def __init__(self, *args, **kwargs):
""" Create a Filesystem instance.
Keyword Args:
device -- path to the device containing the filesystem
mountpoint -- the filesystem's mountpoint
label -- the filesystem label
uuid -- the filesystem UUID
mountopts -- mount options for the filesystem
size -- the filesystem's size in MiB
exists -- indicates whether this is an existing filesystem
"""
if self.__class__ is Filesystem:
raise TypeError("Filesystem is an abstract class.")
Format.__init__(self, *args, **kwargs)
self.mountpoint = kwargs.get("mountpoint")
self.mountopts = kwargs.get("mountopts")
self.label = kwargs.get("label")
self.fsprofile = kwargs.get("fsprofile")
# filesystem size does not necessarily equal device size
self._size = kwargs.get("size", 0)
self._minInstanceSize = None # min size of this FS instance
self._mountpoint = None # the current mountpoint when mounted
if self.exists and self.supported:
self._size = self._getExistingSize()
foo = self.minSize # force calculation of minimum size
self._targetSize = self._size
if self.supported:
self.loadModule()
def __init__(self, *args, **kwargs):
""" Create a Filesystem instance.
Keyword Args:
device -- path to the device containing the filesystem
mountpoint -- the filesystem's mountpoint
label -- the filesystem label
uuid -- the filesystem UUID
mountopts -- mount options for the filesystem
size -- the filesystem's size in MiB
exists -- indicates whether this is an existing filesystem
"""
if self.__class__ is Filesystem:
raise TypeError("Filesystem is an abstract class.")
Format.__init__(self, *args, **kwargs)
self.mountpoint = kwargs.get("mountpoint")
self.mountopts = kwargs.get("mountopts")
self.label = kwargs.get("label")
self.fsprofile = kwargs.get("fsprofile")
# filesystem size does not necessarily equal device size
self._size = kwargs.get("size", 0)
self._minInstanceSize = None # min size of this FS instance
self._mountpoint = None # the current mountpoint when mounted
if self.exists and self.supported:
self._size = self._getExistingSize()
foo = self.minSize # force calculation of minimum size
self._targetSize = self._size
if self.supported:
self.loadModule()
def __init__(self, *args, **kwargs):
""" Create a RaidMember instance.
Keyword Arguments:
device -- path to underlying device
uuid -- this member device's uuid
mdUuid -- the uuid of the array this device belongs to
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.mdUuid = kwargs.get("mdUuid")
self.raidMinor = None
self.biosraid = kwargs.get("biosraid")
def __init__(self, *args, **kwargs):
""" Create a RaidMember instance.
Keyword Arguments:
device -- path to underlying device
uuid -- this member device's uuid
mdUuid -- the uuid of the array this device belongs to
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.mdUuid = kwargs.get("mdUuid")
self.raidMinor = None
self.biosraid = kwargs.get("biosraid")
def __init__(self, *args, **kwargs):
""" Create a Format instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this format's UUID
exists -- indicates whether this is an existing format
On initialization this format is like Format
"""
Format.__init__(self, *args, **kwargs)
# Initialize the attribute that will hold the block object.
self._raidmem = None
def __init__(self, *args, **kwargs):
""" Create a Format instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this format's UUID
exists -- indicates whether this is an existing format
On initialization this format is like Format
"""
Format.__init__(self, *args, **kwargs)
# Initialize the attribute that will hold the block object.
self._raidmem = None
def __init__(self, *args, **kwargs):
""" Create a SwapSpace instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this swap space's uuid
label -- this swap space's label
priority -- this swap space's priority
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.priority = kwargs.get("priority")
self.label = kwargs.get("label")
def __init__(self, *args, **kwargs):
""" Create a SwapSpace instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this swap space's uuid
label -- this swap space's label
priority -- this swap space's priority
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.priority = kwargs.get("priority")
self.label = kwargs.get("label")
def __init__(self, *args, **kwargs):
""" Create an PhysicalVolume instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this PV's uuid (not the VG uuid)
vgName -- the name of the VG this PV belongs to
vgUuid -- the UUID of the VG this PV belongs to
peStart -- offset of first physical extent
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.vgName = kwargs.get("vgName")
self.vgUuid = kwargs.get("vgUuid")
self.peStart = kwargs.get("peStart", 0.1875) # in MB
def __init__(self, *args, **kwargs):
""" Create an PhysicalVolume instance.
Keyword Arguments:
device -- path to the underlying device
uuid -- this PV's uuid (not the VG uuid)
vgName -- the name of the VG this PV belongs to
vgUuid -- the UUID of the VG this PV belongs to
peStart -- offset of first physical extent
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self.vgName = kwargs.get("vgName")
self.vgUuid = kwargs.get("vgUuid")
self.peStart = kwargs.get("peStart", 0.1875) # in MB
def __init__(self, *args, **kwargs):
""" Create a DiskLabel instance.
Keyword Arguments:
device -- path to the underlying device
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self._size = None
self._partedDevice = None
self._partedDisk = None
self._origPartedDisk = None
self._alignment = None
self._endAlignment = None
if self.partedDevice:
# set up the parted objects and raise exception on failure
self._origPartedDisk = self.partedDisk.duplicate()
def __init__(self, *args, **kwargs):
""" Create a DiskLabel instance.
Keyword Arguments:
device -- path to the underlying device
exists -- indicates whether this is an existing format
"""
Format.__init__(self, *args, **kwargs)
self._size = None
self._partedDevice = None
self._partedDisk = None
self._origPartedDisk = None
self._alignment = None
self._endAlignment = None
if self.partedDevice:
# set up the parted objects and raise exception on failure
self._origPartedDisk = self.partedDisk.duplicate()
