"""
API for submitting background tasks by an instructor for a course.
Also includes methods for getting information about tasks that have
already been submitted, filtered either by running state or input
arguments.
"""
import hashlib
from celery.states import READY_STATES
from xmodule.modulestore.django import modulestore
from instructor_task.models import InstructorTask
from instructor_task.tasks import (rescore_problem,
reset_problem_attempts,
delete_problem_state,
send_bulk_course_email,
calculate_grades_csv)
from instructor_task.api_helper import (check_arguments_for_rescoring,
encode_problem_and_student_input,
submit_task)
from bulk_email.models import CourseEmail
def get_running_instructor_tasks(course_id):
"""
Returns a query of InstructorTask objects of running tasks for a given course.
Used to generate a list of tasks to display on the instructor dashboard.
"""
instructor_tasks = InstructorTask.objects.filter(course_id=course_id)
# exclude states that are "ready" (i.e. not "running", e.g. failure, success, revoked):
for state in READY_STATES:
instructor_tasks = instructor_tasks.exclude(task_state=state)
return instructor_tasks.order_by('-id')
def get_instructor_task_history(course_id, usage_key=None, student=None, task_type=None):
"""
Returns a query of InstructorTask objects of historical tasks for a given course,
that optionally match a particular problem, a student, and/or a task type.
"""
instructor_tasks = InstructorTask.objects.filter(course_id=course_id)
if usage_key is not None or student is not None:
_, task_key = encode_problem_and_student_input(usage_key, student)
instructor_tasks = instructor_tasks.filter(task_key=task_key)
if task_type is not None:
instructor_tasks = instructor_tasks.filter(task_type=task_type)
return instructor_tasks.order_by('-id')
# Disabling invalid-name because this fn name is longer than 30 chars.
def submit_rescore_problem_for_student(request, usage_key, student): # pylint: disable=invalid-name
"""
Request a problem to be rescored as a background task.
The problem will be rescored for the specified student only. Parameters are the `course_id`,
the `problem_url`, and the `student` as a User object.
The url must specify the location of the problem, using i4x-type notation.
ItemNotFoundException is raised if the problem doesn't exist, or AlreadyRunningError
if the problem is already being rescored for this student, or NotImplementedError if
the problem doesn't support rescoring.
This method makes sure the InstructorTask entry is committed.
When called from any view that is wrapped by TransactionMiddleware,
and thus in a "commit-on-success" transaction, an autocommit buried within here
will cause any pending transaction to be committed by a successful
save here. Any future database operations will take place in a
separate transaction.
"""
# check arguments: let exceptions return up to the caller.
check_arguments_for_rescoring(usage_key)
task_type = 'rescore_problem'
task_class = rescore_problem
task_input, task_key = encode_problem_and_student_input(usage_key, student)
return submit_task(request, task_type, task_class, usage_key.course_key, task_input, task_key)
def submit_rescore_problem_for_all_students(request, usage_key): # pylint: disable=invalid-name
"""
Request a problem to be rescored as a background task.
The problem will be rescored for all students who have accessed the
particular problem in a course and have provided and checked an answer.
Parameters are the `course_id` and the `problem_url`.
The url must specify the location of the problem, using i4x-type notation.
ItemNotFoundException is raised if the problem doesn't exist, or AlreadyRunningError
if the problem is already being rescored, or NotImplementedError if the problem doesn't
support rescoring.
This method makes sure the InstructorTask entry is committed.
When called from any view that is wrapped by TransactionMiddleware,
and thus in a "commit-on-success" transaction, an autocommit buried within here
will cause any pending transaction to be committed by a successful
save here. Any future database operations will take place in a
separate transaction.
"""
# check arguments: let exceptions return up to the caller.
check_arguments_for_rescoring(usage_key)
# check to see if task is already running, and reserve it otherwise
task_type = 'rescore_problem'
task_class = rescore_problem
task_input, task_key = encode_problem_and_student_input(usage_key)
return submit_task(request, task_type, task_class, usage_key.course_key, task_input, task_key)
def submit_reset_problem_attempts_for_all_students(request, usage_key): # pylint: disable=invalid-name
"""
Request to have attempts reset for a problem as a background task.
The problem's attempts will be reset for all students who have accessed the
particular problem in a course. Parameters are the `course_id` and
the `usage_key`, which must be a :class:`Location`.
ItemNotFoundException is raised if the problem doesn't exist, or AlreadyRunningError
if the problem is already being reset.
This method makes sure the InstructorTask entry is committed.
When called from any view that is wrapped by TransactionMiddleware,
and thus in a "commit-on-success" transaction, an autocommit buried within here
will cause any pending transaction to be committed by a successful
save here. Any future database operations will take place in a
separate transaction.
"""
# check arguments: make sure that the usage_key is defined
# (since that's currently typed in). If the corresponding module descriptor doesn't exist,
# an exception will be raised. Let it pass up to the caller.
modulestore().get_item(usage_key)
task_type = 'reset_problem_attempts'
task_class = reset_problem_attempts
task_input, task_key = encode_problem_and_student_input(usage_key)
return submit_task(request, task_type, task_class, usage_key.course_key, task_input, task_key)
def submit_delete_problem_state_for_all_students(request, usage_key): # pylint: disable=invalid-name
"""
Request to have state deleted for a problem as a background task.
The problem's state will be deleted for all students who have accessed the
particular problem in a course. Parameters are the `course_id` and
the `usage_key`, which must be a :class:`Location`.
ItemNotFoundException is raised if the problem doesn't exist, or AlreadyRunningError
if the particular problem's state is already being deleted.
This method makes sure the InstructorTask entry is committed.
When called from any view that is wrapped by TransactionMiddleware,
and thus in a "commit-on-success" transaction, an autocommit buried within here
will cause any pending transaction to be committed by a successful
save here. Any future database operations will take place in a
separate transaction.
"""
# check arguments: make sure that the usage_key is defined
# (since that's currently typed in). If the corresponding module descriptor doesn't exist,
# an exception will be raised. Let it pass up to the caller.
modulestore().get_item(usage_key)
task_type = 'delete_problem_state'
task_class = delete_problem_state
task_input, task_key = encode_problem_and_student_input(usage_key)
return submit_task(request, task_type, task_class, usage_key.course_key, task_input, task_key)
def submit_bulk_course_email(request, course_key, email_id):
"""
Request to have bulk email sent as a background task.
The specified CourseEmail object will be sent be updated for all students who have enrolled
in a course. Parameters are the `course_key` and the `email_id`, the id of the CourseEmail object.
AlreadyRunningError is raised if the same recipients are already being emailed with the same
CourseEmail object.
This method makes sure the InstructorTask entry is committed.
When called from any view that is wrapped by TransactionMiddleware,
and thus in a "commit-on-success" transaction, an autocommit buried within here
will cause any pending transaction to be committed by a successful
save here. Any future database operations will take place in a
separate transaction.
"""
# Assume that the course is defined, and that the user has already been verified to have
# appropriate access to the course. But make sure that the email exists.
# We also pull out the To argument here, so that is displayed in
# the InstructorTask status.
email_obj = CourseEmail.objects.get(id=email_id)
to_option = email_obj.to_option
task_type = 'bulk_course_email'
task_class = send_bulk_course_email
# Pass in the to_option as a separate argument, even though it's (currently)
# in the CourseEmail. That way it's visible in the progress status.
# (At some point in the future, we might take the recipient out of the CourseEmail,
# so that the same saved email can be sent to different recipients, as it is tested.)
task_input = {'email_id': email_id, 'to_option': to_option}
task_key_stub = "{email_id}_{to_option}".format(email_id=email_id, to_option=to_option)
# create the key value by using MD5 hash:
task_key = hashlib.md5(task_key_stub).hexdigest()
return submit_task(request, task_type, task_class, course_key, task_input, task_key)
def submit_calculate_grades_csv(request, course_key):
"""
AlreadyRunningError is raised if the course's grades are already being updated.
"""
task_type = 'grade_course'
task_class = calculate_grades_csv
task_input = {}
task_key = ""
return submit_task(request, task_type, task_class, course_key, task_input, task_key)