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- #-----------------------------------------------------------------------------
- # 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 contextlib
- import copy
- import glob
- import logging
- import os
- import re
- import shutil
- import subprocess
- import sys
- import time
- # 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())
- # psutil is used for process tree clean-up on time-out when running the test frozen application. If unavailable
- # (for example, on cygwin), we fall back to trying to terminate only the main application process.
- try:
- import psutil # noqa: E402
- except ModuleNotFoundError:
- psutil = None
- import pytest # noqa: E402
- from PyInstaller import __main__ as pyi_main # noqa: E402
- from PyInstaller import configure # noqa: E402
- from PyInstaller.compat import is_cygwin, 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
- # --------
- 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 pytest.ini 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 plat == 'android':
- plat = 'linux'
- if supported_platforms and plat not in supported_platforms:
- pytest.skip(f"does not run on {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, f"rep_{rep.when}", rep)
- # Return the base directory which contains the current test module.
- def _get_base_dir(request):
- return request.path.resolve().parent # pathlib.Path instance
- # Directory with Python scripts for functional tests.
- def _get_script_dir(request):
- return _get_base_dir(request) / 'scripts'
- # Directory with testing modules used in some tests.
- def _get_modules_dir(request):
- return _get_base_dir(request) / 'modules'
- # Directory with .toc log files.
- def _get_logs_dir(request):
- return _get_base_dir(request) / 'logs'
- # Return the directory where data for tests is located.
- def _get_data_dir(request):
- return _get_base_dir(request) / 'data'
- # Directory with .spec files used in some tests.
- def _get_spec_dir(request):
- return _get_base_dir(request) / 'specs'
- @pytest.fixture
- def spec_dir(request):
- """
- Return the directory where the test spec-files reside.
- """
- return _get_spec_dir(request)
- @pytest.fixture
- def script_dir(request):
- """
- Return the directory where the test scripts reside.
- """
- return _get_script_dir(request)
- # A fixture that copies test's data directory into test's temporary directory. The data directory is assumed to be
- # `data/{test-name}` found next to the .py file that contains test.
- @pytest.fixture
- def data_dir(
- # The request object for this test. Used to infer name of the test and location of the source .py file.
- # 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 tmp_path object for this test. See: https://pytest.org/latest/tmp_path.html.
- tmp_path
- ):
- # Strip the leading 'test_' from the test's name.
- test_name = request.function.__name__[5:]
- # Copy to data dir and return the path.
- source_data_dir = _get_data_dir(request) / test_name
- tmp_data_dir = tmp_path / 'data'
- # Copy the data.
- shutil.copytree(source_data_dir, tmp_data_dir)
- # Return the temporary data directory, so that the copied data can now be used.
- return tmp_data_dir
- class AppBuilder:
- def __init__(self, tmp_path, request, bundle_mode):
- self._tmp_path = tmp_path
- self._request = request
- self._mode = bundle_mode
- self._spec_dir = tmp_path
- self._dist_dir = tmp_path / 'dist'
- self._build_dir = tmp_path / '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 = _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`.
- """
- __tracebackhide__ = True
- # For parametrized test append the test-id.
- scriptfile = gen_sourcefile(self._tmp_path, source, kwargs.setdefault('test_id'))
- del kwargs['test_id']
- return self.test_script(scriptfile, *args, **kwargs)
- def _display_message(self, step_name, message):
- # Print the given message to both stderr and stdout, and it with APP-BUILDER to make it clear where it
- # originates from.
- print(f'[APP-BUILDER:{step_name}] {message}', file=sys.stdout)
- print(f'[APP-BUILDER:{step_name}] {message}', file=sys.stderr)
- 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
- # Skip interactive tests (the ones with `runtime` set) if `psutil` is unavailable, as we need it to properly
- # clean up the process tree.
- if runtime and psutil is None:
- pytest.skip('Interactive tests require psutil for proper cleanup.')
- 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 = _get_script_dir(self._request) / script
- self.script = str(script) # might be a pathlib.Path at this point!
- assert os.path.exists(self.script), f'Script {self.script!r} not found.'
- self._display_message('TEST-SCRIPT', 'Starting build...')
- if not self._test_building(args=pyi_args):
- pytest.fail(f'Building of {script} failed.')
- self._display_message('TEST-SCRIPT', 'Build finished, now running executable...')
- self._test_executables(app_name, args=app_args, runtime=runtime, run_from_path=run_from_path, **kwargs)
- self._display_message('TEST-SCRIPT', '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.splitext(os.path.basename(exe))[0] + '.toc'
- toc_log = _get_logs_dir(self._request) / toc_log
- if toc_log.exists():
- if not self._examine_executable(exe, toc_log):
- pytest.fail(f'Matching .toc of {exe} failed.')
- retcode = self._run_executable(exe, args, run_from_path, runtime)
- if retcode != kwargs.get('retcode', 0):
- pytest.fail(f'Running exe {exe} failed with return-code {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 = str(self._dist_dir / name / name)
- onefile_pt = str(self._dist_dir / 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 macOS append pattern for .app bundles.
- if is_darwin:
- # e.g: ./dist/name.app/Contents/MacOS/name
- app_bundle_pt = str(self._dist_dir / f'{name}.app' / 'Contents' / 'MacOS' / name)
- patterns.append(app_bundle_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())
- # Same for Cygwin - if /usr/bin is not in PATH, cygwin1.dll cannot be discovered.
- if is_cygwin:
- prog_env['PATH'] = os.pathsep.join(['/usr/local/bin', '/usr/bin'])
- # On macOS, we similarly set up minimal PATH with system directories, in case utilities from there are used by
- # tested python code (for example, matplotlib >= 3.9.0 uses `system_profiler` that is found in /usr/sbin).
- if is_darwin:
- # The following paths are registered when application is launched via Finder, and are a subset of what is
- # typically available in the shell.
- prog_env['PATH'] = os.pathsep.join(['/usr/bin', '/bin', '/usr/sbin', '/sbin'])
- 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._tmp_path)
- 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):
- # Use psutil.Popen, if available; otherwise, fall back to subprocess.Popen
- popen_implementation = subprocess.Popen if psutil is None else psutil.Popen
- # Run the executable
- self._display_message('RUN-EXE', f'Running {exe_path!r}, args: {args!r}')
- start_time = time.time()
- process = popen_implementation(args, executable=exe_path, env=prog_env, cwd=prog_cwd)
- # Wait for the process to finish. If no run-time (= timeout) is specified, we expect the process to exit on
- # its own, and use global _EXE_TIMEOUT. If run-time is specified, we expect the application to be running
- # for at least the specified amount of time, which is useful in "interactive" test applications that are not
- # expected exit on their own.
- stdout = stderr = None
- try:
- timeout = runtime if runtime else _EXE_TIMEOUT
- stdout, stderr = process.communicate(timeout=timeout)
- elapsed = time.time() - start_time
- retcode = process.returncode
- self._display_message(
- 'RUN-EXE', f'Process exited on its own after {elapsed:.1f} seconds with return code {retcode}.'
- )
- except (subprocess.TimeoutExpired) if psutil is None else (psutil.TimeoutExpired, subprocess.TimeoutExpired):
- if runtime:
- # When 'runtime' is set, the expired timeout is a good sign that the executable was running successfully
- # for the specified time.
- self._display_message('RUN-EXE', f'Process reached expected run-time of {runtime} seconds.')
- retcode = 0
- else:
- # Executable is still running and it is not interactive. Clean up the process tree, and fail the test.
- self._display_message('RUN-EXE', f'Timeout while running executable (timeout: {timeout} seconds)!')
- retcode = 1
- if psutil is None:
- # We are using subprocess.Popen(). Without psutil, we have no access to process tree; this poses a
- # problem for onefile builds, where we would need to first kill the child (main application) process,
- # and let the onefile parent perform its cleanup. As a best-effort approach, we can first call
- # process.terminate(); on POSIX systems, this sends SIGTERM to the parent process, and in most
- # situations, the bootloader will forward it to the child process. Then wait 5 seconds, and call
- # process.kill() if necessary. On Windows, however, both process.terminate() and process.kill() do
- # the same. Therefore, we should avoid running "interactive" tests with expected run-time if we do
- # not have psutil available.
- try:
- self._display_message('RUN-EXE', 'Stopping the process using Popen.terminate()...')
- process.terminate()
- stdout, stderr = process.communicate(timeout=5)
- self._display_message('RUN-EXE', 'Process stopped.')
- except subprocess.TimeoutExpired:
- # Kill the process.
- try:
- self._display_message('RUN-EXE', 'Stopping the process using Popen.kill()...')
- process.kill()
- # process.communicate() waits for end-of-file, which may never arrive if there is a child
- # process still alive. Nothing we can really do about it here, so add a short timeout and
- # display a warning.
- stdout, stderr = process.communicate(timeout=1)
- self._display_message('RUN-EXE', 'Process stopped.')
- except subprocess.TimeoutExpired:
- self._display_message('RUN-EXE', 'Failed to stop the process (or its child process(es))!')
- else:
- # We are using psutil.Popen(). First, force-kill all child processes; in onefile mode, this includes
- # the application process, whose termination should trigger cleanup and exit of the parent onefile
- # process.
- self._display_message('RUN-EXE', 'Stopping child processes...')
- for child_process in list(process.children(recursive=True)):
- with contextlib.suppress(psutil.NoSuchProcess):
- self._display_message('RUN-EXE', f'Stopping child process {child_process.pid}...')
- child_process.kill()
- # Give the main process 5 seconds to exit on its own (to accommodate cleanup in onefile mode).
- try:
- self._display_message('RUN-EXE', f'Waiting for main process ({process.pid}) to stop...')
- stdout, stderr = process.communicate(timeout=5)
- self._display_message('RUN-EXE', 'Process stopped on its own.')
- except (psutil.TimeoutExpired, subprocess.TimeoutExpired):
- # End of the line - kill the main process.
- self._display_message('RUN-EXE', 'Stopping the process using Popen.kill()...')
- with contextlib.suppress(psutil.NoSuchProcess):
- process.kill()
- # Try to retrieve stdout/stderr - but keep a short timeout, just in case...
- try:
- stdout, stderr = process.communicate(timeout=1)
- self._display_message('RUN-EXE', 'Process stopped.')
- except (psutil.TimeoutExpired, subprocess.TimeoutExpire):
- self._display_message('RUN-EXE', 'Failed to stop the process (or its child process(es))!')
- self._display_message('RUN-EXE', f'Done! Return code: {retcode}')
- 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', str(self._dist_dir),
- '--workpath', str(self._build_dir),
- '--log-level', 'INFO',
- ] # yapf: disable
- else:
- default_args = [
- '--debug=bootloader',
- '--noupx',
- '--specpath', str(self._spec_dir),
- '--distpath', str(self._dist_dir),
- '--workpath', str(self._build_dir),
- '--path', str(_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; relocate cache into `self._tmp_path`.
- PYI_CONFIG['cachedir'] = str(self._tmp_path)
- 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
- """
- self._display_message('EXAMINE-EXE', f'Matching against TOC log: {str(toc_log)!r}')
- 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):
- self._display_message('EXAMINE-EXE', f'Entry found: {pattern!r} --> {fname!r}')
- break
- else:
- # No matching entry found
- missing.append(pattern)
- self._display_message('EXAMINE-EXE', f'Entry MISSING: {pattern!r}')
- # We expect the missing list to be empty
- return not missing
- # 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(tmp_path, 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(tmp_path)
- # 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(tmp_path, 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 tmp_path.exists():
- shutil.rmtree(tmp_path, 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(tmp_path, request, monkeypatch, pyi_modgraph):
- # Save/restore environment variable PATH.
- monkeypatch.setenv('PATH', os.environ['PATH'])
- # Set current working directory to
- monkeypatch.chdir(tmp_path)
- # 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': []})
- yield AppBuilder(tmp_path, request, None)
- # 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 tmp_path.exists():
- shutil.rmtree(tmp_path, ignore_errors=True)
- @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
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