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|
# devicetree.py
# Device management 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 <dlehman@redhat.com>
#
import os
import stat
import block
import re
from errors import *
from devices import *
from deviceaction import *
from partitioning import shouldClear
from pykickstart.constants import *
import formats
import devicelibs.mdraid
import devicelibs.dm
import devicelibs.lvm
import devicelibs.mpath
from udev import *
from .storage_log import log_method_call
import iutil
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
import logging
log = logging.getLogger("storage")
def getLUKSPassphrase(intf, device, globalPassphrase):
""" Obtain a passphrase for a LUKS encrypted block device.
The format's mapping name must already be set and the backing
device must already be set up before calling this function.
If successful, this function leaves the device mapped.
Return value is a two-tuple: (passphrase, isglobal)
passphrase is the passphrase string, if obtained
isglobal is a boolean indicating whether the passphrase is global
Either or both can be None, depending on the outcome.
"""
if device.format.type != "luks":
# this function only works on luks devices
raise ValueError("not a luks device")
if not device.status:
# the device should have already been set up
raise RuntimeError("device is not set up")
if device.format.status:
# the device is already mapped
raise RuntimeError("device is already mapped")
if not device.format.configured and globalPassphrase:
# try the given passphrase first
device.format.passphrase = globalPassphrase
try:
device.format.setup()
except CryptoError as e:
device.format.passphrase = None
else:
# we've opened the device so we're done.
return (globalPassphrase, False)
if not intf:
return (None, None)
buttons = [_("Back"), _("Continue")]
passphrase_incorrect = False
while True:
if passphrase_incorrect:
# TODO: add a flag to passphraseEntryWindow to say the last
# passphrase was incorrect so try again
passphrase_incorrect = False
(passphrase, isglobal) = intf.passphraseEntryWindow(device.name)
if not passphrase:
rc = intf.messageWindow(_("Confirm"),
_("Are you sure you want to skip "
"entering a passphrase for device "
"%s?\n\n"
"If you skip this step the "
"device's contents will not "
"be available during "
"installation.") % device.name,
type = "custom",
default = 0,
custom_buttons = buttons)
if rc == 0:
continue
else:
passphrase = None
isglobal = None
log.info("skipping passphrase for %s" % (device.name,))
break
device.format.passphrase = passphrase
try:
device.format.setup()
except CryptoError as e:
device.format.passphrase = None
passphrase_incorrect = True
else:
# we've opened the device so we're done.
break
return (passphrase, isglobal)
class DeviceTree(object):
""" A quasi-tree that represents the devices in the system.
The tree contains a list of device instances, which does not
necessarily reflect the actual state of the system's devices.
DeviceActions are used to perform modifications to the tree,
except when initially populating the tree.
DeviceAction instances are registered, possibly causing the
addition or removal of Device instances to/from the tree. The
DeviceActions are all reversible up to the time their execute
method has been called.
Only one action of any given type/object pair should exist for
any given device at any given time.
DeviceAction instances can only be registered for leaf devices,
except for resize actions.
"""
def __init__(self, intf=None, ignored=[], exclusive=[], type=CLEARPART_TYPE_NONE,
clear=[], zeroMbr=None, reinitializeDisks=None, protected=[],
passphrase=None, luksDict=None, iscsi=None, dasd=None):
# internal data members
self._devices = []
self._actions = []
# indicates whether or not the tree has been fully populated
self.populated = False
self.intf = intf
self.exclusiveDisks = exclusive
self.clearPartType = type
self.clearPartDisks = clear
self.zeroMbr = zeroMbr
self.reinitializeDisks = reinitializeDisks
self.iscsi = iscsi
self.dasd = dasd
# protected device specs as provided by the user
self.protectedDevSpecs = protected
# names of protected devices at the time of tree population
self.protectedDevNames = []
self.unusedRaidMembers = []
self.__multipaths = {}
self.__multipathConfigWriter = devicelibs.mpath.MultipathConfigWriter()
self.__passphrase = passphrase
self.__luksDevs = {}
if luksDict and isinstance(luksDict, dict):
self.__luksDevs = luksDict
self._ignoredDisks = []
for disk in ignored:
self.addIgnoredDisk(disk)
self.immutableDevices = []
lvm.lvm_cc_resetFilter()
def addIgnoredDisk(self, disk):
self._ignoredDisks.append(disk)
lvm.lvm_cc_addFilterRejectRegexp(disk)
def pruneActions(self):
""" Prune loops and redundant actions from the queue. """
# handle device destroy actions
actions = self.findActions(type="destroy", object="device")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
destroys = self.findActions(devid=a.device.id,
type="destroy",
object="device")
creates = self.findActions(devid=a.device.id,
type="create",
object="device")
# If the device is not preexisting, we remove all actions up
# to and including the last destroy action.
# If the device is preexisting, we remove all actions from
# after the first destroy action up to and including the last
# destroy action.
loops = []
first_destroy_idx = None
first_create_idx = None
stop_action = None
start = None
if len(destroys) > 1:
# there are multiple destroy actions for this device
loops = destroys
first_destroy_idx = self._actions.index(loops[0])
start = self._actions.index(a) + 1
stop_action = destroys[-1]
if creates:
first_create_idx = self._actions.index(creates[0])
if not loops or first_destroy_idx > first_create_idx:
# this device is not preexisting
start = first_create_idx
stop_action = destroys[-1]
if start is None:
continue
# now we remove all actions on this device between the start
# index (into self._actions) and stop_action.
dev_actions = self.findActions(path=a.device.path)
for rem in dev_actions:
end = self._actions.index(stop_action)
if start <= self._actions.index(rem) <= end:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
if rem == stop_action:
break
# device create actions
actions = self.findActions(type="create", object="device")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
creates = self.findActions(devid=a.device.id,
type="create",
object="device")
destroys = self.findActions(devid=a.device.id,
type="destroy",
object="device")
# If the device is preexisting, we remove everything between
# the first destroy and the last create.
# If the device is not preexisting, we remove everything up to
# the last create.
loops = []
first_destroy_idx = None
first_create_idx = None
stop_action = None
start = None
if len(creates) > 1:
# there are multiple create actions for this device
loops = creates
first_create_idx = self._actions.index(loops[0])
start = 0
stop_action = creates[-1]
if destroys:
first_destroy_idx = self._actions.index(destroys[0])
if not loops or first_create_idx > first_destroy_idx:
# this device is preexisting
start = first_destroy_idx + 1
stop_action = creates[-1]
if start is None:
continue
# remove all actions on this from after the first destroy up
# to the last create
dev_actions = self.findActions(devid=a.device.id)
for rem in dev_actions:
if rem == stop_action:
break
end = self._actions.index(stop_action)
if start <= self._actions.index(rem) < end:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
# device resize actions
actions = self.findActions(type="resize", object="device")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
loops = self.findActions(devid=a.device.id,
type="resize",
object="device")
if len(loops) == 1:
continue
# remove all but the last resize action on this device
for rem in loops[:-1]:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
# format destroy
# XXX I don't think there's a way for these loops to happen
actions = self.findActions(type="destroy", object="format")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
destroys = self.findActions(devid=a.device.id,
type="destroy",
object="format")
creates = self.findActions(devid=a.device.id,
type="create",
object="format")
# If the format is not preexisting, we remove all actions up
# to and including the last destroy action.
# If the format is preexisting, we remove all actions from
# after the first destroy action up to and including the last
# destroy action.
loops = []
first_destroy_idx = None
first_create_idx = None
stop_action = None
start = None
if len(destroys) > 1:
# there are multiple destroy actions for this format
loops = destroys
first_destroy_idx = self._actions.index(loops[0])
start = self._actions.index(a) + 1
stop_action = destroys[-1]
if creates:
first_create_idx = self._actions.index(creates[0])
if not loops or first_destroy_idx > first_create_idx:
# this format is not preexisting
start = first_create_idx
stop_action = destroys[-1]
if start is None:
continue
# now we remove all actions on this device's format between
# the start index (into self._actions) and stop_action.
dev_actions = self.findActions(devid=a.device.id,
object="format")
for rem in dev_actions:
end = self._actions.index(stop_action)
if start <= self._actions.index(rem) <= end:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
if rem == stop_action:
break
# format create
# XXX I don't think there's a way for these loops to happen
actions = self.findActions(type="create", object="format")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
creates = self.findActions(devid=a.device.id,
type="create",
object="format")
destroys = self.findActions(devid=a.device.id,
type="destroy",
object="format")
# If the format is preexisting, we remove everything between
# the first destroy and the last create.
# If the format is not preexisting, we remove everything up to
# the last create.
loops = []
first_destroy_idx = None
first_create_idx = None
stop_action = None
start = None
if len(creates) > 1:
# there are multiple create actions for this format
loops = creates
first_create_idx = self._actions.index(loops[0])
start = 0
stop_action = creates[-1]
if destroys:
first_destroy_idx = self._actions.index(destroys[0])
if not loops or first_create_idx > first_destroy_idx:
# this format is preexisting
start = first_destroy_idx + 1
stop_action = creates[-1]
if start is None:
continue
# remove all actions on this from after the first destroy up
# to the last create
dev_actions = self.findActions(devid=a.device.id,
object="format")
for rem in dev_actions:
if rem == stop_action:
break
end = self._actions.index(stop_action)
if start <= self._actions.index(rem) < end:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
# format resize
actions = self.findActions(type="resize", object="format")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
loops = self.findActions(devid=a.device.id,
type="resize",
object="format")
if len(loops) == 1:
continue
# remove all but the last resize action on this format
for rem in loops[:-1]:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
# format migrate
# XXX I don't think there's away for these loops to occur
actions = self.findActions(type="migrate", object="format")
for a in actions:
if a not in self._actions:
# we may have removed some of the actions in a previous
# iteration of this loop
continue
log.debug("action '%s' (%s)" % (a, id(a)))
loops = self.findActions(devid=a.device.id,
type="migrate",
object="format")
if len(loops) == 1:
continue
# remove all but the last migrate action on this format
for rem in loops[:-1]:
log.debug(" removing action '%s' (%s)" % (rem, id(rem)))
self._actions.remove(rem)
def processActions(self, dryRun=None):
""" Execute all registered actions. """
# in most cases the actions will already be sorted because of the
# rules for registration, but let's not rely on that
def cmpActions(a1, a2):
ret = 0
if a1.isDestroy() and a2.isDestroy():
if a1.device.path == a2.device.path:
# if it's the same device, destroy the format first
if a1.isFormat() and a2.isFormat():
ret = 0
elif a1.isFormat() and not a2.isFormat():
ret = -1
elif not a1.isFormat() and a2.isFormat():
ret = 1
elif a1.device.dependsOn(a2.device):
ret = -1
elif a2.device.dependsOn(a1.device):
ret = 1
# generally destroy partitions after lvs, vgs, &c
elif isinstance(a1.device, PartitionDevice) and \
isinstance(a2.device, PartitionDevice):
if a1.device.disk == a2.device.disk:
ret = cmp(a2.device.partedPartition.number,
a1.device.partedPartition.number)
else:
ret = cmp(a2.device.name, a1.device.name)
elif isinstance(a1.device, PartitionDevice) and \
a2.device.partitioned:
ret = 1
elif isinstance(a2.device, PartitionDevice) and \
a1.device.partitioned:
ret = -1
else:
ret = 0
elif a1.isDestroy():
ret = -1
elif a2.isDestroy():
ret = 1
elif a1.isResize() and a2.isResize():
if a1.device.path == a2.device.path:
if a1.obj == a2.obj:
ret = 0
elif a1.isFormat() and not a2.isFormat():
# same path, one device, one format
if a1.isGrow():
ret = 1
else:
ret = -1
elif not a1.isFormat() and a2.isFormat():
# same path, one device, one format
if a1.isGrow():
ret = -1
else:
ret = 1
else:
ret = cmp(a1.device.name, a2.device.name)
elif a1.device.dependsOn(a2.device):
if a1.isGrow():
ret = 1
else:
ret = -1
elif a2.device.dependsOn(a1.device):
if a1.isGrow():
ret = -1
else:
ret = 1
elif isinstance(a1.device, PartitionDevice) and \
isinstance(a2.device, PartitionDevice):
ret = cmp(a1.device.name, a2.device.name)
elif isinstance(a1.device, PartitionDevice) and \
a2.device.partitioned:
if a1.isGrow():
ret = -1
else:
ret = 1
elif isinstance(a2.device, PartitionDevice) and \
a1.device.partitioned:
if a2.isGrow():
ret = 1
else:
ret = -1
else:
ret = 0
elif a1.isResize():
ret = -1
elif a2.isResize():
ret = 1
elif a1.isCreate() and a2.isCreate():
if a1.device.path == a2.device.path:
if a1.obj == a2.obj:
ret = 0
if a1.isFormat():
ret = 1
elif a2.isFormat():
ret = -1
else:
ret = 0
elif a1.device.dependsOn(a2.device):
ret = 1
elif a2.device.dependsOn(a1.device):
ret = -1
# generally create partitions before other device types
elif isinstance(a1.device, PartitionDevice) and \
isinstance(a2.device, PartitionDevice):
if a1.device.disk == a2.device.disk:
ret = cmp(a1.device.partedPartition.number,
a2.device.partedPartition.number)
else:
ret = cmp(a1.device.name, a2.device.name)
elif isinstance(a1.device, PartitionDevice) and \
a2.device.partitioned:
ret = 1
elif isinstance(a2.device, PartitionDevice) and \
a1.device.partitioned:
ret = -1
else:
ret = 0
elif a1.isCreate():
ret = -1
elif a2.isCreate():
ret = 1
elif a1.isMigrate() and a2.isMigrate():
if a1.device.path == a2.device.path:
ret = 0
elif a1.device.dependsOn(a2.device):
ret = 1
elif a2.device.dependsOn(a1.device):
ret = -1
elif isinstance(a1.device, PartitionDevice) and \
isinstance(a2.device, PartitionDevice):
ret = cmp(a1.device.name, a2.device.name)
else:
ret = cmp(a1.device.name, a2.device.name)
else:
ret = 0
log.debug("cmp: %d -- %s | %s" % (ret, a1, a2))
return ret
log.debug("resetting parted disks...")
for device in self.devices:
if device.partitioned:
device.format.resetPartedDisk()
# reget parted.Partition for remaining preexisting devices
for device in self.devices:
if isinstance(device, PartitionDevice):
p = device.partedPartition
# reget parted.Partition for existing devices we're removing
for action in self._actions:
if isinstance(action.device, PartitionDevice):
p = action.device.partedPartition
# setup actions to create any extended partitions we added
#
# XXX At this point there can be duplicate partition paths in the
# tree (eg: non-existent sda6 and previous sda6 that will become
# sda5 in the course of partitioning), so we access the list
# directly here.
for device in self._devices:
if isinstance(device, PartitionDevice) and \
device.isExtended and not device.exists:
# don't properly register the action since the device is
# already in the tree
self._actions.append(ActionCreateDevice(device))
for action in self._actions:
log.debug("action: %s" % action)
log.debug("pruning action queue...")
self.pruneActions()
for action in self._actions:
log.debug("action: %s" % action)
log.debug("sorting actions...")
self._actions.sort(cmp=cmpActions)
for action in self._actions:
log.debug("action: %s" % action)
for action in self._actions:
log.info("executing action: %s" % action)
if not dryRun:
try:
action.execute(intf=self.intf)
except DiskLabelCommitError:
# it's likely that a previous format destroy action
# triggered setup of an lvm or md device.
self.teardownAll()
action.execute(intf=self.intf)
udev_settle()
for device in self._devices:
# make sure we catch any renumbering parted does
if device.exists and isinstance(device, PartitionDevice):
device.updateName()
device.format.device = device.path
def _addDevice(self, newdev):
""" Add a device to the tree.
Raise ValueError if the device's identifier is already
in the list.
"""
if newdev.path in [d.path for d in self._devices] and \
not isinstance(newdev, NoDevice):
raise ValueError("device is already in tree")
# make sure this device's parent devices are in the tree already
for parent in newdev.parents:
if parent not in self._devices:
raise DeviceTreeError("parent device not in tree")
self._devices.append(newdev)
log.debug("added %s %s (id %d) to device tree" % (newdev.type,
newdev.name,
newdev.id))
def _removeDevice(self, dev, force=None, moddisk=True):
""" Remove a device from the tree.
Only leaves may be removed.
"""
if dev not in self._devices:
raise ValueError("Device '%s' not in tree" % dev.name)
if not dev.isleaf and not force:
log.debug("%s has %d kids" % (dev.name, dev.kids))
raise ValueError("Cannot remove non-leaf device '%s'" % dev.name)
# if this is a partition we need to remove it from the parted.Disk
if moddisk and isinstance(dev, PartitionDevice) and \
dev.disk is not None:
# if this partition hasn't been allocated it could not have
# a disk attribute
if dev.partedPartition.type == parted.PARTITION_EXTENDED and \
len(dev.disk.format.logicalPartitions) > 0:
raise ValueError("Cannot remove extended partition %s. "
"Logical partitions present." % dev.name)
dev.disk.format.removePartition(dev.partedPartition)
# adjust all other PartitionDevice instances belonging to the
# same disk so the device name matches the potentially altered
# name of the parted.Partition
for device in self._devices:
if isinstance(device, PartitionDevice) and \
device.disk == dev.disk:
device.updateName()
self._devices.remove(dev)
log.debug("removed %s %s (id %d) from device tree" % (dev.type,
dev.name,
dev.id))
for parent in dev.parents:
# Will this cause issues with garbage collection?
# Do we care about garbage collection? At all?
parent.removeChild()
def registerAction(self, action):
""" Register an action to be performed at a later time.
Modifications to the Device instance are handled before we
get here.
"""
if (action.isDestroy() or action.isResize() or \
(action.isCreate() and action.isFormat())) and \
action.device not in self._devices:
raise DeviceTreeError("device is not in the tree")
elif (action.isCreate() and action.isDevice()):
# this allows multiple create actions w/o destroy in between;
# we will clean it up before processing actions
#raise DeviceTreeError("device is already in the tree")
if action.device in self._devices:
self._removeDevice(action.device)
for d in self._devices:
if d.path == action.device.path:
self._removeDevice(d)
if action.isCreate() and action.isDevice():
self._addDevice(action.device)
elif action.isDestroy() and action.isDevice():
self._removeDevice(action.device)
elif action.isCreate() and action.isFormat():
if isinstance(action.device.format, formats.fs.FS) and \
action.device.format.mountpoint in self.filesystems:
raise DeviceTreeError("mountpoint already in use")
log.debug("registered action: %s" % action)
self._actions.append(action)
def cancelAction(self, action):
""" Cancel a registered action.
This will unregister the action and do any required
modifications to the device list.
Actions all operate on a Device, so we can use the devices
to determine dependencies.
"""
if action.isCreate() and action.isDevice():
# remove the device from the tree
self._removeDevice(action.device)
elif action.isDestroy() and action.isDevice():
# add the device back into the tree
self._addDevice(action.device)
elif action.isFormat() and \
(action.isCreate() or action.isMigrate() or action.isResize()):
action.cancel()
self._actions.remove(action)
def findActions(self, device=None, type=None, object=None, path=None,
devid=None):
""" Find all actions that match all specified parameters.
Keyword arguments:
device -- device to match (Device, or None to match any)
type -- action type to match (string, or None to match any)
object -- operand type to match (string, or None to match any)
path -- device path to match (string, or None to match any)
"""
if device is None and type is None and object is None and \
path is None and devid is None:
return self._actions[:]
# convert the string arguments to the types used in actions
_type = action_type_from_string(type)
_object = action_object_from_string(object)
actions = []
for action in self._actions:
if device is not None and action.device != device:
continue
if _type is not None and action.type != _type:
continue
if _object is not None and action.obj != _object:
continue
if path is not None and action.device.path != path:
continue
if devid is not None and action.device.id != devid:
continue
actions.append(action)
return actions
def getDependentDevices(self, dep):
""" Return a list of devices that depend on dep.
The list includes both direct and indirect dependents.
"""
dependents = []
# special handling for extended partitions since the logical
# partitions and their deps effectively depend on the extended
logicals = []
if isinstance(dep, PartitionDevice) and dep.partType and \
dep.isExtended:
# collect all of the logicals on the same disk
for part in self.getDevicesByInstance(PartitionDevice):
if part.partType and part.isLogical and part.disk == dep.disk:
logicals.append(part)
for device in self.devices:
if device.dependsOn(dep):
dependents.append(device)
else:
for logical in logicals:
if device.dependsOn(logical):
dependents.append(device)
break
return dependents
def isIgnored(self, info):
""" Return True if info is a device we should ignore.
Arguments:
info -- a dict representing a udev db entry
TODO:
- filtering of SAN/FC devices
- filtering by driver?
"""
sysfs_path = udev_device_get_sysfs_path(info)
name = udev_device_get_name(info)
if not sysfs_path:
return None
if name in self._ignoredDisks:
return True
# Special handling for mdraid external metadata sets (mdraid BIOSRAID):
# 1) The containers are intermediate devices which will never be
# in exclusiveDisks
# 2) Sets get added to exclusive disks with their dmraid set name by
# the filter ui. Note that making the ui use md names instead is not
# possible as the md names are simpy md# and we cannot predict the #
if udev_device_get_md_level(info) == "container":
return False
if udev_device_get_md_container(info) and \
udev_device_get_md_name(info):
md_name = udev_device_get_md_name(info)
for i in range(0, len(self.exclusiveDisks)):
if re.match("isw_[a-z]*_%s" % md_name, self.exclusiveDisks[i]):
self.exclusiveDisks[i] = name
return False
if udev_device_is_disk(info) and \
not udev_device_is_md(info) and \
not udev_device_is_dm(info) and \
not udev_device_is_biosraid(info) and \
not udev_device_is_multipath_member(info):
if self.exclusiveDisks and name not in self.exclusiveDisks:
self.addIgnoredDisk(name)
return True
# Ignore loop and ram devices, we normally already skip these in
# udev.py: enumerate_block_devices(), but we can still end up trying
# to add them to the tree when they are slaves of other devices, this
# happens for example with the livecd
if name.startswith("loop") or name.startswith("ram"):
return True
# FIXME: check for virtual devices whose slaves are on the ignore list
def addUdevDMDevice(self, info):
name = udev_device_get_name(info)
log_method_call(self, name=name)
uuid = udev_device_get_uuid(info)
sysfs_path = udev_device_get_sysfs_path(info)
device = None
for dmdev in self.devices:
if not isinstance(dmdev, DMDevice):
continue
try:
# there is a device in the tree already with the same
# major/minor as this one but with a different name
# XXX this is kind of racy
if dmdev.getDMNode() == os.path.basename(sysfs_path):
# XXX should we take the name already in use?
device = dmdev
break
except DMError:
# This is a little lame, but the VG device is a DMDevice
# and it won't have a dm node. At any rate, this is not
# important enough to crash the install.
log.debug("failed to find dm node for %s" % dmdev.name)
continue
if device is None:
# we couldn't find it, so create it
# first, get a list of the slave devs and look them up
slaves = []
dir = os.path.normpath("/sys/%s/slaves" % sysfs_path)
slave_names = os.listdir(dir)
for slave_name in slave_names:
# if it's a dm-X name, resolve it to a map name first
if slave_name.startswith("dm-"):
dev_name = dm.name_from_dm_node(slave_name)
else:
dev_name = slave_name
slave_dev = self.getDeviceByName(dev_name)
if slave_dev:
slaves.append(slave_dev)
else:
# we haven't scanned the slave yet, so do it now
path = os.path.normpath("%s/%s" % (dir, slave_name))
new_info = udev_get_block_device(os.path.realpath(path)[4:])
if new_info:
self.addUdevDevice(new_info)
if self.getDeviceByName(dev_name) is None:
# if the current slave is still not in
# the tree, something has gone wrong
log.error("failure scanning device %s: could not add slave %s" % (name, dev_name))
return
# try to get the device again now that we've got all the slaves
device = self.getDeviceByName(name)
if device is None:
if udev_device_is_multipath_partition(info, self):
diskname = udev_device_get_multipath_partition_disk(info)
disk = self.getDeviceByName(diskname)
return self.addUdevPartitionDevice(info, disk=disk)
elif udev_device_is_dmraid_partition(info, self):
diskname = udev_device_get_dmraid_partition_disk(info)
disk = self.getDeviceByName(diskname)
return self.addUdevPartitionDevice(info, disk=disk)
# if we get here, we found all of the slave devices and
# something must be wrong -- if all of the slaves are in
# the tree, this device should be as well
if device is None:
log.warning("ignoring dm device %s" % name)
return device
def addUdevMDDevice(self, info):
name = udev_device_get_name(info)
log_method_call(self, name=name)
uuid = udev_device_get_uuid(info)
sysfs_path = udev_device_get_sysfs_path(info)
device = None
slaves = []
dir = os.path.normpath("/sys/%s/slaves" % sysfs_path)
slave_names = os.listdir(dir)
for slave_name in slave_names:
# if it's a dm-X name, resolve it to a map name
if slave_name.startswith("dm-"):
dev_name = dm.name_from_dm_node(slave_name)
else:
dev_name = slave_name
slave_dev = self.getDeviceByName(dev_name)
if slave_dev:
slaves.append(slave_dev)
else:
# we haven't scanned the slave yet, so do it now
path = os.path.normpath("%s/%s" % (dir, slave_name))
new_info = udev_get_block_device(os.path.realpath(path)[4:])
if new_info:
self.addUdevDevice(new_info)
if self.getDeviceByName(dev_name) is None:
# if the current slave is still not in
# the tree, something has gone wrong
log.error("failure scanning device %s: could not add slave %s" % (name, dev_name))
return
# try to get the device again now that we've got all the slaves
device = self.getDeviceByName(name)
# if we get here, we found all of the slave devices and
# something must be wrong -- if all of the slaves we in
# the tree, this device should be as well
if device is None:
log.warning("using MD RAID device for %s" % name)
try:
# level is reported as, eg: "raid1"
md_level = udev_device_get_md_level(info)
md_devices = int(udev_device_get_md_devices(info))
md_uuid = udev_device_get_md_uuid(info)
except (KeyError, IndexError, ValueError) as e:
log.warning("invalid data for %s: %s" % (name, e))
return
device = MDRaidArrayDevice(name,
level=md_level,
memberDevices=md_devices,
uuid=md_uuid,
exists=True,
parents=slaves)
self._addDevice(device)
return device
def addUdevPartitionDevice(self, info, disk=None):
name = udev_device_get_name(info)
log_method_call(self, name=name)
uuid = udev_device_get_uuid(info)
sysfs_path = udev_device_get_sysfs_path(info)
device = None
if disk is None:
disk_name = os.path.basename(os.path.dirname(sysfs_path))
disk_name = disk_name.replace('!','/')
disk = self.getDeviceByName(disk_name)
if disk is None:
# create a device instance for the disk
new_info = udev_get_block_device(os.path.dirname(sysfs_path))
if new_info:
self.addUdevDevice(new_info)
disk = self.getDeviceByName(disk_name)
if disk is None:
# if the current device is still not in
# the tree, something has gone wrong
log.error("failure scanning device %s" % disk_name)
lvm.lvm_cc_addFilterRejectRegexp(name)
return
# Check that the disk has partitions. If it does not, we must have
# reinitialized the disklabel.
#
# Also ignore partitions on devices we do not support partitioning
# of, like logical volumes.
if not getattr(disk.format, "partitions", None) or \
not disk.partitionable:
# When we got here because the disk does not have a disklabel
# format (ie a biosraid member), or because it is not
# partitionable we want LVM to ignore this partition too
if disk.format.type != "disklabel" or not disk.partitionable:
lvm.lvm_cc_addFilterRejectRegexp(name)
log.debug("ignoring partition %s" % name)
return
try:
device = PartitionDevice(name, sysfsPath=sysfs_path,
major=udev_device_get_major(info),
minor=udev_device_get_minor(info),
exists=True, parents=[disk])
except DeviceError:
# corner case sometime the kernel accepts a partition table
# which gets rejected by parted, in this case we will
# prompt to re-initialize the disk, so simply skip the
# faulty partitions.
return
self._addDevice(device)
return device
def addUdevDiskDevice(self, info):
name = udev_device_get_name(info)
log_method_call(self, name=name)
uuid = udev_device_get_uuid(info)
sysfs_path = udev_device_get_sysfs_path(info)
serial = udev_device_get_serial(info)
bus = udev_device_get_bus(info)
# udev doesn't always provide a vendor.
vendor = udev_device_get_vendor(info)
if not vendor:
vendor = ""
device = None
kwargs = { "serial": serial, "vendor": vendor, "bus": bus }
if udev_device_is_iscsi(info):
diskType = iScsiDiskDevice
kwargs["node"] = self.iscsi.getNode(
udev_device_get_iscsi_name(info),
udev_device_get_iscsi_address(info),
udev_device_get_iscsi_port(info))
kwargs["ibft"] = kwargs["node"] in self.iscsi.ibftNodes
kwargs["initiator"] = self.iscsi.initiator
log.debug("%s is an iscsi disk" % name)
elif udev_device_is_fcoe(info):
diskType = FcoeDiskDevice
kwargs["nic"] = udev_device_get_fcoe_nic(info)
kwargs["identifier"] = udev_device_get_fcoe_identifier(info)
log.debug("%s is an fcoe disk" % name)
elif udev_device_get_md_container(info):
diskType = MDRaidArrayDevice
parentName = devicePathToName(udev_device_get_md_container(info))
kwargs["parents"] = [ self.getDeviceByName(parentName) ]
kwargs["level"] = udev_device_get_md_level(info)
kwargs["memberDevices"] = int(udev_device_get_md_devices(info))
kwargs["uuid"] = udev_device_get_md_uuid(info)
kwargs["exists"] = True
del kwargs["serial"]
del kwargs["vendor"]
del kwargs["bus"]
elif udev_device_is_dasd(info):
diskType = DASDDevice
kwargs["dasd"] = self.dasd
kwargs["busid"] = udev_device_get_dasd_bus_id(info)
kwargs["opts"] = {}
for attr in ['readonly', 'use_diag', 'erplog', 'failfast']:
kwargs["opts"][attr] = udev_device_get_dasd_flag(info, attr)
log.debug("%s is a dasd device" % name)
elif udev_device_is_zfcp(info):
diskType = ZFCPDiskDevice
for attr in ['hba_id', 'wwpn', 'fcp_lun']:
kwargs[attr] = udev_device_get_zfcp_attribute(info, attr=attr)
log.debug("%s is a zfcp device" % name)
else:
diskType = DiskDevice
log.debug("%s is a disk" % name)
device = diskType(name,
major=udev_device_get_major(info),
minor=udev_device_get_minor(info),
sysfsPath=sysfs_path, **kwargs)
self._addDevice(device)
return device
def addUdevOpticalDevice(self, info):
log_method_call(self)
# XXX should this be RemovableDevice instead?
#
# Looks like if it has ID_INSTANCE=0:1 we can ignore it.
device = OpticalDevice(udev_device_get_name(info),
major=udev_device_get_major(info),
minor=udev_device_get_minor(info),
sysfsPath=udev_device_get_sysfs_path(info),
vendor=udev_device_get_vendor(info),
model=udev_device_get_model(info))
self._addDevice(device)
return device
def addUdevDevice(self, info):
name = udev_device_get_name(info)
log_method_call(self, name=name, info=info)
uuid = udev_device_get_uuid(info)
sysfs_path = udev_device_get_sysfs_path(info)
if self.isIgnored(info):
log.debug("ignoring %s (%s)" % (name, sysfs_path))
return
log.debug("scanning %s (%s)..." % (name, sysfs_path))
device = self.getDeviceByName(name)
#
# The first step is to either look up or create the device
#
if udev_device_is_multipath_member(info):
device = DiskDevice(name,
major=udev_device_get_major(info),
minor=udev_device_get_minor(info),
sysfsPath=sysfs_path, exists=True,
serial=udev_device_get_serial(info),
vendor=udev_device_get_vendor(info),
model=udev_device_get_model(info))
self._addDevice(device)
elif udev_device_is_dm(info) and \
devicelibs.dm.dm_is_multipath(info):
log.debug("%s is a multipath device" % name)
self.addUdevDMDevice(info)
elif udev_device_is_dm(info):
log.debug("%s is a device-mapper device" % name)
# try to look up the device
if device is None and uuid:
# try to find the device by uuid
device = self.getDeviceByUuid(uuid)
if device is None:
device = self.addUdevDMDevice(info)
elif udev_device_is_md(info):
log.debug("%s is an md device" % name)
if device is None and uuid:
# try to find the device by uuid
device = self.getDeviceByUuid(uuid)
if device is None:
device = self.addUdevMDDevice(info)
elif udev_device_is_cdrom(info):
log.debug("%s is a cdrom" % name)
if device is None:
device = self.addUdevOpticalDevice(info)
elif udev_device_is_biosraid(info) and udev_device_is_disk(info):
log.debug("%s is part of a biosraid" % name)
if device is None:
device = DiskDevice(name,
major=udev_device_get_major(info),
minor=udev_device_get_minor(info),
sysfsPath=sysfs_path, exists=True)
self._addDevice(device)
elif udev_device_is_disk(info):
if device is None:
device = self.addUdevDiskDevice(info)
elif udev_device_is_partition(info):
log.debug("%s is a partition" % name)
if device is None:
device = self.addUdevPartitionDevice(info)
else:
log.error("Unknown block device type for: %s" % name)
return
# If this device is protected, mark it as such now. Once the tree
# has been populated, devices' protected attribute is how we will
# identify protected devices.
if device and device.name in self.protectedDevNames:
device.protected = True
# Don't try to do format handling on drives without media or
# if we didn't end up with a device somehow.
if not device or not device.mediaPresent:
return
# now handle the device's formatting
self.handleUdevDeviceFormat(info, device)
log.debug("got device: %s" % device)
if device.format.type:
log.debug("got format: %s" % device.format)
device.originalFormat = device.format
def handleUdevDiskLabelFormat(self, info, device):
log_method_call(self, device=device.name)
if device.partitioned:
# this device is already set up
log.debug("disklabel format on %s already set up" % device.name)
return
try:
device.setup()
except Exception as e:
log.debug("setup of %s failed: %s" % (device.name, e))
log.warning("aborting disklabel handler for %s" % device.name)
return
# special handling for unsupported partitioned devices
if not device.partitionable:
try:
format = getFormat("disklabel",
device=device.path,
exists=True)
except InvalidDiskLabelError:
pass
else:
if format.partitions:
# parted's checks for disklabel presence are less than
# rigorous, so we will assume that detected disklabels
# with no partitions are spurious
device.format = format
return
# if the disk contains protected partitions we will not wipe the
# disklabel even if clearpart --initlabel was specified
if not self.clearPartDisks or device.name in self.clearPartDisks:
initlabel = self.reinitializeDisks
sysfs_path = udev_device_get_sysfs_path(info)
for protected in self.protectedDevNames:
# check for protected partition
_p = "/sys/%s/%s" % (sysfs_path, protected)
if os.path.exists(os.path.normpath(_p)):
initlabel = False
break
# check for protected partition on a device-mapper disk
disk_name = re.sub(r'p\d+$', '', protected)
if disk_name != protected and disk_name == device.name:
initlabel = False
break
else:
initlabel = False
if self.zeroMbr:
initcb = lambda: True
else:
path = device.path
description = device.description or device.model
bypath = os.path.basename(deviceNameToDiskByPath(path))
if bypath:
details = "\n\nDevice details:\n%s" % (bypath,)
else:
details = ""
initcb = lambda: self.intf.questionInitializeDisk(path,
description,
device.size,
details)
try:
format = getFormat("disklabel",
device=device.path,
exists=not initlabel)
except InvalidDiskLabelError:
# if there is preexisting formatting on the device we will
# use it instead of ignoring the device
if not self.zeroMbr and \
getFormat(udev_device_get_format(info)).type is not None:
return
# if we have a cb function use it. else we ignore the device.
if initcb is not None and initcb():
format = getFormat("disklabel",
device=device.path,
exists=False)
else:
self._removeDevice(device)
self.addIgnoredDisk(device.name)
return
if not format.exists:
# if we just initialized a disklabel we should schedule
# actions for destruction of the previous format and creation
# of the new one
self.registerAction(ActionDestroyFormat(device))
self.registerAction(ActionCreateFormat(device, format))
# If this is a mac-formatted disk we just initialized, make
# sure the partition table partition gets added to the device
# tree.
if device.format.partedDisk.type == "mac" and \
len(device.format.partitions) == 1:
name = device.format.partitions[0].getDeviceNodeName()
if not self.getDeviceByName(name):
partDevice = PartitionDevice(name, exists=True,
parents=[device])
self._addDevice(partDevice)
else:
device.format = format
def handleUdevLUKSFormat(self, info, device):
log_method_call(self, name=device.name, type=device.format.type)
if not device.format.uuid:
log.info("luks device %s has no uuid" % device.path)
return
# look up or create the mapped device
if not self.getDeviceByName(device.format.mapName):
passphrase = self.__luksDevs.get(device.format.uuid)
if passphrase:
device.format.passphrase = passphrase
else:
(passphrase, isglobal) = getLUKSPassphrase(self.intf,
device,
self.__passphrase)
if isglobal and device.format.status:
self.__passphrase = passphrase
luks_device = LUKSDevice(device.format.mapName,
parents=[device],
exists=True)
try:
luks_device.setup()
except (LUKSError, CryptoError, DeviceError) as e:
log.info("setup of %s failed: %s" % (device.format.mapName,
e))
device.removeChild()
else:
self._addDevice(luks_device)
else:
log.warning("luks device %s already in the tree"
% device.format.mapName)
def handleUdevLVMPVFormat(self, info, device):
log_method_call(self, name=device.name, type=device.format.type)
# lookup/create the VG and LVs
try:
vg_name = udev_device_get_vg_name(info)
except KeyError:
# no vg name means no vg -- we're done with this pv
return
vg_device = self.getDeviceByName(vg_name)
if vg_device:
vg_device._addDevice(device)
for lv in vg_device.lvs:
try:
lv.setup()
except DeviceError as (msg, name):
log.info("setup of %s failed: %s" % (lv.name, msg))
else:
try:
vg_uuid = udev_device_get_vg_uuid(info)
vg_size = udev_device_get_vg_size(info)
vg_free = udev_device_get_vg_free(info)
pe_size = udev_device_get_vg_extent_size(info)
pe_count = udev_device_get_vg_extent_count(info)
pe_free = udev_device_get_vg_free_extents(info)
pv_count = udev_device_get_vg_pv_count(info)
except (KeyError, ValueError) as e:
log.warning("invalid data for %s: %s" % (device.name, e))
return
vg_device = LVMVolumeGroupDevice(vg_name,
device,
uuid=vg_uuid,
size=vg_size,
free=vg_free,
peSize=pe_size,
peCount=pe_count,
peFree=pe_free,
pvCount=pv_count,
exists=True)
self._addDevice(vg_device)
try:
lv_names = udev_device_get_lv_names(info)
lv_uuids = udev_device_get_lv_uuids(info)
lv_sizes = udev_device_get_lv_sizes(info)
lv_attr = udev_device_get_lv_attr(info)
except KeyError as e:
log.warning("invalid data for %s: %s" % (device.name, e))
return
if not lv_names:
log.debug("no LVs listed for VG %s" % device.name)
return
# make a list of indices with snapshots at the end
indices = range(len(lv_names))
indices.sort(key=lambda i: lv_attr[i][0] in 'Ss')
for index in indices:
lv_name = lv_names[index]
name = "%s-%s" % (vg_name, lv_name)
if lv_attr[index][0] in 'Ss':
log.debug("found lvm snapshot volume '%s'" % name)
origin_name = devicelibs.lvm.lvorigin(vg_name, lv_name)
if not origin_name:
log.error("lvm snapshot '%s-%s' has unknown origin"
% (vg_name, lv_name))
continue
origin = self.getDeviceByName("%s-%s" % (vg_name,
origin_name))
if not origin:
log.warning("snapshot lv '%s' origin lv '%s-%s' "
"not found" % (name,
vg_name, origin_name))
continue
log.debug("adding %dMB to %s snapshot total"
% (lv_sizes[index], origin.name))
origin.snapshotSpace += lv_sizes[index]
continue
elif lv_attr[index][0] in 'Iil':
# skip mirror images and log volumes
continue
log_size = 0
if lv_attr[index][0] in 'Mm':
stripes = 0
# identify mirror stripes/copies and mirror logs
for (j, _lvname) in enumerate(lv_names):
if lv_attr[j][0] not in 'Iil':
continue
if _lvname == "[%s_mlog]" % lv_name:
log_size = lv_sizes[j]
elif _lvname.startswith("[%s_mimage_" % lv_name):
stripes += 1
else:
stripes = 1
lv_dev = self.getDeviceByName(name)
if lv_dev is None:
lv_uuid = lv_uuids[index]
lv_size = lv_sizes[index]
lv_device = LVMLogicalVolumeDevice(lv_name,
vg_device,
uuid=lv_uuid,
size=lv_size,
stripes=stripes,
logSize=log_size,
exists=True)
self._addDevice(lv_device)
try:
lv_device.setup()
except DeviceError as (msg, name):
log.info("setup of %s failed: %s"
% (lv_device.name, msg))
def handleUdevMDMemberFormat(self, info, device):
log_method_call(self, name=device.name, type=device.format.type)
# either look up or create the array device
name = udev_device_get_name(info)
sysfs_path = udev_device_get_sysfs_path(info)
if udev_device_is_biosraid(info):
# this will prevent display of the member devices in the UI
device.format.biosraid = True
md_array = self.getDeviceByUuid(device.format.mdUuid)
if device.format.mdUuid and md_array:
md_array._addDevice(device)
else:
# create the array with just this one member
# FIXME: why does this exact block appear twice?
try:
# level is reported as, eg: "raid1"
md_level = udev_device_get_md_level(info)
md_devices = int(udev_device_get_md_devices(info))
md_uuid = udev_device_get_md_uuid(info)
except (KeyError, ValueError) as e:
log.warning("invalid data for %s: %s" % (name, e))
return
# try to name the array based on the preferred minor
md_info = devicelibs.mdraid.mdexamine(device.path)
md_path = md_info.get("device", "")
md_name = devicePathToName(md_info.get("device", ""))
if md_name:
try:
minor = int(md_name[2:]) # strip off leading "md"
except (IndexError, ValueError):
minor = None
md_name = None
else:
array = self.getDeviceByName(md_name)
if array and array.uuid != md_uuid:
md_name = None
if not md_name:
# if we don't have a name yet, find the first unused minor
minor = 0
while True:
if self.getDeviceByName("md%d" % minor):
minor += 1
else:
break
md_name = "md%d" % minor
log.debug("using name %s for md array containing member %s"
% (md_name, device.name))
md_array = MDRaidArrayDevice(md_name,
level=md_level,
minor=minor,
memberDevices=md_devices,
uuid=md_uuid,
sysfsPath=sysfs_path,
exists=True)
md_array._addDevice(device)
self._addDevice(md_array)
def handleMultipathMemberFormat(self, info, device):
log_method_call(self, name=device.name, type=device.format.type)
name = udev_device_get_multipath_name(info)
if self.__multipaths.has_key(name):
mp = self.__multipaths[name]
mp.addParent(device)
else:
mp = MultipathDevice(name, info, parents=[device])
self.__multipaths[name] = mp
def handleUdevDMRaidMemberFormat(self, info, device):
log_method_call(self, name=device.name, type=device.format.type)
name = udev_device_get_name(info)
sysfs_path = udev_device_get_sysfs_path(info)
uuid = udev_device_get_uuid(info)
major = udev_device_get_major(info)
minor = udev_device_get_minor(info)
def _all_ignored(rss):
retval = True
for rs in rss:
if rs.name not in self._ignoredDisks:
retval = False
break
return retval
# Have we already created the DMRaidArrayDevice?
rss = block.getRaidSetFromRelatedMem(uuid=uuid, name=name,
major=major, minor=minor)
if len(rss) == 0:
# we ignore the device in the hope that all the devices
# from this set will be ignored.
self.unusedRaidMembers.append(device.name)
self.addIgnoredDisk(device.name)
return
# We ignore the device if all the rss are in self._ignoredDisks
if _all_ignored(rss):
self.addIgnoredDisk(device.name)
return
for rs in rss:
dm_array = self.getDeviceByName(rs.name)
if dm_array is not None:
# We add the new device.
dm_array._addDevice(device)
else:
# Activate the Raid set.
rs.activate(mknod=True)
dm_array = DMRaidArrayDevice(rs.name,
raidSet=rs,
parents=[device])
self._addDevice(dm_array)
# Wait for udev to scan the just created nodes, to avoid a race
# with the udev_get_block_device() call below.
udev_settle()
# Get the DMRaidArrayDevice a DiskLabel format *now*, in case
# its partitions get scanned before it does.
dm_array.updateSysfsPath()
dm_array_info = udev_get_block_device(dm_array.sysfsPath)
self.handleUdevDiskLabelFormat(dm_array_info, dm_array)
# Use the rs's object on the device.
# pyblock can return the memebers of a set and the
# device has the attribute to hold it. But ATM we
# are not really using it. Commenting this out until
# we really need it.
#device.format.raidmem = block.getMemFromRaidSet(dm_array,
# major=major, minor=minor, uuid=uuid, name=name)
def handleUdevDeviceFormat(self, info, device):
log_method_call(self, name=getattr(device, "name", None))
name = udev_device_get_name(info)
sysfs_path = udev_device_get_sysfs_path(info)
uuid = udev_device_get_uuid(info)
label = udev_device_get_label(info)
format_type = udev_device_get_format(info)
serial = udev_device_get_serial(info)
# Now, if the device is a disk, see if there is a usable disklabel.
# If not, see if the user would like to create one.
# XXX ignore disklabels on multipath or biosraid member disks
if not udev_device_is_biosraid(info) and \
not udev_device_is_multipath_member(info):
self.handleUdevDiskLabelFormat(info, device)
if device.partitioned or self.isIgnored(info) or \
(not device.partitionable and
device.format.type == "disklabel"):
# If the device has a disklabel, or the user chose not to
# create one, we are finished with this device. Otherwise
# it must have some non-disklabel formatting, in which case
# we fall through to handle that.
return
format = None
if (not device) or (not format_type) or device.format.type:
# this device has no formatting or it has already been set up
# FIXME: this probably needs something special for disklabels
log.debug("no type or existing type for %s, bailing" % (name,))
return
# set up the common arguments for the format constructor
args = [format_type]
kwargs = {"uuid": uuid,
"label": label,
"device": device.path,
"serial": serial,
"exists": True}
# set up type-specific arguments for the format constructor
if format_type == "multipath_member":
kwargs["multipath_members"] = self.getDevicesBySerial(serial)
elif format_type == "crypto_LUKS":
# luks/dmcrypt
kwargs["name"] = "luks-%s" % uuid
elif format_type in formats.mdraid.MDRaidMember._udevTypes:
# mdraid
try:
kwargs["mdUuid"] = udev_device_get_md_uuid(info)
except KeyError:
log.debug("mdraid member %s has no md uuid" % name)
elif format_type == "LVM2_member":
# lvm
try:
kwargs["vgName"] = udev_device_get_vg_name(info)
except KeyError as e:
log.debug("PV %s has no vg_name" % name)
try:
kwargs["vgUuid"] = udev_device_get_vg_uuid(info)
except KeyError:
log.debug("PV %s has no vg_uuid" % name)
try:
kwargs["peStart"] = udev_device_get_pv_pe_start(info)
except KeyError:
log.debug("PV %s has no pe_start" % name)
elif format_type == "vfat":
# efi magic
if isinstance(device, PartitionDevice) and device.bootable:
efi = formats.getFormat("efi")
if efi.minSize <= device.size <= efi.maxSize:
args[0] = "efi"
elif format_type == "hfs":
# apple bootstrap magic
if isinstance(device, PartitionDevice) and device.bootable:
apple = formats.getFormat("appleboot")
if apple.minSize <= device.size <= apple.maxSize:
args[0] = "appleboot"
try:
log.debug("type detected on '%s' is '%s'" % (name, format_type,))
device.format = formats.getFormat(*args, **kwargs)
except FSError:
log.debug("type '%s' on '%s' invalid, assuming no format" %
(format_type, name,))
device.format = formats.DeviceFormat()
return
if shouldClear(device, self.clearPartType,
clearPartDisks=self.clearPartDisks):
# if this is a device that will be cleared by clearpart,
# don't bother with format-specific processing
return
#
# now do any special handling required for the device's format
#
if device.format.type == "luks":
self.handleUdevLUKSFormat(info, device)
elif device.format.type == "mdmember":
self.handleUdevMDMemberFormat(info, device)
elif device.format.type == "dmraidmember":
self.handleUdevDMRaidMemberFormat(info, device)
elif device.format.type == "lvmpv":
self.handleUdevLVMPVFormat(info, device)
elif device.format.type == "multipath_member":
self.handleMultipathMemberFormat(info, device)
def updateDeviceFormat(self, device):
log.debug("updating format of device: %s" % device)
iutil.notify_kernel("/sys%s" % device.sysfsPath)
udev_settle()
info = udev_get_device(device.sysfsPath)
self.handleUdevDeviceFormat(info, device)
if device.format.type:
log.debug("got format: %s" % device.format)
def _handleInconsistencies(self):
def reinitializeVG(vg):
# First we remove VG data
try:
vg.destroy()
except DeviceError:
# the pvremoves will finish the job.
log.debug("There was an error destroying the VG %s." % vg.name)
# remove VG device from list.
self._removeDevice(vg)
for parent in vg.parents:
parent.format.destroy()
# Give the vg the a default format
kwargs = {"device": parent.path,
"exists": parent.exists}
parent.format = formats.getFormat(*[""], **kwargs)
def leafInconsistencies(device):
if device.type == "lvmvg":
if device.complete:
return
paths = []
for parent in device.parents:
paths.append(parent.path)
# if zeroMbr is true don't ask.
if (self.zeroMbr or
self.intf.questionReinitInconsistentLVM(pv_names=paths,
vg_name=device.name)):
reinitializeVG(device)
else:
# The user chose not to reinitialize.
# hopefully this will ignore the vg components too.
self._removeDevice(device)
lvm.lvm_cc_addFilterRejectRegexp(device.name)
lvm.blacklistVG(device.name)
for parent in device.parents:
if parent.type == "partition":
self.immutableDevices.append([parent.name,
_("This partition is part of an inconsistent LVM Volume Group.")])
else:
self._removeDevice(parent, moddisk=False)
self.addIgnoredDisk(parent.name)
lvm.lvm_cc_addFilterRejectRegexp(parent.name)
elif device.type == "lvmlv":
# we might have already fixed this.
if device not in self._devices or \
device.name in self._ignoredDisks:
return
if device.complete:
return
paths = []
for parent in device.vg.parents:
paths.append(parent.path)
if (self.zeroMbr or
self.intf.questionReinitInconsistentLVM(pv_names=paths,
lv_name=device.name)):
# destroy all lvs.
for lv in device.vg.lvs:
try:
# reinitializeVG should clean up if necessary
lv.destroy()
except StorageError as e:
log.info("error removing lv %s from "
"inconsistent/incomplete vg %s"
% (lv.lvname, device.vg.name))
device.vg._removeLogVol(lv)
self._removeDevice(lv)
reinitializeVG(device.vg)
else:
# ignore all the lvs.
for lv in device.vg.lvs:
self._removeDevice(lv)
lvm.lvm_cc_addFilterRejectRegexp(lv.name)
# ignore the vg
self._removeDevice(device.vg)
lvm.lvm_cc_addFilterRejectRegexp(device.vg.name)
lvm.blacklistVG(device.vg.name)
# ignore all the pvs
for parent in device.vg.parents:
if parent.type == "partition":
self.immutableDevices.append([parent.name,
_("This partition is part of an inconsistent LVM Volume Group.")])
else:
self._removeDevice(parent, moddisk=False)
self.addIgnoredDisk(parent.name)
lvm.lvm_cc_addFilterRejectRegexp(parent.name)
# Address the inconsistencies present in the tree leaves.
for leaf in self.leaves:
leafInconsistencies(leaf)
# Check for unused BIOS raid members, unused dmraid members are added
# to self.unusedRaidMembers as they are processed, extend this list
# with unused mdraid BIOS raid members
for c in self.getDevicesByType("mdcontainer"):
if c.kids == 0:
self.unusedRaidMembers.extend(map(lambda m: m.name, c.devices))
self.intf.unusedRaidMembersWarning(self.unusedRaidMembers)
def populate(self):
""" Locate all storage devices. """
# mark the tree as unpopulated so exception handlers can tell the
# exception originated while finding storage devices
self.populated = False
# resolve the protected device specs to device names
for spec in self.protectedDevSpecs:
name = udev_resolve_devspec(spec)
if name:
self.protectedDevNames.append(name)
# FIXME: the backing dev for the live image can't be used as an
# install target. note that this is a little bit of a hack
# since we're assuming that /dev/live will exist
if os.path.exists("/dev/live") and \
stat.S_ISBLK(os.stat("/dev/live")[stat.ST_MODE]):
livetarget = devicePathToName(os.path.realpath("/dev/live"))
log.info("%s looks to be the live device; marking as protected"
% (livetarget,))
self.protectedDevNames.append(livetarget)
# First iteration - let's just look for disks.
old_devices = {}
devices = udev_get_block_devices()
for dev in devices:
old_devices[dev['name']] = dev
cfg = self.__multipathConfigWriter.write()
open("/etc/multipath.conf", "w+").write(cfg)
del cfg
(singles, mpaths, partitions) = devicelibs.mpath.identifyMultipaths(devices)
devices = singles + reduce(list.__add__, mpaths, []) + partitions
log.info("devices to scan: %s" % [d['name'] for d in devices])
for dev in devices:
self.addUdevDevice(dev)
# Having found all the disks, we can now find all the multipaths built
# upon them.
whitelist = []
mpaths = self.__multipaths.values()
mpaths.sort(key=lambda d: d.name)
for mp in mpaths:
log.info("adding mpath device %s" % mp.name)
mp.setup()
whitelist.append(mp.name)
for p in mp.parents:
whitelist.append(p.name)
self.__multipathConfigWriter.addMultipathDevice(mp)
self._addDevice(mp)
for d in self.devices:
if not d.name in whitelist:
self.__multipathConfigWriter.addBlacklistDevice(d)
cfg = self.__multipathConfigWriter.write()
open("/etc/multipath.conf", "w+").write(cfg)
del cfg
# Now, loop and scan for devices that have appeared since the two above
# blocks or since previous iterations.
while True:
devices = []
new_devices = udev_get_block_devices()
for new_device in new_devices:
if not old_devices.has_key(new_device['name']):
old_devices[new_device['name']] = new_device
devices.append(new_device)
if len(devices) == 0:
# nothing is changing -- we are finished building devices
break
log.info("devices to scan: %s" % [d['name'] for d in devices])
for dev in devices:
self.addUdevDevice(dev)
self.populated = True
# After having the complete tree we make sure that the system
# inconsistencies are ignored or resolved.
self._handleInconsistencies()
self.teardownAll()
try:
os.unlink("/etc/mdadm.conf")
except OSError:
log.info("failed to unlink /etc/mdadm.conf")
def teardownAll(self):
""" Run teardown methods on all devices. """
for device in self.leaves:
try:
device.teardown(recursive=True)
except StorageError as e:
log.info("teardown of %s failed: %s" % (device.name, e))
def setupAll(self):
""" Run setup methods on all devices. """
for device in self.leaves:
try:
device.setup()
except DeviceError as (msg, name):
log.debug("setup of %s failed: %s" % (device.name, msg))
def getDeviceBySysfsPath(self, path):
if not path:
return None
found = None
for device in self._devices:
if device.sysfsPath == path:
found = device
break
return found
def getDeviceByUuid(self, uuid):
if not uuid:
return None
found = None
for device in self._devices:
if device.uuid == uuid:
found = device
break
elif device.format.uuid == uuid:
found = device
break
return found
def getDevicesBySerial(self, serial):
devices = []
for device in self._devices:
if not hasattr(device, "serial"):
log.warning("device %s has no serial attr" % device.name)
continue
if device.serial == serial:
devices.append(device)
return devices
def getDeviceByLabel(self, label):
if not label:
return None
found = None
for device in self._devices:
_label = getattr(device.format, "label", None)
if not _label:
continue
if _label == label:
found = device
break
return found
def getDeviceByName(self, name):
log.debug("looking for device '%s'..." % name)
if not name:
return None
found = None
for device in self._devices:
if device.name == name:
found = device
break
elif (device.type == "lvmlv" or device.type == "lvmvg") and \
device.name == name.replace("--","-"):
found = device
break
log.debug("found %s" % found)
return found
def getDeviceByPath(self, path):
log.debug("looking for device '%s'..." % path)
if not path:
return None
found = None
for device in self._devices:
if device.path == path:
found = device
break
elif (device.type == "lvmlv" or device.type == "lvmvg") and \
device.path == path.replace("--","-"):
found = device
break
log.debug("found %s" % found)
return found
def getDevicesByType(self, device_type):
# TODO: expand this to catch device format types
return [d for d in self._devices if d.type == device_type]
def getDevicesByInstance(self, device_class):
return [d for d in self._devices if isinstance(d, device_class)]
@property
def devices(self):
""" List of device instances """
devices = []
for device in self._devices:
if device.path in [d.path for d in devices] and \
not isinstance(device, NoDevice):
raise DeviceTreeError("duplicate paths in device tree")
devices.append(device)
return devices
@property
def filesystems(self):
""" List of filesystems. """
#""" Dict with mountpoint keys and filesystem values. """
filesystems = []
for dev in self.leaves:
if dev.format and getattr(dev.format, 'mountpoint', None):
filesystems.append(dev.format)
return filesystems
@property
def uuids(self):
""" Dict with uuid keys and Device values. """
uuids = {}
for dev in self._devices:
try:
uuid = dev.uuid
except AttributeError:
uuid = None
if uuid:
uuids[uuid] = dev
try:
uuid = dev.format.uuid
except AttributeError:
uuid = None
if uuid:
uuids[uuid] = dev
return uuids
@property
def labels(self):
""" Dict with label keys and Device values.
FIXME: duplicate labels are a possibility
"""
labels = {}
for dev in self._devices:
if dev.format and getattr(dev.format, "label", None):
labels[dev.format.label] = dev
return labels
@property
def leaves(self):
""" List of all devices upon which no other devices exist. """
leaves = [d for d in self._devices if d.isleaf]
return leaves
def getChildren(self, device):
""" Return a list of a device's children. """
return [c for c in self._devices if device in c.parents]
def resolveDevice(self, devspec, blkidTab=None, cryptTab=None):
# find device in the tree
device = None
if devspec.startswith("UUID="):
# device-by-uuid
uuid = devspec.partition("=")[2]
device = self.uuids.get(uuid)
if device is None:
log.error("failed to resolve device %s" % devspec)
elif devspec.startswith("LABEL="):
# device-by-label
label = devspec.partition("=")[2]
device = self.labels.get(label)
if device is None:
log.error("failed to resolve device %s" % devspec)
elif devspec.startswith("/dev/"):
# device path
device = self.getDeviceByPath(devspec)
if device is None:
if blkidTab:
# try to use the blkid.tab to correlate the device
# path with a UUID
blkidTabEnt = blkidTab.get(devspec)
if blkidTabEnt:
log.debug("found blkid.tab entry for '%s'" % devspec)
uuid = blkidTabEnt.get("UUID")
if uuid:
device = self.getDeviceByUuid(uuid)
if device:
devstr = device.name
else:
devstr = "None"
log.debug("found device '%s' in tree" % devstr)
if device and device.format and \
device.format.type == "luks":
map_name = device.format.mapName
log.debug("luks device; map name is '%s'" % map_name)
mapped_dev = self.getDeviceByName(map_name)
if mapped_dev:
device = mapped_dev
if device is None and cryptTab and \
devspec.startswith("/dev/mapper/"):
# try to use a dm-crypt mapping name to
# obtain the underlying device, possibly
# using blkid.tab
cryptTabEnt = cryptTab.get(devspec.split("/")[-1])
if cryptTabEnt:
luks_dev = cryptTabEnt['device']
try:
device = self.getChildren(luks_dev)[0]
except IndexError as e:
pass
elif device is None:
# dear lvm: can we please have a few more device nodes
# for each logical volume?
# three just doesn't seem like enough.
name = devspec[5:] # strip off leading "/dev/"
(vg_name, slash, lv_name) = name.partition("/")
if lv_name and not "/" in lv_name:
# looks like we may have one
lv = "%s-%s" % (vg_name, lv_name)
device = self.getDeviceByName(lv)
if device:
log.debug("resolved '%s' to '%s' (%s)" % (devspec, device.name, device.type))
else:
log.debug("failed to resolve '%s'" % devspec)
return device
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