# -*- coding: utf-8 -*- # # Copyright 2013 Google LLC. 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. """Utilities for determining the current platform and architecture.""" from __future__ import absolute_import from __future__ import division from __future__ import unicode_literals import os import platform import subprocess import sys class Error(Exception): """Base class for exceptions in the platforms module.""" pass class InvalidEnumValue(Error): # pylint: disable=g-bad-exception-name """Exception for when a string could not be parsed to a valid enum value.""" def __init__(self, given, enum_type, options): """Constructs a new exception. Args: given: str, The given string that could not be parsed. enum_type: str, The human readable name of the enum you were trying to parse. options: list(str), The valid values for this enum. """ super(InvalidEnumValue, self).__init__( 'Could not parse [{0}] into a valid {1}. Valid values are [{2}]' .format(given, enum_type, ', '.join(options))) class OperatingSystem(object): """An enum representing the operating system you are running on.""" class _OS(object): """A single operating system.""" # pylint: disable=redefined-builtin def __init__(self, id, name, file_name): self.id = id self.name = name self.file_name = file_name def __str__(self): return self.id def __eq__(self, other): return (isinstance(other, type(self)) and self.id == other.id and self.name == other.name and self.file_name == other.file_name) def __hash__(self): return hash(self.id) + hash(self.name) + hash(self.file_name) def __ne__(self, other): return not self == other @classmethod def _CmpHelper(cls, x, y): """Just a helper equivalent to the cmp() function in Python 2.""" return (x > y) - (x < y) def __lt__(self, other): return self._CmpHelper( (self.id, self.name, self.file_name), (other.id, other.name, other.file_name)) < 0 def __gt__(self, other): return self._CmpHelper( (self.id, self.name, self.file_name), (other.id, other.name, other.file_name)) > 0 def __le__(self, other): return not self.__gt__(other) def __ge__(self, other): return not self.__lt__(other) WINDOWS = _OS('WINDOWS', 'Windows', 'windows') MACOSX = _OS('MACOSX', 'Mac OS X', 'darwin') LINUX = _OS('LINUX', 'Linux', 'linux') CYGWIN = _OS('CYGWIN', 'Cygwin', 'cygwin') MSYS = _OS('MSYS', 'Msys', 'msys') _ALL = [WINDOWS, MACOSX, LINUX, CYGWIN, MSYS] @staticmethod def AllValues(): """Gets all possible enum values. Returns: list, All the enum values. """ return list(OperatingSystem._ALL) @staticmethod def FromId(os_id, error_on_unknown=True): """Gets the enum corresponding to the given operating system id. Args: os_id: str, The operating system id to parse error_on_unknown: bool, True to raise an exception if the id is unknown, False to just return None. Raises: InvalidEnumValue: If the given value cannot be parsed. Returns: OperatingSystemTuple, One of the OperatingSystem constants or None if the input is None. """ if not os_id: return None for operating_system in OperatingSystem._ALL: if operating_system.id == os_id: return operating_system if error_on_unknown: raise InvalidEnumValue(os_id, 'Operating System', [value.id for value in OperatingSystem._ALL]) return None @staticmethod def Current(): """Determines the current operating system. Returns: OperatingSystemTuple, One of the OperatingSystem constants or None if it cannot be determined. """ if os.name == 'nt': return OperatingSystem.WINDOWS elif 'linux' in sys.platform: return OperatingSystem.LINUX elif 'darwin' in sys.platform: return OperatingSystem.MACOSX elif 'cygwin' in sys.platform: return OperatingSystem.CYGWIN elif 'msys' in sys.platform: return OperatingSystem.MSYS return None @staticmethod def IsWindows(): """Returns True if the current operating system is Windows.""" return OperatingSystem.Current() is OperatingSystem.WINDOWS class Architecture(object): """An enum representing the system architecture you are running on.""" class _ARCH(object): """A single architecture.""" # pylint: disable=redefined-builtin def __init__(self, id, name, file_name): self.id = id self.name = name self.file_name = file_name def __str__(self): return self.id def __eq__(self, other): return (isinstance(other, type(self)) and self.id == other.id and self.name == other.name and self.file_name == other.file_name) def __hash__(self): return hash(self.id) + hash(self.name) + hash(self.file_name) def __ne__(self, other): return not self == other @classmethod def _CmpHelper(cls, x, y): """Just a helper equivalent to the cmp() function in Python 2.""" return (x > y) - (x < y) def __lt__(self, other): return self._CmpHelper( (self.id, self.name, self.file_name), (other.id, other.name, other.file_name)) < 0 def __gt__(self, other): return self._CmpHelper( (self.id, self.name, self.file_name), (other.id, other.name, other.file_name)) > 0 def __le__(self, other): return not self.__gt__(other) def __ge__(self, other): return not self.__lt__(other) x86 = _ARCH('x86', 'x86', 'x86') x86_64 = _ARCH('x86_64', 'x86_64', 'x86_64') ppc = _ARCH('PPC', 'PPC', 'ppc') arm = _ARCH('arm', 'arm', 'arm') _ALL = [x86, x86_64, ppc, arm] # Possible values for `uname -m` and what arch they map to. # Examples of possible values: https://en.wikipedia.org/wiki/Uname _MACHINE_TO_ARCHITECTURE = { 'amd64': x86_64, 'x86_64': x86_64, 'i686-64': x86_64, 'i386': x86, 'i686': x86, 'x86': x86, 'ia64': x86, # Itanium is different x64 arch, treat it as the common x86. 'powerpc': ppc, 'power macintosh': ppc, 'ppc64': ppc, 'armv6': arm, 'armv6l': arm, 'arm64': arm, 'armv7': arm, 'armv7l': arm} @staticmethod def AllValues(): """Gets all possible enum values. Returns: list, All the enum values. """ return list(Architecture._ALL) @staticmethod def FromId(architecture_id, error_on_unknown=True): """Gets the enum corresponding to the given architecture id. Args: architecture_id: str, The architecture id to parse error_on_unknown: bool, True to raise an exception if the id is unknown, False to just return None. Raises: InvalidEnumValue: If the given value cannot be parsed. Returns: ArchitectureTuple, One of the Architecture constants or None if the input is None. """ if not architecture_id: return None for arch in Architecture._ALL: if arch.id == architecture_id: return arch if error_on_unknown: raise InvalidEnumValue(architecture_id, 'Architecture', [value.id for value in Architecture._ALL]) return None @staticmethod def Current(): """Determines the current system architecture. Returns: ArchitectureTuple, One of the Architecture constants or None if it cannot be determined. """ return Architecture._MACHINE_TO_ARCHITECTURE.get(platform.machine().lower()) class Platform(object): """Holds an operating system and architecture.""" def __init__(self, operating_system, architecture): """Constructs a new platform. Args: operating_system: OperatingSystem, The OS architecture: Architecture, The machine architecture. """ self.operating_system = operating_system self.architecture = architecture def __str__(self): return '{}-{}'.format(self.operating_system, self.architecture) @staticmethod def Current(os_override=None, arch_override=None): """Determines the current platform you are running on. Args: os_override: OperatingSystem, A value to use instead of the current. arch_override: Architecture, A value to use instead of the current. Returns: Platform, The platform tuple of operating system and architecture. Either can be None if it could not be determined. """ return Platform( os_override if os_override else OperatingSystem.Current(), arch_override if arch_override else Architecture.Current()) def UserAgentFragment(self): """Generates the fragment of the User-Agent that represents the OS. Examples: (Linux 3.2.5-gg1236) (Windows NT 6.1.7601) (Macintosh; PPC Mac OS X 12.4.0) (Macintosh; Intel Mac OS X 12.4.0) Returns: str, The fragment of the User-Agent string. """ # Below, there are examples of the value of platform.uname() per platform. # platform.release() is uname[2], platform.version() is uname[3]. if self.operating_system == OperatingSystem.LINUX: # ('Linux', '', '3.2.5-gg1236', # '#1 SMP Tue May 21 02:35:06 PDT 2013', 'x86_64', 'x86_64') return '({name} {version})'.format( name=self.operating_system.name, version=platform.release()) elif self.operating_system == OperatingSystem.WINDOWS: # ('Windows', '', '7', '6.1.7601', 'AMD64', # 'Intel64 Family 6 Model 45 Stepping 7, GenuineIntel') return '({name} NT {version})'.format( name=self.operating_system.name, version=platform.version()) elif self.operating_system == OperatingSystem.MACOSX: # ('Darwin', '', '12.4.0', # 'Darwin Kernel Version 12.4.0: Wed May 1 17:57:12 PDT 2013; # root:xnu-2050.24.15~1/RELEASE_X86_64', 'x86_64', 'i386') format_string = '(Macintosh; {name} Mac OS X {version})' arch_string = (self.architecture.name if self.architecture == Architecture.ppc else 'Intel') return format_string.format( name=arch_string, version=platform.release()) else: return '()' def AsyncPopenArgs(self): """Returns the args for spawning an async process using Popen on this OS. Make sure the main process does not wait for the new process. On windows this means setting the 0x8 creation flag to detach the process. Killing a group leader kills the whole group. Setting creation flag 0x200 on Windows or running setsid on *nix makes sure the new process is in a new session with the new process the group leader. This means it can't be killed if the parent is killed. Finally, all file descriptors (FD) need to be closed so that waiting for the output of the main process does not inadvertently wait for the output of the new process, which means waiting for the termination of the new process. If the new process wants to write to a file, it can open new FDs. Returns: {str:}, The args for spawning an async process using Popen on this OS. """ args = {} if self.operating_system == OperatingSystem.WINDOWS: args['close_fds'] = True # This is enough to close _all_ FDs on windows. detached_process = 0x00000008 create_new_process_group = 0x00000200 # 0x008 | 0x200 == 0x208 args['creationflags'] = detached_process | create_new_process_group else: # Killing a group leader kills the whole group. # Create a new session with the new process the group leader. args['preexec_fn'] = os.setsid args['close_fds'] = True # This closes all FDs _except_ 0, 1, 2 on *nix. args['stdin'] = subprocess.PIPE args['stdout'] = subprocess.PIPE args['stderr'] = subprocess.PIPE return args class PythonVersion(object): """Class to validate the Python version we are using. The Cloud SDK officially supports Python 2.7. However, many commands do work with Python 2.6, so we don't error out when users are using this (we consider it sometimes "compatible" but not "supported"). """ # See class docstring for descriptions of what these mean MIN_REQUIRED_PY2_VERSION = (2, 6) MIN_SUPPORTED_PY2_VERSION = (2, 7) MIN_SUPPORTED_PY3_VERSION = (3, 4) ENV_VAR_MESSAGE = """\ If you have a compatible Python interpreter installed, you can use it by setting the CLOUDSDK_PYTHON environment variable to point to it. """ def __init__(self, version=None): if version: self.version = version elif hasattr(sys, 'version_info'): self.version = sys.version_info[:2] else: self.version = None def SupportedVersionMessage(self, allow_py3): if allow_py3: return 'Please use Python version {0}.{1}.x or {2}.{3} and up.'.format( PythonVersion.MIN_SUPPORTED_PY2_VERSION[0], PythonVersion.MIN_SUPPORTED_PY2_VERSION[1], PythonVersion.MIN_SUPPORTED_PY3_VERSION[0], PythonVersion.MIN_SUPPORTED_PY3_VERSION[1]) else: return 'Please use Python version {0}.{1}.x.'.format( PythonVersion.MIN_SUPPORTED_PY2_VERSION[0], PythonVersion.MIN_SUPPORTED_PY2_VERSION[1]) def IsCompatible(self, allow_py3=False, raise_exception=False): """Ensure that the Python version we are using is compatible. This will print an error message if not compatible. Compatible versions are 2.6 and 2.7 and > 3.4 if allow_py3 is True. We don't guarantee support for 2.6 so we want to warn about it. Args: allow_py3: bool, True if we should allow a Python 3 interpreter to run gcloud. If False, this returns an error for Python 3. raise_exception: bool, True to raise an exception rather than printing the error and exiting. Raises: Error: If not compatible and raise_exception is True. Returns: bool, True if the version is valid, False otherwise. """ error = None if not self.version: # We don't know the version, not a good sign. error = ('ERROR: Your current version of Python is not compatible with ' 'the Google Cloud SDK. {0}\n' .format(self.SupportedVersionMessage(allow_py3))) else: if self.version[0] < 3: # Python 2 Mode if self.version < PythonVersion.MIN_REQUIRED_PY2_VERSION: error = ('ERROR: Python {0}.{1} is not compatible with the Google ' 'Cloud SDK. {2}\n' .format(self.version[0], self.version[1], self.SupportedVersionMessage(allow_py3))) else: # Python 3 Mode if not allow_py3: error = ('ERROR: Python 3 and later is not compatible with the ' 'Google Cloud SDK. {0}\n' .format(self.SupportedVersionMessage(allow_py3))) elif self.version < PythonVersion.MIN_SUPPORTED_PY3_VERSION: error = ('ERROR: Python {0}.{1} is not compatible with the Google ' 'Cloud SDK. {2}\n' .format(self.version[0], self.version[1], self.SupportedVersionMessage(allow_py3))) if error: if raise_exception: raise Error(error) sys.stderr.write(error) sys.stderr.write(PythonVersion.ENV_VAR_MESSAGE) return False # Warn that 2.6 might not work. if (self.version >= self.MIN_REQUIRED_PY2_VERSION and self.version < self.MIN_SUPPORTED_PY2_VERSION): sys.stderr.write("""\ WARNING: Python 2.6.x is no longer officially supported by the Google Cloud SDK and may not function correctly. {0} {1}""".format(self.SupportedVersionMessage(allow_py3), PythonVersion.ENV_VAR_MESSAGE)) return True