pym/portage/xpak.py - mirrors/cros/chromiumos/third_party/portage_tool - Git at Google

 # Copyright 2001-2014 Gentoo Foundation
 # Distributed under the terms of the GNU General Public License v2


 # The format for a tbz2/xpak:
 #
 #  tbz2: tar.bz2 + xpak + (xpak_offset) + "STOP"
 #  xpak: "XPAKPACK" + (index_len) + (data_len) + index + data + "XPAKSTOP"
 # index: (pathname_len) + pathname + (data_offset) + (data_len)
 #        index entries are concatenated end-to-end.
 #  data: concatenated data chunks, end-to-end.
 #
 # [tarball]XPAKPACKIIIIDDDD[index][data]XPAKSTOPOOOOSTOP
 #
 # (integer) == encodeint(integer)  ===> 4 characters (big-endian copy)
 # '+' means concatenate the fields ===> All chunks are strings

 __all__ = [
 	'addtolist', 'decodeint', 'encodeint', 'getboth',
 	'getindex', 'getindex_mem', 'getitem', 'listindex',
 	'searchindex', 'tbz2', 'xpak_mem', 'xpak', 'xpand',
 	'xsplit', 'xsplit_mem',
 ]

 import array
 import errno
 import sys

 import portage
 from portage import os
 from portage import shutil
 from portage import normalize_path
 from portage import _encodings
 from portage import _unicode_decode
 from portage import _unicode_encode

 def addtolist(mylist, curdir):
 	"""(list, dir) --- Takes an array(list) and appends all files from dir down
 	the directory tree. Returns nothing. list is modified."""
 	curdir = normalize_path(_unicode_decode(curdir,
 		encoding=_encodings['fs'], errors='strict'))
 	for parent, dirs, files in os.walk(curdir):

 		parent = _unicode_decode(parent,
 			encoding=_encodings['fs'], errors='strict')
 		if parent != curdir:
 			mylist.append(parent[len(curdir) + 1:] + os.sep)

 		for x in dirs:
 			try:
 				_unicode_decode(x, encoding=_encodings['fs'], errors='strict')
 			except UnicodeDecodeError:
 				dirs.remove(x)

 		for x in files:
 			try:
 				x = _unicode_decode(x,
 					encoding=_encodings['fs'], errors='strict')
 			except UnicodeDecodeError:
 				continue
 			mylist.append(os.path.join(parent, x)[len(curdir) + 1:])

 def encodeint(myint):
 	"""Takes a 4 byte integer and converts it into a string of 4 characters.
 	Returns the characters in a string."""
 	a = array.array('B')
 	a.append((myint >> 24) & 0xff)
 	a.append((myint >> 16) & 0xff)
 	a.append((myint >>  8) & 0xff)
 	a.append(myint & 0xff)
 	try:
 		# Python >= 3.2
 		return a.tobytes()
 	except AttributeError:
 		return a.tostring()

 def decodeint(mystring):
 	"""Takes a 4 byte string and converts it into a 4 byte integer.
 	Returns an integer."""
 	if sys.hexversion < 0x3000000:
 		mystring = [ord(x) for x in mystring]
 	myint = 0
 	myint += mystring[3]
 	myint += mystring[2] << 8
 	myint += mystring[1] << 16
 	myint += mystring[0] << 24
 	return myint

 def xpak(rootdir, outfile=None):
 	"""(rootdir, outfile) -- creates an xpak segment of the directory 'rootdir'
 	and under the name 'outfile' if it is specified. Otherwise it returns the
 	xpak segment."""

 	mylist = []

 	addtolist(mylist, rootdir)
 	mylist.sort()
 	mydata = {}
 	for x in mylist:
 		if x == 'CONTENTS':
 			# CONTENTS is generated during the merge process.
 			continue
 		x = _unicode_encode(x, encoding=_encodings['fs'], errors='strict')
 		with open(os.path.join(rootdir, x), 'rb') as f:
 			mydata[x] = f.read()

 	xpak_segment = xpak_mem(mydata)
 	if outfile:
 		outf = open(_unicode_encode(outfile,
 			encoding=_encodings['fs'], errors='strict'), 'wb')
 		outf.write(xpak_segment)
 		outf.close()
 	else:
 		return xpak_segment

 def xpak_mem(mydata):
 	"""Create an xpack segment from a map object."""

 	mydata_encoded = {}
 	for k, v in mydata.items():
 		k = _unicode_encode(k,
 			encoding=_encodings['repo.content'], errors='backslashreplace')
 		v = _unicode_encode(v,
 			encoding=_encodings['repo.content'], errors='backslashreplace')
 		mydata_encoded[k] = v
 	mydata = mydata_encoded
 	del mydata_encoded

 	indexglob = b''
 	indexpos = 0
 	dataglob = b''
 	datapos = 0
 	for x, newglob in mydata.items():
 		mydatasize = len(newglob)
 		indexglob = indexglob + encodeint(len(x)) + x + encodeint(datapos) + encodeint(mydatasize)
 		indexpos = indexpos + 4 + len(x) + 4 + 4
 		dataglob = dataglob + newglob
 		datapos = datapos + mydatasize
 	return b'XPAKPACK' \
 		+ encodeint(len(indexglob)) \
 		+ encodeint(len(dataglob)) \
 		+ indexglob \
 		+ dataglob \
 		+ b'XPAKSTOP'

 def xsplit(infile):
 	"""(infile) -- Splits the infile into two files.
 	'infile.index' contains the index segment.
 	'infile.dat' contails the data segment."""
 	infile = _unicode_decode(infile,
 		encoding=_encodings['fs'], errors='strict')
 	myfile = open(_unicode_encode(infile,
 		encoding=_encodings['fs'], errors='strict'), 'rb')
 	mydat = myfile.read()
 	myfile.close()

 	splits = xsplit_mem(mydat)
 	if not splits:
 		return False

 	myfile = open(_unicode_encode(infile + '.index',
 		encoding=_encodings['fs'], errors='strict'), 'wb')
 	myfile.write(splits[0])
 	myfile.close()
 	myfile = open(_unicode_encode(infile + '.dat',
 		encoding=_encodings['fs'], errors='strict'), 'wb')
 	myfile.write(splits[1])
 	myfile.close()
 	return True

 def xsplit_mem(mydat):
 	if mydat[0:8] != b'XPAKPACK':
 		return None
 	if mydat[-8:] != b'XPAKSTOP':
 		return None
 	indexsize = decodeint(mydat[8:12])
 	return (mydat[16:indexsize + 16], mydat[indexsize + 16:-8])

 def getindex(infile):
 	"""(infile) -- grabs the index segment from the infile and returns it."""
 	myfile = open(_unicode_encode(infile,
 		encoding=_encodings['fs'], errors='strict'), 'rb')
 	myheader = myfile.read(16)
 	if myheader[0:8] != b'XPAKPACK':
 		myfile.close()
 		return
 	indexsize = decodeint(myheader[8:12])
 	myindex = myfile.read(indexsize)
 	myfile.close()
 	return myindex

 def getboth(infile):
 	"""(infile) -- grabs the index and data segments from the infile.
 	Returns an array [indexSegment, dataSegment]"""
 	myfile = open(_unicode_encode(infile,
 		encoding=_encodings['fs'], errors='strict'), 'rb')
 	myheader = myfile.read(16)
 	if myheader[0:8] != b'XPAKPACK':
 		myfile.close()
 		return
 	indexsize = decodeint(myheader[8:12])
 	datasize = decodeint(myheader[12:16])
 	myindex = myfile.read(indexsize)
 	mydata = myfile.read(datasize)
 	myfile.close()
 	return myindex, mydata

 def listindex(myindex):
 	"""Print to the terminal the filenames listed in the indexglob passed in."""
 	for x in getindex_mem(myindex):
 		print(x)

 def getindex_mem(myindex):
 	"""Returns the filenames listed in the indexglob passed in."""
 	myindexlen = len(myindex)
 	startpos = 0
 	myret = []
 	while ((startpos + 8) < myindexlen):
 		mytestlen = decodeint(myindex[startpos:startpos + 4])
 		myret = myret + [myindex[startpos + 4:startpos + 4 + mytestlen]]
 		startpos = startpos + mytestlen + 12
 	return myret

 def searchindex(myindex, myitem):
 	"""(index, item) -- Finds the offset and length of the file 'item' in the
 	datasegment via the index 'index' provided."""
 	myitem = _unicode_encode(myitem,
 		encoding=_encodings['repo.content'], errors='backslashreplace')
 	mylen = len(myitem)
 	myindexlen = len(myindex)
 	startpos = 0
 	while ((startpos + 8) < myindexlen):
 		mytestlen = decodeint(myindex[startpos:startpos + 4])
 		if mytestlen == mylen:
 			if myitem == myindex[startpos + 4:startpos + 4 + mytestlen]:
 				#found
 				datapos = decodeint(myindex[startpos + 4 + mytestlen:startpos + 8 + mytestlen])
 				datalen = decodeint(myindex[startpos + 8 + mytestlen:startpos + 12 + mytestlen])
 				return datapos, datalen
 		startpos = startpos + mytestlen + 12

 def getitem(myid, myitem):
 	myindex = myid[0]
 	mydata = myid[1]
 	myloc = searchindex(myindex, myitem)
 	if not myloc:
 		return None
 	return mydata[myloc[0]:myloc[0] + myloc[1]]

 def xpand(myid, mydest):
 	mydest = normalize_path(mydest) + os.sep
 	myindex = myid[0]
 	mydata = myid[1]
 	myindexlen = len(myindex)
 	startpos = 0
 	while ((startpos + 8) < myindexlen):
 		namelen = decodeint(myindex[startpos:startpos + 4])
 		datapos = decodeint(myindex[startpos + 4 + namelen:startpos + 8 + namelen])
 		datalen = decodeint(myindex[startpos + 8 + namelen:startpos + 12 + namelen])
 		myname = myindex[startpos + 4:startpos + 4 + namelen]
 		myname = _unicode_decode(myname,
 			encoding=_encodings['repo.content'], errors='replace')
 		filename = os.path.join(mydest, myname.lstrip(os.sep))
 		filename = normalize_path(filename)
 		if not filename.startswith(mydest):
 			# myname contains invalid ../ component(s)
 			continue
 		dirname = os.path.dirname(filename)
 		if dirname:
 			if not os.path.exists(dirname):
 				os.makedirs(dirname)
 		mydat = open(_unicode_encode(filename,
 			encoding=_encodings['fs'], errors='strict'), 'wb')
 		mydat.write(mydata[datapos:datapos + datalen])
 		mydat.close()
 		startpos = startpos + namelen + 12

 class tbz2(object):
 	def __init__(self, myfile):
 		self.file = myfile
 		self.filestat = None
 		self.index = b''
 		self.infosize = 0
 		self.xpaksize = 0
 		self.indexsize = None
 		self.datasize = None
 		self.indexpos = None
 		self.datapos = None

 	def decompose(self, datadir, cleanup=1):
 		"""Alias for unpackinfo() --- Complement to recompose() but optionally
 		deletes the destination directory. Extracts the xpak from the tbz2 into
 		the directory provided. Raises IOError if scan() fails.
 		Returns result of upackinfo()."""
 		if not self.scan():
 			raise IOError
 		if cleanup:
 			self.cleanup(datadir)
 		if not os.path.exists(datadir):
 			os.makedirs(datadir)
 		return self.unpackinfo(datadir)
 	def compose(self, datadir, cleanup=0):
 		"""Alias for recompose()."""
 		return self.recompose(datadir, cleanup)

 	def recompose(self, datadir, cleanup=0, break_hardlinks=True):
 		"""Creates an xpak segment from the datadir provided, truncates the tbz2
 		to the end of regular data if an xpak segment already exists, and adds
 		the new segment to the file with terminating info."""
 		xpdata = xpak(datadir)
 		self.recompose_mem(xpdata, break_hardlinks=break_hardlinks)
 		if cleanup:
 			self.cleanup(datadir)

 	def recompose_mem(self, xpdata, break_hardlinks=True):
 		"""
 		Update the xpak segment.
 		@param xpdata: A new xpak segment to be written, like that returned
 			from the xpak_mem() function.
 		@param break_hardlinks: If hardlinks exist, create a copy in order
 			to break them. This makes it safe to use hardlinks to create
 			cheap snapshots of the repository, which is useful for solving
 			race conditions on binhosts as described here:
 			http://code.google.com/p/chromium-os/issues/detail?id=3225.
 			Default is True.
 		"""
 		self.scan() # Don't care about condition... We'll rewrite the data anyway.

 		if break_hardlinks and self.filestat and self.filestat.st_nlink > 1:
 			tmp_fname = "%s.%d" % (self.file, os.getpid())
 			shutil.copyfile(self.file, tmp_fname)
 			try:
 				portage.util.apply_stat_permissions(self.file, self.filestat)
 			except portage.exception.OperationNotPermitted:
 				pass
 			os.rename(tmp_fname, self.file)

 		myfile = open(_unicode_encode(self.file,
 			encoding=_encodings['fs'], errors='strict'), 'ab+')
 		if not myfile:
 			raise IOError
 		myfile.seek(-self.xpaksize, 2) # 0,2 or -0,2 just mean EOF.
 		myfile.truncate()
 		myfile.write(xpdata + encodeint(len(xpdata)) + b'STOP')
 		myfile.flush()
 		myfile.close()
 		return 1

 	def cleanup(self, datadir):
 		datadir_split = os.path.split(datadir)
 		if len(datadir_split) >= 2 and len(datadir_split[1]) > 0:
 			# This is potentially dangerous,
 			# thus the above sanity check.
 			try:
 				shutil.rmtree(datadir)
 			except OSError as oe:
 				if oe.errno == errno.ENOENT:
 					pass
 				else:
 					raise oe

 	def scan(self):
 		"""Scans the tbz2 to locate the xpak segment and setup internal values.
 		This function is called by relevant functions already."""
 		a = None
 		try:
 			mystat = os.stat(self.file)
 			if self.filestat:
 				changed = 0
 				if mystat.st_size != self.filestat.st_size \
 					or mystat.st_mtime != self.filestat.st_mtime \
 					or mystat.st_ctime != self.filestat.st_ctime:
 					changed = True
 				if not changed:
 					return 1
 			self.filestat = mystat
 			a = open(_unicode_encode(self.file,
 				encoding=_encodings['fs'], errors='strict'), 'rb')
 			a.seek(-16, 2)
 			trailer = a.read()
 			self.infosize = 0
 			self.xpaksize = 0
 			if trailer[-4:] != b'STOP':
 				return 0
 			if trailer[0:8] != b'XPAKSTOP':
 				return 0
 			self.infosize = decodeint(trailer[8:12])
 			self.xpaksize = self.infosize + 8
 			a.seek(-(self.xpaksize), 2)
 			header = a.read(16)
 			if header[0:8] != b'XPAKPACK':
 				return 0
 			self.indexsize = decodeint(header[8:12])
 			self.datasize = decodeint(header[12:16])
 			self.indexpos = a.tell()
 			self.index = a.read(self.indexsize)
 			self.datapos = a.tell()
 			return 2
 		except SystemExit:
 			raise
 		except:
 			return 0
 		finally:
 			if a is not None:
 				a.close()

 	def filelist(self):
 		"""Return an array of each file listed in the index."""
 		if not self.scan():
 			return None
 		return getindex_mem(self.index)

 	def getfile(self, myfile, mydefault=None):
 		"""Finds 'myfile' in the data segment and returns it."""
 		if not self.scan():
 			return None
 		myresult = searchindex(self.index, myfile)
 		if not myresult:
 			return mydefault
 		a = open(_unicode_encode(self.file,
 			encoding=_encodings['fs'], errors='strict'), 'rb')
 		a.seek(self.datapos + myresult[0], 0)
 		myreturn = a.read(myresult[1])
 		a.close()
 		return myreturn

 	def getelements(self, myfile):
 		"""A split/array representation of tbz2.getfile()"""
 		mydat = self.getfile(myfile)
 		if not mydat:
 			return []
 		return mydat.split()

 	def unpackinfo(self, mydest):
 		"""Unpacks all the files from the dataSegment into 'mydest'."""
 		if not self.scan():
 			return 0
 		mydest = normalize_path(mydest) + os.sep
 		a = open(_unicode_encode(self.file,
 			encoding=_encodings['fs'], errors='strict'), 'rb')
 		if not os.path.exists(mydest):
 			os.makedirs(mydest)
 		startpos = 0
 		while ((startpos + 8) < self.indexsize):
 			namelen = decodeint(self.index[startpos:startpos + 4])
 			datapos = decodeint(self.index[startpos + 4 + namelen:startpos + 8 + namelen])
 			datalen = decodeint(self.index[startpos + 8 + namelen:startpos + 12 + namelen])
 			myname = self.index[startpos + 4:startpos + 4 + namelen]
 			myname = _unicode_decode(myname,
 				encoding=_encodings['repo.content'], errors='replace')
 			filename = os.path.join(mydest, myname.lstrip(os.sep))
 			filename = normalize_path(filename)
 			if not filename.startswith(mydest):
 				# myname contains invalid ../ component(s)
 				continue
 			dirname = os.path.dirname(filename)
 			if dirname:
 				if not os.path.exists(dirname):
 					os.makedirs(dirname)
 			mydat = open(_unicode_encode(filename,
 				encoding=_encodings['fs'], errors='strict'), 'wb')
 			a.seek(self.datapos + datapos)
 			mydat.write(a.read(datalen))
 			mydat.close()
 			startpos = startpos + namelen + 12
 		a.close()
 		return 1

 	def get_data(self):
 		"""Returns all the files from the dataSegment as a map object."""
 		if not self.scan():
 			return {}
 		a = open(_unicode_encode(self.file,
 			encoding=_encodings['fs'], errors='strict'), 'rb')
 		mydata = {}
 		startpos = 0
 		while ((startpos + 8) < self.indexsize):
 			namelen = decodeint(self.index[startpos:startpos + 4])
 			datapos = decodeint(self.index[startpos + 4 + namelen:startpos + 8 + namelen])
 			datalen = decodeint(self.index[startpos + 8 + namelen:startpos + 12 + namelen])
 			myname = self.index[startpos + 4:startpos + 4 + namelen]
 			a.seek(self.datapos + datapos)
 			mydata[myname] = a.read(datalen)
 			startpos = startpos + namelen + 12
 		a.close()
 		return mydata

 	def getboth(self):
 		"""Returns an array [indexSegment, dataSegment]"""
 		if not self.scan():
 			return None

 		a = open(_unicode_encode(self.file,
 			encoding=_encodings['fs'], errors='strict'), 'rb')
 		a.seek(self.datapos)
 		mydata = a.read(self.datasize)
 		a.close()

 		return self.index, mydata
	# Copyright 2001-2014 Gentoo Foundation
	# Distributed under the terms of the GNU General Public License v2


	# The format for a tbz2/xpak:
	#
	# tbz2: tar.bz2 + xpak + (xpak_offset) + "STOP"
	# xpak: "XPAKPACK" + (index_len) + (data_len) + index + data + "XPAKSTOP"
	# index: (pathname_len) + pathname + (data_offset) + (data_len)
	# index entries are concatenated end-to-end.
	# data: concatenated data chunks, end-to-end.
	#
	# [tarball]XPAKPACKIIIIDDDD[index][data]XPAKSTOPOOOOSTOP
	#
	# (integer) == encodeint(integer) ===> 4 characters (big-endian copy)
	# '+' means concatenate the fields ===> All chunks are strings

	__all__ = [
	'addtolist', 'decodeint', 'encodeint', 'getboth',
	'getindex', 'getindex_mem', 'getitem', 'listindex',
	'searchindex', 'tbz2', 'xpak_mem', 'xpak', 'xpand',
	'xsplit', 'xsplit_mem',
	]

	import array
	import errno
	import sys

	import portage
	from portage import os
	from portage import shutil
	from portage import normalize_path
	from portage import _encodings
	from portage import _unicode_decode
	from portage import _unicode_encode

	def addtolist(mylist, curdir):
	"""(list, dir) --- Takes an array(list) and appends all files from dir down
	the directory tree. Returns nothing. list is modified."""
	curdir = normalize_path(_unicode_decode(curdir,
	encoding=_encodings['fs'], errors='strict'))
	for parent, dirs, files in os.walk(curdir):

	parent = _unicode_decode(parent,
	encoding=_encodings['fs'], errors='strict')
	if parent != curdir:
	mylist.append(parent[len(curdir) + 1:] + os.sep)

	for x in dirs:
	try:
	_unicode_decode(x, encoding=_encodings['fs'], errors='strict')
	except UnicodeDecodeError:
	dirs.remove(x)

	for x in files:
	try:
	x = _unicode_decode(x,
	encoding=_encodings['fs'], errors='strict')
	except UnicodeDecodeError:
	continue
	mylist.append(os.path.join(parent, x)[len(curdir) + 1:])

	def encodeint(myint):
	"""Takes a 4 byte integer and converts it into a string of 4 characters.
	Returns the characters in a string."""
	a = array.array('B')
	a.append((myint >> 24) & 0xff)
	a.append((myint >> 16) & 0xff)
	a.append((myint >> 8) & 0xff)
	a.append(myint & 0xff)
	try:
	# Python >= 3.2
	return a.tobytes()
	except AttributeError:
	return a.tostring()

	def decodeint(mystring):
	"""Takes a 4 byte string and converts it into a 4 byte integer.
	Returns an integer."""
	if sys.hexversion < 0x3000000:
	mystring = [ord(x) for x in mystring]
	myint = 0
	myint += mystring[3]
	myint += mystring[2] << 8
	myint += mystring[1] << 16
	myint += mystring[0] << 24
	return myint

	def xpak(rootdir, outfile=None):
	"""(rootdir, outfile) -- creates an xpak segment of the directory 'rootdir'
	and under the name 'outfile' if it is specified. Otherwise it returns the
	xpak segment."""

	mylist = []

	addtolist(mylist, rootdir)
	mylist.sort()
	mydata = {}
	for x in mylist:
	if x == 'CONTENTS':
	# CONTENTS is generated during the merge process.
	continue
	x = _unicode_encode(x, encoding=_encodings['fs'], errors='strict')
	with open(os.path.join(rootdir, x), 'rb') as f:
	mydata[x] = f.read()

	xpak_segment = xpak_mem(mydata)
	if outfile:
	outf = open(_unicode_encode(outfile,
	encoding=_encodings['fs'], errors='strict'), 'wb')
	outf.write(xpak_segment)
	outf.close()
	else:
	return xpak_segment

	def xpak_mem(mydata):
	"""Create an xpack segment from a map object."""

	mydata_encoded = {}
	for k, v in mydata.items():
	k = _unicode_encode(k,
	encoding=_encodings['repo.content'], errors='backslashreplace')
	v = _unicode_encode(v,
	encoding=_encodings['repo.content'], errors='backslashreplace')
	mydata_encoded[k] = v
	mydata = mydata_encoded
	del mydata_encoded

	indexglob = b''
	indexpos = 0
	dataglob = b''
	datapos = 0
	for x, newglob in mydata.items():
	mydatasize = len(newglob)
	indexglob = indexglob + encodeint(len(x)) + x + encodeint(datapos) + encodeint(mydatasize)
	indexpos = indexpos + 4 + len(x) + 4 + 4
	dataglob = dataglob + newglob
	datapos = datapos + mydatasize
	return b'XPAKPACK' \
	+ encodeint(len(indexglob)) \
	+ encodeint(len(dataglob)) \
	+ indexglob \
	+ dataglob \
	+ b'XPAKSTOP'

	def xsplit(infile):
	"""(infile) -- Splits the infile into two files.
	'infile.index' contains the index segment.
	'infile.dat' contails the data segment."""
	infile = _unicode_decode(infile,
	encoding=_encodings['fs'], errors='strict')
	myfile = open(_unicode_encode(infile,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	mydat = myfile.read()
	myfile.close()

	splits = xsplit_mem(mydat)
	if not splits:
	return False

	myfile = open(_unicode_encode(infile + '.index',
	encoding=_encodings['fs'], errors='strict'), 'wb')
	myfile.write(splits[0])
	myfile.close()
	myfile = open(_unicode_encode(infile + '.dat',
	encoding=_encodings['fs'], errors='strict'), 'wb')
	myfile.write(splits[1])
	myfile.close()
	return True

	def xsplit_mem(mydat):
	if mydat[0:8] != b'XPAKPACK':
	return None
	if mydat[-8:] != b'XPAKSTOP':
	return None
	indexsize = decodeint(mydat[8:12])
	return (mydat[16:indexsize + 16], mydat[indexsize + 16:-8])

	def getindex(infile):
	"""(infile) -- grabs the index segment from the infile and returns it."""
	myfile = open(_unicode_encode(infile,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	myheader = myfile.read(16)
	if myheader[0:8] != b'XPAKPACK':
	myfile.close()
	return
	indexsize = decodeint(myheader[8:12])
	myindex = myfile.read(indexsize)
	myfile.close()
	return myindex

	def getboth(infile):
	"""(infile) -- grabs the index and data segments from the infile.
	Returns an array [indexSegment, dataSegment]"""
	myfile = open(_unicode_encode(infile,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	myheader = myfile.read(16)
	if myheader[0:8] != b'XPAKPACK':
	myfile.close()
	return
	indexsize = decodeint(myheader[8:12])
	datasize = decodeint(myheader[12:16])
	myindex = myfile.read(indexsize)
	mydata = myfile.read(datasize)
	myfile.close()
	return myindex, mydata

	def listindex(myindex):
	"""Print to the terminal the filenames listed in the indexglob passed in."""
	for x in getindex_mem(myindex):
	print(x)

	def getindex_mem(myindex):
	"""Returns the filenames listed in the indexglob passed in."""
	myindexlen = len(myindex)
	startpos = 0
	myret = []
	while ((startpos + 8) < myindexlen):
	mytestlen = decodeint(myindex[startpos:startpos + 4])
	myret = myret + [myindex[startpos + 4:startpos + 4 + mytestlen]]
	startpos = startpos + mytestlen + 12
	return myret

	def searchindex(myindex, myitem):
	"""(index, item) -- Finds the offset and length of the file 'item' in the
	datasegment via the index 'index' provided."""
	myitem = _unicode_encode(myitem,
	encoding=_encodings['repo.content'], errors='backslashreplace')
	mylen = len(myitem)
	myindexlen = len(myindex)
	startpos = 0
	while ((startpos + 8) < myindexlen):
	mytestlen = decodeint(myindex[startpos:startpos + 4])
	if mytestlen == mylen:
	if myitem == myindex[startpos + 4:startpos + 4 + mytestlen]:
	#found
	datapos = decodeint(myindex[startpos + 4 + mytestlen:startpos + 8 + mytestlen])
	datalen = decodeint(myindex[startpos + 8 + mytestlen:startpos + 12 + mytestlen])
	return datapos, datalen
	startpos = startpos + mytestlen + 12

	def getitem(myid, myitem):
	myindex = myid[0]
	mydata = myid[1]
	myloc = searchindex(myindex, myitem)
	if not myloc:
	return None
	return mydata[myloc[0]:myloc[0] + myloc[1]]

	def xpand(myid, mydest):
	mydest = normalize_path(mydest) + os.sep
	myindex = myid[0]
	mydata = myid[1]
	myindexlen = len(myindex)
	startpos = 0
	while ((startpos + 8) < myindexlen):
	namelen = decodeint(myindex[startpos:startpos + 4])
	datapos = decodeint(myindex[startpos + 4 + namelen:startpos + 8 + namelen])
	datalen = decodeint(myindex[startpos + 8 + namelen:startpos + 12 + namelen])
	myname = myindex[startpos + 4:startpos + 4 + namelen]
	myname = _unicode_decode(myname,
	encoding=_encodings['repo.content'], errors='replace')
	filename = os.path.join(mydest, myname.lstrip(os.sep))
	filename = normalize_path(filename)
	if not filename.startswith(mydest):
	# myname contains invalid ../ component(s)
	continue
	dirname = os.path.dirname(filename)
	if dirname:
	if not os.path.exists(dirname):
	os.makedirs(dirname)
	mydat = open(_unicode_encode(filename,
	encoding=_encodings['fs'], errors='strict'), 'wb')
	mydat.write(mydata[datapos:datapos + datalen])
	mydat.close()
	startpos = startpos + namelen + 12

	class tbz2(object):
	def __init__(self, myfile):
	self.file = myfile
	self.filestat = None
	self.index = b''
	self.infosize = 0
	self.xpaksize = 0
	self.indexsize = None
	self.datasize = None
	self.indexpos = None
	self.datapos = None

	def decompose(self, datadir, cleanup=1):
	"""Alias for unpackinfo() --- Complement to recompose() but optionally
	deletes the destination directory. Extracts the xpak from the tbz2 into
	the directory provided. Raises IOError if scan() fails.
	Returns result of upackinfo()."""
	if not self.scan():
	raise IOError
	if cleanup:
	self.cleanup(datadir)
	if not os.path.exists(datadir):
	os.makedirs(datadir)
	return self.unpackinfo(datadir)
	def compose(self, datadir, cleanup=0):
	"""Alias for recompose()."""
	return self.recompose(datadir, cleanup)

	def recompose(self, datadir, cleanup=0, break_hardlinks=True):
	"""Creates an xpak segment from the datadir provided, truncates the tbz2
	to the end of regular data if an xpak segment already exists, and adds
	the new segment to the file with terminating info."""
	xpdata = xpak(datadir)
	self.recompose_mem(xpdata, break_hardlinks=break_hardlinks)
	if cleanup:
	self.cleanup(datadir)

	def recompose_mem(self, xpdata, break_hardlinks=True):
	"""
	Update the xpak segment.
	@param xpdata: A new xpak segment to be written, like that returned
	from the xpak_mem() function.
	@param break_hardlinks: If hardlinks exist, create a copy in order
	to break them. This makes it safe to use hardlinks to create
	cheap snapshots of the repository, which is useful for solving
	race conditions on binhosts as described here:
	http://code.google.com/p/chromium-os/issues/detail?id=3225.
	Default is True.
	"""
	self.scan() # Don't care about condition... We'll rewrite the data anyway.

	if break_hardlinks and self.filestat and self.filestat.st_nlink > 1:
	tmp_fname = "%s.%d" % (self.file, os.getpid())
	shutil.copyfile(self.file, tmp_fname)
	try:
	portage.util.apply_stat_permissions(self.file, self.filestat)
	except portage.exception.OperationNotPermitted:
	pass
	os.rename(tmp_fname, self.file)

	myfile = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'ab+')
	if not myfile:
	raise IOError
	myfile.seek(-self.xpaksize, 2) # 0,2 or -0,2 just mean EOF.
	myfile.truncate()
	myfile.write(xpdata + encodeint(len(xpdata)) + b'STOP')
	myfile.flush()
	myfile.close()
	return 1

	def cleanup(self, datadir):
	datadir_split = os.path.split(datadir)
	if len(datadir_split) >= 2 and len(datadir_split[1]) > 0:
	# This is potentially dangerous,
	# thus the above sanity check.
	try:
	shutil.rmtree(datadir)
	except OSError as oe:
	if oe.errno == errno.ENOENT:
	pass
	else:
	raise oe

	def scan(self):
	"""Scans the tbz2 to locate the xpak segment and setup internal values.
	This function is called by relevant functions already."""
	a = None
	try:
	mystat = os.stat(self.file)
	if self.filestat:
	changed = 0
	if mystat.st_size != self.filestat.st_size \
	or mystat.st_mtime != self.filestat.st_mtime \
	or mystat.st_ctime != self.filestat.st_ctime:
	changed = True
	if not changed:
	return 1
	self.filestat = mystat
	a = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	a.seek(-16, 2)
	trailer = a.read()
	self.infosize = 0
	self.xpaksize = 0
	if trailer[-4:] != b'STOP':
	return 0
	if trailer[0:8] != b'XPAKSTOP':
	return 0
	self.infosize = decodeint(trailer[8:12])
	self.xpaksize = self.infosize + 8
	a.seek(-(self.xpaksize), 2)
	header = a.read(16)
	if header[0:8] != b'XPAKPACK':
	return 0
	self.indexsize = decodeint(header[8:12])
	self.datasize = decodeint(header[12:16])
	self.indexpos = a.tell()
	self.index = a.read(self.indexsize)
	self.datapos = a.tell()
	return 2
	except SystemExit:
	raise
	except:
	return 0
	finally:
	if a is not None:
	a.close()

	def filelist(self):
	"""Return an array of each file listed in the index."""
	if not self.scan():
	return None
	return getindex_mem(self.index)

	def getfile(self, myfile, mydefault=None):
	"""Finds 'myfile' in the data segment and returns it."""
	if not self.scan():
	return None
	myresult = searchindex(self.index, myfile)
	if not myresult:
	return mydefault
	a = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	a.seek(self.datapos + myresult[0], 0)
	myreturn = a.read(myresult[1])
	a.close()
	return myreturn

	def getelements(self, myfile):
	"""A split/array representation of tbz2.getfile()"""
	mydat = self.getfile(myfile)
	if not mydat:
	return []
	return mydat.split()

	def unpackinfo(self, mydest):
	"""Unpacks all the files from the dataSegment into 'mydest'."""
	if not self.scan():
	return 0
	mydest = normalize_path(mydest) + os.sep
	a = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	if not os.path.exists(mydest):
	os.makedirs(mydest)
	startpos = 0
	while ((startpos + 8) < self.indexsize):
	namelen = decodeint(self.index[startpos:startpos + 4])
	datapos = decodeint(self.index[startpos + 4 + namelen:startpos + 8 + namelen])
	datalen = decodeint(self.index[startpos + 8 + namelen:startpos + 12 + namelen])
	myname = self.index[startpos + 4:startpos + 4 + namelen]
	myname = _unicode_decode(myname,
	encoding=_encodings['repo.content'], errors='replace')
	filename = os.path.join(mydest, myname.lstrip(os.sep))
	filename = normalize_path(filename)
	if not filename.startswith(mydest):
	# myname contains invalid ../ component(s)
	continue
	dirname = os.path.dirname(filename)
	if dirname:
	if not os.path.exists(dirname):
	os.makedirs(dirname)
	mydat = open(_unicode_encode(filename,
	encoding=_encodings['fs'], errors='strict'), 'wb')
	a.seek(self.datapos + datapos)
	mydat.write(a.read(datalen))
	mydat.close()
	startpos = startpos + namelen + 12
	a.close()
	return 1

	def get_data(self):
	"""Returns all the files from the dataSegment as a map object."""
	if not self.scan():
	return {}
	a = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	mydata = {}
	startpos = 0
	while ((startpos + 8) < self.indexsize):
	namelen = decodeint(self.index[startpos:startpos + 4])
	datapos = decodeint(self.index[startpos + 4 + namelen:startpos + 8 + namelen])
	datalen = decodeint(self.index[startpos + 8 + namelen:startpos + 12 + namelen])
	myname = self.index[startpos + 4:startpos + 4 + namelen]
	a.seek(self.datapos + datapos)
	mydata[myname] = a.read(datalen)
	startpos = startpos + namelen + 12
	a.close()
	return mydata

	def getboth(self):
	"""Returns an array [indexSegment, dataSegment]"""
	if not self.scan():
	return None

	a = open(_unicode_encode(self.file,
	encoding=_encodings['fs'], errors='strict'), 'rb')
	a.seek(self.datapos)
	mydata = a.read(self.datasize)
	a.close()

	return self.index, mydata