import compileall import contextlib import filecmp import importlib.util import io import os import py_compile import shutil import struct import sys import tempfile import test.test_importlib.util import time import unittest from unittest import mock, skipUnless try: # compileall relies on ProcessPoolExecutor if ProcessPoolExecutor exists # and it can function. from multiprocessing.util import _cleanup_tests as multiprocessing_cleanup_tests from concurrent.futures import ProcessPoolExecutor from concurrent.futures.process import _check_system_limits _check_system_limits() _have_multiprocessing = True except (NotImplementedError, ModuleNotFoundError): _have_multiprocessing = False from test import support from test.support import os_helper from test.support import script_helper from test.test_py_compile import without_source_date_epoch from test.test_py_compile import SourceDateEpochTestMeta from test.support.os_helper import FakePath def get_pyc(script, opt): if not opt: # Replace None and 0 with '' opt = '' return importlib.util.cache_from_source(script, optimization=opt) def get_pycs(script): return [get_pyc(script, opt) for opt in (0, 1, 2)] def is_hardlink(filename1, filename2): """Returns True if two files have the same inode (hardlink)""" inode1 = os.stat(filename1).st_ino inode2 = os.stat(filename2).st_ino return inode1 == inode2 class CompileallTestsBase: def setUp(self): self.directory = tempfile.mkdtemp() self.addCleanup(shutil.rmtree, self.directory) self.source_path = os.path.join(self.directory, '_test.py') self.bc_path = importlib.util.cache_from_source(self.source_path) with open(self.source_path, 'w', encoding="utf-8") as file: file.write('x = 123\n') self.source_path2 = os.path.join(self.directory, '_test2.py') self.bc_path2 = importlib.util.cache_from_source(self.source_path2) shutil.copyfile(self.source_path, self.source_path2) self.subdirectory = os.path.join(self.directory, '_subdir') os.mkdir(self.subdirectory) self.source_path3 = os.path.join(self.subdirectory, '_test3.py') shutil.copyfile(self.source_path, self.source_path3) def add_bad_source_file(self): self.bad_source_path = os.path.join(self.directory, '_test_bad.py') with open(self.bad_source_path, 'w', encoding="utf-8") as file: file.write('x (\n') def timestamp_metadata(self): with open(self.bc_path, 'rb') as file: data = file.read(12) mtime = int(os.stat(self.source_path).st_mtime) compare = struct.pack('<4sLL', importlib.util.MAGIC_NUMBER, 0, mtime & 0xFFFF_FFFF) return data, compare def test_year_2038_mtime_compilation(self): # Test to make sure we can handle mtimes larger than what a 32-bit # signed number can hold as part of bpo-34990 try: os.utime(self.source_path, (2**32 - 1, 2**32 - 1)) except (OverflowError, OSError): self.skipTest("filesystem doesn't support timestamps near 2**32") with contextlib.redirect_stdout(io.StringIO()): self.assertTrue(compileall.compile_file(self.source_path)) def test_larger_than_32_bit_times(self): # This is similar to the test above but we skip it if the OS doesn't # support modification times larger than 32-bits. try: os.utime(self.source_path, (2**35, 2**35)) except (OverflowError, OSError): self.skipTest("filesystem doesn't support large timestamps") with contextlib.redirect_stdout(io.StringIO()): self.assertTrue(compileall.compile_file(self.source_path)) def recreation_check(self, metadata): """Check that compileall recreates bytecode when the new metadata is used.""" if os.environ.get('SOURCE_DATE_EPOCH'): raise unittest.SkipTest('SOURCE_DATE_EPOCH is set') py_compile.compile(self.source_path) self.assertEqual(*self.timestamp_metadata()) with open(self.bc_path, 'rb') as file: bc = file.read()[len(metadata):] with open(self.bc_path, 'wb') as file: file.write(metadata) file.write(bc) self.assertNotEqual(*self.timestamp_metadata()) compileall.compile_dir(self.directory, force=False, quiet=True) self.assertTrue(*self.timestamp_metadata()) def test_mtime(self): # Test a change in mtime leads to a new .pyc. self.recreation_check(struct.pack('<4sLL', importlib.util.MAGIC_NUMBER, 0, 1)) def test_magic_number(self): # Test a change in mtime leads to a new .pyc. self.recreation_check(b'\0\0\0\0') def test_compile_files(self): # Test compiling a single file, and complete directory for fn in (self.bc_path, self.bc_path2): try: os.unlink(fn) except: pass self.assertTrue(compileall.compile_file(self.source_path, force=False, quiet=True)) self.assertTrue(os.path.isfile(self.bc_path) and not os.path.isfile(self.bc_path2)) os.unlink(self.bc_path) self.assertTrue(compileall.compile_dir(self.directory, force=False, quiet=True)) self.assertTrue(os.path.isfile(self.bc_path) and os.path.isfile(self.bc_path2)) os.unlink(self.bc_path) os.unlink(self.bc_path2) # Test against bad files self.add_bad_source_file() self.assertFalse(compileall.compile_file(self.bad_source_path, force=False, quiet=2)) self.assertFalse(compileall.compile_dir(self.directory, force=False, quiet=2)) def test_compile_file_pathlike(self): self.assertFalse(os.path.isfile(self.bc_path)) # we should also test the output with support.captured_stdout() as stdout: self.assertTrue(compileall.compile_file(FakePath(self.source_path))) self.assertRegex(stdout.getvalue(), r'Compiling ([^WindowsPath|PosixPath].*)') self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_file_pathlike_ddir(self): self.assertFalse(os.path.isfile(self.bc_path)) self.assertTrue(compileall.compile_file(FakePath(self.source_path), ddir=FakePath('ddir_path'), quiet=2)) self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_file_pathlike_stripdir(self): self.assertFalse(os.path.isfile(self.bc_path)) self.assertTrue(compileall.compile_file(FakePath(self.source_path), stripdir=FakePath('stripdir_path'), quiet=2)) self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_file_pathlike_prependdir(self): self.assertFalse(os.path.isfile(self.bc_path)) self.assertTrue(compileall.compile_file(FakePath(self.source_path), prependdir=FakePath('prependdir_path'), quiet=2)) self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_path(self): with test.test_importlib.util.import_state(path=[self.directory]): self.assertTrue(compileall.compile_path(quiet=2)) with test.test_importlib.util.import_state(path=[self.directory]): self.add_bad_source_file() self.assertFalse(compileall.compile_path(skip_curdir=False, force=True, quiet=2)) def test_no_pycache_in_non_package(self): # Bug 8563 reported that __pycache__ directories got created by # compile_file() for non-.py files. data_dir = os.path.join(self.directory, 'data') data_file = os.path.join(data_dir, 'file') os.mkdir(data_dir) # touch data/file with open(data_file, 'wb'): pass compileall.compile_file(data_file) self.assertFalse(os.path.exists(os.path.join(data_dir, '__pycache__'))) def test_compile_file_encoding_fallback(self): # Bug 44666 reported that compile_file failed when sys.stdout.encoding is None self.add_bad_source_file() with contextlib.redirect_stdout(io.StringIO()): self.assertFalse(compileall.compile_file(self.bad_source_path)) def test_optimize(self): # make sure compiling with different optimization settings than the # interpreter's creates the correct file names optimize, opt = (1, 1) if __debug__ else (0, '') compileall.compile_dir(self.directory, quiet=True, optimize=optimize) cached = importlib.util.cache_from_source(self.source_path, optimization=opt) self.assertTrue(os.path.isfile(cached)) cached2 = importlib.util.cache_from_source(self.source_path2, optimization=opt) self.assertTrue(os.path.isfile(cached2)) cached3 = importlib.util.cache_from_source(self.source_path3, optimization=opt) self.assertTrue(os.path.isfile(cached3)) def test_compile_dir_pathlike(self): self.assertFalse(os.path.isfile(self.bc_path)) with support.captured_stdout() as stdout: compileall.compile_dir(FakePath(self.directory)) line = stdout.getvalue().splitlines()[0] self.assertRegex(line, r'Listing ([^WindowsPath|PosixPath].*)') self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_dir_pathlike_stripdir(self): self.assertFalse(os.path.isfile(self.bc_path)) self.assertTrue(compileall.compile_dir(FakePath(self.directory), stripdir=FakePath('stripdir_path'), quiet=2)) self.assertTrue(os.path.isfile(self.bc_path)) def test_compile_dir_pathlike_prependdir(self): self.assertFalse(os.path.isfile(self.bc_path)) self.assertTrue(compileall.compile_dir(FakePath(self.directory), prependdir=FakePath('prependdir_path'), quiet=2)) self.assertTrue(os.path.isfile(self.bc_path)) @skipUnless(_have_multiprocessing, "requires multiprocessing") @mock.patch('concurrent.futures.ProcessPoolExecutor') def test_compile_pool_called(self, pool_mock): compileall.compile_dir(self.directory, quiet=True, workers=5) self.assertTrue(pool_mock.called) def test_compile_workers_non_positive(self): with self.assertRaisesRegex(ValueError, "workers must be greater or equal to 0"): compileall.compile_dir(self.directory, workers=-1) @skipUnless(_have_multiprocessing, "requires multiprocessing") @mock.patch('concurrent.futures.ProcessPoolExecutor') def test_compile_workers_cpu_count(self, pool_mock): compileall.compile_dir(self.directory, quiet=True, workers=0) self.assertEqual(pool_mock.call_args[1]['max_workers'], None) @skipUnless(_have_multiprocessing, "requires multiprocessing") @mock.patch('concurrent.futures.ProcessPoolExecutor') @mock.patch('compileall.compile_file') def test_compile_one_worker(self, compile_file_mock, pool_mock): compileall.compile_dir(self.directory, quiet=True) self.assertFalse(pool_mock.called) self.assertTrue(compile_file_mock.called) @skipUnless(_have_multiprocessing, "requires multiprocessing") @mock.patch('concurrent.futures.ProcessPoolExecutor', new=None) @mock.patch('compileall.compile_file') def test_compile_missing_multiprocessing(self, compile_file_mock): compileall.compile_dir(self.directory, quiet=True, workers=5) self.assertTrue(compile_file_mock.called) def test_compile_dir_maxlevels(self): # Test the actual impact of maxlevels parameter depth = 3 path = self.directory for i in range(1, depth + 1): path = os.path.join(path, f"dir_{i}") source = os.path.join(path, 'script.py') os.mkdir(path) shutil.copyfile(self.source_path, source) pyc_filename = importlib.util.cache_from_source(source) compileall.compile_dir(self.directory, quiet=True, maxlevels=depth - 1) self.assertFalse(os.path.isfile(pyc_filename)) compileall.compile_dir(self.directory, quiet=True, maxlevels=depth) self.assertTrue(os.path.isfile(pyc_filename)) def _test_ddir_only(self, *, ddir, parallel=True): """Recursive compile_dir ddir must contain package paths; bpo39769.""" fullpath = ["test", "foo"] path = self.directory mods = [] for subdir in fullpath: path = os.path.join(path, subdir) os.mkdir(path) script_helper.make_script(path, "__init__", "") mods.append(script_helper.make_script(path, "mod", "def fn(): 1/0\nfn()\n")) if parallel: self.addCleanup(multiprocessing_cleanup_tests) compileall.compile_dir( self.directory, quiet=True, ddir=ddir, workers=2 if parallel else 1) self.assertTrue(mods) for mod in mods: self.assertTrue(mod.startswith(self.directory), mod) modcode = importlib.util.cache_from_source(mod) modpath = mod[len(self.directory+os.sep):] _, _, err = script_helper.assert_python_failure(modcode) expected_in = os.path.join(ddir, modpath) mod_code_obj = test.test_importlib.util.get_code_from_pyc(modcode) self.assertEqual(mod_code_obj.co_filename, expected_in) self.assertIn(f'"{expected_in}"', os.fsdecode(err)) def test_ddir_only_one_worker(self): """Recursive compile_dir ddir= contains package paths; bpo39769.""" return self._test_ddir_only(ddir="", parallel=False) @skipUnless(_have_multiprocessing, "requires multiprocessing") def test_ddir_multiple_workers(self): """Recursive compile_dir ddir= contains package paths; bpo39769.""" return self._test_ddir_only(ddir="", parallel=True) def test_ddir_empty_only_one_worker(self): """Recursive compile_dir ddir='' contains package paths; bpo39769.""" return self._test_ddir_only(ddir="", parallel=False) @skipUnless(_have_multiprocessing, "requires multiprocessing") def test_ddir_empty_multiple_workers(self): """Recursive compile_dir ddir='' contains package paths; bpo39769.""" return self._test_ddir_only(ddir="", parallel=True) def test_strip_only(self): fullpath = ["test", "build", "real", "path"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script = script_helper.make_script(path, "test", "1 / 0") bc = importlib.util.cache_from_source(script) stripdir = os.path.join(self.directory, *fullpath[:2]) compileall.compile_dir(path, quiet=True, stripdir=stripdir) rc, out, err = script_helper.assert_python_failure(bc) expected_in = os.path.join(*fullpath[2:]) self.assertIn( expected_in, str(err, encoding=sys.getdefaultencoding()) ) self.assertNotIn( stripdir, str(err, encoding=sys.getdefaultencoding()) ) def test_strip_only_invalid(self): fullpath = ["test", "build", "real", "path"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script = script_helper.make_script(path, "test", "1 / 0") bc = importlib.util.cache_from_source(script) stripdir = os.path.join(self.directory, *(fullpath[:2] + ['fake'])) with support.captured_stdout() as out: compileall.compile_dir(path, quiet=True, stripdir=stripdir) self.assertIn("not a valid prefix", out.getvalue()) rc, out, err = script_helper.assert_python_failure(bc) expected_not_in = os.path.join(self.directory, *fullpath[2:]) self.assertIn( path, str(err, encoding=sys.getdefaultencoding()) ) self.assertNotIn( expected_not_in, str(err, encoding=sys.getdefaultencoding()) ) self.assertNotIn( stripdir, str(err, encoding=sys.getdefaultencoding()) ) def test_prepend_only(self): fullpath = ["test", "build", "real", "path"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script = script_helper.make_script(path, "test", "1 / 0") bc = importlib.util.cache_from_source(script) prependdir = "/foo" compileall.compile_dir(path, quiet=True, prependdir=prependdir) rc, out, err = script_helper.assert_python_failure(bc) expected_in = os.path.join(prependdir, self.directory, *fullpath) self.assertIn( expected_in, str(err, encoding=sys.getdefaultencoding()) ) def test_strip_and_prepend(self): fullpath = ["test", "build", "real", "path"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script = script_helper.make_script(path, "test", "1 / 0") bc = importlib.util.cache_from_source(script) stripdir = os.path.join(self.directory, *fullpath[:2]) prependdir = "/foo" compileall.compile_dir(path, quiet=True, stripdir=stripdir, prependdir=prependdir) rc, out, err = script_helper.assert_python_failure(bc) expected_in = os.path.join(prependdir, *fullpath[2:]) self.assertIn( expected_in, str(err, encoding=sys.getdefaultencoding()) ) self.assertNotIn( stripdir, str(err, encoding=sys.getdefaultencoding()) ) def test_strip_prepend_and_ddir(self): fullpath = ["test", "build", "real", "path", "ddir"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script_helper.make_script(path, "test", "1 / 0") with self.assertRaises(ValueError): compileall.compile_dir(path, quiet=True, ddir="/bar", stripdir="/foo", prependdir="/bar") def test_multiple_optimization_levels(self): script = script_helper.make_script(self.directory, "test_optimization", "a = 0") bc = [] for opt_level in "", 1, 2, 3: bc.append(importlib.util.cache_from_source(script, optimization=opt_level)) test_combinations = [[0, 1], [1, 2], [0, 2], [0, 1, 2]] for opt_combination in test_combinations: compileall.compile_file(script, quiet=True, optimize=opt_combination) for opt_level in opt_combination: self.assertTrue(os.path.isfile(bc[opt_level])) try: os.unlink(bc[opt_level]) except Exception: pass @os_helper.skip_unless_symlink def test_ignore_symlink_destination(self): # Create folders for allowed files, symlinks and prohibited area allowed_path = os.path.join(self.directory, "test", "dir", "allowed") symlinks_path = os.path.join(self.directory, "test", "dir", "symlinks") prohibited_path = os.path.join(self.directory, "test", "dir", "prohibited") os.makedirs(allowed_path) os.makedirs(symlinks_path) os.makedirs(prohibited_path) # Create scripts and symlinks and remember their byte-compiled versions allowed_script = script_helper.make_script(allowed_path, "test_allowed", "a = 0") prohibited_script = script_helper.make_script(prohibited_path, "test_prohibited", "a = 0") allowed_symlink = os.path.join(symlinks_path, "test_allowed.py") prohibited_symlink = os.path.join(symlinks_path, "test_prohibited.py") os.symlink(allowed_script, allowed_symlink) os.symlink(prohibited_script, prohibited_symlink) allowed_bc = importlib.util.cache_from_source(allowed_symlink) prohibited_bc = importlib.util.cache_from_source(prohibited_symlink) compileall.compile_dir(symlinks_path, quiet=True, limit_sl_dest=allowed_path) self.assertTrue(os.path.isfile(allowed_bc)) self.assertFalse(os.path.isfile(prohibited_bc)) class CompileallTestsWithSourceEpoch(CompileallTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=True): pass class CompileallTestsWithoutSourceEpoch(CompileallTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=False): pass # WASI does not have a temp directory and uses cwd instead. The cwd contains # non-ASCII chars, so _walk_dir() fails to encode self.directory. @unittest.skipIf(support.is_wasi, "tempdir is not encodable on WASI") class EncodingTest(unittest.TestCase): """Issue 6716: compileall should escape source code when printing errors to stdout.""" def setUp(self): self.directory = tempfile.mkdtemp() self.source_path = os.path.join(self.directory, '_test.py') with open(self.source_path, 'w', encoding='utf-8') as file: # Intentional syntax error: bytes can only contain # ASCII literal characters. file.write('b"\u20ac"') def tearDown(self): shutil.rmtree(self.directory) def test_error(self): buffer = io.TextIOWrapper(io.BytesIO(), encoding='ascii') with contextlib.redirect_stdout(buffer): compiled = compileall.compile_dir(self.directory) self.assertFalse(compiled) # should not be successful buffer.seek(0) res = buffer.read() self.assertIn( 'SyntaxError: bytes can only contain ASCII literal characters', res, ) self.assertNotIn('UnicodeEncodeError', res) class CommandLineTestsBase: """Test compileall's CLI.""" def setUp(self): self.directory = tempfile.mkdtemp() self.addCleanup(os_helper.rmtree, self.directory) self.pkgdir = os.path.join(self.directory, 'foo') os.mkdir(self.pkgdir) self.pkgdir_cachedir = os.path.join(self.pkgdir, '__pycache__') # Create the __init__.py and a package module. self.initfn = script_helper.make_script(self.pkgdir, '__init__', '') self.barfn = script_helper.make_script(self.pkgdir, 'bar', '') @contextlib.contextmanager def temporary_pycache_prefix(self): """Adjust and restore sys.pycache_prefix.""" old_prefix = sys.pycache_prefix new_prefix = os.path.join(self.directory, '__testcache__') try: sys.pycache_prefix = new_prefix yield { 'PYTHONPATH': self.directory, 'PYTHONPYCACHEPREFIX': new_prefix, } finally: sys.pycache_prefix = old_prefix def _get_run_args(self, args): return [*support.optim_args_from_interpreter_flags(), '-S', '-m', 'compileall', *args] def assertRunOK(self, *args, **env_vars): rc, out, err = script_helper.assert_python_ok( *self._get_run_args(args), **env_vars, PYTHONIOENCODING='utf-8') self.assertEqual(b'', err) return out def assertRunNotOK(self, *args, **env_vars): rc, out, err = script_helper.assert_python_failure( *self._get_run_args(args), **env_vars, PYTHONIOENCODING='utf-8') return rc, out, err def assertCompiled(self, fn): path = importlib.util.cache_from_source(fn) self.assertTrue(os.path.exists(path)) def assertNotCompiled(self, fn): path = importlib.util.cache_from_source(fn) self.assertFalse(os.path.exists(path)) def test_no_args_compiles_path(self): # Note that -l is implied for the no args case. bazfn = script_helper.make_script(self.directory, 'baz', '') with self.temporary_pycache_prefix() as env: self.assertRunOK(**env) self.assertCompiled(bazfn) self.assertNotCompiled(self.initfn) self.assertNotCompiled(self.barfn) @without_source_date_epoch # timestamp invalidation test @support.requires_resource('cpu') def test_no_args_respects_force_flag(self): bazfn = script_helper.make_script(self.directory, 'baz', '') with self.temporary_pycache_prefix() as env: self.assertRunOK(**env) pycpath = importlib.util.cache_from_source(bazfn) # Set atime/mtime backward to avoid file timestamp resolution issues os.utime(pycpath, (time.time()-60,)*2) mtime = os.stat(pycpath).st_mtime # Without force, no recompilation self.assertRunOK(**env) mtime2 = os.stat(pycpath).st_mtime self.assertEqual(mtime, mtime2) # Now force it. self.assertRunOK('-f', **env) mtime2 = os.stat(pycpath).st_mtime self.assertNotEqual(mtime, mtime2) @support.requires_resource('cpu') def test_no_args_respects_quiet_flag(self): script_helper.make_script(self.directory, 'baz', '') with self.temporary_pycache_prefix() as env: noisy = self.assertRunOK(**env) self.assertIn(b'Listing ', noisy) quiet = self.assertRunOK('-q', **env) self.assertNotIn(b'Listing ', quiet) # Ensure that the default behavior of compileall's CLI is to create # PEP 3147/PEP 488 pyc files. for name, ext, switch in [ ('normal', 'pyc', []), ('optimize', 'opt-1.pyc', ['-O']), ('doubleoptimize', 'opt-2.pyc', ['-OO']), ]: def f(self, ext=ext, switch=switch): script_helper.assert_python_ok(*(switch + ['-m', 'compileall', '-q', self.pkgdir])) # Verify the __pycache__ directory contents. self.assertTrue(os.path.exists(self.pkgdir_cachedir)) expected = sorted(base.format(sys.implementation.cache_tag, ext) for base in ('__init__.{}.{}', 'bar.{}.{}')) self.assertEqual(sorted(os.listdir(self.pkgdir_cachedir)), expected) # Make sure there are no .pyc files in the source directory. self.assertFalse([fn for fn in os.listdir(self.pkgdir) if fn.endswith(ext)]) locals()['test_pep3147_paths_' + name] = f def test_legacy_paths(self): # Ensure that with the proper switch, compileall leaves legacy # pyc files, and no __pycache__ directory. self.assertRunOK('-b', '-q', self.pkgdir) # Verify the __pycache__ directory contents. self.assertFalse(os.path.exists(self.pkgdir_cachedir)) expected = sorted(['__init__.py', '__init__.pyc', 'bar.py', 'bar.pyc']) self.assertEqual(sorted(os.listdir(self.pkgdir)), expected) def test_multiple_runs(self): # Bug 8527 reported that multiple calls produced empty # __pycache__/__pycache__ directories. self.assertRunOK('-q', self.pkgdir) # Verify the __pycache__ directory contents. self.assertTrue(os.path.exists(self.pkgdir_cachedir)) cachecachedir = os.path.join(self.pkgdir_cachedir, '__pycache__') self.assertFalse(os.path.exists(cachecachedir)) # Call compileall again. self.assertRunOK('-q', self.pkgdir) self.assertTrue(os.path.exists(self.pkgdir_cachedir)) self.assertFalse(os.path.exists(cachecachedir)) @without_source_date_epoch # timestamp invalidation test def test_force(self): self.assertRunOK('-q', self.pkgdir) pycpath = importlib.util.cache_from_source(self.barfn) # set atime/mtime backward to avoid file timestamp resolution issues os.utime(pycpath, (time.time()-60,)*2) mtime = os.stat(pycpath).st_mtime # without force, no recompilation self.assertRunOK('-q', self.pkgdir) mtime2 = os.stat(pycpath).st_mtime self.assertEqual(mtime, mtime2) # now force it. self.assertRunOK('-q', '-f', self.pkgdir) mtime2 = os.stat(pycpath).st_mtime self.assertNotEqual(mtime, mtime2) def test_recursion_control(self): subpackage = os.path.join(self.pkgdir, 'spam') os.mkdir(subpackage) subinitfn = script_helper.make_script(subpackage, '__init__', '') hamfn = script_helper.make_script(subpackage, 'ham', '') self.assertRunOK('-q', '-l', self.pkgdir) self.assertNotCompiled(subinitfn) self.assertFalse(os.path.exists(os.path.join(subpackage, '__pycache__'))) self.assertRunOK('-q', self.pkgdir) self.assertCompiled(subinitfn) self.assertCompiled(hamfn) def test_recursion_limit(self): subpackage = os.path.join(self.pkgdir, 'spam') subpackage2 = os.path.join(subpackage, 'ham') subpackage3 = os.path.join(subpackage2, 'eggs') for pkg in (subpackage, subpackage2, subpackage3): script_helper.make_pkg(pkg) subinitfn = os.path.join(subpackage, '__init__.py') hamfn = script_helper.make_script(subpackage, 'ham', '') spamfn = script_helper.make_script(subpackage2, 'spam', '') eggfn = script_helper.make_script(subpackage3, 'egg', '') self.assertRunOK('-q', '-r 0', self.pkgdir) self.assertNotCompiled(subinitfn) self.assertFalse( os.path.exists(os.path.join(subpackage, '__pycache__'))) self.assertRunOK('-q', '-r 1', self.pkgdir) self.assertCompiled(subinitfn) self.assertCompiled(hamfn) self.assertNotCompiled(spamfn) self.assertRunOK('-q', '-r 2', self.pkgdir) self.assertCompiled(subinitfn) self.assertCompiled(hamfn) self.assertCompiled(spamfn) self.assertNotCompiled(eggfn) self.assertRunOK('-q', '-r 5', self.pkgdir) self.assertCompiled(subinitfn) self.assertCompiled(hamfn) self.assertCompiled(spamfn) self.assertCompiled(eggfn) @os_helper.skip_unless_symlink def test_symlink_loop(self): # Currently, compileall ignores symlinks to directories. # If that limitation is ever lifted, it should protect against # recursion in symlink loops. pkg = os.path.join(self.pkgdir, 'spam') script_helper.make_pkg(pkg) os.symlink('.', os.path.join(pkg, 'evil')) os.symlink('.', os.path.join(pkg, 'evil2')) self.assertRunOK('-q', self.pkgdir) self.assertCompiled(os.path.join( self.pkgdir, 'spam', 'evil', 'evil2', '__init__.py' )) def test_quiet(self): noisy = self.assertRunOK(self.pkgdir) quiet = self.assertRunOK('-q', self.pkgdir) self.assertNotEqual(b'', noisy) self.assertEqual(b'', quiet) def test_silent(self): script_helper.make_script(self.pkgdir, 'crunchyfrog', 'bad(syntax') _, quiet, _ = self.assertRunNotOK('-q', self.pkgdir) _, silent, _ = self.assertRunNotOK('-qq', self.pkgdir) self.assertNotEqual(b'', quiet) self.assertEqual(b'', silent) def test_regexp(self): self.assertRunOK('-q', '-x', r'ba[^\\/]*$', self.pkgdir) self.assertNotCompiled(self.barfn) self.assertCompiled(self.initfn) def test_multiple_dirs(self): pkgdir2 = os.path.join(self.directory, 'foo2') os.mkdir(pkgdir2) init2fn = script_helper.make_script(pkgdir2, '__init__', '') bar2fn = script_helper.make_script(pkgdir2, 'bar2', '') self.assertRunOK('-q', self.pkgdir, pkgdir2) self.assertCompiled(self.initfn) self.assertCompiled(self.barfn) self.assertCompiled(init2fn) self.assertCompiled(bar2fn) def test_d_compile_error(self): script_helper.make_script(self.pkgdir, 'crunchyfrog', 'bad(syntax') rc, out, err = self.assertRunNotOK('-q', '-d', 'dinsdale', self.pkgdir) self.assertRegex(out, b'File "dinsdale') def test_d_runtime_error(self): bazfn = script_helper.make_script(self.pkgdir, 'baz', 'raise Exception') self.assertRunOK('-q', '-d', 'dinsdale', self.pkgdir) fn = script_helper.make_script(self.pkgdir, 'bing', 'import baz') pyc = importlib.util.cache_from_source(bazfn) os.rename(pyc, os.path.join(self.pkgdir, 'baz.pyc')) os.remove(bazfn) rc, out, err = script_helper.assert_python_failure(fn, __isolated=False) self.assertRegex(err, b'File "dinsdale') def test_include_bad_file(self): rc, out, err = self.assertRunNotOK( '-i', os.path.join(self.directory, 'nosuchfile'), self.pkgdir) self.assertRegex(out, b'rror.*nosuchfile') self.assertNotRegex(err, b'Traceback') self.assertFalse(os.path.exists(importlib.util.cache_from_source( self.pkgdir_cachedir))) def test_include_file_with_arg(self): f1 = script_helper.make_script(self.pkgdir, 'f1', '') f2 = script_helper.make_script(self.pkgdir, 'f2', '') f3 = script_helper.make_script(self.pkgdir, 'f3', '') f4 = script_helper.make_script(self.pkgdir, 'f4', '') with open(os.path.join(self.directory, 'l1'), 'w', encoding="utf-8") as l1: l1.write(os.path.join(self.pkgdir, 'f1.py')+os.linesep) l1.write(os.path.join(self.pkgdir, 'f2.py')+os.linesep) self.assertRunOK('-i', os.path.join(self.directory, 'l1'), f4) self.assertCompiled(f1) self.assertCompiled(f2) self.assertNotCompiled(f3) self.assertCompiled(f4) def test_include_file_no_arg(self): f1 = script_helper.make_script(self.pkgdir, 'f1', '') f2 = script_helper.make_script(self.pkgdir, 'f2', '') f3 = script_helper.make_script(self.pkgdir, 'f3', '') f4 = script_helper.make_script(self.pkgdir, 'f4', '') with open(os.path.join(self.directory, 'l1'), 'w', encoding="utf-8") as l1: l1.write(os.path.join(self.pkgdir, 'f2.py')+os.linesep) self.assertRunOK('-i', os.path.join(self.directory, 'l1')) self.assertNotCompiled(f1) self.assertCompiled(f2) self.assertNotCompiled(f3) self.assertNotCompiled(f4) def test_include_on_stdin(self): f1 = script_helper.make_script(self.pkgdir, 'f1', '') f2 = script_helper.make_script(self.pkgdir, 'f2', '') f3 = script_helper.make_script(self.pkgdir, 'f3', '') f4 = script_helper.make_script(self.pkgdir, 'f4', '') p = script_helper.spawn_python(*(self._get_run_args(()) + ['-i', '-'])) p.stdin.write((f3+os.linesep).encode('ascii')) script_helper.kill_python(p) self.assertNotCompiled(f1) self.assertNotCompiled(f2) self.assertCompiled(f3) self.assertNotCompiled(f4) def test_compiles_as_much_as_possible(self): bingfn = script_helper.make_script(self.pkgdir, 'bing', 'syntax(error') rc, out, err = self.assertRunNotOK('nosuchfile', self.initfn, bingfn, self.barfn) self.assertRegex(out, b'rror') self.assertNotCompiled(bingfn) self.assertCompiled(self.initfn) self.assertCompiled(self.barfn) def test_invalid_arg_produces_message(self): out = self.assertRunOK('badfilename') self.assertRegex(out, b"Can't list 'badfilename'") def test_pyc_invalidation_mode(self): script_helper.make_script(self.pkgdir, 'f1', '') pyc = importlib.util.cache_from_source( os.path.join(self.pkgdir, 'f1.py')) self.assertRunOK('--invalidation-mode=checked-hash', self.pkgdir) with open(pyc, 'rb') as fp: data = fp.read() self.assertEqual(int.from_bytes(data[4:8], 'little'), 0b11) self.assertRunOK('--invalidation-mode=unchecked-hash', self.pkgdir) with open(pyc, 'rb') as fp: data = fp.read() self.assertEqual(int.from_bytes(data[4:8], 'little'), 0b01) @skipUnless(_have_multiprocessing, "requires multiprocessing") def test_workers(self): bar2fn = script_helper.make_script(self.directory, 'bar2', '') files = [] for suffix in range(5): pkgdir = os.path.join(self.directory, 'foo{}'.format(suffix)) os.mkdir(pkgdir) fn = script_helper.make_script(pkgdir, '__init__', '') files.append(script_helper.make_script(pkgdir, 'bar2', '')) self.assertRunOK(self.directory, '-j', '0') self.assertCompiled(bar2fn) for file in files: self.assertCompiled(file) @mock.patch('compileall.compile_dir') def test_workers_available_cores(self, compile_dir): with mock.patch("sys.argv", new=[sys.executable, self.directory, "-j0"]): compileall.main() self.assertTrue(compile_dir.called) self.assertEqual(compile_dir.call_args[-1]['workers'], 0) def test_strip_and_prepend(self): fullpath = ["test", "build", "real", "path"] path = os.path.join(self.directory, *fullpath) os.makedirs(path) script = script_helper.make_script(path, "test", "1 / 0") bc = importlib.util.cache_from_source(script) stripdir = os.path.join(self.directory, *fullpath[:2]) prependdir = "/foo" self.assertRunOK("-s", stripdir, "-p", prependdir, path) rc, out, err = script_helper.assert_python_failure(bc) expected_in = os.path.join(prependdir, *fullpath[2:]) self.assertIn( expected_in, str(err, encoding=sys.getdefaultencoding()) ) self.assertNotIn( stripdir, str(err, encoding=sys.getdefaultencoding()) ) def test_multiple_optimization_levels(self): path = os.path.join(self.directory, "optimizations") os.makedirs(path) script = script_helper.make_script(path, "test_optimization", "a = 0") bc = [] for opt_level in "", 1, 2, 3: bc.append(importlib.util.cache_from_source(script, optimization=opt_level)) test_combinations = [["0", "1"], ["1", "2"], ["0", "2"], ["0", "1", "2"]] for opt_combination in test_combinations: self.assertRunOK(path, *("-o" + str(n) for n in opt_combination)) for opt_level in opt_combination: self.assertTrue(os.path.isfile(bc[int(opt_level)])) try: os.unlink(bc[opt_level]) except Exception: pass @os_helper.skip_unless_symlink def test_ignore_symlink_destination(self): # Create folders for allowed files, symlinks and prohibited area allowed_path = os.path.join(self.directory, "test", "dir", "allowed") symlinks_path = os.path.join(self.directory, "test", "dir", "symlinks") prohibited_path = os.path.join(self.directory, "test", "dir", "prohibited") os.makedirs(allowed_path) os.makedirs(symlinks_path) os.makedirs(prohibited_path) # Create scripts and symlinks and remember their byte-compiled versions allowed_script = script_helper.make_script(allowed_path, "test_allowed", "a = 0") prohibited_script = script_helper.make_script(prohibited_path, "test_prohibited", "a = 0") allowed_symlink = os.path.join(symlinks_path, "test_allowed.py") prohibited_symlink = os.path.join(symlinks_path, "test_prohibited.py") os.symlink(allowed_script, allowed_symlink) os.symlink(prohibited_script, prohibited_symlink) allowed_bc = importlib.util.cache_from_source(allowed_symlink) prohibited_bc = importlib.util.cache_from_source(prohibited_symlink) self.assertRunOK(symlinks_path, "-e", allowed_path) self.assertTrue(os.path.isfile(allowed_bc)) self.assertFalse(os.path.isfile(prohibited_bc)) def test_hardlink_bad_args(self): # Bad arguments combination, hardlink deduplication make sense # only for more than one optimization level self.assertRunNotOK(self.directory, "-o 1", "--hardlink-dupes") def test_hardlink(self): # 'a = 0' code produces the same bytecode for the 3 optimization # levels. All three .pyc files must have the same inode (hardlinks). # # If deduplication is disabled, all pyc files must have different # inodes. for dedup in (True, False): with tempfile.TemporaryDirectory() as path: with self.subTest(dedup=dedup): script = script_helper.make_script(path, "script", "a = 0") pycs = get_pycs(script) args = ["-q", "-o 0", "-o 1", "-o 2"] if dedup: args.append("--hardlink-dupes") self.assertRunOK(path, *args) self.assertEqual(is_hardlink(pycs[0], pycs[1]), dedup) self.assertEqual(is_hardlink(pycs[1], pycs[2]), dedup) self.assertEqual(is_hardlink(pycs[0], pycs[2]), dedup) class CommandLineTestsWithSourceEpoch(CommandLineTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=True): pass class CommandLineTestsNoSourceEpoch(CommandLineTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=False): pass @os_helper.skip_unless_hardlink class HardlinkDedupTestsBase: # Test hardlink_dupes parameter of compileall.compile_dir() def setUp(self): self.path = None @contextlib.contextmanager def temporary_directory(self): with tempfile.TemporaryDirectory() as path: self.path = path yield path self.path = None def make_script(self, code, name="script"): return script_helper.make_script(self.path, name, code) def compile_dir(self, *, dedup=True, optimize=(0, 1, 2), force=False): compileall.compile_dir(self.path, quiet=True, optimize=optimize, hardlink_dupes=dedup, force=force) def test_bad_args(self): # Bad arguments combination, hardlink deduplication make sense # only for more than one optimization level with self.temporary_directory(): self.make_script("pass") with self.assertRaises(ValueError): compileall.compile_dir(self.path, quiet=True, optimize=0, hardlink_dupes=True) with self.assertRaises(ValueError): # same optimization level specified twice: # compile_dir() removes duplicates compileall.compile_dir(self.path, quiet=True, optimize=[0, 0], hardlink_dupes=True) def create_code(self, docstring=False, assertion=False): lines = [] if docstring: lines.append("'module docstring'") lines.append('x = 1') if assertion: lines.append("assert x == 1") return '\n'.join(lines) def iter_codes(self): for docstring in (False, True): for assertion in (False, True): code = self.create_code(docstring=docstring, assertion=assertion) yield (code, docstring, assertion) def test_disabled(self): # Deduplication disabled, no hardlinks for code, docstring, assertion in self.iter_codes(): with self.subTest(docstring=docstring, assertion=assertion): with self.temporary_directory(): script = self.make_script(code) pycs = get_pycs(script) self.compile_dir(dedup=False) self.assertFalse(is_hardlink(pycs[0], pycs[1])) self.assertFalse(is_hardlink(pycs[0], pycs[2])) self.assertFalse(is_hardlink(pycs[1], pycs[2])) def check_hardlinks(self, script, docstring=False, assertion=False): pycs = get_pycs(script) self.assertEqual(is_hardlink(pycs[0], pycs[1]), not assertion) self.assertEqual(is_hardlink(pycs[0], pycs[2]), not assertion and not docstring) self.assertEqual(is_hardlink(pycs[1], pycs[2]), not docstring) def test_hardlink(self): # Test deduplication on all combinations for code, docstring, assertion in self.iter_codes(): with self.subTest(docstring=docstring, assertion=assertion): with self.temporary_directory(): script = self.make_script(code) self.compile_dir() self.check_hardlinks(script, docstring, assertion) def test_only_two_levels(self): # Don't build the 3 optimization levels, but only 2 for opts in ((0, 1), (1, 2), (0, 2)): with self.subTest(opts=opts): with self.temporary_directory(): # code with no dostring and no assertion: # same bytecode for all optimization levels script = self.make_script(self.create_code()) self.compile_dir(optimize=opts) pyc1 = get_pyc(script, opts[0]) pyc2 = get_pyc(script, opts[1]) self.assertTrue(is_hardlink(pyc1, pyc2)) def test_duplicated_levels(self): # compile_dir() must not fail if optimize contains duplicated # optimization levels and/or if optimization levels are not sorted. with self.temporary_directory(): # code with no dostring and no assertion: # same bytecode for all optimization levels script = self.make_script(self.create_code()) self.compile_dir(optimize=[1, 0, 1, 0]) pyc1 = get_pyc(script, 0) pyc2 = get_pyc(script, 1) self.assertTrue(is_hardlink(pyc1, pyc2)) def test_recompilation(self): # Test compile_dir() when pyc files already exists and the script # content changed with self.temporary_directory(): script = self.make_script("a = 0") self.compile_dir() # All three levels have the same inode self.check_hardlinks(script) pycs = get_pycs(script) inode = os.stat(pycs[0]).st_ino # Change of the module content script = self.make_script("print(0)") # Recompilation without -o 1 self.compile_dir(optimize=[0, 2], force=True) # opt-1.pyc should have the same inode as before and others should not self.assertEqual(inode, os.stat(pycs[1]).st_ino) self.assertTrue(is_hardlink(pycs[0], pycs[2])) self.assertNotEqual(inode, os.stat(pycs[2]).st_ino) # opt-1.pyc and opt-2.pyc have different content self.assertFalse(filecmp.cmp(pycs[1], pycs[2], shallow=True)) def test_import(self): # Test that import updates a single pyc file when pyc files already # exists and the script content changed with self.temporary_directory(): script = self.make_script(self.create_code(), name="module") self.compile_dir() # All three levels have the same inode self.check_hardlinks(script) pycs = get_pycs(script) inode = os.stat(pycs[0]).st_ino # Change of the module content script = self.make_script("print(0)", name="module") # Import the module in Python with -O (optimization level 1) script_helper.assert_python_ok( "-O", "-c", "import module", __isolated=False, PYTHONPATH=self.path ) # Only opt-1.pyc is changed self.assertEqual(inode, os.stat(pycs[0]).st_ino) self.assertEqual(inode, os.stat(pycs[2]).st_ino) self.assertFalse(is_hardlink(pycs[1], pycs[2])) # opt-1.pyc and opt-2.pyc have different content self.assertFalse(filecmp.cmp(pycs[1], pycs[2], shallow=True)) class HardlinkDedupTestsWithSourceEpoch(HardlinkDedupTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=True): pass class HardlinkDedupTestsNoSourceEpoch(HardlinkDedupTestsBase, unittest.TestCase, metaclass=SourceDateEpochTestMeta, source_date_epoch=False): pass if __name__ == "__main__": unittest.main()