platform_utils.py - git-repo - Git at Google

 #
 # Copyright (C) 2016 The Android Open Source Project
 #
 # 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.

 import errno
 import os
 import platform
 import select
 import shutil
 import stat

 from Queue import Queue
 from threading import Thread


 def isWindows():
   """ Returns True when running with the native port of Python for Windows,
   False when running on any other platform (including the Cygwin port of
   Python).
   """
   # Note: The cygwin port of Python returns "CYGWIN_NT_xxx"
   return platform.system() == "Windows"


 class FileDescriptorStreams(object):
   """ Platform agnostic abstraction enabling non-blocking I/O over a
   collection of file descriptors. This abstraction is required because
   fctnl(os.O_NONBLOCK) is not supported on Windows.
   """
   @classmethod
   def create(cls):
     """ Factory method: instantiates the concrete class according to the
     current platform.
     """
     if isWindows():
       return _FileDescriptorStreamsThreads()
     else:
       return _FileDescriptorStreamsNonBlocking()

   def __init__(self):
     self.streams = []

   def add(self, fd, dest, std_name):
     """ Wraps an existing file descriptor as a stream.
     """
     self.streams.append(self._create_stream(fd, dest, std_name))

   def remove(self, stream):
     """ Removes a stream, when done with it.
     """
     self.streams.remove(stream)

   @property
   def is_done(self):
     """ Returns True when all streams have been processed.
     """
     return len(self.streams) == 0

   def select(self):
     """ Returns the set of streams that have data available to read.
     The returned streams each expose a read() and a close() method.
     When done with a stream, call the remove(stream) method.
     """
     raise NotImplementedError

   def _create_stream(fd, dest, std_name):
     """ Creates a new stream wrapping an existing file descriptor.
     """
     raise NotImplementedError


 class _FileDescriptorStreamsNonBlocking(FileDescriptorStreams):
   """ Implementation of FileDescriptorStreams for platforms that support
   non blocking I/O.
   """
   class Stream(object):
     """ Encapsulates a file descriptor """
     def __init__(self, fd, dest, std_name):
       self.fd = fd
       self.dest = dest
       self.std_name = std_name
       self.set_non_blocking()

     def set_non_blocking(self):
       import fcntl
       flags = fcntl.fcntl(self.fd, fcntl.F_GETFL)
       fcntl.fcntl(self.fd, fcntl.F_SETFL, flags | os.O_NONBLOCK)

     def fileno(self):
       return self.fd.fileno()

     def read(self):
       return self.fd.read(4096)

     def close(self):
       self.fd.close()

   def _create_stream(self, fd, dest, std_name):
     return self.Stream(fd, dest, std_name)

   def select(self):
     ready_streams, _, _ = select.select(self.streams, [], [])
     return ready_streams


 class _FileDescriptorStreamsThreads(FileDescriptorStreams):
   """ Implementation of FileDescriptorStreams for platforms that don't support
   non blocking I/O. This implementation requires creating threads issuing
   blocking read operations on file descriptors.
   """
   def __init__(self):
     super(_FileDescriptorStreamsThreads, self).__init__()
     # The queue is shared accross all threads so we can simulate the
     # behavior of the select() function
     self.queue = Queue(10)  # Limit incoming data from streams

   def _create_stream(self, fd, dest, std_name):
     return self.Stream(fd, dest, std_name, self.queue)

   def select(self):
     # Return only one stream at a time, as it is the most straighforward
     # thing to do and it is compatible with the select() function.
     item = self.queue.get()
     stream = item.stream
     stream.data = item.data
     return [stream]

   class QueueItem(object):
     """ Item put in the shared queue """
     def __init__(self, stream, data):
       self.stream = stream
       self.data = data

   class Stream(object):
     """ Encapsulates a file descriptor """
     def __init__(self, fd, dest, std_name, queue):
       self.fd = fd
       self.dest = dest
       self.std_name = std_name
       self.queue = queue
       self.data = None
       self.thread = Thread(target=self.read_to_queue)
       self.thread.daemon = True
       self.thread.start()

     def close(self):
       self.fd.close()

     def read(self):
       data = self.data
       self.data = None
       return data

     def read_to_queue(self):
       """ The thread function: reads everything from the file descriptor into
       the shared queue and terminates when reaching EOF.
       """
       for line in iter(self.fd.readline, b''):
         self.queue.put(_FileDescriptorStreamsThreads.QueueItem(self, line))
       self.fd.close()
       self.queue.put(_FileDescriptorStreamsThreads.QueueItem(self, None))


 def symlink(source, link_name):
   """Creates a symbolic link pointing to source named link_name.
   Note: On Windows, source must exist on disk, as the implementation needs
   to know whether to create a "File" or a "Directory" symbolic link.
   """
   if isWindows():
     import platform_utils_win32
     source = _validate_winpath(source)
     link_name = _validate_winpath(link_name)
     target = os.path.join(os.path.dirname(link_name), source)
     if os.path.isdir(target):
       platform_utils_win32.create_dirsymlink(source, link_name)
     else:
       platform_utils_win32.create_filesymlink(source, link_name)
   else:
     return os.symlink(source, link_name)


 def _validate_winpath(path):
   path = os.path.normpath(path)
   if _winpath_is_valid(path):
     return path
   raise ValueError("Path \"%s\" must be a relative path or an absolute "
                    "path starting with a drive letter".format(path))


 def _winpath_is_valid(path):
   """Windows only: returns True if path is relative (e.g. ".\\foo") or is
   absolute including a drive letter (e.g. "c:\\foo"). Returns False if path
   is ambiguous (e.g. "x:foo" or "\\foo").
   """
   assert isWindows()
   path = os.path.normpath(path)
   drive, tail = os.path.splitdrive(path)
   if tail:
     if not drive:
       return tail[0] != os.sep  # "\\foo" is invalid
     else:
       return tail[0] == os.sep  # "x:foo" is invalid
   else:
     return not drive  # "x:" is invalid


 def rmtree(path):
   if isWindows():
     shutil.rmtree(path, onerror=handle_rmtree_error)
   else:
     shutil.rmtree(path)


 def handle_rmtree_error(function, path, excinfo):
   # Allow deleting read-only files
   os.chmod(path, stat.S_IWRITE)
   function(path)


 def rename(src, dst):
   if isWindows():
     # On Windows, rename fails if destination exists, see
     # https://docs.python.org/2/library/os.html#os.rename
     try:
       os.rename(src, dst)
     except OSError as e:
       if e.errno == errno.EEXIST:
         os.remove(dst)
         os.rename(src, dst)
       else:
         raise
   else:
     os.rename(src, dst)


 def remove(path):
   """Remove (delete) the file path. This is a replacement for os.remove, but
   allows deleting read-only files on Windows.
   """
   if isWindows():
     try:
       os.remove(path)
     except OSError as e:
       if e.errno == errno.EACCES:
         os.chmod(path, stat.S_IWRITE)
         os.remove(path)
       else:
         raise
   else:
     os.remove(path)


 def islink(path):
   """Test whether a path is a symbolic link.

   Availability: Windows, Unix.
   """
   if isWindows():
     import platform_utils_win32
     return platform_utils_win32.islink(path)
   else:
     return os.path.islink(path)


 def readlink(path):
   """Return a string representing the path to which the symbolic link
   points. The result may be either an absolute or relative pathname;
   if it is relative, it may be converted to an absolute pathname using
   os.path.join(os.path.dirname(path), result).

   Availability: Windows, Unix.
   """
   if isWindows():
     import platform_utils_win32
     return platform_utils_win32.readlink(path)
   else:
     return os.readlink(path)


 def realpath(path):
   """Return the canonical path of the specified filename, eliminating
   any symbolic links encountered in the path.

   Availability: Windows, Unix.
   """
   if isWindows():
     current_path = os.path.abspath(path)
     path_tail = []
     for c in range(0, 100):  # Avoid cycles
       if islink(current_path):
         target = readlink(current_path)
         current_path = os.path.join(os.path.dirname(current_path), target)
       else:
         basename = os.path.basename(current_path)
         if basename == '':
           path_tail.append(current_path)
           break
         path_tail.append(basename)
         current_path = os.path.dirname(current_path)
     path_tail.reverse()
     result = os.path.normpath(os.path.join(*path_tail))
     return result
   else:
     return os.path.realpath(path)
	#
	# Copyright (C) 2016 The Android Open Source Project
	#
	# 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.

	import errno
	import os
	import platform
	import select
	import shutil
	import stat

	from Queue import Queue
	from threading import Thread


	def isWindows():
	""" Returns True when running with the native port of Python for Windows,
	False when running on any other platform (including the Cygwin port of
	Python).
	"""
	# Note: The cygwin port of Python returns "CYGWIN_NT_xxx"
	return platform.system() == "Windows"


	class FileDescriptorStreams(object):
	""" Platform agnostic abstraction enabling non-blocking I/O over a
	collection of file descriptors. This abstraction is required because
	fctnl(os.O_NONBLOCK) is not supported on Windows.
	"""
	@classmethod
	def create(cls):
	""" Factory method: instantiates the concrete class according to the
	current platform.
	"""
	if isWindows():
	return _FileDescriptorStreamsThreads()
	else:
	return _FileDescriptorStreamsNonBlocking()

	def __init__(self):
	self.streams = []

	def add(self, fd, dest, std_name):
	""" Wraps an existing file descriptor as a stream.
	"""
	self.streams.append(self._create_stream(fd, dest, std_name))

	def remove(self, stream):
	""" Removes a stream, when done with it.
	"""
	self.streams.remove(stream)

	@property
	def is_done(self):
	""" Returns True when all streams have been processed.
	"""
	return len(self.streams) == 0

	def select(self):
	""" Returns the set of streams that have data available to read.
	The returned streams each expose a read() and a close() method.
	When done with a stream, call the remove(stream) method.
	"""
	raise NotImplementedError

	def _create_stream(fd, dest, std_name):
	""" Creates a new stream wrapping an existing file descriptor.
	"""
	raise NotImplementedError


	class _FileDescriptorStreamsNonBlocking(FileDescriptorStreams):
	""" Implementation of FileDescriptorStreams for platforms that support
	non blocking I/O.
	"""
	class Stream(object):
	""" Encapsulates a file descriptor """
	def __init__(self, fd, dest, std_name):
	self.fd = fd
	self.dest = dest
	self.std_name = std_name
	self.set_non_blocking()

	def set_non_blocking(self):
	import fcntl
	flags = fcntl.fcntl(self.fd, fcntl.F_GETFL)
	fcntl.fcntl(self.fd, fcntl.F_SETFL, flags \| os.O_NONBLOCK)

	def fileno(self):
	return self.fd.fileno()

	def read(self):
	return self.fd.read(4096)

	def close(self):
	self.fd.close()

	def _create_stream(self, fd, dest, std_name):
	return self.Stream(fd, dest, std_name)

	def select(self):
	ready_streams, _, _ = select.select(self.streams, [], [])
	return ready_streams


	class _FileDescriptorStreamsThreads(FileDescriptorStreams):
	""" Implementation of FileDescriptorStreams for platforms that don't support
	non blocking I/O. This implementation requires creating threads issuing
	blocking read operations on file descriptors.
	"""
	def __init__(self):
	super(_FileDescriptorStreamsThreads, self).__init__()
	# The queue is shared accross all threads so we can simulate the
	# behavior of the select() function
	self.queue = Queue(10) # Limit incoming data from streams

	def _create_stream(self, fd, dest, std_name):
	return self.Stream(fd, dest, std_name, self.queue)

	def select(self):
	# Return only one stream at a time, as it is the most straighforward
	# thing to do and it is compatible with the select() function.
	item = self.queue.get()
	stream = item.stream
	stream.data = item.data
	return [stream]

	class QueueItem(object):
	""" Item put in the shared queue """
	def __init__(self, stream, data):
	self.stream = stream
	self.data = data

	class Stream(object):
	""" Encapsulates a file descriptor """
	def __init__(self, fd, dest, std_name, queue):
	self.fd = fd
	self.dest = dest
	self.std_name = std_name
	self.queue = queue
	self.data = None
	self.thread = Thread(target=self.read_to_queue)
	self.thread.daemon = True
	self.thread.start()

	def close(self):
	self.fd.close()

	def read(self):
	data = self.data
	self.data = None
	return data

	def read_to_queue(self):
	""" The thread function: reads everything from the file descriptor into
	the shared queue and terminates when reaching EOF.
	"""
	for line in iter(self.fd.readline, b''):
	self.queue.put(_FileDescriptorStreamsThreads.QueueItem(self, line))
	self.fd.close()
	self.queue.put(_FileDescriptorStreamsThreads.QueueItem(self, None))


	def symlink(source, link_name):
	"""Creates a symbolic link pointing to source named link_name.
	Note: On Windows, source must exist on disk, as the implementation needs
	to know whether to create a "File" or a "Directory" symbolic link.
	"""
	if isWindows():
	import platform_utils_win32
	source = _validate_winpath(source)
	link_name = _validate_winpath(link_name)
	target = os.path.join(os.path.dirname(link_name), source)
	if os.path.isdir(target):
	platform_utils_win32.create_dirsymlink(source, link_name)
	else:
	platform_utils_win32.create_filesymlink(source, link_name)
	else:
	return os.symlink(source, link_name)


	def _validate_winpath(path):
	path = os.path.normpath(path)
	if _winpath_is_valid(path):
	return path
	raise ValueError("Path \"%s\" must be a relative path or an absolute "
	"path starting with a drive letter".format(path))


	def _winpath_is_valid(path):
	"""Windows only: returns True if path is relative (e.g. ".\\foo") or is
	absolute including a drive letter (e.g. "c:\\foo"). Returns False if path
	is ambiguous (e.g. "x:foo" or "\\foo").
	"""
	assert isWindows()
	path = os.path.normpath(path)
	drive, tail = os.path.splitdrive(path)
	if tail:
	if not drive:
	return tail[0] != os.sep # "\\foo" is invalid
	else:
	return tail[0] == os.sep # "x:foo" is invalid
	else:
	return not drive # "x:" is invalid


	def rmtree(path):
	if isWindows():
	shutil.rmtree(path, onerror=handle_rmtree_error)
	else:
	shutil.rmtree(path)


	def handle_rmtree_error(function, path, excinfo):
	# Allow deleting read-only files
	os.chmod(path, stat.S_IWRITE)
	function(path)


	def rename(src, dst):
	if isWindows():
	# On Windows, rename fails if destination exists, see
	# https://docs.python.org/2/library/os.html#os.rename
	try:
	os.rename(src, dst)
	except OSError as e:
	if e.errno == errno.EEXIST:
	os.remove(dst)
	os.rename(src, dst)
	else:
	raise
	else:
	os.rename(src, dst)


	def remove(path):
	"""Remove (delete) the file path. This is a replacement for os.remove, but
	allows deleting read-only files on Windows.
	"""
	if isWindows():
	try:
	os.remove(path)
	except OSError as e:
	if e.errno == errno.EACCES:
	os.chmod(path, stat.S_IWRITE)
	os.remove(path)
	else:
	raise
	else:
	os.remove(path)


	def islink(path):
	"""Test whether a path is a symbolic link.

	Availability: Windows, Unix.
	"""
	if isWindows():
	import platform_utils_win32
	return platform_utils_win32.islink(path)
	else:
	return os.path.islink(path)


	def readlink(path):
	"""Return a string representing the path to which the symbolic link
	points. The result may be either an absolute or relative pathname;
	if it is relative, it may be converted to an absolute pathname using
	os.path.join(os.path.dirname(path), result).

	Availability: Windows, Unix.
	"""
	if isWindows():
	import platform_utils_win32
	return platform_utils_win32.readlink(path)
	else:
	return os.readlink(path)


	def realpath(path):
	"""Return the canonical path of the specified filename, eliminating
	any symbolic links encountered in the path.

	Availability: Windows, Unix.
	"""
	if isWindows():
	current_path = os.path.abspath(path)
	path_tail = []
	for c in range(0, 100): # Avoid cycles
	if islink(current_path):
	target = readlink(current_path)
	current_path = os.path.join(os.path.dirname(current_path), target)
	else:
	basename = os.path.basename(current_path)
	if basename == '':
	path_tail.append(current_path)
	break
	path_tail.append(basename)
	current_path = os.path.dirname(current_path)
	path_tail.reverse()
	result = os.path.normpath(os.path.join(*path_tail))
	return result
	else:
	return os.path.realpath(path)