tools/build_defs/pkg/archive.py - bazel - Git at Google

 # Copyright 2015 The Bazel Authors. All rights reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #    http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 """Archive manipulation library for the Docker rules."""

 # pylint: disable=g-import-not-at-top
 import gzip
 import io
 import os
 import subprocess
 import tarfile

 # Use a deterministic mtime that doesn't confuse other programs.
 # See: https://github.com/bazelbuild/bazel/issues/1299
 PORTABLE_MTIME = 946684800  # 2000-01-01 00:00:00.000 UTC


 class SimpleArFile(object):
   """A simple AR file reader.

   This enable to read AR file (System V variant) as described
   in https://en.wikipedia.org/wiki/Ar_(Unix).

   The standard usage of this class is:

   with SimpleArFile(filename) as ar:
     nextFile = ar.next()
     while nextFile:
       print(nextFile.filename)
       nextFile = ar.next()

   Upon error, this class will raise a ArError exception.
   """

   # TODO(dmarting): We should use a standard library instead but python 2.7
   #   does not have AR reading library.

   class ArError(Exception):
     pass

   class SimpleArFileEntry(object):
     """Represent one entry in a AR archive.

     Attributes:
       filename: the filename of the entry, as described in the archive.
       timestamp: the timestamp of the file entry.
       owner_id, group_id: numeric id of the user and group owning the file.
       mode: unix permission mode of the file
       size: size of the file
       data: the content of the file.
     """

     def __init__(self, f):
       self.filename = f.read(16).decode('utf-8').strip()
       if self.filename.endswith('/'):  # SysV variant
         self.filename = self.filename[:-1]
       self.timestamp = int(f.read(12).strip())
       self.owner_id = int(f.read(6).strip())
       self.group_id = int(f.read(6).strip())
       self.mode = int(f.read(8).strip(), 8)
       self.size = int(f.read(10).strip())
       pad = f.read(2)
       if pad != b'\x60\x0a':
         raise SimpleArFile.ArError('Invalid AR file header')
       self.data = f.read(self.size)

   MAGIC_STRING = b'!<arch>\n'

   def __init__(self, filename):
     self.filename = filename

   def __enter__(self):
     self.f = open(self.filename, 'rb')
     if self.f.read(len(self.MAGIC_STRING)) != self.MAGIC_STRING:
       raise self.ArError('Not a ar file: ' + self.filename)
     return self

   def __exit__(self, t, v, traceback):
     self.f.close()

   def next(self):
     """Read the next file. Returns None when reaching the end of file."""
     # AR sections are two bit aligned using new lines.
     if self.f.tell() % 2 != 0:
       self.f.read(1)
     # An AR sections is at least 60 bytes. Some file might contains garbage
     # bytes at the end of the archive, ignore them.
     if self.f.tell() > os.fstat(self.f.fileno()).st_size - 60:
       return None
     return self.SimpleArFileEntry(self.f)


 class TarFileWriter(object):
   """A wrapper to write tar files."""

   class Error(Exception):
     pass

   def __init__(self,
                name,
                compression='',
                root_directory='./',
                default_mtime=None):
     """TarFileWriter wraps tarfile.open().

     Args:
       name: the tar file name.
       compression: compression type: bzip2, bz2, gz, tgz, xz, lzma.
       root_directory: virtual root to prepend to elements in the archive.
       default_mtime: default mtime to use for elements in the archive.
           May be an integer or the value 'portable' to use the date
           2000-01-01, which is compatible with non *nix OSes'.
     """
     if compression in ['bzip2', 'bz2']:
       mode = 'w:bz2'
     else:
       mode = 'w:'
     self.gz = compression in ['tgz', 'gz']
     # Support xz compression through xz... until we can use Py3
     self.xz = compression in ['xz', 'lzma']
     self.name = name
     self.root_directory = root_directory.rstrip('/')
     if default_mtime is None:
       self.default_mtime = 0
     elif default_mtime == 'portable':
       self.default_mtime = PORTABLE_MTIME
     else:
       self.default_mtime = int(default_mtime)

     self.fileobj = None
     if self.gz:
       # The Tarfile class doesn't allow us to specify gzip's mtime attribute.
       # Instead, we manually re-implement gzopen from tarfile.py and set mtime.
       self.fileobj = gzip.GzipFile(
           filename=name, mode='w', compresslevel=9, mtime=self.default_mtime)
     self.tar = tarfile.open(name=name, mode=mode, fileobj=self.fileobj)
     self.members = set([])
     self.directories = set([])

   def __enter__(self):
     return self

   def __exit__(self, t, v, traceback):
     self.close()

   def add_dir(self,
               name,
               path,
               uid=0,
               gid=0,
               uname='',
               gname='',
               mtime=None,
               mode=None,
               depth=100):
     """Recursively add a directory.

     Args:
       name: the destination path of the directory to add.
       path: the path of the directory to add.
       uid: owner user identifier.
       gid: owner group identifier.
       uname: owner user names.
       gname: owner group names.
       mtime: modification time to put in the archive.
       mode: unix permission mode of the file, default 0644 (0755).
       depth: maximum depth to recurse in to avoid infinite loops
              with cyclic mounts.

     Raises:
       TarFileWriter.Error: when the recursion depth has exceeded the
                            `depth` argument.
     """
     if not (name == self.root_directory or name.startswith('/') or
             name.startswith(self.root_directory + '/')):
       name = os.path.join(self.root_directory, name)
     if mtime is None:
       mtime = self.default_mtime
     if os.path.isdir(path):
       # Remove trailing '/' (index -1 => last character)
       if name[-1] == '/':
         name = name[:-1]
       # Add the x bit to directories to prevent non-traversable directories.
       # The x bit is set only to if the read bit is set.
       dirmode = (mode | ((0o444 & mode) >> 2)) if mode else mode
       self.add_file(name + '/',
                     tarfile.DIRTYPE,
                     uid=uid,
                     gid=gid,
                     uname=uname,
                     gname=gname,
                     mtime=mtime,
                     mode=dirmode)
       if depth <= 0:
         raise self.Error('Recursion depth exceeded, probably in '
                          'an infinite directory loop.')
       # Iterate over the sorted list of file so we get a deterministic result.
       filelist = os.listdir(path)
       filelist.sort()
       for f in filelist:
         new_name = os.path.join(name, f)
         new_path = os.path.join(path, f)
         self.add_dir(new_name, new_path, uid, gid, uname, gname, mtime, mode,
                      depth - 1)
     else:
       self.add_file(name,
                     tarfile.REGTYPE,
                     file_content=path,
                     uid=uid,
                     gid=gid,
                     uname=uname,
                     gname=gname,
                     mtime=mtime,
                     mode=mode)

   def _addfile(self, info, fileobj=None):
     """Add a file in the tar file if there is no conflict."""
     if not info.name.endswith('/') and info.type == tarfile.DIRTYPE:
       # Enforce the ending / for directories so we correctly deduplicate.
       info.name += '/'
     if info.name not in self.members:
       self.tar.addfile(info, fileobj)
       self.members.add(info.name)
     elif info.type != tarfile.DIRTYPE:
       print('Duplicate file in archive: %s, '
             'picking first occurrence' % info.name)

   def add_file(self,
                name,
                kind=tarfile.REGTYPE,
                content=None,
                link=None,
                file_content=None,
                uid=0,
                gid=0,
                uname='',
                gname='',
                mtime=None,
                mode=None):
     """Add a file to the current tar.

     Args:
       name: the name of the file to add.
       kind: the type of the file to add, see tarfile.*TYPE.
       content: a textual content to put in the file.
       link: if the file is a link, the destination of the link.
       file_content: file to read the content from. Provide either this
           one or `content` to specifies a content for the file.
       uid: owner user identifier.
       gid: owner group identifier.
       uname: owner user names.
       gname: owner group names.
       mtime: modification time to put in the archive.
       mode: unix permission mode of the file, default 0644 (0755).
     """
     if file_content and os.path.isdir(file_content):
       # Recurse into directory
       self.add_dir(name, file_content, uid, gid, uname, gname, mtime, mode)
       return
     if not (name == self.root_directory or name.startswith('/') or
             name.startswith(self.root_directory + '/')):
       name = os.path.join(self.root_directory, name)
     if kind == tarfile.DIRTYPE:
       name = name.rstrip('/')
       if name in self.directories:
         return
     if mtime is None:
       mtime = self.default_mtime

     components = name.rsplit('/', 1)
     if len(components) > 1:
       d = components[0]
       self.add_file(d,
                     tarfile.DIRTYPE,
                     uid=uid,
                     gid=gid,
                     uname=uname,
                     gname=gname,
                     mtime=mtime,
                     mode=0o755)
     tarinfo = tarfile.TarInfo(name)
     tarinfo.mtime = mtime
     tarinfo.uid = uid
     tarinfo.gid = gid
     tarinfo.uname = uname
     tarinfo.gname = gname
     tarinfo.type = kind
     if mode is None:
       tarinfo.mode = 0o644 if kind == tarfile.REGTYPE else 0o755
     else:
       tarinfo.mode = mode
     if link:
       tarinfo.linkname = link
     if content:
       content_bytes = content.encode('utf-8')
       tarinfo.size = len(content_bytes)
       self._addfile(tarinfo, io.BytesIO(content_bytes))
     elif file_content:
       with open(file_content, 'rb') as f:
         tarinfo.size = os.fstat(f.fileno()).st_size
         self._addfile(tarinfo, f)
     else:
       if kind == tarfile.DIRTYPE:
         self.directories.add(name)
       self._addfile(tarinfo)

   def add_tar(self,
               tar,
               rootuid=None,
               rootgid=None,
               numeric=False,
               name_filter=None,
               root=None):
     """Merge a tar content into the current tar, stripping timestamp.

     Args:
       tar: the name of tar to extract and put content into the current tar.
       rootuid: user id that we will pretend is root (replaced by uid 0).
       rootgid: group id that we will pretend is root (replaced by gid 0).
       numeric: set to true to strip out name of owners (and just use the
           numeric values).
       name_filter: filter out file by names. If not none, this method will be
           called for each file to add, given the name and should return true if
           the file is to be added to the final tar and false otherwise.
       root: place all non-absolute content under given root directory, if not
           None.

     Raises:
       TarFileWriter.Error: if an error happens when uncompressing the tar file.
     """
     if root and root[0] not in ['/', '.']:
       # Root prefix should start with a '/', adds it if missing
       root = '/' + root
     compression = os.path.splitext(tar)[-1][1:]
     if compression == 'tgz':
       compression = 'gz'
     elif compression == 'bzip2':
       compression = 'bz2'
     elif compression == 'lzma':
       compression = 'xz'
     elif compression not in ['gz', 'bz2', 'xz']:
       compression = ''
     if compression == 'xz':
       # Python 2 does not support lzma, our py3 support is terrible so let's
       # just hack around.
       # Note that we buffer the file in memory and it can have an important
       # memory footprint but it's probably fine as we don't use them for really
       # large files.
       # TODO(dmarting): once our py3 support gets better, compile this tools
       # with py3 for proper lzma support.
       if subprocess.call('which xzcat', shell=True, stdout=subprocess.PIPE):
         raise self.Error('Cannot handle .xz and .lzma compression: '
                          'xzcat not found.')
       p = subprocess.Popen('cat %s | xzcat' % tar,
                            shell=True,
                            stdout=subprocess.PIPE)
       f = io.BytesIO(p.stdout.read())
       p.wait()
       intar = tarfile.open(fileobj=f, mode='r:')
     else:
       if compression in ['gz', 'bz2']:
         # prevent performance issues due to accidentally-introduced seeks
         # during intar traversal by opening in "streaming" mode. gz, bz2
         # are supported natively by python 2.7 and 3.x
         inmode = 'r|' + compression
       else:
         inmode = 'r:' + compression
       intar = tarfile.open(name=tar, mode=inmode)
     for tarinfo in intar:
       if name_filter is None or name_filter(tarinfo.name):
         tarinfo.mtime = self.default_mtime
         if rootuid is not None and tarinfo.uid == rootuid:
           tarinfo.uid = 0
           tarinfo.uname = 'root'
         if rootgid is not None and tarinfo.gid == rootgid:
           tarinfo.gid = 0
           tarinfo.gname = 'root'
         if numeric:
           tarinfo.uname = ''
           tarinfo.gname = ''

         name = tarinfo.name
         if (not name.startswith('/') and
             not name.startswith(self.root_directory)):
           name = os.path.join(self.root_directory, name)
         if root is not None:
           if name.startswith('.'):
             name = '.' + root + name.lstrip('.')
             # Add root dir with same permissions if missing. Note that
             # add_file deduplicates directories and is safe to call here.
             self.add_file('.' + root,
                           tarfile.DIRTYPE,
                           uid=tarinfo.uid,
                           gid=tarinfo.gid,
                           uname=tarinfo.uname,
                           gname=tarinfo.gname,
                           mtime=tarinfo.mtime,
                           mode=0o755)
           # Relocate internal hardlinks as well to avoid breaking them.
           link = tarinfo.linkname
           if link.startswith('.') and tarinfo.type == tarfile.LNKTYPE:
             tarinfo.linkname = '.' + root + link.lstrip('.')
         tarinfo.name = name

         if tarinfo.isfile():
           # use extractfile(tarinfo) instead of tarinfo.name to preserve
           # seek position in intar
           self._addfile(tarinfo, intar.extractfile(tarinfo))
         else:
           self._addfile(tarinfo)
     intar.close()

   def close(self):
     """Close the output tar file.

     This class should not be used anymore after calling that method.

     Raises:
       TarFileWriter.Error: if an error happens when compressing the output file.
     """
     self.tar.close()
     # Close the gzip file object if necessary.
     if self.fileobj:
       self.fileobj.close()
     if self.xz:
       # Support xz compression through xz... until we can use Py3
       if subprocess.call('which xz', shell=True, stdout=subprocess.PIPE):
         raise self.Error('Cannot handle .xz and .lzma compression: '
                          'xz not found.')
       subprocess.call(
           'mv {0} {0}.d && xz -z {0}.d && mv {0}.d.xz {0}'.format(self.name),
           shell=True,
           stdout=subprocess.PIPE)
	# Copyright 2015 The Bazel Authors. All rights reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	"""Archive manipulation library for the Docker rules."""

	# pylint: disable=g-import-not-at-top
	import gzip
	import io
	import os
	import subprocess
	import tarfile

	# Use a deterministic mtime that doesn't confuse other programs.
	# See: https://github.com/bazelbuild/bazel/issues/1299
	PORTABLE_MTIME = 946684800 # 2000-01-01 00:00:00.000 UTC


	class SimpleArFile(object):
	"""A simple AR file reader.

	This enable to read AR file (System V variant) as described
	in https://en.wikipedia.org/wiki/Ar_(Unix).

	The standard usage of this class is:

	with SimpleArFile(filename) as ar:
	nextFile = ar.next()
	while nextFile:
	print(nextFile.filename)
	nextFile = ar.next()

	Upon error, this class will raise a ArError exception.
	"""

	# TODO(dmarting): We should use a standard library instead but python 2.7
	# does not have AR reading library.

	class ArError(Exception):
	pass

	class SimpleArFileEntry(object):
	"""Represent one entry in a AR archive.

	Attributes:
	filename: the filename of the entry, as described in the archive.
	timestamp: the timestamp of the file entry.
	owner_id, group_id: numeric id of the user and group owning the file.
	mode: unix permission mode of the file
	size: size of the file
	data: the content of the file.
	"""

	def __init__(self, f):
	self.filename = f.read(16).decode('utf-8').strip()
	if self.filename.endswith('/'): # SysV variant
	self.filename = self.filename[:-1]
	self.timestamp = int(f.read(12).strip())
	self.owner_id = int(f.read(6).strip())
	self.group_id = int(f.read(6).strip())
	self.mode = int(f.read(8).strip(), 8)
	self.size = int(f.read(10).strip())
	pad = f.read(2)
	if pad != b'\x60\x0a':
	raise SimpleArFile.ArError('Invalid AR file header')
	self.data = f.read(self.size)

	MAGIC_STRING = b'!<arch>\n'

	def __init__(self, filename):
	self.filename = filename

	def __enter__(self):
	self.f = open(self.filename, 'rb')
	if self.f.read(len(self.MAGIC_STRING)) != self.MAGIC_STRING:
	raise self.ArError('Not a ar file: ' + self.filename)
	return self

	def __exit__(self, t, v, traceback):
	self.f.close()

	def next(self):
	"""Read the next file. Returns None when reaching the end of file."""
	# AR sections are two bit aligned using new lines.
	if self.f.tell() % 2 != 0:
	self.f.read(1)
	# An AR sections is at least 60 bytes. Some file might contains garbage
	# bytes at the end of the archive, ignore them.
	if self.f.tell() > os.fstat(self.f.fileno()).st_size - 60:
	return None
	return self.SimpleArFileEntry(self.f)


	class TarFileWriter(object):
	"""A wrapper to write tar files."""

	class Error(Exception):
	pass

	def __init__(self,
	name,
	compression='',
	root_directory='./',
	default_mtime=None):
	"""TarFileWriter wraps tarfile.open().

	Args:
	name: the tar file name.
	compression: compression type: bzip2, bz2, gz, tgz, xz, lzma.
	root_directory: virtual root to prepend to elements in the archive.
	default_mtime: default mtime to use for elements in the archive.
	May be an integer or the value 'portable' to use the date
	2000-01-01, which is compatible with non *nix OSes'.
	"""
	if compression in ['bzip2', 'bz2']:
	mode = 'w:bz2'
	else:
	mode = 'w:'
	self.gz = compression in ['tgz', 'gz']
	# Support xz compression through xz... until we can use Py3
	self.xz = compression in ['xz', 'lzma']
	self.name = name
	self.root_directory = root_directory.rstrip('/')
	if default_mtime is None:
	self.default_mtime = 0
	elif default_mtime == 'portable':
	self.default_mtime = PORTABLE_MTIME
	else:
	self.default_mtime = int(default_mtime)

	self.fileobj = None
	if self.gz:
	# The Tarfile class doesn't allow us to specify gzip's mtime attribute.
	# Instead, we manually re-implement gzopen from tarfile.py and set mtime.
	self.fileobj = gzip.GzipFile(
	filename=name, mode='w', compresslevel=9, mtime=self.default_mtime)
	self.tar = tarfile.open(name=name, mode=mode, fileobj=self.fileobj)
	self.members = set([])
	self.directories = set([])

	def __enter__(self):
	return self

	def __exit__(self, t, v, traceback):
	self.close()

	def add_dir(self,
	name,
	path,
	uid=0,
	gid=0,
	uname='',
	gname='',
	mtime=None,
	mode=None,
	depth=100):
	"""Recursively add a directory.

	Args:
	name: the destination path of the directory to add.
	path: the path of the directory to add.
	uid: owner user identifier.
	gid: owner group identifier.
	uname: owner user names.
	gname: owner group names.
	mtime: modification time to put in the archive.
	mode: unix permission mode of the file, default 0644 (0755).
	depth: maximum depth to recurse in to avoid infinite loops
	with cyclic mounts.

	Raises:
	TarFileWriter.Error: when the recursion depth has exceeded the
	`depth` argument.
	"""
	if not (name == self.root_directory or name.startswith('/') or
	name.startswith(self.root_directory + '/')):
	name = os.path.join(self.root_directory, name)
	if mtime is None:
	mtime = self.default_mtime
	if os.path.isdir(path):
	# Remove trailing '/' (index -1 => last character)
	if name[-1] == '/':
	name = name[:-1]
	# Add the x bit to directories to prevent non-traversable directories.
	# The x bit is set only to if the read bit is set.
	dirmode = (mode \| ((0o444 & mode) >> 2)) if mode else mode
	self.add_file(name + '/',
	tarfile.DIRTYPE,
	uid=uid,
	gid=gid,
	uname=uname,
	gname=gname,
	mtime=mtime,
	mode=dirmode)
	if depth <= 0:
	raise self.Error('Recursion depth exceeded, probably in '
	'an infinite directory loop.')
	# Iterate over the sorted list of file so we get a deterministic result.
	filelist = os.listdir(path)
	filelist.sort()
	for f in filelist:
	new_name = os.path.join(name, f)
	new_path = os.path.join(path, f)
	self.add_dir(new_name, new_path, uid, gid, uname, gname, mtime, mode,
	depth - 1)
	else:
	self.add_file(name,
	tarfile.REGTYPE,
	file_content=path,
	uid=uid,
	gid=gid,
	uname=uname,
	gname=gname,
	mtime=mtime,
	mode=mode)

	def _addfile(self, info, fileobj=None):
	"""Add a file in the tar file if there is no conflict."""
	if not info.name.endswith('/') and info.type == tarfile.DIRTYPE:
	# Enforce the ending / for directories so we correctly deduplicate.
	info.name += '/'
	if info.name not in self.members:
	self.tar.addfile(info, fileobj)
	self.members.add(info.name)
	elif info.type != tarfile.DIRTYPE:
	print('Duplicate file in archive: %s, '
	'picking first occurrence' % info.name)

	def add_file(self,
	name,
	kind=tarfile.REGTYPE,
	content=None,
	link=None,
	file_content=None,
	uid=0,
	gid=0,
	uname='',
	gname='',
	mtime=None,
	mode=None):
	"""Add a file to the current tar.

	Args:
	name: the name of the file to add.
	kind: the type of the file to add, see tarfile.*TYPE.
	content: a textual content to put in the file.
	link: if the file is a link, the destination of the link.
	file_content: file to read the content from. Provide either this
	one or `content` to specifies a content for the file.
	uid: owner user identifier.
	gid: owner group identifier.
	uname: owner user names.
	gname: owner group names.
	mtime: modification time to put in the archive.
	mode: unix permission mode of the file, default 0644 (0755).
	"""
	if file_content and os.path.isdir(file_content):
	# Recurse into directory
	self.add_dir(name, file_content, uid, gid, uname, gname, mtime, mode)
	return
	if not (name == self.root_directory or name.startswith('/') or
	name.startswith(self.root_directory + '/')):
	name = os.path.join(self.root_directory, name)
	if kind == tarfile.DIRTYPE:
	name = name.rstrip('/')
	if name in self.directories:
	return
	if mtime is None:
	mtime = self.default_mtime

	components = name.rsplit('/', 1)
	if len(components) > 1:
	d = components[0]
	self.add_file(d,
	tarfile.DIRTYPE,
	uid=uid,
	gid=gid,
	uname=uname,
	gname=gname,
	mtime=mtime,
	mode=0o755)
	tarinfo = tarfile.TarInfo(name)
	tarinfo.mtime = mtime
	tarinfo.uid = uid
	tarinfo.gid = gid
	tarinfo.uname = uname
	tarinfo.gname = gname
	tarinfo.type = kind
	if mode is None:
	tarinfo.mode = 0o644 if kind == tarfile.REGTYPE else 0o755
	else:
	tarinfo.mode = mode
	if link:
	tarinfo.linkname = link
	if content:
	content_bytes = content.encode('utf-8')
	tarinfo.size = len(content_bytes)
	self._addfile(tarinfo, io.BytesIO(content_bytes))
	elif file_content:
	with open(file_content, 'rb') as f:
	tarinfo.size = os.fstat(f.fileno()).st_size
	self._addfile(tarinfo, f)
	else:
	if kind == tarfile.DIRTYPE:
	self.directories.add(name)
	self._addfile(tarinfo)

	def add_tar(self,
	tar,
	rootuid=None,
	rootgid=None,
	numeric=False,
	name_filter=None,
	root=None):
	"""Merge a tar content into the current tar, stripping timestamp.

	Args:
	tar: the name of tar to extract and put content into the current tar.
	rootuid: user id that we will pretend is root (replaced by uid 0).
	rootgid: group id that we will pretend is root (replaced by gid 0).
	numeric: set to true to strip out name of owners (and just use the
	numeric values).
	name_filter: filter out file by names. If not none, this method will be
	called for each file to add, given the name and should return true if
	the file is to be added to the final tar and false otherwise.
	root: place all non-absolute content under given root directory, if not
	None.

	Raises:
	TarFileWriter.Error: if an error happens when uncompressing the tar file.
	"""
	if root and root[0] not in ['/', '.']:
	# Root prefix should start with a '/', adds it if missing
	root = '/' + root
	compression = os.path.splitext(tar)[-1][1:]
	if compression == 'tgz':
	compression = 'gz'
	elif compression == 'bzip2':
	compression = 'bz2'
	elif compression == 'lzma':
	compression = 'xz'
	elif compression not in ['gz', 'bz2', 'xz']:
	compression = ''
	if compression == 'xz':
	# Python 2 does not support lzma, our py3 support is terrible so let's
	# just hack around.
	# Note that we buffer the file in memory and it can have an important
	# memory footprint but it's probably fine as we don't use them for really
	# large files.
	# TODO(dmarting): once our py3 support gets better, compile this tools
	# with py3 for proper lzma support.
	if subprocess.call('which xzcat', shell=True, stdout=subprocess.PIPE):
	raise self.Error('Cannot handle .xz and .lzma compression: '
	'xzcat not found.')
	p = subprocess.Popen('cat %s \| xzcat' % tar,
	shell=True,
	stdout=subprocess.PIPE)
	f = io.BytesIO(p.stdout.read())
	p.wait()
	intar = tarfile.open(fileobj=f, mode='r:')
	else:
	if compression in ['gz', 'bz2']:
	# prevent performance issues due to accidentally-introduced seeks
	# during intar traversal by opening in "streaming" mode. gz, bz2
	# are supported natively by python 2.7 and 3.x
	inmode = 'r\|' + compression
	else:
	inmode = 'r:' + compression
	intar = tarfile.open(name=tar, mode=inmode)
	for tarinfo in intar:
	if name_filter is None or name_filter(tarinfo.name):
	tarinfo.mtime = self.default_mtime
	if rootuid is not None and tarinfo.uid == rootuid:
	tarinfo.uid = 0
	tarinfo.uname = 'root'
	if rootgid is not None and tarinfo.gid == rootgid:
	tarinfo.gid = 0
	tarinfo.gname = 'root'
	if numeric:
	tarinfo.uname = ''
	tarinfo.gname = ''

	name = tarinfo.name
	if (not name.startswith('/') and
	not name.startswith(self.root_directory)):
	name = os.path.join(self.root_directory, name)
	if root is not None:
	if name.startswith('.'):
	name = '.' + root + name.lstrip('.')
	# Add root dir with same permissions if missing. Note that
	# add_file deduplicates directories and is safe to call here.
	self.add_file('.' + root,
	tarfile.DIRTYPE,
	uid=tarinfo.uid,
	gid=tarinfo.gid,
	uname=tarinfo.uname,
	gname=tarinfo.gname,
	mtime=tarinfo.mtime,
	mode=0o755)
	# Relocate internal hardlinks as well to avoid breaking them.
	link = tarinfo.linkname
	if link.startswith('.') and tarinfo.type == tarfile.LNKTYPE:
	tarinfo.linkname = '.' + root + link.lstrip('.')
	tarinfo.name = name

	if tarinfo.isfile():
	# use extractfile(tarinfo) instead of tarinfo.name to preserve
	# seek position in intar
	self._addfile(tarinfo, intar.extractfile(tarinfo))
	else:
	self._addfile(tarinfo)
	intar.close()

	def close(self):
	"""Close the output tar file.

	This class should not be used anymore after calling that method.

	Raises:
	TarFileWriter.Error: if an error happens when compressing the output file.
	"""
	self.tar.close()
	# Close the gzip file object if necessary.
	if self.fileobj:
	self.fileobj.close()
	if self.xz:
	# Support xz compression through xz... until we can use Py3
	if subprocess.call('which xz', shell=True, stdout=subprocess.PIPE):
	raise self.Error('Cannot handle .xz and .lzma compression: '
	'xz not found.')
	subprocess.call(
	'mv {0} {0}.d && xz -z {0}.d && mv {0}.d.xz {0}'.format(self.name),
	shell=True,
	stdout=subprocess.PIPE)