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ORPA-pyOpenRPA/WPy32-3720/python-3.7.2/Lib/site-packages/jedi/api/environment.py

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"""
Environments are a way to activate different Python versions or Virtualenvs for
static analysis. The Python binary in that environment is going to be executed.
"""
import os
import sys
import hashlib
import filecmp
from collections import namedtuple
from jedi._compatibility import highest_pickle_protocol, which
from jedi.cache import memoize_method, time_cache
from jedi.evaluate.compiled.subprocess import CompiledSubprocess, \
EvaluatorSameProcess, EvaluatorSubprocess
import parso
_VersionInfo = namedtuple('VersionInfo', 'major minor micro')
_SUPPORTED_PYTHONS = ['3.7', '3.6', '3.5', '3.4', '3.3', '2.7']
_SAFE_PATHS = ['/usr/bin', '/usr/local/bin']
_CURRENT_VERSION = '%s.%s' % (sys.version_info.major, sys.version_info.minor)
class InvalidPythonEnvironment(Exception):
"""
If you see this exception, the Python executable or Virtualenv you have
been trying to use is probably not a correct Python version.
"""
class _BaseEnvironment(object):
@memoize_method
def get_grammar(self):
version_string = '%s.%s' % (self.version_info.major, self.version_info.minor)
return parso.load_grammar(version=version_string)
@property
def _sha256(self):
try:
return self._hash
except AttributeError:
self._hash = _calculate_sha256_for_file(self.executable)
return self._hash
def _get_info():
return (
sys.executable,
sys.prefix,
sys.version_info[:3],
)
class Environment(_BaseEnvironment):
"""
This class is supposed to be created by internal Jedi architecture. You
should not create it directly. Please use create_environment or the other
functions instead. It is then returned by that function.
"""
_subprocess = None
def __init__(self, executable):
self._start_executable = executable
# Initialize the environment
self._get_subprocess()
def _get_subprocess(self):
if self._subprocess is not None and not self._subprocess.is_crashed:
return self._subprocess
try:
self._subprocess = CompiledSubprocess(self._start_executable)
info = self._subprocess._send(None, _get_info)
except Exception as exc:
raise InvalidPythonEnvironment(
"Could not get version information for %r: %r" % (
self._start_executable,
exc))
# Since it could change and might not be the same(?) as the one given,
# set it here.
self.executable = info[0]
"""
The Python executable, matches ``sys.executable``.
"""
self.path = info[1]
"""
The path to an environment, matches ``sys.prefix``.
"""
self.version_info = _VersionInfo(*info[2])
"""
Like ``sys.version_info``. A tuple to show the current Environment's
Python version.
"""
# py2 sends bytes via pickle apparently?!
if self.version_info.major == 2:
self.executable = self.executable.decode()
self.path = self.path.decode()
# Adjust pickle protocol according to host and client version.
self._subprocess._pickle_protocol = highest_pickle_protocol([
sys.version_info, self.version_info])
return self._subprocess
def __repr__(self):
version = '.'.join(str(i) for i in self.version_info)
return '<%s: %s in %s>' % (self.__class__.__name__, version, self.path)
def get_evaluator_subprocess(self, evaluator):
return EvaluatorSubprocess(evaluator, self._get_subprocess())
@memoize_method
def get_sys_path(self):
"""
The sys path for this environment. Does not include potential
modifications like ``sys.path.append``.
:returns: list of str
"""
# It's pretty much impossible to generate the sys path without actually
# executing Python. The sys path (when starting with -S) itself depends
# on how the Python version was compiled (ENV variables).
# If you omit -S when starting Python (normal case), additionally
# site.py gets executed.
return self._get_subprocess().get_sys_path()
class SameEnvironment(Environment):
def __init__(self):
self._start_executable = self.executable = sys.executable
self.path = sys.prefix
self.version_info = _VersionInfo(*sys.version_info[:3])
class InterpreterEnvironment(_BaseEnvironment):
def __init__(self):
self.version_info = _VersionInfo(*sys.version_info[:3])
def get_evaluator_subprocess(self, evaluator):
return EvaluatorSameProcess(evaluator)
def get_sys_path(self):
return sys.path
def _get_virtual_env_from_var():
"""Get virtualenv environment from VIRTUAL_ENV environment variable.
It uses `safe=False` with ``create_environment``, because the environment
variable is considered to be safe / controlled by the user solely.
"""
var = os.environ.get('VIRTUAL_ENV')
if var:
if var == sys.prefix:
return _try_get_same_env()
try:
return create_environment(var, safe=False)
except InvalidPythonEnvironment:
pass
def _calculate_sha256_for_file(path):
sha256 = hashlib.sha256()
with open(path, 'rb') as f:
for block in iter(lambda: f.read(filecmp.BUFSIZE), b''):
sha256.update(block)
return sha256.hexdigest()
def get_default_environment():
"""
Tries to return an active Virtualenv. If there is no VIRTUAL_ENV variable
set it will return the latest Python version installed on the system. This
makes it possible to use as many new Python features as possible when using
autocompletion and other functionality.
:returns: :class:`Environment`
"""
virtual_env = _get_virtual_env_from_var()
if virtual_env is not None:
return virtual_env
return _try_get_same_env()
def _try_get_same_env():
env = SameEnvironment()
if not os.path.basename(env.executable).lower().startswith('python'):
# This tries to counter issues with embedding. In some cases (e.g.
# VIM's Python Mac/Windows, sys.executable is /foo/bar/vim. This
# happens, because for Mac a function called `_NSGetExecutablePath` is
# used and for Windows `GetModuleFileNameW`. These are both platform
# specific functions. For all other systems sys.executable should be
# alright. However here we try to generalize:
#
# 1. Check if the executable looks like python (heuristic)
# 2. In case it's not try to find the executable
# 3. In case we don't find it use an interpreter environment.
#
# The last option will always work, but leads to potential crashes of
# Jedi - which is ok, because it happens very rarely and even less,
# because the code below should work for most cases.
if os.name == 'nt':
# The first case would be a virtualenv and the second a normal
# Python installation.
checks = (r'Scripts\python.exe', 'python.exe')
else:
# For unix it looks like Python is always in a bin folder.
checks = (
'bin/python%s.%s' % (sys.version_info[0], sys.version[1]),
'bin/python%s' % (sys.version_info[0]),
'bin/python',
)
for check in checks:
guess = os.path.join(sys.exec_prefix, check)
if os.path.isfile(guess):
# Bingo - We think we have our Python.
return Environment(guess)
# It looks like there is no reasonable Python to be found.
return InterpreterEnvironment()
# If no virtualenv is found, use the environment we're already
# using.
return env
def get_cached_default_environment():
var = os.environ.get('VIRTUAL_ENV')
environment = _get_cached_default_environment()
if var and var != environment.path:
_get_cached_default_environment.clear_cache()
return _get_cached_default_environment()
return environment
@time_cache(seconds=10 * 60) # 10 Minutes
def _get_cached_default_environment():
return get_default_environment()
def find_virtualenvs(paths=None, **kwargs):
"""
:param paths: A list of paths in your file system to be scanned for
Virtualenvs. It will search in these paths and potentially execute the
Python binaries. Also the VIRTUAL_ENV variable will be checked if it
contains a valid Virtualenv.
:param safe: Default True. In case this is False, it will allow this
function to execute potential `python` environments. An attacker might
be able to drop an executable in a path this function is searching by
default. If the executable has not been installed by root, it will not
be executed.
:yields: :class:`Environment`
"""
def py27_comp(paths=None, safe=True):
if paths is None:
paths = []
_used_paths = set()
# Using this variable should be safe, because attackers might be able
# to drop files (via git) but not environment variables.
virtual_env = _get_virtual_env_from_var()
if virtual_env is not None:
yield virtual_env
_used_paths.add(virtual_env.path)
for directory in paths:
if not os.path.isdir(directory):
continue
directory = os.path.abspath(directory)
for path in os.listdir(directory):
path = os.path.join(directory, path)
if path in _used_paths:
# A path shouldn't be evaluated twice.
continue
_used_paths.add(path)
try:
executable = _get_executable_path(path, safe=safe)
yield Environment(executable)
except InvalidPythonEnvironment:
pass
return py27_comp(paths, **kwargs)
def find_system_environments():
"""
Ignores virtualenvs and returns the Python versions that were installed on
your system. This might return nothing, if you're running Python e.g. from
a portable version.
The environments are sorted from latest to oldest Python version.
:yields: :class:`Environment`
"""
for version_string in _SUPPORTED_PYTHONS:
try:
yield get_system_environment(version_string)
except InvalidPythonEnvironment:
pass
# TODO: this function should probably return a list of environments since
# multiple Python installations can be found on a system for the same version.
def get_system_environment(version):
"""
Return the first Python environment found for a string of the form 'X.Y'
where X and Y are the major and minor versions of Python.
:raises: :exc:`.InvalidPythonEnvironment`
:returns: :class:`Environment`
"""
exe = which('python' + version)
if exe:
if exe == sys.executable:
return SameEnvironment()
return Environment(exe)
if os.name == 'nt':
for exe in _get_executables_from_windows_registry(version):
return Environment(exe)
raise InvalidPythonEnvironment("Cannot find executable python%s." % version)
def create_environment(path, safe=True):
"""
Make it possible to manually create an Environment object by specifying a
Virtualenv path or an executable path.
:raises: :exc:`.InvalidPythonEnvironment`
:returns: :class:`Environment`
"""
if os.path.isfile(path):
_assert_safe(path, safe)
return Environment(path)
return Environment(_get_executable_path(path, safe=safe))
def _get_executable_path(path, safe=True):
"""
Returns None if it's not actually a virtual env.
"""
if os.name == 'nt':
python = os.path.join(path, 'Scripts', 'python.exe')
else:
python = os.path.join(path, 'bin', 'python')
if not os.path.exists(python):
raise InvalidPythonEnvironment("%s seems to be missing." % python)
_assert_safe(python, safe)
return python
def _get_executables_from_windows_registry(version):
# The winreg module is named _winreg on Python 2.
try:
import winreg
except ImportError:
import _winreg as winreg
# TODO: support Python Anaconda.
sub_keys = [
r'SOFTWARE\Python\PythonCore\{version}\InstallPath',
r'SOFTWARE\Wow6432Node\Python\PythonCore\{version}\InstallPath',
r'SOFTWARE\Python\PythonCore\{version}-32\InstallPath',
r'SOFTWARE\Wow6432Node\Python\PythonCore\{version}-32\InstallPath'
]
for root_key in [winreg.HKEY_CURRENT_USER, winreg.HKEY_LOCAL_MACHINE]:
for sub_key in sub_keys:
sub_key = sub_key.format(version=version)
try:
with winreg.OpenKey(root_key, sub_key) as key:
prefix = winreg.QueryValueEx(key, '')[0]
exe = os.path.join(prefix, 'python.exe')
if os.path.isfile(exe):
yield exe
except WindowsError:
pass
def _assert_safe(executable_path, safe):
if safe and not _is_safe(executable_path):
raise InvalidPythonEnvironment(
"The python binary is potentially unsafe.")
def _is_safe(executable_path):
# Resolve sym links. A venv typically is a symlink to a known Python
# binary. Only virtualenvs copy symlinks around.
real_path = os.path.realpath(executable_path)
if _is_unix_safe_simple(real_path):
return True
# Just check the list of known Python versions. If it's not in there,
# it's likely an attacker or some Python that was not properly
# installed in the system.
for environment in find_system_environments():
if environment.executable == real_path:
return True
# If the versions don't match, just compare the binary files. If we
# don't do that, only venvs will be working and not virtualenvs.
# venvs are symlinks while virtualenvs are actual copies of the
# Python files.
# This still means that if the system Python is updated and the
# virtualenv's Python is not (which is probably never going to get
# upgraded), it will not work with Jedi. IMO that's fine, because
# people should just be using venv. ~ dave
if environment._sha256 == _calculate_sha256_for_file(real_path):
return True
return False
def _is_unix_safe_simple(real_path):
if _is_unix_admin():
# In case we are root, just be conservative and
# only execute known paths.
return any(real_path.startswith(p) for p in _SAFE_PATHS)
uid = os.stat(real_path).st_uid
# The interpreter needs to be owned by root. This means that it wasn't
# written by a user and therefore attacking Jedi is not as simple.
# The attack could look like the following:
# 1. A user clones a repository.
# 2. The repository has an innocent looking folder called foobar. jedi
# searches for the folder and executes foobar/bin/python --version if
# there's also a foobar/bin/activate.
# 3. The bin/python is obviously not a python script but a bash script or
# whatever the attacker wants.
return uid == 0
def _is_unix_admin():
try:
return os.getuid() == 0
except AttributeError:
return False # Windows