import uuid from datetime import datetime, timedelta from contextlib import contextmanager from data.database import QueueItem, db, db_for_update, db_random_func from util.morecollections import AttrDict from hashlib import sha256 MINIMUM_EXTENSION = timedelta(seconds=20) DEFAULT_BATCH_SIZE = 1000 class BuildMetricQueueReporter(object): """ Metric queue reporter for the build system. """ def __init__(self, metric_queue): self._metric_queue = metric_queue def __call__(self, currently_processing, running_count, total_count): need_capacity_count = total_count - running_count self._metric_queue.put_deprecated('BuildCapacityShortage', need_capacity_count, unit='Count') self._metric_queue.build_capacity_shortage.Set(need_capacity_count) building_percent = 100 if currently_processing else 0 self._metric_queue.percent_building.Set(building_percent) class WorkQueue(object): """ Work queue defines methods for interacting with a queue backed by the database. """ def __init__(self, queue_name, transaction_factory, canonical_name_match_list=None, reporter=None, metric_queue=None, has_namespace=False): self._queue_name = queue_name self._reporter = reporter self._metric_queue = metric_queue self._transaction_factory = transaction_factory self._currently_processing = False self._has_namespaced_items = has_namespace if canonical_name_match_list is None: self._canonical_name_match_list = [] else: self._canonical_name_match_list = canonical_name_match_list @staticmethod def _canonical_name(name_list): return '/'.join(name_list) + '/' @classmethod def _running_jobs(cls, now, name_match_query): return (cls ._running_jobs_where(QueueItem.select(QueueItem.queue_name), now) .where(QueueItem.queue_name ** name_match_query)) @classmethod def _available_jobs(cls, now, name_match_query): return (cls ._available_jobs_where(QueueItem.select(), now) .where(QueueItem.queue_name ** name_match_query)) @staticmethod def _running_jobs_where(query, now): return query.where(QueueItem.available == False, QueueItem.processing_expires > now) @staticmethod def _available_jobs_where(query, now): return query.where(QueueItem.available_after <= now, ((QueueItem.available == True) | (QueueItem.processing_expires <= now)), QueueItem.retries_remaining > 0) @classmethod def _available_jobs_not_running(cls, now, name_match_query, running_query): return (cls ._available_jobs(now, name_match_query) .where(~(QueueItem.queue_name << running_query))) def num_available_jobs_between(self, available_min_time, available_max_time, canonical_name_list): """ Returns the number of available queue items with a given prefix, between the two provided times. """ def strip_slash(name): return name.lstrip('/') canonical_name_list = map(strip_slash, canonical_name_list) available = self._available_jobs(available_max_time, '/'.join([self._queue_name] + canonical_name_list) + '%') return available.where(QueueItem.available_after >= available_min_time).count() def _name_match_query(self): return '%s%%' % self._canonical_name([self._queue_name] + self._canonical_name_match_list) @staticmethod def _item_by_id_for_update(queue_id): return db_for_update(QueueItem.select().where(QueueItem.id == queue_id)).get() def get_metrics(self): now = datetime.utcnow() name_match_query = self._name_match_query() running_query = self._running_jobs(now, name_match_query) running_count = running_query.distinct().count() available_query = self._available_jobs(now, name_match_query) available_count = available_query.select(QueueItem.queue_name).distinct().count() available_not_running_query = self._available_jobs_not_running(now, name_match_query, running_query) available_not_running_count = (available_not_running_query .select(QueueItem.queue_name) .distinct() .count()) return (running_count, available_not_running_count, available_count) def update_metrics(self): if self._reporter is None and self._metric_queue is None: return (running_count, available_not_running_count, available_count) = self.get_metrics() if self._metric_queue: dim = {'queue': self._queue_name} self._metric_queue.work_queue_running.Set(running_count, labelvalues=[self._queue_name]) self._metric_queue.work_queue_available.Set(available_count, labelvalues=[self._queue_name]) if self._reporter: self._reporter(self._currently_processing, running_count, running_count + available_not_running_count) def has_retries_remaining(self, item_id): """ Returns whether the queue item with the given id has any retries remaining. If the queue item does not exist, returns False. """ with self._transaction_factory(db): try: return QueueItem.get(id=item_id).retries_remaining > 0 except QueueItem.DoesNotExist: return False def delete_namespaced_items(self, namespace, subpath=None): """ Deletes all items in this queue that exist under the given namespace. """ if not self._has_namespaced_items: return False subpath_query = '%s/' % subpath if subpath else '' queue_prefix = '%s/%s/%s%%' % (self._queue_name, namespace, subpath_query) return QueueItem.delete().where(QueueItem.queue_name ** queue_prefix).execute() def alive(self, canonical_name_list): """ Returns True if a job matching the canonical name list is currently processing or available. """ canonical_name = self._canonical_name([self._queue_name] + canonical_name_list) try: select_query = QueueItem.select().where(QueueItem.queue_name == canonical_name) now = datetime.utcnow() overall_query = (self._available_jobs_where(select_query.clone(), now) | self._running_jobs_where(select_query.clone(), now)) overall_query.get() return True except QueueItem.DoesNotExist: return False def _queue_dict(self, canonical_name_list, message, available_after, retries_remaining): return dict( queue_name=self._canonical_name([self._queue_name] + canonical_name_list), body=message, retries_remaining=retries_remaining, available_after=datetime.utcnow() + timedelta(seconds=available_after or 0), ) @contextmanager def batch_insert(self, batch_size=DEFAULT_BATCH_SIZE): items_to_insert = [] def batch_put(canonical_name_list, message, available_after=0, retries_remaining=5): """ Put an item, if it shouldn't be processed for some number of seconds, specify that amount as available_after. Returns the ID of the queue item added. """ items_to_insert.append(self._queue_dict(canonical_name_list, message, available_after, retries_remaining)) yield batch_put # Chunk the inserted items into batch_size chunks and insert_many remaining = list(items_to_insert) while remaining: QueueItem.insert_many(remaining[0:batch_size]).execute() remaining = remaining[batch_size:] def put(self, canonical_name_list, message, available_after=0, retries_remaining=5): """ Put an item, if it shouldn't be processed for some number of seconds, specify that amount as available_after. Returns the ID of the queue item added. """ item = QueueItem.create(**self._queue_dict(canonical_name_list, message, available_after, retries_remaining)) return str(item.id) def _select_available_item(self, ordering_required, now): """ Selects an available queue item from the queue table and returns it, if any. If none, return None. """ name_match_query = self._name_match_query() try: if ordering_required: # The previous solution to this used a select for update in a # transaction to prevent multiple instances from processing the # same queue item. This suffered performance problems. This solution # instead has instances attempt to update the potential queue item to be # unavailable. However, since their update clause is restricted to items # that are available=False, only one instance's update will succeed, and # it will have a changed row count of 1. Instances that have 0 changed # rows know that another instance is already handling that item. running = self._running_jobs(now, name_match_query) avail = self._available_jobs_not_running(now, name_match_query, running) return avail.order_by(QueueItem.id).get() else: # If we don't require ordering, we grab a random item from any of the first 50 available. subquery = self._available_jobs(now, name_match_query).limit(50).alias('j1') return (QueueItem .select() .join(subquery, on=QueueItem.id == subquery.c.id) .order_by(db_random_func()) .get()) except QueueItem.DoesNotExist: # No available queue item was found. return None def _attempt_to_claim_item(self, db_item, now, processing_time): """ Attempts to claim the specified queue item for this instance. Returns True on success and False on failure. Note that the underlying QueueItem row in the database will be changed on success, but the db_item object given as a parameter will *not* have its fields updated. """ # Try to claim the item. We do so by updating the item's information only if its current # state ID matches that returned in the previous query. Since all updates to the QueueItem # must change the state ID, this is guarenteed to only succeed if the item has not yet been # claimed by another caller. # # Note that we use this method because InnoDB takes locks on *every* clause in the WHERE when # performing the update. Previously, we would check all these columns, resulting in a bunch # of lock contention. This change mitigates the problem significantly by only checking two # columns (id and state_id), both of which should be absolutely unique at all times. set_unavailable_query = (QueueItem .update(available=False, processing_expires=now + timedelta(seconds=processing_time), retries_remaining=QueueItem.retries_remaining - 1, state_id=str(uuid.uuid4())) .where(QueueItem.id == db_item.id, QueueItem.state_id == db_item.state_id)) changed = set_unavailable_query.execute() return changed == 1 def get(self, processing_time=300, ordering_required=False): """ Get an available item and mark it as unavailable for the default of five minutes. The result of this method must always be composed of simple python objects which are JSON serializable for network portability reasons. """ now = datetime.utcnow() # Select an available queue item. db_item = self._select_available_item(ordering_required, now) if db_item is None: self._currently_processing = False return None # Attempt to claim the item for this instance. was_claimed = self._attempt_to_claim_item(db_item, now, processing_time) if not was_claimed: self._currently_processing = False return None self._currently_processing = True # Return a view of the queue item rather than an active db object return AttrDict({ 'id': db_item.id, 'body': db_item.body, 'retries_remaining': db_item.retries_remaining - 1, }) def cancel(self, item_id): """ Attempts to cancel the queue item with the given ID from the queue. Returns true on success and false if the queue item could not be canceled. """ count_removed = QueueItem.delete().where(QueueItem.id == item_id).execute() return count_removed > 0 def complete(self, completed_item): self._currently_processing = not self.cancel(completed_item.id) def incomplete(self, incomplete_item, retry_after=300, restore_retry=False): with self._transaction_factory(db): retry_date = datetime.utcnow() + timedelta(seconds=retry_after) try: incomplete_item_obj = self._item_by_id_for_update(incomplete_item.id) incomplete_item_obj.available_after = retry_date incomplete_item_obj.available = True if restore_retry: incomplete_item_obj.retries_remaining += 1 incomplete_item_obj.save() self._currently_processing = False return incomplete_item_obj.retries_remaining > 0 except QueueItem.DoesNotExist: return False def extend_processing(self, item, seconds_from_now, minimum_extension=MINIMUM_EXTENSION, updated_data=None): with self._transaction_factory(db): try: queue_item = self._item_by_id_for_update(item.id) new_expiration = datetime.utcnow() + timedelta(seconds=seconds_from_now) has_change = False # Only actually write the new expiration to the db if it moves the expiration some minimum if new_expiration - queue_item.processing_expires > minimum_extension: queue_item.processing_expires = new_expiration has_change = True if updated_data is not None and queue_item.body != updated_data: queue_item.body = updated_data has_change = True if has_change: queue_item.save() return has_change except QueueItem.DoesNotExist: return False def delete_expired(expiration_threshold, deletion_threshold, batch_size): """ Deletes all queue items that are older than the provided expiration threshold in batches of the provided size. If there are less items than the deletion threshold, this method does nothing. Returns the number of items deleted. """ to_delete = list(QueueItem .select() .where(QueueItem.processing_expires <= expiration_threshold) .limit(batch_size)) if len(to_delete) < deletion_threshold: return 0 QueueItem.delete().where(QueueItem.id << to_delete).execute() return len(to_delete)