/usr/share/pyshared/CedarBackup2/writers/cdwriter.py is in cedar-backup2 2.27.0-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# vim: set ft=python ts=3 sw=3 expandtab:
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# C E D A R
# S O L U T I O N S "Software done right."
# S O F T W A R E
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# Copyright (c) 2004-2008,2010 Kenneth J. Pronovici.
# All rights reserved.
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License,
# Version 2, as published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# Copies of the GNU General Public License are available from
# the Free Software Foundation website, http://www.gnu.org/.
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
#
# Author : Kenneth J. Pronovici <pronovic@ieee.org>
# Language : Python 2 (>= 2.7)
# Project : Cedar Backup, release 2
# Purpose : Provides functionality related to CD writer devices.
#
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
########################################################################
# Module documentation
########################################################################
"""
Provides functionality related to CD writer devices.
@sort: MediaDefinition, MediaCapacity, CdWriter,
MEDIA_CDRW_74, MEDIA_CDR_74, MEDIA_CDRW_80, MEDIA_CDR_80
@var MEDIA_CDRW_74: Constant representing 74-minute CD-RW media.
@var MEDIA_CDR_74: Constant representing 74-minute CD-R media.
@var MEDIA_CDRW_80: Constant representing 80-minute CD-RW media.
@var MEDIA_CDR_80: Constant representing 80-minute CD-R media.
@author: Kenneth J. Pronovici <pronovic@ieee.org>
"""
########################################################################
# Imported modules
########################################################################
# System modules
import os
import re
import logging
import tempfile
import time
# Cedar Backup modules
from CedarBackup2.util import resolveCommand, executeCommand
from CedarBackup2.util import convertSize, displayBytes, encodePath
from CedarBackup2.util import UNIT_SECTORS, UNIT_BYTES, UNIT_KBYTES, UNIT_MBYTES
from CedarBackup2.writers.util import validateDevice, validateScsiId, validateDriveSpeed
from CedarBackup2.writers.util import IsoImage
########################################################################
# Module-wide constants and variables
########################################################################
logger = logging.getLogger("CedarBackup2.log.writers.cdwriter")
MEDIA_CDRW_74 = 1
MEDIA_CDR_74 = 2
MEDIA_CDRW_80 = 3
MEDIA_CDR_80 = 4
CDRECORD_COMMAND = [ "cdrecord", ]
EJECT_COMMAND = [ "eject", ]
MKISOFS_COMMAND = [ "mkisofs", ]
########################################################################
# MediaDefinition class definition
########################################################################
class MediaDefinition(object):
"""
Class encapsulating information about CD media definitions.
The following media types are accepted:
- C{MEDIA_CDR_74}: 74-minute CD-R media (650 MB capacity)
- C{MEDIA_CDRW_74}: 74-minute CD-RW media (650 MB capacity)
- C{MEDIA_CDR_80}: 80-minute CD-R media (700 MB capacity)
- C{MEDIA_CDRW_80}: 80-minute CD-RW media (700 MB capacity)
Note that all of the capacities associated with a media definition are in
terms of ISO sectors (C{util.ISO_SECTOR_SIZE)}.
@sort: __init__, mediaType, rewritable, initialLeadIn, leadIn, capacity
"""
def __init__(self, mediaType):
"""
Creates a media definition for the indicated media type.
@param mediaType: Type of the media, as discussed above.
@raise ValueError: If the media type is unknown or unsupported.
"""
self._mediaType = None
self._rewritable = False
self._initialLeadIn = 0.
self._leadIn = 0.0
self._capacity = 0.0
self._setValues(mediaType)
def _setValues(self, mediaType):
"""
Sets values based on media type.
@param mediaType: Type of the media, as discussed above.
@raise ValueError: If the media type is unknown or unsupported.
"""
if mediaType not in [MEDIA_CDR_74, MEDIA_CDRW_74, MEDIA_CDR_80, MEDIA_CDRW_80]:
raise ValueError("Invalid media type %d." % mediaType)
self._mediaType = mediaType
self._initialLeadIn = 11400.0 # per cdrecord's documentation
self._leadIn = 6900.0 # per cdrecord's documentation
if self._mediaType == MEDIA_CDR_74:
self._rewritable = False
self._capacity = convertSize(650.0, UNIT_MBYTES, UNIT_SECTORS)
elif self._mediaType == MEDIA_CDRW_74:
self._rewritable = True
self._capacity = convertSize(650.0, UNIT_MBYTES, UNIT_SECTORS)
elif self._mediaType == MEDIA_CDR_80:
self._rewritable = False
self._capacity = convertSize(700.0, UNIT_MBYTES, UNIT_SECTORS)
elif self._mediaType == MEDIA_CDRW_80:
self._rewritable = True
self._capacity = convertSize(700.0, UNIT_MBYTES, UNIT_SECTORS)
def _getMediaType(self):
"""
Property target used to get the media type value.
"""
return self._mediaType
def _getRewritable(self):
"""
Property target used to get the rewritable flag value.
"""
return self._rewritable
def _getInitialLeadIn(self):
"""
Property target used to get the initial lead-in value.
"""
return self._initialLeadIn
def _getLeadIn(self):
"""
Property target used to get the lead-in value.
"""
return self._leadIn
def _getCapacity(self):
"""
Property target used to get the capacity value.
"""
return self._capacity
mediaType = property(_getMediaType, None, None, doc="Configured media type.")
rewritable = property(_getRewritable, None, None, doc="Boolean indicating whether the media is rewritable.")
initialLeadIn = property(_getInitialLeadIn, None, None, doc="Initial lead-in required for first image written to media.")
leadIn = property(_getLeadIn, None, None, doc="Lead-in required on successive images written to media.")
capacity = property(_getCapacity, None, None, doc="Total capacity of the media before any required lead-in.")
########################################################################
# MediaCapacity class definition
########################################################################
class MediaCapacity(object):
"""
Class encapsulating information about CD media capacity.
Space used includes the required media lead-in (unless the disk is unused).
Space available attempts to provide a picture of how many bytes are
available for data storage, including any required lead-in.
The boundaries value is either C{None} (if multisession discs are not
supported or if the disc has no boundaries) or in exactly the form provided
by C{cdrecord -msinfo}. It can be passed as-is to the C{IsoImage} class.
@sort: __init__, bytesUsed, bytesAvailable, boundaries, totalCapacity, utilized
"""
def __init__(self, bytesUsed, bytesAvailable, boundaries):
"""
Initializes a capacity object.
@raise IndexError: If the boundaries tuple does not have enough elements.
@raise ValueError: If the boundaries values are not integers.
@raise ValueError: If the bytes used and available values are not floats.
"""
self._bytesUsed = float(bytesUsed)
self._bytesAvailable = float(bytesAvailable)
if boundaries is None:
self._boundaries = None
else:
self._boundaries = (int(boundaries[0]), int(boundaries[1]))
def __str__(self):
"""
Informal string representation for class instance.
"""
return "utilized %s of %s (%.2f%%)" % (displayBytes(self.bytesUsed), displayBytes(self.totalCapacity), self.utilized)
def _getBytesUsed(self):
"""
Property target to get the bytes-used value.
"""
return self._bytesUsed
def _getBytesAvailable(self):
"""
Property target to get the bytes-available value.
"""
return self._bytesAvailable
def _getBoundaries(self):
"""
Property target to get the boundaries tuple.
"""
return self._boundaries
def _getTotalCapacity(self):
"""
Property target to get the total capacity (used + available).
"""
return self.bytesUsed + self.bytesAvailable
def _getUtilized(self):
"""
Property target to get the percent of capacity which is utilized.
"""
if self.bytesAvailable <= 0.0:
return 100.0
elif self.bytesUsed <= 0.0:
return 0.0
return (self.bytesUsed / self.totalCapacity) * 100.0
bytesUsed = property(_getBytesUsed, None, None, doc="Space used on disc, in bytes.")
bytesAvailable = property(_getBytesAvailable, None, None, doc="Space available on disc, in bytes.")
boundaries = property(_getBoundaries, None, None, doc="Session disc boundaries, in terms of ISO sectors.")
totalCapacity = property(_getTotalCapacity, None, None, doc="Total capacity of the disc, in bytes.")
utilized = property(_getUtilized, None, None, "Percentage of the total capacity which is utilized.")
########################################################################
# _ImageProperties class definition
########################################################################
class _ImageProperties(object):
"""
Simple value object to hold image properties for C{DvdWriter}.
"""
def __init__(self):
self.newDisc = False
self.tmpdir = None
self.mediaLabel = None
self.entries = None # dict mapping path to graft point
########################################################################
# CdWriter class definition
########################################################################
class CdWriter(object):
######################
# Class documentation
######################
"""
Class representing a device that knows how to write CD media.
Summary
=======
This is a class representing a device that knows how to write CD media. It
provides common operations for the device, such as ejecting the media,
writing an ISO image to the media, or checking for the current media
capacity. It also provides a place to store device attributes, such as
whether the device supports writing multisession discs, etc.
This class is implemented in terms of the C{eject} and C{cdrecord}
programs, both of which should be available on most UN*X platforms.
Image Writer Interface
======================
The following methods make up the "image writer" interface shared
with other kinds of writers (such as DVD writers)::
__init__
initializeImage()
addImageEntry()
writeImage()
setImageNewDisc()
retrieveCapacity()
getEstimatedImageSize()
Only these methods will be used by other Cedar Backup functionality
that expects a compatible image writer.
The media attribute is also assumed to be available.
Media Types
===========
This class knows how to write to two different kinds of media, represented
by the following constants:
- C{MEDIA_CDR_74}: 74-minute CD-R media (650 MB capacity)
- C{MEDIA_CDRW_74}: 74-minute CD-RW media (650 MB capacity)
- C{MEDIA_CDR_80}: 80-minute CD-R media (700 MB capacity)
- C{MEDIA_CDRW_80}: 80-minute CD-RW media (700 MB capacity)
Most hardware can read and write both 74-minute and 80-minute CD-R and
CD-RW media. Some older drives may only be able to write CD-R media.
The difference between the two is that CD-RW media can be rewritten
(erased), while CD-R media cannot be.
I do not support any other configurations for a couple of reasons. The
first is that I've never tested any other kind of media. The second is
that anything other than 74 or 80 minute is apparently non-standard.
Device Attributes vs. Media Attributes
======================================
A given writer instance has two different kinds of attributes associated
with it, which I call device attributes and media attributes. Device
attributes are things which can be determined without looking at the
media, such as whether the drive supports writing multisession disks or
has a tray. Media attributes are attributes which vary depending on the
state of the media, such as the remaining capacity on a disc. In
general, device attributes are available via instance variables and are
constant over the life of an object, while media attributes can be
retrieved through method calls.
Talking to Hardware
===================
This class needs to talk to CD writer hardware in two different ways:
through cdrecord to actually write to the media, and through the
filesystem to do things like open and close the tray.
Historically, CdWriter has interacted with cdrecord using the scsiId
attribute, and with most other utilities using the device attribute.
This changed somewhat in Cedar Backup 2.9.0.
When Cedar Backup was first written, the only way to interact with
cdrecord was by using a SCSI device id. IDE devices were mapped to
pseudo-SCSI devices through the kernel. Later, extended SCSI "methods"
arrived, and it became common to see C{ATA:1,0,0} or C{ATAPI:0,0,0} as a
way to address IDE hardware. By late 2006, C{ATA} and C{ATAPI} had
apparently been deprecated in favor of just addressing the IDE device
directly by name, i.e. C{/dev/cdrw}.
Because of this latest development, it no longer makes sense to require a
CdWriter to be created with a SCSI id -- there might not be one. So, the
passed-in SCSI id is now optional. Also, there is now a hardwareId
attribute. This attribute is filled in with either the SCSI id (if
provided) or the device (otherwise). The hardware id is the value that
will be passed to cdrecord in the C{dev=} argument.
Testing
=======
It's rather difficult to test this code in an automated fashion, even if
you have access to a physical CD writer drive. It's even more difficult
to test it if you are running on some build daemon (think of a Debian
autobuilder) which can't be expected to have any hardware or any media
that you could write to.
Because of this, much of the implementation below is in terms of static
methods that are supposed to take defined actions based on their
arguments. Public methods are then implemented in terms of a series of
calls to simplistic static methods. This way, we can test as much as
possible of the functionality via testing the static methods, while
hoping that if the static methods are called appropriately, things will
work properly. It's not perfect, but it's much better than no testing at
all.
@sort: __init__, isRewritable, _retrieveProperties, retrieveCapacity, _getBoundaries,
_calculateCapacity, openTray, closeTray, refreshMedia, writeImage,
_blankMedia, _parsePropertiesOutput, _parseBoundariesOutput,
_buildOpenTrayArgs, _buildCloseTrayArgs, _buildPropertiesArgs,
_buildBoundariesArgs, _buildBlankArgs, _buildWriteArgs,
device, scsiId, hardwareId, driveSpeed, media, deviceType, deviceVendor,
deviceId, deviceBufferSize, deviceSupportsMulti, deviceHasTray, deviceCanEject,
initializeImage, addImageEntry, writeImage, setImageNewDisc, getEstimatedImageSize
"""
##############
# Constructor
##############
def __init__(self, device, scsiId=None, driveSpeed=None,
mediaType=MEDIA_CDRW_74, noEject=False,
refreshMediaDelay=0, ejectDelay=0, unittest=False):
"""
Initializes a CD writer object.
The current user must have write access to the device at the time the
object is instantiated, or an exception will be thrown. However, no
media-related validation is done, and in fact there is no need for any
media to be in the drive until one of the other media attribute-related
methods is called.
The various instance variables such as C{deviceType}, C{deviceVendor},
etc. might be C{None}, if we're unable to parse this specific information
from the C{cdrecord} output. This information is just for reference.
The SCSI id is optional, but the device path is required. If the SCSI id
is passed in, then the hardware id attribute will be taken from the SCSI
id. Otherwise, the hardware id will be taken from the device.
If cdrecord improperly detects whether your writer device has a tray and
can be safely opened and closed, then pass in C{noEject=False}. This
will override the properties and the device will never be ejected.
@note: The C{unittest} parameter should never be set to C{True}
outside of Cedar Backup code. It is intended for use in unit testing
Cedar Backup internals and has no other sensible purpose.
@param device: Filesystem device associated with this writer.
@type device: Absolute path to a filesystem device, i.e. C{/dev/cdrw}
@param scsiId: SCSI id for the device (optional).
@type scsiId: If provided, SCSI id in the form C{[<method>:]scsibus,target,lun}
@param driveSpeed: Speed at which the drive writes.
@type driveSpeed: Use C{2} for 2x device, etc. or C{None} to use device default.
@param mediaType: Type of the media that is assumed to be in the drive.
@type mediaType: One of the valid media type as discussed above.
@param noEject: Overrides properties to indicate that the device does not support eject.
@type noEject: Boolean true/false
@param refreshMediaDelay: Refresh media delay to use, if any
@type refreshMediaDelay: Number of seconds, an integer >= 0
@param ejectDelay: Eject delay to use, if any
@type ejectDelay: Number of seconds, an integer >= 0
@param unittest: Turns off certain validations, for use in unit testing.
@type unittest: Boolean true/false
@raise ValueError: If the device is not valid for some reason.
@raise ValueError: If the SCSI id is not in a valid form.
@raise ValueError: If the drive speed is not an integer >= 1.
@raise IOError: If device properties could not be read for some reason.
"""
self._image = None # optionally filled in by initializeImage()
self._device = validateDevice(device, unittest)
self._scsiId = validateScsiId(scsiId)
self._driveSpeed = validateDriveSpeed(driveSpeed)
self._media = MediaDefinition(mediaType)
self._noEject = noEject
self._refreshMediaDelay = refreshMediaDelay
self._ejectDelay = ejectDelay
if not unittest:
(self._deviceType,
self._deviceVendor,
self._deviceId,
self._deviceBufferSize,
self._deviceSupportsMulti,
self._deviceHasTray,
self._deviceCanEject) = self._retrieveProperties()
#############
# Properties
#############
def _getDevice(self):
"""
Property target used to get the device value.
"""
return self._device
def _getScsiId(self):
"""
Property target used to get the SCSI id value.
"""
return self._scsiId
def _getHardwareId(self):
"""
Property target used to get the hardware id value.
"""
if self._scsiId is None:
return self._device
return self._scsiId
def _getDriveSpeed(self):
"""
Property target used to get the drive speed.
"""
return self._driveSpeed
def _getMedia(self):
"""
Property target used to get the media description.
"""
return self._media
def _getDeviceType(self):
"""
Property target used to get the device type.
"""
return self._deviceType
def _getDeviceVendor(self):
"""
Property target used to get the device vendor.
"""
return self._deviceVendor
def _getDeviceId(self):
"""
Property target used to get the device id.
"""
return self._deviceId
def _getDeviceBufferSize(self):
"""
Property target used to get the device buffer size.
"""
return self._deviceBufferSize
def _getDeviceSupportsMulti(self):
"""
Property target used to get the device-support-multi flag.
"""
return self._deviceSupportsMulti
def _getDeviceHasTray(self):
"""
Property target used to get the device-has-tray flag.
"""
return self._deviceHasTray
def _getDeviceCanEject(self):
"""
Property target used to get the device-can-eject flag.
"""
return self._deviceCanEject
def _getRefreshMediaDelay(self):
"""
Property target used to get the configured refresh media delay, in seconds.
"""
return self._refreshMediaDelay
def _getEjectDelay(self):
"""
Property target used to get the configured eject delay, in seconds.
"""
return self._ejectDelay
device = property(_getDevice, None, None, doc="Filesystem device name for this writer.")
scsiId = property(_getScsiId, None, None, doc="SCSI id for the device, in the form C{[<method>:]scsibus,target,lun}.")
hardwareId = property(_getHardwareId, None, None, doc="Hardware id for this writer, either SCSI id or device path.")
driveSpeed = property(_getDriveSpeed, None, None, doc="Speed at which the drive writes.")
media = property(_getMedia, None, None, doc="Definition of media that is expected to be in the device.")
deviceType = property(_getDeviceType, None, None, doc="Type of the device, as returned from C{cdrecord -prcap}.")
deviceVendor = property(_getDeviceVendor, None, None, doc="Vendor of the device, as returned from C{cdrecord -prcap}.")
deviceId = property(_getDeviceId, None, None, doc="Device identification, as returned from C{cdrecord -prcap}.")
deviceBufferSize = property(_getDeviceBufferSize, None, None, doc="Size of the device's write buffer, in bytes.")
deviceSupportsMulti = property(_getDeviceSupportsMulti, None, None, doc="Indicates whether device supports multisession discs.")
deviceHasTray = property(_getDeviceHasTray, None, None, doc="Indicates whether the device has a media tray.")
deviceCanEject = property(_getDeviceCanEject, None, None, doc="Indicates whether the device supports ejecting its media.")
refreshMediaDelay = property(_getRefreshMediaDelay, None, None, doc="Refresh media delay, in seconds.")
ejectDelay = property(_getEjectDelay, None, None, doc="Eject delay, in seconds.")
#################################################
# Methods related to device and media attributes
#################################################
def isRewritable(self):
"""Indicates whether the media is rewritable per configuration."""
return self._media.rewritable
def _retrieveProperties(self):
"""
Retrieves properties for a device from C{cdrecord}.
The results are returned as a tuple of the object device attributes as
returned from L{_parsePropertiesOutput}: C{(deviceType, deviceVendor,
deviceId, deviceBufferSize, deviceSupportsMulti, deviceHasTray,
deviceCanEject)}.
@return: Results tuple as described above.
@raise IOError: If there is a problem talking to the device.
"""
args = CdWriter._buildPropertiesArgs(self.hardwareId)
command = resolveCommand(CDRECORD_COMMAND)
(result, output) = executeCommand(command, args, returnOutput=True, ignoreStderr=True)
if result != 0:
raise IOError("Error (%d) executing cdrecord command to get properties." % result)
return CdWriter._parsePropertiesOutput(output)
def retrieveCapacity(self, entireDisc=False, useMulti=True):
"""
Retrieves capacity for the current media in terms of a C{MediaCapacity}
object.
If C{entireDisc} is passed in as C{True} the capacity will be for the
entire disc, as if it were to be rewritten from scratch. If the drive
does not support writing multisession discs or if C{useMulti} is passed
in as C{False}, the capacity will also be as if the disc were to be
rewritten from scratch, but the indicated boundaries value will be
C{None}. The same will happen if the disc cannot be read for some
reason. Otherwise, the capacity (including the boundaries) will
represent whatever space remains on the disc to be filled by future
sessions.
@param entireDisc: Indicates whether to return capacity for entire disc.
@type entireDisc: Boolean true/false
@param useMulti: Indicates whether a multisession disc should be assumed, if possible.
@type useMulti: Boolean true/false
@return: C{MediaCapacity} object describing the capacity of the media.
@raise IOError: If the media could not be read for some reason.
"""
boundaries = self._getBoundaries(entireDisc, useMulti)
return CdWriter._calculateCapacity(self._media, boundaries)
def _getBoundaries(self, entireDisc=False, useMulti=True):
"""
Gets the ISO boundaries for the media.
If C{entireDisc} is passed in as C{True} the boundaries will be C{None},
as if the disc were to be rewritten from scratch. If the drive does not
support writing multisession discs, the returned value will be C{None}.
The same will happen if the disc can't be read for some reason.
Otherwise, the returned value will be represent the boundaries of the
disc's current contents.
The results are returned as a tuple of (lower, upper) as needed by the
C{IsoImage} class. Note that these values are in terms of ISO sectors,
not bytes. Clients should generally consider the boundaries value
opaque, however.
@param entireDisc: Indicates whether to return capacity for entire disc.
@type entireDisc: Boolean true/false
@param useMulti: Indicates whether a multisession disc should be assumed, if possible.
@type useMulti: Boolean true/false
@return: Boundaries tuple or C{None}, as described above.
@raise IOError: If the media could not be read for some reason.
"""
if not self._deviceSupportsMulti:
logger.debug("Device does not support multisession discs; returning boundaries None.")
return None
elif not useMulti:
logger.debug("Use multisession flag is False; returning boundaries None.")
return None
elif entireDisc:
logger.debug("Entire disc flag is True; returning boundaries None.")
return None
else:
args = CdWriter._buildBoundariesArgs(self.hardwareId)
command = resolveCommand(CDRECORD_COMMAND)
(result, output) = executeCommand(command, args, returnOutput=True, ignoreStderr=True)
if result != 0:
logger.debug("Error (%d) executing cdrecord command to get capacity.", result)
logger.warn("Unable to read disc (might not be initialized); returning boundaries of None.")
return None
boundaries = CdWriter._parseBoundariesOutput(output)
if boundaries is None:
logger.debug("Returning disc boundaries: None")
else:
logger.debug("Returning disc boundaries: (%d, %d)", boundaries[0], boundaries[1])
return boundaries
@staticmethod
def _calculateCapacity(media, boundaries):
"""
Calculates capacity for the media in terms of boundaries.
If C{boundaries} is C{None} or the lower bound is 0 (zero), then the
capacity will be for the entire disc minus the initial lead in.
Otherwise, capacity will be as if the caller wanted to add an additional
session to the end of the existing data on the disc.
@param media: MediaDescription object describing the media capacity.
@param boundaries: Session boundaries as returned from L{_getBoundaries}.
@return: C{MediaCapacity} object describing the capacity of the media.
"""
if boundaries is None or boundaries[1] == 0:
logger.debug("Capacity calculations are based on a complete disc rewrite.")
sectorsAvailable = media.capacity - media.initialLeadIn
if sectorsAvailable < 0: sectorsAvailable = 0.0
bytesUsed = 0.0
bytesAvailable = convertSize(sectorsAvailable, UNIT_SECTORS, UNIT_BYTES)
else:
logger.debug("Capacity calculations are based on a new ISO session.")
sectorsAvailable = media.capacity - boundaries[1] - media.leadIn
if sectorsAvailable < 0: sectorsAvailable = 0.0
bytesUsed = convertSize(boundaries[1], UNIT_SECTORS, UNIT_BYTES)
bytesAvailable = convertSize(sectorsAvailable, UNIT_SECTORS, UNIT_BYTES)
logger.debug("Used [%s], available [%s].", displayBytes(bytesUsed), displayBytes(bytesAvailable))
return MediaCapacity(bytesUsed, bytesAvailable, boundaries)
#######################################################
# Methods used for working with the internal ISO image
#######################################################
def initializeImage(self, newDisc, tmpdir, mediaLabel=None):
"""
Initializes the writer's associated ISO image.
This method initializes the C{image} instance variable so that the caller
can use the C{addImageEntry} method. Once entries have been added, the
C{writeImage} method can be called with no arguments.
@param newDisc: Indicates whether the disc should be re-initialized
@type newDisc: Boolean true/false.
@param tmpdir: Temporary directory to use if needed
@type tmpdir: String representing a directory path on disk
@param mediaLabel: Media label to be applied to the image, if any
@type mediaLabel: String, no more than 25 characters long
"""
self._image = _ImageProperties()
self._image.newDisc = newDisc
self._image.tmpdir = encodePath(tmpdir)
self._image.mediaLabel = mediaLabel
self._image.entries = {} # mapping from path to graft point (if any)
def addImageEntry(self, path, graftPoint):
"""
Adds a filepath entry to the writer's associated ISO image.
The contents of the filepath -- but not the path itself -- will be added
to the image at the indicated graft point. If you don't want to use a
graft point, just pass C{None}.
@note: Before calling this method, you must call L{initializeImage}.
@param path: File or directory to be added to the image
@type path: String representing a path on disk
@param graftPoint: Graft point to be used when adding this entry
@type graftPoint: String representing a graft point path, as described above
@raise ValueError: If initializeImage() was not previously called
"""
if self._image is None:
raise ValueError("Must call initializeImage() before using this method.")
if not os.path.exists(path):
raise ValueError("Path [%s] does not exist." % path)
self._image.entries[path] = graftPoint
def setImageNewDisc(self, newDisc):
"""
Resets (overrides) the newDisc flag on the internal image.
@param newDisc: New disc flag to set
@raise ValueError: If initializeImage() was not previously called
"""
if self._image is None:
raise ValueError("Must call initializeImage() before using this method.")
self._image.newDisc = newDisc
# pylint: disable=C0201
def getEstimatedImageSize(self):
"""
Gets the estimated size of the image associated with the writer.
@return: Estimated size of the image, in bytes.
@raise IOError: If there is a problem calling C{mkisofs}.
@raise ValueError: If initializeImage() was not previously called
"""
if self._image is None:
raise ValueError("Must call initializeImage() before using this method.")
image = IsoImage()
for path in self._image.entries.keys():
image.addEntry(path, self._image.entries[path], override=False, contentsOnly=True)
return image.getEstimatedSize()
######################################
# Methods which expose device actions
######################################
def openTray(self):
"""
Opens the device's tray and leaves it open.
This only works if the device has a tray and supports ejecting its media.
We have no way to know if the tray is currently open or closed, so we
just send the appropriate command and hope for the best. If the device
does not have a tray or does not support ejecting its media, then we do
nothing.
If the writer was constructed with C{noEject=True}, then this is a no-op.
Starting with Debian wheezy on my backup hardware, I started seeing
consistent problems with the eject command. I couldn't tell whether
these problems were due to the device management system or to the new
kernel (3.2.0). Initially, I saw simple eject failures, possibly because
I was opening and closing the tray too quickly. I worked around that
behavior with the new ejectDelay flag.
Later, I sometimes ran into issues after writing an image to a disc:
eject would give errors like "unable to eject, last error: Inappropriate
ioctl for device". Various sources online (like Ubuntu bug #875543)
suggested that the drive was being locked somehow, and that the
workaround was to run 'eject -i off' to unlock it. Sure enough, that
fixed the problem for me, so now it's a normal error-handling strategy.
@raise IOError: If there is an error talking to the device.
"""
if not self._noEject:
if self._deviceHasTray and self._deviceCanEject:
args = CdWriter._buildOpenTrayArgs(self._device)
result = executeCommand(EJECT_COMMAND, args)[0]
if result != 0:
logger.debug("Eject failed; attempting kludge of unlocking the tray before retrying.")
self.unlockTray()
result = executeCommand(EJECT_COMMAND, args)[0]
if result != 0:
raise IOError("Error (%d) executing eject command to open tray (failed even after unlocking tray)." % result)
logger.debug("Kludge was apparently successful.")
if self.ejectDelay is not None:
logger.debug("Per configuration, sleeping %d seconds after opening tray.", self.ejectDelay)
time.sleep(self.ejectDelay)
def unlockTray(self):
"""
Unlocks the device's tray.
@raise IOError: If there is an error talking to the device.
"""
args = CdWriter._buildUnlockTrayArgs(self._device)
command = resolveCommand(EJECT_COMMAND)
result = executeCommand(command, args)[0]
if result != 0:
raise IOError("Error (%d) executing eject command to unlock tray." % result)
def closeTray(self):
"""
Closes the device's tray.
This only works if the device has a tray and supports ejecting its media.
We have no way to know if the tray is currently open or closed, so we
just send the appropriate command and hope for the best. If the device
does not have a tray or does not support ejecting its media, then we do
nothing.
If the writer was constructed with C{noEject=True}, then this is a no-op.
@raise IOError: If there is an error talking to the device.
"""
if not self._noEject:
if self._deviceHasTray and self._deviceCanEject:
args = CdWriter._buildCloseTrayArgs(self._device)
command = resolveCommand(EJECT_COMMAND)
result = executeCommand(command, args)[0]
if result != 0:
raise IOError("Error (%d) executing eject command to close tray." % result)
def refreshMedia(self):
"""
Opens and then immediately closes the device's tray, to refresh the
device's idea of the media.
Sometimes, a device gets confused about the state of its media. Often,
all it takes to solve the problem is to eject the media and then
immediately reload it. (There are also configurable eject and refresh
media delays which can be applied, for situations where this makes a
difference.)
This only works if the device has a tray and supports ejecting its media.
We have no way to know if the tray is currently open or closed, so we
just send the appropriate command and hope for the best. If the device
does not have a tray or does not support ejecting its media, then we do
nothing. The configured delays still apply, though.
@raise IOError: If there is an error talking to the device.
"""
self.openTray()
self.closeTray()
self.unlockTray() # on some systems, writing a disc leaves the tray locked, yikes!
if self.refreshMediaDelay is not None:
logger.debug("Per configuration, sleeping %d seconds to stabilize media state.", self.refreshMediaDelay)
time.sleep(self.refreshMediaDelay)
logger.debug("Media refresh complete; hopefully media state is stable now.")
def writeImage(self, imagePath=None, newDisc=False, writeMulti=True):
"""
Writes an ISO image to the media in the device.
If C{newDisc} is passed in as C{True}, we assume that the entire disc
will be overwritten, and the media will be blanked before writing it if
possible (i.e. if the media is rewritable).
If C{writeMulti} is passed in as C{True}, then a multisession disc will
be written if possible (i.e. if the drive supports writing multisession
discs).
if C{imagePath} is passed in as C{None}, then the existing image
configured with C{initializeImage} will be used. Under these
circumstances, the passed-in C{newDisc} flag will be ignored.
By default, we assume that the disc can be written multisession and that
we should append to the current contents of the disc. In any case, the
ISO image must be generated appropriately (i.e. must take into account
any existing session boundaries, etc.)
@param imagePath: Path to an ISO image on disk, or C{None} to use writer's image
@type imagePath: String representing a path on disk
@param newDisc: Indicates whether the entire disc will overwritten.
@type newDisc: Boolean true/false.
@param writeMulti: Indicates whether a multisession disc should be written, if possible.
@type writeMulti: Boolean true/false
@raise ValueError: If the image path is not absolute.
@raise ValueError: If some path cannot be encoded properly.
@raise IOError: If the media could not be written to for some reason.
@raise ValueError: If no image is passed in and initializeImage() was not previously called
"""
if imagePath is None:
if self._image is None:
raise ValueError("Must call initializeImage() before using this method with no image path.")
try:
imagePath = self._createImage()
self._writeImage(imagePath, writeMulti, self._image.newDisc)
finally:
if imagePath is not None and os.path.exists(imagePath):
try: os.unlink(imagePath)
except: pass
else:
imagePath = encodePath(imagePath)
if not os.path.isabs(imagePath):
raise ValueError("Image path must be absolute.")
self._writeImage(imagePath, writeMulti, newDisc)
# pylint: disable=C0201
def _createImage(self):
"""
Creates an ISO image based on configuration in self._image.
@return: Path to the newly-created ISO image on disk.
@raise IOError: If there is an error writing the image to disk.
@raise ValueError: If there are no filesystem entries in the image
@raise ValueError: If a path cannot be encoded properly.
"""
path = None
capacity = self.retrieveCapacity(entireDisc=self._image.newDisc)
image = IsoImage(self.device, capacity.boundaries)
image.volumeId = self._image.mediaLabel # may be None, which is also valid
for key in self._image.entries.keys():
image.addEntry(key, self._image.entries[key], override=False, contentsOnly=True)
size = image.getEstimatedSize()
logger.info("Image size will be %s.", displayBytes(size))
available = capacity.bytesAvailable
logger.debug("Media capacity: %s", displayBytes(available))
if size > available:
logger.error("Image [%s] does not fit in available capacity [%s].", displayBytes(size), displayBytes(available))
raise IOError("Media does not contain enough capacity to store image.")
try:
(handle, path) = tempfile.mkstemp(dir=self._image.tmpdir)
try: os.close(handle)
except: pass
image.writeImage(path)
logger.debug("Completed creating image [%s].", path)
return path
except Exception, e:
if path is not None and os.path.exists(path):
try: os.unlink(path)
except: pass
raise e
def _writeImage(self, imagePath, writeMulti, newDisc):
"""
Write an ISO image to disc using cdrecord.
The disc is blanked first if C{newDisc} is C{True}.
@param imagePath: Path to an ISO image on disk
@param writeMulti: Indicates whether a multisession disc should be written, if possible.
@param newDisc: Indicates whether the entire disc will overwritten.
"""
if newDisc:
self._blankMedia()
args = CdWriter._buildWriteArgs(self.hardwareId, imagePath, self._driveSpeed, writeMulti and self._deviceSupportsMulti)
command = resolveCommand(CDRECORD_COMMAND)
result = executeCommand(command, args)[0]
if result != 0:
raise IOError("Error (%d) executing command to write disc." % result)
self.refreshMedia()
def _blankMedia(self):
"""
Blanks the media in the device, if the media is rewritable.
@raise IOError: If the media could not be written to for some reason.
"""
if self.isRewritable():
args = CdWriter._buildBlankArgs(self.hardwareId)
command = resolveCommand(CDRECORD_COMMAND)
result = executeCommand(command, args)[0]
if result != 0:
raise IOError("Error (%d) executing command to blank disc." % result)
self.refreshMedia()
#######################################
# Methods used to parse command output
#######################################
@staticmethod
def _parsePropertiesOutput(output):
"""
Parses the output from a C{cdrecord} properties command.
The C{output} parameter should be a list of strings as returned from
C{executeCommand} for a C{cdrecord} command with arguments as from
C{_buildPropertiesArgs}. The list of strings will be parsed to yield
information about the properties of the device.
The output is expected to be a huge long list of strings. Unfortunately,
the strings aren't in a completely regular format. However, the format
of individual lines seems to be regular enough that we can look for
specific values. Two kinds of parsing take place: one kind of parsing
picks out out specific values like the device id, device vendor, etc.
The other kind of parsing just sets a boolean flag C{True} if a matching
line is found. All of the parsing is done with regular expressions.
Right now, pretty much nothing in the output is required and we should
parse an empty document successfully (albeit resulting in a device that
can't eject, doesn't have a tray and doesnt't support multisession
discs). I had briefly considered erroring out if certain lines weren't
found or couldn't be parsed, but that seems like a bad idea given that
most of the information is just for reference.
The results are returned as a tuple of the object device attributes:
C{(deviceType, deviceVendor, deviceId, deviceBufferSize,
deviceSupportsMulti, deviceHasTray, deviceCanEject)}.
@param output: Output from a C{cdrecord -prcap} command.
@return: Results tuple as described above.
@raise IOError: If there is problem parsing the output.
"""
deviceType = None
deviceVendor = None
deviceId = None
deviceBufferSize = None
deviceSupportsMulti = False
deviceHasTray = False
deviceCanEject = False
typePattern = re.compile(r"(^Device type\s*:\s*)(.*)(\s*)(.*$)")
vendorPattern = re.compile(r"(^Vendor_info\s*:\s*'\s*)(.*?)(\s*')(.*$)")
idPattern = re.compile(r"(^Identifikation\s*:\s*'\s*)(.*?)(\s*')(.*$)")
bufferPattern = re.compile(r"(^\s*Buffer size in KB:\s*)(.*?)(\s*$)")
multiPattern = re.compile(r"^\s*Does read multi-session.*$")
trayPattern = re.compile(r"^\s*Loading mechanism type: tray.*$")
ejectPattern = re.compile(r"^\s*Does support ejection.*$")
for line in output:
if typePattern.search(line):
deviceType = typePattern.search(line).group(2)
logger.info("Device type is [%s].", deviceType)
elif vendorPattern.search(line):
deviceVendor = vendorPattern.search(line).group(2)
logger.info("Device vendor is [%s].", deviceVendor)
elif idPattern.search(line):
deviceId = idPattern.search(line).group(2)
logger.info("Device id is [%s].", deviceId)
elif bufferPattern.search(line):
try:
sectors = int(bufferPattern.search(line).group(2))
deviceBufferSize = convertSize(sectors, UNIT_KBYTES, UNIT_BYTES)
logger.info("Device buffer size is [%d] bytes.", deviceBufferSize)
except TypeError: pass
elif multiPattern.search(line):
deviceSupportsMulti = True
logger.info("Device does support multisession discs.")
elif trayPattern.search(line):
deviceHasTray = True
logger.info("Device has a tray.")
elif ejectPattern.search(line):
deviceCanEject = True
logger.info("Device can eject its media.")
return (deviceType, deviceVendor, deviceId, deviceBufferSize, deviceSupportsMulti, deviceHasTray, deviceCanEject)
@staticmethod
def _parseBoundariesOutput(output):
"""
Parses the output from a C{cdrecord} capacity command.
The C{output} parameter should be a list of strings as returned from
C{executeCommand} for a C{cdrecord} command with arguments as from
C{_buildBoundaryArgs}. The list of strings will be parsed to yield
information about the capacity of the media in the device.
Basically, we expect the list of strings to include just one line, a pair
of values. There isn't supposed to be whitespace, but we allow it anyway
in the regular expression. Any lines below the one line we parse are
completely ignored. It would be a good idea to ignore C{stderr} when
executing the C{cdrecord} command that generates output for this method,
because sometimes C{cdrecord} spits out kernel warnings about the actual
output.
The results are returned as a tuple of (lower, upper) as needed by the
C{IsoImage} class. Note that these values are in terms of ISO sectors,
not bytes. Clients should generally consider the boundaries value
opaque, however.
@note: If the boundaries output can't be parsed, we return C{None}.
@param output: Output from a C{cdrecord -msinfo} command.
@return: Boundaries tuple as described above.
@raise IOError: If there is problem parsing the output.
"""
if len(output) < 1:
logger.warn("Unable to read disc (might not be initialized); returning full capacity.")
return None
boundaryPattern = re.compile(r"(^\s*)([0-9]*)(\s*,\s*)([0-9]*)(\s*$)")
parsed = boundaryPattern.search(output[0])
if not parsed:
raise IOError("Unable to parse output of boundaries command.")
try:
boundaries = ( int(parsed.group(2)), int(parsed.group(4)) )
except TypeError:
raise IOError("Unable to parse output of boundaries command.")
return boundaries
#################################
# Methods used to build commands
#################################
@staticmethod
def _buildOpenTrayArgs(device):
"""
Builds a list of arguments to be passed to a C{eject} command.
The arguments will cause the C{eject} command to open the tray and
eject the media. No validation is done by this method as to whether
this action actually makes sense.
@param device: Filesystem device name for this writer, i.e. C{/dev/cdrw}.
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append(device)
return args
@staticmethod
def _buildUnlockTrayArgs(device):
"""
Builds a list of arguments to be passed to a C{eject} command.
The arguments will cause the C{eject} command to unlock the tray.
@param device: Filesystem device name for this writer, i.e. C{/dev/cdrw}.
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-i")
args.append("off")
args.append(device)
return args
@staticmethod
def _buildCloseTrayArgs(device):
"""
Builds a list of arguments to be passed to a C{eject} command.
The arguments will cause the C{eject} command to close the tray and reload
the media. No validation is done by this method as to whether this
action actually makes sense.
@param device: Filesystem device name for this writer, i.e. C{/dev/cdrw}.
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-t")
args.append(device)
return args
@staticmethod
def _buildPropertiesArgs(hardwareId):
"""
Builds a list of arguments to be passed to a C{cdrecord} command.
The arguments will cause the C{cdrecord} command to ask the device
for a list of its capacities via the C{-prcap} switch.
@param hardwareId: Hardware id for the device (either SCSI id or device path)
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-prcap")
args.append("dev=%s" % hardwareId)
return args
@staticmethod
def _buildBoundariesArgs(hardwareId):
"""
Builds a list of arguments to be passed to a C{cdrecord} command.
The arguments will cause the C{cdrecord} command to ask the device for
the current multisession boundaries of the media using the C{-msinfo}
switch.
@param hardwareId: Hardware id for the device (either SCSI id or device path)
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-msinfo")
args.append("dev=%s" % hardwareId)
return args
@staticmethod
def _buildBlankArgs(hardwareId, driveSpeed=None):
"""
Builds a list of arguments to be passed to a C{cdrecord} command.
The arguments will cause the C{cdrecord} command to blank the media in
the device identified by C{hardwareId}. No validation is done by this method
as to whether the action makes sense (i.e. to whether the media even can
be blanked).
@param hardwareId: Hardware id for the device (either SCSI id or device path)
@param driveSpeed: Speed at which the drive writes.
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-v")
args.append("blank=fast")
if driveSpeed is not None:
args.append("speed=%d" % driveSpeed)
args.append("dev=%s" % hardwareId)
return args
@staticmethod
def _buildWriteArgs(hardwareId, imagePath, driveSpeed=None, writeMulti=True):
"""
Builds a list of arguments to be passed to a C{cdrecord} command.
The arguments will cause the C{cdrecord} command to write the indicated
ISO image (C{imagePath}) to the media in the device identified by
C{hardwareId}. The C{writeMulti} argument controls whether to write a
multisession disc. No validation is done by this method as to whether
the action makes sense (i.e. to whether the device even can write
multisession discs, for instance).
@param hardwareId: Hardware id for the device (either SCSI id or device path)
@param imagePath: Path to an ISO image on disk.
@param driveSpeed: Speed at which the drive writes.
@param writeMulti: Indicates whether to write a multisession disc.
@return: List suitable for passing to L{util.executeCommand} as C{args}.
"""
args = []
args.append("-v")
if driveSpeed is not None:
args.append("speed=%d" % driveSpeed)
args.append("dev=%s" % hardwareId)
if writeMulti:
args.append("-multi")
args.append("-data")
args.append(imagePath)
return args
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