View file File name : __init__.py Content :# # __init__.py # Python bindings for libparted (built on top of the _ped Python module). # # Copyright (C) 2007-2015 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. # # Author(s): David Cantrell <dcantrell@redhat.com> # Chris Lumens <clumens@redhat.com> # Alex Skinner <alex@lx.lc> # from __future__ import division import math import platform import re import sys import warnings import _ped __all__ = ['Alignment', 'Constraint', 'Device', 'Disk', 'FileSystem', 'Geometry', 'Partition'] from _ped import AlignmentException from _ped import CreateException from _ped import ConstraintException from _ped import DeviceException from _ped import DiskException from _ped import DiskLabelException from _ped import FileSystemException from _ped import GeometryException from _ped import IOException from _ped import NotNeededException from _ped import PartedException from _ped import PartitionException from _ped import TimerException from _ped import UnknownDeviceException from _ped import UnknownTypeException from _ped import register_exn_handler from _ped import clear_exn_handler from parted.alignment import Alignment from parted.constraint import Constraint from parted.device import Device from parted.disk import Disk from parted.disk import diskType from parted.disk import diskFlag from parted.filesystem import FileSystem from parted.filesystem import fileSystemType from parted.geometry import Geometry from parted.partition import Partition from parted.partition import partitionFlag # the enumerated types in _ped need to be available from here too from _ped import UNIT_SECTOR from _ped import UNIT_BYTE from _ped import UNIT_KILOBYTE from _ped import UNIT_MEGABYTE from _ped import UNIT_GIGABYTE from _ped import UNIT_TERABYTE from _ped import UNIT_COMPACT from _ped import UNIT_CYLINDER from _ped import UNIT_CHS from _ped import UNIT_PERCENT from _ped import UNIT_KIBIBYTE from _ped import UNIT_MEBIBYTE from _ped import UNIT_GIBIBYTE from _ped import UNIT_TEBIBYTE from _ped import DEVICE_UNKNOWN from _ped import DEVICE_SCSI from _ped import DEVICE_IDE from _ped import DEVICE_DAC960 from _ped import DEVICE_CPQARRAY from _ped import DEVICE_FILE from _ped import DEVICE_ATARAID from _ped import DEVICE_I2O from _ped import DEVICE_UBD from _ped import DEVICE_DASD from _ped import DEVICE_VIODASD from _ped import DEVICE_SX8 from _ped import DEVICE_DM from _ped import DEVICE_XVD from _ped import DEVICE_SDMMC from _ped import DEVICE_VIRTBLK from _ped import DEVICE_NVME from _ped import PARTITION_NORMAL from _ped import PARTITION_LOGICAL from _ped import PARTITION_EXTENDED from _ped import PARTITION_FREESPACE from _ped import PARTITION_METADATA from _ped import PARTITION_PROTECTED from _ped import PARTITION_BOOT from _ped import PARTITION_ROOT from _ped import PARTITION_SWAP from _ped import PARTITION_HIDDEN from _ped import PARTITION_RAID from _ped import PARTITION_LVM from _ped import PARTITION_LBA from _ped import PARTITION_HPSERVICE from _ped import PARTITION_PALO from _ped import PARTITION_PREP from _ped import PARTITION_MSFT_RESERVED from _ped import PARTITION_APPLE_TV_RECOVERY from _ped import PARTITION_BIOS_GRUB from _ped import PARTITION_DIAG from _ped import PARTITION_LEGACY_BOOT if hasattr(_ped, 'PARTITION_MSFT_DATA'): # pylint: disable=E0611 from _ped import PARTITION_MSFT_DATA if hasattr(_ped, 'PARTITION_IRST'): # pylint: disable=E0611 from _ped import PARTITION_IRST if hasattr(_ped, 'PARTITION_ESP'): # pylint: disable=E0611 from _ped import PARTITION_ESP if hasattr(_ped, 'PARTITION_NONFS'): # pylint: disable=E0611 from _ped import PARTITION_NONFS if hasattr(_ped, 'PARTITION_CHROMEOS_KERNEL'): # pylint: disable=E0611 from _ped import PARTITION_CHROMEOS_KERNEL if hasattr(_ped, 'PARTITION_BLS_BOOT'): # pylint: disable=E0611 from _ped import PARTITION_BLS_BOOT from _ped import DISK_CYLINDER_ALIGNMENT from _ped import DISK_GPT_PMBR_BOOT from _ped import DISK_TYPE_EXTENDED from _ped import DISK_TYPE_PARTITION_NAME from _ped import EXCEPTION_TYPE_INFORMATION from _ped import EXCEPTION_TYPE_WARNING from _ped import EXCEPTION_TYPE_ERROR from _ped import EXCEPTION_TYPE_FATAL from _ped import EXCEPTION_TYPE_BUG from _ped import EXCEPTION_TYPE_NO_FEATURE from _ped import EXCEPTION_RESOLVE_UNHANDLED from _ped import EXCEPTION_RESOLVE_FIX from _ped import EXCEPTION_RESOLVE_YES from _ped import EXCEPTION_RESOLVE_NO from _ped import EXCEPTION_RESOLVE_OK from _ped import EXCEPTION_RESOLVE_RETRY from _ped import EXCEPTION_RESOLVE_IGNORE from _ped import EXCEPTION_RESOLVE_CANCEL from _ped import EXCEPTION_OPT_OK_CANCEL from _ped import EXCEPTION_OPT_YES_NO from _ped import EXCEPTION_OPT_YES_NO_CANCEL from _ped import EXCEPTION_OPT_IGNORE_CANCEL from _ped import EXCEPTION_OPT_RETRY_CANCEL from _ped import EXCEPTION_OPT_RETRY_IGNORE_CANCEL from parted.decorators import localeC if sys.version_info >= (3,): string_types = str else: string_types = basestring # pylint: disable=undefined-variable partitionTypesDict = { 0x00: "Empty", 0x01: "DOS 12-bit FAT", 0x02: "XENIX root", 0x03: "XENIX usr", 0x04: "DOS 16-bit <32M", 0x05: "Extended", 0x06: "DOS 16-bit >=32M", 0x07: "NTFS/HPFS", 0x08: "AIX", 0x09: "AIX bootable", 0x0a: "OS/2 Boot Manager", 0x0b: "Win95 FAT32", 0x0c: "Win95 FAT32", 0x0e: "Win95 FAT16", 0x0f: "Win95 Ext'd", 0x10: "OPUS", 0x11: "Hidden FAT12", 0x12: "Compaq Setup", 0x14: "Hidden FAT16 <32M", 0x16: "Hidden FAT16", 0x17: "Hidden HPFS/NTFS", 0x18: "AST SmartSleep", 0x1b: "Hidden Win95 FAT32", 0x1c: "Hidden Win95 FAT32 (LBA)", 0x1e: "Hidden Win95 FAT16 (LBA)", 0x24: "NEC_DOS", 0x39: "Plan 9", 0x40: "Venix 80286", 0x41: "PPC_PReP Boot", 0x42: "SFS", 0x4d: "QNX4.x", 0x4e: "QNX4.x 2nd part", 0x4f: "QNX4.x 2nd part", 0x51: "Novell?", 0x52: "Microport", 0x63: "GNU HURD", 0x64: "Novell Netware 286", 0x65: "Novell Netware 386", 0x75: "PC/IX", 0x80: "Old MINIX", 0x81: "Linux/MINIX", 0x82: "Linux swap", 0x83: "Linux native", 0x84: "OS/2 hidden C:", 0x85: "Linux Extended", 0x86: "NTFS volume set", 0x87: "NTFS volume set", 0x8e: "Linux LVM", 0x93: "Amoeba", 0x94: "Amoeba BBT", 0x9f: "BSD/OS", 0xa0: "IBM Thinkpad hibernation", 0xa5: "BSD/386", 0xa6: "OpenBSD", 0xb7: "BSDI fs", 0xb8: "BSDI swap", 0xbf: "Solaris", 0xc7: "Syrinx", 0xdb: "CP/M", 0xde: "Dell Utility", 0xe1: "DOS access", 0xe3: "DOS R/O", 0xeb: "BEOS", 0xee: "EFI GPT", 0xef: "EFI (FAT-12/16/32)", 0xf2: "DOS secondary", 0xfd: "Linux RAID", 0xff: "BBT" } # Exponents for 1024 used when converting sizes to byte-sized # units for display. The keys are: # b bytes 1024^0 = 1 # kb kilobytes 1024^1 = 1024 # mb megabytes 1024^2 = 1048576 # gb gigabytes 1024^3 = 1073741824 # tb terabytes 1024^4 = 1099511627776 # pb petabytes 1024^5 = 1125899906842624 # eb exabytes 1024^6 = 1152921504606846976 # zb zettabytes 1024^7 = 1180591620717411303424 # yb yottabytes 1024^8 = 1208925819614629174706176 # The resulting value for 1024 raised to the power is used as # the divisor for conversion functions. _exponent = {'b': 0, 'kb': 1, 'mb': 2, 'gb': 3, 'tb': 4, 'pb': 5, 'eb': 6, 'zb': 7, 'yb': 8} # Refercences: # # 1. NIST Special Publication 330, 2008 Edition, Barry N. Taylor and Ambler # Thompson, Editors # The International System of Units (SI) # Available from: http://physics.nist.gov/cuu/pdf/sp811.pdf # # 2. International standard IEC 60027-2, third edition, # Letter symbols to be used in electrical technology -- # Part 2: Telecommunications and electronics. # # See the links below for quick online summaries: # # SI units: http://physics.nist.gov/cuu/Units/prefixes.html # IEC units: http://physics.nist.gov/cuu/Units/binary.html __exponents = { "B": 1, # byte "kB": 1000**1, # kilobyte "MB": 1000**2, # megabyte "GB": 1000**3, # gigabyte "TB": 1000**4, # terabyte "PB": 1000**5, # petabyte "EB": 1000**6, # exabyte "ZB": 1000**7, # zettabyte "YB": 1000**8, # yottabyte "KiB": 1024**1, # kibibyte "MiB": 1024**2, # mebibyte "GiB": 1024**3, # gibibyte "TiB": 1024**4, # tebibyte "PiB": 1024**5, # pebibyte "EiB": 1024**6, # exbibyte "ZiB": 1024**7, # zebibyte "YiB": 1024**8 # yobibyte } def formatBytes(bytes_, unit): """Convert bytes_ using an SI or IEC prefix. Note that unit is a case sensitive string that must exactly match one of the IEC or SI prefixes followed by 'B' (e.g. 'GB').""" if unit not in __exponents.keys(): raise SyntaxError("{:} is not a valid SI or IEC byte unit".format(unit)) else: return (bytes_ / __exponents[unit]) def sizeToSectors(bytes_, unit, sector_size): """Convert bytes_ of unit to a number of sectors. Note that unit is a case sensitive string that must exactly match one of the IEC or SI prefixes followed by 'B' (e.g. 'GB').""" if unit not in __exponents.keys(): raise SyntaxError("{:} is not a valid SI or IEC byte unit".format(unit)) else: return math.ceil(bytes_ * __exponents[unit] / sector_size) # Valid disk labels per architecture type. The list of label # names map to keys in the parted.diskType hash table. archLabels = {'i386': ['msdos', 'gpt'], 's390': ['dasd', 'msdos'], 'alpha': ['bsd', 'msdos'], 'sparc': ['sun'], 'ia64': ['msdos', 'gpt'], 'ppc': ['msdos', 'mac', 'amiga', 'gpt'], 'ppc64': ['msdos', 'mac', 'amiga', 'gpt'], 'ppc64le': ['msdos', 'gpt'], 'x86_64': ['msdos', 'gpt'], 'aarch64': ['msdos', 'gpt'], 'mips64': ['msdos','gpt'], 'armv7l': ['msdos', 'gpt'], 'riscv32': ['msdos', 'gpt'], 'riscv64': ['msdos', 'gpt']} # Adapted from: # http://stackoverflow.com/questions/922550/how-to-mark-a-global-as-deprecated-in-python # # Remember that DeprecationWarnings are ignored by default as they are not really # useful to users. Developers can turn on DeprecationWarning notices by passing # the -Wd option to python or by setting PYTHONWARNINGS=d in the environment. def Deprecated(mod, deprecated=None): """ Return a wrapped object that warns about deprecated accesses. """ if not deprecated: deprecated = {} class Wrapper(object): warnmsg = "%s is deprecated and will be removed in a future release." def __getattr__(self, attr): if attr in deprecated.keys(): msg = self.warnmsg + " " + deprecated[attr] warnings.warn(msg % attr, DeprecationWarning) return getattr(mod, attr) def __setattr__(self, attr, value): if attr in deprecated.keys(): msg = self.warnmsg + " " + deprecated[attr] warnings.warn(msg % attr, DeprecationWarning) setattr(mod, attr, value) return Wrapper() # Valid disk labels and their applicable architectures. The label names map # to keys in the parted.diskType hash table. __archLabels = (('amiga', 'ppc(64)?$'), ('bsd', 'alpha$'), ('dasd', 's390x?$'), ('gpt', 'i[3-6]86$|x86_64$|ia64$|ppc(64|64le)?$|aarch64$|armv7l$|riscv(32|64)$'), ('mac', 'ppc(64)?$'), ('msdos', 'i[3-6]86$|x86_64$|s390x?$|alpha$|ia64$|ppc(64|64le)?$|aarch64$|mips64$|armv7l$|riscv(32|64)$'), ('sun', 'sparc(64)?$')) def getLabels(arch=None): """Return a set containing the disk labels compatible with the architecture of the computer calling this function. If an architecture is passed, return the labels compatible with that architecture.""" labels = set() if arch is None: arch = platform.machine() for label, regex in __archLabels: if re.match(regex, arch): labels.add(label) return labels class ReadOnlyProperty(Exception): """Exception raised when a write operation occurs on a read-only property.""" # pylint: disable=W0231 def __init__(self, prop=''): self.message = "%s is a read-only property" % (prop,) class WriteOnlyProperty(Exception): """Exception raised when a read operation occurs on a write-only property.""" # pylint: disable=W0231 def __init__(self, prop=''): self.message = "%s is a write-only property" % (prop,) @localeC def getDevice(path): """Given the operating system level path to a device node, return a Device object for that disk. Raises DeviceException if an invalid path is given.""" return Device(path=path) @localeC def getAllDevices(): """Return a list of Device objects for all devices in the system.""" from _ped import device_probe_all from _ped import device_get_next lst = [] device = None device_probe_all() while True: try: if not device: device = device_get_next() else: device = device_get_next(device) lst.append(Device(PedDevice=device)) except IndexError: return lst @localeC def freeAllDevices(): """Free all Device objects. There is no reason to call this function.""" from _ped import device_free_all return device_free_all() @localeC def probeForSpecificFileSystem(fstype, geometry): """Call the _ped.file_system_probe_specific() function given the filesystem type and geometry. fstype must be a string representing a valid _ped.FileSystemType, geometry is a parted.Geometry.""" from _ped import file_system_probe_specific geom = file_system_probe_specific(fileSystemType[fstype], geometry.getPedGeometry()) return geometry.Geometry(PedGeometry=geom) @localeC def probeFileSystem(geometry): """Return the name of the filesystem detected on the given Geometry. Returns None is no filesystem found.""" from _ped import file_system_probe fstype = file_system_probe(geometry.getPedGeometry()) return fstype.name @localeC def freshDisk(device, ty): """Return a Disk object for this Device and using this DiskType. The type should be a member of the parted.diskType hash, either a key or a value. The new label is not written to disk until commitToDevice() is called on the Disk.""" from _ped import disk_new_fresh, DiskType if isinstance(ty, string_types): ty = diskType[ty] elif not isinstance(ty, DiskType): raise TypeError("type must be a key or value in parted.diskType", ty) peddisk = disk_new_fresh(device.getPedDevice(), ty) return Disk(PedDisk=peddisk) @localeC def newDisk(device): """Return a Disk object for this Device. Read the partition table off a device (if one is found).""" from _ped import disk_new peddisk = disk_new(device.getPedDevice()) return Disk(PedDisk=peddisk) @localeC def version(): """Return a dict containing the pyparted and libparted versions.""" from _ped import libparted_version from _ped import pyparted_version ver = {} ver['libparted'] = libparted_version() ver['pyparted'] = pyparted_version() return ver # Mark deprecated items _deprecated = {"partitionTypesDict": "DOS disk label types are not provided " "by libparted, so the codes are not " "useful.", "_exponent": "Use __exponents instead.", "archLabels": "Use getLabels() instead.", } sys.modules[__name__] = Deprecated(sys.modules[__name__], _deprecated)