"""Tests for 'site'. Tests assume the initial paths in sys.path once the interpreter has begun executing have not been removed. """ import unittest import test.support from test.support import captured_stderr, TESTFN, EnvironmentVarGuard import builtins import os import sys import re import encodings import urllib.request import urllib.error import shutil import subprocess import sysconfig from copy import copy # These tests are not particularly useful if Python was invoked with -S. # If you add tests that are useful under -S, this skip should be moved # to the class level. if sys.flags.no_site: raise unittest.SkipTest("Python was invoked with -S") import site if site.ENABLE_USER_SITE and not os.path.isdir(site.USER_SITE): # need to add user site directory for tests try: os.makedirs(site.USER_SITE) site.addsitedir(site.USER_SITE) except PermissionError as exc: raise unittest.SkipTest('unable to create user site directory (%r): %s' % (site.USER_SITE, exc)) class HelperFunctionsTests(unittest.TestCase): """Tests for helper functions. """ def setUp(self): """Save a copy of sys.path""" self.sys_path = sys.path[:] self.old_base = site.USER_BASE self.old_site = site.USER_SITE self.old_prefixes = site.PREFIXES self.original_vars = sysconfig._CONFIG_VARS self.old_vars = copy(sysconfig._CONFIG_VARS) def tearDown(self): """Restore sys.path""" sys.path[:] = self.sys_path site.USER_BASE = self.old_base site.USER_SITE = self.old_site site.PREFIXES = self.old_prefixes sysconfig._CONFIG_VARS = self.original_vars sysconfig._CONFIG_VARS.clear() sysconfig._CONFIG_VARS.update(self.old_vars) def test_makepath(self): # Test makepath() have an absolute path for its first return value # and a case-normalized version of the absolute path for its # second value. path_parts = ("Beginning", "End") original_dir = os.path.join(*path_parts) abs_dir, norm_dir = site.makepath(*path_parts) self.assertEqual(os.path.abspath(original_dir), abs_dir) if original_dir == os.path.normcase(original_dir): self.assertEqual(abs_dir, norm_dir) else: self.assertEqual(os.path.normcase(abs_dir), norm_dir) def test_init_pathinfo(self): dir_set = site._init_pathinfo() for entry in [site.makepath(path)[1] for path in sys.path if path and os.path.exists(path)]: self.assertIn(entry, dir_set, "%s from sys.path not found in set returned " "by _init_pathinfo(): %s" % (entry, dir_set)) def pth_file_tests(self, pth_file): """Contain common code for testing results of reading a .pth file""" self.assertIn(pth_file.imported, sys.modules, "%s not in sys.modules" % pth_file.imported) self.assertIn(site.makepath(pth_file.good_dir_path)[0], sys.path) self.assertFalse(os.path.exists(pth_file.bad_dir_path)) def test_addpackage(self): # Make sure addpackage() imports if the line starts with 'import', # adds directories to sys.path for any line in the file that is not a # comment or import that is a valid directory name for where the .pth # file resides; invalid directories are not added pth_file = PthFile() pth_file.cleanup(prep=True) # to make sure that nothing is # pre-existing that shouldn't be try: pth_file.create() site.addpackage(pth_file.base_dir, pth_file.filename, set()) self.pth_file_tests(pth_file) finally: pth_file.cleanup() def make_pth(self, contents, pth_dir='.', pth_name=TESTFN): # Create a .pth file and return its (abspath, basename). pth_dir = os.path.abspath(pth_dir) pth_basename = pth_name + '.pth' pth_fn = os.path.join(pth_dir, pth_basename) pth_file = open(pth_fn, 'w', encoding='utf-8') self.addCleanup(lambda: os.remove(pth_fn)) pth_file.write(contents) pth_file.close() return pth_dir, pth_basename def test_addpackage_import_bad_syntax(self): # Issue 10642 pth_dir, pth_fn = self.make_pth("import bad)syntax\n") with captured_stderr() as err_out: site.addpackage(pth_dir, pth_fn, set()) self.assertRegex(err_out.getvalue(), "line 1") self.assertRegex(err_out.getvalue(), re.escape(os.path.join(pth_dir, pth_fn))) # XXX: the previous two should be independent checks so that the # order doesn't matter. The next three could be a single check # but my regex foo isn't good enough to write it. self.assertRegex(err_out.getvalue(), 'Traceback') self.assertRegex(err_out.getvalue(), r'import bad\)syntax') self.assertRegex(err_out.getvalue(), 'SyntaxError') def test_addpackage_import_bad_exec(self): # Issue 10642 pth_dir, pth_fn = self.make_pth("randompath\nimport nosuchmodule\n") with captured_stderr() as err_out: site.addpackage(pth_dir, pth_fn, set()) self.assertRegex(err_out.getvalue(), "line 2") self.assertRegex(err_out.getvalue(), re.escape(os.path.join(pth_dir, pth_fn))) # XXX: ditto previous XXX comment. self.assertRegex(err_out.getvalue(), 'Traceback') self.assertRegex(err_out.getvalue(), 'ModuleNotFoundError') def test_addpackage_import_bad_pth_file(self): # Issue 5258 pth_dir, pth_fn = self.make_pth("abc\x00def\n") with captured_stderr() as err_out: site.addpackage(pth_dir, pth_fn, set()) self.assertRegex(err_out.getvalue(), "line 1") self.assertRegex(err_out.getvalue(), re.escape(os.path.join(pth_dir, pth_fn))) # XXX: ditto previous XXX comment. self.assertRegex(err_out.getvalue(), 'Traceback') self.assertRegex(err_out.getvalue(), 'ValueError') def test_addsitedir(self): # Same tests for test_addpackage since addsitedir() essentially just # calls addpackage() for every .pth file in the directory pth_file = PthFile() pth_file.cleanup(prep=True) # Make sure that nothing is pre-existing # that is tested for try: pth_file.create() site.addsitedir(pth_file.base_dir, set()) self.pth_file_tests(pth_file) finally: pth_file.cleanup() @unittest.skipUnless(site.ENABLE_USER_SITE, "requires access to PEP 370 " "user-site (site.ENABLE_USER_SITE)") def test_s_option(self): usersite = site.USER_SITE self.assertIn(usersite, sys.path) env = os.environ.copy() rc = subprocess.call([sys.executable, '-c', 'import sys; sys.exit(%r in sys.path)' % usersite], env=env) self.assertEqual(rc, 1) env = os.environ.copy() rc = subprocess.call([sys.executable, '-s', '-c', 'import sys; sys.exit(%r in sys.path)' % usersite], env=env) if usersite == site.getsitepackages()[0]: self.assertEqual(rc, 1) else: self.assertEqual(rc, 0) env = os.environ.copy() env["PYTHONNOUSERSITE"] = "1" rc = subprocess.call([sys.executable, '-c', 'import sys; sys.exit(%r in sys.path)' % usersite], env=env) if usersite == site.getsitepackages()[0]: self.assertEqual(rc, 1) else: self.assertEqual(rc, 0) env = os.environ.copy() env["PYTHONUSERBASE"] = "/tmp" rc = subprocess.call([sys.executable, '-c', 'import sys, site; sys.exit(site.USER_BASE.startswith("/tmp"))'], env=env) self.assertEqual(rc, 1) def test_getuserbase(self): site.USER_BASE = None user_base = site.getuserbase() # the call sets site.USER_BASE self.assertEqual(site.USER_BASE, user_base) # let's set PYTHONUSERBASE and see if it uses it site.USER_BASE = None import sysconfig sysconfig._CONFIG_VARS = None with EnvironmentVarGuard() as environ: environ['PYTHONUSERBASE'] = 'xoxo' self.assertTrue(site.getuserbase().startswith('xoxo'), site.getuserbase()) def test_getusersitepackages(self): site.USER_SITE = None site.USER_BASE = None user_site = site.getusersitepackages() # the call sets USER_BASE *and* USER_SITE self.assertEqual(site.USER_SITE, user_site) self.assertTrue(user_site.startswith(site.USER_BASE), user_site) def test_getsitepackages(self): site.PREFIXES = ['xoxo'] dirs = site.getsitepackages() if (sys.platform == "darwin" and sysconfig.get_config_var("PYTHONFRAMEWORK")): # OS X framework builds site.PREFIXES = ['Python.framework'] dirs = site.getsitepackages() self.assertEqual(len(dirs), 2) wanted = os.path.join('/Library', sysconfig.get_config_var("PYTHONFRAMEWORK"), '%d.%d' % sys.version_info[:2], 'site-packages') self.assertEqual(dirs[1], wanted) elif os.sep == '/': # OS X non-framwework builds, Linux, FreeBSD, etc self.assertEqual(len(dirs), 1) wanted = os.path.join('xoxo', 'lib', 'python%d.%d' % sys.version_info[:2], 'site-packages') self.assertEqual(dirs[0], wanted) else: # other platforms self.assertEqual(len(dirs), 2) self.assertEqual(dirs[0], 'xoxo') wanted = os.path.join('xoxo', 'lib', 'site-packages') self.assertEqual(dirs[1], wanted) class PthFile(object): """Helper class for handling testing of .pth files""" def __init__(self, filename_base=TESTFN, imported="time", good_dirname="__testdir__", bad_dirname="__bad"): """Initialize instance variables""" self.filename = filename_base + ".pth" self.base_dir = os.path.abspath('') self.file_path = os.path.join(self.base_dir, self.filename) self.imported = imported self.good_dirname = good_dirname self.bad_dirname = bad_dirname self.good_dir_path = os.path.join(self.base_dir, self.good_dirname) self.bad_dir_path = os.path.join(self.base_dir, self.bad_dirname) def create(self): """Create a .pth file with a comment, blank lines, an ``import ``, a line with self.good_dirname, and a line with self.bad_dirname. Creation of the directory for self.good_dir_path (based off of self.good_dirname) is also performed. Make sure to call self.cleanup() to undo anything done by this method. """ FILE = open(self.file_path, 'w') try: print("#import @bad module name", file=FILE) print("\n", file=FILE) print("import %s" % self.imported, file=FILE) print(self.good_dirname, file=FILE) print(self.bad_dirname, file=FILE) finally: FILE.close() os.mkdir(self.good_dir_path) def cleanup(self, prep=False): """Make sure that the .pth file is deleted, self.imported is not in sys.modules, and that both self.good_dirname and self.bad_dirname are not existing directories.""" if os.path.exists(self.file_path): os.remove(self.file_path) if prep: self.imported_module = sys.modules.get(self.imported) if self.imported_module: del sys.modules[self.imported] else: if self.imported_module: sys.modules[self.imported] = self.imported_module if os.path.exists(self.good_dir_path): os.rmdir(self.good_dir_path) if os.path.exists(self.bad_dir_path): os.rmdir(self.bad_dir_path) class ImportSideEffectTests(unittest.TestCase): """Test side-effects from importing 'site'.""" def setUp(self): """Make a copy of sys.path""" self.sys_path = sys.path[:] def tearDown(self): """Restore sys.path""" sys.path[:] = self.sys_path def test_abs_paths(self): # Make sure all imported modules have their __file__ and __cached__ # attributes as absolute paths. Arranging to put the Lib directory on # PYTHONPATH would cause the os module to have a relative path for # __file__ if abs_paths() does not get run. sys and builtins (the # only other modules imported before site.py runs) do not have # __file__ or __cached__ because they are built-in. parent = os.path.relpath(os.path.dirname(os.__file__)) env = os.environ.copy() env['PYTHONPATH'] = parent code = ('import os, sys', # use ASCII to avoid locale issues with non-ASCII directories 'os_file = os.__file__.encode("ascii", "backslashreplace")', r'sys.stdout.buffer.write(os_file + b"\n")', 'os_cached = os.__cached__.encode("ascii", "backslashreplace")', r'sys.stdout.buffer.write(os_cached + b"\n")') command = '\n'.join(code) # First, prove that with -S (no 'import site'), the paths are # relative. proc = subprocess.Popen([sys.executable, '-S', '-c', command], env=env, stdout=subprocess.PIPE) stdout, stderr = proc.communicate() self.assertEqual(proc.returncode, 0) os__file__, os__cached__ = stdout.splitlines()[:2] self.assertFalse(os.path.isabs(os__file__)) self.assertFalse(os.path.isabs(os__cached__)) # Now, with 'import site', it works. proc = subprocess.Popen([sys.executable, '-c', command], env=env, stdout=subprocess.PIPE) stdout, stderr = proc.communicate() self.assertEqual(proc.returncode, 0) os__file__, os__cached__ = stdout.splitlines()[:2] self.assertTrue(os.path.isabs(os__file__), "expected absolute path, got {}" .format(os__file__.decode('ascii'))) self.assertTrue(os.path.isabs(os__cached__), "expected absolute path, got {}" .format(os__cached__.decode('ascii'))) def test_no_duplicate_paths(self): # No duplicate paths should exist in sys.path # Handled by removeduppaths() site.removeduppaths() seen_paths = set() for path in sys.path: self.assertNotIn(path, seen_paths) seen_paths.add(path) @unittest.skip('test not implemented') def test_add_build_dir(self): # Test that the build directory's Modules directory is used when it # should be. # XXX: implement pass def test_setting_quit(self): # 'quit' and 'exit' should be injected into builtins self.assertTrue(hasattr(builtins, "quit")) self.assertTrue(hasattr(builtins, "exit")) def test_setting_copyright(self): # 'copyright', 'credits', and 'license' should be in builtins self.assertTrue(hasattr(builtins, "copyright")) self.assertTrue(hasattr(builtins, "credits")) self.assertTrue(hasattr(builtins, "license")) def test_setting_help(self): # 'help' should be set in builtins self.assertTrue(hasattr(builtins, "help")) def test_aliasing_mbcs(self): if sys.platform == "win32": import locale if locale.getdefaultlocale()[1].startswith('cp'): for value in encodings.aliases.aliases.values(): if value == "mbcs": break else: self.fail("did not alias mbcs") def test_sitecustomize_executed(self): # If sitecustomize is available, it should have been imported. if "sitecustomize" not in sys.modules: try: import sitecustomize except ImportError: pass else: self.fail("sitecustomize not imported automatically") @test.support.requires_resource('network') @test.support.system_must_validate_cert @unittest.skipUnless(sys.version_info[3] == 'final', 'only for released versions') @unittest.skipUnless(hasattr(urllib.request, "HTTPSHandler"), 'need SSL support to download license') def test_license_exists_at_url(self): # This test is a bit fragile since it depends on the format of the # string displayed by license in the absence of a LICENSE file. url = license._Printer__data.split()[1] req = urllib.request.Request(url, method='HEAD') try: with test.support.transient_internet(url): with urllib.request.urlopen(req) as data: code = data.getcode() except urllib.error.HTTPError as e: code = e.code self.assertEqual(code, 200, msg="Can't find " + url) class StartupImportTests(unittest.TestCase): def test_startup_imports(self): # This tests checks which modules are loaded by Python when it # initially starts upon startup. popen = subprocess.Popen([sys.executable, '-I', '-v', '-c', 'import sys; print(set(sys.modules))'], stdout=subprocess.PIPE, stderr=subprocess.PIPE, encoding='utf-8') stdout, stderr = popen.communicate() modules = eval(stdout) self.assertIn('site', modules) # http://bugs.python.org/issue19205 re_mods = {'re', '_sre', 'sre_compile', 'sre_constants', 'sre_parse'} # _osx_support uses the re module in many placs if sys.platform != 'darwin': self.assertFalse(modules.intersection(re_mods), stderr) # http://bugs.python.org/issue9548 self.assertNotIn('locale', modules, stderr) if sys.platform != 'darwin': # http://bugs.python.org/issue19209 self.assertNotIn('copyreg', modules, stderr) # http://bugs.python.org/issue19218> collection_mods = {'_collections', 'collections', 'functools', 'heapq', 'itertools', 'keyword', 'operator', 'reprlib', 'types', 'weakref' }.difference(sys.builtin_module_names) # http://bugs.python.org/issue28095 if sys.platform != 'darwin': self.assertFalse(modules.intersection(collection_mods), stderr) def test_startup_interactivehook(self): r = subprocess.Popen([sys.executable, '-c', 'import sys; sys.exit(hasattr(sys, "__interactivehook__"))']).wait() self.assertTrue(r, "'__interactivehook__' not added by site") def test_startup_interactivehook_isolated(self): # issue28192 readline is not automatically enabled in isolated mode r = subprocess.Popen([sys.executable, '-I', '-c', 'import sys; sys.exit(hasattr(sys, "__interactivehook__"))']).wait() self.assertFalse(r, "'__interactivehook__' added in isolated mode") def test_startup_interactivehook_isolated_explicit(self): # issue28192 readline can be explicitly enabled in isolated mode r = subprocess.Popen([sys.executable, '-I', '-c', 'import site, sys; site.enablerlcompleter(); sys.exit(hasattr(sys, "__interactivehook__"))']).wait() self.assertTrue(r, "'__interactivehook__' not added by enablerlcompleter()") @classmethod def _create_underpth_exe(self, lines): exe_file = os.path.join(os.getenv('TEMP'), os.path.split(sys.executable)[1]) shutil.copy(sys.executable, exe_file) _pth_file = os.path.splitext(exe_file)[0] + '._pth' try: with open(_pth_file, 'w') as f: for line in lines: print(line, file=f) return exe_file except: os.unlink(_pth_file) os.unlink(exe_file) raise @classmethod def _cleanup_underpth_exe(self, exe_file): _pth_file = os.path.splitext(exe_file)[0] + '._pth' os.unlink(_pth_file) os.unlink(exe_file) @unittest.skipUnless(sys.platform == 'win32', "only supported on Windows") def test_underpth_nosite_file(self): libpath = os.path.dirname(os.path.dirname(encodings.__file__)) exe_prefix = os.path.dirname(sys.executable) exe_file = self._create_underpth_exe([ 'fake-path-name', *[libpath for _ in range(200)], '# comment', 'import site' ]) try: env = os.environ.copy() env['PYTHONPATH'] = 'from-env' env['PATH'] = '{};{}'.format(exe_prefix, os.getenv('PATH')) rc = subprocess.call([exe_file, '-c', 'import sys; sys.exit(sys.flags.no_site and ' 'len(sys.path) > 200 and ' '%r in sys.path and %r in sys.path and %r not in sys.path)' % ( os.path.join(sys.prefix, 'fake-path-name'), libpath, os.path.join(sys.prefix, 'from-env'), )], env=env) finally: self._cleanup_underpth_exe(exe_file) self.assertEqual(rc, 0) @unittest.skipUnless(sys.platform == 'win32', "only supported on Windows") def test_underpth_file(self): libpath = os.path.dirname(os.path.dirname(encodings.__file__)) exe_prefix = os.path.dirname(sys.executable) exe_file = self._create_underpth_exe([ 'fake-path-name', *[libpath for _ in range(200)], '# comment', 'import site' ]) try: env = os.environ.copy() env['PYTHONPATH'] = 'from-env' env['PATH'] = '{};{}'.format(exe_prefix, os.getenv('PATH')) rc = subprocess.call([exe_file, '-c', 'import sys; sys.exit(not sys.flags.no_site and ' '%r in sys.path and %r in sys.path and %r not in sys.path)' % ( os.path.join(sys.prefix, 'fake-path-name'), libpath, os.path.join(sys.prefix, 'from-env'), )], env=env) finally: self._cleanup_underpth_exe(exe_file) self.assertEqual(rc, 0) if __name__ == "__main__": unittest.main()