bazarr/libs/waitress/tests/test_runner.py

import contextlib
import os
import sys

if sys.version_info[:2] == (2, 6):  # pragma: no cover
    import unittest2 as unittest
else:  # pragma: no cover
    import unittest

from waitress import runner


class Test_match(unittest.TestCase):
    def test_empty(self):
        self.assertRaisesRegexp(
            ValueError, "^Malformed application ''$", runner.match, ""
        )

    def test_module_only(self):
        self.assertRaisesRegexp(
            ValueError, r"^Malformed application 'foo\.bar'$", runner.match, "foo.bar"
        )

    def test_bad_module(self):
        self.assertRaisesRegexp(
            ValueError,
            r"^Malformed application 'foo#bar:barney'$",
            runner.match,
            "foo#bar:barney",
        )

    def test_module_obj(self):
        self.assertTupleEqual(
            runner.match("foo.bar:fred.barney"), ("foo.bar", "fred.barney")
        )


class Test_resolve(unittest.TestCase):
    def test_bad_module(self):
        self.assertRaises(
            ImportError, runner.resolve, "nonexistent", "nonexistent_function"
        )

    def test_nonexistent_function(self):
        self.assertRaisesRegexp(
            AttributeError,
            r"has no attribute 'nonexistent_function'",
            runner.resolve,
            "os.path",
            "nonexistent_function",
        )

    def test_simple_happy_path(self):
        from os.path import exists

        self.assertIs(runner.resolve("os.path", "exists"), exists)

    def test_complex_happy_path(self):
        # Ensure we can recursively resolve object attributes if necessary.
        self.assertEquals(runner.resolve("os.path", "exists.__name__"), "exists")


class Test_run(unittest.TestCase):
    def match_output(self, argv, code, regex):
        argv = ["waitress-serve"] + argv
        with capture() as captured:
            self.assertEqual(runner.run(argv=argv), code)
        self.assertRegexpMatches(captured.getvalue(), regex)
        captured.close()

    def test_bad(self):
        self.match_output(["--bad-opt"], 1, "^Error: option --bad-opt not recognized")

    def test_help(self):
        self.match_output(["--help"], 0, "^Usage:\n\n    waitress-serve")

    def test_no_app(self):
        self.match_output([], 1, "^Error: Specify one application only")

    def test_multiple_apps_app(self):
        self.match_output(["a:a", "b:b"], 1, "^Error: Specify one application only")

    def test_bad_apps_app(self):
        self.match_output(["a"], 1, "^Error: Malformed application 'a'")

    def test_bad_app_module(self):
        self.match_output(["nonexistent:a"], 1, "^Error: Bad module 'nonexistent'")

        self.match_output(
            ["nonexistent:a"],
            1,
            (
                r"There was an exception \((ImportError|ModuleNotFoundError)\) "
                "importing your module.\n\nIt had these arguments: \n"
                "1. No module named '?nonexistent'?"
            ),
        )

    def test_cwd_added_to_path(self):
        def null_serve(app, **kw):
            pass

        sys_path = sys.path
        current_dir = os.getcwd()
        try:
            os.chdir(os.path.dirname(__file__))
            argv = [
                "waitress-serve",
                "fixtureapps.runner:app",
            ]
            self.assertEqual(runner.run(argv=argv, _serve=null_serve), 0)
        finally:
            sys.path = sys_path
            os.chdir(current_dir)

    def test_bad_app_object(self):
        self.match_output(
            ["waitress.tests.fixtureapps.runner:a"], 1, "^Error: Bad object name 'a'"
        )

    def test_simple_call(self):
        import waitress.tests.fixtureapps.runner as _apps

        def check_server(app, **kw):
            self.assertIs(app, _apps.app)
            self.assertDictEqual(kw, {"port": "80"})

        argv = [
            "waitress-serve",
            "--port=80",
            "waitress.tests.fixtureapps.runner:app",
        ]
        self.assertEqual(runner.run(argv=argv, _serve=check_server), 0)

    def test_returned_app(self):
        import waitress.tests.fixtureapps.runner as _apps

        def check_server(app, **kw):
            self.assertIs(app, _apps.app)
            self.assertDictEqual(kw, {"port": "80"})

        argv = [
            "waitress-serve",
            "--port=80",
            "--call",
            "waitress.tests.fixtureapps.runner:returns_app",
        ]
        self.assertEqual(runner.run(argv=argv, _serve=check_server), 0)


class Test_helper(unittest.TestCase):
    def test_exception_logging(self):
        from waitress.runner import show_exception

        regex = (
            r"There was an exception \(ImportError\) importing your module."
            r"\n\nIt had these arguments: \n1. My reason"
        )

        with capture() as captured:
            try:
                raise ImportError("My reason")
            except ImportError:
                self.assertEqual(show_exception(sys.stderr), None)
            self.assertRegexpMatches(captured.getvalue(), regex)
        captured.close()

        regex = (
            r"There was an exception \(ImportError\) importing your module."
            r"\n\nIt had no arguments."
        )

        with capture() as captured:
            try:
                raise ImportError
            except ImportError:
                self.assertEqual(show_exception(sys.stderr), None)
            self.assertRegexpMatches(captured.getvalue(), regex)
        captured.close()


@contextlib.contextmanager
def capture():
    from waitress.compat import NativeIO

    fd = NativeIO()
    sys.stdout = fd
    sys.stderr = fd
    yield fd
    sys.stdout = sys.__stdout__
    sys.stderr = sys.__stderr__