예제 #1
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    def setUp(self):
        self.data_dir = tempfile.mkdtemp()
        database_path = os.path.join(self.data_dir, "mephisto.db")
        self.db = LocalMephistoDB(database_path)
        self.task_id = self.db.new_task("test_mock",
                                        MockBlueprint.BLUEPRINT_TYPE)
        self.task_run_id = get_test_task_run(self.db)
        self.task_run = TaskRun(self.db, self.task_run_id)

        architect_config = OmegaConf.structured(
            MephistoConfig(
                architect=MockArchitectArgs(should_run_server=True), ))

        self.architect = MockArchitect(self.db, architect_config, EMPTY_STATE,
                                       self.task_run, self.data_dir)
        self.architect.prepare()
        self.architect.deploy()
        self.urls = self.architect._get_socket_urls()  # FIXME
        self.url = self.urls[0]
        self.provider = MockProvider(self.db)
        self.provider.setup_resources_for_task_run(self.task_run,
                                                   self.task_run.args,
                                                   self.url)
        self.launcher = TaskLauncher(self.db, self.task_run,
                                     self.get_mock_assignment_data_array())
        self.launcher.create_assignments()
        self.launcher.launch_units(self.url)
        self.sup = None
예제 #2
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    def test_launch_assignments_with_concurrent_unit_cap(self):
        """Initialize a launcher on a task run, then create the assignments"""
        cap_values = [1, 2, 3, 4, 5]
        for max_num_units in cap_values:
            mock_data_array = self.get_mock_assignment_data_array()
            launcher = TaskLauncher(
                self.db,
                self.task_run,
                mock_data_array,
                max_num_concurrent_units=max_num_units,
            )
            launcher.launched_units = LimitedDict(
                launcher.max_num_concurrent_units)
            launcher.create_assignments()
            launcher.launch_units("dummy-url:3000")

            start_time = time.time()
            while set([u.get_status() for u in launcher.units
                       ]) != {AssignmentState.COMPLETED}:
                for unit in launcher.units:
                    if unit.get_status() == AssignmentState.LAUNCHED:
                        unit.set_db_status(AssignmentState.COMPLETED)
                    time.sleep(0.1)
                self.assertEqual(launcher.launched_units.exceed_limit, False)
                curr_time = time.time()
                self.assertLessEqual(curr_time - start_time,
                                     MAX_WAIT_TIME_UNIT_LAUNCH)
            launcher.expire_units()
            self.tearDown()
            self.setUp()
예제 #3
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    def test_assignments_generator(self):
        """Initialize a launcher on a task run, then try generate the assignments"""
        mock_data_array = self.get_mock_assignment_data_generator()

        start_time = time.time()
        launcher = TaskLauncher(self.db, self.task_run, mock_data_array)
        launcher.create_assignments()
        end_time = time.time()
        self.assertLessEqual(
            end_time - start_time,
            (NUM_GENERATED_ASSIGNMENTS * WAIT_TIME_TILL_NEXT_ASSIGNMENT) / 2,
        )
예제 #4
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 def test_init_on_task_run(self):
     """Initialize a launcher on a task_run"""
     launcher = TaskLauncher(self.db, self.task_run,
                             self.get_mock_assignment_data_array())
     self.assertEqual(self.db, launcher.db)
     self.assertEqual(self.task_run, launcher.task_run)
     self.assertEqual(len(launcher.assignments), 0)
     self.assertEqual(len(launcher.units), 0)
     self.assertEqual(launcher.provider_type, MockProvider.PROVIDER_TYPE)
예제 #5
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    def test_create_launch_expire_assignments(self):
        """Initialize a launcher on a task run, then create the assignments"""
        mock_data_array = self.get_mock_assignment_data_array()
        launcher = TaskLauncher(self.db, self.task_run, mock_data_array)
        launcher.create_assignments()

        self.assertEqual(
            len(launcher.assignments),
            len(mock_data_array),
            "Inequal number of assignments existed than were launched",
        )
        self.assertEqual(
            len(launcher.units),
            len(mock_data_array) * len(mock_data_array[0]["unit_data"]),
            "Inequal number of units created than were expected",
        )

        for unit in launcher.units:
            self.assertEqual(unit.get_db_status(), AssignmentState.CREATED)
        for assignment in launcher.assignments:
            self.assertEqual(assignment.get_status(), AssignmentState.CREATED)

        launcher.launch_units("dummy-url:3000")

        for unit in launcher.units:
            self.assertEqual(unit.get_db_status(), AssignmentState.LAUNCHED)
            time.sleep(WAIT_TIME_TILL_NEXT_UNIT)
        for assignment in launcher.assignments:
            self.assertEqual(assignment.get_status(), AssignmentState.LAUNCHED)

        launcher.expire_units()

        for unit in launcher.units:
            self.assertEqual(unit.get_db_status(), AssignmentState.EXPIRED)
        for assignment in launcher.assignments:
            self.assertEqual(assignment.get_status(), AssignmentState.EXPIRED)
예제 #6
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    def parse_and_launch_run(
        self,
        arg_list: Optional[List[str]] = None,
        extra_args: Optional[Dict[str, Any]] = None,
    ) -> str:
        """
        Parse the given arguments and launch a job.
        """
        if extra_args is None:
            extra_args = {}
        # Extract the abstractions being used
        parser = self._get_baseline_argparser()
        type_args, task_args_string = parser.parse_known_args(arg_list)

        requesters = self.db.find_requesters(requester_name=type_args.requester_name)
        if len(requesters) == 0:
            raise EntryDoesNotExistException(
                f"No requester found with name {type_args.requester_name}"
            )
        requester = requesters[0]
        requester_id = requester.db_id
        provider_type = requester.provider_type

        # Parse the arguments for the abstractions to ensure
        # everything required is set
        BlueprintClass = get_blueprint_from_type(type_args.blueprint_type)
        ArchitectClass = get_architect_from_type(type_args.architect_type)
        CrowdProviderClass = get_crowd_provider_from_type(provider_type)
        task_args, _unknown = self._parse_args_from_classes(
            BlueprintClass, ArchitectClass, CrowdProviderClass, task_args_string
        )

        task_args.update(extra_args)

        # Load the classes to force argument validation before anything
        # is actually created in the database
        # TODO(#94) perhaps parse the arguments for these things one at a time?
        BlueprintClass.assert_task_args(task_args)
        ArchitectClass.assert_task_args(task_args)
        CrowdProviderClass.assert_task_args(task_args)

        # Find an existing task or create a new one
        task_name = task_args.get("task_name")
        if task_name is None:
            task_name = type_args.blueprint_type
            logger.warning(
                f"Task is using the default blueprint name {task_name} as a name, as no task_name is provided"
            )
        tasks = self.db.find_tasks(task_name=task_name)
        task_id = None
        if len(tasks) == 0:
            task_id = self.db.new_task(task_name, type_args.blueprint_type)
        else:
            task_id = tasks[0].db_id

        logger.info(f"Creating a task run under task name: {task_name}")

        # Create a new task run
        new_run_id = self.db.new_task_run(
            task_id,
            requester_id,
            " ".join([shlex.quote(x) for x in task_args_string]),
            provider_type,
            type_args.blueprint_type,
            requester.is_sandbox(),
        )
        task_run = TaskRun(self.db, new_run_id)

        try:
            # If anything fails after here, we have to cleanup the architect

            build_dir = os.path.join(task_run.get_run_dir(), "build")
            os.makedirs(build_dir, exist_ok=True)
            architect = ArchitectClass(self.db, task_args, task_run, build_dir)

            # Register the blueprint with args to the task run,
            # ensure cached
            blueprint = BlueprintClass(task_run, task_args)
            task_run.get_blueprint(opts=task_args)

            # Setup and deploy the server
            built_dir = architect.prepare()
            task_url = architect.deploy()

            # TODO(#102) maybe the cleanup (destruction of the server configuration?) should only
            # happen after everything has already been reviewed, this way it's possible to
            # retrieve the exact build directory to review a task for real
            architect.cleanup()

            # Create the backend runner
            task_runner = BlueprintClass.TaskRunnerClass(task_run, task_args)

            # Small hack for auto appending block qualification
            existing_qualifications = task_args.get("qualifications", [])
            if task_args.get("block_qualification") is not None:
                existing_qualifications.append(
                    make_qualification_dict(
                        task_args["block_qualification"], QUAL_NOT_EXIST, None
                    )
                )
            if task_args.get("onboarding_qualification") is not None:
                existing_qualifications.append(
                    make_qualification_dict(
                        OnboardingRequired.get_failed_qual(
                            task_args["onboarding_qualification"]
                        ),
                        QUAL_NOT_EXIST,
                        None,
                    )
                )
            task_args["qualifications"] = existing_qualifications

            # Register the task with the provider
            provider = CrowdProviderClass(self.db)
            provider.setup_resources_for_task_run(task_run, task_args, task_url)

            initialization_data_array = blueprint.get_initialization_data()

            # Link the job together
            job = self.supervisor.register_job(
                architect, task_runner, provider, existing_qualifications
            )
            if self.supervisor.sending_thread is None:
                self.supervisor.launch_sending_thread()
        except (KeyboardInterrupt, Exception) as e:
            logger.error(
                "Encountered error while launching run, shutting down", exc_info=True
            )
            try:
                architect.shutdown()
            except (KeyboardInterrupt, Exception) as architect_exception:
                logger.exception(
                    f"Could not shut down architect: {architect_exception}",
                    exc_info=True,
                )
            raise e

        launcher = TaskLauncher(self.db, task_run, initialization_data_array)
        launcher.create_assignments()
        launcher.launch_units(task_url)

        self._task_runs_tracked[task_run.db_id] = TrackedRun(
            task_run=task_run,
            task_launcher=launcher,
            task_runner=task_runner,
            architect=architect,
            job=job,
        )
        return task_run.db_id
예제 #7
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    def validate_and_run_config_or_die(
        self,
        run_config: DictConfig,
        shared_state: Optional[SharedTaskState] = None,
    ) -> str:
        """
        Parse the given arguments and launch a job.
        """
        if shared_state is None:
            shared_state = SharedTaskState()

        # First try to find the requester:
        requester_name = run_config.provider.requester_name
        requesters = self.db.find_requesters(requester_name=requester_name)
        if len(requesters) == 0:
            if run_config.provider.requester_name == "MOCK_REQUESTER":
                requesters = [get_mock_requester(self.db)]
            else:
                raise EntryDoesNotExistException(
                    f"No requester found with name {requester_name}")
        requester = requesters[0]
        requester_id = requester.db_id
        provider_type = requester.provider_type
        assert provider_type == run_config.provider._provider_type, (
            f"Found requester for name {requester_name} is not "
            f"of the specified type {run_config.provider._provider_type}, "
            f"but is instead {provider_type}.")

        # Next get the abstraction classes, and run validation
        # before anything is actually created in the database
        blueprint_type = run_config.blueprint._blueprint_type
        architect_type = run_config.architect._architect_type
        BlueprintClass = get_blueprint_from_type(blueprint_type)
        ArchitectClass = get_architect_from_type(architect_type)
        CrowdProviderClass = get_crowd_provider_from_type(provider_type)

        BlueprintClass.assert_task_args(run_config, shared_state)
        ArchitectClass.assert_task_args(run_config, shared_state)
        CrowdProviderClass.assert_task_args(run_config, shared_state)

        # Find an existing task or create a new one
        task_name = run_config.task.get("task_name", None)
        if task_name is None:
            task_name = blueprint_type
            logger.warning(
                f"Task is using the default blueprint name {task_name} as a name, "
                "as no task_name is provided")
        tasks = self.db.find_tasks(task_name=task_name)
        task_id = None
        if len(tasks) == 0:
            task_id = self.db.new_task(task_name, blueprint_type)
        else:
            task_id = tasks[0].db_id

        logger.info(f"Creating a task run under task name: {task_name}")

        # Create a new task run
        new_run_id = self.db.new_task_run(
            task_id,
            requester_id,
            json.dumps(OmegaConf.to_container(run_config, resolve=True)),
            provider_type,
            blueprint_type,
            requester.is_sandbox(),
        )
        task_run = TaskRun(self.db, new_run_id)

        try:
            # If anything fails after here, we have to cleanup the architect

            build_dir = os.path.join(task_run.get_run_dir(), "build")
            os.makedirs(build_dir, exist_ok=True)
            architect = ArchitectClass(self.db, run_config, shared_state,
                                       task_run, build_dir)

            # Register the blueprint with args to the task run,
            # ensure cached
            blueprint = BlueprintClass(task_run, run_config, shared_state)
            task_run.get_blueprint(args=run_config, shared_state=shared_state)

            # Setup and deploy the server
            built_dir = architect.prepare()
            task_url = architect.deploy()

            # TODO(#102) maybe the cleanup (destruction of the server configuration?) should only
            # happen after everything has already been reviewed, this way it's possible to
            # retrieve the exact build directory to review a task for real
            architect.cleanup()

            # Create the backend runner
            task_runner = BlueprintClass.TaskRunnerClass(
                task_run, run_config, shared_state)

            # Small hack for auto appending block qualification
            existing_qualifications = shared_state.qualifications
            if run_config.blueprint.get("block_qualification",
                                        None) is not None:
                existing_qualifications.append(
                    make_qualification_dict(
                        run_config.blueprint.block_qualification,
                        QUAL_NOT_EXIST, None))
            if run_config.blueprint.get("onboarding_qualification",
                                        None) is not None:
                existing_qualifications.append(
                    make_qualification_dict(
                        OnboardingRequired.get_failed_qual(
                            run_config.blueprint.onboarding_qualification, ),
                        QUAL_NOT_EXIST,
                        None,
                    ))
            shared_state.qualifications = existing_qualifications

            # Register the task with the provider
            provider = CrowdProviderClass(self.db)
            provider.setup_resources_for_task_run(task_run, run_config,
                                                  task_url)

            initialization_data_array = blueprint.get_initialization_data()

            # Link the job together
            job = self.supervisor.register_job(architect, task_runner,
                                               provider,
                                               existing_qualifications)
            if self.supervisor.sending_thread is None:
                self.supervisor.launch_sending_thread()
        except (KeyboardInterrupt, Exception) as e:
            logger.error(
                "Encountered error while launching run, shutting down",
                exc_info=True)
            try:
                architect.shutdown()
            except (KeyboardInterrupt, Exception) as architect_exception:
                logger.exception(
                    f"Could not shut down architect: {architect_exception}",
                    exc_info=True,
                )
            raise e

        launcher = TaskLauncher(self.db, task_run, initialization_data_array)
        launcher.create_assignments()
        launcher.launch_units(task_url)

        self._task_runs_tracked[task_run.db_id] = TrackedRun(
            task_run=task_run,
            task_launcher=launcher,
            task_runner=task_runner,
            architect=architect,
            job=job,
        )
        task_run.update_completion_progress(status=False)

        return task_run.db_id
예제 #8
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class TestSupervisor(unittest.TestCase):
    """
    Unit testing for the Mephisto Supervisor, 
    uses WebsocketChannel and MockArchitect
    """
    def setUp(self):
        self.data_dir = tempfile.mkdtemp()
        database_path = os.path.join(self.data_dir, "mephisto.db")
        self.db = LocalMephistoDB(database_path)
        self.task_id = self.db.new_task("test_mock",
                                        MockBlueprint.BLUEPRINT_TYPE)
        self.task_run_id = get_test_task_run(self.db)
        self.task_run = TaskRun(self.db, self.task_run_id)

        architect_config = OmegaConf.structured(
            MephistoConfig(
                architect=MockArchitectArgs(should_run_server=True), ))

        self.architect = MockArchitect(self.db, architect_config, EMPTY_STATE,
                                       self.task_run, self.data_dir)
        self.architect.prepare()
        self.architect.deploy()
        self.urls = self.architect._get_socket_urls()  # FIXME
        self.url = self.urls[0]
        self.provider = MockProvider(self.db)
        self.provider.setup_resources_for_task_run(self.task_run,
                                                   self.task_run.args,
                                                   self.url)
        self.launcher = TaskLauncher(self.db, self.task_run,
                                     self.get_mock_assignment_data_array())
        self.launcher.create_assignments()
        self.launcher.launch_units(self.url)
        self.sup = None

    def tearDown(self):
        if self.sup is not None:
            self.sup.shutdown()
        self.launcher.expire_units()
        self.architect.cleanup()
        self.architect.shutdown()
        self.db.shutdown()
        shutil.rmtree(self.data_dir)

    def get_mock_assignment_data_array(self) -> List[InitializationData]:
        mock_data = MockTaskRunner.get_mock_assignment_data()
        return [mock_data, mock_data]

    def test_initialize_supervisor(self):
        """Ensure that the supervisor object can even be created"""
        sup = Supervisor(self.db)
        self.assertIsNotNone(sup)
        self.assertDictEqual(sup.agents, {})
        self.assertDictEqual(sup.channels, {})
        sup.shutdown()

    def test_channel_operations(self):
        """
        Initialize a channel, and ensure the basic 
        startup and shutdown functions are working
        """
        sup = Supervisor(self.db)
        self.sup = sup
        TaskRunnerClass = MockBlueprint.TaskRunnerClass
        args = MockBlueprint.ArgsClass()
        config = OmegaConf.structured(MephistoConfig(blueprint=args))
        task_runner = TaskRunnerClass(self.task_run, config, EMPTY_STATE)
        test_job = Job(
            architect=self.architect,
            task_runner=task_runner,
            provider=self.provider,
            qualifications=[],
            registered_channel_ids=[],
        )

        channels = self.architect.get_channels(sup._on_channel_open,
                                               sup._on_catastrophic_disconnect,
                                               sup._on_message)
        channel = channels[0]
        channel.open()
        channel_id = channel.channel_id
        self.assertIsNotNone(channel_id)
        channel.close()
        self.assertTrue(channel.is_closed())

    def test_register_concurrent_job(self):
        """Test registering and running a job that requires multiple workers"""
        # Handle baseline setup
        sup = Supervisor(self.db)
        self.sup = sup
        TaskRunnerClass = MockBlueprint.TaskRunnerClass
        args = MockBlueprint.ArgsClass()
        args.timeout_time = 5
        args.is_concurrent = False
        config = OmegaConf.structured(MephistoConfig(blueprint=args))
        task_runner = TaskRunnerClass(self.task_run, config, EMPTY_STATE)
        sup.register_job(self.architect, task_runner, self.provider)
        self.assertEqual(len(sup.channels), 1)
        channel_info = list(sup.channels.values())[0]
        self.assertIsNotNone(channel_info)
        self.assertTrue(channel_info.channel.is_alive)
        channel_id = channel_info.channel_id
        task_runner = channel_info.job.task_runner
        self.assertIsNotNone(channel_id)
        self.assertEqual(
            len(self.architect.server.subs),
            1,
            "MockServer doesn't see registered channel",
        )
        self.assertIsNotNone(
            self.architect.server.last_alive_packet,
            "No alive packet received by server",
        )
        sup.launch_sending_thread()
        self.assertIsNotNone(sup.sending_thread)

        # Register a worker
        mock_worker_name = "MOCK_WORKER"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker not successfully registered")
        worker = workers[0]

        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker potentially re-registered")
        worker_id = workers[0].db_id

        self.assertEqual(len(task_runner.running_assignments), 0)

        # Register an agent
        mock_agent_details = "FAKE_ASSIGNMENT"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent was not created properly")

        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent may have been duplicated")
        agent = agents[0]
        self.assertIsNotNone(agent)
        self.assertEqual(len(sup.agents), 1,
                         "Agent not registered with supervisor")

        self.assertEqual(len(task_runner.running_units), 1,
                         "Ready task was not launched")

        # Register another worker
        mock_worker_name = "MOCK_WORKER_2"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        worker_id = workers[0].db_id

        # Register an agent
        mock_agent_details = "FAKE_ASSIGNMENT_2"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)

        self.assertEqual(len(task_runner.running_units), 2,
                         "Tasks were not launched")
        agents = [a.agent for a in sup.agents.values()]

        # Make both agents act
        agent_id_1, agent_id_2 = agents[0].db_id, agents[1].db_id
        agent_1_data = agents[0].datastore.agent_data[agent_id_1]
        agent_2_data = agents[1].datastore.agent_data[agent_id_2]
        self.architect.server.send_agent_act(agent_id_1, {"text": "message1"})
        self.architect.server.send_agent_act(agent_id_2, {"text": "message2"})

        # Give up to 1 seconds for the actual operations to occur
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(agent_1_data["acts"]) > 0:
                break
            time.sleep(0.1)

        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not process messages in time")

        # Give up to 1 seconds for the task to complete afterwards
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(task_runner.running_units) == 0:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not complete task in time")

        # Give up to 1 seconds for all messages to propogate
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if self.architect.server.actions_observed == 2:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Not all actions observed in time")

        sup.shutdown()
        self.assertTrue(channel_info.channel.is_closed)

    def test_register_job(self):
        """Test registering and running a job run asynchronously"""
        # Handle baseline setup
        sup = Supervisor(self.db)
        self.sup = sup
        TaskRunnerClass = MockBlueprint.TaskRunnerClass
        args = MockBlueprint.ArgsClass()
        args.timeout_time = 5
        config = OmegaConf.structured(MephistoConfig(blueprint=args))
        task_runner = TaskRunnerClass(self.task_run, config, EMPTY_STATE)
        sup.register_job(self.architect, task_runner, self.provider)
        self.assertEqual(len(sup.channels), 1)
        channel_info = list(sup.channels.values())[0]
        self.assertIsNotNone(channel_info)
        self.assertTrue(channel_info.channel.is_alive())
        channel_id = channel_info.channel_id
        task_runner = channel_info.job.task_runner
        self.assertIsNotNone(channel_id)
        self.assertEqual(
            len(self.architect.server.subs),
            1,
            "MockServer doesn't see registered channel",
        )
        self.assertIsNotNone(
            self.architect.server.last_alive_packet,
            "No alive packet received by server",
        )
        sup.launch_sending_thread()
        self.assertIsNotNone(sup.sending_thread)

        # Register a worker
        mock_worker_name = "MOCK_WORKER"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker not successfully registered")
        worker = workers[0]

        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker potentially re-registered")
        worker_id = workers[0].db_id

        self.assertEqual(len(task_runner.running_assignments), 0)

        # Register an agent
        mock_agent_details = "FAKE_ASSIGNMENT"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent was not created properly")

        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent may have been duplicated")
        agent = agents[0]
        self.assertIsNotNone(agent)
        self.assertEqual(len(sup.agents), 1,
                         "Agent not registered with supervisor")

        self.assertEqual(len(task_runner.running_assignments), 0,
                         "Task was not yet ready")

        # Register another worker
        mock_worker_name = "MOCK_WORKER_2"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        worker_id = workers[0].db_id

        # Register an agent
        mock_agent_details = "FAKE_ASSIGNMENT_2"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)

        self.assertEqual(len(task_runner.running_assignments), 1,
                         "Task was not launched")
        agents = [a.agent for a in sup.agents.values()]

        # Make both agents act
        agent_id_1, agent_id_2 = agents[0].db_id, agents[1].db_id
        agent_1_data = agents[0].datastore.agent_data[agent_id_1]
        agent_2_data = agents[1].datastore.agent_data[agent_id_2]
        self.architect.server.send_agent_act(agent_id_1, {"text": "message1"})
        self.architect.server.send_agent_act(agent_id_2, {"text": "message2"})

        # Give up to 1 seconds for the actual operation to occur
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(agent_1_data["acts"]) > 0:
                break
            time.sleep(0.1)

        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not process messages in time")

        # Give up to 1 seconds for the task to complete afterwards
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(task_runner.running_assignments) == 0:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not complete task in time")

        # Give up to 1 seconds for all messages to propogate
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if self.architect.server.actions_observed == 2:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Not all actions observed in time")

        sup.shutdown()
        self.assertTrue(channel_info.channel.is_closed())

    def test_register_concurrent_job_with_onboarding(self):
        """Test registering and running a job with onboarding"""
        # Handle baseline setup
        sup = Supervisor(self.db)
        self.sup = sup
        TEST_QUALIFICATION_NAME = "test_onboarding_qualification"

        task_run_args = self.task_run.args
        task_run_args.blueprint.use_onboarding = True
        task_run_args.blueprint.onboarding_qualification = TEST_QUALIFICATION_NAME
        task_run_args.blueprint.timeout_time = 5
        task_run_args.blueprint.is_concurrent = True
        self.task_run.get_task_config()

        # Supervisor expects that blueprint setup has already occurred
        blueprint = self.task_run.get_blueprint()

        TaskRunnerClass = MockBlueprint.TaskRunnerClass
        task_runner = TaskRunnerClass(self.task_run, task_run_args,
                                      EMPTY_STATE)

        sup.register_job(self.architect, task_runner, self.provider)
        self.assertEqual(len(sup.channels), 1)
        channel_info = list(sup.channels.values())[0]
        self.assertIsNotNone(channel_info)
        self.assertTrue(channel_info.channel.is_alive())
        channel_id = channel_info.channel_id
        task_runner = channel_info.job.task_runner
        self.assertIsNotNone(channel_id)
        self.assertEqual(
            len(self.architect.server.subs),
            1,
            "MockServer doesn't see registered channel",
        )
        self.assertIsNotNone(
            self.architect.server.last_alive_packet,
            "No alive packet received by server",
        )
        sup.launch_sending_thread()
        self.assertIsNotNone(sup.sending_thread)

        self.assertEqual(len(task_runner.running_units), 0)

        # Fail to register an agent who fails onboarding
        mock_worker_name = "BAD_WORKER"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker not successfully registered")
        worker_0 = workers[0]

        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker potentially re-registered")
        worker_id = workers[0].db_id

        mock_agent_details = "FAKE_ASSIGNMENT"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Agent should not be created yet - need onboarding")
        onboard_agents = self.db.find_onboarding_agents()
        self.assertEqual(len(onboard_agents), 1,
                         "Onboarding agent should have been created")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertIn("onboard_data", last_packet["data"],
                      "Onboarding not triggered")
        self.architect.server.last_packet = None

        # Submit onboarding from the agent
        onboard_data = {"should_pass": False}
        self.architect.server.register_mock_agent_after_onboarding(
            worker_id, onboard_agents[0].get_agent_id(), onboard_data)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Failed agent created after onboarding")

        # Re-register as if refreshing
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Failed agent created after onboarding")
        self.assertEqual(len(sup.agents), 0,
                         "Failed agent registered with supervisor")

        self.assertEqual(
            len(task_runner.running_units),
            0,
            "Task should not launch with failed worker",
        )

        # Register a worker
        mock_worker_name = "MOCK_WORKER"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker not successfully registered")
        worker_1 = workers[0]

        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker potentially re-registered")
        worker_id = workers[0].db_id

        self.assertEqual(len(task_runner.running_assignments), 0)

        # Fail to register a blocked agent
        mock_agent_details = "FAKE_ASSIGNMENT"
        qualification_id = blueprint.onboarding_qualification_id
        self.db.grant_qualification(qualification_id, worker_1.db_id, 0)
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Agent should not be created yet, failed onboarding")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertNotIn(
            "onboard_data",
            last_packet["data"],
            "Onboarding triggered for disqualified worker",
        )
        self.assertIsNone(last_packet["data"]["agent_id"],
                          "worker assigned real agent id")
        self.architect.server.last_packet = None
        self.db.revoke_qualification(qualification_id, worker_id)

        # Register an onboarding agent successfully
        mock_agent_details = "FAKE_ASSIGNMENT"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Agent should not be created yet - need onboarding")
        onboard_agents = self.db.find_onboarding_agents()
        self.assertEqual(len(onboard_agents), 2,
                         "Onboarding agent should have been created")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertIn("onboard_data", last_packet["data"],
                      "Onboarding not triggered")
        self.architect.server.last_packet = None

        # Submit onboarding from the agent
        onboard_data = {"should_pass": True}
        self.architect.server.register_mock_agent_after_onboarding(
            worker_id, onboard_agents[1].get_agent_id(), onboard_data)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent not created after onboarding")

        # Re-register as if refreshing
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1, "Agent may have been duplicated")
        agent = agents[0]
        self.assertIsNotNone(agent)
        self.assertEqual(len(sup.agents), 1,
                         "Agent not registered with supervisor")

        self.assertEqual(
            len(task_runner.running_assignments),
            0,
            "Task was not yet ready, should not launch",
        )

        # Register another worker
        mock_worker_name = "MOCK_WORKER_2"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        worker_2 = workers[0]
        worker_id = worker_2.db_id

        # Register an agent that is already qualified
        mock_agent_details = "FAKE_ASSIGNMENT_2"
        self.db.grant_qualification(qualification_id, worker_2.db_id, 1)
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertNotIn(
            "onboard_data",
            last_packet["data"],
            "Onboarding triggered for qualified agent",
        )
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 2,
                         "Second agent not created without onboarding")

        self.assertEqual(len(task_runner.running_assignments), 1,
                         "Task was not launched")

        self.assertFalse(worker_0.is_qualified(TEST_QUALIFICATION_NAME))
        self.assertTrue(worker_0.is_disqualified(TEST_QUALIFICATION_NAME))
        self.assertTrue(worker_1.is_qualified(TEST_QUALIFICATION_NAME))
        self.assertFalse(worker_1.is_disqualified(TEST_QUALIFICATION_NAME))
        self.assertTrue(worker_2.is_qualified(TEST_QUALIFICATION_NAME))
        self.assertFalse(worker_2.is_disqualified(TEST_QUALIFICATION_NAME))
        agents = [a.agent for a in sup.agents.values()]

        # Make both agents act
        agent_id_1, agent_id_2 = agents[0].db_id, agents[1].db_id
        agent_1_data = agents[0].datastore.agent_data[agent_id_1]
        agent_2_data = agents[1].datastore.agent_data[agent_id_2]
        self.architect.server.send_agent_act(agent_id_1, {"text": "message1"})
        self.architect.server.send_agent_act(agent_id_2, {"text": "message2"})

        # Give up to 1 seconds for the actual operation to occur
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(agent_1_data["acts"]) > 0:
                break
            time.sleep(0.1)

        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not process messages in time")

        # Give up to 1 seconds for the task to complete afterwards
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(task_runner.running_assignments) == 0:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not complete task in time")

        # Give up to 1 seconds for all messages to propogate
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if self.architect.server.actions_observed == 2:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Not all actions observed in time")

        sup.shutdown()
        self.assertTrue(channel_info.channel.is_closed())

    def test_register_job_with_onboarding(self):
        """Test registering and running a job with onboarding"""
        # Handle baseline setup
        sup = Supervisor(self.db)
        self.sup = sup
        TEST_QUALIFICATION_NAME = "test_onboarding_qualification"

        # Register onboarding arguments for blueprint
        task_run_args = self.task_run.args
        task_run_args.blueprint.use_onboarding = True
        task_run_args.blueprint.onboarding_qualification = TEST_QUALIFICATION_NAME
        task_run_args.blueprint.timeout_time = 5
        task_run_args.blueprint.is_concurrent = False
        self.task_run.get_task_config()

        # Supervisor expects that blueprint setup has already occurred
        blueprint = self.task_run.get_blueprint()

        TaskRunnerClass = MockBlueprint.TaskRunnerClass
        task_runner = TaskRunnerClass(self.task_run, task_run_args,
                                      EMPTY_STATE)
        sup.register_job(self.architect, task_runner, self.provider)
        self.assertEqual(len(sup.channels), 1)
        channel_info = list(sup.channels.values())[0]
        self.assertIsNotNone(channel_info)
        self.assertTrue(channel_info.channel.is_alive())
        channel_id = channel_info.channel_id
        task_runner = channel_info.job.task_runner
        self.assertIsNotNone(channel_id)
        self.assertEqual(
            len(self.architect.server.subs),
            1,
            "MockServer doesn't see registered channel",
        )
        self.assertIsNotNone(
            self.architect.server.last_alive_packet,
            "No alive packet received by server",
        )
        sup.launch_sending_thread()
        self.assertIsNotNone(sup.sending_thread)

        # Register a worker
        mock_worker_name = "MOCK_WORKER"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker not successfully registered")
        worker_1 = workers[0]

        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        self.assertEqual(len(workers), 1, "Worker potentially re-registered")
        worker_id = workers[0].db_id

        self.assertEqual(len(task_runner.running_units), 0)

        # Fail to register a blocked agent
        mock_agent_details = "FAKE_ASSIGNMENT"
        qualification_id = blueprint.onboarding_qualification_id
        self.db.grant_qualification(qualification_id, worker_1.db_id, 0)
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Agent should not be created yet, failed onboarding")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertNotIn(
            "onboard_data",
            last_packet["data"],
            "Onboarding triggered for disqualified worker",
        )
        self.assertIsNone(last_packet["data"]["agent_id"],
                          "worker assigned real agent id")
        self.architect.server.last_packet = None
        self.db.revoke_qualification(qualification_id, worker_id)

        # Register an agent successfully
        mock_agent_details = "FAKE_ASSIGNMENT"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Agent should not be created yet - need onboarding")
        onboard_agents = self.db.find_onboarding_agents()
        self.assertEqual(len(onboard_agents), 1,
                         "Onboarding agent should have been created")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertIn("onboard_data", last_packet["data"],
                      "Onboarding not triggered")
        self.architect.server.last_packet = None

        # Submit onboarding from the agent
        onboard_data = {"should_pass": False}
        self.architect.server.register_mock_agent_after_onboarding(
            worker_id, onboard_agents[0].get_agent_id(), onboard_data)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Failed agent created after onboarding")

        # Re-register as if refreshing
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 0,
                         "Failed agent created after onboarding")
        self.assertEqual(len(sup.agents), 0,
                         "Failed agent registered with supervisor")

        self.assertEqual(
            len(task_runner.running_units),
            0,
            "Task should not launch with failed worker",
        )

        # Register another worker
        mock_worker_name = "MOCK_WORKER_2"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        worker_2 = workers[0]
        worker_id = worker_2.db_id

        # Register an agent that is already qualified
        mock_agent_details = "FAKE_ASSIGNMENT_2"
        self.db.grant_qualification(qualification_id, worker_2.db_id, 1)
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertNotIn(
            "onboard_data",
            last_packet["data"],
            "Onboarding triggered for qualified agent",
        )
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1,
                         "Second agent not created without onboarding")

        self.assertEqual(len(task_runner.running_units), 1,
                         "Tasks were not launched")

        self.assertFalse(worker_1.is_qualified(TEST_QUALIFICATION_NAME))
        self.assertTrue(worker_1.is_disqualified(TEST_QUALIFICATION_NAME))
        self.assertTrue(worker_2.is_qualified(TEST_QUALIFICATION_NAME))
        self.assertFalse(worker_2.is_disqualified(TEST_QUALIFICATION_NAME))

        # Register another worker
        mock_worker_name = "MOCK_WORKER_3"
        self.architect.server.register_mock_worker(mock_worker_name)
        workers = self.db.find_workers(worker_name=mock_worker_name)
        worker_3 = workers[0]
        worker_id = worker_3.db_id
        mock_agent_details = "FAKE_ASSIGNMENT_3"
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 1,
                         "Agent should not be created yet - need onboarding")
        onboard_agents = self.db.find_onboarding_agents()
        self.assertEqual(len(onboard_agents), 2,
                         "Onboarding agent should have been created")
        time.sleep(0.1)
        last_packet = self.architect.server.last_packet
        self.assertIsNotNone(last_packet)
        self.assertIn("onboard_data", last_packet["data"],
                      "Onboarding not triggered")
        self.architect.server.last_packet = None

        # Submit onboarding from the agent
        onboard_data = {"should_pass": True}
        self.architect.server.register_mock_agent_after_onboarding(
            worker_id, onboard_agents[1].get_agent_id(), onboard_data)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 2, "Agent not created after onboarding")

        # Re-register as if refreshing
        self.architect.server.register_mock_agent(worker_id,
                                                  mock_agent_details)
        agents = self.db.find_agents()
        self.assertEqual(len(agents), 2,
                         "Duplicate agent created after onboarding")
        agent = agents[1]
        self.assertIsNotNone(agent)
        self.assertEqual(len(sup.agents), 2,
                         "Agent not registered supervisor after onboarding")

        self.assertEqual(len(task_runner.running_units), 2,
                         "Task not launched after onboarding")

        agents = [a.agent for a in sup.agents.values()]

        # Make both agents act
        agent_id_1, agent_id_2 = agents[0].db_id, agents[1].db_id
        agent_1_data = agents[0].datastore.agent_data[agent_id_1]
        agent_2_data = agents[1].datastore.agent_data[agent_id_2]
        self.architect.server.send_agent_act(agent_id_1, {"text": "message1"})
        self.architect.server.send_agent_act(agent_id_2, {"text": "message2"})

        # Give up to 1 seconds for the actual operation to occur
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(agent_1_data["acts"]) > 0:
                break
            time.sleep(0.1)

        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not process messages in time")

        # Give up to 1 seconds for the task to complete afterwards
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if len(task_runner.running_units) == 0:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Did not complete task in time")

        # Give up to 1 seconds for all messages to propogate
        start_time = time.time()
        TIMEOUT_TIME = 1
        while time.time() - start_time < TIMEOUT_TIME:
            if self.architect.server.actions_observed == 2:
                break
            time.sleep(0.1)
        self.assertLess(time.time() - start_time, TIMEOUT_TIME,
                        "Not all actions observed in time")

        sup.shutdown()
        self.assertTrue(channel_info.channel.is_closed())