def setUp(self):
     """Common set-up code."""
     self.sa = SessionAssistant(self.APP_ID, self.APP_VERSION,
                                self.API_VERSION, self.API_FLAGS)
     # NOTE: setup a custom repository so that all tests are done in
     # isolation from the user account. While we're doing that, let's check
     # that this this function is allowed just after setting up the session.
     # We cannot really do that in tests later.
     self.repo_dir = tempfile.TemporaryDirectory()
     self.assertIn(self.sa.use_alternate_repository,
                   UsageExpectation.of(self.sa).allowed_calls)
     self.sa.use_alternate_repository(self.repo_dir.name)
     self.assertNotIn(self.sa.use_alternate_repository,
                      UsageExpectation.of(self.sa).allowed_calls)
     # Monitor the provider_selected signal since some tests check it
     self.watchSignal(self.sa.provider_selected)
     # Create a few mocked providers that tests can use.
     # The all-important plainbox provider
     self.p1 = mock.Mock(spec_set=Provider1, name='p1')
     self.p1.namespace = 'com.canonical.plainbox'
     self.p1.name = 'com.canonical.plainbox:special'
     # An example 3rd party provider
     self.p2 = mock.Mock(spec_set=Provider1, name='p2')
     self.p2.namespace = 'pl.zygoon'
     self.p2.name = 'pl.zygoon:example'
     # A Canonical certification provider
     self.p3 = mock.Mock(spec_set=Provider1, name='p3')
     self.p3.namespace = 'com.canonical.certification'
     self.p3.name = 'com.canonical.certification:stuff'
     # The stubbox provider, non-mocked, with lots of useful jobs
     self.stubbox = get_stubbox()
Пример #2
0
class SessionAssistantTests(morris.SignalTestCase):

    """Tests for the SessionAssitant class."""

    APP_ID = 'app-id'
    APP_VERSION = '1.0'
    API_VERSION = '0.99'
    API_FLAGS = []

    def setUp(self):
        """Common set-up code."""
        self.sa = SessionAssistant(
            self.APP_ID, self.APP_VERSION, self.API_VERSION, self.API_FLAGS)
        # Monitor the provider_selected signal since some tests check it
        self.watchSignal(self.sa.provider_selected)
        # Create a few mocked providers that tests can use.
        # The all-important plainbox provider
        self.p1 = mock.Mock(spec_set=Provider1, name='p1')
        self.p1.namespace = 'com.canonical.plainbox'
        self.p1.name = 'com.canonical.plainbox:special'
        # An example 3rd party provider
        self.p2 = mock.Mock(spec_set=Provider1, name='p2')
        self.p2.namespace = 'pl.zygoon'
        self.p2.name = 'pl.zygoon:example'
        # A Canonical certification provider
        self.p3 = mock.Mock(spec_set=Provider1, name='p3')
        self.p3.namespace = 'com.canonical.certification'
        self.p3.name = 'com.canonical.certification:stuff'
        # The stubbox provider, non-mocked, with lots of useful jobs
        self.stubbox = get_stubbox()

    def _get_mock_providers(self):
        """Get some mocked provides for testing."""
        return [self.p1, self.p2, self.p3]

    def _get_test_providers(self):
        """Get the stubbox provider, it's fully functional."""
        return [self.stubbox]

    def test_expected_call_sequence(self, mock_get_providers):
        """Track the sequence of allowed method calls."""
        mock_get_providers.return_value = self._get_test_providers()
        # SessionAssistant.start_new_session() must now be allowed
        self.assertIn(self.sa.start_new_session,
                      UsageExpectation.of(self.sa).allowed_calls)
        # Call SessionAssistant.start_new_session()
        self.sa.start_new_session("just for testing")
        # SessionAssistant.start_new_session() must no longer allowed
        self.assertNotIn(self.sa.start_new_session,
                         UsageExpectation.of(self.sa).allowed_calls)
        # SessionAssistant.select_test_plan() must now be allowed
        self.assertIn(self.sa.select_test_plan,
                      UsageExpectation.of(self.sa).allowed_calls)
        # Use the manager to tidy up after the tests when normally you wouldnt
        # be allowed to
        self.sa._manager.destroy()
Пример #3
0
    def __init__(self, launcher_definition=None):
        if plainbox.__version__ < (0, 22):
            raise SystemExit("plainbox 0.22 required, you have {}".format(
                ToolBase.format_version_tuple(plainbox.__version__)))
        self.assistant = SessionAssistant('checkbox-converged')
        self.ui = CheckboxConvergedUI()
        self.index = 0
        self._password = None
        self._timestamp = None
        self._latest_session = None
        self._available_test_plans = []
        self.test_plan_id = None
        self.resume_candidate_storage = None
        self.launcher = None
        self.assistant.use_alternate_repository(
            self._get_app_cache_directory())

        # Prepare custom execution controller list
        from plainbox.impl.ctrl import UserJobExecutionController
        from sudo_with_pass_ctrl import RootViaSudoWithPassExecutionController
        ctrl_setup_list = [
            (RootViaSudoWithPassExecutionController, [self._password_provider],
             {}),
            (UserJobExecutionController, [], {}),
        ]
        self.assistant.use_alternate_execution_controllers(ctrl_setup_list)

        if launcher_definition:
            generic_launcher = LauncherDefinition()
            generic_launcher.read([launcher_definition])
            config_filename = os.path.expandvars(
                generic_launcher.config_filename)
            if not os.path.split(config_filename)[0]:
                configs = [
                    '/etc/xdg/{}'.format(config_filename),
                    os.path.expanduser('~/.config/{}'.format(config_filename))
                ]
            else:
                configs = [config_filename]
            self.launcher = generic_launcher.get_concrete_launcher()
            configs.append(launcher_definition)
            self.launcher.read(configs)
            # Checkbox-Converged supports new launcher syntax, so if we have
            # LauncherDefinitionLegacy as launcher right now, let's replace it
            # with a default one
            if type(self.launcher) == LauncherDefinitionLegacy:
                self.launcher = DefaultLauncherDefinition()
            self.assistant.use_alternate_configuration(self.launcher)
            self._prepare_transports()
        else:
            self.launcher = DefaultLauncherDefinition()
Пример #4
0
 def _reset_sa(self):
     _logger.info("Resetting RSA")
     self._state = Idle
     self._sa = SessionAssistant('service', api_flags={SA_RESTARTABLE})
     self._be = None
     self._session_id = ""
     self._jobs_count = 0
     self._job_index = 0
     self._currently_running_job = None  # XXX: yuck!
     self._last_job = None
     self._current_comments = ""
     self._last_response = None
     self._normal_user = ''
     self.session_change_lock.acquire(blocking=False)
     self.session_change_lock.release()
Пример #5
0
    def __init__(self):
        self.sa = SessionAssistant('CheckboxTool')

        self.sa.select_providers('*')
        self.sa.start_new_session('print_sequence')
        self.all_tps = self.sa.get_test_plans()

        self.units = dict()
        self.template_units = dict()
        for unit in self.sa._context._unit_list:
            u_type = type(unit)
            if u_type == TemplateUnit:
                unit.re_matcher, unit.re_greedy = template_to_re(unit.id)
                self.template_units[unit.id] = unit
            if not (issubclass(u_type, JobDefinition)):
                continue
            self.units[unit.id] = unit
Пример #6
0
 def late_init(self, context):
     """Add a SessionAssistant as ``sa`` to the guacamole context."""
     context.sa = SessionAssistant(
         context.cmd_toplevel.get_app_id(),
         context.cmd_toplevel.get_cmd_version(),
         context.cmd_toplevel.get_sa_api_version(),
         context.cmd_toplevel.get_sa_api_flags(),
     )
Пример #7
0
 def setUp(self):
     """Common set-up code."""
     self.sa = SessionAssistant(
         self.APP_ID, self.APP_VERSION, self.API_VERSION, self.API_FLAGS)
     # Monitor the provider_selected signal since some tests check it
     self.watchSignal(self.sa.provider_selected)
     # Create a few mocked providers that tests can use.
     # The all-important plainbox provider
     self.p1 = mock.Mock(spec_set=Provider1, name='p1')
     self.p1.namespace = 'com.canonical.plainbox'
     self.p1.name = 'com.canonical.plainbox:special'
     # An example 3rd party provider
     self.p2 = mock.Mock(spec_set=Provider1, name='p2')
     self.p2.namespace = 'pl.zygoon'
     self.p2.name = 'pl.zygoon:example'
     # A Canonical certification provider
     self.p3 = mock.Mock(spec_set=Provider1, name='p3')
     self.p3.namespace = 'com.canonical.certification'
     self.p3.name = 'com.canonical.certification:stuff'
     # The stubbox provider, non-mocked, with lots of useful jobs
     self.stubbox = get_stubbox()
 def __init__(self, cmd_callback):
     _logger.debug("__init__()")
     self._state = Idle
     self._sa = SessionAssistant('service', api_flags={SA_RESTARTABLE})
     self._sa.configure_application_restart(cmd_callback)
     self._sudo_broker = SudoBroker()
     self._sudo_password = None
     self._sa.use_alternate_execution_controllers([
         (RootViaSudoWithPassExecutionController, (), {
             'password_provider_cls': self.get_decrypted_password
         }),
         (UserJobExecutionController, [], {}),
     ])
     self._sa.select_providers('*')
     self._session_change_lock = Lock()
     self._operator_lock = Lock()
     self._be = None
     self._session_id = ""
     self._jobs_count = 0
     self._job_index = 0
     self._currently_running_job = None  # XXX: yuck!
     self.buffered_ui = BufferedUI()
     self._last_response = None
class SessionAssistant2():
    """Remote execution enabling wrapper for the SessionAssistant"""

    # TODO: the name?

    def __init__(self, cmd_callback):
        _logger.debug("__init__()")
        self._state = Idle
        self._sa = SessionAssistant('service', api_flags={SA_RESTARTABLE})
        self._sa.configure_application_restart(cmd_callback)
        self._sudo_broker = SudoBroker()
        self._sudo_password = None
        self._sa.use_alternate_execution_controllers([
            (RootViaSudoWithPassExecutionController, (), {
                'password_provider_cls': self.get_decrypted_password
            }),
            (UserJobExecutionController, [], {}),
        ])
        self._sa.select_providers('*')
        self._session_change_lock = Lock()
        self._operator_lock = Lock()
        self._be = None
        self._session_id = ""
        self._jobs_count = 0
        self._job_index = 0
        self._currently_running_job = None  # XXX: yuck!
        self.buffered_ui = BufferedUI()
        self._last_response = None

    @property
    def session_change_lock(self):
        return self._session_change_lock

    def allowed_when(state):
        def wrap(f):
            def fun(self, *args):
                if self._state != state:
                    raise AssertionError("expected %s, is %s" %
                                         (self._state, state))
                return f(self, *args)

            return fun

        return wrap

    @allowed_when(Idle)
    def start_session(self, configuration):
        _logger.debug("start_session: %r", configuration)
        self._sa.start_new_session('checkbox-service')
        self._session_id = self._sa.get_session_id()
        tps = self._sa.get_test_plans()
        response = zip(tps, [self._sa.get_test_plan(tp).name for tp in tps])
        self._state = Started
        self._available_testplans = sorted(
            response, key=lambda x: x[1])  # sorted by name
        return self._available_testplans

    @allowed_when(Started)
    def bootstrap(self, test_plan_id):
        _logger.debug("bootstrap: %r", test_plan_id)
        self._sa.update_app_blob(
            json.dumps({
                'testplan_id': test_plan_id,
            }).encode("UTF-8"))
        self._sa.select_test_plan(test_plan_id)
        self._sa.bootstrap()
        self._jobs_count = len(self._sa.get_static_todo_list())
        self._state = Bootstrapped
        return self._sa.get_static_todo_list()

    @allowed_when(Bootstrapped)
    def run_job(self, job_id):
        """
        Depending on the type of the job, run_job can yield different number
        of Interaction instances.
        """
        _logger.debug("run_job: %r", job_id)
        self._job_index = self._jobs_count - len(
            self._sa.get_dynamic_todo_list()) + 1
        self._currently_running_job = job_id
        job = self._sa.get_job(job_id)
        if job.plugin in ['manual', 'user-interact-verify', 'user-interact']:
            self._current_interaction = Interaction('purpose',
                                                    job.tr_purpose())
            yield self._current_interaction
        if job.user and not self._sudo_password:
            self._ephemeral_key = EphemeralKey()
            self._current_interaction = Interaction(
                'sudo_input', self._ephemeral_key.public_key)
            yield self._current_interaction
            assert (self._sudo_password is not None)
        self._state = Running
        self._be = BackgroundExecutor(self, job_id, self._sa.run_job)

    @allowed_when(Running)
    def monitor_job(self):
        """
        Check the state of the currently running job.

        :returns:
            (state, payload) tuple.
            Payload conveys detailed info that's characteristic
            to the current state.
        """
        _logger.debug("monitor_job()")
        # either return [done, running, awaiting response]
        # TODO: handle awaiting_response (reading from stdin by the job)
        if self._be.is_alive():
            return ('running', self.buffered_ui.get_output())
        else:
            return ('done', self._be.outcome())
        return 'running' if self._be.is_alive() else 'done'

    def whats_up(self):
        """
        Check what is remote-service up to
        :returns:
            (state, payload) tuple.
        """
        _logger.debug("whats_up()")
        payload = None
        if self._state == Running:
            payload = (self._job_index, self._jobs_count,
                       self._currently_running_job)
        if self._state == Started:
            payload = self._available_testplans
        return self._state, payload

    def get_session_progress(self):
        """Return list of completed and not completed jobs in a dict."""

        _logger.debug("get_session_progress()")
        return {
            "done": [],
            "todo": self._sa.get_dynamic_todo_list(),
        }

    def get_master_public_key(self):
        """Expose the master public key"""
        return self._sudo_broker.master_public

    def save_password(self, cyphertext):
        """Store encrypted password"""
        self._sudo_password = cyphertext

    def get_decrypted_password(self):
        """Return decrypted password"""
        assert (self._sudo_password)
        return self._sudo_broker.decrypt_password(self._sudo_password)

    def finish_job(self):
        # assert the thread completed
        self._sa.use_job_result(self._currently_running_job,
                                self._be.wait().get_result())
        self._session_change_lock.release()
        if not self._sa.get_dynamic_todo_list():
            self._state = Idle
        else:
            self._state = Bootstrapped

    def get_jobs_repr(self, job_ids):
        """
        Translate jobs into a {'field': 'val'} representations.

        :param job_ids:
            list of job ids to get and translate
        :returns:
            list of dicts representing jobs
        """
        test_info_list = tuple()
        for job_id in job_ids:
            job = self._sa.get_job(job_id)
            cat_id = self._sa.get_job_state(job.id).effective_category_id
            duration_txt = _('No estimated duration provided for this job')
            if job.estimated_duration is not None:
                duration_txt = '{} {}'.format(job.estimated_duration,
                                              _('seconds'))
            # the next dict is only to get test_info generating code tidier
            automated_desc = {
                True: _('this job is fully automated'),
                False: _('this job requires some manual interaction')
            }
            test_info = {
                "id":
                job.id,
                "partial_id":
                job.partial_id,
                "name":
                job.tr_summary(),
                "category_id":
                cat_id,
                "category_name":
                self._sa.get_category(cat_id).tr_name(),
                "automated":
                automated_desc[job.automated],
                "duration":
                duration_txt,
                "description": (job.tr_description()
                                or _('No description provided for this job')),
                "outcome":
                self._sa.get_job_state(job.id).result.outcome,
            }
            test_info_list = test_info_list + ((test_info, ))
        return test_info_list

    def resume_last(self):
        last = next(self._sa.get_resumable_sessions())
        meta = self._sa.resume_session(last.id)
        app_blob = json.loads(meta.app_blob.decode("UTF-8"))
        test_plan_id = app_blob['testplan_id']
        self._sa.select_test_plan(test_plan_id)
        self._sa.bootstrap()
        result = MemoryJobResult({
            'outcome':
            IJobResult.OUTCOME_PASS,
            'comments':
            _("Passed after resuming execution")
        })
        last_job = meta.running_job_name
        if last_job:
            try:
                self._sa.use_job_result(last_job, result)
            except KeyError:
                raise SystemExit(last_job)
        self._state = Bootstrapped

    def finalize_session(self):
        self._sa.finalize_session()
        self._state = Idle
class SessionAssistantTests(morris.SignalTestCase):
    """Tests for the SessionAssitant class."""

    APP_ID = 'app-id'
    APP_VERSION = '1.0'
    API_VERSION = '0.99'
    API_FLAGS = []

    def setUp(self):
        """Common set-up code."""
        self.sa = SessionAssistant(self.APP_ID, self.APP_VERSION,
                                   self.API_VERSION, self.API_FLAGS)
        # NOTE: setup a custom repository so that all tests are done in
        # isolation from the user account. While we're doing that, let's check
        # that this this function is allowed just after setting up the session.
        # We cannot really do that in tests later.
        self.repo_dir = tempfile.TemporaryDirectory()
        self.assertIn(self.sa.use_alternate_repository,
                      UsageExpectation.of(self.sa).allowed_calls)
        self.sa.use_alternate_repository(self.repo_dir.name)
        self.assertNotIn(self.sa.use_alternate_repository,
                         UsageExpectation.of(self.sa).allowed_calls)
        # Monitor the provider_selected signal since some tests check it
        self.watchSignal(self.sa.provider_selected)
        # Create a few mocked providers that tests can use.
        # The all-important plainbox provider
        self.p1 = mock.Mock(spec_set=Provider1, name='p1')
        self.p1.namespace = 'com.canonical.plainbox'
        self.p1.name = 'com.canonical.plainbox:special'
        # An example 3rd party provider
        self.p2 = mock.Mock(spec_set=Provider1, name='p2')
        self.p2.namespace = 'pl.zygoon'
        self.p2.name = 'pl.zygoon:example'
        # A Canonical certification provider
        self.p3 = mock.Mock(spec_set=Provider1, name='p3')
        self.p3.namespace = 'com.canonical.certification'
        self.p3.name = 'com.canonical.certification:stuff'
        # The stubbox provider, non-mocked, with lots of useful jobs
        self.stubbox = get_stubbox()

    def tearDown(self):
        """Common tear-down code."""
        self.repo_dir.cleanup()

    def _get_mock_providers(self):
        """Get some mocked provides for testing."""
        return [self.p1, self.p2, self.p3]

    def _get_test_providers(self):
        """Get the stubbox provider, it's fully functional."""
        return [self.stubbox]

    def test_select_providers__loads_plainbox(self, mock_get_providers):
        """Check that select_providers() loads special plainbox providers."""
        mock_get_providers.return_value = self._get_mock_providers()
        selected_providers = self.sa.select_providers()
        # We're expecting to see just [p1]
        self.assertEqual(selected_providers, [self.p1])
        # p1 is always auto-loaded
        self.assertSignalFired(self.sa.provider_selected, self.p1, auto=True)
        # p2 is not loaded
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p2,
                                  auto=True)
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p2,
                                  auto=False)
        # p3 is not loaded
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p3,
                                  auto=True)
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p3,
                                  auto=False)

    def test_select_providers__loads_by_id(self, mock_get_providers):
        """Check that select_providers() loads providers with given name."""
        mock_get_providers.return_value = self._get_mock_providers()
        selected_providers = self.sa.select_providers(self.p2.name)
        # We're expecting to see both providers [p1, p2]
        self.assertEqual(selected_providers, [self.p1, self.p2])
        # p1 is always auto-loaded
        self.assertSignalFired(self.sa.provider_selected, self.p1, auto=True)
        # p2 is loaded on demand
        self.assertSignalFired(self.sa.provider_selected, self.p2, auto=False)
        # p3 is not loaded
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p3,
                                  auto=False)
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p3,
                                  auto=True)

    def test_select_providers__loads_by_pattern(self, mock_get_providers):
        """Check that select_providers() loads providers matching a pattern."""
        mock_get_providers.return_value = self._get_mock_providers()
        selected_providers = self.sa.select_providers("*canonical*")
        # We're expecting to see both canonical providers [p1, p3]
        self.assertEqual(selected_providers, [self.p1, self.p3])
        # p1 is always auto-loaded
        self.assertSignalFired(self.sa.provider_selected, self.p1, auto=True)
        # p2 is not loaded
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p2,
                                  auto=False)
        self.assertSignalNotFired(self.sa.provider_selected,
                                  self.p2,
                                  auto=True)
        # p3 is loaded on demand
        self.assertSignalFired(self.sa.provider_selected, self.p3, auto=False)

    def test_select_providers__reports_bogus_names(self, mock_get_providers):
        """Check that select_providers() reports wrong names and patterns."""
        mock_get_providers.return_value = self._get_mock_providers()
        with self.assertRaises(ValueError) as boom:
            self.sa.select_providers("*bimbo*")
        self.assertEqual(str(boom.exception), "nothing selected with: *bimbo*")

    def test_expected_call_sequence(self, mock_get_providers):
        """Track the sequence of allowed method calls."""
        mock_get_providers.return_value = self._get_test_providers()
        # SessionAssistant.select_providers() must be allowed
        self.assertIn(self.sa.select_providers,
                      UsageExpectation.of(self.sa).allowed_calls)
        # Call SessionAssistant.select_providers()
        self.sa.select_providers()
        # SessionAssistant.select_providers() must no longer be allowed
        self.assertNotIn(self.sa.select_providers,
                         UsageExpectation.of(self.sa).allowed_calls)
        # SessionAssistant.start_new_session() must now be allowed
        self.assertIn(self.sa.start_new_session,
                      UsageExpectation.of(self.sa).allowed_calls)
        # Call SessionAssistant.start_new_session()
        self.sa.start_new_session("just for testing")
        # SessionAssistant.start_new_session() must no longer allowed
        self.assertNotIn(self.sa.start_new_session,
                         UsageExpectation.of(self.sa).allowed_calls)
        # SessionAssistant.select_test_plan() must now be allowed
        self.assertIn(self.sa.select_test_plan,
                      UsageExpectation.of(self.sa).allowed_calls)
Пример #11
0
def main():
    import argparse
    commands = {
        'check-config': CheckConfig,
        'launcher': Launcher,
        'list': List,
        'run': Run,
        'startprovider': StartProvider,
        'submit': Submit,
        'list-bootstrapped': ListBootstrapped,
        'merge-reports': MergeReports,
        'merge-submissions': MergeSubmissions,
        'tp-export': TestPlanExport,
        'slave': RemoteSlave,
        'master': RemoteMaster,
    }
    known_cmds = list(commands.keys())
    known_cmds += ['-h', '--help']
    if not (set(known_cmds) & set(sys.argv[1:])):
        sys.argv.insert(1, 'launcher')
    top_parser = argparse.ArgumentParser()
    top_parser.add_argument('-v',
                            '--verbose',
                            action='store_true',
                            help=_('print more logging from checkbox'))
    top_parser.add_argument('--debug',
                            action='store_true',
                            help=_('print debug messages from checkbox'))
    top_parser.add_argument('--clear-cache',
                            action='store_true',
                            help=_('remove cached results from the system'))
    top_parser.add_argument('--clear-old-sessions',
                            action='store_true',
                            help=_("remove previous sessions' data"))
    top_parser.add_argument(
        '--version',
        action='store_true',
        help=_("show program's version information and exit"))
    top_parser.add_argument('subcommand',
                            help=_("subcommand to run"),
                            choices=commands.keys())
    # parse all the cli invocation until a subcommand is found
    # subcommand doesn't start with a '-'
    subcmd_index = 1
    for i, arg in enumerate(sys.argv[1:]):
        if not arg.startswith('-'):
            subcmd_index = i + 1
            break
    args = top_parser.parse_args(sys.argv[1:subcmd_index + 1])
    subcmd_parser = argparse.ArgumentParser()
    subcmd = commands[args.subcommand]()
    subcmd.register_arguments(subcmd_parser)
    sub_args = subcmd_parser.parse_args(sys.argv[subcmd_index + 1:])
    sa = SessionAssistant(
        "com.canonical:checkbox-cli",
        "0.99",
        "0.99",
        ["restartable"],
    )
    ctx = Context(sub_args, sa)
    try:
        socket.getaddrinfo('localhost', 443)  # 443 for HTTPS
    except Exception as exc:
        pass
    if '--clear-cache' in sys.argv:
        ResourceJobCache().clear()
    if '--clear-old-sessions' in sys.argv:
        old_sessions = [s[0] for s in sa.get_old_sessions()]
        sa.delete_sessions(old_sessions)
    if args.verbose:
        logging_level = logging.INFO
        logging.basicConfig(level=logging_level)
    if args.debug:
        logging_level = logging.DEBUG
        logging.basicConfig(level=logging_level)
    subcmd.invoked(ctx)
Пример #12
0
class RemoteSessionAssistant():
    """Remote execution enabling wrapper for the SessionAssistant"""

    REMOTE_API_VERSION = 9

    def __init__(self, cmd_callback):
        _logger.debug("__init__()")
        self._cmd_callback = cmd_callback
        self._sudo_broker = SudoBroker()
        self._sudo_password = None
        self._session_change_lock = Lock()
        self._operator_lock = Lock()
        self.buffered_ui = BufferedUI()
        self._input_piping = os.pipe()
        self._passwordless_sudo = is_passwordless_sudo()
        self.terminate_cb = None
        self._pipe_from_master = open(self._input_piping[1], 'w')
        self._pipe_to_subproc = open(self._input_piping[0])
        self._reset_sa()
        self._currently_running_job = None

    def _reset_sa(self):
        _logger.info("Resetting RSA")
        self._state = Idle
        self._sa = SessionAssistant('service', api_flags={SA_RESTARTABLE})
        self._sa.configure_application_restart(self._cmd_callback)
        self._be = None
        self._session_id = ""
        self._jobs_count = 0
        self._job_index = 0
        self._currently_running_job = None  # XXX: yuck!
        self._last_job = None
        self._current_comments = ""
        self._last_response = None
        self._normal_user = ''
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()

    @property
    def session_change_lock(self):
        return self._session_change_lock

    @property
    def config(self):
        return self._sa.config

    def allowed_when(*states):
        def wrap(f):
            def fun(self, *args):
                if self._state not in states:
                    raise AssertionError("expected %s, is %s" %
                                         (states, self._state))
                return f(self, *args)

            return fun

        return wrap

    def interact(self, interaction):
        self._state = Interacting
        self._current_interaction = interaction
        yield self._current_interaction

    @allowed_when(Interacting)
    def remember_users_response(self, response):
        if response == 'rollback':
            self._currently_running_job = None
            self.session_change_lock.acquire(blocking=False)
            self.session_change_lock.release()
            self._current_comments = ""
            self._state = TestsSelected
            return
        self._last_response = response
        self._state = Running

    def _prepare_display_without_psutil(self):
        try:
            value = check_output(
                'strings /proc/*/environ 2>/dev/null | '
                'grep -m 1 -oP "(?<=DISPLAY=).*"',
                shell=True,
                universal_newlines=True).rstrip()
            return {'DISPLAY': value}
        except CalledProcessError:
            return None

    def prepare_extra_env(self):
        # If possible also set the DISPLAY env var
        # i.e when a user desktop session is running
        for p in psutil.pids():
            try:
                p_environ = psutil.Process(p).environ()
                p_user = psutil.Process(p).username()
            except psutil.AccessDenied:
                continue
            except AttributeError:
                # psutil < 4.0.0 doesn't provide Process.environ()
                return self._prepare_display_without_psutil()
            except psutil.NoSuchProcess:
                # quietly ignore the process that died before we had a chance to
                # read the environment from them
                continue
            if ("DISPLAY" in p_environ and p_user != 'gdm'):  # gdm uses :1024
                return {'DISPLAY': p_environ['DISPLAY']}

    @allowed_when(Idle)
    def start_session(self, configuration):
        self._reset_sa()
        _logger.debug("start_session: %r", configuration)
        session_title = 'checkbox-slave'
        session_desc = 'checkbox-slave session'

        self._launcher = load_configs()
        if configuration['launcher']:
            self._launcher.read_string(configuration['launcher'], False)
            session_title = self._launcher.session_title
            session_desc = self._launcher.session_desc

        self._sa.use_alternate_configuration(self._launcher)

        self._normal_user = self._launcher.normal_user
        if configuration['normal_user']:
            self._normal_user = configuration['normal_user']
        pass_provider = (None if self._passwordless_sudo else
                         self.get_decrypted_password)
        runner_kwargs = {
            'normal_user_provider': lambda: self._normal_user,
            'password_provider': pass_provider,
            'stdin': self._pipe_to_subproc,
            'extra_env': self.prepare_extra_env(),
        }
        self._sa.start_new_session(session_title, UnifiedRunner, runner_kwargs)
        self._sa.update_app_blob(
            json.dumps({
                'description': session_desc,
            }).encode("UTF-8"))
        self._sa.update_app_blob(
            json.dumps({
                'launcher': configuration['launcher'],
            }).encode("UTF-8"))

        self._session_id = self._sa.get_session_id()
        tps = self._sa.get_test_plans()
        filtered_tps = set()
        for filter in self._launcher.test_plan_filters:
            filtered_tps.update(fnmatch.filter(tps, filter))
        filtered_tps = list(filtered_tps)
        response = zip(
            filtered_tps,
            [self._sa.get_test_plan(tp).name for tp in filtered_tps])
        self._state = Started
        self._available_testplans = sorted(
            response, key=lambda x: x[1])  # sorted by name
        return self._available_testplans

    @allowed_when(Started)
    def prepare_bootstrapping(self, test_plan_id):
        """
        Go through the list of bootstrapping jobs, and return True
        if sudo password will be needed for any bootstrapping job.
        """
        _logger.debug("prepare_bootstrapping: %r", test_plan_id)
        self._sa.update_app_blob(
            json.dumps({
                'testplan_id': test_plan_id,
            }).encode("UTF-8"))
        self._sa.select_test_plan(test_plan_id)
        for job_id in self._sa.get_bootstrap_todo_list():
            job = self._sa.get_job(job_id)
            if job.user is not None:
                # job requires sudo controller
                return True
        return False

    @allowed_when(Started)
    def get_bootstrapping_todo_list(self):
        return self._sa.get_bootstrap_todo_list()

    def finish_bootstrap(self):
        self._sa.finish_bootstrap()
        self._state = Bootstrapped
        if self._launcher.auto_retry:
            for job_id in self._sa.get_static_todo_list():
                job_state = self._sa.get_job_state(job_id)
                job_state.attempts = self._launcher.max_attempts
        return self._sa.get_static_todo_list()

    def get_manifest_repr(self):
        return self._sa.get_manifest_repr()

    def save_manifest(self, manifest_answers):
        return self._sa.save_manifest(manifest_answers)

    def modify_todo_list(self, chosen_jobs):
        self._sa.use_alternate_selection(chosen_jobs)

    def finish_job_selection(self):
        self._jobs_count = len(self._sa.get_dynamic_todo_list())
        self._state = TestsSelected

    @allowed_when(Interacting)
    def rerun_job(self, job_id, result):
        self._sa.use_job_result(job_id, result)
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()
        self._state = TestsSelected

    @allowed_when(TestsSelected)
    def run_job(self, job_id):
        """
        Depending on the type of the job, run_job can yield different number
        of Interaction instances.
        """
        _logger.debug("run_job: %r", job_id)
        self._job_index = self._jobs_count - len(
            self._sa.get_dynamic_todo_list()) + 1
        self._currently_running_job = job_id
        self._current_comments = ""
        job = self._sa.get_job(job_id)
        if job.plugin in ['manual', 'user-interact-verify', 'user-interact']:
            may_comment = True
            while may_comment:
                may_comment = False
                if job.tr_description() and not job.tr_purpose():
                    yield from self.interact(
                        Interaction('description', job.tr_description()))
                if job.tr_purpose():
                    yield from self.interact(
                        Interaction('purpose', job.tr_purpose()))
                if job.tr_steps():
                    yield from self.interact(
                        Interaction('steps', job.tr_steps()))
                if self._last_response == 'comment':
                    yield from self.interact(Interaction('comment'))
                    if self._last_response:
                        self._current_comments += self._last_response
                    may_comment = True
                    continue
            if self._last_response == 'skip':

                def skipped_builder(*args, **kwargs):
                    result_builder = JobResultBuilder(
                        outcome=IJobResult.OUTCOME_SKIP,
                        comments=_("Explicitly skipped before execution"))
                    if self._current_comments != "":
                        result_builder.comments = self._current_comments
                    return result_builder

                self._be = BackgroundExecutor(self, job_id, skipped_builder)
                yield from self.interact(
                    Interaction('skip', job.verification, self._be))
        if job.command:
            if (job.user and not self._passwordless_sudo
                    and not self._sudo_password):
                self._ephemeral_key = EphemeralKey()
                self._current_interaction = Interaction(
                    'sudo_input', self._ephemeral_key.public_key)
                pass_is_correct = False
                while not pass_is_correct:
                    self.state = Interacting
                    yield self._current_interaction
                    pass_is_correct = validate_pass(
                        self._sudo_broker.decrypt_password(
                            self._sudo_password))
                    if not pass_is_correct:
                        print(_('Sorry, try again.'))
                assert (self._sudo_password is not None)
            self._state = Running
            self._be = BackgroundExecutor(self, job_id, self._sa.run_job)
        else:

            def undecided_builder(*args, **kwargs):
                return JobResultBuilder(outcome=IJobResult.OUTCOME_UNDECIDED)

            self._be = BackgroundExecutor(self, job_id, undecided_builder)
        if self._sa.get_job(self._currently_running_job).plugin in [
                'manual', 'user-interact-verify'
        ]:
            yield from self.interact(
                Interaction('verification', job.verification, self._be))

    @allowed_when(Started, Bootstrapping)
    def run_bootstrapping_job(self, job_id):
        self._currently_running_job = job_id
        self._state = Bootstrapping
        self._be = BackgroundExecutor(self, job_id, self._sa.run_job)

    @allowed_when(Running, Bootstrapping, Interacting, TestsSelected)
    def monitor_job(self):
        """
        Check the state of the currently running job.

        :returns:
            (state, payload) tuple.
            Payload conveys detailed info that's characteristic
            to the current state.
        """
        _logger.debug("monitor_job()")
        # either return [done, running, awaiting response]
        # TODO: handle awaiting_response (reading from stdin by the job)
        if self._be and self._be.is_alive():
            return ('running', self.buffered_ui.get_output())
        else:
            return ('done', self.buffered_ui.get_output())

    def get_remote_api_version(self):
        return self.REMOTE_API_VERSION

    def whats_up(self):
        """
        Check what is remote-service up to
        :returns:
            (state, payload) tuple.
        """
        _logger.debug("whats_up()")
        payload = None
        if self._state == Running:
            payload = (self._job_index, self._jobs_count,
                       self._currently_running_job)
        if self._state == TestsSelected and not self._currently_running_job:
            payload = {'last_job': self._last_job}
        elif self._state == Started:
            payload = self._available_testplans
        elif self._state == Interacting:
            payload = self._current_interaction
        elif self._state == Bootstrapped:
            payload = self._sa.get_static_todo_list()
        return self._state, payload

    def terminate(self):
        if self.terminate_cb:
            self.terminate_cb()

    def get_session_progress(self):
        """Return list of completed and not completed jobs in a dict."""

        _logger.debug("get_session_progress()")
        return {
            "done": self._sa.get_dynamic_done_list(),
            "todo": self._sa.get_dynamic_todo_list(),
        }

    def get_master_public_key(self):
        """Expose the master public key"""
        return self._sudo_broker.master_public

    def save_password(self, cyphertext):
        """Store encrypted password"""
        if validate_pass(self._sudo_broker.decrypt_password(cyphertext)):
            self._sudo_password = cyphertext
            return True
        return False

    def get_decrypted_password(self):
        """Return decrypted password"""
        if self._passwordless_sudo:
            return ''
        assert (self._sudo_password)
        return self._sudo_broker.decrypt_password(self._sudo_password)

    def finish_job(self, result=None):
        # assert the thread completed
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()
        if self._sa.get_job(self._currently_running_job).plugin in [
                'manual', 'user-interact-verify'
        ] and not result:
            # for manually verified jobs we don't set the outcome here
            # it is already determined
            return
        if not result:
            result = self._be.wait().get_result()
        self._sa.use_job_result(self._currently_running_job, result)
        if self._state != Bootstrapping:
            if not self._sa.get_dynamic_todo_list():
                if (self._launcher.auto_retry
                        and self.get_rerun_candidates('auto')):
                    self._state = TestsSelected
                else:
                    self._state = Idle
            else:
                self._state = TestsSelected
        return result

    def get_rerun_candidates(self, session_type='manual'):
        return self._sa.get_rerun_candidates(session_type)

    def prepare_rerun_candidates(self, rerun_candidates):
        candidates = self._sa.prepare_rerun_candidates(rerun_candidates)
        self._state = TestsSelected
        return candidates

    def get_job_result(self, job_id):
        return self._sa.get_job_state(job_id).result

    def get_jobs_repr(self, job_ids, offset=0):
        """
        Translate jobs into a {'field': 'val'} representations.

        :param job_ids:
            list of job ids to get and translate
        :param offset:
            apply an offset to the job number if for instance the job list
            is being requested part way through a session
        :returns:
            list of dicts representing jobs
        """
        test_info_list = tuple()
        for job_no, job_id in enumerate(job_ids, start=offset + 1):
            job = self._sa.get_job(job_id)
            cat_id = self._sa.get_job_state(job.id).effective_category_id
            duration_txt = _('No estimated duration provided for this job')
            if job.estimated_duration is not None:
                duration_txt = '{} {}'.format(job.estimated_duration,
                                              _('seconds'))
            # the next dict is only to get test_info generating code tidier
            automated_desc = {
                True: _('this job is fully automated'),
                False: _('this job requires some manual interaction')
            }
            test_info = {
                "id":
                job.id,
                "partial_id":
                job.partial_id,
                "name":
                job.tr_summary(),
                "category_id":
                cat_id,
                "category_name":
                self._sa.get_category(cat_id).tr_name(),
                "automated":
                automated_desc[job.automated],
                "duration":
                duration_txt,
                "description": (job.tr_description()
                                or _('No description provided for this job')),
                "outcome":
                self._sa.get_job_state(job.id).result.outcome,
                "user":
                job.user,
                "command":
                job.command,
                "num":
                job_no,
                "plugin":
                job.plugin,
            }
            test_info_list = test_info_list + ((test_info, ))
        return test_info_list

    def resume_by_id(self, session_id=None):
        self._launcher = load_configs()
        resume_candidates = list(self._sa.get_resumable_sessions())
        if not session_id:
            if not resume_candidates:
                print('No session to resume')
                return
            session_id = resume_candidates[0].id
        if session_id not in [s.id for s in resume_candidates]:
            print("Requested session not found")
            return
        _logger.warning("Resuming session: %r", session_id)
        self._normal_user = self._launcher.normal_user
        pass_provider = (None if self._passwordless_sudo else
                         self.get_decrypted_password)
        runner_kwargs = {
            'normal_user_provider': lambda: self._normal_user,
            'password_provider': pass_provider,
            'stdin': self._pipe_to_subproc,
            'extra_env': self.prepare_extra_env(),
        }
        meta = self._sa.resume_session(session_id, runner_kwargs=runner_kwargs)
        app_blob = json.loads(meta.app_blob.decode("UTF-8"))
        launcher = app_blob['launcher']
        self._launcher.read_string(launcher, False)
        self._sa.use_alternate_configuration(self._launcher)
        test_plan_id = app_blob['testplan_id']
        self._sa.select_test_plan(test_plan_id)
        self._sa.bootstrap()
        self._last_job = meta.running_job_name

        result_dict = {
            'outcome': IJobResult.OUTCOME_PASS,
            'comments': _("Automatically passed after resuming execution"),
        }
        result_path = os.path.join(self._sa.get_session_dir(), 'CHECKBOX_DATA',
                                   '__result')
        if os.path.exists(result_path):
            try:
                with open(result_path, 'rt') as f:
                    result_dict = json.load(f)
                    # the only really important field in the result is
                    # 'outcome' so let's make sure it doesn't contain
                    # anything stupid
                    if result_dict.get('outcome') not in [
                            'pass', 'fail', 'skip'
                    ]:
                        result_dict['outcome'] = IJobResult.OUTCOME_PASS
            except json.JSONDecodeError as e:
                pass
        result = MemoryJobResult(result_dict)
        if self._last_job:
            try:
                self._sa.use_job_result(self._last_job, result, True)
            except KeyError:
                raise SystemExit(self._last_job)

        # some jobs have already been run, so we need to update the attempts
        # count for future auto-rerunning
        if self._launcher.auto_retry:
            for job_id in [
                    job.id for job in self.get_rerun_candidates('auto')
            ]:
                job_state = self._sa.get_job_state(job_id)
                job_state.attempts = self._launcher.max_attempts - len(
                    job_state.result_history)

        self._state = TestsSelected

    def finalize_session(self):
        self._sa.finalize_session()
        self._reset_sa()

    def transmit_input(self, text):
        self._pipe_from_master.write(text)
        self._pipe_from_master.flush()

    def send_signal(self, signal):
        if not self._currently_running_job:
            return
        target_user = self._sa.get_job(self._currently_running_job).user
        self._sa.send_signal(signal, target_user)

    @property
    def manager(self):
        return self._sa._manager

    @property
    def passwordless_sudo(self):
        return self._passwordless_sudo

    @property
    def sideloaded_providers(self):
        return self._sa.sideloaded_providers
Пример #13
0
class CheckboxTool:
    def __init__(self):
        self.sa = SessionAssistant('CheckboxTool')

        self.sa.select_providers('*')
        self.sa.start_new_session('print_sequence')
        self.all_tps = self.sa.get_test_plans()

        self.units = dict()
        self.template_units = dict()
        for unit in self.sa._context._unit_list:
            u_type = type(unit)
            if u_type == TemplateUnit:
                unit.re_matcher, unit.re_greedy = template_to_re(unit.id)
                self.template_units[unit.id] = unit
            if not (issubclass(u_type, JobDefinition)):
                continue
            self.units[unit.id] = unit

    def get_unit_info(self, line, qualifier_unit):
        kind = 'unknown'
        extras = ''
        full_id = line
        ret_plugin = None
        if "::" not in full_id:
            qid = qualifier_unit.qualify_id(full_id)
            full_id = qid
        if '::after-suspend' in full_id:
            full_id = full_id.replace('::after-suspend-', '::')
            extras = '  <= {} REMOVED "after-suspend-" PREFIX'.format(full_id)
        if full_id in self.units.keys():
            plugin = self.units[full_id].plugin
            ret_plugin = plugin
            if plugin in ['shell', 'resource', 'attachment']:
                kind = 'automatic'
            else:
                kind = 'manual'
            if self.units[full_id].depends:
                for dep_id in self.units[full_id].depends.split():
                    dep_kind, _ = self.get_kind_for_unit(
                        dep_id, self.units[full_id])
                    if dep_kind == 'manual':
                        extras += 'deps on manual'
        if kind == 'unknown':
            candidates = []
            for tid, tunit in self.template_units.items():
                matches = re.match(tunit.re_matcher, full_id)
                if matches:
                    candidates.append(tunit)
            if not candidates:
                for tid, tunit in self.template_units.items():
                    matches = re.match(tunit.re_greedy, full_id)
                    if matches:
                        candidates.append(tunit)
            if not candidates:
                # ordinary matching: from include regex to template_ids
                for tid, tunit in self.template_units.items():
                    matches = re.match(full_id, tid)
                    if matches:
                        candidates.append(tunit)

            tunit = None
            if len(candidates) == 1:
                tunit = candidates[0]
            elif len(candidates) > 1:
                from difflib import SequenceMatcher
                tid = sorted(
                    [c.id for c in candidates],
                    key=lambda a: SequenceMatcher(None, a, line).ratio(),
                    reverse=True)[0]
                tunit = self.template_units[tid]

            if tunit:
                ret_plugin = tunit.get_record_value('plugin')
                if tunit.get_record_value('plugin') in [
                        'shell', 'resource', 'attachment'
                ]:
                    kind = 'automatic'
                else:
                    kind = 'manual'
                if tunit.get_record_value('depends'):
                    for dep_id in tunit.get_record_value('depends').split():
                        dep_kind, _ = self.get_kind_for_unit(dep_id, tunit)
                        if dep_kind == 'manual':
                            extras += 'deps on man'
                            kind = 'manual'
        if not ret_plugin:
            ret_plugin = 'UNKNOWN'
        return ret_plugin, extras

    def get_kind_for_unit(self, line, qualifier_unit):
        kind = 'unknown'
        extras = ''
        full_id = line
        if "::" not in full_id:
            qid = qualifier_unit.qualify_id(full_id)
            full_id = qid
        if '::after-suspend' in full_id:
            full_id = full_id.replace('::after-suspend-', '::')
            extras = '  <= {} REMOVED "after-suspend-" PREFIX'.format(full_id)
        if full_id in self.units.keys():
            plugin = self.units[full_id].plugin
            if plugin in ['shell', 'resource', 'attachment']:
                kind = 'automatic'
            else:
                kind = 'manual'
            if self.units[full_id].depends:
                for dep_id in self.units[full_id].depends.split():
                    dep_kind, _ = self.get_kind_for_unit(
                        dep_id, self.units[full_id])
                    if dep_kind == 'manual':
                        if kind == 'automatic':
                            extras = 'manual b/c of dep on {}'.format(
                                dep_id) + extras
                        kind = 'manual'
        if kind == 'unknown':
            candidates = []
            for tid, tunit in self.template_units.items():
                matches = re.match(tunit.re_matcher, full_id)
                if matches:
                    candidates.append(tunit)
            if not candidates:
                for tid, tunit in self.template_units.items():
                    matches = re.match(tunit.re_greedy, full_id)
                    if matches:
                        candidates.append(tunit)
            if not candidates:
                # ordinary matching: from include regex to template_ids
                for tid, tunit in self.template_units.items():
                    matches = re.match(full_id, tid)
                    if matches:
                        candidates.append(tunit)

            tunit = None
            if len(candidates) == 1:
                tunit = candidates[0]
            elif len(candidates) > 1:
                from difflib import SequenceMatcher
                tid = sorted(
                    [c.id for c in candidates],
                    key=lambda a: SequenceMatcher(None, a, line).ratio(),
                    reverse=True)[0]
                tunit = self.template_units[tid]

            if tunit:
                if tunit.get_record_value('plugin') in [
                        'shell', 'resource', 'attachment'
                ]:
                    kind = 'automatic'
                else:
                    kind = 'manual'
                if tunit.get_record_value('depends'):
                    for dep_id in tunit.get_record_value('depends').split():
                        dep_kind, _ = self.get_kind_for_unit(dep_id, tunit)
                        if dep_kind == 'manual':
                            if kind == 'automatic':
                                extras = 'manual b/c of dep on {}'.format(
                                    dep_id) + extras
                            kind = 'manual'
                extras = '   <= {}'.format(tunit.id)
        return kind, extras

    def get_run_sequence(self, tp_id, include_nested=True):
        tp_unit = self.sa.get_test_plan(tp_id)
        result = []
        if include_nested:
            for tp in tp_unit.get_nested_part():
                # print("NESTED {}".format(tp))
                result += self.get_run_sequence(tp.id)
        for line in tp_unit.include.split('\n'):
            if not line:
                continue
            if line.startswith('#'):
                continue
            sections = line.split()
            annotations = line[len(sections[0]):]
            line = sections[0]
            line = line.split()[0]
            kind, extras = self.get_kind_for_unit(line, tp_unit)

            result.append(UnitProxy(line, kind, extras, annotations))

        return result

    def split_tp(self, tpid):
        tp_unit = self.sa.get_test_plan(tpid)
        manuals = []
        autos = []
        unknowns = []
        for unit in self.get_run_sequence(tpid, True):
            if unit.kind == 'manual':
                manuals.append(unit)
            if unit.kind == 'automatic':
                autos.append(unit)
            if unit.kind == 'unknown':
                unknowns.append(unit)

        manual_tp = tpid[:-4] + 'manual'
        new_man_pxu = ""
        new_auto_pxu = ""
        if manual_tp not in self.all_tps:
            print("missing {}".format(manual_tp))
            new_man_tp = TestPlanUnit(tp_unit._raw_data)
            # remove the namespace prefix
            include_entries = []
            for unit in manuals:
                namespace = tp_unit.qualify_id('')
                if unit.id.startswith(namespace):
                    unit.id = unit.id.replace(namespace, '')
                include_entries.append(unit.id + unit.annotations)
            new_man_tp.id = unqualify_id(tp_unit, manual_tp)
            new_man_tp.include = "\n".join(include_entries)
            new_man_tp.name += ' (Manual)'
            new_man_tp.description += ' (Manual)'
            new_man_pxu = generate_tp_unit(new_man_tp)
        else:
            print("{} already there".format(manual_tp))
            man_seq = self.get_run_sequence(manual_tp)
            man_seq_ids = [unit.id for unit in man_seq]
            new_seq = [unit.id for unit in manuals]
            if man_seq_ids != new_seq:
                print("BUT HAS WRONG INCLUDE")
                print("FULL:\n{}\n\n VS \n\nMANUAL:\n{}".format(
                    "\n".join(new_seq), "\n".join(man_seq_ids)))
        auto_tp = tpid[:-4] + 'automated'
        if auto_tp not in self.all_tps:
            print("missing {}".format(auto_tp))
            new_auto_tp = TestPlanUnit(tp_unit._raw_data)
            # remove the namespace prefix
            include_entries = []
            for unit in autos:
                namespace = tp_unit.qualify_id('')
                if unit.id.startswith(namespace):
                    unit.id = unit.id.replace(namespace, '')
                include_entries.append(unit.id + unit.annotations)
            new_auto_tp.id = unqualify_id(tp_unit, auto_tp)
            new_auto_tp.include = "\n".join(include_entries)
            new_auto_tp.name += ' (Automated)'
            new_auto_tp.description += ' (Automated)'
            new_auto_pxu = generate_tp_unit(new_auto_tp)
        else:
            print("{} already there".format(auto_tp))
            auto_seq = self.get_run_sequence(auto_tp)
            auto_seq_ids = [unit.id for unit in auto_seq]
            new_seq = [unit.id for unit in autos]

            if auto_seq_ids != new_seq:
                print("BUT HAS DIFFERENT INCLUDE")
                print("FULL:\n{}\n\n VS \n\AUTOMATED:\n{}".format(
                    "\n".join(new_seq), "\n".join(auto_seq_ids)))
        if not new_man_pxu and not new_auto_pxu:
            return
        tp_unit.include = ""
        tp_unit.id = unqualify_id(tp_unit, tp_unit.id)
        tp_unit.nested_part = "\n".join([manual_tp, auto_tp])
        new_full_pxu = generate_tp_unit(tp_unit)
        with open(tp_unit.origin.source.filename, 'rt') as f:
            pxu = f.readlines()
        backup_path = tp_unit.origin.source.filename + '.bkp'
        if os.path.exists(backup_path):
            print("Backup file already present. Not overwriting: {}".format(
                backup_path))
        else:
            shutil.copyfile(tp_unit.origin.source.filename, backup_path)
            print("Backup made: {}".format(backup_path))

        new_pxu = pxu[:tp_unit.origin.line_start - 1]
        new_pxu.append(new_full_pxu)
        new_pxu.append("\n")
        if new_man_pxu:
            new_pxu.append(new_man_pxu)
            new_pxu.append("\n")
        if new_auto_pxu:
            new_pxu.append(new_auto_pxu)
            new_pxu.append("\n")
        new_pxu += pxu[tp_unit.origin.line_end:]
        with open(tp_unit.origin.source.filename, 'wt') as f:
            f.write("".join(new_pxu))
        print("{} rewritten!".format(tp_unit.origin.source.filename))

    def annotated_tp(self, tp_id):
        tp_unit = self.sa.get_test_plan(tp_id)
        new_include = ''
        for line in tp_unit.include.split('\n'):
            if not line:
                new_include += line + '\n'
                continue
            if line.startswith('#'):
                new_include += line + '\n'
                continue
            if '#!-' in line:
                new_include += line + '\n'
                continue
            sections = line.split()
            annotations = line[len(sections[0]):]
            pattern = sections[0]
            pattern = pattern.split()[0]
            plugin, extras = self.get_unit_info(pattern, tp_unit)
            new_include += '{}    #!- {} - {}\n'.format(line, plugin, extras)
        tp_unit.include = new_include
        return generate_tp_unit(tp_unit)
Пример #14
0
class SessionAssistantTests(morris.SignalTestCase):
    """Tests for the SessionAssitant class."""

    APP_ID = 'app-id'
    APP_VERSION = '1.0'
    API_VERSION = '0.99'
    API_FLAGS = []

    def setUp(self):
        """Common set-up code."""
        self.sa = SessionAssistant(self.APP_ID, self.APP_VERSION,
                                   self.API_VERSION, self.API_FLAGS)
        # NOTE: setup a custom repository so that all tests are done in
        # isolation from the user account. While we're doing that, let's check
        # that this this function is allowed just after setting up the session.
        # We cannot really do that in tests later.
        self.repo_dir = tempfile.TemporaryDirectory()
        self.assertIn(self.sa.use_alternate_repository,
                      UsageExpectation.of(self.sa).allowed_calls)
        self.sa.use_alternate_repository(self.repo_dir.name)
        self.assertNotIn(self.sa.use_alternate_repository,
                         UsageExpectation.of(self.sa).allowed_calls)
        # Monitor the provider_selected signal since some tests check it
        self.watchSignal(self.sa.provider_selected)
        # Create a few mocked providers that tests can use.
        # The all-important plainbox provider
        self.p1 = mock.Mock(spec_set=Provider1, name='p1')
        self.p1.namespace = 'com.canonical.plainbox'
        self.p1.name = 'com.canonical.plainbox:special'
        # An example 3rd party provider
        self.p2 = mock.Mock(spec_set=Provider1, name='p2')
        self.p2.namespace = 'pl.zygoon'
        self.p2.name = 'pl.zygoon:example'
        # A Canonical certification provider
        self.p3 = mock.Mock(spec_set=Provider1, name='p3')
        self.p3.namespace = 'com.canonical.certification'
        self.p3.name = 'com.canonical.certification:stuff'
        # The stubbox provider, non-mocked, with lots of useful jobs
        self.stubbox = get_stubbox()

    def tearDown(self):
        """Common tear-down code."""
        self.repo_dir.cleanup()

    def _get_mock_providers(self):
        """Get some mocked provides for testing."""
        return [self.p1, self.p2, self.p3]

    def _get_test_providers(self):
        """Get the stubbox provider, it's fully functional."""
        return [self.stubbox]

    def test_expected_call_sequence(self, mock_get_providers):
        """Track the sequence of allowed method calls."""
        mock_get_providers.return_value = self._get_test_providers()
        # SessionAssistant.start_new_session() must now be allowed
        self.assertIn(self.sa.start_new_session,
                      UsageExpectation.of(self.sa).allowed_calls)
        # Call SessionAssistant.start_new_session()
        self.sa.start_new_session("just for testing")
        # SessionAssistant.start_new_session() must no longer allowed
        self.assertNotIn(self.sa.start_new_session,
                         UsageExpectation.of(self.sa).allowed_calls)
        # SessionAssistant.select_test_plan() must now be allowed
        self.assertIn(self.sa.select_test_plan,
                      UsageExpectation.of(self.sa).allowed_calls)
Пример #15
0
class CheckboxConvergedApplication(PlainboxApplication):
    """
    Class implementing the whole checkbox-converged application logic.

    This class exposes methods that can be called by the javascript embedded
    into many of the QML views. Each method implements a request / response
    semantics where the request is the set of data passed to python from
    javascript and the response is the python dictionary returned and processed
    back on the javascript side.

    This model follows the similar web development mechanics where the browser
    can issue asynchronous requests in reaction to user interactions and uses
    response data to alter the user interface.
    """

    __version__ = (1, 5, 0, 'dev', 0)

    def __init__(self, launcher_definition=None):
        if plainbox.__version__ < (0, 22):
            raise SystemExit("plainbox 0.22 required, you have {}".format(
                ToolBase.format_version_tuple(plainbox.__version__)))
        self.assistant = SessionAssistant('checkbox-converged')
        self.ui = CheckboxConvergedUI()
        self.index = 0
        self._password = None
        self._timestamp = None
        self._latest_session = None
        self._available_test_plans = []
        self.test_plan_id = None
        self.resume_candidate_storage = None
        self.launcher = None
        self.assistant.use_alternate_repository(
            self._get_app_cache_directory())

        # Prepare custom execution controller list
        from plainbox.impl.ctrl import UserJobExecutionController
        from sudo_with_pass_ctrl import RootViaSudoWithPassExecutionController
        ctrl_setup_list = [
            (RootViaSudoWithPassExecutionController, [self._password_provider],
             {}),
            (UserJobExecutionController, [], {}),
        ]
        self.assistant.use_alternate_execution_controllers(ctrl_setup_list)

        if launcher_definition:
            generic_launcher = LauncherDefinition()
            generic_launcher.read([launcher_definition])
            config_filename = os.path.expandvars(
                generic_launcher.config_filename)
            if not os.path.split(config_filename)[0]:
                configs = [
                    '/etc/xdg/{}'.format(config_filename),
                    os.path.expanduser('~/.config/{}'.format(config_filename))
                ]
            else:
                configs = [config_filename]
            self.launcher = generic_launcher.get_concrete_launcher()
            configs.append(launcher_definition)
            self.launcher.read(configs)
            # Checkbox-Converged supports new launcher syntax, so if we have
            # LauncherDefinitionLegacy as launcher right now, let's replace it
            # with a default one
            if type(self.launcher) == LauncherDefinitionLegacy:
                self.launcher = DefaultLauncherDefinition()
            self.assistant.use_alternate_configuration(self.launcher)
            self._prepare_transports()
        else:
            self.launcher = DefaultLauncherDefinition()

    def __repr__(self):
        return "app"

    @view
    def get_launcher_settings(self):
        # this pseudo-adapter exists so qml can now know some bits about the
        # launcher, if you need another setting in the QML fron-end, just add
        # it to the returned dict below
        return {
            'ui_type': self.launcher.ui_type,
        }

    @view
    def load_providers(self, providers_dir):
        if self.launcher:
            self.assistant.select_providers(
                *self.launcher.providers,
                additional_providers=self._get_embedded_providers(
                    providers_dir))
        else:
            self.assistant.select_providers(
                '*',
                additional_providers=self._get_embedded_providers(
                    providers_dir))

    @view
    def get_version_pair(self):
        return {
            'plainbox_version':
            ToolBase.format_version_tuple(plainbox.__version__),
            'application_version':
            ToolBase.format_version_tuple(self.__version__)
        }

    @view
    def start_session(self):
        """Start a new session."""
        self.assistant.start_new_session('Checkbox Converged session')
        self._timestamp = datetime.datetime.utcnow().isoformat()
        return {
            'session_id': self.assistant.get_session_id(),
            'session_dir': self.assistant.get_session_dir()
        }

    @view
    def resume_session(self, rerun_last_test, outcome='skip'):
        """
        Resume latest sesssion.

        :param rerun_last_test:
            A bool stating whether runtime should repeat the test, that the app
            was executing when it was interrupted.
        :param outcome:
            Outcome to set to the last job run. Option useless when rerunning.
        """
        assert outcome in ['pass', 'skip', 'fail', None]
        metadata = self.assistant.resume_session(self._latest_session)
        app_blob = json.loads(metadata.app_blob.decode("UTF-8"))
        self.index = app_blob['index_in_run_list']
        self.test_plan_id = app_blob['test_plan_id']
        self.assistant.select_test_plan(self.test_plan_id)
        self.assistant.bootstrap()

        if not rerun_last_test:
            # Skip current test
            test = self.get_next_test()['result']
            test['outcome'] = outcome
            self.register_test_result(test)
        return {
            'session_id': self._latest_session,
            'session_dir': self.assistant.get_session_dir()
        }

    @view
    def clear_session(self):
        """Reset app-custom state info about the session."""
        self.index = 0
        self._timestamp = datetime.datetime.utcnow().isoformat()
        self._finalize_session()

    @view
    def is_session_resumable(self):
        """Check whether there is a session that can be resumed."""
        for session_id, session_md in self.assistant.get_resumable_sessions():
            if session_md.app_blob is None:
                continue
            # we're interested in the latest session only, this is why we
            # return early
            self._latest_session = session_id
            return {
                'resumable': True,
                'running_job_name': session_md.running_job_name,
                'error_encountered': False,
            }
        else:
            return {
                'resumable': False,
                'error_encountered': False,
            }

    @view
    def get_testplans(self):
        """Get the list of available test plans."""
        if not self._available_test_plans:
            if self.launcher:
                if self.launcher.test_plan_forced:
                    self._available_test_plans = [
                        self.assistant.get_test_plan(
                            self.launcher.test_plan_default_selection)
                    ]
                else:
                    test_plan_ids = self.assistant.get_test_plans()
                    filtered_tp_ids = set()
                    for filter in self.launcher.test_plan_filters:
                        filtered_tp_ids.update(
                            fnmatch.filter(test_plan_ids, filter))
                    filtered_tp_ids = list(filtered_tp_ids)
                    filtered_tp_ids.sort(key=lambda tp_id: self.assistant.
                                         get_test_plan(tp_id).name)
                    self._available_test_plans = [
                        self.assistant.get_test_plan(tp_id)
                        for tp_id in filtered_tp_ids
                    ]
                return {
                    'testplan_info_list': [{
                        "mod_id":
                        tp.id,
                        "mod_name":
                        tp.name,
                        "mod_selected":
                        tp.id == self.launcher.test_plan_default_selection,
                        "mod_disabled":
                        False,
                    } for tp in self._available_test_plans],
                    'forced_selection':
                    self.launcher.test_plan_forced
                }
            else:
                self._available_test_plans = [
                    self.assistant.get_test_plan(tp_id)
                    for tp_id in self.assistant.get_test_plans()
                ]
        return {
            'testplan_info_list': [{
                "mod_id": tp.id,
                "mod_name": tp.name,
                "mod_selected": False,
                "mod_disabled": False,
            } for tp in self._available_test_plans],
            'forced_selection':
            False
        }

    @view
    def remember_testplan(self, test_plan_id):
        """Pick the test plan as the one in force."""
        if self.test_plan_id:
            # test plan has been previously selected. User changed mind, we
            # have to abandon the session
            self._finalize_session()
            self.assistant.start_new_session('Checkbox Converged session')
            self._timestamp = datetime.datetime.utcnow().isoformat()
        self.test_plan_id = test_plan_id
        self.assistant.select_test_plan(test_plan_id)
        self.assistant.bootstrap()
        # because session id (and storage) might have changed, let's share this
        # info with the qml side
        return {
            'session_id': self.assistant.get_session_id(),
            'session_dir': self.assistant.get_session_dir()
        }

    @view
    def get_categories(self):
        """Get categories selection data."""
        category_info_list = [{
            "mod_id": category.id,
            "mod_name": category.tr_name(),
            "mod_selected": True,
            "mod_disabled": False,
        } for category in (
            self.assistant.get_category(category_id)
            for category_id in self.assistant.get_participating_categories())]
        category_info_list.sort(key=lambda ci: (ci['mod_name']))
        return {
            'category_info_list': category_info_list,
            'forced_selection': self.launcher.test_selection_forced
        }

    @view
    def remember_categories(self, selected_id_list):
        """Save category selection."""
        _logger.info("Selected categories: %s", selected_id_list)
        # Remove previously set filters
        self.assistant.remove_all_filters()
        self.assistant.filter_jobs_by_categories(selected_id_list)

    @view
    def get_available_tests(self):
        """
        Get all tests for selection purposes.

        The response object will contain only tests with category matching
        previously set list. Tests are sorted by (category, name)
        """
        category_names = {
            cat_id: self.assistant.get_category(cat_id).tr_name()
            for cat_id in self.assistant.get_participating_categories()
        }
        job_units = [
            self.assistant.get_job(job_id)
            for job_id in self.assistant.get_static_todo_list()
        ]
        mandatory_jobs = self.assistant.get_mandatory_jobs()
        test_info_list = [{
            "mod_id": job.id,
            "mod_name": job.tr_summary(),
            "mod_group": category_names[job.category_id],
            "mod_selected": True,
            "mod_disabled": job.id in mandatory_jobs,
        } for job in job_units]
        test_info_list.sort(key=lambda ti: (ti['mod_group'], ti['mod_name']))
        return {
            'test_info_list': test_info_list,
            'forced_selection': self.launcher.test_selection_forced
        }

    @view
    def get_rerun_candidates(self):
        """Get all the tests that might be selected for rerunning."""
        def rerun_predicate(job_state):
            return job_state.result.outcome in (
                IJobResult.OUTCOME_FAIL, IJobResult.OUTCOME_CRASH,
                IJobResult.OUTCOME_NOT_SUPPORTED, IJobResult.OUTCOME_SKIP)

        rerun_candidates = []
        todo_list = self.assistant.get_static_todo_list()
        job_units = {
            job_id: self.assistant.get_job(job_id)
            for job_id in todo_list
        }
        job_states = {
            job_id: self.assistant.get_job_state(job_id)
            for job_id in todo_list
        }
        category_names = {
            cat_id: self.assistant.get_category(cat_id).tr_name()
            for cat_id in self.assistant.get_participating_categories()
        }
        for job_id, job_state in job_states.items():
            if rerun_predicate(job_state):
                rerun_candidates.append({
                    "mod_id":
                    job_id,
                    "mod_name":
                    job_units[job_id].tr_summary(),
                    "mod_group":
                    category_names[job_units[job_id].category_id],
                    "mod_selected":
                    False
                })
        return rerun_candidates

    @view
    def remember_tests(self, selected_id_list):
        """Save test selection."""
        self.index = 0
        self.assistant.use_alternate_selection(selected_id_list)
        self.assistant.update_app_blob(self._get_app_blob())
        _logger.info("Selected tests: %s", selected_id_list)
        return

    @view
    def get_next_test(self):
        """
        Get next text that is scheduled to run.

        :returns:
        Dictionary resembling JobDefinition or None if all tests are completed
        """
        todo_list = self.assistant.get_static_todo_list()
        if self.index < len(todo_list):
            job = self.assistant.get_job(todo_list[self.index])
            description = ""
            if job.tr_purpose() is not None:
                description = job.tr_purpose() + "\n"
            if job.tr_steps() is not None:
                description += job.tr_steps()
            if not description:
                description = job.tr_description()
            test = {
                "name":
                job.tr_summary(),
                "description":
                description,
                "verificationDescription":
                job.tr_verification()
                if job.tr_verification() is not None else description,
                "plugin":
                job.plugin,
                "id":
                job.id,
                "partial_id":
                job.partial_id,
                "user":
                job.user,
                "qml_file":
                job.qml_file,
                "start_time":
                time.time(),
                "test_number":
                todo_list.index(job.id),
                "tests_count":
                len(todo_list),
                "command":
                job.command,
                "flags":
                job.get_flag_set()
            }
            return test
        else:
            return {}

    @view
    def register_test_result(self, test):
        """Registers outcome of a test."""
        _logger.info("Storing test result: %s", test)
        job_id = test['id']
        builder_kwargs = {
            'outcome': test['outcome'],
            'comments': test.get('comments', pod.UNSET),
            'execution_duration': time.time() - test['start_time'],
        }
        if 'result' in test:
            # if we're registering skipped test as an outcome of resuming
            # session, the result field of the test object will be missing
            builder_kwargs['return_code'] = test['result'].return_code
            builder_kwargs['io_log_filename'] = test['result'].io_log_filename
            builder_kwargs['io_log'] = test['result'].io_log
        else:
            builder_kwargs['return_code'] = 0
        result = JobResultBuilder(**builder_kwargs).get_result()
        self.assistant.use_job_result(job_id, result)
        self.index += 1
        self.assistant.update_app_blob(self._get_app_blob())

    @view
    def run_test_activity(self, test):
        """Run command associated with given test."""
        plugins_handled_natively = ['qml']
        res_builder = self.assistant.run_job(
            test['id'], self.ui, test['plugin'] in plugins_handled_natively)
        test['outcome'] = res_builder.outcome
        test['result'] = res_builder
        return test

    @view
    def get_results(self):
        """Get results object."""
        stats = self.assistant.get_summary()
        return {
            'totalPassed':
            stats[IJobResult.OUTCOME_PASS],
            'totalFailed':
            stats[IJobResult.OUTCOME_FAIL],
            'totalSkipped':
            stats[IJobResult.OUTCOME_SKIP] +
            stats[IJobResult.OUTCOME_NOT_SUPPORTED] +
            stats[IJobResult.OUTCOME_UNDECIDED]
        }

    @view
    def export_results(self, output_format, option_list):
        """Export results to file(s) in the user's 'Documents' directory."""
        self.assistant.finalize_session()
        dirname = self._get_user_directory_documents()
        return self.assistant.export_to_file(output_format, option_list,
                                             dirname)

    @view
    def submit_results(self, config):
        """Submit results to a service configured by config."""

        self.assistant.finalize_session()
        transport = {
            'hexr':
            self.assistant.get_canonical_hexr_transport,
            'hexr-staging':
            (lambda: self.assistant.get_canonical_hexr_transport(staging=True)
             ),
            'c3': (lambda: self.assistant.
                   get_canonical_certification_transport(config['secure_id'])),
            'c3-staging':
            (lambda: self.assistant.get_canonical_certification_transport(
                config['secure_id'], staging=True)),
            'oauth':
            lambda: self.assistant.get_ubuntu_sso_oauth_transport(config),
        }[config['type']]()
        # Default to 'hexr' exporter as it provides xml submission format
        # (CertificationTransport expects xml format for instance.)
        submission_format = config.get('submission_format',
                                       '2013.com.canonical.plainbox::hexr')
        submission_options = config.get('submission_options', [])
        return self.assistant.export_to_transport(submission_format, transport,
                                                  submission_options)

    def _prepare_transports(self):
        self._available_transports = get_all_transports()
        self.transports = dict()

    @view
    def get_certification_transport_config(self):
        """Returns the c3 (certification) transport configuration."""
        for report in self.launcher.stock_reports:
            self._prepare_stock_report(report)
        if 'c3' in self.launcher.transports:
            return self.launcher.transports['c3']
        elif 'c3-staging' in self.launcher.transports:
            return self.launcher.transports['c3-staging']
        return {}

    @view
    def export_results_with_launcher_settings(self):
        """
        Export results to file(s) in the user's 'Documents' directory.
        This method follows the launcher reports configuration.
        """
        self.assistant.finalize_session()
        for report in self.launcher.stock_reports:
            self._prepare_stock_report(report)
        # reports are stored in an ordinary dict(), so sorting them ensures
        # the same order of submitting them between runs.
        html_url = ""
        for name, params in sorted(self.launcher.reports.items()):
            exporter_id = self.launcher.exporters[params['exporter']]['unit']
            if self.launcher.transports[params['transport']]['type'] == 'file':
                path = self.launcher.transports[params['transport']]['path']
                cls = self._available_transports['file']
                self.transports[params['transport']] = cls(path)
                transport = self.transports[params['transport']]
                result = self.assistant.export_to_transport(
                    exporter_id, transport)
                if (result and 'url' in result
                        and result['url'].endswith('html')):
                    html_url = result['url']
        return html_url

    def _prepare_stock_report(self, report):
        # this is purposefully not using pythonic dict-keying for better
        # readability
        if not self.launcher.transports:
            self.launcher.transports = dict()
        if not self.launcher.exporters:
            self.launcher.exporters = dict()
        if not self.launcher.reports:
            self.launcher.reports = dict()
        if report == 'certification':
            self.launcher.exporters['hexr'] = {
                'unit': '2013.com.canonical.plainbox::hexr'
            }
            self.launcher.transports['c3'] = {
                'type':
                'certification',
                'secure_id':
                self.launcher.transports.get('c3', {}).get('secure_id', None)
            }
            self.launcher.reports['upload to certification'] = {
                'transport': 'c3',
                'exporter': 'hexr'
            }
        elif report == 'certification-staging':
            self.launcher.exporters['hexr'] = {
                'unit': '2013.com.canonical.plainbox::hexr'
            }
            self.launcher.transports['c3-staging'] = {
                'type':
                'certification',
                'secure_id':
                self.launcher.transports.get('c3', {}).get('secure_id', None),
                'staging':
                'yes'
            }
            self.launcher.reports['upload to certification-staging'] = {
                'transport': 'c3-staging',
                'exporter': 'hexr'
            }
        elif report == 'submission_files':
            timestamp = datetime.datetime.utcnow().isoformat()
            base_dir = self._get_user_directory_documents()
            for exporter, file_ext in [('hexr', '.xml'), ('html', '.html'),
                                       ('xlsx', '.xlsx'), ('tar', '.tar.xz')]:
                path = os.path.join(
                    base_dir, ''.join(['submission_', timestamp, file_ext]))
                self.launcher.transports['{}_file'.format(exporter)] = {
                    'type': 'file',
                    'path': path
                }
                if exporter not in self.launcher.exporters:
                    self.launcher.exporters[exporter] = {
                        'unit':
                        '2013.com.canonical.plainbox::{}'.format(exporter)
                    }
                self.launcher.reports['2_{}_file'.format(exporter)] = {
                    'transport': '{}_file'.format(exporter),
                    'exporter': '{}'.format(exporter)
                }

    @view
    def drop_permissions(self, app_id, services):
        # TODO: use XDG once available
        trust_dbs = {
            'camera': '~/.local/share/CameraService/trust.db',
            'audio': '~/.local/share/PulseAudio/trust.db',
            'location': '~/.local/share/UbuntuLocationServices/trust.db',
        }
        sql = 'delete from requests where ApplicationId = (?);'

        for service in services:
            conn = None
            try:
                conn = sqlite3.connect(os.path.expanduser(trust_dbs[service]),
                                       isolation_level='EXCLUSIVE')
                conn.execute(sql, (app_id, ))
                conn.commit()
            finally:
                if conn:
                    conn.close()

    @view
    def get_incomplete_sessions(self):
        """Get ids of sessions with an 'incomplete' flag."""
        self._incomplete_sessions = [
            s[0]
            for s in self.assistant.get_old_sessions(flags={'incomplete'},
                                                     allow_not_flagged=False)
        ]
        return self._incomplete_sessions

    @view
    def delete_old_sessions(self, additional_sessions):
        """
        Delete session storages.

        :param additional_sessions:
            List of ids of sessions that should be removed.

        This function removes all complete sessions (i.e. the ones that session
        assistant returns when get_old_sessions is run with the default params)
        with the addition of the ones specified in the ``additional_sessions``
        param.
        """
        garbage = [s[0] for s in self.assistant.get_old_sessions()]
        garbage += additional_sessions
        self.assistant.delete_sessions(garbage)

    def _get_user_directory_documents(self):
        xdg_config_home = os.environ.get('XDG_CONFIG_HOME') or \
            os.path.expanduser('~/.config')
        with open(os.path.join(xdg_config_home, 'user-dirs.dirs')) as f:
            match = re.search(r'XDG_DOCUMENTS_DIR="(.*)"\n', f.read())
            if match:
                return match.group(1).replace("$HOME", os.getenv("HOME"))
            else:
                return os.path.expanduser('~/Documents')

    def _get_app_cache_directory(self):
        xdg_cache_home = os.environ.get('XDG_CACHE_HOME') or \
            os.path.expanduser('~/.cache')
        app_id = os.environ.get('APP_ID')
        if app_id:
            # Applications will always have write access to directories they
            # own as determined by the XDG base directory specification.
            # Specifically: XDG_CACHE_HOME/<APP_PKGNAME>
            #               XDG_RUNTIME_DIR/<APP_PKGNAME>
            #               XDG_RUNTIME_DIR/confined/<APP_PKGNAME> (for TMPDIR)
            #               XDG_DATA_HOME/<APP_PKGNAME>
            #               XDG_CONFIG_HOME/<APP_PKGNAME>
            # Note that <APP_PKGNAME> is not the APP_ID. In order to easily
            # handle upgrades and sharing data between executables in the same
            # app, we use the unversioned app package name for the writable
            # directories.
            return os.path.join(xdg_cache_home, app_id.split('_')[0])
        else:
            path = os.path.join(xdg_cache_home, "com.ubuntu.checkbox")
            if not os.path.exists(path):
                os.makedirs(path)
            elif not os.path.isdir(path):
                # as unlikely as it is, situation where path exists and is a
                # regular file neeeds to be signalled
                raise IOError("{} exists and is not a directory".format(path))
            return path

    def _get_app_blob(self):
        """
        Get json dump of with app-specific blob
        """
        return json.dumps({
            'version': 1,
            'test_plan_id': self.test_plan_id,
            'index_in_run_list': self.index,
            'session_timestamp': self._timestamp,
        }).encode("UTF-8")

    def _get_embedded_providers(self, providers_dir):
        """
        Get providers included with the app

        :param providers_dir:
            Path within application tree from which to load providers
        :returns:
            list of loaded providers
        """
        provider_list = []
        app_root_dir = os.path.normpath(
            os.getenv('APP_DIR', os.path.join(os.path.dirname(__file__),
                                              '..')))
        path = os.path.join(app_root_dir, os.path.normpath(providers_dir))
        _logger.info("Loading all providers from %s", path)
        if os.path.exists(path):
            embedded_providers = EmbeddedProvider1PlugInCollection(path)
            provider_list += embedded_providers.get_all_plugin_objects()
        return provider_list

    def _password_provider(self):
        if self._password is None:
            raise RuntimeError("execute_job called without providing password"
                               " first")
        return self._password

    def _finalize_session(self):
        self.test_plan_id = ""
        self.assistant.finalize_session()

    def remember_password(self, password):
        """
        Save password in app instance

        It deliberately doesn't use view decorator to omit all logging that
        might happen
        """
        self._password = password
Пример #16
0
class RemoteSessionAssistant():
    """Remote execution enabling wrapper for the SessionAssistant"""

    REMOTE_API_VERSION = 11

    def __init__(self, cmd_callback):
        _logger.debug("__init__()")
        self._cmd_callback = cmd_callback
        self._session_change_lock = Lock()
        self._operator_lock = Lock()
        self._ui = BufferedUI()
        self._input_piping = os.pipe()
        self._passwordless_sudo = is_passwordless_sudo()
        self.terminate_cb = None
        self._pipe_from_master = open(self._input_piping[1], 'w')
        self._pipe_to_subproc = open(self._input_piping[0])
        self._reset_sa()
        self._currently_running_job = None

    def _reset_sa(self):
        _logger.info("Resetting RSA")
        self._state = Idle
        self._sa = SessionAssistant('service', api_flags={SA_RESTARTABLE})
        self._be = None
        self._session_id = ""
        self._jobs_count = 0
        self._job_index = 0
        self._currently_running_job = None  # XXX: yuck!
        self._last_job = None
        self._current_comments = ""
        self._last_response = None
        self._normal_user = ''
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()

    @property
    def session_change_lock(self):
        return self._session_change_lock

    @property
    def config(self):
        return self._sa.config

    def update_app_blob(self, app_blob):
        self._sa.update_app_blob(app_blob)

    def allowed_when(*states):
        def wrap(f):
            def fun(self, *args):
                if self._state not in states:
                    raise AssertionError(
                        "expected %s, is %s" % (states, self._state))
                return f(self, *args)
            return fun
        return wrap

    def interact(self, interaction):
        self._state = Interacting
        self._current_interaction = interaction
        yield self._current_interaction

    @allowed_when(Interacting)
    def remember_users_response(self, response):
        if response == 'rollback':
            self._currently_running_job = None
            self.session_change_lock.acquire(blocking=False)
            self.session_change_lock.release()
            self._current_comments = ""
            self._state = TestsSelected
            return
        self._last_response = response
        self._state = Running

    def _prepare_display_without_psutil(self):
        try:
            display_value = check_output(
                'strings /proc/*/environ 2>/dev/null | '
                'grep -m 1 -oP "(?<=DISPLAY=).*"',
                shell=True, universal_newlines=True).rstrip()
            xauth_value = check_output(
                'strings /proc/*/environ 2>/dev/null | '
                'grep -m 1 -oP "(?<=XAUTHORITY=).*"',
                shell=True, universal_newlines=True).rstrip()
            return {'DISPLAY': display_value, 'XAUTHORITY': xauth_value}
        except CalledProcessError:
            return None

    def prepare_extra_env(self):
        # If possible also set the DISPLAY env var
        # i.e when a user desktop session is running
        for p in psutil.pids():
            try:
                p_environ = psutil.Process(p).environ()
                p_user = psutil.Process(p).username()
            except psutil.AccessDenied:
                continue
            except AttributeError:
                # psutil < 4.0.0 doesn't provide Process.environ()
                return self._prepare_display_without_psutil()
            except psutil.NoSuchProcess:
                # quietly ignore the process that died before we had a chance
                # to read the environment from them
                continue
            if (
                "DISPLAY" in p_environ and
                "XAUTHORITY" in p_environ and
                p_user != 'gdm'
            ):  # gdm uses :1024
                return {
                    'DISPLAY': p_environ['DISPLAY'],
                    'XAUTHORITY': p_environ['XAUTHORITY']
                }

    @allowed_when(Idle)
    def start_session(self, configuration):
        self._reset_sa()
        _logger.info("start_session: %r", configuration)
        session_title = 'checkbox-slave'
        session_desc = 'checkbox-slave session'
        session_type = 'checkbox-slave'

        self._launcher = load_configs()
        if configuration['launcher']:
            self._launcher.read_string(configuration['launcher'], False)
            if self._launcher.session_title:
                session_title = self._launcher.session_title
            if self._launcher.session_desc:
                session_desc = self._launcher.session_desc

        self._sa.use_alternate_configuration(self._launcher)

        if configuration['normal_user']:
            self._normal_user = configuration['normal_user']
        else:
            self._normal_user = self._launcher.normal_user
            if not self._normal_user:
                import pwd
                try:
                    self._normal_user = pwd.getpwuid(1000).pw_name
                    _logger.warning(
                        ("normal_user not supplied via config(s). "
                        "non-root jobs will run as %s"), self._normal_user)
                except KeyError:
                    raise RuntimeError(
                        ("normal_user not supplied via config(s). "
                        "Username for uid 1000 not found"))
        runner_kwargs = {
            'normal_user_provider': lambda: self._normal_user,
            'stdin': self._pipe_to_subproc,
            'extra_env': self.prepare_extra_env(),
        }
        self._sa.start_new_session(session_title, UnifiedRunner, runner_kwargs)
        new_blob = json.dumps({
            'description': session_desc,
            'type': session_type,
            'launcher': configuration['launcher'],
            'effective_normal_user': self._normal_user,
        }).encode("UTF-8")
        self._sa.update_app_blob(new_blob)
        self._sa.configure_application_restart(self._cmd_callback)

        self._session_id = self._sa.get_session_id()
        tps = self._sa.get_test_plans()
        filtered_tps = set()
        for filter in self._launcher.test_plan_filters:
            filtered_tps.update(fnmatch.filter(tps, filter))
        filtered_tps = list(filtered_tps)
        response = zip(filtered_tps, [self._sa.get_test_plan(
            tp).name for tp in filtered_tps])
        self._state = Started
        self._available_testplans = sorted(
            response, key=lambda x: x[1])  # sorted by name
        return self._available_testplans

    @allowed_when(Started)
    def prepare_bootstrapping(self, test_plan_id):
        """Save picked test plan to the app blob."""
        _logger.debug("prepare_bootstrapping: %r", test_plan_id)
        self._sa.update_app_blob(json.dumps(
            {'testplan_id': test_plan_id, }).encode("UTF-8"))
        self._sa.select_test_plan(test_plan_id)
        # TODO: REMOTE API RAPI: Change this API on the next RAPI bump
        # previously the function returned bool signifying the need for sudo
        # password. With slave being guaranteed to never need it anymor
        # we can make this funciton return nothing
        return False

    @allowed_when(Started)
    def get_bootstrapping_todo_list(self):
        return self._sa.get_bootstrap_todo_list()

    def finish_bootstrap(self):
        self._sa.finish_bootstrap()
        self._state = Bootstrapped
        if self._launcher.auto_retry:
            for job_id in self._sa.get_static_todo_list():
                job_state = self._sa.get_job_state(job_id)
                job_state.attempts = self._launcher.max_attempts
        return self._sa.get_static_todo_list()

    def get_manifest_repr(self):
        return self._sa.get_manifest_repr()

    def save_manifest(self, manifest_answers):
        return self._sa.save_manifest(manifest_answers)

    def modify_todo_list(self, chosen_jobs):
        self._sa.use_alternate_selection(chosen_jobs)

    def finish_job_selection(self):
        self._jobs_count = len(self._sa.get_dynamic_todo_list())
        self._state = TestsSelected

    @allowed_when(Interacting)
    def rerun_job(self, job_id, result):
        self._sa.use_job_result(job_id, result)
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()
        self._state = TestsSelected

    def _get_ui_for_job(self, job):
        show_out = True
        if self._launcher.output == 'hide-resource-and-attachment':
            if job.plugin in ('local', 'resource', 'attachment'):
                show_out = False
        elif self._launcher.output in ['hide', 'hide-automated']:
            if job.plugin in ('shell', 'local', 'resource', 'attachment'):
                show_out = False
        if 'suppress-output' in job.get_flag_set():
            show_out = False
        if show_out:
            self._ui = BufferedUI()
        else:
            self._ui = RemoteSilentUI()
        return self._ui

    @allowed_when(TestsSelected)
    def run_job(self, job_id):
        """
        Depending on the type of the job, run_job can yield different number
        of Interaction instances.
        """
        _logger.debug("run_job: %r", job_id)
        self._job_index = self._jobs_count - len(
            self._sa.get_dynamic_todo_list()) + 1
        self._currently_running_job = job_id
        self._current_comments = ""
        job = self._sa.get_job(job_id)
        job_state = self._sa.get_job_state(job_id)

        if not job_state.can_start():
            outcome = IJobResult.OUTCOME_NOT_SUPPORTED
            for inhibitor in job_state.readiness_inhibitor_list:
                if (
                    inhibitor.cause == InhibitionCause.FAILED_RESOURCE and
                    'fail-on-resource' in job.get_flag_set()
                ):
                    outcome = IJobResult.OUTCOME_FAIL
                    break
                elif inhibitor.cause != InhibitionCause.FAILED_DEP:
                    continue
                related_job_state = self._sa._context.state.job_state_map[
                    inhibitor.related_job.id]
                if related_job_state.result.outcome == IJobResult.OUTCOME_SKIP:
                    outcome = IJobResult.OUTCOME_SKIP

            def cant_start_builder(*args, **kwargs):
                result_builder = JobResultBuilder(
                    outcome=outcome,
                    comments=job_state.get_readiness_description())
                return result_builder
            self._be = BackgroundExecutor(self, job_id, cant_start_builder)
            yield from self.interact(Interaction('skip', None, self._be))

        if job.plugin in [
                'manual', 'user-interact-verify', 'user-interact']:
            may_comment = True
            while may_comment:
                may_comment = False
                if job.tr_description() and not job.tr_purpose():
                    yield from self.interact(
                        Interaction('description', job.tr_description()))
                if job.tr_purpose():
                    yield from self.interact(
                        Interaction('purpose', job.tr_purpose()))
                if job.tr_steps():
                    yield from self.interact(
                        Interaction('steps', job.tr_steps()))
                if self._last_response == 'comment':
                    yield from self.interact(Interaction('comment'))
                    if self._last_response:
                        self._current_comments += self._last_response
                    may_comment = True
                    continue
            if self._last_response == 'skip':
                def skipped_builder(*args, **kwargs):
                    result_builder = JobResultBuilder(
                        outcome=IJobResult.OUTCOME_SKIP,
                        comments=_("Explicitly skipped before execution"))
                    if self._current_comments != "":
                        result_builder.comments = self._current_comments
                    return result_builder
                self._be = BackgroundExecutor(
                    self, job_id, skipped_builder)
                yield from self.interact(
                    Interaction('skip', job.verification, self._be))
        if job.command:
            self._state = Running
            ui = self._get_ui_for_job(job)
            self._be = BackgroundExecutor(self, job_id, self._sa.run_job, ui)
        else:
            def undecided_builder(*args, **kwargs):
                return JobResultBuilder(outcome=IJobResult.OUTCOME_UNDECIDED)
            self._be = BackgroundExecutor(self, job_id, undecided_builder)
        if self._sa.get_job(self._currently_running_job).plugin in [
                'manual', 'user-interact-verify']:
            yield from self.interact(
                Interaction('verification', job.verification, self._be))

    @allowed_when(Started, Bootstrapping)
    def run_bootstrapping_job(self, job_id):
        self._currently_running_job = job_id
        self._state = Bootstrapping
        self._be = BackgroundExecutor(self, job_id, self._sa.run_job)

    @allowed_when(Running, Bootstrapping, Interacting, TestsSelected)
    def monitor_job(self):
        """
        Check the state of the currently running job.

        :returns:
            (state, payload) tuple.
            Payload conveys detailed info that's characteristic
            to the current state.
        """
        _logger.debug("monitor_job()")
        # either return [done, running, awaiting response]
        # TODO: handle awaiting_response (reading from stdin by the job)
        if self._be and self._be.is_alive():
            return ('running', self._ui.get_output())
        else:
            return ('done', self._ui.get_output())

    def get_remote_api_version(self):
        return self.REMOTE_API_VERSION

    def whats_up(self):
        """
        Check what is remote-service up to
        :returns:
            (state, payload) tuple.
        """
        _logger.debug("whats_up() -> %r", self._state)
        payload = None
        if self._state == Running:
            payload = (
                self._job_index, self._jobs_count, self._currently_running_job
            )
        if self._state == TestsSelected and not self._currently_running_job:
            payload = {'last_job': self._last_job}
        elif self._state == Started:
            payload = self._available_testplans
        elif self._state == Interacting:
            payload = self._current_interaction
        elif self._state == Bootstrapped:
            payload = self._sa.get_static_todo_list()
        return self._state, payload

    def terminate(self):
        if self.terminate_cb:
            self.terminate_cb()

    def get_session_progress(self):
        """Return list of completed and not completed jobs in a dict."""

        _logger.debug("get_session_progress()")
        return {
            "done": self._sa.get_dynamic_done_list(),
            "todo": self._sa.get_dynamic_todo_list(),
        }

    def get_master_public_key(self):
        # TODO: REMOTE API RAPI: Remove this API on the next RAPI bump
        # this key is only for RAPI compliance. It will never be used as
        # this master requires slave to be completely sudoless
        return (
            b'-----BEGIN PUBLIC KEY-----\nMIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMII'
            b'BCgKCAQEA5r0bjOA+IH5lDKkW3OYb\nDuEjf5VKgUlDSJJuyBlfLTBIXZ8j3s98'
            b'6AbV0zB62rAcgiFrBOzx51IzBDBmHI8V\nYYpEa+q4OP4yprYpSg6xzX6LRQapC'
            b'Iv9BAqN4MWrKBukGMzJyemIVEPv4BSHL5L/\nLY98Mwh4dAXxj5ZdsoVPqgeMo8'
            b'dxfYEOwVRJvSkseIhxRL6tvgP37c48ApUyjdUO\n3C2YgqJRx7mKKDyLOvhDVEl'
            b'MqkAfp6qS/8xcGBTEqn08dDQIgPl8KofpC9GXMGbK\nV9FGP+c1bpA3vMOfnpsE'
            b'WCju2qDoTSKJTm3VMZj88mqH7nOpbk7JI/Yz0EmtNXOM\n6QIDAQAB\n-----EN'
            b'D PUBLIC KEY-----')

    def save_password(self, password):
        """Store sudo password"""
        # TODO: REMOTE API RAPI: Remove this API on the next RAPI bump
        # if the slave is running it means we don't need password
        # so we can consider call to this function as passing
        return True

    def finish_job(self, result=None):
        # assert the thread completed
        self.session_change_lock.acquire(blocking=False)
        self.session_change_lock.release()
        if self._sa.get_job(self._currently_running_job).plugin in [
                'manual', 'user-interact-verify'] and not result:
            # for manually verified jobs we don't set the outcome here
            # it is already determined
            return
        if not result:
            result = self._be.wait().get_result()
        self._sa.use_job_result(self._currently_running_job, result)
        if self._state != Bootstrapping:
            if not self._sa.get_dynamic_todo_list():
                if (
                    self._launcher.auto_retry and
                    self.get_rerun_candidates('auto')
                ):
                    self._state = TestsSelected
                else:
                    self._state = Idle
            else:
                self._state = TestsSelected
        return result

    def get_rerun_candidates(self, session_type='manual'):
        return self._sa.get_rerun_candidates(session_type)

    def prepare_rerun_candidates(self, rerun_candidates):
        candidates = self._sa.prepare_rerun_candidates(rerun_candidates)
        self._state = TestsSelected
        return candidates

    def get_job_result(self, job_id):
        return self._sa.get_job_state(job_id).result

    def get_jobs_repr(self, job_ids, offset=0):
        """
        Translate jobs into a {'field': 'val'} representations.

        :param job_ids:
            list of job ids to get and translate
        :param offset:
            apply an offset to the job number if for instance the job list
            is being requested part way through a session
        :returns:
            list of dicts representing jobs
        """
        test_info_list = tuple()
        for job_no, job_id in enumerate(job_ids, start=offset + 1):
            job = self._sa.get_job(job_id)
            cat_id = self._sa.get_job_state(job.id).effective_category_id
            duration_txt = _('No estimated duration provided for this job')
            if job.estimated_duration is not None:
                duration_txt = '{} {}'.format(job.estimated_duration, _(
                    'seconds'))
            # the next dict is only to get test_info generating code tidier
            automated_desc = {
                True: _('this job is fully automated'),
                False: _('this job requires some manual interaction')
            }
            test_info = {
                "id": job.id,
                "partial_id": job.partial_id,
                "name": job.tr_summary(),
                "category_id": cat_id,
                "category_name": self._sa.get_category(cat_id).tr_name(),
                "automated": automated_desc[job.automated],
                "duration": duration_txt,
                "description": (job.tr_description() or
                                _('No description provided for this job')),
                "outcome": self._sa.get_job_state(job.id).result.outcome,
                "user": job.user,
                "command": job.command,
                "num": job_no,
                "plugin": job.plugin,
            }
            test_info_list = test_info_list + ((test_info, ))
        return json.dumps(test_info_list)

    def resume_by_id(self, session_id=None):
        _logger.info("resume_by_id: %r", session_id)
        self._launcher = load_configs()
        resume_candidates = list(self._sa.get_resumable_sessions())
        if not session_id:
            if not resume_candidates:
                print('No session to resume')
                return
            session_id = resume_candidates[0].id
        if session_id not in [s.id for s in resume_candidates]:
            print("Requested session not found")
            return
        _logger.warning("Resuming session: %r", session_id)
        runner_kwargs = {
            'normal_user_provider': lambda: self._normal_user,
            'stdin': self._pipe_to_subproc,
            'extra_env': self.prepare_extra_env(),
        }
        meta = self._sa.resume_session(session_id, runner_kwargs=runner_kwargs)
        app_blob = json.loads(meta.app_blob.decode("UTF-8"))
        launcher = app_blob['launcher']
        self._launcher.read_string(launcher, False)
        self._sa.use_alternate_configuration(self._launcher)

        self._normal_user = app_blob.get(
            'effective_normal_user', self._launcher.normal_user)
        _logger.info(
            "normal_user after loading metadata: %r", self._normal_user)
        test_plan_id = app_blob['testplan_id']
        self._sa.select_test_plan(test_plan_id)
        self._sa.bootstrap()
        self._last_job = meta.running_job_name

        result_dict = {
            'outcome': IJobResult.OUTCOME_PASS,
            'comments': _("Automatically passed after resuming execution"),
        }
        session_share = WellKnownDirsHelper.session_share(
            self._sa._manager.storage.id)
        result_path = os.path.join(session_share, '__result')
        if os.path.exists(result_path):
            try:
                with open(result_path, 'rt') as f:
                    result_dict = json.load(f)
                    # the only really important field in the result is
                    # 'outcome' so let's make sure it doesn't contain
                    # anything stupid
                    if result_dict.get('outcome') not in [
                            'pass', 'fail', 'skip']:
                        result_dict['outcome'] = IJobResult.OUTCOME_PASS
            except json.JSONDecodeError as e:
                pass
        result = MemoryJobResult(result_dict)
        if self._last_job:
            try:
                self._sa.use_job_result(self._last_job, result, True)
            except KeyError:
                raise SystemExit(self._last_job)

        # some jobs have already been run, so we need to update the attempts
        # count for future auto-rerunning
        if self._launcher.auto_retry:
            for job_id in [
                    job.id for job in self.get_rerun_candidates('auto')]:
                job_state = self._sa.get_job_state(job_id)
                job_state.attempts = self._launcher.max_attempts - len(
                    job_state.result_history)

        self._state = TestsSelected

    def finalize_session(self):
        self._sa.finalize_session()
        self._reset_sa()

    def transmit_input(self, text):
        self._pipe_from_master.write(text)
        self._pipe_from_master.flush()

    def send_signal(self, signal):
        if not self._currently_running_job:
            return
        target_user = self._sa.get_job(self._currently_running_job).user
        self._sa.send_signal(signal, target_user)

    @property
    def manager(self):
        return self._sa._manager

    @property
    def passwordless_sudo(self):
        # TODO: REMOTE API RAPI: Remove this API on the next RAPI bump
        # if the slave is still running it means it's very passwordless
        return True

    @property
    def sideloaded_providers(self):
        return self._sa.sideloaded_providers

    def exposed_cache_report(self, exporter_id, options):
        exporter = self._sa._manager.create_exporter(exporter_id, options)
        exported_stream = SpooledTemporaryFile(max_size=102400, mode='w+b')
        exporter.dump_from_session_manager(self._sa._manager, exported_stream)
        exported_stream.flush()
        return exported_stream