#----------------------------------------------------------------------------- # Copyright (c) 2005-2023, PyInstaller Development Team. # # Distributed under the terms of the GNU General Public License (version 2 # or later) with exception for distributing the bootloader. # # The full license is in the file COPYING.txt, distributed with this software. # # SPDX-License-Identifier: (GPL-2.0-or-later WITH Bootloader-exception) #----------------------------------------------------------------------------- import copy import glob import logging import os import platform import re import shutil import subprocess from contextlib import suppress # Set a handler for the root-logger to inhibit 'basicConfig()' (called in PyInstaller.log) is setting up a stream # handler writing to stderr. This avoids log messages to be written (and captured) twice: once on stderr and # once by pytests's caplog. logging.getLogger().addHandler(logging.NullHandler()) # Manages subprocess timeout. import psutil # noqa: E402 import py # noqa: E402 import pytest # noqa: E402 import sys # noqa: E402 # Expand sys.path with PyInstaller source. _ROOT_DIR = os.path.normpath(os.path.join(os.path.dirname(os.path.abspath(__file__)), '..', '..')) sys.path.append(_ROOT_DIR) from PyInstaller import __main__ as pyi_main # noqa: E402 from PyInstaller import configure # noqa: E402 from PyInstaller.compat import architecture, is_darwin, is_win # noqa: E402 from PyInstaller.depend.analysis import initialize_modgraph # noqa: E402 from PyInstaller.archive.readers import pkg_archive_contents # noqa: E402 from PyInstaller.utils.tests import gen_sourcefile # noqa: E402 from PyInstaller.utils.win32 import winutils # noqa: E402 # Timeout for running the executable. If executable does not exit in this time, it is interpreted as a test failure. _EXE_TIMEOUT = 3 * 60 # In sec. # All currently supported platforms SUPPORTED_OSES = {"darwin", "linux", "win32"} # Have pyi_builder fixure clean-up the temporary directories of successful tests. Controlled by environment variable. _PYI_BUILDER_CLEANUP = os.environ.get("PYI_BUILDER_CLEANUP", "1") == "1" # Fixtures # -------- @pytest.fixture def SPEC_DIR(request): """ Return the directory where the test spec-files reside. """ return py.path.local(_get_spec_dir(request)) @pytest.fixture def SCRIPT_DIR(request): """ Return the directory where the test scripts reside. """ return py.path.local(_get_script_dir(request)) def pytest_runtest_setup(item): """ Markers to skip tests based on the current platform. https://pytest.org/en/stable/example/markers.html#marking-platform-specific-tests-with-pytest Available markers: see setup.cfg [tool:pytest] markers - @pytest.mark.darwin (macOS) - @pytest.mark.linux (GNU/Linux) - @pytest.mark.win32 (Windows) """ supported_platforms = SUPPORTED_OSES.intersection(mark.name for mark in item.iter_markers()) plat = sys.platform if supported_platforms and plat not in supported_platforms: pytest.skip("does not run on %s" % plat) @pytest.hookimpl(tryfirst=True, hookwrapper=True) def pytest_runtest_makereport(item, call): # Execute all other hooks to obtain the report object. outcome = yield rep = outcome.get_result() # Set a report attribute for each phase of a call, which can be "setup", "call", "teardown". setattr(item, "rep_" + rep.when, rep) # Return the base directory which contains the current test module. def _get_base_dir(request): return os.path.dirname(os.path.abspath(request.fspath.strpath)) # Directory with Python scripts for functional tests. def _get_script_dir(request): return os.path.join(_get_base_dir(request), 'scripts') # Directory with testing modules used in some tests. def _get_modules_dir(request): return os.path.join(_get_base_dir(request), 'modules') # Directory with .toc log files. def _get_logs_dir(request): return os.path.join(_get_base_dir(request), 'logs') # Return the directory where data for tests is located. def _get_data_dir(request): return os.path.join(_get_base_dir(request), 'data') # Directory with .spec files used in some tests. def _get_spec_dir(request): return os.path.join(_get_base_dir(request), 'specs') @pytest.fixture def script_dir(request): return py.path.local(_get_script_dir(request)) # A helper function to copy from data/dir to tmpdir/data. def _data_dir_copy( # The pytest request object. request, # The name of the subdirectory located in data/name to copy. subdir_name, # The tmpdir object for this test. See: https://pytest.org/latest/tmpdir.html. tmpdir ): # Form the source and tmp paths. source_data_dir = py.path.local(_get_data_dir(request)).join(subdir_name) tmp_data_dir = tmpdir.join('data', subdir_name) # Copy the data. shutil.copytree(source_data_dir.strpath, tmp_data_dir.strpath) # Return the temporary data directory, so that the copied data can now be used. return tmp_data_dir # Define a fixure for the DataDir object. @pytest.fixture def data_dir( # The request object for this test. See # https://pytest.org/latest/builtin.html#_pytest.python.FixtureRequest # and # https://pytest.org/latest/fixture.html#fixtures-can-introspect-the-requesting-test-context. request, # The tmpdir object for this test. See https://pytest.org/latest/tmpdir.html. tmpdir ): # Strip the leading 'test_' from the test's name. name = request.function.__name__[5:] # Copy to tmpdir and return the path. return _data_dir_copy(request, name, tmpdir) class AppBuilder: def __init__(self, tmpdir, request, bundle_mode): self._tmpdir = tmpdir self._request = request self._mode = bundle_mode self._specdir = str(tmpdir) self._distdir = str(tmpdir / 'dist') self._builddir = str(tmpdir / 'build') self._is_spec = False def test_spec(self, specfile, *args, **kwargs): """ Test a Python script that is referenced in the supplied .spec file. """ __tracebackhide__ = True specfile = os.path.join(_get_spec_dir(self._request), specfile) # 'test_script' should handle .spec properly as script. self._is_spec = True return self.test_script(specfile, *args, **kwargs) def test_source(self, source, *args, **kwargs): """ Test a Python script given as source code. The source will be written into a file named like the test-function. This file will then be passed to `test_script`. If you need other related file, e.g., as `.toc`-file for testing the content, put it at at the normal place. Just mind to take the basnename from the test-function's name. :param script: Source code to create executable from. This will be saved into a temporary file which is then passed on to `test_script`. :param test_id: Test-id for parametrized tests. If given, it will be appended to the script filename, separated by two underscores. All other arguments are passed straight on to `test_script`. Ensure that the caller of `test_source` is in a UTF-8 encoded file with the correct '# -*- coding: utf-8 -*-' marker. """ __tracebackhide__ = True # For parametrized test append the test-id. scriptfile = gen_sourcefile(self._tmpdir, source, kwargs.setdefault('test_id')) del kwargs['test_id'] return self.test_script(str(scriptfile), *args, **kwargs) def test_script( self, script, pyi_args=None, app_name=None, app_args=None, runtime=None, run_from_path=False, **kwargs ): """ Main method to wrap all phases of testing a Python script. :param script: Name of script to create executable from. :param pyi_args: Additional arguments to pass to PyInstaller when creating executable. :param app_name: Name of the executable. This is equivalent to argument --name=APPNAME. :param app_args: Additional arguments to pass to :param runtime: Time in seconds how long to keep executable running. :param toc_log: List of modules that are expected to be bundled with the executable. """ __tracebackhide__ = True def marker(line): # Print some marker to stdout and stderr to make it easier to distinguish the phases in the CI test output. print('-------', line, '-------') print('-------', line, '-------', file=sys.stderr) if pyi_args is None: pyi_args = [] if app_args is None: app_args = [] if app_name: if not self._is_spec: pyi_args.extend(['--name', app_name]) else: # Derive name from script name. app_name = os.path.splitext(os.path.basename(script))[0] # Relative path means that a script from _script_dir is referenced. if not os.path.isabs(script): script = os.path.join(_get_script_dir(self._request), script) self.script = script assert os.path.exists(self.script), 'Script %s not found.' % script marker('Starting build.') if not self._test_building(args=pyi_args): pytest.fail('Building of %s failed.' % script) marker('Build finished, now running executable.') self._test_executables(app_name, args=app_args, runtime=runtime, run_from_path=run_from_path, **kwargs) marker('Running executable finished.') def _test_executables(self, name, args, runtime, run_from_path, **kwargs): """ Run created executable to make sure it works. Multipackage-tests generate more than one exe-file and all of them have to be run. :param args: CLI options to pass to the created executable. :param runtime: Time in seconds how long to keep the executable running. :return: Exit code of the executable. """ __tracebackhide__ = True exes = self._find_executables(name) # Empty list means that PyInstaller probably failed to create any executable. assert exes != [], 'No executable file was found.' for exe in exes: # Try to find .toc log file. .toc log file has the same basename as exe file. toc_log = os.path.join(_get_logs_dir(self._request), os.path.splitext(os.path.basename(exe))[0] + '.toc') if os.path.exists(toc_log): if not self._examine_executable(exe, toc_log): pytest.fail('Matching .toc of %s failed.' % exe) retcode = self._run_executable(exe, args, run_from_path, runtime) if retcode != kwargs.get('retcode', 0): pytest.fail('Running exe %s failed with return-code %s.' % (exe, retcode)) def _find_executables(self, name): """ Search for all executables generated by the testcase. If the test-case is called e.g. 'test_multipackage1', this is searching for each of 'test_multipackage1.exe' and 'multipackage1_?.exe' in both one-file- and one-dir-mode. :param name: Name of the executable to look for. :return: List of executables """ exes = [] onedir_pt = os.path.join(self._distdir, name, name) onefile_pt = os.path.join(self._distdir, name) patterns = [ onedir_pt, onefile_pt, # Multipackage one-dir onedir_pt + '_?', # Multipackage one-file onefile_pt + '_?' ] # For Windows append .exe extension to patterns. if is_win: patterns = [pt + '.exe' for pt in patterns] # For Mac OS append pattern for .app bundles. if is_darwin: # e.g: ./dist/name.app/Contents/MacOS/name pt = os.path.join(self._distdir, name + '.app', 'Contents', 'MacOS', name) patterns.append(pt) # Apply file patterns. for pattern in patterns: for prog in glob.glob(pattern): if os.path.isfile(prog): exes.append(prog) return exes def _run_executable(self, prog, args, run_from_path, runtime): """ Run executable created by PyInstaller. :param args: CLI options to pass to the created executable. """ # Run the test in a clean environment to make sure they're really self-contained. prog_env = copy.deepcopy(os.environ) prog_env['PATH'] = '' del prog_env['PATH'] # For Windows we need to keep minimal PATH for successful running of some tests. if is_win: # Minimum Windows PATH is in most cases: C:\Windows\system32;C:\Windows prog_env['PATH'] = os.pathsep.join(winutils.get_system_path()) exe_path = prog if run_from_path: # Run executable in the temp directory. Add the directory containing the executable to $PATH. Basically, # pretend we are a shell executing the program from $PATH. prog_cwd = str(self._tmpdir) prog_name = os.path.basename(prog) prog_env['PATH'] = os.pathsep.join([prog_env.get('PATH', ''), os.path.dirname(prog)]) else: # Run executable in the directory where it is. prog_cwd = os.path.dirname(prog) # The executable will be called with argv[0] as relative not absolute path. prog_name = os.path.join(os.curdir, os.path.basename(prog)) args = [prog_name] + args # Using sys.stdout/sys.stderr for subprocess fixes printing messages in Windows command prompt. Py.test is then # able to collect stdout/sterr messages and display them if a test fails. return self._run_executable_(args, exe_path, prog_env, prog_cwd, runtime) def _run_executable_(self, args, exe_path, prog_env, prog_cwd, runtime): process = psutil.Popen( args, executable=exe_path, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=prog_env, cwd=prog_cwd ) def _msg(*text): print('[' + str(process.pid) + '] ', *text) # Run executable. stderr is redirected to stdout. _msg('RUNNING: ', repr(exe_path), ', args: ', repr(args)) # 'psutil' allows to use timeout in waiting for a subprocess. If not timeout was specified then it is 'None' - # no timeout, just waiting. Runtime is useful mostly for interactive tests. try: timeout = runtime if runtime else _EXE_TIMEOUT stdout, stderr = process.communicate(timeout=timeout) retcode = process.returncode except (psutil.TimeoutExpired, subprocess.TimeoutExpired): if runtime: # When 'runtime' is set, the expired timeout is a good sign that the executable was running successfully # for a specified time. # TODO: is there a better way return success than 'retcode = 0'? retcode = 0 else: # Exe is running and it is not interactive. Fail the test. retcode = 1 _msg(f'TIMED OUT while running executable (timeout: {timeout} sec)!') # Kill the subprocess and its child processes. for p in list(process.children(recursive=True)) + [process]: with suppress(psutil.NoSuchProcess): p.kill() stdout, stderr = process.communicate() sys.stdout.buffer.write(stdout) sys.stderr.buffer.write(stderr) return retcode def _test_building(self, args): """ Run building of test script. :param args: additional CLI options for PyInstaller. Return True if build succeeded False otherwise. """ if self._is_spec: default_args = [ '--distpath', self._distdir, '--workpath', self._builddir, '--log-level=INFO', ] # yapf: disable else: default_args = [ '--debug=bootloader', '--noupx', '--specpath', self._specdir, '--distpath', self._distdir, '--workpath', self._builddir, '--path', _get_modules_dir(self._request), '--log-level=INFO', ] # yapf: disable # Choose bundle mode. if self._mode == 'onedir': default_args.append('--onedir') elif self._mode == 'onefile': default_args.append('--onefile') # if self._mode is None then just the spec file was supplied. pyi_args = [self.script] + default_args + args # TODO: fix return code in running PyInstaller programmatically. PYI_CONFIG = configure.get_config() # Override CACHEDIR for PyInstaller and put it into self.tmpdir PYI_CONFIG['cachedir'] = str(self._tmpdir) pyi_main.run(pyi_args, PYI_CONFIG) retcode = 0 return retcode == 0 def _examine_executable(self, exe, toc_log): """ Compare log files (now used mostly by multipackage test_name). :return: True if .toc files match """ print('EXECUTING MATCHING:', toc_log) fname_list = pkg_archive_contents(exe) with open(toc_log, 'r', encoding='utf-8') as f: pattern_list = eval(f.read()) # Alphabetical order of patterns. pattern_list.sort() missing = [] for pattern in pattern_list: for fname in fname_list: if re.match(pattern, fname): print('MATCH:', pattern, '-->', fname) break else: # No matching entry found missing.append(pattern) print('MISSING:', pattern) # Not all modules matched. Stop comparing other .toc files and fail the test. if missing: for m in missing: print('Missing', m, 'in', exe) return False # All patterns matched. return True # Scope 'session' should keep the object unchanged for whole tests. This fixture caches basic module graph dependencies # that are same for every executable. @pytest.fixture(scope='session') def pyi_modgraph(): # Explicitly set the log level since the plugin `pytest-catchlog` (un-) sets the root logger's level to NOTSET for # the setup phase, which will lead to TRACE messages been written out. import PyInstaller.log as logging logging.logger.setLevel(logging.DEBUG) initialize_modgraph() # Run by default test as onedir and onefile. @pytest.fixture(params=['onedir', 'onefile']) def pyi_builder(tmpdir, monkeypatch, request, pyi_modgraph): # Save/restore environment variable PATH. monkeypatch.setenv('PATH', os.environ['PATH']) # PyInstaller or a test case might manipulate 'sys.path'. Reset it for every test. monkeypatch.syspath_prepend(None) # Set current working directory to monkeypatch.chdir(tmpdir) # Clean up configuration and force PyInstaller to do a clean configuration for another app/test. The value is same # as the original value. monkeypatch.setattr('PyInstaller.config.CONF', {'pathex': []}) yield AppBuilder(tmpdir, request, request.param) # Clean up the temporary directory of a successful test if _PYI_BUILDER_CLEANUP and request.node.rep_setup.passed and request.node.rep_call.passed: if tmpdir.exists(): tmpdir.remove(rec=1, ignore_errors=True) # Fixture for .spec based tests. With .spec it does not make sense to differentiate onefile/onedir mode. @pytest.fixture def pyi_builder_spec(tmpdir, request, monkeypatch, pyi_modgraph): # Save/restore environment variable PATH. monkeypatch.setenv('PATH', os.environ['PATH']) # Set current working directory to monkeypatch.chdir(tmpdir) # PyInstaller or a test case might manipulate 'sys.path'. Reset it for every test. monkeypatch.syspath_prepend(None) # Clean up configuration and force PyInstaller to do a clean configuration for another app/test. The value is same # as the original value. monkeypatch.setattr('PyInstaller.config.CONF', {'pathex': []}) return AppBuilder(tmpdir, request, None) # Define a fixture which compiles the data/load_dll_using_ctypes/ctypes_dylib.c program in the tmpdir, returning the # tmpdir object. @pytest.fixture() def compiled_dylib(tmpdir, request): tmp_data_dir = _data_dir_copy(request, 'ctypes_dylib', tmpdir) # Compile the ctypes_dylib in the tmpdir: Make tmpdir/data the CWD. Do NOT use monkeypatch.chdir() to change and # monkeypatch.undo() to restore the CWD, since this will undo ALL monkeypatches (such as the pyi_builder's additions # to sys.path), breaking the test. old_wd = tmp_data_dir.chdir() try: if is_win: tmp_data_dir = tmp_data_dir.join('ctypes_dylib.dll') # For Mingw-x64 we must pass '-m32' to build 32-bit binaries march = '-m32' if architecture == '32bit' else '-m64' ret = subprocess.call('gcc -shared ' + march + ' ctypes_dylib.c -o ctypes_dylib.dll', shell=True) if ret != 0: # Find path to cl.exe file. from distutils.msvccompiler import MSVCCompiler comp = MSVCCompiler() comp.initialize() cl_path = comp.cc # Fallback to msvc. ret = subprocess.call([cl_path, '/LD', 'ctypes_dylib.c'], shell=False) elif is_darwin: tmp_data_dir = tmp_data_dir.join('ctypes_dylib.dylib') # On Mac OS X we need to detect architecture - 32 bit or 64 bit. arch = 'arm64' if platform.machine() == 'arm64' else 'i386' if architecture == '32bit' else 'x86_64' cmd = ( 'gcc -arch ' + arch + ' -Wall -dynamiclib ' 'ctypes_dylib.c -o ctypes_dylib.dylib -headerpad_max_install_names' ) ret = subprocess.call(cmd, shell=True) id_dylib = os.path.abspath('ctypes_dylib.dylib') ret = subprocess.call('install_name_tool -id %s ctypes_dylib.dylib' % (id_dylib,), shell=True) else: tmp_data_dir = tmp_data_dir.join('ctypes_dylib.so') ret = subprocess.call('gcc -fPIC -shared ctypes_dylib.c -o ctypes_dylib.so', shell=True) assert ret == 0, 'Compile ctypes_dylib failed.' finally: # Reset the CWD directory. old_wd.chdir() return tmp_data_dir @pytest.fixture def pyi_windowed_builder(pyi_builder: AppBuilder): """A pyi_builder equivalent for testing --windowed applications.""" # psutil.Popen() somehow bypasses an application's windowed/console mode so that any application built in # --windowed mode but invoked with psutil still receives valid std{in,out,err} handles and behaves exactly like # a console application. In short, testing windowed mode with psutil is a null test. We must instead use subprocess. def _run_executable_(args, exe_path, prog_env, prog_cwd, runtime): return subprocess.run([exe_path, *args], env=prog_env, cwd=prog_cwd, timeout=runtime).returncode pyi_builder._run_executable_ = _run_executable_ yield pyi_builder