# devices.py # Device classes for anaconda's storage configuration module. # # 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 # """ Device classes for use by anaconda. This is the hierarchy of device objects that anaconda will use for managing storage devices in the system. These classes will individually make use of external support modules as needed to perform operations specific to the type of device they represent. TODO: - see how to do network devices (NetworkManager may help) - perhaps just a wrapper here - document return values of all methods/functions - find out what other kinds of wild and crazy devices we need to represent here (iseries? xen? more mainframe? mac? ps?) - PReP - this is a prime candidate for a PseudoDevice - DASD - ZFCP - XEN What specifications do we allow? new existing partitions usage + + filesystem, partition type are implicit mountpoint + + size exact + - range + - resize - + format - + encryption + + disk exact + - set + - how will we specify this? partition w/ multiple parents cannot otherwise occur primary + - mdraid sets filesystem (*) + + mountpoint + + size? format - + encryption + + level + ? device minor + ? member devices + ? spares + ? name? bitmap? (boolean) + - volume groups name + - member pvs + + pesize + ? logical volumes filesystem + + mountpoint + + size exact + ? format - + encryption + + name + ? vgname + ? """ import os import math import copy import pprint import tempfile # device backend modules from devicelibs import mdraid from devicelibs import lvm from devicelibs import dm from devicelibs import loop from devicelibs import btrfs import parted import _ped import block from errors import * from pyanaconda.iutil import notify_kernel, numeric_type from pyanaconda.flags import flags from pyanaconda.anaconda_log import log_method_call from udev import * from formats import get_device_format_class, getFormat, DeviceFormat import gettext _ = lambda x: gettext.ldgettext("anaconda", x) P_ = lambda x, y, z: gettext.ldngettext("anaconda", x, y, z) import logging log = logging.getLogger("storage") def get_device_majors(): majors = {} for line in open("/proc/devices").readlines(): try: (major, device) = line.split() except ValueError: continue try: majors[int(major)] = device except ValueError: continue return majors device_majors = get_device_majors() def devicePathToName(devicePath): if devicePath.startswith("/dev/"): name = devicePath[5:] else: name = devicePath if name.startswith("mapper/"): name = name[7:] return name def deviceNameToDiskByPath(deviceName=None): if not deviceName: return "" ret = None for dev in udev_get_block_devices(): if udev_device_get_name(dev) == deviceName: ret = udev_device_get_by_path(dev) break if ret: return ret raise DeviceNotFoundError(deviceName) class Device(object): """ A generic device. Device instances know which devices they depend upon (parents attribute). They do not know which devices depend upon them, but they do know whether or not they have any dependent devices (isleaf attribute). A Device's setup method should set up all parent devices as well as the device itself. It should not run the resident format's setup method. Which Device types rely on their parents' formats being active? DMCryptDevice A Device's teardown method should accept the keyword argument recursive, which takes a boolean value and indicates whether or not to recursively close parent devices. A Device's create method should create all parent devices as well as the device itself. It should also run the Device's setup method after creating the device. The create method should not create a device's resident format. Which device type rely on their parents' formats to be created before they can be created/assembled? VolumeGroup DMCryptDevice A Device's destroy method should destroy any resident format before destroying the device itself. """ # This is a counter for generating unique ids for Devices. _id = 0 _type = "device" _packages = [] _services = [] def __init__(self, name, parents=None): """ Create a Device instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: parents -- a list of required Device instances """ self._name = name if parents is None: parents = [] elif not isinstance(parents, list): raise ValueError("parents must be a list of Device instances") self.parents = parents self.kids = 0 # Set this instance's id and increment the counter. self.id = Device._id Device._id += 1 for parent in self.parents: parent.addChild() def __deepcopy__(self, memo): """ Create a deep copy of a Device instance. We can't do copy.deepcopy on parted objects, which is okay. For these parted objects, we just do a shallow copy. """ new = self.__class__.__new__(self.__class__) memo[id(self)] = new dont_copy_attrs = ('_raidSet',) shallow_copy_attrs = ('_partedDevice', '_partedPartition') for (attr, value) in self.__dict__.items(): if attr in dont_copy_attrs: setattr(new, attr, value) elif attr in shallow_copy_attrs: setattr(new, attr, copy.copy(value)) else: setattr(new, attr, copy.deepcopy(value, memo)) return new def __repr__(self): s = ("%(type)s instance (%(id)s) --\n" " name = %(name)s status = %(status)s" " kids = %(kids)s id = %(dev_id)s\n" " parents = %(parents)s\n" % {"type": self.__class__.__name__, "id": "%#x" % id(self), "name": self.name, "kids": self.kids, "status": self.status, "dev_id": self.id, "parents": pprint.pformat([str(p) for p in self.parents])}) return s def __str__(self): s = "%s %s (%d)" % (self.type, self.name, self.id) return s @property def dict(self): d = {"type": self.type, "name": self.name, "parents": [p.name for p in self.parents]} return d def writeKS(self, f, preexisting=False, noformat=False, s=None): return def removeChild(self): log_method_call(self, name=self.name, kids=self.kids) self.kids -= 1 def addChild(self): log_method_call(self, name=self.name, kids=self.kids) self.kids += 1 def setup(self, intf=None): """ Open, or set up, a device. """ raise NotImplementedError("setup method not defined for Device") def teardown(self, recursive=None): """ Close, or tear down, a device. """ raise NotImplementedError("teardown method not defined for Device") def create(self, intf=None): """ Create the device. """ raise NotImplementedError("create method not defined for Device") def destroy(self): """ Destroy the device. """ raise NotImplementedError("destroy method not defined for Device") def setupParents(self, orig=False): """ Run setup method of all parent devices. """ log_method_call(self, name=self.name, orig=orig, kids=self.kids) for parent in self.parents: parent.setup(orig=orig) def teardownParents(self, recursive=None): """ Run teardown method of all parent devices. """ for parent in self.parents: parent.teardown(recursive=recursive) def dependsOn(self, dep): """ Return True if this device depends on dep. """ # XXX does a device depend on itself? if dep in self.parents: return True for parent in self.parents: if parent.dependsOn(dep): return True return False def dracutSetupArgs(self): return set() @property def status(self): """ This device's status. For now, this should return a boolean: True the device is open and ready for use False the device is not open """ return False @property def name(self): """ This device's name. """ return self._name @property def isleaf(self): """ True if this device has no children. """ return self.kids == 0 @property def typeDescription(self): """ String describing the device type. """ return self._type @property def type(self): """ Device type. """ return self._type @property def packages(self): """ List of packages required to manage devices of this type. This list includes the packages required by its parent devices. """ packages = self._packages for parent in self.parents: for package in parent.packages: if package not in packages: packages.append(package) return packages @property def services(self): """ List of services required to manage devices of this type. This list includes the services required by its parent devices." """ services = self._services for parent in self.parents: for service in parent.services: if service not in services: services.append(service) return services @property def mediaPresent(self): return True class NetworkStorageDevice(object): """ Virtual base class for network backed storage devices """ def __init__(self, host_address=None, nic=None): """ Create a NetworkStorage Device instance. Note this class is only to be used as a baseclass and then only with multiple inheritance. The only correct use is: class MyStorageDevice(StorageDevice, NetworkStorageDevice): The sole purpose of this class is to: 1) Be able to check if a StorageDevice is network backed (using isinstance). 2) To be able to get the host address of the host (server) backing the storage *or* the NIC through which the storage is connected Arguments: host_address -- host address of the backing server nic -- nic to which the storage is bound """ self.host_address = host_address self.nic = nic class StorageDevice(Device): """ A generic storage device. A fully qualified path to the device node can be obtained via the path attribute, although it is not guaranteed to be useful, or even present, unless the StorageDevice's setup method has been run. StorageDevice instances can optionally contain a filesystem, represented by an FS instance. A StorageDevice's create method should create a filesystem if one has been specified. """ _type = "storage" _devDir = "/dev" sysfsBlockDir = "class/block" _resizable = False _partitionable = False _isDisk = False def __init__(self, name, format=None, uuid=None, size=None, major=None, minor=None, sysfsPath='', parents=None, exists=None, serial=None, vendor="", model="", bus=""): """ Create a StorageDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: size -- the device's size (units/format TBD) major -- the device major minor -- the device minor sysfsPath -- sysfs device path format -- a DeviceFormat instance uuid -- universally unique identifier parents -- a list of required Device instances serial -- the ID_SERIAL_SHORT for this device vendor -- the manufacturer of this Device model -- manufacturer's device model string bus -- the interconnect this device uses """ # allow specification of individual parents if isinstance(parents, Device): parents = [parents] self.exists = exists Device.__init__(self, name, parents=parents) self.uuid = uuid self._format = None self._size = numeric_type(size) self.major = numeric_type(major) self.minor = numeric_type(minor) self.sysfsPath = sysfsPath self._serial = serial self._vendor = vendor self._model = model self.bus = bus self.protected = False self.controllable = True self.format = format self.originalFormat = self.format self.fstabComment = "" self._targetSize = self._size self._partedDevice = None def __str__(self): exist = "existing" if not self.exists: exist = "non-existent" s = "%s %dMB %s" % (exist, self.size, super(StorageDevice, self).__str__()) if self.format.type: s += " with %s" % self.format return s @property def packages(self): """ List of packages required to manage devices of this type. This list includes the packages required by this device's format type as well those required by all of its parent devices. """ packages = super(StorageDevice, self).packages packages.extend(self.format.packages) for parent in self.parents: for package in parent.format.packages: if package not in packages: packages.append(package) return packages @property def services(self): """ List of services required to manage devices of this type. This list includes the services required by this device's format type as well those required by all of its parent devices. """ services = super(StorageDevice, self).services services.extend(self.format.services) for parent in self.parents: for service in parent.format.services: if service not in services: services.append(service) return services @property def disks(self): """ A list of all disks this device depends on, including itself. """ _disks = [] for parent in self.parents: for disk in parent.disks: if disk not in _disks: _disks.append(disk) if self.isDisk and not self.format.hidden: _disks.append(self) return _disks @property def encrypted(self): """ True if this device, or any it requires, is encrypted. """ crypted = False for parent in self.parents: if parent.encrypted: crypted = True break if not crypted and isinstance(self, DMCryptDevice): crypted = True return crypted @property def partedDevice(self): if self.exists and self.status and not self._partedDevice: log.debug("looking up parted Device: %s" % self.path) # We aren't guaranteed to be able to get a device. In # particular, built-in USB flash readers show up as devices but # do not always have any media present, so parted won't be able # to find a device. try: self._partedDevice = parted.Device(path=self.path) except (_ped.IOException, _ped.DeviceException): pass return self._partedDevice def _getTargetSize(self): return self._targetSize def _setTargetSize(self, newsize): self._targetSize = newsize targetSize = property(lambda s: s._getTargetSize(), lambda s, v: s._setTargetSize(v), doc="Target size of this device") def __repr__(self): s = Device.__repr__(self) s += (" uuid = %(uuid)s size = %(size)s\n" " format = %(format)s\n" " major = %(major)s minor = %(minor)s exists = %(exists)s" " protected = %(protected)s\n" " sysfs path = %(sysfs)s partedDevice = %(partedDevice)s\n" " target size = %(targetSize)s path = %(path)s\n" " format args = %(formatArgs)s originalFormat = %(origFmt)s" % {"uuid": self.uuid, "format": self.format, "size": self.size, "major": self.major, "minor": self.minor, "exists": self.exists, "sysfs": self.sysfsPath, "partedDevice": self.partedDevice, "targetSize": self.targetSize, "path": self.path, "protected": self.protected, "formatArgs": self.formatArgs, "origFmt": self.originalFormat.type}) return s @property def dict(self): d = super(StorageDevice, self).dict d.update({"uuid": self.uuid, "size": self.size, "format": self.format.dict, "removable": self.removable, "major": self.major, "minor": self.minor, "exists": self.exists, "sysfs": self.sysfsPath, "targetSize": self.targetSize, "path": self.path}) return d @property def path(self): """ Device node representing this device. """ return "%s/%s" % (self._devDir, self.name) def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) sysfsName = self.name.replace("/", "!") path = os.path.join("/sys", self.sysfsBlockDir, sysfsName) self.sysfsPath = os.path.realpath(path)[4:] log.debug("%s sysfsPath set to %s" % (self.name, self.sysfsPath)) @property def formatArgs(self): """ Device-specific arguments to format creation program. """ return [] @property def resizable(self): """ Can this type of device be resized? """ return (self._resizable and self.exists and (self.format.resizable or not self.format.type)) def notifyKernel(self): """ Send a 'change' uevent to the kernel for this device. """ log_method_call(self, self.name, status=self.status) if not self.exists: log.debug("not sending change uevent for non-existent device") return if not self.status: log.debug("not sending change uevent for inactive device") return path = os.path.normpath("/sys/%s" % self.sysfsPath) try: notify_kernel(path, action="change") except (ValueError, IOError) as e: log.warning("failed to notify kernel of change: %s" % e) @property def fstabSpec(self): spec = self.path if self.format and self.format.uuid: spec = "UUID=%s" % self.format.uuid return spec def resize(self, intf=None): """ Resize the device. New size should already be set. """ raise NotImplementedError("resize method not defined for StorageDevice") # # progress/status ui # # We define methods to create a wait window or a pulse progress window. # Device classes can define a _statusWindow method that calls the # appropriate method for display during device operations. Currently, # the only thing we display progress/status windows for is device creation. # MD and LVM devices can pass pulse progress windows down into the # devicelibs functions, but all other devices display a wait window. # def _progressWindow(self, intf=None, title="", msg=""): w = None if intf: w = intf.progressWindow(title, msg, 100, pulse=True) return w def _waitWindow(self, intf=None, title="", msg=""): w = None if intf: w = intf.waitWindow(title, msg) return w def _statusWindow(self, intf=None, title="", msg=""): return self._waitWindow(intf=intf, title=title, msg=msg) # # setup # def _preSetup(self, orig=False): """ Preparation and pre-condition checking for device setup. Return True if setup should proceed or False if not. """ if not self.exists: raise DeviceError("device has not been created", self.name) if self.status or not self.controllable: return False self.setupParents(orig=orig) return True def _setup(self, intf=None, orig=False): """ Perform device-specific setup operations. """ pass def setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) if not self._preSetup(orig=orig): return self._setup(intf=intf, orig=orig) self._postSetup() def _postSetup(self): """ Perform post-setup operations. """ udev_settle() # we always probe since the device may not be set up when we want # information about it self._size = self.currentSize # # teardown # def _preTeardown(self, recursive=None): """ Preparation and pre-condition checking for device teardown. Return True if teardown should proceed or False if not. """ if not self.exists and not recursive: raise DeviceError("device has not been created", self.name) if not self.status or not self.controllable: return False if self.originalFormat.exists: self.originalFormat.teardown() self.format.cacheMajorminor() if self.format.exists: self.format.teardown() udev_settle() return True def _teardown(self, recursive=None): """ Perform device-specific teardown operations. """ pass def teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) if not self._preTeardown(recursive=recursive): return self._teardown(recursive=recursive) self._postTeardown(recursive=recursive) def _postTeardown(self, recursive=None): """ Perform post-teardown operations. """ if recursive: self.teardownParents(recursive=recursive) # # create # def _preCreate(self): """ Preparation and pre-condition checking for device creation. """ if self.exists: raise DeviceError("device has already been created", self.name) self.setupParents() def _create(self, w): """ Perform device-specific create operations. """ pass def create(self, intf=None): """ Create the device. """ log_method_call(self, self.name, status=self.status) self._preCreate() w = self._statusWindow(intf=intf, title=_("Creating"), msg=_("Creating device %s") % self.path) try: self._create(w) except Exception as e: raise DeviceCreateError(str(e), self.name) else: self._postCreate() finally: if w: w.pop() def _postCreate(self): """ Perform post-create operations. """ self.exists = True self.setup() self.updateSysfsPath() udev_settle() # # destroy # def _preDestroy(self): """ Preparation and precondition checking for device destruction. """ if not self.exists: raise DeviceError("device has not been created", self.name) if not self.isleaf: raise DeviceError("Cannot destroy non-leaf device", self.name) self.teardown() def _destroy(self): """ Perform device-specific destruction operations. """ pass def destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) self._preDestroy() self._destroy() self._postDestroy() def _postDestroy(self): """ Perform post-destruction operations. """ self.exists = False def setupParents(self, orig=False): """ Run setup method of all parent devices. """ log_method_call(self, name=self.name, orig=orig, kids=self.kids) for parent in self.parents: parent.setup(orig=orig) if orig: _format = parent.originalFormat else: _format = parent.format # set up the formatting, if present if _format.type and _format.exists: _format.setup() def _getSize(self): """ Get the device's size in MB, accounting for pending changes. """ if self.exists and not self.mediaPresent: return 0 if self.exists and self.partedDevice: self._size = self.currentSize size = self._size if self.exists and self.resizable and self.targetSize != size: size = self.targetSize return size def _setSize(self, newsize): """ Set the device's size to a new value. """ if newsize > self.maxSize: raise DeviceError("device cannot be larger than %s MB" % (self.maxSize(),), self.name) self._size = newsize size = property(lambda x: x._getSize(), lambda x, y: x._setSize(y), doc="The device's size in MB, accounting for pending changes") @property def currentSize(self): """ The device's actual size. """ size = 0 if self.exists and self.partedDevice: size = self.partedDevice.getSize() elif self.exists: size = self._size return size @property def minSize(self): """ The minimum size this device can be. """ if self.format.minSize: return self.format.minSize else: return self.size @property def maxSize(self): """ The maximum size this device can be. """ if self.format.maxSize > self.currentSize: return self.currentSize else: return self.format.maxSize @property def status(self): """ This device's status. For now, this should return a boolean: True the device is open and ready for use False the device is not open """ if not self.exists: return False return os.access(self.path, os.W_OK) def _setFormat(self, format): """ Set the Device's format. """ if not format: format = getFormat(None, device=self.path, exists=self.exists) log_method_call(self, self.name, type=format.type, current=getattr(self._format, "type", None)) if self._format and self._format.status: # FIXME: self.format.status doesn't mean much raise DeviceError("cannot replace active format", self.name) self._format = format self._format.device = self.path def _getFormat(self): return self._format format = property(lambda d: d._getFormat(), lambda d,f: d._setFormat(f), doc="The device's formatting.") def preCommitFixup(self, *args, **kwargs): """ Do any necessary pre-commit fixups.""" pass @property def removable(self): devpath = os.path.normpath("/sys/%s" % self.sysfsPath) remfile = os.path.normpath("%s/removable" % devpath) return (self.sysfsPath and os.path.exists(devpath) and os.access(remfile, os.R_OK) and open(remfile).readline().strip() == "1") @property def isDisk(self): return self._isDisk @property def partitionable(self): return self._partitionable @property def partitioned(self): return self.format.type == "disklabel" and self.partitionable @property def serial(self): return self._serial @property def model(self): if not self._model: self._model = getattr(self.partedDevice, "model", "") return self._model @property def vendor(self): return self._vendor @property def growable(self): """ True if this device or it's component devices are growable. """ grow = getattr(self, "req_grow", False) if not grow: for parent in self.parents: grow = parent.growable if grow: break return grow def checkSize(self): """ Check to make sure the size of the device is allowed by the format used. Returns: 0 - ok 1 - Too large -1 - Too small """ if self.format.maxSize and self.size > self.format.maxSize: return 1 elif self.format.minSize and self.size < self.format.minSize: return -1 return 0 class DiskDevice(StorageDevice): """ A disk """ _type = "disk" _partitionable = True _isDisk = True def __init__(self, name, format=None, size=None, major=None, minor=None, sysfsPath='', parents=None, serial=None, vendor="", model="", bus="", exists=True): """ Create a DiskDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: size -- the device's size (units/format TBD) major -- the device major minor -- the device minor sysfsPath -- sysfs device path format -- a DeviceFormat instance parents -- a list of required Device instances removable -- whether or not this is a removable device serial -- the ID_SERIAL_SHORT for this device vendor -- the manufacturer of this Device model -- manufacturer's device model string bus -- the interconnect this device uses DiskDevices always exist. """ StorageDevice.__init__(self, name, format=format, size=size, major=major, minor=minor, exists=exists, sysfsPath=sysfsPath, parents=parents, serial=serial, model=model, vendor=vendor, bus=bus) def __repr__(self): s = StorageDevice.__repr__(self) s += (" removable = %(removable)s partedDevice = %(partedDevice)r" % {"removable": self.removable, "partedDevice": self.partedDevice}) return s @property def mediaPresent(self): if not self.partedDevice: return False # Some drivers (cpqarray ) make block device nodes for # controllers with no disks attached and then report a 0 size, # treat this as no media present return self.partedDevice.getSize() != 0 @property def description(self): return self.model @property def size(self): """ The disk's size in MB """ return super(DiskDevice, self).size #size = property(StorageDevice._getSize) def _preDestroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) if not self.mediaPresent: raise DeviceError("cannot destroy disk with no media", self.name) StorageDevice._preDestroy(self) class PartitionDevice(StorageDevice): """ A disk partition. On types and flags... We don't need to deal with numerical partition types at all. The only type we are concerned with is primary/logical/extended. Usage specification is accomplished through the use of flags, which we will set according to the partition's format. """ _type = "partition" _resizable = True defaultSize = 500 def __init__(self, name, format=None, size=None, grow=False, maxsize=None, major=None, minor=None, bootable=None, sysfsPath='', parents=None, exists=None, partType=None, primary=False, weight=0): """ Create a PartitionDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: exists -- indicates whether this is an existing device format -- the device's format (DeviceFormat instance) For existing partitions: parents -- the disk that contains this partition major -- the device major minor -- the device minor sysfsPath -- sysfs device path For new partitions: partType -- primary,extended,&c (as parted constant) grow -- whether or not to grow the partition maxsize -- max size for growable partitions (in MB) size -- the device's size (in MB) bootable -- whether the partition is bootable parents -- a list of potential containing disks weight -- an initial sorting weight to assign """ self.req_disks = [] self.req_partType = None self.req_primary = None self.req_grow = None self.req_bootable = None self.req_size = 0 self.req_base_size = 0 self.req_max_size = 0 self.req_base_weight = 0 self._bootable = False StorageDevice.__init__(self, name, format=format, size=size, major=major, minor=minor, exists=exists, sysfsPath=sysfsPath, parents=parents) if not exists: # this is a request, not a partition -- it has no parents self.req_disks = self.parents[:] for dev in self.parents: dev.removeChild() self.parents = [] # FIXME: Validate partType, but only if this is a new partition # Otherwise, overwrite it with the partition's type. self._partType = None self.partedFlags = {} self._partedPartition = None self._origPath = None self._currentSize = 0 # FIXME: Validate size, but only if this is a new partition. # For existing partitions we will get the size from # parted. if self.exists: log.debug("looking up parted Partition: %s" % self.path) self._partedPartition = self.disk.format.partedDisk.getPartitionByPath(self.path) if not self._partedPartition: raise DeviceError("cannot find parted partition instance", self.name) self._origPath = self.path # collect information about the partition from parted self.probe() if self.getFlag(parted.PARTITION_PREP): # the only way to identify a PPC PReP Boot partition is to # check the partition type/flags, so do it here. self.format = getFormat("prepboot", device=self.path, exists=True) elif self.getFlag(parted.PARTITION_BIOS_GRUB): # the only way to identify a BIOS Boot partition is to # check the partition type/flags, so do it here. self.format = getFormat("biosboot", device=self.path, exists=True) else: # XXX It might be worthwhile to create a shit-simple # PartitionRequest class and pass one to this constructor # for new partitions. if not self._size: # default size for new partition requests self._size = self.defaultSize self.req_name = name self.req_partType = partType self.req_primary = primary self.req_max_size = numeric_type(maxsize) self.req_grow = grow self.req_bootable = bootable # req_size may be manipulated in the course of partitioning self.req_size = self._size # req_base_size will always remain constant self.req_base_size = self._size self.req_base_weight = weight def __repr__(self): s = StorageDevice.__repr__(self) s += (" grow = %(grow)s max size = %(maxsize)s bootable = %(bootable)s\n" " part type = %(partType)s primary = %(primary)s\n" " partedPartition = %(partedPart)s\n" " disk = %(disk)s\n" % {"grow": self.req_grow, "maxsize": self.req_max_size, "bootable": self.bootable, "partType": self.partType, "primary": self.req_primary, "partedPart": self.partedPartition, "disk": self.disk}) if self.partedPartition: s += (" start = %(start)s end = %(end)s length = %(length)s\n" " flags = %(flags)s" % {"length": self.partedPartition.geometry.length, "start": self.partedPartition.geometry.start, "end": self.partedPartition.geometry.end, "flags": self.partedPartition.getFlagsAsString()}) return s @property def dict(self): d = super(PartitionDevice, self).dict d.update({"type": self.partType}) if not self.exists: d.update({"grow": self.req_grow, "maxsize": self.req_max_size, "bootable": self.bootable, "primary": self.req_primary}) if self.partedPartition: d.update({"length": self.partedPartition.geometry.length, "start": self.partedPartition.geometry.start, "end": self.partedPartition.geometry.end, "flags": self.partedPartition.getFlagsAsString()}) return d def writeKS(self, f, preexisting=False, noformat=False, s=None): args = [] if self.isExtended: return if self.req_grow: args.append("--grow") if self.req_max_size: args.append("--maxsize=%s" % self.req_max_size) if self.req_primary: args.append("--asprimary") if self.req_size: args.append("--size=%s" % (self.req_size or self.defaultSize)) if preexisting: if len(self.req_disks) == 1: args.append("--ondisk=%s" % self.req_disks[0].name) else: args.append("--onpart=%s" % self.name) if noformat: args.append("--noformat") f.write("#part ") self.format.writeKS(f) f.write(" %s" % " ".join(args)) if s: f.write(" %s" % s) def _setTargetSize(self, newsize): if newsize != self.currentSize: # change this partition's geometry in-memory so that other # partitioning operations can complete (e.g., autopart) self._targetSize = newsize disk = self.disk.format.partedDisk # resize the partition's geometry in memory (constraint, geometry) = self._computeResize(self.partedPartition) disk.setPartitionGeometry(partition=self.partedPartition, constraint=constraint, start=geometry.start, end=geometry.end) @property def path(self): if not self.parents: devDir = StorageDevice._devDir else: devDir = self.parents[0]._devDir return "%s/%s" % (devDir, self.name) @property def partType(self): """ Get the partition's type (as parted constant). """ try: ptype = self.partedPartition.type except AttributeError: ptype = self._partType if not self.exists and ptype is None: ptype = self.req_partType return ptype @property def isExtended(self): return (self.partType is not None and self.partType & parted.PARTITION_EXTENDED) @property def isLogical(self): return (self.partType is not None and self.partType & parted.PARTITION_LOGICAL) @property def isPrimary(self): return (self.partType is not None and self.partType == parted.PARTITION_NORMAL) @property def isProtected(self): return (self.partType is not None and self.partType & parted.PARTITION_PROTECTED) @property def fstabSpec(self): spec = self.path if self.disk and self.disk.type == 'dasd': spec = deviceNameToDiskByPath(self.name) elif self.format and self.format.uuid: spec = "UUID=%s" % self.format.uuid return spec def _getPartedPartition(self): return self._partedPartition def _setPartedPartition(self, partition): """ Set this PartitionDevice's parted Partition instance. """ log_method_call(self, self.name) if partition is None: path = None elif isinstance(partition, parted.Partition): path = partition.path else: raise ValueError("partition must be a parted.Partition instance") log.debug("device %s new partedPartition %s" % (self.name, partition)) self._partedPartition = partition self.updateName() partedPartition = property(lambda d: d._getPartedPartition(), lambda d,p: d._setPartedPartition(p)) def preCommitFixup(self, *args, **kwargs): """ Re-get self.partedPartition from the original disklabel. """ log_method_call(self, self.name) if not self.exists: return # find the correct partition on the original parted.Disk since the # name/number we're now using may no longer match _disklabel = self.disk.originalFormat if self.isExtended: # getPartitionBySector doesn't work on extended partitions _partition = _disklabel.extendedPartition log.debug("extended lookup found partition %s" % devicePathToName(getattr(_partition, "path", None))) else: # lookup the partition by sector to avoid the renumbering # nonsense entirely _sector = self.partedPartition.geometry.start _partition = _disklabel.partedDisk.getPartitionBySector(_sector) log.debug("sector-based lookup found partition %s" % devicePathToName(getattr(_partition, "path", None))) self.partedPartition = _partition def _getWeight(self): return self.req_base_weight def _setWeight(self, weight): self.req_base_weight = weight weight = property(lambda d: d._getWeight(), lambda d,w: d._setWeight(w)) def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) if not self.parents: self.sysfsPath = '' elif isinstance(self.parents[0], DMDevice): dm_node = dm.dm_node_from_name(self.name) path = os.path.join("/sys", self.sysfsBlockDir, dm_node) self.sysfsPath = os.path.realpath(path)[4:] else: StorageDevice.updateSysfsPath(self) def updateName(self): if self.partedPartition is None: self._name = self.req_name else: self._name = \ devicePathToName(self.partedPartition.getDeviceNodeName()) def dependsOn(self, dep): """ Return True if this device depends on dep. """ if isinstance(dep, PartitionDevice) and dep.isExtended and \ self.isLogical and self.disk == dep.disk: return True return Device.dependsOn(self, dep) def _setFormat(self, format): """ Set the Device's format. """ log_method_call(self, self.name) StorageDevice._setFormat(self, format) def _setBootable(self, bootable): """ Set the bootable flag for this partition. """ if self.partedPartition: if iutil.isS390(): return if self.flagAvailable(parted.PARTITION_BOOT): if bootable: self.setFlag(parted.PARTITION_BOOT) else: self.unsetFlag(parted.PARTITION_BOOT) else: raise DeviceError("boot flag not available for this partition", self.name) self._bootable = bootable else: self.req_bootable = bootable def _getBootable(self): return self._bootable or self.req_bootable bootable = property(_getBootable, _setBootable) def flagAvailable(self, flag): if not self.partedPartition: return return self.partedPartition.isFlagAvailable(flag) def getFlag(self, flag): log_method_call(self, path=self.path, flag=flag) if not self.partedPartition or not self.flagAvailable(flag): return return self.partedPartition.getFlag(flag) def setFlag(self, flag): log_method_call(self, path=self.path, flag=flag) if not self.partedPartition or not self.flagAvailable(flag): return self.partedPartition.setFlag(flag) def unsetFlag(self, flag): log_method_call(self, path=self.path, flag=flag) if not self.partedPartition or not self.flagAvailable(flag): return self.partedPartition.unsetFlag(flag) def probe(self): """ Probe for any missing information about this device. size, partition type, flags """ log_method_call(self, self.name, exists=self.exists) if not self.exists: return # this is in MB self._size = self.partedPartition.getSize() self._currentSize = self._size self.targetSize = self._size self._partType = self.partedPartition.type self._bootable = self.getFlag(parted.PARTITION_BOOT) def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) self.disk.format.addPartition(self.partedPartition) try: self.disk.format.commit() except DiskLabelCommitError: part = self.disk.format.partedDisk.getPartitionByPath(self.path) self.disk.format.removePartition(part) raise def _postCreate(self): if self.isExtended: partition = self.disk.format.extendedPartition else: start = self.partedPartition.geometry.start partition = self.disk.format.partedDisk.getPartitionBySector(start) log.debug("post-commit partition path is %s" % getattr(partition, "path", None)) self.partedPartition = partition if not self.isExtended: # Ensure old metadata which lived in freespace so did not get # explictly destroyed by a destroyformat action gets wiped DeviceFormat(device=self.path, exists=True).destroy() StorageDevice._postCreate(self) self._currentSize = self.partedPartition.getSize() def _computeResize(self, partition): log_method_call(self, self.name, status=self.status) # compute new size for partition currentGeom = partition.geometry currentDev = currentGeom.device newLen = long(self.targetSize * 1024 * 1024) / currentDev.sectorSize newGeometry = parted.Geometry(device=currentDev, start=currentGeom.start, length=newLen) # and align the end sector newGeometry.end = self.disk.format.endAlignment.alignDown(newGeometry, newGeometry.end) constraint = parted.Constraint(exactGeom=newGeometry) return (constraint, newGeometry) def resize(self, intf=None): """ Resize the device. self.targetSize must be set to the new size. """ log_method_call(self, self.name, status=self.status) self._preDestroy() if self.targetSize != self.currentSize: # partedDisk has been restored to _origPartedDisk, so # recalculate resize geometry because we may have new # partitions on the disk, which could change constraints partedDisk = self.disk.format.partedDisk partition = partedDisk.getPartitionByPath(self.path) (constraint, geometry) = self._computeResize(partition) partedDisk.setPartitionGeometry(partition=partition, constraint=constraint, start=geometry.start, end=geometry.end) self.disk.format.commit() self._currentSize = partition.getSize() def _preDestroy(self): StorageDevice._preDestroy(self) if not self.sysfsPath: return self.setupParents(orig=True) def _destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) # we should have already set self.partedPartition to point to the # partition on the original disklabel self.disk.originalFormat.removePartition(self.partedPartition) try: self.disk.originalFormat.commit() except DiskLabelCommitError: self.disk.originalFormat.addPartition(self.partedPartition) self.partedPartition = self.disk.originalFormat.partedDisk.getPartitionByPath(self.path) raise def deactivate(self): """ This is never called. For instructional purposes only. We do not want multipath partitions disappearing upon their teardown(). """ if self.parents[0].type == 'dm-multipath': devmap = block.getMap(major=self.major, minor=self.minor) if devmap: try: block.removeDeviceMap(devmap) except Exception as e: raise DeviceTeardownError("failed to tear down device-mapper partition %s: %s" % (self.name, e)) udev_settle() def _getSize(self): """ Get the device's size. """ size = self._size if self.partedPartition: # this defaults to MB size = self.partedPartition.getSize() return size def _setSize(self, newsize): """ Set the device's size (for resize, not creation). Arguments: newsize -- the new size (in MB) """ log_method_call(self, self.name, status=self.status, size=self._size, newsize=newsize) if not self.exists: raise DeviceError("device does not exist", self.name) if newsize > self.disk.size: raise ValueError("partition size would exceed disk size") # this defaults to MB maxAvailableSize = self.partedPartition.getMaxAvailableSize() if newsize > maxAvailableSize: raise ValueError("new size is greater than available space") # now convert the size to sectors and update the geometry geometry = self.partedPartition.geometry physicalSectorSize = geometry.device.physicalSectorSize new_length = (newsize * (1024 * 1024)) / physicalSectorSize geometry.length = new_length def _getDisk(self): """ The disk that contains this partition.""" try: disk = self.parents[0] except IndexError: disk = None return disk def _setDisk(self, disk): """Change the parent. Setting up a disk is not trivial. It has the potential to change the underlying object. If necessary we must also change this object. """ log_method_call(self, self.name, old=getattr(self.disk, "name", None), new=getattr(disk, "name", None)) if self.disk: self.disk.removeChild() if disk: self.parents = [disk] disk.addChild() else: self.parents = [] disk = property(lambda p: p._getDisk(), lambda p,d: p._setDisk(d)) @property def maxSize(self): """ The maximum size this partition can be. """ # XXX: this is MB by default maxPartSize = self.partedPartition.getMaxAvailableSize() if self.format.maxSize > maxPartSize: return maxPartSize else: return self.format.maxSize @property def currentSize(self): """ The device's actual size. """ if self.exists: return self._currentSize else: return 0 @property def resizable(self): """ Can this type of device be resized? """ return super(PartitionDevice, self).resizable and \ self.disk.type != 'dasd' def checkSize(self): """ Check to make sure the size of the device is allowed by the format used. Returns: 0 - ok 1 - Too large -1 - Too small """ if self.format.maxSize and self.size > self.format.maxSize: return 1 elif (self.format.minSize and (not self.req_grow and self.size < self.format.minSize) or (self.req_grow and self.req_max_size and self.req_max_size < self.format.minSize)): return -1 return 0 class DMDevice(StorageDevice): """ A device-mapper device """ _type = "dm" _devDir = "/dev/mapper" def __init__(self, name, format=None, size=None, dmUuid=None, target=None, exists=None, parents=None, sysfsPath=''): """ Create a DMDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: target -- the device-mapper target type (string) size -- the device's size (units/format TBD) dmUuid -- the device's device-mapper UUID sysfsPath -- sysfs device path format -- a DeviceFormat instance parents -- a list of required Device instances exists -- indicates whether this is an existing device """ StorageDevice.__init__(self, name, format=format, size=size, exists=exists, parents=parents, sysfsPath=sysfsPath) self.target = target self.dmUuid = dmUuid def __repr__(self): s = StorageDevice.__repr__(self) s += (" target = %(target)s dmUuid = %(dmUuid)s" % {"target": self.target, "dmUuid": self.dmUuid}) return s @property def dict(self): d = super(DMDevice, self).dict d.update({"target": self.target, "dmUuid": self.dmUuid}) return d @property def fstabSpec(self): """ Return the device specifier for use in /etc/fstab. """ return self.path @property def mapName(self): """ This device's device-mapper map name """ return self.name @property def status(self): _status = False for map in block.dm.maps(): if map.name == self.mapName: _status = map.live_table and not map.suspended break return _status def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) if self.status: dm_node = self.getDMNode() path = os.path.join("/sys", self.sysfsBlockDir, dm_node) self.sysfsPath = os.path.realpath(path)[4:] else: self.sysfsPath = '' #def getTargetType(self): # return dm.getDmTarget(name=self.name) def getDMNode(self): """ Return the dm-X (eg: dm-0) device node for this device. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) return dm.dm_node_from_name(self.name) def setupPartitions(self): log_method_call(self, name=self.name, kids=self.kids) rc = iutil.execWithRedirect("kpartx", ["-a", "-p", "p", self.path], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise DMError("partition activation failed for '%s'" % self.name) udev_settle() def teardownPartitions(self): log_method_call(self, name=self.name, kids=self.kids) rc = iutil.execWithRedirect("kpartx", ["-d", "-p", "p", self.path], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise DMError("partition deactivation failed for '%s'" % self.name) udev_settle() def _setName(self, name): """ Set the device's map name. """ log_method_call(self, self.name, status=self.status) if self.status: raise DeviceError("cannot rename active device", self.name) self._name = name #self.sysfsPath = "/dev/disk/by-id/dm-name-%s" % self.name name = property(lambda d: d._name, lambda d,n: d._setName(n)) @property def slave(self): """ This device's backing device. """ return self.parents[0] class DMLinearDevice(DMDevice): _type = "dm-linear" _partitionable = True _isDisk = True def __init__(self, name, format=None, size=None, dmUuid=None, exists=None, parents=None, sysfsPath=''): """ Create a DMLinearDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: size -- the device's size (units/format TBD) dmUuid -- the device's device-mapper UUID sysfsPath -- sysfs device path format -- a DeviceFormat instance parents -- a list of required Device instances exists -- indicates whether this is an existing device """ if not parents: raise ValueError("DMLinearDevice requires a backing block device") DMDevice.__init__(self, name, format=format, size=size, parents=parents, sysfsPath=sysfsPath, exists=exists, target="linear", dmUuid=dmUuid) def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) slave_length = self.slave.partedDevice.length dm.dm_create_linear(self.name, self.slave.path, slave_length, self.dmUuid) def _postSetup(self): StorageDevice._postSetup(self) self.setupPartitions() udev_settle() def _teardown(self, recursive=False): self.teardownPartitions() udev_settle() dm.dm_remove(self.name) udev_settle() def deactivate(self, recursive=False): StorageDevice.teardown(self, recursive=recursive) def teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) if not self._preTeardown(recursive=recursive): return log.debug("not tearing down dm-linear device %s" % self.name) @property def description(self): return self.model class DMCryptDevice(DMDevice): """ A dm-crypt device """ _type = "dm-crypt" def __init__(self, name, format=None, size=None, uuid=None, exists=None, sysfsPath='', parents=None): """ Create a DMCryptDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: size -- the device's size (units/format TBD) sysfsPath -- sysfs device path format -- a DeviceFormat instance parents -- a list of required Device instances exists -- indicates whether this is an existing device """ DMDevice.__init__(self, name, format=format, size=size, parents=parents, sysfsPath=sysfsPath, exists=exists, target="crypt") class LUKSDevice(DMCryptDevice): """ A mapped LUKS device. """ _type = "luks/dm-crypt" _packages = ["cryptsetup-luks"] def __init__(self, name, format=None, size=None, uuid=None, exists=None, sysfsPath='', parents=None): """ Create a LUKSDevice instance. Arguments: name -- the device name Keyword Arguments: size -- the device's size in MB uuid -- the device's UUID sysfsPath -- sysfs device path format -- a DeviceFormat instance parents -- a list of required Device instances exists -- indicates whether this is an existing device """ DMCryptDevice.__init__(self, name, format=format, size=size, parents=parents, sysfsPath=sysfsPath, uuid=None, exists=exists) def writeKS(self, f, preexisting=False, noformat=False, s=None): self.slave.writeKS(f, preexisting=preexisting, noformat=noformat, s=s) f.write(" ") self.format.writeKS(f) if s: f.write(" %s" % s) @property def size(self): if not self.exists or not self.partedDevice: # the LUKS metadata area is 2MB size = float(self.slave.size) - 2.0 else: size = self.partedDevice.getSize() return size def _postCreate(self): self._name = self.slave.format.mapName StorageDevice._postCreate(self) def _postTeardown(self, recursive=False): if not recursive: # this is handled by StorageDevice._postTeardown if recursive # is True self.teardownParents(recursive=recursive) StorageDevice._postTeardown(self, recursive=recursive) def dracutSetupArgs(self): return set(["rd.luks.uuid=luks-%s" % self.slave.format.uuid]) class LVMVolumeGroupDevice(DMDevice): """ An LVM Volume Group XXX Maybe this should inherit from StorageDevice instead of DMDevice since there's no actual device. """ _type = "lvmvg" _packages = ["lvm2"] def __init__(self, name, parents, size=None, free=None, peSize=None, peCount=None, peFree=None, pvCount=None, uuid=None, exists=None, sysfsPath=''): """ Create a LVMVolumeGroupDevice instance. Arguments: name -- the device name (generally a device node's basename) parents -- a list of physical volumes (StorageDevice) Keyword Arguments: peSize -- physical extent size (in MB) exists -- indicates whether this is an existing device sysfsPath -- sysfs device path For existing VG's only: size -- the VG's size (in MB) free -- amount of free space in the VG peFree -- number of free extents peCount -- total number of extents pvCount -- number of PVs in this VG uuid -- the VG's UUID """ self.pvClass = get_device_format_class("lvmpv") if not self.pvClass: raise StorageError("cannot find 'lvmpv' class") if isinstance(parents, list): for dev in parents: if not isinstance(dev.format, self.pvClass): raise ValueError("constructor requires a list of PVs") elif not isinstance(parents.format, self.pvClass): raise ValueError("constructor requires a list of PVs") DMDevice.__init__(self, name, parents=parents, exists=exists, sysfsPath=sysfsPath) self.uuid = uuid self.free = numeric_type(free) self.peSize = numeric_type(peSize) self.peCount = numeric_type(peCount) self.peFree = numeric_type(peFree) self.pvCount = numeric_type(pvCount) self.lv_names = [] self.lv_uuids = [] self.lv_sizes = [] self.lv_attr = [] self.hasDuplicate = False self.reserved_percent = 0 self.reserved_space = 0 # circular references, here I come self._lvs = [] # TODO: validate peSize if given if not self.peSize: self.peSize = 32.0 # MB if not self.exists: self.pvCount = len(self.parents) # Some snapshots don't have a proper LV as an origin (--vorigin). # They still occupy space in the VG. self.voriginSnapshots = {} def __repr__(self): s = DMDevice.__repr__(self) s += (" free = %(free)s PE Size = %(peSize)s PE Count = %(peCount)s\n" " PE Free = %(peFree)s PV Count = %(pvCount)s\n" " LV Names = %(lv_names)s modified = %(modified)s\n" " extents = %(extents)s free space = %(freeSpace)s\n" " free extents = %(freeExtents)s" " reserved percent = %(rpct)s reserved space = %(res)s\n" " PVs = %(pvs)s\n" " LVs = %(lvs)s" % {"free": self.free, "peSize": self.peSize, "peCount": self.peCount, "peFree": self.peFree, "pvCount": self.pvCount, "lv_names": self.lv_names, "modified": self.isModified, "extents": self.extents, "freeSpace": self.freeSpace, "freeExtents": self.freeExtents, "rpct": self.reserved_percent, "res": self.reserved_space, "pvs": pprint.pformat([str(p) for p in self.pvs]), "lvs": pprint.pformat([str(l) for l in self.lvs])}) return s @property def dict(self): d = super(LVMVolumeGroupDevice, self).dict d.update({"free": self.free, "peSize": self.peSize, "peCount": self.peCount, "peFree": self.peFree, "pvCount": self.pvCount, "extents": self.extents, "freeSpace": self.freeSpace, "freeExtents": self.freeExtents, "lv_names": self.lv_names, "lv_uuids": self.lv_uuids, "lv_sizes": self.lv_sizes, "lv_attr": self.lv_attr, "reserved_percent": self.reserved_percent, "reserved_space": self.reserved_space, "lvNames": [lv.name for lv in self.lvs]}) return d def writeKS(self, f, preexisting=False, noformat=False, s=None): args = ["--pesize=%s" % int(self.peSize * 1024)] pvs = [] for pv in self.pvs: pvs.append("pv.%s" % pv.format.majorminor) if preexisting: args.append("--useexisting") if noformat: args.append("--noformat") if self.reserved_space: args.append("--reserved-space=%d" % self.reserved_space) elif self.reserved_percent: args.append("--reserved-percent=%d" % self.reserved_percent) f.write("#volgroup %s %s %s" % (self.name, " ".join(args), " ".join(pvs))) if s: f.write(" %s" % s) @property def mapName(self): """ This device's device-mapper map name """ # Thank you lvm for this lovely hack. return self.name.replace("-","--") @property def path(self): """ Device node representing this device. """ return "%s/%s" % (self._devDir, self.mapName) def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) self.sysfsPath = '' @property def status(self): """ The device's status (True means active). """ if not self.exists: return False # certainly if any of this VG's LVs are active then so are we for lv in self.lvs: if lv.status: return True # if any of our PVs are not active then we cannot be for pv in self.pvs: if not pv.status: return False # if we are missing some of our PVs we cannot be active if not self.complete: return False return True def _addDevice(self, device): """ Add a new physical volume device to the volume group. XXX This is for use by device probing routines and is not intended for modification of the VG. """ log_method_call(self, self.name, device=device.name, status=self.status) if not self.exists: raise DeviceError("device does not exist", self.name) if not isinstance(device.format, self.pvClass): raise ValueError("addDevice requires a PV arg") if self.uuid and device.format.vgUuid != self.uuid: # this means there is another vg with the same name on the system # set hasDuplicate which will make complete return False # and let devicetree._handleInconsistencies() further handle this. # Note we still add the device to our parents for use by # devicetree._handleInconsistencies() self.hasDuplicate = True if device in self.pvs: raise ValueError("device is already a member of this VG") self.parents.append(device) device.addChild() # now see if the VG can be activated if self.complete: self.setup() def _removeDevice(self, device): """ Remove a physical volume from the volume group. This is for cases like clearing of preexisting partitions. """ log_method_call(self, self.name, device=device.name, status=self.status) try: self.parents.remove(device) except ValueError: raise ValueError("cannot remove non-member PV device from VG") device.removeChild() def _preSetup(self, orig=False): if self.exists and not self.complete: raise DeviceError("cannot activate VG with missing PV(s)", self.name) return StorageDevice._preSetup(self, orig=orig) def _teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) lvm.vgdeactivate(self.name) def _statusWindow(self, intf=None, title="", msg=""): return self._progressWindow(intf=intf, title=title, msg=msg) def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) pv_list = [pv.path for pv in self.parents] lvm.vgcreate(self.name, pv_list, self.peSize, progress=w) def _preDestroy(self): StorageDevice._preDestroy(self) # set up the pvs since lvm needs access to them to do the vgremove self.setupParents(orig=True) def _destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) lvm.vgreduce(self.name, [], rm=True) lvm.vgdeactivate(self.name) lvm.vgremove(self.name) def reduce(self, pv_list): """ Remove the listed PVs from the VG. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) lvm.vgreduce(self.name, pv_list) # XXX do we need to notify the kernel? def _addLogVol(self, lv): """ Add an LV to this VG. """ if lv in self._lvs: raise ValueError("lv is already part of this vg") # verify we have the space, then add it # do not verify for growing vg (because of ks) if not lv.exists and not self.growable and lv.size > self.freeSpace: raise DeviceError("new lv is too large to fit in free space", self.name) log.debug("Adding %s/%dMB to %s" % (lv.name, lv.size, self.name)) self._lvs.append(lv) def _removeLogVol(self, lv): """ Remove an LV from this VG. """ if lv not in self.lvs: raise ValueError("specified lv is not part of this vg") self._lvs.remove(lv) def _addPV(self, pv): """ Add a PV to this VG. """ if pv in self.pvs: raise ValueError("pv is already part of this vg") # for the time being we will not allow vgextend if self.exists: raise DeviceError("cannot add pv to existing vg", self.name) self.parents.append(pv) pv.addChild() # and update our pv count self.pvCount = len(self.parents) def _removePV(self, pv): """ Remove an PV from this VG. """ if not pv in self.pvs: raise ValueError("specified pv is not part of this vg") # for the time being we will not allow vgreduce if self.exists: raise DeviceError("cannot remove pv from existing vg", self.name) self.parents.remove(pv) pv.removeChild() # and update our pv count self.pvCount = len(self.parents) # We can't rely on lvm to tell us about our size, free space, &c # since we could have modifications queued, unless the VG and all of # its PVs already exist. # # -- liblvm may contain support for in-memory devices @property def isModified(self): """ Return True if the VG has changes queued that LVM is unaware of. """ modified = True if self.exists and not filter(lambda d: not d.exists, self.pvs): modified = False return modified @property def snapshotSpace(self): """ Total space used by snapshots in this volume group. """ used = 0 for lv in self.lvs: used += self.align(lv.snapshotSpace, roundup=True) for (vname, vsize) in self.voriginSnapshots.items(): used += self.align(vsize, roundup=True) return used @property def reservedSpace(self): """ Reserved space in this VG, in MB """ reserved = 0 if self.reserved_percent > 0: reserved = self.reserved_percent * 0.01 * self.size elif self.reserved_space > 0: reserved = self.reserved_space return self.align(reserved, roundup=True) @property def size(self): """ The size of this VG """ # TODO: just ask lvm if isModified returns False # sum up the sizes of the PVs and align to pesize size = 0 for pv in self.pvs: size += max(0, self.align(pv.size - pv.format.peStart)) return size @property def extents(self): """ Number of extents in this VG """ # TODO: just ask lvm if isModified returns False return self.size / self.peSize @property def freeSpace(self): """ The amount of free space in this VG (in MB). """ # TODO: just ask lvm if isModified returns False # total the sizes of any LVs log.debug("%s size is %dMB" % (self.name, self.size)) used = sum(lv.vgSpaceUsed for lv in self.lvs) + self.snapshotSpace used += self.reservedSpace free = self.size - used log.debug("vg %s has %dMB free" % (self.name, free)) return free @property def freeExtents(self): """ The number of free extents in this VG. """ # TODO: just ask lvm if isModified returns False return self.freeSpace / self.peSize def align(self, size, roundup=None): """ Align a size to a multiple of physical extent size. """ size = numeric_type(size) if roundup: round = math.ceil else: round = math.floor # we want Kbytes as a float for our math size *= 1024.0 pesize = self.peSize * 1024.0 return long((round(size / pesize) * pesize) / 1024) @property def pvs(self): """ A list of this VG's PVs """ return self.parents[:] # we don't want folks changing our list @property def lvs(self): """ A list of this VG's LVs """ return self._lvs[:] # we don't want folks changing our list @property def complete(self): """Check if the vg has all its pvs in the system Return True if complete. """ # vgs with duplicate names are overcomplete, which is not what we want if self.hasDuplicate: return False return len(self.pvs) == self.pvCount or not self.exists class LVMLogicalVolumeDevice(DMDevice): """ An LVM Logical Volume """ _type = "lvmlv" _resizable = True _packages = ["lvm2"] def __init__(self, name, vgdev, size=None, uuid=None, stripes=1, logSize=0, snapshotSpace=0, format=None, exists=None, sysfsPath='', grow=None, maxsize=None, percent=None, singlePV=False): """ Create a LVMLogicalVolumeDevice instance. Arguments: name -- the device name (generally a device node's basename) vgdev -- volume group (LVMVolumeGroupDevice instance) Keyword Arguments: size -- the device's size (in MB) uuid -- the device's UUID stripes -- number of copies in the vg (>1 for mirrored lvs) logSize -- size of log volume (for mirrored lvs) snapshotSpace -- sum of sizes of snapshots of this lv sysfsPath -- sysfs device path format -- a DeviceFormat instance exists -- indicates whether this is an existing device singlePV -- if true, maps this lv to a single pv For new (non-existent) LVs only: grow -- whether to grow this LV maxsize -- maximum size for growable LV (in MB) percent -- percent of VG space to take """ if isinstance(vgdev, list): if len(vgdev) != 1: raise ValueError("constructor requires a single LVMVolumeGroupDevice instance") elif not isinstance(vgdev[0], LVMVolumeGroupDevice): raise ValueError("constructor requires a LVMVolumeGroupDevice instance") elif not isinstance(vgdev, LVMVolumeGroupDevice): raise ValueError("constructor requires a LVMVolumeGroupDevice instance") DMDevice.__init__(self, name, size=size, format=format, sysfsPath=sysfsPath, parents=vgdev, exists=exists) self.singlePVerr = ("%(mountpoint)s is restricted to a single " "physical volume on this platform. No physical " "volumes available in volume group %(vgname)s " "with %(size)d MB of available space." % {'mountpoint': getattr(self.format, "mountpoint", "A proposed logical volume"), 'vgname': self.vg.name, 'size': self.size}) self.uuid = uuid self.snapshotSpace = snapshotSpace self.stripes = stripes self.logSize = logSize self.singlePV = singlePV self.req_grow = None self.req_max_size = 0 self.req_size = 0 self.req_percent = 0 if not self.exists: self.req_grow = grow self.req_max_size = numeric_type(maxsize) # XXX should we enforce that req_size be pe-aligned? self.req_size = self._size self.req_percent = numeric_type(percent) if self.singlePV: # make sure there is at least one PV that can hold this LV validpvs = filter(lambda x: float(x.size) >= self.req_size, self.vg.pvs) if not validpvs: raise SinglePhysicalVolumeError(self.singlePVerr) # here we go with the circular references self.vg._addLogVol(self) def __repr__(self): s = DMDevice.__repr__(self) s += (" VG device = %(vgdev)r\n" " percent = %(percent)s\n" " mirrored = %(mirrored)s stripes = %(stripes)d" " snapshot total = %(snapshots)dMB\n" " VG space used = %(vgspace)dMB" % {"vgdev": self.vg, "percent": self.req_percent, "mirrored": self.mirrored, "stripes": self.stripes, "snapshots": self.snapshotSpace, "vgspace": self.vgSpaceUsed }) return s @property def dict(self): d = super(LVMLogicalVolumeDevice, self).dict if self.exists: d.update({"mirrored": self.mirrored, "stripes": self.stripes, "snapshots": self.snapshotSpace, "vgspace": self.vgSpaceUsed}) else: d.update({"percent": self.req_percent}) return d def writeKS(self, f, preexisting=False, noformat=False, s=None): args = ["--name=%s" % self.lvname, "--vgname=%s" % self.vg.name] if self.req_grow: args.extend(["--grow", "--size=%s" % (self.req_size or 1)]) if self.req_max_size > 0: args.append("--maxsize=%s" % self.req_max_size) else: if self.req_percent > 0: args.append("--percent=%s" % self.req_percent) elif self.req_size > 0: args.append("--size=%s" % self.req_size) if preexisting: args.append("--useexisting") if noformat: args.append("--noformat") f.write("#logvol ") self.format.writeKS(f) f.write(" %s" % " ".join(args)) if s: f.write(" %s" % s) @property def mirrored(self): return self.stripes > 1 def _setSize(self, size): size = self.vg.align(numeric_type(size)) log.debug("trying to set lv %s size to %dMB" % (self.name, size)) if size <= self.vg.freeSpace + self.vgSpaceUsed: self._size = size self.targetSize = size else: log.debug("failed to set size: %dMB short" % (size - (self.vg.freeSpace + self.vgSpaceUsed),)) raise ValueError("not enough free space in volume group") size = property(StorageDevice._getSize, _setSize) @property def vgSpaceUsed(self): """ Space occupied by this LV, not including snapshots. """ return (self.vg.align(self.size, roundup=True) * self.stripes + self.logSize) @property def vg(self): """ This Logical Volume's Volume Group. """ return self.parents[0] @property def mapName(self): """ This device's device-mapper map name """ # Thank you lvm for this lovely hack. return "%s-%s" % (self.vg.mapName, self._name.replace("-","--")) @property def path(self): """ Device node representing this device. """ return "%s/%s" % (self._devDir, self.mapName) def getDMNode(self): """ Return the dm-X (eg: dm-0) device node for this device. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) return dm.dm_node_from_name(self.mapName) @property def name(self): """ This device's name. """ return "%s-%s" % (self.vg.name, self._name) @property def lvname(self): """ The LV's name (not including VG name). """ return self._name @property def complete(self): """ Test if vg exits and if it has all pvs. """ return self.vg.complete def setupParents(self, orig=False): # parent is a vg, which has no formatting (or device for that matter) Device.setupParents(self, orig=orig) def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) lvm.lvactivate(self.vg.name, self._name) def _teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) lvm.lvdeactivate(self.vg.name, self._name) def _postTeardown(self, recursive=False): try: # It's likely that teardown of a VG will fail due to other # LVs being active (filesystems mounted, &c), so don't let # it bring everything down. StorageDevice._postTeardown(self, recursive=recursive) except StorageError: if recursive: log.debug("vg %s teardown failed; continuing" % self.vg.name) else: raise def _statusWindow(self, intf=None, title="", msg=""): return self._progressWindow(intf=intf, title=title, msg=msg) def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) # should we use --zero for safety's sake? if self.singlePV: lvm.lvcreate(self.vg.name, self._name, self.size, progress=w, pvs=self._getSinglePV()) else: lvm.lvcreate(self.vg.name, self._name, self.size, progress=w) def _preDestroy(self): StorageDevice._preDestroy(self) # set up the vg's pvs so lvm can remove the lv self.vg.setupParents(orig=True) def _destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) lvm.lvremove(self.vg.name, self._name) def _getSinglePV(self): validpvs = filter(lambda x: float(x.size) >= self.size, self.vg.pvs) if not validpvs: raise SinglePhysicalVolumeError(self.singlePVerr) return [validpvs[0].path] def resize(self, intf=None): log_method_call(self, self.name, status=self.status) self._preDestroy() # Setup VG parents (in case they are dmraid partitions for example) self.vg.setupParents(orig=True) if self.originalFormat.exists: self.originalFormat.teardown() if self.format.exists: self.format.teardown() udev_settle() lvm.lvresize(self.vg.name, self._name, self.size) def dracutSetupArgs(self): # Note no mapName usage here, this is a lvm cmdline name, which # is different (ofcourse) return set(["rd.lvm.lv=%s/%s" % (self.vg.name, self._name)]) def checkSize(self): """ Check to make sure the size of the device is allowed by the format used. Returns: 0 - ok 1 - Too large -1 - Too small """ if self.format.maxSize and self.size > self.format.maxSize: return 1 elif (self.format.minSize and (not self.req_grow and self.size < self.format.minSize) or (self.req_grow and self.req_max_size and self.req_max_size < self.format.minSize)): return -1 return 0 class MDRaidArrayDevice(StorageDevice): """ An mdraid (Linux RAID) device. """ _type = "mdarray" _packages = ["mdadm"] def __init__(self, name, level=None, major=None, minor=None, size=None, memberDevices=None, totalDevices=None, uuid=None, format=None, exists=None, metadataVersion=None, parents=None, sysfsPath=''): """ Create a MDRaidArrayDevice instance. Arguments: name -- the device name (generally a device node's basename) Keyword Arguments: level -- the device's RAID level (a string, eg: '1' or 'raid1') metadataVersion -- the version of the device's md metadata parents -- list of member devices (StorageDevice instances) size -- the device's size (units/format TBD) uuid -- the device's UUID minor -- the device minor sysfsPath -- sysfs device path format -- a DeviceFormat instance exists -- indicates whether this is an existing device """ StorageDevice.__init__(self, name, format=format, exists=exists, major=major, minor=minor, size=size, parents=parents, sysfsPath=sysfsPath) self.level = level if level == "container": self._type = "mdcontainer" elif level is not None: self.level = mdraid.raidLevel(level) if self.growable and self.level != 0: raise ValueError("Only RAID0 arrays can contain growable members") # For new arrays check if we have enough members if (not exists and parents and len(parents) < mdraid.get_raid_min_members(self.level)): raise ValueError, P_("A RAID%(raidLevel)d set requires at least %(minMembers)d member", "A RAID%(raidLevel)d set requires at least %(minMembers)d members", mdraid.get_raid_min_members(self.level)) % \ {"raidLevel": self.level, "minMembers": mdraid.get_raid_min_members(self.level)} self.uuid = uuid self._totalDevices = numeric_type(totalDevices) self._memberDevices = numeric_type(memberDevices) self.sysfsPath = "/devices/virtual/block/%s" % name self.chunkSize = 512.0 / 1024.0 # chunk size in MB self.superBlockSize = 2.0 # superblock size in MB if not self.exists and not isinstance(metadataVersion, str): self.metadataVersion = "default" else: self.metadataVersion = metadataVersion # bitmaps are not meaningful on raid0 according to mdadm-3.0.3 self.createBitmap = self.level != 0 # For container members probe size now, as we cannot determine it # when teared down. if self.parents and self.parents[0].type == "mdcontainer": self._size = self.currentSize self._type = "mdbiosraidarray" self.formatClass = get_device_format_class("mdmember") if not self.formatClass: raise DeviceError("cannot find class for 'mdmember'", self.name) if self.exists and self.uuid: # this is a hack to work around mdadm's insistence on giving # really high minors to arrays it has no config entry for open("/etc/mdadm.conf", "a").write("ARRAY %s UUID=%s\n" % (self.path, self.uuid)) @property def smallestMember(self): try: smallest = sorted(self.devices, key=lambda d: d.size)[0] except IndexError: smallest = None return smallest @property def size(self): if not self.devices: return 0 # For container members return probed size, as we cannot determine it # when teared down. if self.type == "mdbiosraidarray": return self._size size = 0 smallestMemberSize = self.smallestMember.size - self.superBlockSize if not self.exists or not self.partedDevice: if self.level == mdraid.RAID0: size = self.memberDevices * smallestMemberSize size -= size % self.chunkSize elif self.level == mdraid.RAID1: size = smallestMemberSize elif self.level == mdraid.RAID4: size = (self.memberDevices - 1) * smallestMemberSize size -= size % self.chunkSize elif self.level == mdraid.RAID5: size = (self.memberDevices - 1) * smallestMemberSize size -= size % self.chunkSize elif self.level == mdraid.RAID6: size = (self.memberDevices - 2) * smallestMemberSize size -= size % self.chunkSize elif self.level == mdraid.RAID10: size = (self.memberDevices / 2.0) * smallestMemberSize size -= size % self.chunkSize log.debug("non-existant RAID %s size == %s" % (self.level, size)) else: size = self.partedDevice.getSize() log.debug("existing RAID %s size == %s" % (self.level, size)) return size @property def description(self): if self.level == mdraid.RAID0: levelstr = "stripe" elif self.level == mdraid.RAID1: levelstr = "mirror" else: levelstr = "raid%s" % self.level if self.type == "mdcontainer": return "BIOS RAID container" elif self.type == "mdbiosraidarray": return "BIOS RAID set (%s)" % levelstr else: return "MDRAID set (%s)" % levelstr def __repr__(self): s = StorageDevice.__repr__(self) s += (" level = %(level)s spares = %(spares)s\n" " members = %(memberDevices)s\n" " total devices = %(totalDevices)s" " metadata version = %(metadataVersion)s" % {"level": self.level, "spares": self.spares, "memberDevices": self.memberDevices, "totalDevices": self.totalDevices, "metadataVersion": self.metadataVersion}) return s @property def dict(self): d = super(MDRaidArrayDevice, self).dict d.update({"level": self.level, "spares": self.spares, "memberDevices": self.memberDevices, "totalDevices": self.totalDevices, "metadataVersion": self.metadataVersion}) return d def writeKS(self, f, preexisting=False, noformat=False, s=None): args = ["--level=%s" % self.level, "--device=%s" % self.name] mems = [] if self.spares > 0: args.append("--spares=%s" % self.spares) if preexisting: args.append("--useexisting") if noformat: args.append("--noformat") for mem in self.parents: mems.append("raid.%s" % mem.format.majorminor) f.write("#raid ") self.format.writeKS(f) f.write(" %s" % " ".join(args)) f.write(" %s" % " ".join(mems)) if s: f.write(" %s" % s) @property def mdadmConfEntry(self): """ This array's mdadm.conf entry. """ if self.level is None or self.memberDevices is None or not self.uuid: raise DeviceError("array is not fully defined", self.name) # containers and the sets within must only have a UUID= parameter if self.type == "mdcontainer" or self.type == "mdbiosraidarray": fmt = "ARRAY %s UUID=%s\n" return fmt % (self.path, self.uuid) fmt = "ARRAY %s level=raid%d num-devices=%d UUID=%s\n" return fmt % (self.path, self.level, self.memberDevices, self.uuid) @property def totalDevices(self): """ Total number of devices in the array, including spares. """ count = len(self.parents) if not self.exists: count = self._totalDevices return count def _getMemberDevices(self): return self._memberDevices def _setMemberDevices(self, number): if not isinstance(number, int): raise ValueError("memberDevices is an integer") if number > self.totalDevices: raise ValueError("memberDevices cannot be greater than totalDevices") self._memberDevices = number memberDevices = property(_getMemberDevices, _setMemberDevices, doc="number of member devices") def _getSpares(self): spares = 0 if self.memberDevices is not None: if self.totalDevices is not None and \ self.totalDevices > self.memberDevices: spares = self.totalDevices - self.memberDevices elif self.totalDevices is None: spares = self.memberDevices self._totalDevices = self.memberDevices return spares def _setSpares(self, spares): # FIXME: this is too simple to be right if self.totalDevices > spares: self.memberDevices = self.totalDevices - spares spares = property(_getSpares, _setSpares) def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) if self.status: self.sysfsPath = "/devices/virtual/block/%s" % self.name else: self.sysfsPath = '' def _addDevice(self, device): """ Add a new member device to the array. XXX This is for use when probing devices, not for modification of arrays. """ log_method_call(self, self.name, device=device.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) if not isinstance(device.format, self.formatClass): raise ValueError("invalid device format for mdraid member") if self.uuid and device.format.mdUuid != self.uuid: raise ValueError("cannot add member with non-matching UUID") if device in self.devices: raise ValueError("device is already a member of this array") # we added it, so now set up the relations self.devices.append(device) device.addChild() device.setup() udev_settle() if self.spares > 0: # mdadm doesn't like it when you try to incrementally add spares return try: mdraid.mdadd(device.path) # mdadd causes udev events udev_settle() except MDRaidError as e: log.warning("failed to add member %s to md array %s: %s" % (device.path, self.path, e)) if self.status: # we always probe since the device may not be set up when we want # information about it self._size = self.currentSize def _removeDevice(self, device): """ Remove a component device from the array. XXX This is for use by clearpart, not for reconfiguration. """ log_method_call(self, self.name, device=device.name, status=self.status) if device not in self.devices: raise ValueError("cannot remove non-member device from array") self.devices.remove(device) device.removeChild() @property def status(self): """ This device's status. For now, this should return a boolean: True the device is open and ready for use False the device is not open """ # check the status in sysfs status = False if not self.exists: return status state_file = "/sys/%s/md/array_state" % self.sysfsPath if os.access(state_file, os.R_OK): state = open(state_file).read().strip() if state in ("clean", "active", "active-idle", "readonly", "read-auto"): status = True # mdcontainers have state inactive when started (clear if stopped) if self.type == "mdcontainer" and state == "inactive": status = True return status @property def degraded(self): """ Return True if the array is running in degraded mode. """ rc = False degraded_file = "/sys/%s/md/degraded" % self.sysfsPath if os.access(degraded_file, os.R_OK): val = open(degraded_file).read().strip() if val == "1": rc = True return rc @property def devices(self): """ Return a list of this array's member device instances. """ return self.parents def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) disks = [] for member in self.devices: member.setup(orig=orig) disks.append(member.path) mdraid.mdactivate(self.path, members=disks, super_minor=self.minor, uuid=self.uuid) def teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) # we don't really care about the return value of _preTeardown here. # see comment just above mddeactivate call self._preTeardown(recursive=recursive) # Since BIOS RAID sets (containers in mdraid terminology) never change # there is no need to stop them and later restart them. Not stopping # (and thus also not starting) them also works around bug 523334 if self.type == "mdcontainer" or self.type == "mdbiosraidarray": return # We don't really care what the array's state is. If the device # file exists, we want to deactivate it. mdraid has too many # states. if self.exists and os.path.exists(self.path): mdraid.mddeactivate(self.path) self._postTeardown(recursive=recursive) def preCommitFixup(self, *args, **kwargs): """ Determine create parameters for this set """ mountpoints = kwargs.pop("mountpoints") log_method_call(self, self.name, mountpoints) if "/boot" in mountpoints: bootmountpoint = "/boot" else: bootmountpoint = "/" # If we are used to boot from we cannot use 1.1 metadata if getattr(self.format, "mountpoint", None) == bootmountpoint or \ getattr(self.format, "mountpoint", None) == "/boot/efi" or \ self.format.type == "prepboot": self.metadataVersion = "1.0" # Bitmaps are not useful for swap and small partitions if self.size < 1000 or self.format.type == "swap": self.createBitmap = False def _statusWindow(self, intf=None, title="", msg=""): return self._progressWindow(intf=intf, title=title, msg=msg) def _postCreate(self): StorageDevice._postCreate(self) info = udev_get_block_device(self.sysfsPath) self.uuid = udev_device_get_md_uuid(info) for member in self.devices: member.mdUuid = self.uuid def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) disks = [disk.path for disk in self.devices] spares = len(self.devices) - self.memberDevices mdraid.mdcreate(self.path, self.level, disks, spares, metadataVer=self.metadataVersion, bitmap=self.createBitmap, progress=w) @property def formatArgs(self): formatArgs = [] if self.format.type == "ext2": if self.level == mdraid.RAID5: formatArgs = ['-R', 'stride=%d' % ((self.memberDevices - 1) * 16)] if self.level == mdraid.RAID4: formatArgs = ['-R', 'stride=%d' % ((self.memberDevices - 1) * 16)] elif self.level == mdraid.RAID0: formatArgs = ['-R', 'stride=%d' % (self.memberDevices * 16)] @property def mediaPresent(self): # Containers should not get any format handling done # (the device node does not allow read / write calls) if self.type == "mdcontainer": return False # BIOS RAID sets should show as present even when teared down elif self.type == "mdbiosraidarray": return True else: return self.partedDevice is not None @property def model(self): return self.description @property def partitionable(self): return self.type == "mdbiosraidarray" @property def isDisk(self): return self.type == "mdbiosraidarray" def dracutSetupArgs(self): return set(["rd.md.uuid=%s" % self.uuid]) class DMRaidArrayDevice(DMDevice): """ A dmraid (device-mapper RAID) device """ _type = "dm-raid array" _packages = ["dmraid"] _partitionable = True _isDisk = True def __init__(self, name, raidSet=None, format=None, size=None, parents=None, sysfsPath=''): """ Create a DMRaidArrayDevice instance. Arguments: name -- the dmraid name also the device node's basename Keyword Arguments: raidSet -- the RaidSet object from block parents -- a list of the member devices sysfsPath -- sysfs device path size -- the device's size format -- a DeviceFormat instance """ if isinstance(parents, list): for parent in parents: if not parent.format or parent.format.type != "dmraidmember": raise ValueError("parent devices must contain dmraidmember format") DMDevice.__init__(self, name, format=format, size=size, parents=parents, sysfsPath=sysfsPath, exists=True) self.formatClass = get_device_format_class("dmraidmember") if not self.formatClass: raise StorageError("cannot find class for 'dmraidmember'") self._raidSet = raidSet @property def raidSet(self): return self._raidSet def _addDevice(self, device): """ Add a new member device to the array. XXX This is for use when probing devices, not for modification of arrays. """ log_method_call(self, self.name, device=device.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) if not isinstance(device.format, self.formatClass): raise ValueError("invalid device format for dmraid member") if device in self.members: raise ValueError("device is already a member of this array") # we added it, so now set up the relations self.devices.append(device) device.addChild() @property def members(self): return self.parents @property def devices(self): """ Return a list of this array's member device instances. """ return self.parents def deactivate(self): """ Deactivate the raid set. """ log_method_call(self, self.name, status=self.status) # This call already checks if the set is not active. self._raidSet.deactivate() def activate(self): """ Activate the raid set. """ log_method_call(self, self.name, status=self.status) # This call already checks if the set is active. self._raidSet.activate(mknod=True) udev_settle() def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) self.activate() def teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) if not self._preTeardown(recursive=recursive): return log.debug("not tearing down dmraid device %s" % self.name) @property def description(self): return "BIOS RAID set (%s)" % self._raidSet.rs.set_type @property def model(self): return self.description def dracutSetupArgs(self): return set(["rd.dm.uuid=%s" % self.name]) class MultipathDevice(DMDevice): """ A multipath device """ _type = "dm-multipath" _packages = ["device-mapper-multipath"] _services = ["multipathd"] _partitionable = True _isDisk = True def __init__(self, name, info, format=None, size=None, parents=None, sysfsPath=''): """ Create a MultipathDevice instance. Arguments: name -- the device name (generally a device node's basename) info -- the udev info for this device Keyword Arguments: sysfsPath -- sysfs device path size -- the device's size format -- a DeviceFormat instance parents -- a list of the backing devices (Device instances) """ self._info = info self.setupIdentity() DMDevice.__init__(self, name, format=format, size=size, parents=parents, sysfsPath=sysfsPath, exists=True) self.config = { 'wwid' : self.identity, 'mode' : '0600', 'uid' : '0', 'gid' : '0', } def setupIdentity(self): """ Adds identifying remarks to MultipathDevice object. May be overridden by a sub-class for e.g. RDAC handling. """ self._identity = self._info.get("ID_SERIAL_RAW", self._info.get("ID_SERIAL_SHORT")) @property def identity(self): """ Get identity set with setupIdentityFromInfo() May be overridden by a sub-class for e.g. RDAC handling. """ if not hasattr(self, "_identity"): raise RuntimeError, "setupIdentityFromInfo() has not been called." return self._identity @property def wwid(self): identity = self.identity ret = [] while identity: ret.append(identity[:2]) identity = identity[2:] return ":".join(ret) @property def model(self): if not self.parents: return "" return self.parents[0].model @property def vendor(self): if not self.parents: return "" return self.parents[0].vendor @property def description(self): return "WWID %s" % (self.wwid,) def addParent(self, parent): """ Add a parent device to the mpath. """ log_method_call(self, self.name, status=self.status) if self.status: self.teardown() self.parents.append(parent) self.setup() else: self.parents.append(parent) def deactivate(self): """ This is never called, included just for documentation. If we called this during teardown(), we wouldn't be able to get parted object because /dev/mapper/mpathX wouldn't exist. """ if self.exists and os.path.exists(self.path): #self.teardownPartitions() #rc = iutil.execWithRedirect("multipath", # ['-f', self.name], # stdout = "/dev/tty5", # stderr = "/dev/tty5") #if rc: # raise MPathError("multipath deactivation failed for '%s'" % # self.name) bdev = block.getDevice(self.name) devmap = block.getMap(major=bdev[0], minor=bdev[1]) if devmap.open_count: return try: block.removeDeviceMap(devmap) except Exception as e: raise MPathError("failed to tear down multipath device %s: %s" % (self.name, e)) def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) udev_settle() rc = iutil.execWithRedirect("multipath", [self.name], stdout = "/dev/tty5", stderr = "/dev/tty5") if rc: raise MPathError("multipath activation failed for '%s'" % self.name, hardware_fault=True) def _postSetup(self): StorageDevice._postSetup(self) self.setupPartitions() udev_settle() class NoDevice(StorageDevice): """ A nodev device for nodev filesystems like tmpfs. """ _type = "nodev" def __init__(self, format=None): """ Create a NoDevice instance. Arguments: Keyword Arguments: format -- a DeviceFormat instance """ if format: name = format.type else: name = "none" StorageDevice.__init__(self, name, format=format, exists=True) @property def path(self): """ Device node representing this device. """ return self.name def setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) def teardown(self, recursive=False): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) # just make sure the format is unmounted self._preTeardown(recursive=recursive) def create(self, intf=None): """ Create the device. """ log_method_call(self, self.name, status=self.status) def destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) self._preDestroy() class FileDevice(StorageDevice): """ A file on a filesystem. This exists because of swap files. """ _type = "file" _devDir = "" def __init__(self, path, format=None, size=None, exists=None, parents=None): """ Create a FileDevice instance. Arguments: path -- full path to the file Keyword Arguments: format -- a DeviceFormat instance size -- the file size (units TBD) parents -- a list of required devices (Device instances) exists -- indicates whether this is an existing device """ if not path.startswith("/"): raise ValueError("FileDevice requires an absolute path") StorageDevice.__init__(self, path, format=format, size=size, exists=exists, parents=parents) @property def fstabSpec(self): return self.name @property def path(self): root = "" try: status = self.parents[0].format.status except (AttributeError, IndexError): # either this device has no parents or something is wrong with # the first one status = (os.access(self.name, os.R_OK) and self.parents in ([], None)) else: # this is the actual active mountpoint root = self.parents[0].format._mountpoint # trim the mountpoint down to the chroot since we already have # the otherwise fully-qualified path mountpoint = self.parents[0].format.mountpoint while mountpoint.endswith("/"): mountpoint = mountpoint[:-1] if mountpoint: root = root[:-len(mountpoint)] return os.path.normpath("%s%s" % (root, self.name)) def _preSetup(self, orig=False): if self.format and self.format.exists and not self.format.status: self.format.device = self.path return StorageDevice._preSetup(self, orig=orig) def _preTeardown(self, recursive=None): if self.format and self.format.exists and not self.format.status: self.format.device = self.path return StorageDevice._preTeardown(self, recursive=recursive) def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) fd = os.open(self.path, os.O_WRONLY|os.O_CREAT|os.O_TRUNC) buf = "\0" * 1024 * 1024 for n in range(self.size): os.write(fd, buf) os.close(fd) def _destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) os.unlink(self.path) class SparseFileDevice(FileDevice): """A sparse file on a filesystem. This exists for sparse disk images.""" _type = "sparse file" def _create(self, w): """Create a sparse file.""" log_method_call(self, self.name, status=self.status) fd = os.open(self.path, os.O_WRONLY|os.O_CREAT|os.O_TRUNC) os.ftruncate(fd, 1024*1024*self.size) os.close(fd) class DirectoryDevice(FileDevice): """ A directory on a filesystem. This exists because of bind mounts. """ _type = "directory" def _create(self, w): """ Create the device. """ log_method_call(self, self.name, status=self.status) iutil.mkdirChain(self.path) class LoopDevice(StorageDevice): """ A loop device. """ _type = "loop" def __init__(self, name=None, format=None, size=None, sysfsPath=None, exists=None, parents=None): """ Create a LoopDevice instance. Arguments: name -- the device's name Keyword Arguments: format -- a DeviceFormat instance size -- the device's size in MB parents -- a list of required devices (Device instances) exists -- indicates whether this is an existing device Loop devices always exist. """ if not parents: raise ValueError("LoopDevice requires a backing device") if not name: # set up a temporary name until we've activated the loop device name = "tmploop%d" % Device._id StorageDevice.__init__(self, name, format=format, size=size, exists=True, parents=parents) def updateName(self): """ Update this device's name. """ if not self.slave.status: # if the backing device is inactive, so are we return self.name if self.name.startswith("loop"): # if our name is loopN we must already be active return self.name name = loop.get_loop_name(self.slave.path) if name.startswith("loop"): self._name = name return self.name @property def status(self): return (self.slave.status and self.name.startswith("loop") and loop.get_loop_name(self.slave.path) == self.name) @property def size(self): return self.slave.size def _setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) loop.loop_setup(self.slave.path) def _postSetup(self): StorageDevice._postSetup(self) self.updateName() self.updateSysfsPath() def _teardown(self, recursive=False): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) loop.loop_teardown(self.path) def _postTeardown(self, recursive=False): StorageDevice._postTeardown(self, recursive=recursive) self._name = "tmploop%d" % self.id self.sysfsPath = '' @property def slave(self): return self.parents[0] class iScsiDiskDevice(DiskDevice, NetworkStorageDevice): """ An iSCSI disk. """ _type = "iscsi" _packages = ["iscsi-initiator-utils", "dracut-network"] def __init__(self, device, **kwargs): self.node = kwargs.pop("node") self.ibft = kwargs.pop("ibft") self.initiator = kwargs.pop("initiator") DiskDevice.__init__(self, device, **kwargs) NetworkStorageDevice.__init__(self, host_address=self.node.address) log.debug("created new iscsi disk %s %s:%d" % (self.node.name, self.node.address, self.node.port)) def dracutSetupArgs(self): if self.ibft: return set(["iscsi_firmware"]) address = self.node.address # surround ipv6 addresses with [] if ":" in address: address = "[%s]" % address netroot="netroot=iscsi:" auth = self.node.getAuth() if auth: netroot += "%s:%s" % (auth.username, auth.password) if len(auth.reverse_username) or len(auth.reverse_password): netroot += ":%s:%s" % (auth.reverse_username, auth.reverse_password) netroot += "@%s::%d::%s" % (address, self.node.port, self.node.name) initiator = "iscsi_initiator=%s" % self.initiator return set([netroot, initiator]) class FcoeDiskDevice(DiskDevice, NetworkStorageDevice): """ An FCoE disk. """ _type = "fcoe" _packages = ["fcoe-utils", "dracut-network"] def __init__(self, device, **kwargs): self.nic = kwargs.pop("nic") self.identifier = kwargs.pop("identifier") DiskDevice.__init__(self, device, **kwargs) NetworkStorageDevice.__init__(self, nic=self.nic) log.debug("created new fcoe disk %s (%s) @ %s" % (device, self.identifier, self.nic)) def dracutSetupArgs(self): dcb = True from .fcoe import fcoe for nic, dcb in fcoe().nics: if nic == self.nic: break if dcb: dcbOpt = "dcb" else: dcbOpt = "nodcb" return set(["fcoe=edd:%s" % dcbOpt]) class OpticalDevice(StorageDevice): """ An optical drive, eg: cdrom, dvd+r, &c. XXX Is this useful? """ _type = "cdrom" def __init__(self, name, major=None, minor=None, exists=None, format=None, parents=None, sysfsPath='', vendor="", model=""): StorageDevice.__init__(self, name, format=format, major=major, minor=minor, exists=True, parents=parents, sysfsPath=sysfsPath, vendor=vendor, model=model) @property def mediaPresent(self): """ Return a boolean indicating whether or not the device contains media. """ log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) try: fd = os.open(self.path, os.O_RDONLY) except OSError as e: # errno 123 = No medium found if e.errno == 123: return False else: return True else: os.close(fd) return True def eject(self): """ Eject the drawer. """ from pyanaconda import _isys log_method_call(self, self.name, status=self.status) if not self.exists: raise DeviceError("device has not been created", self.name) #try to umount and close device before ejecting self.teardown() if flags.cmdline.has_key('noeject'): log.info("noeject in effect, not ejecting cdrom") return # Make a best effort attempt to do the eject. If it fails, it's not # critical. fd = os.open(self.path, os.O_RDONLY | os.O_NONBLOCK) try: _isys.ejectcdrom(fd) except SystemError as e: log.warning("error ejecting cdrom %s: %s" % (self.name, e)) os.close(fd) class ZFCPDiskDevice(DiskDevice): """ A mainframe ZFCP disk. """ _type = "zfcp" def __init__(self, device, **kwargs): self.hba_id = kwargs.pop("hba_id") self.wwpn = kwargs.pop("wwpn") self.fcp_lun = kwargs.pop("fcp_lun") DiskDevice.__init__(self, device, **kwargs) def __repr__(self): s = DiskDevice.__repr__(self) s += (" hba_id = %(hba_id)s wwpn = %(wwpn)s fcp_lun = %(fcp_lun)s" % {"hba_id": self.hba_id, "wwpn": self.wwpn, "fcp_lun": self.fcp_lun}) return s @property def description(self): return "FCP device %(device)s with WWPN %(wwpn)s and LUN %(lun)s" \ % {'device': self.hba_id, 'wwpn': self.wwpn, 'lun': self.fcp_lun} def dracutSetupArgs(self): return set(["rd.zfcp=%s,%s,%s" % (self.hba_id, self.wwpn, self.fcp_lun,)]) class DASDDevice(DiskDevice): """ A mainframe DASD. """ _type = "dasd" def __init__(self, device, **kwargs): self.busid = kwargs.pop('busid') self.opts = kwargs.pop('opts') self.dasd = kwargs.pop('dasd') DiskDevice.__init__(self, device, **kwargs) if self.dasd: self.dasd.addDASD(self) @property def description(self): return "DASD device %s" % self.busid def getOpts(self): return map(lambda (k, v): "%s=%s" % (k, v,), self.opts.items()) def dracutSetupArgs(self): conf = "/etc/dasd.conf" opts = {} if os.path.isfile(conf): f = open(conf) lines = filter(lambda y: not y.startswith('#') and y != '', map(lambda x: x.strip(), f.readlines())) f.close() for line in lines: parts = line.split() if parts != []: opts[parts[0]] = parts if self.busid in opts.keys(): return set(["rd.dasd=%s" % ",".join(opts[self.busid])]) else: return set(["rd.dasd=%s" % ",".join([self.busid] + self.getOpts())]) class NFSDevice(StorageDevice, NetworkStorageDevice): """ An NFS device """ _type = "nfs" _packages = ["dracut-network"] def __init__(self, device, format=None, parents=None): # we could make host/ip, path, &c but will anything use it? StorageDevice.__init__(self, device, format=format, parents=parents) NetworkStorageDevice.__init__(self, device.split(":")[0]) @property def path(self): """ Device node representing this device. """ return self.name def setup(self, intf=None, orig=False): """ Open, or set up, a device. """ log_method_call(self, self.name, orig=orig, status=self.status, controllable=self.controllable) def teardown(self, recursive=None): """ Close, or tear down, a device. """ log_method_call(self, self.name, status=self.status, controllable=self.controllable) def create(self, intf=None): """ Create the device. """ log_method_call(self, self.name, status=self.status) self._preCreate() def destroy(self): """ Destroy the device. """ log_method_call(self, self.name, status=self.status) class BTRFSDevice(StorageDevice): """ Base class for BTRFS volume and sub-volume devices. """ _type = "btrfs" _packages = ["btrfs-progs"] def __init__(self, *args, **kwargs): """ Passing None or no name means auto-generate one like btrfs.%d """ if not args or not args[0]: args = ("btrfs.%d" % Device._id,) super(BTRFSDevice, self).__init__(*args, **kwargs) def updateSysfsPath(self): """ Update this device's sysfs path. """ log_method_call(self, self.name, status=self.status) self.sysfsPath = self.parents[0].sysfsPath log.debug("%s sysfsPath set to %s" % (self.name, self.sysfsPath)) def _statusWindow(self, intf=None, title="", msg=""): return self._progressWindow(intf=intf, title=title, msg=msg) def _postCreate(self): super(BTRFSDevice, self)._postCreate() self.format.exists = True self.format.device = self.path def _preDestroy(self): """ Preparation and precondition checking for device destruction. """ super(BTRFSDevice, self)._preDestroy() self.setupParents(orig=True) def _getSize(self): size = sum([d.size for d in self.parents]) return size def _setSize(self, size): raise RuntimeError("cannot directly set size of btrfs volume") @property def status(self): return not any([not d.status for d in self.parents]) @property def _temp_dir_prefix(self): return "btrfs-tmp.%s" % self.id def _do_temp_mount(self): if self.format.status or not self.exists: return tmpdir = tempfile.mkdtemp(prefix=self._temp_dir_prefix) self.format.mount(mountpoint=tmpdir) def _undo_temp_mount(self): if self.format.status: mountpoint = self.format._mountpoint if os.path.basename(mountpoint).startswith(self._temp_dir_prefix): self.format.unmount() os.rmdir(mountpoint) @property def path(self): return self.parents[0].path class BTRFSVolumeDevice(BTRFSDevice): _type = "btrfs volume" def __init__(self, *args, **kwargs): self.dataLevel = kwargs.pop("dataLevel", None) self.metaDataLevel = kwargs.pop("metaDataLevel", None) super(BTRFSVolumeDevice, self).__init__(*args, **kwargs) self.subvolumes = [] for parent in self.parents: if parent.format.type != "btrfs": raise ValueError("member device %s is not BTRFS" % parent.name) if parent.format.exists and self.exists and \ parent.format.volUUID != self.uuid: raise ValueError("BTRFS member device %s UUID %s does not " "match volume UUID %s" % (parent.name, parent.format.volUUID, self.uuid)) if self.parents and not self.format.type: label = getattr(self.parents[0].format, "label", None) self.format = getFormat("btrfs", exists=self.exists, label=label, volUUID=self.uuid, device=self.path) label = getattr(self.format, "label", None) if label: self._name = label def _setFormat(self, format): """ Set the Device's format. """ super(BTRFSVolumeDevice, self)._setFormat(format) self._name = getattr(self.format, "label", "btrfs.%d" % self.id) def _addDevice(self, device): """ Add a new device to this volume. XXX This is for use by device probing routines and is not intended for modification of the volume. """ log_method_call(self, self.name, device=device.name, status=self.status) if not self.exists: raise DeviceError("device does not exist", self.name) if device.format.type != "btrfs": raise ValueError("addDevice requires a btrfs device as sole arg") if device.format.volUUID != self.uuid: raise ValueError("device UUID does not match the volume UUID") if device in self.parents: raise ValueError("device is already a member of this volume") self.parents.append(device) device.addChild() def _removeDevice(self, device): """ Remove a device from the volume. This is for cases like clearing of preexisting partitions. """ log_method_call(self, self.name, device=device.name, status=self.status) try: self.parents.remove(device) except ValueError: raise ValueError("cannot remove non-member device from volume") device.removeChild() def _addSubVolume(self, vol): if vol.name in [v.name for v in self.subvolumes]: raise ValueError("subvolume %s already exists" % vol.name) self.subvolumes.append(vol) def _removeSubVolume(self, name): if name not in [v.name for v in self.subvolumes]: raise ValueError("cannot remove non-existent subvolume %s" % name) names = [v.name for v in self.subvolumes] self.subvolumes.pop(names.index(name)) def listSubVolumes(self): subvols = [] self.setup(orig=True) try: self._do_temp_mount() except FSError as e: log.debug("btrfs temp mount failed: %s" % e) return subvols try: subvols = btrfs.list_subvolumes(self.format._mountpoint) except BTRFSError as e: log.debug("failed to list subvolumes: %s" % e) finally: self._undo_temp_mount() return subvols def createSubVolumes(self, intf=None): self._do_temp_mount() for name, subvol in self.subvolumes: if subvol.exists: continue subvolume.create(mountpoint=self._temp_dir_prefix, intf=intf) self._undo_temp_mount() def removeSubVolume(self, name): raise NotImplementedError() def _create(self, w): log_method_call(self, self.name, status=self.status) btrfs.create_volume(devices=[d.path for d in self.parents], label=self.format.label, data=self.dataLevel, metadata=self.metaDataLevel, progress=w) def _destroy(self): log_method_call(self, self.name, status=self.status) for device in self.parents: device.setup(orig=True) DeviceFormat(device=device.path, exists=True).destroy() class BTRFSSubVolumeDevice(BTRFSDevice): """ A btrfs subvolume pseudo-device. """ _type = "btrfs subvolume" def __init__(self, *args, **kwargs): self.vol_id = kwargs.pop("vol_id", None) super(BTRFSSubVolumeDevice, self).__init__(*args, **kwargs) self.volume._addSubVolume(self) @property def volume(self): return self.parents[0] def setupParents(self, orig=False): """ Run setup method of all parent devices. """ log_method_call(self, name=self.name, orig=orig, kids=self.kids) self.volume.setup(orig=orig) def _create(self, w): log_method_call(self, self.name, status=self.status) self.volume._do_temp_mount() mountpoint = self.volume.format._mountpoint if not mountpoint: raise RuntimeError("btrfs subvol create requires mounted volume") btrfs.create_subvolume(mountpoint, self.name, progress=w) self.volume._undo_temp_mount() def _destroy(self): log_method_call(self, self.name, status=self.status) self.volume._do_temp_mount() mountpoint = self.volume.format._mountpoint if not mountpoint: raise RuntimeError("btrfs subvol destroy requires mounted volume") btrfs.delete_subvolume(mountpoint, self.name) self.volume._removeSubVolume() self.volume._undo_temp_mount()