quay/data/test/test_queue.py

import json
import time

import pytest

from contextlib import contextmanager
from datetime import datetime, timedelta
from functools import wraps

from data.database import QueueItem
from data.queue import WorkQueue, MINIMUM_EXTENSION

from test.fixtures import *

QUEUE_NAME = 'testqueuename'


class SaveLastCountReporter(object):
  def __init__(self):
    self.currently_processing = None
    self.running_count = None
    self.total = None

  def __call__(self, currently_processing, running_count, total_jobs):
    self.currently_processing = currently_processing
    self.running_count = running_count
    self.total = total_jobs


class AutoUpdatingQueue(object):
  def __init__(self, queue_to_wrap):
    self._queue = queue_to_wrap

  def _wrapper(self, func):
    @wraps(func)
    def wrapper(*args, **kwargs):
      to_return = func(*args, **kwargs)
      self._queue.update_metrics()
      return to_return
    return wrapper

  def __getattr__(self, attr_name):
    method_or_attr = getattr(self._queue, attr_name)
    if callable(method_or_attr):
      return self._wrapper(method_or_attr)
    else:
      return method_or_attr


TEST_MESSAGE_1 = json.dumps({'data': 1})
TEST_MESSAGE_2 = json.dumps({'data': 2})
TEST_MESSAGES = [json.dumps({'data': str(i)}) for i in range(1, 101)]


@contextmanager
def fake_transaction(arg):
  yield

@pytest.fixture()
def reporter():
  return SaveLastCountReporter()


@pytest.fixture()
def transaction_factory():
  return fake_transaction


@pytest.fixture()
def queue(reporter, transaction_factory, initialized_db):
  return AutoUpdatingQueue(WorkQueue(QUEUE_NAME, transaction_factory, reporter=reporter))


def test_get_single_item(queue, reporter, transaction_factory):
  # Add a single item to the queue.
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)

  # Have two "instances" retrieve an item to claim. Since there is only one, both calls should
  # return the same item.
  now = datetime.utcnow()
  first_item = queue._select_available_item(False, now)
  second_item = queue._select_available_item(False, now)

  assert first_item.id == second_item.id
  assert first_item.state_id == second_item.state_id

  # Have both "instances" now try to claim the item. Only one should succeed.
  first_claimed = queue._attempt_to_claim_item(first_item, now, 300)
  second_claimed = queue._attempt_to_claim_item(first_item, now, 300)

  assert first_claimed
  assert not second_claimed

  # Ensure the item is no longer available.
  assert queue.get() is None

  # Ensure the item's state ID has changed.
  assert first_item.state_id != QueueItem.get().state_id

def test_extend_processing(queue, reporter, transaction_factory):
  # Add and retrieve a queue item.
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  queue_item = queue.get(processing_time=10)
  assert queue_item is not None

  existing_db_item = QueueItem.get(id=queue_item.id)

  # Call extend processing with a timedelta less than the minimum and ensure its
  # processing_expires and state_id do not change.
  changed = queue.extend_processing(queue_item, 10 + MINIMUM_EXTENSION.total_seconds() - 1)
  assert not changed

  updated_db_item = QueueItem.get(id=queue_item.id)

  assert existing_db_item.processing_expires == updated_db_item.processing_expires
  assert existing_db_item.state_id == updated_db_item.state_id

  # Call extend processing with a timedelta greater than the minimum and ensure its
  # processing_expires and state_id are changed.
  changed = queue.extend_processing(queue_item, 10 + MINIMUM_EXTENSION.total_seconds() + 1)
  assert changed

  updated_db_item = QueueItem.get(id=queue_item.id)

  assert existing_db_item.processing_expires != updated_db_item.processing_expires
  assert existing_db_item.state_id != updated_db_item.state_id

  # Call extend processing with a timedelta less than the minimum but also with new data and
  # ensure its processing_expires and state_id are changed.
  changed = queue.extend_processing(queue_item, 10 + MINIMUM_EXTENSION.total_seconds() - 1,
                                    updated_data='newbody')
  assert changed

  updated_db_item = QueueItem.get(id=queue_item.id)

  assert existing_db_item.processing_expires != updated_db_item.processing_expires
  assert existing_db_item.state_id != updated_db_item.state_id
  assert updated_db_item.body == 'newbody'

def test_same_canonical_names(queue, reporter, transaction_factory):
  assert reporter.currently_processing is None
  assert reporter.running_count is None
  assert reporter.total is None

  id_1 = int(queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1))
  id_2 = int(queue.put(['abc', 'def'], TEST_MESSAGE_2, available_after=-1))
  assert id_1 + 1 == id_2
  assert not reporter.currently_processing
  assert reporter.running_count == 0
  assert reporter.total == 1

  one = queue.get(ordering_required=True)
  assert one is not None
  assert one.body == TEST_MESSAGE_1
  assert reporter.currently_processing
  assert reporter.running_count == 1
  assert reporter.total == 1

  two_fail = queue.get(ordering_required=True)
  assert two_fail is None
  assert reporter.running_count == 1
  assert reporter.total == 1

  queue.complete(one)
  assert not reporter.currently_processing
  assert reporter.running_count == 0
  assert reporter.total == 1

  two = queue.get(ordering_required=True)
  assert two is not None
  assert reporter.currently_processing
  assert two.body == TEST_MESSAGE_2
  assert reporter.running_count == 1
  assert reporter.total == 1

def test_different_canonical_names(queue, reporter, transaction_factory):
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  queue.put(['abc', 'ghi'], TEST_MESSAGE_2, available_after=-1)
  assert reporter.running_count == 0
  assert reporter.total == 2

  one = queue.get(ordering_required=True)
  assert one is not None
  assert one.body == TEST_MESSAGE_1
  assert reporter.running_count == 1
  assert reporter.total == 2

  two = queue.get(ordering_required=True)
  assert two is not None
  assert two.body == TEST_MESSAGE_2
  assert reporter.running_count == 2
  assert reporter.total == 2

def test_canonical_name(queue, reporter, transaction_factory):
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  queue.put(['abc', 'def', 'ghi'], TEST_MESSAGE_1, available_after=-1)

  one = queue.get(ordering_required=True)
  assert QUEUE_NAME + '/abc/def/' != one

  two = queue.get(ordering_required=True)
  assert QUEUE_NAME + '/abc/def/ghi/' != two

def test_expiration(queue, reporter, transaction_factory):
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  assert reporter.running_count == 0
  assert reporter.total == 1

  one = queue.get(processing_time=0.5, ordering_required=True)
  assert one is not None
  assert reporter.running_count == 1
  assert reporter.total == 1

  one_fail = queue.get(ordering_required=True)
  assert one_fail is None

  time.sleep(1)
  queue.update_metrics()
  assert reporter.running_count == 0
  assert reporter.total == 1

  one_again = queue.get(ordering_required=True)
  assert one_again is not None
  assert reporter.running_count == 1
  assert reporter.total == 1

def test_alive(queue, reporter, transaction_factory):
  # No queue item = not alive.
  assert not queue.alive(['abc', 'def'])

  # Add a queue item.
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  assert queue.alive(['abc', 'def'])

  # Retrieve the queue item.
  queue_item = queue.get()
  assert queue_item is not None
  assert queue.alive(['abc', 'def'])

  # Make sure it is running by trying to retrieve it again.
  assert queue.get() is None

  # Delete the queue item.
  queue.complete(queue_item)
  assert not queue.alive(['abc', 'def'])

def test_specialized_queue(queue, reporter, transaction_factory):
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
  queue.put(['def', 'def'], TEST_MESSAGE_2, available_after=-1)

  my_queue = AutoUpdatingQueue(WorkQueue(QUEUE_NAME, transaction_factory, ['def']))

  two = my_queue.get(ordering_required=True)
  assert two is not None
  assert two.body == TEST_MESSAGE_2

  one_fail = my_queue.get(ordering_required=True)
  assert one_fail is None

  one = queue.get(ordering_required=True)
  assert one is not None
  assert one.body == TEST_MESSAGE_1

def test_random_queue_no_duplicates(queue, reporter, transaction_factory):
  for msg in TEST_MESSAGES:
    queue.put(['abc', 'def'], msg, available_after=-1)
  seen = set()

  for _ in range(1, 101):
    item = queue.get()
    json_body = json.loads(item.body)
    msg = str(json_body['data'])
    assert msg not in seen
    seen.add(msg)

  for body in TEST_MESSAGES:
    json_body = json.loads(body)
    msg = str(json_body['data'])
    assert msg in seen

def test_bulk_insert(queue, reporter, transaction_factory):
  assert reporter.currently_processing is None
  assert reporter.running_count is None
  assert reporter.total is None

  with queue.batch_insert() as queue_put:
    queue_put(['abc', 'def'], TEST_MESSAGE_1, available_after=-1)
    queue_put(['abc', 'def'], TEST_MESSAGE_2, available_after=-1)

  queue.update_metrics()
  assert not reporter.currently_processing
  assert reporter.running_count == 0
  assert reporter.total == 1

  with queue.batch_insert() as queue_put:
    queue_put(['abd', 'def'], TEST_MESSAGE_1, available_after=-1)
    queue_put(['abd', 'ghi'], TEST_MESSAGE_2, available_after=-1)

  queue.update_metrics()
  assert not reporter.currently_processing
  assert reporter.running_count == 0
  assert reporter.total == 3

def test_num_available_between(queue, reporter, transaction_factory):
  now = datetime.utcnow()
  queue.put(['abc', 'def'], TEST_MESSAGE_1, available_after=-10)
  queue.put(['abc', 'ghi'], TEST_MESSAGE_2, available_after=-5)

  # Partial results
  count = queue.num_available_jobs_between(now-timedelta(seconds=8), now, ['abc'])
  assert count == 1

  # All results
  count = queue.num_available_jobs_between(now-timedelta(seconds=20), now, ['/abc'])
  assert count == 2

  # No results
  count = queue.num_available_jobs_between(now, now, 'abc')
  assert count == 0

def test_incomplete(queue, reporter, transaction_factory):
  # Add an item.
  queue.put(['somenamespace', 'abc', 'def'], TEST_MESSAGE_1, available_after=-10)

  now = datetime.utcnow()
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 1

  # Retrieve it.
  item = queue.get()
  assert item is not None
  assert reporter.currently_processing

  # Mark it as incomplete.
  queue.incomplete(item, retry_after=-1)
  assert not reporter.currently_processing

  # Retrieve again to ensure it is once again available.
  same_item = queue.get()
  assert same_item is not None
  assert reporter.currently_processing

  assert item.id == same_item.id

def test_complete(queue, reporter, transaction_factory):
  # Add an item.
  queue.put(['somenamespace', 'abc', 'def'], TEST_MESSAGE_1, available_after=-10)

  now = datetime.utcnow()
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 1

  # Retrieve it.
  item = queue.get()
  assert item is not None
  assert reporter.currently_processing

  # Mark it as complete.
  queue.complete(item)
  assert not reporter.currently_processing

def test_cancel(queue, reporter, transaction_factory):
  # Add an item.
  queue.put(['somenamespace', 'abc', 'def'], TEST_MESSAGE_1, available_after=-10)
  queue.put(['somenamespace', 'abc', 'def'], TEST_MESSAGE_2, available_after=-5)

  now = datetime.utcnow()
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 2

  # Retrieve it.
  item = queue.get()
  assert item is not None

  # Make sure we can cancel it.
  assert queue.cancel(item.id)

  now = datetime.utcnow()
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 1

  # Make sure it is gone.
  assert not queue.cancel(item.id)

def test_deleted_namespaced_items(queue, reporter, transaction_factory):
  queue = AutoUpdatingQueue(WorkQueue(QUEUE_NAME, transaction_factory,
                                      reporter=reporter,
                                      has_namespace=True))

  queue.put(['somenamespace', 'abc', 'def'], TEST_MESSAGE_1, available_after=-10)
  queue.put(['somenamespace', 'abc', 'ghi'], TEST_MESSAGE_2, available_after=-5)
  queue.put(['anothernamespace', 'abc', 'def'], TEST_MESSAGE_1, available_after=-10)

  # Ensure we have 2 items under `somenamespace` and 1 item under `anothernamespace`.
  now = datetime.utcnow()
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 2

  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/anothernamespace'])
  assert count == 1

  # Delete all `somenamespace` items.
  queue.delete_namespaced_items('somenamespace')

  # Check the updated counts.
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 0

  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/anothernamespace'])
  assert count == 1

  # Delete all `anothernamespace` items.
  queue.delete_namespaced_items('anothernamespace')

  # Check the updated counts.
  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/somenamespace'])
  assert count == 0

  count = queue.num_available_jobs_between(now - timedelta(seconds=60), now, ['/anothernamespace'])
  assert count == 0