Ejemplo n.º 1
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    def test_get_status(self):
        """Test the verification statuses of a user for a given 'checkpoint'
        and 'course_id'.
        """
        reverification_service = ReverificationService()
        self.assertIsNone(
            reverification_service.get_status(self.user.id,
                                              unicode(self.course_id),
                                              self.final_checkpoint_location))

        checkpoint_obj = VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location)
        VerificationStatus.objects.create(checkpoint=checkpoint_obj,
                                          user=self.user,
                                          status='submitted')
        self.assertEqual(
            reverification_service.get_status(self.user.id,
                                              unicode(self.course_id),
                                              self.final_checkpoint_location),
            'submitted')

        VerificationStatus.objects.create(checkpoint=checkpoint_obj,
                                          user=self.user,
                                          status='approved')
        self.assertEqual(
            reverification_service.get_status(self.user.id,
                                              unicode(self.course_id),
                                              self.final_checkpoint_location),
            'approved')
Ejemplo n.º 2
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    def test_declined_verification_on_skip(self):
        """Test that status with value 'declined' is added in credit
        requirement status model when a user skip's an ICRV.
        """
        reverification_service = ReverificationService()
        checkpoint = VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location
        )
        # Create credit course and set credit requirements.
        CreditCourse.objects.create(course_key=self.course_key, enabled=True)
        set_credit_requirements(
            self.course_key,
            [
                {
                    "namespace": "reverification",
                    "name": checkpoint.checkpoint_location,
                    "display_name": "Assessment 1",
                    "criteria": {},
                }
            ]
        )

        reverification_service.skip_verification(self.user.id, unicode(self.course_id), self.final_checkpoint_location)
        requirement_status = get_credit_requirement_status(
            self.course_key, self.user.username, 'reverification', checkpoint.checkpoint_location
        )
        self.assertEqual(SkippedReverification.objects.filter(user=self.user, course_id=self.course_id).count(), 1)
        self.assertEqual(len(requirement_status), 1)
        self.assertEqual(requirement_status[0].get('name'), checkpoint.checkpoint_location)
        self.assertEqual(requirement_status[0].get('status'), 'declined')
Ejemplo n.º 3
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    def test_declined_verification_on_skip(self):
        """Test that status with value 'declined' is added in credit
        requirement status model when a user skip's an ICRV.
        """
        reverification_service = ReverificationService()
        checkpoint = VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location)
        # Create credit course and set credit requirements.
        CreditCourse.objects.create(course_key=self.course_key, enabled=True)
        set_credit_requirements(self.course_key, [{
            "namespace": "reverification",
            "name": checkpoint.checkpoint_location,
            "display_name": "Assessment 1",
            "criteria": {},
        }])

        reverification_service.skip_verification(
            self.user.id, unicode(self.course_id),
            self.final_checkpoint_location)
        requirement_status = get_credit_requirement_status(
            self.course_key, self.user.username, 'reverification',
            checkpoint.checkpoint_location)
        self.assertEqual(
            SkippedReverification.objects.filter(
                user=self.user, course_id=self.course_id).count(), 1)
        self.assertEqual(len(requirement_status), 1)
        self.assertEqual(requirement_status[0].get('name'),
                         checkpoint.checkpoint_location)
        self.assertEqual(requirement_status[0].get('status'), 'declined')
Ejemplo n.º 4
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    def test_not_in_verified_track(self):
        # No longer enrolled in a verified track
        self.enrollment.update_enrollment(mode=CourseMode.HONOR)

        # Should be marked as "skipped" (opted out)
        service = ReverificationService()
        status = service.get_status(self.user.id, unicode(self.course_id), self.final_checkpoint_location)
        self.assertEqual(status, service.NON_VERIFIED_TRACK)
Ejemplo n.º 5
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    def test_not_in_verified_track(self):
        # No longer enrolled in a verified track
        self.enrollment.update_enrollment(mode=CourseMode.HONOR)

        # Should be marked as "skipped" (opted out)
        service = ReverificationService()
        status = service.get_status(self.user.id, unicode(self.course_id),
                                    self.final_checkpoint_location)
        self.assertEqual(status, service.NON_VERIFIED_TRACK)
Ejemplo n.º 6
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    def test_skip_verification(self):
        """
        Test adding skip attempt of a user for a reverification checkpoint.
        """
        reverification_service = ReverificationService()
        VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location)

        reverification_service.skip_verification(
            self.user.id, unicode(self.course_id),
            self.final_checkpoint_location)
        self.assertEqual(
            SkippedReverification.objects.filter(
                user=self.user, course_id=self.course_id).count(), 1)

        # now test that a user can have only one entry for a skipped
        # reverification for a course
        reverification_service.skip_verification(
            self.user.id, unicode(self.course_id),
            self.final_checkpoint_location)
        self.assertEqual(
            SkippedReverification.objects.filter(
                user=self.user, course_id=self.course_id).count(), 1)

        # testing service for skipped attempt.
        self.assertEqual(
            reverification_service.get_status(self.user.id,
                                              unicode(self.course_id),
                                              self.final_checkpoint_location),
            'skipped')
Ejemplo n.º 7
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    def test_start_verification(self, checkpoint_name):
        """Test the 'start_verification' service method.

        Check that if a reverification checkpoint exists for a specific course
        then 'start_verification' method returns that checkpoint otherwise it
        creates that checkpoint.
        """
        reverification_service = ReverificationService()
        checkpoint_location = u'i4x://{org}/{course}/edx-reverification-block/{checkpoint}'.format(
            org=self.course_id.org, course=self.course_id.course, checkpoint=checkpoint_name
        )
        expected_url = (
            '/verify_student/reverify'
            '/{course_key}'
            '/{checkpoint_location}/'
        ).format(course_key=unicode(self.course_id), checkpoint_location=checkpoint_location)

        self.assertEqual(
            reverification_service.start_verification(unicode(self.course_id), checkpoint_location),
            expected_url
        )
Ejemplo n.º 8
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    def test_get_attempts(self):
        """Check verification attempts count against a user for a given
        'checkpoint' and 'course_id'.
        """
        reverification_service = ReverificationService()
        course_id = unicode(self.course_id)
        self.assertEqual(
            reverification_service.get_attempts(
                self.user.id, course_id, self.final_checkpoint_location), 0)

        # now create a checkpoint and add user's entry against it then test
        # that the 'get_attempts' service method returns correct count
        checkpoint_obj = VerificationCheckpoint.objects.create(
            course_id=course_id,
            checkpoint_location=self.final_checkpoint_location)
        VerificationStatus.objects.create(checkpoint=checkpoint_obj,
                                          user=self.user,
                                          status='submitted')
        self.assertEqual(
            reverification_service.get_attempts(
                self.user.id, course_id, self.final_checkpoint_location), 1)
Ejemplo n.º 9
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    def test_skip_verification(self):
        """
        Test adding skip attempt of a user for a reverification checkpoint.
        """
        reverification_service = ReverificationService()
        VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location
        )

        reverification_service.skip_verification(self.user.id, unicode(self.course_id), self.final_checkpoint_location)
        self.assertEqual(
            SkippedReverification.objects.filter(user=self.user, course_id=self.course_id).count(),
            1
        )

        # now test that a user can have only one entry for a skipped
        # reverification for a course
        reverification_service.skip_verification(self.user.id, unicode(self.course_id), self.final_checkpoint_location)
        self.assertEqual(
            SkippedReverification.objects.filter(user=self.user, course_id=self.course_id).count(),
            1
        )

        # testing service for skipped attempt.
        self.assertEqual(
            reverification_service.get_status(self.user.id, unicode(self.course_id), self.final_checkpoint_location),
            'skipped'
        )
Ejemplo n.º 10
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    def test_get_attempts(self):
        """Check verification attempts count against a user for a given
        'checkpoint' and 'course_id'.
        """
        reverification_service = ReverificationService()
        course_id = unicode(self.course_id)
        self.assertEqual(
            reverification_service.get_attempts(self.user.id, course_id, self.final_checkpoint_location),
            0
        )

        # now create a checkpoint and add user's entry against it then test
        # that the 'get_attempts' service method returns correct count
        checkpoint_obj = VerificationCheckpoint.objects.create(
            course_id=course_id,
            checkpoint_location=self.final_checkpoint_location
        )
        VerificationStatus.objects.create(checkpoint=checkpoint_obj, user=self.user, status='submitted')
        self.assertEqual(
            reverification_service.get_attempts(self.user.id, course_id, self.final_checkpoint_location),
            1
        )
Ejemplo n.º 11
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    def test_start_verification(self, checkpoint_name):
        """Test the 'start_verification' service method.

        Check that if a reverification checkpoint exists for a specific course
        then 'start_verification' method returns that checkpoint otherwise it
        creates that checkpoint.
        """
        reverification_service = ReverificationService()
        checkpoint_location = u'i4x://{org}/{course}/edx-reverification-block/{checkpoint}'.format(
            org=self.course_id.org,
            course=self.course_id.course,
            checkpoint=checkpoint_name)
        expected_url = ('/verify_student/reverify'
                        '/{course_key}'
                        '/{checkpoint_location}/').format(
                            course_key=unicode(self.course_id),
                            checkpoint_location=checkpoint_location)

        self.assertEqual(
            reverification_service.start_verification(unicode(self.course_id),
                                                      checkpoint_location),
            expected_url)
Ejemplo n.º 12
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    def test_get_status(self):
        """Test the verification statuses of a user for a given 'checkpoint'
        and 'course_id'.
        """
        reverification_service = ReverificationService()
        self.assertIsNone(
            reverification_service.get_status(self.user.id, unicode(self.course_id), self.final_checkpoint_location)
        )

        checkpoint_obj = VerificationCheckpoint.objects.create(
            course_id=unicode(self.course_id),
            checkpoint_location=self.final_checkpoint_location
        )
        VerificationStatus.objects.create(checkpoint=checkpoint_obj, user=self.user, status='submitted')
        self.assertEqual(
            reverification_service.get_status(self.user.id, unicode(self.course_id), self.final_checkpoint_location),
            'submitted'
        )

        VerificationStatus.objects.create(checkpoint=checkpoint_obj, user=self.user, status='approved')
        self.assertEqual(
            reverification_service.get_status(self.user.id, unicode(self.course_id), self.final_checkpoint_location),
            'approved'
        )
Ejemplo n.º 13
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def get_module_system_for_user(user, student_data,  # TODO  # pylint: disable=too-many-statements
                               # Arguments preceding this comment have user binding, those following don't
                               descriptor, course_id, track_function, xqueue_callback_url_prefix,
                               request_token, position=None, wrap_xmodule_display=True, grade_bucket_type=None,
                               static_asset_path='', user_location=None, disable_staff_debug_info=False,
                               course=None):
    """
    Helper function that returns a module system and student_data bound to a user and a descriptor.

    The purpose of this function is to factor out everywhere a user is implicitly bound when creating a module,
    to allow an existing module to be re-bound to a user.  Most of the user bindings happen when creating the
    closures that feed the instantiation of ModuleSystem.

    The arguments fall into two categories: those that have explicit or implicit user binding, which are user
    and student_data, and those don't and are just present so that ModuleSystem can be instantiated, which
    are all the other arguments.  Ultimately, this isn't too different than how get_module_for_descriptor_internal
    was before refactoring.

    Arguments:
        see arguments for get_module()
        request_token (str): A token unique to the request use by xblock initialization

    Returns:
        (LmsModuleSystem, KvsFieldData):  (module system, student_data) bound to, primarily, the user and descriptor
    """

    def make_xqueue_callback(dispatch='score_update'):
        """
        Returns fully qualified callback URL for external queueing system
        """
        relative_xqueue_callback_url = reverse(
            'xqueue_callback',
            kwargs=dict(
                course_id=course_id.to_deprecated_string(),
                userid=str(user.id),
                mod_id=descriptor.location.to_deprecated_string(),
                dispatch=dispatch
            ),
        )
        return xqueue_callback_url_prefix + relative_xqueue_callback_url

    # Default queuename is course-specific and is derived from the course that
    #   contains the current module.
    # TODO: Queuename should be derived from 'course_settings.json' of each course
    xqueue_default_queuename = descriptor.location.org + '-' + descriptor.location.course

    xqueue = {
        'interface': XQUEUE_INTERFACE,
        'construct_callback': make_xqueue_callback,
        'default_queuename': xqueue_default_queuename.replace(' ', '_'),
        'waittime': settings.XQUEUE_WAITTIME_BETWEEN_REQUESTS
    }

    def inner_get_module(descriptor):
        """
        Delegate to get_module_for_descriptor_internal() with all values except `descriptor` set.

        Because it does an access check, it may return None.
        """
        # TODO: fix this so that make_xqueue_callback uses the descriptor passed into
        # inner_get_module, not the parent's callback.  Add it as an argument....
        return get_module_for_descriptor_internal(
            user=user,
            descriptor=descriptor,
            student_data=student_data,
            course_id=course_id,
            track_function=track_function,
            xqueue_callback_url_prefix=xqueue_callback_url_prefix,
            position=position,
            wrap_xmodule_display=wrap_xmodule_display,
            grade_bucket_type=grade_bucket_type,
            static_asset_path=static_asset_path,
            user_location=user_location,
            request_token=request_token,
            course=course
        )

    def _fulfill_content_milestones(user, course_key, content_key):
        """
        Internal helper to handle milestone fulfillments for the specified content module
        """
        # Fulfillment Use Case: Entrance Exam
        # If this module is part of an entrance exam, we'll need to see if the student
        # has reached the point at which they can collect the associated milestone
        if milestones_helpers.is_entrance_exams_enabled():
            course = modulestore().get_course(course_key)
            content = modulestore().get_item(content_key)
            entrance_exam_enabled = getattr(course, 'entrance_exam_enabled', False)
            in_entrance_exam = getattr(content, 'in_entrance_exam', False)
            if entrance_exam_enabled and in_entrance_exam:
                # We don't have access to the true request object in this context, but we can use a mock
                request = RequestFactory().request()
                request.user = user
                exam_pct = get_entrance_exam_score(request, course)
                if exam_pct >= course.entrance_exam_minimum_score_pct:
                    exam_key = UsageKey.from_string(course.entrance_exam_id)
                    relationship_types = milestones_helpers.get_milestone_relationship_types()
                    content_milestones = milestones_helpers.get_course_content_milestones(
                        course_key,
                        exam_key,
                        relationship=relationship_types['FULFILLS']
                    )
                    # Add each milestone to the user's set...
                    user = {'id': request.user.id}
                    for milestone in content_milestones:
                        milestones_helpers.add_user_milestone(user, milestone)

    def handle_grade_event(block, event_type, event):  # pylint: disable=unused-argument
        """
        Manages the workflow for recording and updating of student module grade state
        """
        user_id = user.id

        grade = event.get('value')
        max_grade = event.get('max_value')

        set_score(
            user_id,
            descriptor.location,
            grade,
            max_grade,
        )

        # Bin score into range and increment stats
        score_bucket = get_score_bucket(grade, max_grade)

        tags = [
            u"org:{}".format(course_id.org),
            u"course:{}".format(course_id),
            u"score_bucket:{0}".format(score_bucket)
        ]

        if grade_bucket_type is not None:
            tags.append('type:%s' % grade_bucket_type)

        dog_stats_api.increment("lms.courseware.question_answered", tags=tags)

        # Cycle through the milestone fulfillment scenarios to see if any are now applicable
        # thanks to the updated grading information that was just submitted
        _fulfill_content_milestones(
            user,
            course_id,
            descriptor.location,
        )

        # Send a signal out to any listeners who are waiting for score change
        # events.
        SCORE_CHANGED.send(
            sender=None,
            points_possible=event['max_value'],
            points_earned=event['value'],
            user_id=user_id,
            course_id=unicode(course_id),
            usage_id=unicode(descriptor.location)
        )

    def publish(block, event_type, event):
        """A function that allows XModules to publish events."""
        if event_type == 'grade' and not is_masquerading_as_specific_student(user, course_id):
            handle_grade_event(block, event_type, event)
        else:
            aside_context = {}
            for aside in block.runtime.get_asides(block):
                if hasattr(aside, 'get_event_context'):
                    aside_event_info = aside.get_event_context(event_type, event)
                    if aside_event_info is not None:
                        aside_context[aside.scope_ids.block_type] = aside_event_info
            with tracker.get_tracker().context('asides', {'asides': aside_context}):
                track_function(event_type, event)

    def rebind_noauth_module_to_user(module, real_user):
        """
        A function that allows a module to get re-bound to a real user if it was previously bound to an AnonymousUser.

        Will only work within a module bound to an AnonymousUser, e.g. one that's instantiated by the noauth_handler.

        Arguments:
            module (any xblock type):  the module to rebind
            real_user (django.contrib.auth.models.User):  the user to bind to

        Returns:
            nothing (but the side effect is that module is re-bound to real_user)
        """
        if user.is_authenticated():
            err_msg = ("rebind_noauth_module_to_user can only be called from a module bound to "
                       "an anonymous user")
            log.error(err_msg)
            raise LmsModuleRenderError(err_msg)

        field_data_cache_real_user = FieldDataCache.cache_for_descriptor_descendents(
            course_id,
            real_user,
            module.descriptor,
            asides=XBlockAsidesConfig.possible_asides(),
        )
        student_data_real_user = KvsFieldData(DjangoKeyValueStore(field_data_cache_real_user))

        (inner_system, inner_student_data) = get_module_system_for_user(
            user=real_user,
            student_data=student_data_real_user,  # These have implicit user bindings, rest of args considered not to
            descriptor=module.descriptor,
            course_id=course_id,
            track_function=track_function,
            xqueue_callback_url_prefix=xqueue_callback_url_prefix,
            position=position,
            wrap_xmodule_display=wrap_xmodule_display,
            grade_bucket_type=grade_bucket_type,
            static_asset_path=static_asset_path,
            user_location=user_location,
            request_token=request_token,
            course=course
        )

        module.descriptor.bind_for_student(
            inner_system,
            real_user.id,
            [
                partial(OverrideFieldData.wrap, real_user, course),
                partial(LmsFieldData, student_data=inner_student_data),
            ],
        )

        module.descriptor.scope_ids = (
            module.descriptor.scope_ids._replace(user_id=real_user.id)
        )
        module.scope_ids = module.descriptor.scope_ids  # this is needed b/c NamedTuples are immutable
        # now bind the module to the new ModuleSystem instance and vice-versa
        module.runtime = inner_system
        inner_system.xmodule_instance = module

    # Build a list of wrapping functions that will be applied in order
    # to the Fragment content coming out of the xblocks that are about to be rendered.
    block_wrappers = []

    if is_masquerading_as_specific_student(user, course_id):
        block_wrappers.append(filter_displayed_blocks)

    if settings.FEATURES.get("LICENSING", False):
        block_wrappers.append(wrap_with_license)

    # Wrap the output display in a single div to allow for the XModule
    # javascript to be bound correctly
    if wrap_xmodule_display is True:
        block_wrappers.append(partial(
            wrap_xblock,
            'LmsRuntime',
            extra_data={'course-id': course_id.to_deprecated_string()},
            usage_id_serializer=lambda usage_id: quote_slashes(usage_id.to_deprecated_string()),
            request_token=request_token,
        ))

    # TODO (cpennington): When modules are shared between courses, the static
    # prefix is going to have to be specific to the module, not the directory
    # that the xml was loaded from

    # Rewrite urls beginning in /static to point to course-specific content
    block_wrappers.append(partial(
        replace_static_urls,
        getattr(descriptor, 'data_dir', None),
        course_id=course_id,
        static_asset_path=static_asset_path or descriptor.static_asset_path
    ))

    # Allow URLs of the form '/course/' refer to the root of multicourse directory
    #   hierarchy of this course
    block_wrappers.append(partial(replace_course_urls, course_id))

    # this will rewrite intra-courseware links (/jump_to_id/<id>). This format
    # is an improvement over the /course/... format for studio authored courses,
    # because it is agnostic to course-hierarchy.
    # NOTE: module_id is empty string here. The 'module_id' will get assigned in the replacement
    # function, we just need to specify something to get the reverse() to work.
    block_wrappers.append(partial(
        replace_jump_to_id_urls,
        course_id,
        reverse('jump_to_id', kwargs={'course_id': course_id.to_deprecated_string(), 'module_id': ''}),
    ))

    if settings.FEATURES.get('DISPLAY_DEBUG_INFO_TO_STAFF'):
        if is_masquerading_as_specific_student(user, course_id):
            # When masquerading as a specific student, we want to show the debug button
            # unconditionally to enable resetting the state of the student we are masquerading as.
            # We already know the user has staff access when masquerading is active.
            staff_access = True
            # To figure out whether the user has instructor access, we temporarily remove the
            # masquerade_settings from the real_user.  With the masquerading settings in place,
            # the result would always be "False".
            masquerade_settings = user.real_user.masquerade_settings
            del user.real_user.masquerade_settings
            instructor_access = bool(has_access(user.real_user, 'instructor', descriptor, course_id))
            user.real_user.masquerade_settings = masquerade_settings
        else:
            staff_access = has_access(user, 'staff', descriptor, course_id)
            instructor_access = bool(has_access(user, 'instructor', descriptor, course_id))
        if staff_access:
            block_wrappers.append(partial(add_staff_markup, user, instructor_access, disable_staff_debug_info))

    # These modules store data using the anonymous_student_id as a key.
    # To prevent loss of data, we will continue to provide old modules with
    # the per-student anonymized id (as we have in the past),
    # while giving selected modules a per-course anonymized id.
    # As we have the time to manually test more modules, we can add to the list
    # of modules that get the per-course anonymized id.
    is_pure_xblock = isinstance(descriptor, XBlock) and not isinstance(descriptor, XModuleDescriptor)
    module_class = getattr(descriptor, 'module_class', None)
    is_lti_module = not is_pure_xblock and issubclass(module_class, LTIModule)
    if is_pure_xblock or is_lti_module:
        anonymous_student_id = anonymous_id_for_user(user, course_id)
    else:
        anonymous_student_id = anonymous_id_for_user(user, None)

    field_data = LmsFieldData(descriptor._field_data, student_data)  # pylint: disable=protected-access

    user_is_staff = bool(has_access(user, u'staff', descriptor.location, course_id))

    system = LmsModuleSystem(
        track_function=track_function,
        render_template=render_to_string,
        static_url=settings.STATIC_URL,
        xqueue=xqueue,
        # TODO (cpennington): Figure out how to share info between systems
        filestore=descriptor.runtime.resources_fs,
        get_module=inner_get_module,
        user=user,
        debug=settings.DEBUG,
        hostname=settings.SITE_NAME,
        # TODO (cpennington): This should be removed when all html from
        # a module is coming through get_html and is therefore covered
        # by the replace_static_urls code below
        replace_urls=partial(
            static_replace.replace_static_urls,
            data_directory=getattr(descriptor, 'data_dir', None),
            course_id=course_id,
            static_asset_path=static_asset_path or descriptor.static_asset_path,
        ),
        replace_course_urls=partial(
            static_replace.replace_course_urls,
            course_key=course_id
        ),
        replace_jump_to_id_urls=partial(
            static_replace.replace_jump_to_id_urls,
            course_id=course_id,
            jump_to_id_base_url=reverse('jump_to_id', kwargs={'course_id': course_id.to_deprecated_string(), 'module_id': ''})
        ),
        node_path=settings.NODE_PATH,
        publish=publish,
        anonymous_student_id=anonymous_student_id,
        course_id=course_id,
        cache=cache,
        can_execute_unsafe_code=(lambda: can_execute_unsafe_code(course_id)),
        get_python_lib_zip=(lambda: get_python_lib_zip(contentstore, course_id)),
        # TODO: When we merge the descriptor and module systems, we can stop reaching into the mixologist (cpennington)
        mixins=descriptor.runtime.mixologist._mixins,  # pylint: disable=protected-access
        wrappers=block_wrappers,
        get_real_user=user_by_anonymous_id,
        services={
            'fs': FSService(),
            'field-data': field_data,
            'user': DjangoXBlockUserService(user, user_is_staff=user_is_staff),
            "reverification": ReverificationService(),
            'proctoring': ProctoringService(),
            'credit': CreditService(),
            'bookmarks': BookmarksService(user=user),
        },
        get_user_role=lambda: get_user_role(user, course_id),
        descriptor_runtime=descriptor._runtime,  # pylint: disable=protected-access
        rebind_noauth_module_to_user=rebind_noauth_module_to_user,
        user_location=user_location,
        request_token=request_token,
    )

    # pass position specified in URL to module through ModuleSystem
    if position is not None:
        try:
            position = int(position)
        except (ValueError, TypeError):
            log.exception('Non-integer %r passed as position.', position)
            position = None

    system.set('position', position)

    system.set(u'user_is_staff', user_is_staff)
    system.set(u'user_is_admin', bool(has_access(user, u'staff', 'global')))
    system.set(u'user_is_beta_tester', CourseBetaTesterRole(course_id).has_user(user))
    system.set(u'days_early_for_beta', descriptor.days_early_for_beta)

    # make an ErrorDescriptor -- assuming that the descriptor's system is ok
    if has_access(user, u'staff', descriptor.location, course_id):
        system.error_descriptor_class = ErrorDescriptor
    else:
        system.error_descriptor_class = NonStaffErrorDescriptor

    return system, field_data