")); VIR_FREE(priv); VIR_FREE(driver); return -1; } driver->privateData = priv; nodeDeviceLock(); driver->nodeDeviceEventState = virObjectEventStateNew(); if (udevPCITranslateInit(privileged) < 0) goto cleanup; /* * http://www.kernel.org/pub/linux/utils/kernel/hotplug/libudev/libudev-udev.html#udev-new * * indicates no return value other than success, so we don't check * its return value. */ udev = udev_new(); #if HAVE_UDEV_LOGGING /* cast to get rid of missing-format-attribute warning */ udev_set_log_fn(udev, (udevLogFunctionPtr) udevLogFunction); #endif priv->udev_monitor = udev_monitor_new_from_netlink(udev, "udev"); if (priv->udev_monitor == NULL) { virReportError(VIR_ERR_INTERNAL_ERROR, "%s", _("udev_monitor_new_from_netlink returned NULL")); goto cleanup; } udev_monitor_enable_receiving(priv->udev_monitor); /* We register the monitor with the event callback so we are * notified by udev of device changes before we enumerate existing * devices because libvirt will simply recreate the device if we * try to register it twice, i.e., if the device appears between * the time we register the callback and the time we begin * enumeration. The alternative is to register the callback after * we enumerate, in which case we will fail to create any devices * that appear while the enumeration is taking place. */ priv->watch = virEventAddHandle(udev_monitor_get_fd(priv->udev_monitor), VIR_EVENT_HANDLE_READABLE, udevEventHandleCallback, NULL, NULL); if (priv->watch == -1) goto cleanup; /* Create a fictional 'computer' device to root the device tree. */ if (udevSetupSystemDev() != 0) goto cleanup; /* Populate with known devices */ if (udevEnumerateDevices(udev) != 0) goto cleanup; ret = 0; cleanup: nodeDeviceUnlock(); if (ret == -1) nodeStateCleanup(); return ret; } static int nodeStateReload(void) { return 0; } static virNodeDeviceDriver udevNodeDeviceDriver = { .name = "udev", .nodeNumOfDevices = nodeNumOfDevices, /* 0.7.3 */ .nodeListDevices = nodeListDevices, /* 0.7.3 */ .connectListAllNodeDevices = nodeConnectListAllNodeDevices, /* 0.10.2 */ .connectNodeDeviceEventRegisterAny = nodeConnectNodeDeviceEventRegisterAny, /* 2.2.0 */ .connectNodeDeviceEventDeregisterAny = nodeConnectNodeDeviceEventDeregisterAny, /* 2.2.0 */ .nodeDeviceLookupByName = nodeDeviceLookupByName, /* 0.7.3 */ .nodeDeviceLookupSCSIHostByWWN = nodeDeviceLookupSCSIHostByWWN, /* 1.0.2 */ .nodeDeviceGetXMLDesc = nodeDeviceGetXMLDesc, /* 0.7.3 */ .nodeDeviceGetParent = nodeDeviceGetParent, /* 0.7.3 */ .nodeDeviceNumOfCaps = nodeDeviceNumOfCaps, /* 0.7.3 */ .nodeDeviceListCaps = nodeDeviceListCaps, /* 0.7.3 */ .nodeDeviceCreateXML = nodeDeviceCreateXML, /* 0.7.3 */ .nodeDeviceDestroy = nodeDeviceDestroy, /* 0.7.3 */ }; static virStateDriver udevStateDriver = { .name = "udev", .stateInitialize = nodeStateInitialize, /* 0.7.3 */ .stateCleanup = nodeStateCleanup, /* 0.7.3 */ .stateReload = nodeStateReload, /* 0.7.3 */ }; int udevNodeRegister(void) { VIR_DEBUG("Registering udev node device backend"); if (virSetSharedNodeDeviceDriver(&udevNodeDeviceDriver) < 0) return -1; return virRegisterStateDriver(&udevStateDriver); }