# deviceaction.py # Device modification action 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 # import copy from udev import * from devices import StorageDevice, PartitionDevice from formats import getFormat from errors import * from parted import partitionFlag, PARTITION_BOOT, PARTITION_LBA import gettext _ = lambda x: gettext.ldgettext("anaconda", x) import logging log = logging.getLogger("storage") # The values are just hints as to the ordering. # Eg: fsmod and devmod ordering depends on the mod (shrink -v- grow) ACTION_TYPE_NONE = 0 ACTION_TYPE_DESTROY = 1000 ACTION_TYPE_RESIZE = 500 ACTION_TYPE_MIGRATE = 250 ACTION_TYPE_CREATE = 100 action_strings = {ACTION_TYPE_NONE: "None", ACTION_TYPE_DESTROY: "Destroy", ACTION_TYPE_RESIZE: "Resize", ACTION_TYPE_MIGRATE: "Migrate", ACTION_TYPE_CREATE: "Create"} ACTION_OBJECT_NONE = 0 ACTION_OBJECT_FORMAT = 1 ACTION_OBJECT_DEVICE = 2 object_strings = {ACTION_OBJECT_NONE: "None", ACTION_OBJECT_FORMAT: "Format", ACTION_OBJECT_DEVICE: "Device"} RESIZE_SHRINK = 88 RESIZE_GROW = 89 resize_strings = {RESIZE_SHRINK: "Shrink", RESIZE_GROW: "Grow"} def action_type_from_string(type_string): if type_string is None: return None for (k,v) in action_strings.items(): if v.lower() == type_string.lower(): return k return resize_type_from_string(type_string) def action_object_from_string(type_string): if type_string is None: return None for (k,v) in object_strings.items(): if v.lower() == type_string.lower(): return k def resize_type_from_string(type_string): if type_string is None: return None for (k,v) in resize_strings.items(): if v.lower() == type_string.lower(): return k class DeviceAction(object): """ An action that will be carried out in the future on a Device. These classes represent actions to be performed on devices or filesystems. The operand Device instance will be modified according to the action, but no changes will be made to the underlying device or filesystem until the DeviceAction instance's execute method is called. The DeviceAction instance's cancel method should reverse any modifications made to the Device instance's attributes. If the Device instance represents a pre-existing device, the constructor should call any methods or set any attributes that the action will eventually change. Device/DeviceFormat classes should verify that the requested modifications are reasonable and raise an exception if not. Only one action of any given type/object pair can exist for any given device at any given time. This is enforced by the DeviceTree. Basic usage: a = DeviceAction(dev) a.execute() OR a = DeviceAction(dev) a.cancel() XXX should we back up the device with a deep copy for forcibly cancelling actions? The downside is that we lose any checking or verification that would get done when resetting the Device instance's attributes to their original values. The upside is that we would be guaranteed to achieve a total reversal. No chance of, eg: resizes ending up altering Device size due to rounding or other miscalculation. """ type = ACTION_TYPE_NONE obj = ACTION_OBJECT_NONE def __init__(self, device): if not isinstance(device, StorageDevice): raise ValueError("arg 1 must be a StorageDevice instance") self.device = device def execute(self, intf=None): """ perform the action """ pass def cancel(self): """ cancel the action """ pass def isDestroy(self): return self.type == ACTION_TYPE_DESTROY def isCreate(self): return self.type == ACTION_TYPE_CREATE def isMigrate(self): return self.type == ACTION_TYPE_MIGRATE def isResize(self): return self.type == ACTION_TYPE_RESIZE def isShrink(self): return (self.type == ACTION_TYPE_RESIZE and self.dir == RESIZE_SHRINK) def isGrow(self): return (self.type == ACTION_TYPE_RESIZE and self.dir == RESIZE_GROW) def isDevice(self): return self.obj == ACTION_OBJECT_DEVICE def isFormat(self): return self.obj == ACTION_OBJECT_FORMAT @property def format(self): return self.device.format def __str__(self): s = "%s %s" % (action_strings[self.type], object_strings[self.obj]) if self.isResize(): s += " (%s)" % resize_strings[self.dir] if self.isFormat(): s += " %s on" % self.format.type if self.isMigrate(): s += " to %s" % self.format.migrationTarget s += " %s %s (id %d)" % (self.device.type, self.device.name, self.device.id) return s class ActionCreateDevice(DeviceAction): """ Action representing the creation of a new device. """ type = ACTION_TYPE_CREATE obj = ACTION_OBJECT_DEVICE def __init__(self, device): # FIXME: assert device.fs is None DeviceAction.__init__(self, device) def execute(self, intf=None): self.device.create(intf=intf) class ActionDestroyDevice(DeviceAction): """ An action representing the deletion of an existing device. """ type = ACTION_TYPE_DESTROY obj = ACTION_OBJECT_DEVICE def __init__(self, device): # XXX should we insist that device.fs be None? DeviceAction.__init__(self, device) if device.exists: device.teardown() def execute(self, intf=None): self.device.destroy() class ActionResizeDevice(DeviceAction): """ An action representing the resizing of an existing device. """ type = ACTION_TYPE_RESIZE obj = ACTION_OBJECT_DEVICE def __init__(self, device, newsize): if device.currentSize == newsize: raise ValueError("new size same as old size") if not device.resizable: raise ValueError("device is not resizable") DeviceAction.__init__(self, device) if newsize > device.currentSize: self.dir = RESIZE_GROW else: self.dir = RESIZE_SHRINK self.origsize = device.targetSize self.device.targetSize = newsize def execute(self, intf=None): self.device.resize(intf=intf) def cancel(self): self.device.targetSize = self.origsize class ActionCreateFormat(DeviceAction): """ An action representing creation of a new filesystem. """ type = ACTION_TYPE_CREATE obj = ACTION_OBJECT_FORMAT def __init__(self, device, format=None): DeviceAction.__init__(self, device) if format: self.origFormat = device.format if self.device.format.exists: self.device.format.teardown() self.device.format = format else: self.origFormat = getFormat(None) def execute(self, intf=None): self.device.setup() if isinstance(self.device, PartitionDevice): # Flags which are truely flags, not types, so we shouldn't reset reallyFlags = [ PARTITION_BOOT, PARTITION_LBA ] for flag in partitionFlag.keys(): if flag in reallyFlags or flag == self.format.partedFlag: continue self.device.unsetFlag(flag) if self.format.partedFlag is not None: self.device.setFlag(self.format.partedFlag) self.device.disk.format.commitToDisk() self.device.format.create(intf=intf, device=self.device.path, options=self.device.formatArgs) # Get the UUID now that the format is created udev_settle() self.device.updateSysfsPath() info = udev_get_block_device(self.device.sysfsPath) self.device.format.uuid = udev_device_get_uuid(info) def cancel(self): self.device.format = self.origFormat class ActionDestroyFormat(DeviceAction): """ An action representing the removal of an existing filesystem. XXX this seems unnecessary """ type = ACTION_TYPE_DESTROY obj = ACTION_OBJECT_FORMAT def __init__(self, device): DeviceAction.__init__(self, device) # Save a deep copy of the device stack this format occupies. # This is necessary since the stack of devices and formats # required to get to this format may get yanked out from under # us between now and execute. self._device = copy.deepcopy(device) self.origFormat = self._device.format if device.format.exists: device.format.teardown() self.device.format = None def execute(self, intf=None): """ wipe the filesystem signature from the device """ if self.origFormat: # set up our copy of the original device stack since the # reference we got may have had any number of things changed # since then (most notably, formats removed by this very # class' constructor) self._device.setup() self.origFormat.destroy() udev_settle() self._device.teardown() def cancel(self): self.device.format = self.origFormat @property def format(self): return self.origFormat class ActionResizeFormat(DeviceAction): """ An action representing the resizing of an existing filesystem. XXX Do we even want to support resizing of a filesystem without also resizing the device it resides on? """ type = ACTION_TYPE_RESIZE obj = ACTION_OBJECT_FORMAT def __init__(self, device, newsize): if device.format.targetSize == newsize: raise ValueError("new size same as old size") DeviceAction.__init__(self, device) if newsize > device.format.currentSize: self.dir = RESIZE_GROW else: self.dir = RESIZE_SHRINK self.origSize = self.device.format.targetSize self.device.format.targetSize = newsize def execute(self, intf=None): self.device.setup() self.device.format.doResize(intf=intf) def cancel(self): self.device.format.targetSize = self.origSize class ActionMigrateFormat(DeviceAction): """ An action representing the migration of an existing filesystem. """ type = ACTION_TYPE_MIGRATE obj = ACTION_OBJECT_FORMAT def __init__(self, device): if not device.format.migratable or not device.format.exists: raise ValueError("device format is not migratable") DeviceAction.__init__(self, device) self.device.format.migrate = True def execute(self, intf=None): self.device.setup() self.device.format.doMigrate(intf=intf) def cancel(self): self.device.format.migrate = False