# udev.py # Python module for querying the udev database for device information. # # Copyright (C) 2009 Red Hat, Inc. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # the GNU General Public License v.2, or (at your option) any later version. # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY expressed or implied, including the implied warranties of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General # Public License for more details. You should have received a copy of the # GNU General Public License along with this program; if not, write to the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. Any Red Hat trademarks that are incorporated in the # source code or documentation are not subject to the GNU General Public # License and may only be used or replicated with the express permission of # Red Hat, Inc. # # Red Hat Author(s): Dave Lehman # import os import iutil from errors import * from baseudev import * import logging log = logging.getLogger("storage") def udev_resolve_devspec(devspec): if not devspec: return None import devices as _devices ret = None for dev in udev_get_block_devices(): if devspec.startswith("LABEL="): if udev_device_get_label(dev) == devspec[6:]: ret = dev break elif devspec.startswith("UUID="): if udev_device_get_uuid(dev) == devspec[5:]: ret = dev break elif udev_device_get_name(dev) == _devices.devicePathToName(devspec): ret = dev break else: for link in dev["symlinks"]: if devspec == "/dev/" + link: ret = dev break del _devices if ret: return udev_device_get_name(ret) def udev_resolve_glob(glob): import fnmatch ret = [] if not glob: return ret for dev in udev_get_block_devices(): name = udev_device_get_name(dev) if fnmatch.fnmatch(name, glob): ret.append(name) else: for link in dev["symlinks"]: if fnmatch.fnmatch("/dev/" + link, glob): ret.append(name) return ret def udev_get_block_devices(): udev_settle() entries = [] for path in udev_enumerate_block_devices(): entry = udev_get_block_device(path) if entry: if entry["name"].startswith("md"): # mdraid is really braindead, when a device is stopped # it is no longer usefull in anyway (and we should not # probe it) yet it still sticks around, see bug rh523387 state = None state_file = "/sys/%s/md/array_state" % entry["sysfs_path"] if os.access(state_file, os.R_OK): state = open(state_file).read().strip() if state == "clear": continue entries.append(entry) return entries def __is_blacklisted_blockdev(dev_name): """Is this a blockdev we never want for an install?""" if dev_name.startswith("loop") or dev_name.startswith("ram") or dev_name.startswith("fd"): return True if os.path.exists("/sys/class/block/%s/device/model" %(dev_name,)): model = open("/sys/class/block/%s/device/model" %(dev_name,)).read() for bad in ("IBM *STMF KERNEL", "SCEI Flash-5", "DGC LUNZ"): if model.find(bad) != -1: log.info("ignoring %s with model %s" %(dev_name, model)) return True return False def udev_enumerate_block_devices(): import os.path return filter(lambda d: not __is_blacklisted_blockdev(os.path.basename(d)), udev_enumerate_devices(deviceClass="block")) def udev_get_block_device(sysfs_path): dev = udev_get_device(sysfs_path) if not dev or not dev.has_key("name"): return None else: return dev # These are functions for retrieving specific pieces of information from # udev database entries. def udev_device_get_name(udev_info): """ Return the best name for a device based on the udev db data. """ return udev_info.get("DM_NAME", udev_info["name"]) def udev_device_get_format(udev_info): """ Return a device's format type as reported by udev. """ return udev_info.get("ID_FS_TYPE") def udev_device_get_uuid(udev_info): """ Get the UUID from the device's format as reported by udev. """ md_uuid = udev_info.get("MD_UUID") uuid = udev_info.get("ID_FS_UUID") # we don't want to return the array's uuid as a member's uuid if uuid and not md_uuid == uuid: return udev_info.get("ID_FS_UUID") def udev_device_get_label(udev_info): """ Get the label from the device's format as reported by udev. """ return udev_info.get("ID_FS_LABEL") def udev_device_is_dm(info): """ Return True if the device is a device-mapper device. """ return info.has_key("DM_NAME") def udev_device_is_md(info): """ Return True if the device is a mdraid array device. """ # isw raid set *members* have MD_METADATA set, but are not arrays! return info.has_key("MD_METADATA") and \ info.get("ID_FS_TYPE") != "isw_raid_member" def udev_device_is_cciss(info): """ Return True if the device is a CCISS device. """ return udev_device_get_name(info).startswith("cciss") def udev_device_is_dasd(info): """ Return True if the device is a dasd device. """ devname = info.get("DEVNAME") if devname: return devname.startswith("dasd") else: return False def udev_device_is_zfcp(info): """ Return True if the device is a zfcp device. """ if info.get("DEVTYPE") != "disk": return False subsystem = "/sys" + info.get("sysfs_path") while True: topdir = os.path.realpath(os.path.dirname(subsystem)) driver = "%s/driver" % (topdir,) if os.path.islink(driver): subsystemname = os.path.basename(os.readlink(subsystem)) drivername = os.path.basename(os.readlink(driver)) if subsystemname == 'ccw' and drivername == 'zfcp': return True newsubsystem = os.path.dirname(topdir) if newsubsystem == topdir: break subsystem = newsubsystem + "/subsystem" return False def udev_device_get_zfcp_attribute(info, attr=None): """ Return the value of the specified attribute of the zfcp device. """ if not attr: log.debug("udev_device_get_zfcp_attribute() called with attr=None") return None attribute = "/sys%s/device/%s" % (info.get("sysfs_path"), attr,) attribute = os.path.realpath(attribute) if not os.path.isfile(attribute): log.warning("%s is not a valid zfcp attribute" % (attribute,)) return None return open(attribute, "r").read().strip() def udev_device_get_dasd_bus_id(info): """ Return the CCW bus ID of the dasd device. """ return info.get("sysfs_path").split("/")[-3] def udev_device_get_dasd_flag(info, flag=None): """ Return the specified flag for the dasd device. """ if flag is None: return None path = "/sys" + info.get("sysfs_path") + "/device/" + flag if not os.path.isfile(path): return None return open(path, 'r').read().strip() def udev_device_is_cdrom(info): """ Return True if the device is an optical drive. """ # FIXME: how can we differentiate USB drives from CD-ROM drives? # -- USB drives also generate a sdX device. return info.get("ID_CDROM") == "1" def udev_device_is_disk(info): """ Return True is the device is a disk. """ if udev_device_is_cdrom(info): return False has_range = os.path.exists("/sys/%s/range" % info['sysfs_path']) return info.get("DEVTYPE") == "disk" or has_range def udev_device_is_partition(info): has_start = os.path.exists("/sys/%s/start" % info['sysfs_path']) return info.get("DEVTYPE") == "partition" or has_start def udev_device_get_serial(udev_info): """ Get the serial number/UUID from the device as reported by udev. """ return udev_info.get("ID_SERIAL_SHORT", udev_info.get("ID_SERIAL")) def udev_device_get_wwid(udev_info): """ The WWID of a device is typically just its serial number, but with colons in the name to make it more readable. """ serial = udev_device_get_serial(udev_info) if serial and len(serial) == 32: retval = "" for i in range(0, 16): retval += serial[i*2:i*2+2] + ":" return retval[0:-1] return "" def udev_device_get_vendor(udev_info): """ Get the vendor of the device as reported by udev. """ return udev_info.get("ID_VENDOR_FROM_DATABASE", udev_info.get("ID_VENDOR")) def udev_device_get_model(udev_info): """ Get the model of the device as reported by udev. """ return udev_info.get("ID_MODEL_FROM_DATABASE", udev_info.get("ID_MODEL")) def udev_device_get_bus(udev_info): """ Get the bus a device is connected to the system by. """ return udev_info.get("ID_BUS", "").upper() def udev_device_get_path(info): return info["ID_PATH"] def udev_device_get_sysfs_path(info): return info['sysfs_path'] def udev_device_get_major(info): return int(info["MAJOR"]) def udev_device_get_minor(info): return int(info["MINOR"]) def udev_device_get_md_level(info): return info.get("MD_LEVEL") def udev_device_get_md_devices(info): return int(info["MD_DEVICES"]) def udev_device_get_md_uuid(info): return info["MD_UUID"] def udev_device_get_md_container(info): return info.get("MD_CONTAINER") def udev_device_get_md_name(info): return info.get("MD_DEVNAME") def udev_device_get_vg_name(info): return info['LVM2_VG_NAME'] def udev_device_get_vg_uuid(info): return info['LVM2_VG_UUID'] def udev_device_get_vg_size(info): # lvm's decmial precision is not configurable, so we tell it to use # KB and convert to MB here return float(info['LVM2_VG_SIZE']) / 1024 def udev_device_get_vg_free(info): # lvm's decmial precision is not configurable, so we tell it to use # KB and convert to MB here return float(info['LVM2_VG_FREE']) / 1024 def udev_device_get_vg_extent_size(info): # lvm's decmial precision is not configurable, so we tell it to use # KB and convert to MB here return float(info['LVM2_VG_EXTENT_SIZE']) / 1024 def udev_device_get_vg_extent_count(info): return int(info['LVM2_VG_EXTENT_COUNT']) def udev_device_get_vg_free_extents(info): return int(info['LVM2_VG_FREE_COUNT']) def udev_device_get_vg_pv_count(info): return int(info['LVM2_PV_COUNT']) def udev_device_get_pv_pe_start(info): # lvm's decmial precision is not configurable, so we tell it to use # KB and convert to MB here return float(info['LVM2_PE_START']) / 1024 def udev_device_get_lv_names(info): names = info['LVM2_LV_NAME'] if not names: names = [] elif not isinstance(names, list): names = [names] return names def udev_device_get_lv_uuids(info): uuids = info['LVM2_LV_UUID'] if not uuids: uuids = [] elif not isinstance(uuids, list): uuids = [uuids] return uuids def udev_device_get_lv_sizes(info): # lvm's decmial precision is not configurable, so we tell it to use # KB and convert to MB here sizes = info['LVM2_LV_SIZE'] if not sizes: sizes = [] elif not isinstance(sizes, list): sizes = [sizes] return [float(s) / 1024 for s in sizes] def udev_device_get_lv_attr(info): attr = info['LVM2_LV_ATTR'] if not attr: attr = [] elif not isinstance(attr, list): attr = [attr] return attr def udev_device_is_biosraid(info): # Note that this function does *not* identify raid sets. # Tests to see if device is parto of a dmraid set. # dmraid and mdraid have the same ID_FS_USAGE string, ID_FS_TYPE has a # string that describes the type of dmraid (isw_raid_member...), I don't # want to maintain a list and mdraid's ID_FS_TYPE='linux_raid_member', so # dmraid will be everything that is raid and not linux_raid_member from formats.dmraid import DMRaidMember from formats.mdraid import MDRaidMember if info.has_key("ID_FS_TYPE") and \ (info["ID_FS_TYPE"] in DMRaidMember._udevTypes or \ info["ID_FS_TYPE"] in MDRaidMember._udevTypes) and \ info["ID_FS_TYPE"] != "linux_raid_member": return True return False def udev_device_get_dmraid_partition_disk(info): try: p_index = info["DM_NAME"].rindex("p") except (KeyError, AttributeError, ValueError): return None if not info["DM_NAME"][p_index+1:].isdigit(): return None return info["DM_NAME"][:p_index] def udev_device_is_dmraid_partition(info, devicetree): diskname = udev_device_get_dmraid_partition_disk(info) dmraid_devices = devicetree.getDevicesByType("dm-raid array") for device in dmraid_devices: if diskname == device.name: return True return False def udev_device_is_multipath_partition(info, devicetree): """ Return True if the device is a partition of a multipath device. """ if not udev_device_is_dm(info): return False if not info["DM_NAME"].startswith("mpath"): return False diskname = udev_device_get_dmraid_partition_disk(info) if diskname is None: return False # this is sort of a lame check, but basically, if diskname gave us "mpath0" # and we start with "mpath" but we're not "mpath0", then we must be # "mpath0" plus some non-numeric crap. if diskname != info["DM_NAME"]: return True return False def udev_device_get_multipath_partition_disk(info): """ Return True if the device is a partition of a multipath device. """ # XXX PJFIX This whole function is crap. if not udev_device_is_dm(info): return False if not info["DM_NAME"].startswith("mpath"): return False diskname = udev_device_get_dmraid_partition_disk(info) return diskname def udev_device_is_multipath_member(info): """ Return True if the device is part of a multipath. """ return info.get("ID_FS_TYPE") == "multipath_member" def udev_device_get_multipath_name(info): """ Return the name of the multipath that the device is a member of. """ if udev_device_is_multipath_member(info): return info['ID_MPATH_NAME'] return None # iscsi disks have ID_PATH in the form of: # ip-${iscsi_address}:${iscsi_port}-iscsi-${iscsi_tgtname}-lun-${lun} def udev_device_is_iscsi(info): try: path_components = udev_device_get_path(info).split("-") if info["ID_BUS"] == "scsi" and len(path_components) >= 6 and \ path_components[0] == "ip" and path_components[2] == "iscsi": return True except KeyError: pass return False def udev_device_get_iscsi_name(info): path_components = udev_device_get_path(info).split("-") # Tricky, the name itself contains atleast 1 - char return "-".join(path_components[3:len(path_components)-2]) def udev_device_get_iscsi_address(info): path_components = udev_device_get_path(info).split("-") return path_components[1].split(":")[0] def udev_device_get_iscsi_port(info): path_components = udev_device_get_path(info).split("-") return path_components[1].split(":")[1] # fcoe disks have ID_PATH in the form of: # pci-eth#-fc-${id} # fcoe parts look like this: # pci-eth#-fc-${id}-part# def udev_device_is_fcoe(info): try: path_components = udev_device_get_path(info).split("-") if info["ID_BUS"] == "scsi" and len(path_components) >= 4 and \ path_components[0] == "pci" and path_components[2] == "fc" and \ path_components[1][0:3] == "eth": return True except LookupError: pass return False def udev_device_get_fcoe_nic(info): path_components = udev_device_get_path(info).split("-") return path_components[1] def udev_device_get_fcoe_identifier(info): path_components = udev_device_get_path(info).split("-") return path_components[3]