Lib/test/libregrtest/save_env.py - platform/external/python/cpython3 - Git at Google

 import asyncio
 import builtins
 import locale
 import logging
 import os
 import shutil
 import sys
 import sysconfig
 import threading
 import urllib.request
 import warnings
 from test import support
 from test.libregrtest.utils import print_warning
 try:
     import _multiprocessing, multiprocessing.process
 except ImportError:
     multiprocessing = None


 # Unit tests are supposed to leave the execution environment unchanged
 # once they complete.  But sometimes tests have bugs, especially when
 # tests fail, and the changes to environment go on to mess up other
 # tests.  This can cause issues with buildbot stability, since tests
 # are run in random order and so problems may appear to come and go.
 # There are a few things we can save and restore to mitigate this, and
 # the following context manager handles this task.

 class saved_test_environment:
     """Save bits of the test environment and restore them at block exit.

         with saved_test_environment(testname, verbose, quiet):
             #stuff

     Unless quiet is True, a warning is printed to stderr if any of
     the saved items was changed by the test.  The attribute 'changed'
     is initially False, but is set to True if a change is detected.

     If verbose is more than 1, the before and after state of changed
     items is also printed.
     """

     changed = False

     def __init__(self, testname, verbose=0, quiet=False, *, pgo=False):
         self.testname = testname
         self.verbose = verbose
         self.quiet = quiet
         self.pgo = pgo

     # To add things to save and restore, add a name XXX to the resources list
     # and add corresponding get_XXX/restore_XXX functions.  get_XXX should
     # return the value to be saved and compared against a second call to the
     # get function when test execution completes.  restore_XXX should accept
     # the saved value and restore the resource using it.  It will be called if
     # and only if a change in the value is detected.
     #
     # Note: XXX will have any '.' replaced with '_' characters when determining
     # the corresponding method names.

     resources = ('sys.argv', 'cwd', 'sys.stdin', 'sys.stdout', 'sys.stderr',
                  'os.environ', 'sys.path', 'sys.path_hooks', '__import__',
                  'warnings.filters', 'asyncore.socket_map',
                  'logging._handlers', 'logging._handlerList', 'sys.gettrace',
                  'sys.warnoptions',
                  # multiprocessing.process._cleanup() may release ref
                  # to a thread, so check processes first.
                  'multiprocessing.process._dangling', 'threading._dangling',
                  'sysconfig._CONFIG_VARS', 'sysconfig._INSTALL_SCHEMES',
                  'files', 'locale', 'warnings.showwarning',
                  'shutil_archive_formats', 'shutil_unpack_formats',
                  'asyncio.events._event_loop_policy',
                  'urllib.requests._url_tempfiles', 'urllib.requests._opener',
                 )

     def get_urllib_requests__url_tempfiles(self):
         return list(urllib.request._url_tempfiles)
     def restore_urllib_requests__url_tempfiles(self, tempfiles):
         for filename in tempfiles:
             support.unlink(filename)

     def get_urllib_requests__opener(self):
         return urllib.request._opener
     def restore_urllib_requests__opener(self, opener):
         urllib.request._opener = opener

     def get_asyncio_events__event_loop_policy(self):
         return support.maybe_get_event_loop_policy()
     def restore_asyncio_events__event_loop_policy(self, policy):
         asyncio.set_event_loop_policy(policy)

     def get_sys_argv(self):
         return id(sys.argv), sys.argv, sys.argv[:]
     def restore_sys_argv(self, saved_argv):
         sys.argv = saved_argv[1]
         sys.argv[:] = saved_argv[2]

     def get_cwd(self):
         return os.getcwd()
     def restore_cwd(self, saved_cwd):
         os.chdir(saved_cwd)

     def get_sys_stdout(self):
         return sys.stdout
     def restore_sys_stdout(self, saved_stdout):
         sys.stdout = saved_stdout

     def get_sys_stderr(self):
         return sys.stderr
     def restore_sys_stderr(self, saved_stderr):
         sys.stderr = saved_stderr

     def get_sys_stdin(self):
         return sys.stdin
     def restore_sys_stdin(self, saved_stdin):
         sys.stdin = saved_stdin

     def get_os_environ(self):
         return id(os.environ), os.environ, dict(os.environ)
     def restore_os_environ(self, saved_environ):
         os.environ = saved_environ[1]
         os.environ.clear()
         os.environ.update(saved_environ[2])

     def get_sys_path(self):
         return id(sys.path), sys.path, sys.path[:]
     def restore_sys_path(self, saved_path):
         sys.path = saved_path[1]
         sys.path[:] = saved_path[2]

     def get_sys_path_hooks(self):
         return id(sys.path_hooks), sys.path_hooks, sys.path_hooks[:]
     def restore_sys_path_hooks(self, saved_hooks):
         sys.path_hooks = saved_hooks[1]
         sys.path_hooks[:] = saved_hooks[2]

     def get_sys_gettrace(self):
         return sys.gettrace()
     def restore_sys_gettrace(self, trace_fxn):
         sys.settrace(trace_fxn)

     def get___import__(self):
         return builtins.__import__
     def restore___import__(self, import_):
         builtins.__import__ = import_

     def get_warnings_filters(self):
         return id(warnings.filters), warnings.filters, warnings.filters[:]
     def restore_warnings_filters(self, saved_filters):
         warnings.filters = saved_filters[1]
         warnings.filters[:] = saved_filters[2]

     def get_asyncore_socket_map(self):
         asyncore = sys.modules.get('asyncore')
         # XXX Making a copy keeps objects alive until __exit__ gets called.
         return asyncore and asyncore.socket_map.copy() or {}
     def restore_asyncore_socket_map(self, saved_map):
         asyncore = sys.modules.get('asyncore')
         if asyncore is not None:
             asyncore.close_all(ignore_all=True)
             asyncore.socket_map.update(saved_map)

     def get_shutil_archive_formats(self):
         # we could call get_archives_formats() but that only returns the
         # registry keys; we want to check the values too (the functions that
         # are registered)
         return shutil._ARCHIVE_FORMATS, shutil._ARCHIVE_FORMATS.copy()
     def restore_shutil_archive_formats(self, saved):
         shutil._ARCHIVE_FORMATS = saved[0]
         shutil._ARCHIVE_FORMATS.clear()
         shutil._ARCHIVE_FORMATS.update(saved[1])

     def get_shutil_unpack_formats(self):
         return shutil._UNPACK_FORMATS, shutil._UNPACK_FORMATS.copy()
     def restore_shutil_unpack_formats(self, saved):
         shutil._UNPACK_FORMATS = saved[0]
         shutil._UNPACK_FORMATS.clear()
         shutil._UNPACK_FORMATS.update(saved[1])

     def get_logging__handlers(self):
         # _handlers is a WeakValueDictionary
         return id(logging._handlers), logging._handlers, logging._handlers.copy()
     def restore_logging__handlers(self, saved_handlers):
         # Can't easily revert the logging state
         pass

     def get_logging__handlerList(self):
         # _handlerList is a list of weakrefs to handlers
         return id(logging._handlerList), logging._handlerList, logging._handlerList[:]
     def restore_logging__handlerList(self, saved_handlerList):
         # Can't easily revert the logging state
         pass

     def get_sys_warnoptions(self):
         return id(sys.warnoptions), sys.warnoptions, sys.warnoptions[:]
     def restore_sys_warnoptions(self, saved_options):
         sys.warnoptions = saved_options[1]
         sys.warnoptions[:] = saved_options[2]

     # Controlling dangling references to Thread objects can make it easier
     # to track reference leaks.
     def get_threading__dangling(self):
         # This copies the weakrefs without making any strong reference
         return threading._dangling.copy()
     def restore_threading__dangling(self, saved):
         threading._dangling.clear()
         threading._dangling.update(saved)

     # Same for Process objects
     def get_multiprocessing_process__dangling(self):
         if not multiprocessing:
             return None
         # Unjoined process objects can survive after process exits
         multiprocessing.process._cleanup()
         # This copies the weakrefs without making any strong reference
         return multiprocessing.process._dangling.copy()
     def restore_multiprocessing_process__dangling(self, saved):
         if not multiprocessing:
             return
         multiprocessing.process._dangling.clear()
         multiprocessing.process._dangling.update(saved)

     def get_sysconfig__CONFIG_VARS(self):
         # make sure the dict is initialized
         sysconfig.get_config_var('prefix')
         return (id(sysconfig._CONFIG_VARS), sysconfig._CONFIG_VARS,
                 dict(sysconfig._CONFIG_VARS))
     def restore_sysconfig__CONFIG_VARS(self, saved):
         sysconfig._CONFIG_VARS = saved[1]
         sysconfig._CONFIG_VARS.clear()
         sysconfig._CONFIG_VARS.update(saved[2])

     def get_sysconfig__INSTALL_SCHEMES(self):
         return (id(sysconfig._INSTALL_SCHEMES), sysconfig._INSTALL_SCHEMES,
                 sysconfig._INSTALL_SCHEMES.copy())
     def restore_sysconfig__INSTALL_SCHEMES(self, saved):
         sysconfig._INSTALL_SCHEMES = saved[1]
         sysconfig._INSTALL_SCHEMES.clear()
         sysconfig._INSTALL_SCHEMES.update(saved[2])

     def get_files(self):
         return sorted(fn + ('/' if os.path.isdir(fn) else '')
                       for fn in os.listdir())
     def restore_files(self, saved_value):
         fn = support.TESTFN
         if fn not in saved_value and (fn + '/') not in saved_value:
             if os.path.isfile(fn):
                 support.unlink(fn)
             elif os.path.isdir(fn):
                 support.rmtree(fn)

     _lc = [getattr(locale, lc) for lc in dir(locale)
            if lc.startswith('LC_')]
     def get_locale(self):
         pairings = []
         for lc in self._lc:
             try:
                 pairings.append((lc, locale.setlocale(lc, None)))
             except (TypeError, ValueError):
                 continue
         return pairings
     def restore_locale(self, saved):
         for lc, setting in saved:
             locale.setlocale(lc, setting)

     def get_warnings_showwarning(self):
         return warnings.showwarning
     def restore_warnings_showwarning(self, fxn):
         warnings.showwarning = fxn

     def resource_info(self):
         for name in self.resources:
             method_suffix = name.replace('.', '_')
             get_name = 'get_' + method_suffix
             restore_name = 'restore_' + method_suffix
             yield name, getattr(self, get_name), getattr(self, restore_name)

     def __enter__(self):
         self.saved_values = dict((name, get()) for name, get, restore
                                                    in self.resource_info())
         return self

     def __exit__(self, exc_type, exc_val, exc_tb):
         saved_values = self.saved_values
         del self.saved_values

         # Some resources use weak references
         support.gc_collect()

         # Read support.environment_altered, set by support helper functions
         self.changed |= support.environment_altered

         for name, get, restore in self.resource_info():
             current = get()
             original = saved_values.pop(name)
             # Check for changes to the resource's value
             if current != original:
                 self.changed = True
                 restore(original)
                 if not self.quiet and not self.pgo:
                     print_warning(f"{name} was modified by {self.testname}")
                     print(f"  Before: {original}\n  After:  {current} ",
                           file=sys.stderr, flush=True)
         return False
	import asyncio
	import builtins
	import locale
	import logging
	import os
	import shutil
	import sys
	import sysconfig
	import threading
	import urllib.request
	import warnings
	from test import support
	from test.libregrtest.utils import print_warning
	try:
	import _multiprocessing, multiprocessing.process
	except ImportError:
	multiprocessing = None


	# Unit tests are supposed to leave the execution environment unchanged
	# once they complete. But sometimes tests have bugs, especially when
	# tests fail, and the changes to environment go on to mess up other
	# tests. This can cause issues with buildbot stability, since tests
	# are run in random order and so problems may appear to come and go.
	# There are a few things we can save and restore to mitigate this, and
	# the following context manager handles this task.

	class saved_test_environment:
	"""Save bits of the test environment and restore them at block exit.

	with saved_test_environment(testname, verbose, quiet):
	#stuff

	Unless quiet is True, a warning is printed to stderr if any of
	the saved items was changed by the test. The attribute 'changed'
	is initially False, but is set to True if a change is detected.

	If verbose is more than 1, the before and after state of changed
	items is also printed.
	"""

	changed = False

	def __init__(self, testname, verbose=0, quiet=False, *, pgo=False):
	self.testname = testname
	self.verbose = verbose
	self.quiet = quiet
	self.pgo = pgo

	# To add things to save and restore, add a name XXX to the resources list
	# and add corresponding get_XXX/restore_XXX functions. get_XXX should
	# return the value to be saved and compared against a second call to the
	# get function when test execution completes. restore_XXX should accept
	# the saved value and restore the resource using it. It will be called if
	# and only if a change in the value is detected.
	#
	# Note: XXX will have any '.' replaced with '_' characters when determining
	# the corresponding method names.

	resources = ('sys.argv', 'cwd', 'sys.stdin', 'sys.stdout', 'sys.stderr',
	'os.environ', 'sys.path', 'sys.path_hooks', '__import__',
	'warnings.filters', 'asyncore.socket_map',
	'logging._handlers', 'logging._handlerList', 'sys.gettrace',
	'sys.warnoptions',
	# multiprocessing.process._cleanup() may release ref
	# to a thread, so check processes first.
	'multiprocessing.process._dangling', 'threading._dangling',
	'sysconfig._CONFIG_VARS', 'sysconfig._INSTALL_SCHEMES',
	'files', 'locale', 'warnings.showwarning',
	'shutil_archive_formats', 'shutil_unpack_formats',
	'asyncio.events._event_loop_policy',
	'urllib.requests._url_tempfiles', 'urllib.requests._opener',
	)

	def get_urllib_requests__url_tempfiles(self):
	return list(urllib.request._url_tempfiles)
	def restore_urllib_requests__url_tempfiles(self, tempfiles):
	for filename in tempfiles:
	support.unlink(filename)

	def get_urllib_requests__opener(self):
	return urllib.request._opener
	def restore_urllib_requests__opener(self, opener):
	urllib.request._opener = opener

	def get_asyncio_events__event_loop_policy(self):
	return support.maybe_get_event_loop_policy()
	def restore_asyncio_events__event_loop_policy(self, policy):
	asyncio.set_event_loop_policy(policy)

	def get_sys_argv(self):
	return id(sys.argv), sys.argv, sys.argv[:]
	def restore_sys_argv(self, saved_argv):
	sys.argv = saved_argv[1]
	sys.argv[:] = saved_argv[2]

	def get_cwd(self):
	return os.getcwd()
	def restore_cwd(self, saved_cwd):
	os.chdir(saved_cwd)

	def get_sys_stdout(self):
	return sys.stdout
	def restore_sys_stdout(self, saved_stdout):
	sys.stdout = saved_stdout

	def get_sys_stderr(self):
	return sys.stderr
	def restore_sys_stderr(self, saved_stderr):
	sys.stderr = saved_stderr

	def get_sys_stdin(self):
	return sys.stdin
	def restore_sys_stdin(self, saved_stdin):
	sys.stdin = saved_stdin

	def get_os_environ(self):
	return id(os.environ), os.environ, dict(os.environ)
	def restore_os_environ(self, saved_environ):
	os.environ = saved_environ[1]
	os.environ.clear()
	os.environ.update(saved_environ[2])

	def get_sys_path(self):
	return id(sys.path), sys.path, sys.path[:]
	def restore_sys_path(self, saved_path):
	sys.path = saved_path[1]
	sys.path[:] = saved_path[2]

	def get_sys_path_hooks(self):
	return id(sys.path_hooks), sys.path_hooks, sys.path_hooks[:]
	def restore_sys_path_hooks(self, saved_hooks):
	sys.path_hooks = saved_hooks[1]
	sys.path_hooks[:] = saved_hooks[2]

	def get_sys_gettrace(self):
	return sys.gettrace()
	def restore_sys_gettrace(self, trace_fxn):
	sys.settrace(trace_fxn)

	def get___import__(self):
	return builtins.__import__
	def restore___import__(self, import_):
	builtins.__import__ = import_

	def get_warnings_filters(self):
	return id(warnings.filters), warnings.filters, warnings.filters[:]
	def restore_warnings_filters(self, saved_filters):
	warnings.filters = saved_filters[1]
	warnings.filters[:] = saved_filters[2]

	def get_asyncore_socket_map(self):
	asyncore = sys.modules.get('asyncore')
	# XXX Making a copy keeps objects alive until __exit__ gets called.
	return asyncore and asyncore.socket_map.copy() or {}
	def restore_asyncore_socket_map(self, saved_map):
	asyncore = sys.modules.get('asyncore')
	if asyncore is not None:
	asyncore.close_all(ignore_all=True)
	asyncore.socket_map.update(saved_map)

	def get_shutil_archive_formats(self):
	# we could call get_archives_formats() but that only returns the
	# registry keys; we want to check the values too (the functions that
	# are registered)
	return shutil._ARCHIVE_FORMATS, shutil._ARCHIVE_FORMATS.copy()
	def restore_shutil_archive_formats(self, saved):
	shutil._ARCHIVE_FORMATS = saved[0]
	shutil._ARCHIVE_FORMATS.clear()
	shutil._ARCHIVE_FORMATS.update(saved[1])

	def get_shutil_unpack_formats(self):
	return shutil._UNPACK_FORMATS, shutil._UNPACK_FORMATS.copy()
	def restore_shutil_unpack_formats(self, saved):
	shutil._UNPACK_FORMATS = saved[0]
	shutil._UNPACK_FORMATS.clear()
	shutil._UNPACK_FORMATS.update(saved[1])

	def get_logging__handlers(self):
	# _handlers is a WeakValueDictionary
	return id(logging._handlers), logging._handlers, logging._handlers.copy()
	def restore_logging__handlers(self, saved_handlers):
	# Can't easily revert the logging state
	pass

	def get_logging__handlerList(self):
	# _handlerList is a list of weakrefs to handlers
	return id(logging._handlerList), logging._handlerList, logging._handlerList[:]
	def restore_logging__handlerList(self, saved_handlerList):
	# Can't easily revert the logging state
	pass

	def get_sys_warnoptions(self):
	return id(sys.warnoptions), sys.warnoptions, sys.warnoptions[:]
	def restore_sys_warnoptions(self, saved_options):
	sys.warnoptions = saved_options[1]
	sys.warnoptions[:] = saved_options[2]

	# Controlling dangling references to Thread objects can make it easier
	# to track reference leaks.
	def get_threading__dangling(self):
	# This copies the weakrefs without making any strong reference
	return threading._dangling.copy()
	def restore_threading__dangling(self, saved):
	threading._dangling.clear()
	threading._dangling.update(saved)

	# Same for Process objects
	def get_multiprocessing_process__dangling(self):
	if not multiprocessing:
	return None
	# Unjoined process objects can survive after process exits
	multiprocessing.process._cleanup()
	# This copies the weakrefs without making any strong reference
	return multiprocessing.process._dangling.copy()
	def restore_multiprocessing_process__dangling(self, saved):
	if not multiprocessing:
	return
	multiprocessing.process._dangling.clear()
	multiprocessing.process._dangling.update(saved)

	def get_sysconfig__CONFIG_VARS(self):
	# make sure the dict is initialized
	sysconfig.get_config_var('prefix')
	return (id(sysconfig._CONFIG_VARS), sysconfig._CONFIG_VARS,
	dict(sysconfig._CONFIG_VARS))
	def restore_sysconfig__CONFIG_VARS(self, saved):
	sysconfig._CONFIG_VARS = saved[1]
	sysconfig._CONFIG_VARS.clear()
	sysconfig._CONFIG_VARS.update(saved[2])

	def get_sysconfig__INSTALL_SCHEMES(self):
	return (id(sysconfig._INSTALL_SCHEMES), sysconfig._INSTALL_SCHEMES,
	sysconfig._INSTALL_SCHEMES.copy())
	def restore_sysconfig__INSTALL_SCHEMES(self, saved):
	sysconfig._INSTALL_SCHEMES = saved[1]
	sysconfig._INSTALL_SCHEMES.clear()
	sysconfig._INSTALL_SCHEMES.update(saved[2])

	def get_files(self):
	return sorted(fn + ('/' if os.path.isdir(fn) else '')
	for fn in os.listdir())
	def restore_files(self, saved_value):
	fn = support.TESTFN
	if fn not in saved_value and (fn + '/') not in saved_value:
	if os.path.isfile(fn):
	support.unlink(fn)
	elif os.path.isdir(fn):
	support.rmtree(fn)

	_lc = [getattr(locale, lc) for lc in dir(locale)
	if lc.startswith('LC_')]
	def get_locale(self):
	pairings = []
	for lc in self._lc:
	try:
	pairings.append((lc, locale.setlocale(lc, None)))
	except (TypeError, ValueError):
	continue
	return pairings
	def restore_locale(self, saved):
	for lc, setting in saved:
	locale.setlocale(lc, setting)

	def get_warnings_showwarning(self):
	return warnings.showwarning
	def restore_warnings_showwarning(self, fxn):
	warnings.showwarning = fxn

	def resource_info(self):
	for name in self.resources:
	method_suffix = name.replace('.', '_')
	get_name = 'get_' + method_suffix
	restore_name = 'restore_' + method_suffix
	yield name, getattr(self, get_name), getattr(self, restore_name)

	def __enter__(self):
	self.saved_values = dict((name, get()) for name, get, restore
	in self.resource_info())
	return self

	def __exit__(self, exc_type, exc_val, exc_tb):
	saved_values = self.saved_values
	del self.saved_values

	# Some resources use weak references
	support.gc_collect()

	# Read support.environment_altered, set by support helper functions
	self.changed \|= support.environment_altered

	for name, get, restore in self.resource_info():
	current = get()
	original = saved_values.pop(name)
	# Check for changes to the resource's value
	if current != original:
	self.changed = True
	restore(original)
	if not self.quiet and not self.pgo:
	print_warning(f"{name} was modified by {self.testname}")
	print(f" Before: {original}\n After: {current} ",
	file=sys.stderr, flush=True)
	return False