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	diff --git a/swh/scheduler/backend.py b/swh/scheduler/backend.py
	index 77f6941..bf4a573 100644
	--- a/swh/scheduler/backend.py
	+++ b/swh/scheduler/backend.py
	@@ -1,1024 +1,1034 @@
	# Copyright (C) 2015-2021 The Software Heritage developers
	# See the AUTHORS file at the top-level directory of this distribution
	# License: GNU General Public License version 3, or any later version
	# See top-level LICENSE file for more information

	import datetime
	import json
	import logging
	from typing import Any, Dict, Iterable, List, Optional, Tuple, Union
	from uuid import UUID

	import attr
	from psycopg2.errors import CardinalityViolation
	import psycopg2.extras
	import psycopg2.pool

	from swh.core.db import BaseDb
	from swh.core.db.common import db_transaction
	from swh.scheduler.utils import utcnow

	from .exc import SchedulerException, StaleData, UnknownPolicy
	from .interface import ListedOriginPageToken, PaginatedListedOriginList
	from .model import ListedOrigin, Lister, OriginVisitStats, SchedulerMetrics

	logger = logging.getLogger(__name__)


	psycopg2.extensions.register_adapter(dict, psycopg2.extras.Json)
	psycopg2.extras.register_uuid()


	def format_query(query, keys):
	"""Format a query with the given keys"""

	query_keys = ", ".join(keys)
	placeholders = ", ".join(["%s"] * len(keys))

	return query.format(keys=query_keys, placeholders=placeholders)


	class SchedulerBackend:
	"""Backend for the Software Heritage scheduling database.

	"""

	def __init__(self, db, min_pool_conns=1, max_pool_conns=10):
	"""
	Args:
	db_conn: either a libpq connection string, or a psycopg2 connection

	"""
	if isinstance(db, psycopg2.extensions.connection):
	self._pool = None
	self._db = BaseDb(db)
	else:
	self._pool = psycopg2.pool.ThreadedConnectionPool(
	min_pool_conns,
	max_pool_conns,
	db,
	cursor_factory=psycopg2.extras.RealDictCursor,
	)
	self._db = None

	def get_db(self):
	if self._db:
	return self._db
	return BaseDb.from_pool(self._pool)

	def put_db(self, db):
	if db is not self._db:
	db.put_conn()

	task_type_keys = [
	"type",
	"description",
	"backend_name",
	"default_interval",
	"min_interval",
	"max_interval",
	"backoff_factor",
	"max_queue_length",
	"num_retries",
	"retry_delay",
	]

	@db_transaction()
	def create_task_type(self, task_type, db=None, cur=None):
	"""Create a new task type ready for scheduling.

	Args:
	task_type (dict): a dictionary with the following keys:

	- type (str): an identifier for the task type
	- description (str): a human-readable description of what the
	task does
	- backend_name (str): the name of the task in the
	job-scheduling backend
	- default_interval (datetime.timedelta): the default interval
	between two task runs
	- min_interval (datetime.timedelta): the minimum interval
	between two task runs
	- max_interval (datetime.timedelta): the maximum interval
	between two task runs
	- backoff_factor (float): the factor by which the interval
	changes at each run
	- max_queue_length (int): the maximum length of the task queue
	for this task type

	"""
	keys = [key for key in self.task_type_keys if key in task_type]
	query = format_query(
	"""insert into task_type ({keys}) values ({placeholders})
	on conflict do nothing""",
	keys,
	)
	cur.execute(query, [task_type[key] for key in keys])

	@db_transaction()
	def get_task_type(self, task_type_name, db=None, cur=None):
	"""Retrieve the task type with id task_type_name"""
	query = format_query(
	"select {keys} from task_type where type=%s", self.task_type_keys,
	)
	cur.execute(query, (task_type_name,))
	return cur.fetchone()

	@db_transaction()
	def get_task_types(self, db=None, cur=None):
	"""Retrieve all registered task types"""
	query = format_query("select {keys} from task_type", self.task_type_keys,)
	cur.execute(query)
	return cur.fetchall()

	@db_transaction()
	def get_listers(self, db=None, cur=None) -> List[Lister]:
	"""Retrieve information about all listers from the database.
	"""

	select_cols = ", ".join(Lister.select_columns())

	query = f"""
	select {select_cols} from listers
	"""

	cur.execute(query)

	return [Lister(**ret) for ret in cur.fetchall()]

	@db_transaction()
	def get_lister(
	self, name: str, instance_name: Optional[str] = None, db=None, cur=None
	) -> Optional[Lister]:
	"""Retrieve information about the given instance of the lister from the
	database.
	"""
	if instance_name is None:
	instance_name = ""

	select_cols = ", ".join(Lister.select_columns())

	query = f"""
	select {select_cols} from listers
	where (name, instance_name) = (%s, %s)
	"""

	cur.execute(query, (name, instance_name))

	ret = cur.fetchone()
	if not ret:
	return None

	return Lister(**ret)

	@db_transaction()
	def get_or_create_lister(
	self, name: str, instance_name: Optional[str] = None, db=None, cur=None
	) -> Lister:
	"""Retrieve information about the given instance of the lister from the
	database, or create the entry if it did not exist.
	"""

	if instance_name is None:
	instance_name = ""

	select_cols = ", ".join(Lister.select_columns())
	insert_cols, insert_meta = (
	", ".join(tup) for tup in Lister.insert_columns_and_metavars()
	)

	query = f"""
	with added as (
	insert into listers ({insert_cols}) values ({insert_meta})
	on conflict do nothing
	returning {select_cols}
	)
	select {select_cols} from added
	union all
	select {select_cols} from listers
	where (name, instance_name) = (%(name)s, %(instance_name)s);
	"""

	cur.execute(query, attr.asdict(Lister(name=name, instance_name=instance_name)))

	return Lister(**cur.fetchone())

	@db_transaction()
	def update_lister(self, lister: Lister, db=None, cur=None) -> Lister:
	"""Update the state for the given lister instance in the database.

	Returns:
	a new Lister object, with all fields updated from the database

	Raises:
	StaleData if the `updated` timestamp for the lister instance in
	database doesn't match the one passed by the user.
	"""

	select_cols = ", ".join(Lister.select_columns())
	set_vars = ", ".join(
	f"{col} = {meta}"
	for col, meta in zip(*Lister.insert_columns_and_metavars())
	)

	query = f"""update listers
	set {set_vars}
	where id=%(id)s and updated=%(updated)s
	returning {select_cols}"""

	cur.execute(query, attr.asdict(lister))
	updated = cur.fetchone()

	if not updated:
	raise StaleData("Stale data; Lister state not updated")

	return Lister(**updated)

	@db_transaction()
	def record_listed_origins(
	self, listed_origins: Iterable[ListedOrigin], db=None, cur=None
	) -> List[ListedOrigin]:
	"""Record a set of origins that a lister has listed.

	This performs an "upsert": origins with the same (lister_id, url,
	visit_type) values are updated with new values for
	extra_loader_arguments, last_update and last_seen.
	"""

	pk_cols = ListedOrigin.primary_key_columns()
	select_cols = ListedOrigin.select_columns()
	insert_cols, insert_meta = ListedOrigin.insert_columns_and_metavars()

	upsert_cols = [col for col in insert_cols if col not in pk_cols]
	upsert_set = ", ".join(f"{col} = EXCLUDED.{col}" for col in upsert_cols)

	query = f"""INSERT into listed_origins ({", ".join(insert_cols)})
	VALUES %s
	ON CONFLICT ({", ".join(pk_cols)}) DO UPDATE
	SET {upsert_set}
	RETURNING {", ".join(select_cols)}
	"""

	ret = psycopg2.extras.execute_values(
	cur=cur,
	sql=query,
	argslist=(attr.asdict(origin) for origin in listed_origins),
	template=f"({', '.join(insert_meta)})",
	page_size=1000,
	fetch=True,
	)

	return [ListedOrigin(**d) for d in ret]

	@db_transaction()
	def get_listed_origins(
	self,
	lister_id: Optional[UUID] = None,
	url: Optional[str] = None,
	limit: int = 1000,
	page_token: Optional[ListedOriginPageToken] = None,
	db=None,
	cur=None,
	) -> PaginatedListedOriginList:
	"""Get information on the listed origins matching either the `url` or
	`lister_id`, or both arguments.
	"""

	query_filters: List[str] = []
	query_params: List[Union[int, str, UUID, Tuple[UUID, str]]] = []

	if lister_id:
	query_filters.append("lister_id = %s")
	query_params.append(lister_id)

	if url is not None:
	query_filters.append("url = %s")
	query_params.append(url)

	if page_token is not None:
	query_filters.append("(lister_id, url) > %s")
	# the typeshed annotation for tuple() is too strict.
	query_params.append(tuple(page_token)) # type: ignore

	query_params.append(limit)

	select_cols = ", ".join(ListedOrigin.select_columns())
	if query_filters:
	where_clause = "where %s" % (" and ".join(query_filters))
	else:
	where_clause = ""

	query = f"""SELECT {select_cols}
	from listed_origins
	{where_clause}
	ORDER BY lister_id, url
	LIMIT %s"""

	cur.execute(query, tuple(query_params))
	origins = [ListedOrigin(**d) for d in cur]

	if len(origins) == limit:
	page_token = (str(origins[-1].lister_id), origins[-1].url)
	else:
	page_token = None

	return PaginatedListedOriginList(origins, page_token)

	@db_transaction()
	def grab_next_visits(
	self,
	visit_type: str,
	count: int,
	policy: str,
	timestamp: Optional[datetime.datetime] = None,
	scheduled_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=7),
	failed_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=14),
	+ notfound_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=31),
	db=None,
	cur=None,
	) -> List[ListedOrigin]:
	if timestamp is None:
	timestamp = utcnow()

	origin_select_cols = ", ".join(ListedOrigin.select_columns())

	query_args: List[Any] = []

	where_clauses = []

	# "NOT enabled" = the lister said the origin no longer exists
	where_clauses.append("enabled")

	# Only schedule visits of the given type
	where_clauses.append("visit_type = %s")
	query_args.append(visit_type)

	if scheduled_cooldown:
	# Don't re-schedule visits if they're already scheduled but we haven't
	# recorded a result yet, unless they've been scheduled more than a week
	# ago (it probably means we've lost them in flight somewhere).
	where_clauses.append(
	"""origin_visit_stats.last_scheduled IS NULL
	OR origin_visit_stats.last_scheduled < GREATEST(
	%s - %s,
	origin_visit_stats.last_eventful,
	origin_visit_stats.last_uneventful,
	origin_visit_stats.last_failed,
	origin_visit_stats.last_notfound
	)
	"""
	)
	query_args.append(timestamp)
	query_args.append(scheduled_cooldown)

	if failed_cooldown:
	# Don't retry failed origins too often
	where_clauses.append(
	"origin_visit_stats.last_failed is null "
	"or origin_visit_stats.last_failed < %s - %s"
	)
	query_args.append(timestamp)
	query_args.append(failed_cooldown)

	+ if notfound_cooldown:
	+ # Don't retry not found origins too often
	+ where_clauses.append(
	+ "origin_visit_stats.last_notfound is null "
	+ "or origin_visit_stats.last_notfound < %s - %s"
	+ )
	+ query_args.append(timestamp)
	+ query_args.append(notfound_cooldown)
	+
	if policy == "oldest_scheduled_first":
	order_by = "origin_visit_stats.last_scheduled NULLS FIRST"
	elif policy == "never_visited_oldest_update_first":
	# never visited origins have a NULL last_snapshot
	where_clauses.append("origin_visit_stats.last_snapshot IS NULL")

	# order by increasing last_update (oldest first)
	where_clauses.append("listed_origins.last_update IS NOT NULL")
	order_by = "listed_origins.last_update"
	elif policy == "already_visited_order_by_lag":
	# TODO: store "visit lag" in a materialized view?

	# visited origins have a NOT NULL last_snapshot
	where_clauses.append("origin_visit_stats.last_snapshot IS NOT NULL")

	# ignore origins we have visited after the known last update
	where_clauses.append("listed_origins.last_update IS NOT NULL")
	where_clauses.append(
	"""
	listed_origins.last_update
	> GREATEST(
	origin_visit_stats.last_eventful,
	origin_visit_stats.last_uneventful
	)
	"""
	)

	# order by decreasing visit lag
	order_by = """\
	listed_origins.last_update
	- GREATEST(
	origin_visit_stats.last_eventful,
	origin_visit_stats.last_uneventful
	)
	DESC
	"""
	else:
	raise UnknownPolicy(f"Unknown scheduling policy {policy}")

	select_query = f"""
	SELECT
	{origin_select_cols}
	FROM
	listed_origins
	LEFT JOIN
	origin_visit_stats USING (url, visit_type)
	WHERE
	({") AND (".join(where_clauses)})
	ORDER BY
	{order_by}
	LIMIT %s
	"""
	query_args.append(count)

	query = f"""
	WITH selected_origins AS (
	{select_query}
	),
	update_stats AS (
	INSERT INTO
	origin_visit_stats (
	url, visit_type, last_scheduled
	)
	SELECT
	url, visit_type, %s
	FROM
	selected_origins
	ON CONFLICT (url, visit_type) DO UPDATE
	SET last_scheduled = GREATEST(
	origin_visit_stats.last_scheduled,
	EXCLUDED.last_scheduled
	)
	)
	SELECT
	*
	FROM
	selected_origins
	"""
	query_args.append(timestamp)

	cur.execute(query, tuple(query_args))
	return [ListedOrigin(**d) for d in cur]

	task_create_keys = [
	"type",
	"arguments",
	"next_run",
	"policy",
	"status",
	"retries_left",
	"priority",
	]
	task_keys = task_create_keys + ["id", "current_interval"]

	@db_transaction()
	def create_tasks(self, tasks, policy="recurring", db=None, cur=None):
	"""Create new tasks.

	Args:
	tasks (list): each task is a dictionary with the following keys:

	- type (str): the task type
	- arguments (dict): the arguments for the task runner, keys:

	- args (list of str): arguments
	- kwargs (dict str -> str): keyword arguments

	- next_run (datetime.datetime): the next scheduled run for the
	task

	Returns:
	a list of created tasks.

	"""
	cur.execute("select swh_scheduler_mktemp_task()")
	db.copy_to(
	tasks,
	"tmp_task",
	self.task_create_keys,
	default_values={"policy": policy, "status": "next_run_not_scheduled"},
	cur=cur,
	)
	query = format_query(
	"select {keys} from swh_scheduler_create_tasks_from_temp()", self.task_keys,
	)
	cur.execute(query)
	return cur.fetchall()

	@db_transaction()
	def set_status_tasks(
	self,
	task_ids: List[int],
	status: str = "disabled",
	next_run: Optional[datetime.datetime] = None,
	db=None,
	cur=None,
	):
	"""Set the tasks' status whose ids are listed.

	If given, also set the next_run date.
	"""
	if not task_ids:
	return
	query = ["UPDATE task SET status = %s"]
	args: List[Any] = [status]
	if next_run:
	query.append(", next_run = %s")
	args.append(next_run)
	query.append(" WHERE id IN %s")
	args.append(tuple(task_ids))

	cur.execute("".join(query), args)

	@db_transaction()
	def disable_tasks(self, task_ids, db=None, cur=None):
	"""Disable the tasks whose ids are listed."""
	return self.set_status_tasks(task_ids, db=db, cur=cur)

	@db_transaction()
	def search_tasks(
	self,
	task_id=None,
	task_type=None,
	status=None,
	priority=None,
	policy=None,
	before=None,
	after=None,
	limit=None,
	db=None,
	cur=None,
	):
	"""Search tasks from selected criterions"""
	where = []
	args = []

	if task_id:
	if isinstance(task_id, (str, int)):
	where.append("id = %s")
	else:
	where.append("id in %s")
	task_id = tuple(task_id)
	args.append(task_id)
	if task_type:
	if isinstance(task_type, str):
	where.append("type = %s")
	else:
	where.append("type in %s")
	task_type = tuple(task_type)
	args.append(task_type)
	if status:
	if isinstance(status, str):
	where.append("status = %s")
	else:
	where.append("status in %s")
	status = tuple(status)
	args.append(status)
	if priority:
	if isinstance(priority, str):
	where.append("priority = %s")
	else:
	priority = tuple(priority)
	where.append("priority in %s")
	args.append(priority)
	if policy:
	where.append("policy = %s")
	args.append(policy)
	if before:
	where.append("next_run <= %s")
	args.append(before)
	if after:
	where.append("next_run >= %s")
	args.append(after)

	query = "select * from task"
	if where:
	query += " where " + " and ".join(where)
	if limit:
	query += " limit %s :: bigint"
	args.append(limit)
	cur.execute(query, args)
	return cur.fetchall()

	@db_transaction()
	def get_tasks(self, task_ids, db=None, cur=None):
	"""Retrieve the info of tasks whose ids are listed."""
	query = format_query("select {keys} from task where id in %s", self.task_keys)
	cur.execute(query, (tuple(task_ids),))
	return cur.fetchall()

	@db_transaction()
	def peek_ready_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	db=None,
	cur=None,
	) -> List[Dict]:
	if timestamp is None:
	timestamp = utcnow()

	cur.execute(
	"""select * from swh_scheduler_peek_no_priority_tasks(
	%s, %s, %s :: bigint)""",
	(task_type, timestamp, num_tasks),
	)
	logger.debug("PEEK %s => %s" % (task_type, cur.rowcount))
	return cur.fetchall()

	@db_transaction()
	def grab_ready_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	db=None,
	cur=None,
	) -> List[Dict]:
	if timestamp is None:
	timestamp = utcnow()
	cur.execute(
	"""select * from swh_scheduler_grab_ready_tasks(
	%s, %s, %s :: bigint)""",
	(task_type, timestamp, num_tasks),
	)
	logger.debug("GRAB %s => %s" % (task_type, cur.rowcount))
	return cur.fetchall()

	@db_transaction()
	def peek_ready_priority_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	db=None,
	cur=None,
	) -> List[Dict]:
	if timestamp is None:
	timestamp = utcnow()

	cur.execute(
	"""select * from swh_scheduler_peek_any_ready_priority_tasks(
	%s, %s, %s :: bigint)""",
	(task_type, timestamp, num_tasks),
	)
	logger.debug("PEEK %s => %s", task_type, cur.rowcount)
	return cur.fetchall()

	@db_transaction()
	def grab_ready_priority_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	db=None,
	cur=None,
	) -> List[Dict]:
	if timestamp is None:
	timestamp = utcnow()
	cur.execute(
	"""select * from swh_scheduler_grab_any_ready_priority_tasks(
	%s, %s, %s :: bigint)""",
	(task_type, timestamp, num_tasks),
	)
	logger.debug("GRAB %s => %s", task_type, cur.rowcount)
	return cur.fetchall()

	task_run_create_keys = ["task", "backend_id", "scheduled", "metadata"]

	@db_transaction()
	def schedule_task_run(
	self, task_id, backend_id, metadata=None, timestamp=None, db=None, cur=None
	):
	"""Mark a given task as scheduled, adding a task_run entry in the database.

	Args:
	task_id (int): the identifier for the task being scheduled
	backend_id (str): the identifier of the job in the backend
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	a fresh task_run entry

	"""

	if metadata is None:
	metadata = {}

	if timestamp is None:
	timestamp = utcnow()

	cur.execute(
	"select * from swh_scheduler_schedule_task_run(%s, %s, %s, %s)",
	(task_id, backend_id, metadata, timestamp),
	)

	return cur.fetchone()

	@db_transaction()
	def mass_schedule_task_runs(self, task_runs, db=None, cur=None):
	"""Schedule a bunch of task runs.

	Args:
	task_runs (list): a list of dicts with keys:

	- task (int): the identifier for the task being scheduled
	- backend_id (str): the identifier of the job in the backend
	- metadata (dict): metadata to add to the task_run entry
	- scheduled (datetime.datetime): the instant the event occurred

	Returns:
	None
	"""
	cur.execute("select swh_scheduler_mktemp_task_run()")
	db.copy_to(task_runs, "tmp_task_run", self.task_run_create_keys, cur=cur)
	cur.execute("select swh_scheduler_schedule_task_run_from_temp()")

	@db_transaction()
	def start_task_run(
	self, backend_id, metadata=None, timestamp=None, db=None, cur=None
	):
	"""Mark a given task as started, updating the corresponding task_run
	entry in the database.

	Args:
	backend_id (str): the identifier of the job in the backend
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	the updated task_run entry

	"""

	if metadata is None:
	metadata = {}

	if timestamp is None:
	timestamp = utcnow()

	cur.execute(
	"select * from swh_scheduler_start_task_run(%s, %s, %s)",
	(backend_id, metadata, timestamp),
	)

	return cur.fetchone()

	@db_transaction()
	def end_task_run(
	self,
	backend_id,
	status,
	metadata=None,
	timestamp=None,
	result=None,
	db=None,
	cur=None,
	):
	"""Mark a given task as ended, updating the corresponding task_run entry in the
	database.

	Args:
	backend_id (str): the identifier of the job in the backend
	status (str): how the task ended; one of: 'eventful', 'uneventful',
	'failed'
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	the updated task_run entry

	"""

	if metadata is None:
	metadata = {}

	if timestamp is None:
	timestamp = utcnow()

	cur.execute(
	"select * from swh_scheduler_end_task_run(%s, %s, %s, %s)",
	(backend_id, status, metadata, timestamp),
	)
	return cur.fetchone()

	@db_transaction()
	def filter_task_to_archive(
	self,
	after_ts: str,
	before_ts: str,
	limit: int = 10,
	page_token: Optional[str] = None,
	db=None,
	cur=None,
	) -> Dict[str, Any]:
	"""Compute the tasks to archive within the datetime interval
	[after_ts, before_ts[. The method returns a paginated result.

	Returns:
	dict with the following keys:
	- next_page_token: opaque token to be used as
	`page_token` to retrieve the next page of result. If absent,
	there is no more pages to gather.
	- tasks: list of task dictionaries with the following keys:

	id (str): origin task id
	started (Optional[datetime]): started date
	scheduled (datetime): scheduled date
	arguments (json dict): task's arguments
	...

	"""
	assert not page_token or isinstance(page_token, str)
	last_id = -1 if page_token is None else int(page_token)
	tasks = []
	cur.execute(
	"select * from swh_scheduler_task_to_archive(%s, %s, %s, %s)",
	(after_ts, before_ts, last_id, limit + 1),
	)
	for row in cur:
	task = dict(row)
	# nested type index does not accept bare values
	# transform it as a dict to comply with this
	task["arguments"]["args"] = {
	i: v for i, v in enumerate(task["arguments"]["args"])
	}
	kwargs = task["arguments"]["kwargs"]
	task["arguments"]["kwargs"] = json.dumps(kwargs)
	tasks.append(task)

	if len(tasks) >= limit + 1: # remains data, add pagination information
	result = {
	"tasks": tasks[:limit],
	"next_page_token": str(tasks[-1]["task_id"]),
	}
	else:
	result = {"tasks": tasks}

	return result

	@db_transaction()
	def delete_archived_tasks(self, task_ids, db=None, cur=None):
	"""Delete archived tasks as much as possible. Only the task_ids whose
	complete associated task_run have been cleaned up will be.

	"""
	_task_ids = _task_run_ids = []
	for task_id in task_ids:
	_task_ids.append(task_id["task_id"])
	_task_run_ids.append(task_id["task_run_id"])

	cur.execute(
	"select * from swh_scheduler_delete_archived_tasks(%s, %s)",
	(_task_ids, _task_run_ids),
	)

	task_run_keys = [
	"id",
	"task",
	"backend_id",
	"scheduled",
	"started",
	"ended",
	"metadata",
	"status",
	]

	@db_transaction()
	def get_task_runs(self, task_ids, limit=None, db=None, cur=None):
	"""Search task run for a task id"""
	where = []
	args = []

	if task_ids:
	if isinstance(task_ids, (str, int)):
	where.append("task = %s")
	else:
	where.append("task in %s")
	task_ids = tuple(task_ids)
	args.append(task_ids)
	else:
	return ()

	query = "select * from task_run where " + " and ".join(where)
	if limit:
	query += " limit %s :: bigint"
	args.append(limit)
	cur.execute(query, args)
	return cur.fetchall()

	@db_transaction()
	def origin_visit_stats_upsert(
	self, origin_visit_stats: Iterable[OriginVisitStats], db=None, cur=None
	) -> None:
	pk_cols = OriginVisitStats.primary_key_columns()
	insert_cols, insert_meta = OriginVisitStats.insert_columns_and_metavars()

	query = f"""
	INSERT into origin_visit_stats AS ovi ({", ".join(insert_cols)})
	VALUES %s
	ON CONFLICT ({", ".join(pk_cols)}) DO UPDATE
	SET last_eventful = coalesce(excluded.last_eventful, ovi.last_eventful),
	last_uneventful = coalesce(excluded.last_uneventful, ovi.last_uneventful),
	last_failed = coalesce(excluded.last_failed, ovi.last_failed),
	last_notfound = coalesce(excluded.last_notfound, ovi.last_notfound),
	last_snapshot = coalesce(excluded.last_snapshot, ovi.last_snapshot)
	""" # noqa

	try:
	psycopg2.extras.execute_values(
	cur=cur,
	sql=query,
	argslist=(
	attr.asdict(visit_stats) for visit_stats in origin_visit_stats
	),
	template=f"({', '.join(insert_meta)})",
	page_size=1000,
	fetch=False,
	)
	except CardinalityViolation as e:
	raise SchedulerException(repr(e))

	@db_transaction()
	def origin_visit_stats_get(
	self, ids: Iterable[Tuple[str, str]], db=None, cur=None
	) -> List[OriginVisitStats]:
	if not ids:
	return []
	primary_keys = tuple((origin, visit_type) for (origin, visit_type) in ids)
	query = format_query(
	"""
	SELECT {keys}
	FROM (VALUES %s) as stats(url, visit_type)
	INNER JOIN origin_visit_stats USING (url, visit_type)
	""",
	OriginVisitStats.select_columns(),
	)
	rows = psycopg2.extras.execute_values(
	cur=cur, sql=query, argslist=primary_keys, fetch=True
	)
	return [OriginVisitStats(**row) for row in rows]

	@db_transaction()
	def update_metrics(
	self,
	lister_id: Optional[UUID] = None,
	timestamp: Optional[datetime.datetime] = None,
	db=None,
	cur=None,
	) -> List[SchedulerMetrics]:
	"""Update the performance metrics of this scheduler instance.

	Returns the updated metrics.

	Args:
	lister_id: if passed, update the metrics only for this lister instance
	timestamp: if passed, the date at which we're updating the metrics,
	defaults to the database NOW()
	"""
	query = format_query(
	"SELECT {keys} FROM update_metrics(%s, %s)",
	SchedulerMetrics.select_columns(),
	)
	cur.execute(query, (lister_id, timestamp))
	return [SchedulerMetrics(**row) for row in cur.fetchall()]

	@db_transaction()
	def get_metrics(
	self,
	lister_id: Optional[UUID] = None,
	visit_type: Optional[str] = None,
	db=None,
	cur=None,
	) -> List[SchedulerMetrics]:
	"""Retrieve the performance metrics of this scheduler instance.

	Args:
	lister_id: filter the metrics for this lister instance only
	visit_type: filter the metrics for this visit type only
	"""

	where_filters = []
	where_args = []
	if lister_id:
	where_filters.append("lister_id = %s")
	where_args.append(str(lister_id))
	if visit_type:
	where_filters.append("visit_type = %s")
	where_args.append(visit_type)

	where_clause = ""
	if where_filters:
	where_clause = f"where {' and '.join(where_filters)}"

	query = format_query(
	"SELECT {keys} FROM scheduler_metrics %s" % where_clause,
	SchedulerMetrics.select_columns(),
	)

	cur.execute(query, tuple(where_args))
	return [SchedulerMetrics(**row) for row in cur.fetchall()]
	diff --git a/swh/scheduler/interface.py b/swh/scheduler/interface.py
	index 9f53ac8..0917095 100644
	--- a/swh/scheduler/interface.py
	+++ b/swh/scheduler/interface.py
	@@ -1,467 +1,470 @@
	# Copyright (C) 2015-2021 The Software Heritage developers
	# See the AUTHORS file at the top-level directory of this distribution
	# License: GNU General Public License version 3, or any later version
	# See top-level LICENSE file for more information


	import datetime
	from typing import Any, Dict, Iterable, List, Optional, Tuple, Union
	from uuid import UUID

	from typing_extensions import Protocol, runtime_checkable

	from swh.core.api import remote_api_endpoint
	from swh.core.api.classes import PagedResult
	from swh.scheduler.model import ListedOrigin, Lister, OriginVisitStats, SchedulerMetrics

	ListedOriginPageToken = Tuple[str, str]


	class PaginatedListedOriginList(PagedResult[ListedOrigin, ListedOriginPageToken]):
	"""A list of listed origins, with a continuation token"""

	def __init__(
	self,
	results: List[ListedOrigin],
	next_page_token: Union[None, ListedOriginPageToken, List[str]],
	):
	parsed_next_page_token: Optional[Tuple[str, str]] = None
	if next_page_token is not None:
	if len(next_page_token) != 2:
	raise TypeError("Expected Tuple[str, str] or list of size 2.")
	parsed_next_page_token = tuple(next_page_token) # type: ignore
	super().__init__(results, parsed_next_page_token)


	@runtime_checkable
	class SchedulerInterface(Protocol):
	@remote_api_endpoint("task_type/create")
	def create_task_type(self, task_type):
	"""Create a new task type ready for scheduling.

	Args:
	task_type (dict): a dictionary with the following keys:

	- type (str): an identifier for the task type
	- description (str): a human-readable description of what the
	task does
	- backend_name (str): the name of the task in the
	job-scheduling backend
	- default_interval (datetime.timedelta): the default interval
	between two task runs
	- min_interval (datetime.timedelta): the minimum interval
	between two task runs
	- max_interval (datetime.timedelta): the maximum interval
	between two task runs
	- backoff_factor (float): the factor by which the interval
	changes at each run
	- max_queue_length (int): the maximum length of the task queue
	for this task type

	"""
	...

	@remote_api_endpoint("task_type/get")
	def get_task_type(self, task_type_name):
	"""Retrieve the task type with id task_type_name"""
	...

	@remote_api_endpoint("task_type/get_all")
	def get_task_types(self):
	"""Retrieve all registered task types"""
	...

	@remote_api_endpoint("task/create")
	def create_tasks(self, tasks, policy="recurring"):
	"""Create new tasks.

	Args:
	tasks (list): each task is a dictionary with the following keys:

	- type (str): the task type
	- arguments (dict): the arguments for the task runner, keys:

	- args (list of str): arguments
	- kwargs (dict str -> str): keyword arguments

	- next_run (datetime.datetime): the next scheduled run for the
	task

	Returns:
	a list of created tasks.

	"""
	...

	@remote_api_endpoint("task/set_status")
	def set_status_tasks(
	self,
	task_ids: List[int],
	status: str = "disabled",
	next_run: Optional[datetime.datetime] = None,
	):
	"""Set the tasks' status whose ids are listed.

	If given, also set the next_run date.
	"""
	...

	@remote_api_endpoint("task/disable")
	def disable_tasks(self, task_ids):
	"""Disable the tasks whose ids are listed."""
	...

	@remote_api_endpoint("task/search")
	def search_tasks(
	self,
	task_id=None,
	task_type=None,
	status=None,
	priority=None,
	policy=None,
	before=None,
	after=None,
	limit=None,
	):
	"""Search tasks from selected criterions"""
	...

	@remote_api_endpoint("task/get")
	def get_tasks(self, task_ids):
	"""Retrieve the info of tasks whose ids are listed."""
	...

	@remote_api_endpoint("task/peek_ready")
	def peek_ready_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	) -> List[Dict]:
	"""Fetch the list of tasks (with no priority) to be scheduled.

	Args:
	task_type: filtering task per their type
	timestamp: peek tasks that need to be executed
	before that timestamp
	num_tasks: only peek at num_tasks tasks (with no priority)

	Returns:
	the list of tasks which would be scheduled

	"""
	...

	@remote_api_endpoint("task/grab_ready")
	def grab_ready_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	) -> List[Dict]:
	"""Fetch and schedule the list of tasks (with no priority) ready to be scheduled.

	Args:
	task_type: filtering task per their type
	timestamp: grab tasks that need to be executed
	before that timestamp
	num_tasks: only grab num_tasks tasks (with no priority)

	Returns:
	the list of scheduled tasks

	"""
	...

	@remote_api_endpoint("task/peek_ready_with_priority")
	def peek_ready_priority_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	) -> List[Dict]:
	"""Fetch list of tasks (with any priority) ready to be scheduled.

	Args:
	task_type: filtering task per their type
	timestamp: peek tasks that need to be executed before that timestamp
	num_tasks: only peek at num_tasks tasks (with no priority)

	Returns:
	a list of tasks

	"""
	...

	@remote_api_endpoint("task/grab_ready_with_priority")
	def grab_ready_priority_tasks(
	self,
	task_type: str,
	timestamp: Optional[datetime.datetime] = None,
	num_tasks: Optional[int] = None,
	) -> List[Dict]:
	"""Fetch and schedule the list of tasks (with any priority) ready to be scheduled.

	Args:
	task_type: filtering task per their type
	timestamp: grab tasks that need to be executed
	before that timestamp
	num_tasks: only grab num_tasks tasks (with no priority)

	Returns:
	a list of tasks

	"""
	...

	@remote_api_endpoint("task_run/schedule_one")
	def schedule_task_run(self, task_id, backend_id, metadata=None, timestamp=None):
	"""Mark a given task as scheduled, adding a task_run entry in the database.

	Args:
	task_id (int): the identifier for the task being scheduled
	backend_id (str): the identifier of the job in the backend
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	a fresh task_run entry

	"""
	...

	@remote_api_endpoint("task_run/schedule")
	def mass_schedule_task_runs(self, task_runs):
	"""Schedule a bunch of task runs.

	Args:
	task_runs (list): a list of dicts with keys:

	- task (int): the identifier for the task being scheduled
	- backend_id (str): the identifier of the job in the backend
	- metadata (dict): metadata to add to the task_run entry
	- scheduled (datetime.datetime): the instant the event occurred

	Returns:
	None
	"""
	...

	@remote_api_endpoint("task_run/start")
	def start_task_run(self, backend_id, metadata=None, timestamp=None):
	"""Mark a given task as started, updating the corresponding task_run
	entry in the database.

	Args:
	backend_id (str): the identifier of the job in the backend
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	the updated task_run entry

	"""
	...

	@remote_api_endpoint("task_run/end")
	def end_task_run(
	self, backend_id, status, metadata=None, timestamp=None, result=None,
	):
	"""Mark a given task as ended, updating the corresponding task_run entry in the
	database.

	Args:
	backend_id (str): the identifier of the job in the backend
	status (str): how the task ended; one of: 'eventful', 'uneventful',
	'failed'
	metadata (dict): metadata to add to the task_run entry
	timestamp (datetime.datetime): the instant the event occurred

	Returns:
	the updated task_run entry

	"""
	...

	@remote_api_endpoint("task/filter_for_archive")
	def filter_task_to_archive(
	self,
	after_ts: str,
	before_ts: str,
	limit: int = 10,
	page_token: Optional[str] = None,
	) -> Dict[str, Any]:
	"""Compute the tasks to archive within the datetime interval
	[after_ts, before_ts[. The method returns a paginated result.

	Returns:
	dict with the following keys:
	- next_page_token: opaque token to be used as
	`page_token` to retrieve the next page of result. If absent,
	there is no more pages to gather.
	- tasks: list of task dictionaries with the following keys:

	id (str): origin task id
	started (Optional[datetime]): started date
	scheduled (datetime): scheduled date
	arguments (json dict): task's arguments
	...

	"""
	...

	@remote_api_endpoint("task/delete_archived")
	def delete_archived_tasks(self, task_ids):
	"""Delete archived tasks as much as possible. Only the task_ids whose
	complete associated task_run have been cleaned up will be.

	"""
	...

	@remote_api_endpoint("task_run/get")
	def get_task_runs(self, task_ids, limit=None):
	"""Search task run for a task id"""
	...

	@remote_api_endpoint("listers/get")
	def get_listers(self) -> List[Lister]:
	"""Retrieve information about all listers from the database.
	"""
	...

	@remote_api_endpoint("lister/get")
	def get_lister(
	self, name: str, instance_name: Optional[str] = None
	) -> Optional[Lister]:
	"""Retrieve information about the given instance of the lister from the
	database.
	"""
	...

	@remote_api_endpoint("lister/get_or_create")
	def get_or_create_lister(
	self, name: str, instance_name: Optional[str] = None
	) -> Lister:
	"""Retrieve information about the given instance of the lister from the
	database, or create the entry if it did not exist.
	"""
	...

	@remote_api_endpoint("lister/update")
	def update_lister(self, lister: Lister) -> Lister:
	"""Update the state for the given lister instance in the database.

	Returns:
	a new Lister object, with all fields updated from the database

	Raises:
	StaleData if the `updated` timestamp for the lister instance in
	database doesn't match the one passed by the user.
	"""
	...

	@remote_api_endpoint("origins/record")
	def record_listed_origins(
	self, listed_origins: Iterable[ListedOrigin]
	) -> List[ListedOrigin]:
	"""Record a set of origins that a lister has listed.

	This performs an "upsert": origins with the same (lister_id, url,
	visit_type) values are updated with new values for
	extra_loader_arguments, last_update and last_seen.
	"""
	...

	@remote_api_endpoint("origins/get")
	def get_listed_origins(
	self,
	lister_id: Optional[UUID] = None,
	url: Optional[str] = None,
	limit: int = 1000,
	page_token: Optional[ListedOriginPageToken] = None,
	) -> PaginatedListedOriginList:
	"""Get information on the listed origins matching either the `url` or
	`lister_id`, or both arguments.

	Use the `limit` and `page_token` arguments for continuation. The next
	page token, if any, is returned in the PaginatedListedOriginList object.
	"""
	...

	@remote_api_endpoint("origins/grab_next")
	def grab_next_visits(
	self,
	visit_type: str,
	count: int,
	policy: str,
	timestamp: Optional[datetime.datetime] = None,
	scheduled_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=7),
	failed_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=14),
	+ notfound_cooldown: Optional[datetime.timedelta] = datetime.timedelta(days=31),
	) -> List[ListedOrigin]:
	"""Get at most the `count` next origins that need to be visited with
	the `visit_type` loader according to the given scheduling `policy`.

	This will mark the origins as scheduled in the origin_visit_stats
	table, to avoid scheduling multiple visits to the same origin.

	Arguments:
	visit_type: type of visits to schedule
	count: number of visits to schedule
	policy: the scheduling policy used to select which visits to schedule
	timestamp: the mocked timestamp at which we're recording that the visits are
	being scheduled (defaults to the current time)
	scheduled_cooldown: the minimal interval before which we can schedule
	the same origin again
	failed_cooldown: the minimal interval before which we can reschedule a
	failed origin
	+ notfound_cooldown: the minimal interval before which we can reschedule a
	+ notfound origin
	"""
	...

	@remote_api_endpoint("visit_stats/upsert")
	def origin_visit_stats_upsert(
	self, origin_visit_stats: Iterable[OriginVisitStats]
	) -> None:
	"""Create a new origin visit stats
	"""
	...

	@remote_api_endpoint("visit_stats/get")
	def origin_visit_stats_get(
	self, ids: Iterable[Tuple[str, str]]
	) -> List[OriginVisitStats]:
	"""Retrieve the stats for an origin with a given visit type

	If some visit_stats are not found, they are filtered out of the result. So the
	output list may be of length inferior to the length of the input list.

	"""
	...

	@remote_api_endpoint("scheduler_metrics/update")
	def update_metrics(
	self,
	lister_id: Optional[UUID] = None,
	timestamp: Optional[datetime.datetime] = None,
	) -> List[SchedulerMetrics]:
	"""Update the performance metrics of this scheduler instance.

	Returns the updated metrics.

	Args:
	lister_id: if passed, update the metrics only for this lister instance
	timestamp: if passed, the date at which we're updating the metrics,
	defaults to the database NOW()
	"""
	...

	@remote_api_endpoint("scheduler_metrics/get")
	def get_metrics(
	self, lister_id: Optional[UUID] = None, visit_type: Optional[str] = None
	) -> List[SchedulerMetrics]:
	"""Retrieve the performance metrics of this scheduler instance.

	Args:
	lister_id: filter the metrics for this lister instance only
	visit_type: filter the metrics for this visit type only
	"""
	...
	diff --git a/swh/scheduler/tests/test_scheduler.py b/swh/scheduler/tests/test_scheduler.py
	index 1376cea..a723227 100644
	--- a/swh/scheduler/tests/test_scheduler.py
	+++ b/swh/scheduler/tests/test_scheduler.py
	@@ -1,1354 +1,1354 @@
	# Copyright (C) 2017-2021 The Software Heritage developers
	# See the AUTHORS file at the top-level directory of this distribution
	# License: GNU General Public License version 3, or any later version
	# See top-level LICENSE file for more information

	from collections import defaultdict
	import copy
	import datetime
	import inspect
	import random
	from typing import Any, Dict, List, Optional, Tuple
	import uuid

	import attr
	from psycopg2.extras import execute_values
	import pytest

	from swh.model.hashutil import hash_to_bytes
	from swh.scheduler.exc import SchedulerException, StaleData, UnknownPolicy
	from swh.scheduler.interface import ListedOriginPageToken, SchedulerInterface
	from swh.scheduler.model import ListedOrigin, OriginVisitStats, SchedulerMetrics
	from swh.scheduler.utils import utcnow

	from .common import (
	LISTERS,
	TASK_TYPES,
	TEMPLATES,
	tasks_from_template,
	tasks_with_priority_from_template,
	)

	ONEDAY = datetime.timedelta(days=1)

	NUM_PRIORITY_TASKS = {None: 100, "high": 60, "normal": 30, "low": 20}


	def subdict(d, keys=None, excl=()):
	if keys is None:
	keys = [k for k in d.keys()]
	return {k: d[k] for k in keys if k not in excl}


	def metrics_sort_key(m: SchedulerMetrics) -> Tuple[uuid.UUID, str]:
	return (m.lister_id, m.visit_type)


	def assert_metrics_equal(left, right):
	assert sorted(left, key=metrics_sort_key) == sorted(right, key=metrics_sort_key)


	class TestScheduler:
	def test_interface(self, swh_scheduler):
	"""Checks all methods of SchedulerInterface are implemented by this
	backend, and that they have the same signature."""
	# Create an instance of the protocol (which cannot be instantiated
	# directly, so this creates a subclass, then instantiates it)
	interface = type("_", (SchedulerInterface,), {})()

	assert "create_task_type" in dir(interface)

	missing_methods = []

	for meth_name in dir(interface):
	if meth_name.startswith("_"):
	continue
	interface_meth = getattr(interface, meth_name)
	try:
	concrete_meth = getattr(swh_scheduler, meth_name)
	except AttributeError:
	if not getattr(interface_meth, "deprecated_endpoint", False):
	# The backend is missing a (non-deprecated) endpoint
	missing_methods.append(meth_name)
	continue

	expected_signature = inspect.signature(interface_meth)
	actual_signature = inspect.signature(concrete_meth)

	assert expected_signature == actual_signature, meth_name

	assert missing_methods == []

	def test_add_task_type(self, swh_scheduler):
	tt = TASK_TYPES["git"]
	swh_scheduler.create_task_type(tt)
	assert tt == swh_scheduler.get_task_type(tt["type"])
	tt2 = TASK_TYPES["hg"]
	swh_scheduler.create_task_type(tt2)
	assert tt == swh_scheduler.get_task_type(tt["type"])
	assert tt2 == swh_scheduler.get_task_type(tt2["type"])

	def test_create_task_type_idempotence(self, swh_scheduler):
	tt = TASK_TYPES["git"]
	swh_scheduler.create_task_type(tt)
	swh_scheduler.create_task_type(tt)
	assert tt == swh_scheduler.get_task_type(tt["type"])

	def test_get_task_types(self, swh_scheduler):
	tt, tt2 = TASK_TYPES["git"], TASK_TYPES["hg"]
	swh_scheduler.create_task_type(tt)
	swh_scheduler.create_task_type(tt2)
	actual_task_types = swh_scheduler.get_task_types()
	assert tt in actual_task_types
	assert tt2 in actual_task_types

	def test_create_tasks(self, swh_scheduler):
	self._create_task_types(swh_scheduler)
	num_git = 100
	tasks_1 = tasks_from_template(TEMPLATES["git"], utcnow(), num_git)
	tasks_2 = tasks_from_template(
	TEMPLATES["hg"], utcnow(), num_priorities=NUM_PRIORITY_TASKS
	)
	tasks = tasks_1 + tasks_2

	# tasks are returned only once with their ids
	ret1 = swh_scheduler.create_tasks(tasks + tasks)
	set_ret1 = set([t["id"] for t in ret1])

	# creating the same set result in the same ids
	ret = swh_scheduler.create_tasks(tasks)
	set_ret = set([t["id"] for t in ret])

	# Idempotence results
	assert set_ret == set_ret1
	assert len(ret) == len(ret1)

	ids = set()
	actual_priorities = defaultdict(int)

	for task, orig_task in zip(ret, tasks):
	task = copy.deepcopy(task)
	task_type = TASK_TYPES[orig_task["type"].split("-")[-1]]
	assert task["id"] not in ids
	assert task["status"] == "next_run_not_scheduled"
	assert task["current_interval"] == task_type["default_interval"]
	assert task["policy"] == orig_task.get("policy", "recurring")
	priority = task.get("priority")
	actual_priorities[priority] += 1

	assert task["retries_left"] == (task_type["num_retries"] or 0)
	ids.add(task["id"])
	del task["id"]
	del task["status"]
	del task["current_interval"]
	del task["retries_left"]
	if "policy" not in orig_task:
	del task["policy"]
	if "priority" not in orig_task:
	del task["priority"]
	assert task == orig_task

	expected_priorities = NUM_PRIORITY_TASKS.copy()
	expected_priorities[None] += num_git
	assert dict(actual_priorities) == expected_priorities

	def test_peek_ready_tasks_no_priority(self, swh_scheduler):
	self._create_task_types(swh_scheduler)
	t = utcnow()
	task_type = TEMPLATES["git"]["type"]
	tasks = tasks_from_template(TEMPLATES["git"], t, 100)
	random.shuffle(tasks)
	swh_scheduler.create_tasks(tasks)

	ready_tasks = swh_scheduler.peek_ready_tasks(task_type)
	assert len(ready_tasks) == len(tasks)
	for i in range(len(ready_tasks) - 1):
	assert ready_tasks[i]["next_run"] <= ready_tasks[i + 1]["next_run"]

	# Only get the first few ready tasks
	limit = random.randrange(5, 5 + len(tasks) // 2)
	ready_tasks_limited = swh_scheduler.peek_ready_tasks(task_type, num_tasks=limit)

	assert len(ready_tasks_limited) == limit
	assert ready_tasks_limited == ready_tasks[:limit]

	# Limit by timestamp
	max_ts = tasks[limit - 1]["next_run"]
	ready_tasks_timestamped = swh_scheduler.peek_ready_tasks(
	task_type, timestamp=max_ts
	)

	for ready_task in ready_tasks_timestamped:
	assert ready_task["next_run"] <= max_ts

	# Make sure we get proper behavior for the first ready tasks
	assert ready_tasks[: len(ready_tasks_timestamped)] == ready_tasks_timestamped

	# Limit by both
	ready_tasks_both = swh_scheduler.peek_ready_tasks(
	task_type, timestamp=max_ts, num_tasks=limit // 3
	)
	assert len(ready_tasks_both) <= limit // 3
	for ready_task in ready_tasks_both:
	assert ready_task["next_run"] <= max_ts
	assert ready_task in ready_tasks[: limit // 3]

	def test_peek_ready_tasks_returns_only_no_priority_tasks(self, swh_scheduler):
	"""Peek ready tasks only return standard tasks (no priority)"""
	self._create_task_types(swh_scheduler)
	t = utcnow()
	task_type = TEMPLATES["git"]["type"]
	# Create tasks with and without priorities
	tasks = tasks_from_template(
	TEMPLATES["git"], t, num_priorities=NUM_PRIORITY_TASKS,
	)

	count_priority = 0
	for task in tasks:
	count_priority += 0 if task.get("priority") is None else 1

	assert count_priority > 0, "Some created tasks should have some priority"

	random.shuffle(tasks)
	swh_scheduler.create_tasks(tasks)

	# take all available no priority tasks
	ready_tasks = swh_scheduler.peek_ready_tasks(task_type)

	assert len(ready_tasks) == len(tasks) - count_priority

	# No read task should have any priority
	for task in ready_tasks:
	assert task.get("priority") is None

	def test_grab_ready_tasks(self, swh_scheduler):
	self._create_task_types(swh_scheduler)
	t = utcnow()
	task_type = TEMPLATES["git"]["type"]
	# Create tasks with and without priorities
	tasks = tasks_from_template(
	TEMPLATES["git"], t, num_priorities=NUM_PRIORITY_TASKS
	)
	random.shuffle(tasks)
	swh_scheduler.create_tasks(tasks)

	first_ready_tasks = swh_scheduler.peek_ready_tasks(task_type, num_tasks=50)
	grabbed_tasks = swh_scheduler.grab_ready_tasks(task_type, num_tasks=50)
	first_ready_tasks.sort(key=lambda task: task["arguments"]["args"][0])
	grabbed_tasks.sort(key=lambda task: task["arguments"]["args"][0])

	for peeked, grabbed in zip(first_ready_tasks, grabbed_tasks):
	assert peeked["status"] == "next_run_not_scheduled"
	del peeked["status"]
	assert grabbed["status"] == "next_run_scheduled"
	del grabbed["status"]
	assert peeked == grabbed
	priority = grabbed["priority"]
	assert priority == peeked["priority"]
	assert priority is None

	def test_grab_ready_priority_tasks(self, swh_scheduler):
	"""check the grab and peek priority tasks endpoint behave as expected"""
	self._create_task_types(swh_scheduler)
	t = utcnow()
	task_type = TEMPLATES["git"]["type"]
	num_tasks = 100
	# Create tasks with and without priorities
	tasks0 = tasks_with_priority_from_template(
	TEMPLATES["git"], t, num_tasks, "high",
	)
	tasks1 = tasks_with_priority_from_template(
	TEMPLATES["hg"], t, num_tasks, "low",
	)
	tasks2 = tasks_with_priority_from_template(
	TEMPLATES["hg"], t, num_tasks, "normal",
	)
	tasks = tasks0 + tasks1 + tasks2

	random.shuffle(tasks)
	swh_scheduler.create_tasks(tasks)

	ready_tasks = swh_scheduler.peek_ready_priority_tasks(task_type, num_tasks=50)
	grabbed_tasks = swh_scheduler.grab_ready_priority_tasks(task_type, num_tasks=50)
	ready_tasks.sort(key=lambda task: task["arguments"]["args"][0])
	grabbed_tasks.sort(key=lambda task: task["arguments"]["args"][0])

	for peeked, grabbed in zip(ready_tasks, grabbed_tasks):
	assert peeked["status"] == "next_run_not_scheduled"
	del peeked["status"]
	assert grabbed["status"] == "next_run_scheduled"
	del grabbed["status"]
	assert peeked == grabbed
	assert peeked["priority"] == grabbed["priority"]
	assert peeked["priority"] is not None

	def test_get_tasks(self, swh_scheduler):
	self._create_task_types(swh_scheduler)
	t = utcnow()
	tasks = tasks_from_template(TEMPLATES["git"], t, 100)
	tasks = swh_scheduler.create_tasks(tasks)
	random.shuffle(tasks)
	while len(tasks) > 1:
	length = random.randrange(1, len(tasks))
	cur_tasks = sorted(tasks[:length], key=lambda x: x["id"])
	tasks[:length] = []

	ret = swh_scheduler.get_tasks(task["id"] for task in cur_tasks)
	# result is not guaranteed to be sorted
	ret.sort(key=lambda x: x["id"])
	assert ret == cur_tasks

	def test_search_tasks(self, swh_scheduler):
	def make_real_dicts(lst):
	"""RealDictRow is not a real dict."""
	return [dict(d.items()) for d in lst]

	self._create_task_types(swh_scheduler)
	t = utcnow()
	tasks = tasks_from_template(TEMPLATES["git"], t, 100)
	tasks = swh_scheduler.create_tasks(tasks)
	assert make_real_dicts(swh_scheduler.search_tasks()) == make_real_dicts(tasks)

	def assert_filtered_task_ok(
	self, task: Dict[str, Any], after: datetime.datetime, before: datetime.datetime
	) -> None:
	"""Ensure filtered tasks have the right expected properties
	(within the range, recurring disabled, etc..)

	"""
	started = task["started"]
	date = started if started is not None else task["scheduled"]
	assert after <= date and date <= before
	if task["task_policy"] == "oneshot":
	assert task["task_status"] in ["completed", "disabled"]
	if task["task_policy"] == "recurring":
	assert task["task_status"] in ["disabled"]

	def test_filter_task_to_archive(self, swh_scheduler):
	"""Filtering only list disabled recurring or completed oneshot tasks

	"""
	self._create_task_types(swh_scheduler)
	_time = utcnow()
	recurring = tasks_from_template(TEMPLATES["git"], _time, 12)
	oneshots = tasks_from_template(TEMPLATES["hg"], _time, 12)
	total_tasks = len(recurring) + len(oneshots)

	# simulate scheduling tasks
	pending_tasks = swh_scheduler.create_tasks(recurring + oneshots)
	backend_tasks = [
	{
	"task": task["id"],
	"backend_id": str(uuid.uuid4()),
	"scheduled": utcnow(),
	}
	for task in pending_tasks
	]
	swh_scheduler.mass_schedule_task_runs(backend_tasks)

	# we simulate the task are being done
	_tasks = []
	for task in backend_tasks:
	t = swh_scheduler.end_task_run(task["backend_id"], status="eventful")
	_tasks.append(t)

	# Randomly update task's status per policy
	status_per_policy = {"recurring": 0, "oneshot": 0}
	status_choice = {
	# policy: [tuple (1-for-filtering, 'associated-status')]
	"recurring": [
	(1, "disabled"),
	(0, "completed"),
	(0, "next_run_not_scheduled"),
	],
	"oneshot": [
	(0, "next_run_not_scheduled"),
	(1, "disabled"),
	(1, "completed"),
	],
	}

	tasks_to_update = defaultdict(list)
	_task_ids = defaultdict(list)
	# randomize 'disabling' recurring task or 'complete' oneshot task
	for task in pending_tasks:
	policy = task["policy"]
	_task_ids[policy].append(task["id"])
	status = random.choice(status_choice[policy])
	if status[0] != 1:
	continue
	# elected for filtering
	status_per_policy[policy] += status[0]
	tasks_to_update[policy].append(task["id"])

	swh_scheduler.disable_tasks(tasks_to_update["recurring"])
	# hack: change the status to something else than completed/disabled
	swh_scheduler.set_status_tasks(
	_task_ids["oneshot"], status="next_run_not_scheduled"
	)
	# complete the tasks to update
	swh_scheduler.set_status_tasks(tasks_to_update["oneshot"], status="completed")

	total_tasks_filtered = (
	status_per_policy["recurring"] + status_per_policy["oneshot"]
	)

	# no pagination scenario

	# retrieve tasks to archive
	after = _time - ONEDAY
	after_ts = after.strftime("%Y-%m-%d")
	before = utcnow() + ONEDAY
	before_ts = before.strftime("%Y-%m-%d")
	tasks_result = swh_scheduler.filter_task_to_archive(
	after_ts=after_ts, before_ts=before_ts, limit=total_tasks
	)

	tasks_to_archive = tasks_result["tasks"]

	assert len(tasks_to_archive) == total_tasks_filtered
	assert tasks_result.get("next_page_token") is None

	actual_filtered_per_status = {"recurring": 0, "oneshot": 0}
	for task in tasks_to_archive:
	self.assert_filtered_task_ok(task, after, before)
	actual_filtered_per_status[task["task_policy"]] += 1

	assert actual_filtered_per_status == status_per_policy

	# pagination scenario

	nb_tasks = 3
	tasks_result = swh_scheduler.filter_task_to_archive(
	after_ts=after_ts, before_ts=before_ts, limit=nb_tasks
	)

	tasks_to_archive2 = tasks_result["tasks"]

	assert len(tasks_to_archive2) == nb_tasks
	next_page_token = tasks_result["next_page_token"]
	assert next_page_token is not None

	all_tasks = tasks_to_archive2
	while next_page_token is not None: # Retrieve paginated results
	tasks_result = swh_scheduler.filter_task_to_archive(
	after_ts=after_ts,
	before_ts=before_ts,
	limit=nb_tasks,
	page_token=next_page_token,
	)
	tasks_to_archive2 = tasks_result["tasks"]
	assert len(tasks_to_archive2) <= nb_tasks
	all_tasks.extend(tasks_to_archive2)
	next_page_token = tasks_result.get("next_page_token")

	actual_filtered_per_status = {"recurring": 0, "oneshot": 0}
	for task in all_tasks:
	self.assert_filtered_task_ok(task, after, before)
	actual_filtered_per_status[task["task_policy"]] += 1

	assert actual_filtered_per_status == status_per_policy

	def test_delete_archived_tasks(self, swh_scheduler):
	self._create_task_types(swh_scheduler)
	_time = utcnow()
	recurring = tasks_from_template(TEMPLATES["git"], _time, 12)
	oneshots = tasks_from_template(TEMPLATES["hg"], _time, 12)
	total_tasks = len(recurring) + len(oneshots)
	pending_tasks = swh_scheduler.create_tasks(recurring + oneshots)
	backend_tasks = [
	{
	"task": task["id"],
	"backend_id": str(uuid.uuid4()),
	"scheduled": utcnow(),
	}
	for task in pending_tasks
	]
	swh_scheduler.mass_schedule_task_runs(backend_tasks)

	_tasks = []
	percent = random.randint(0, 100) # random election removal boundary
	for task in backend_tasks:
	t = swh_scheduler.end_task_run(task["backend_id"], status="eventful")
	c = random.randint(0, 100)
	if c <= percent:
	_tasks.append({"task_id": t["task"], "task_run_id": t["id"]})

	swh_scheduler.delete_archived_tasks(_tasks)

	all_tasks = [task["id"] for task in swh_scheduler.search_tasks()]
	tasks_count = len(all_tasks)
	tasks_run_count = len(swh_scheduler.get_task_runs(all_tasks))

	assert tasks_count == total_tasks - len(_tasks)
	assert tasks_run_count == total_tasks - len(_tasks)

	def test_get_task_runs_no_task(self, swh_scheduler):
	"""No task exist in the scheduler's db, get_task_runs() should always return an
	empty list.

	"""
	assert not swh_scheduler.get_task_runs(task_ids=())
	assert not swh_scheduler.get_task_runs(task_ids=(1, 2, 3))
	assert not swh_scheduler.get_task_runs(task_ids=(1, 2, 3), limit=10)

	def test_get_task_runs_no_task_executed(self, swh_scheduler):
	"""No task has been executed yet, get_task_runs() should always return an empty
	list.

	"""
	self._create_task_types(swh_scheduler)
	_time = utcnow()
	recurring = tasks_from_template(TEMPLATES["git"], _time, 12)
	oneshots = tasks_from_template(TEMPLATES["hg"], _time, 12)
	swh_scheduler.create_tasks(recurring + oneshots)

	assert not swh_scheduler.get_task_runs(task_ids=())
	assert not swh_scheduler.get_task_runs(task_ids=(1, 2, 3))
	assert not swh_scheduler.get_task_runs(task_ids=(1, 2, 3), limit=10)

	def test_get_task_runs_with_scheduled(self, swh_scheduler):
	"""Some tasks have been scheduled but not executed yet, get_task_runs() should
	not return an empty list. limit should behave as expected.

	"""
	self._create_task_types(swh_scheduler)
	_time = utcnow()
	recurring = tasks_from_template(TEMPLATES["git"], _time, 12)
	oneshots = tasks_from_template(TEMPLATES["hg"], _time, 12)
	total_tasks = len(recurring) + len(oneshots)
	pending_tasks = swh_scheduler.create_tasks(recurring + oneshots)
	backend_tasks = [
	{
	"task": task["id"],
	"backend_id": str(uuid.uuid4()),
	"scheduled": utcnow(),
	}
	for task in pending_tasks
	]
	swh_scheduler.mass_schedule_task_runs(backend_tasks)

	assert not swh_scheduler.get_task_runs(task_ids=[total_tasks + 1])

	btask = backend_tasks[0]
	runs = swh_scheduler.get_task_runs(task_ids=[btask["task"]])
	assert len(runs) == 1
	run = runs[0]

	assert subdict(run, excl=("id",)) == {
	"task": btask["task"],
	"backend_id": btask["backend_id"],
	"scheduled": btask["scheduled"],
	"started": None,
	"ended": None,
	"metadata": None,
	"status": "scheduled",
	}

	runs = swh_scheduler.get_task_runs(
	task_ids=[bt["task"] for bt in backend_tasks], limit=2
	)
	assert len(runs) == 2

	runs = swh_scheduler.get_task_runs(
	task_ids=[bt["task"] for bt in backend_tasks]
	)
	assert len(runs) == total_tasks

	keys = ("task", "backend_id", "scheduled")
	assert (
	sorted([subdict(x, keys) for x in runs], key=lambda x: x["task"])
	== backend_tasks
	)

	def test_get_task_runs_with_executed(self, swh_scheduler):
	"""Some tasks have been executed, get_task_runs() should
	not return an empty list. limit should behave as expected.

	"""
	self._create_task_types(swh_scheduler)
	_time = utcnow()
	recurring = tasks_from_template(TEMPLATES["git"], _time, 12)
	oneshots = tasks_from_template(TEMPLATES["hg"], _time, 12)
	pending_tasks = swh_scheduler.create_tasks(recurring + oneshots)
	backend_tasks = [
	{
	"task": task["id"],
	"backend_id": str(uuid.uuid4()),
	"scheduled": utcnow(),
	}
	for task in pending_tasks
	]
	swh_scheduler.mass_schedule_task_runs(backend_tasks)

	btask = backend_tasks[0]
	ts = utcnow()
	swh_scheduler.start_task_run(
	btask["backend_id"], metadata={"something": "stupid"}, timestamp=ts
	)
	runs = swh_scheduler.get_task_runs(task_ids=[btask["task"]])
	assert len(runs) == 1
	assert subdict(runs[0], excl=("id")) == {
	"task": btask["task"],
	"backend_id": btask["backend_id"],
	"scheduled": btask["scheduled"],
	"started": ts,
	"ended": None,
	"metadata": {"something": "stupid"},
	"status": "started",
	}

	ts2 = utcnow()
	swh_scheduler.end_task_run(
	btask["backend_id"],
	metadata={"other": "stuff"},
	timestamp=ts2,
	status="eventful",
	)
	runs = swh_scheduler.get_task_runs(task_ids=[btask["task"]])
	assert len(runs) == 1
	assert subdict(runs[0], excl=("id")) == {
	"task": btask["task"],
	"backend_id": btask["backend_id"],
	"scheduled": btask["scheduled"],
	"started": ts,
	"ended": ts2,
	"metadata": {"something": "stupid", "other": "stuff"},
	"status": "eventful",
	}

	def test_get_or_create_lister(self, swh_scheduler):
	db_listers = []
	for lister_args in LISTERS:
	db_listers.append(swh_scheduler.get_or_create_lister(**lister_args))

	for lister, lister_args in zip(db_listers, LISTERS):
	assert lister.name == lister_args["name"]
	assert lister.instance_name == lister_args.get("instance_name", "")

	lister_get_again = swh_scheduler.get_or_create_lister(
	lister.name, lister.instance_name
	)

	assert lister == lister_get_again

	def test_get_lister(self, swh_scheduler):
	for lister_args in LISTERS:
	assert swh_scheduler.get_lister(**lister_args) is None

	db_listers = []
	for lister_args in LISTERS:
	db_listers.append(swh_scheduler.get_or_create_lister(**lister_args))

	for lister, lister_args in zip(db_listers, LISTERS):
	lister_get_again = swh_scheduler.get_lister(
	lister.name, lister.instance_name
	)

	assert lister == lister_get_again

	def test_get_listers(self, swh_scheduler):
	assert swh_scheduler.get_listers() == []

	db_listers = []
	for lister_args in LISTERS:
	db_listers.append(swh_scheduler.get_or_create_lister(**lister_args))

	assert swh_scheduler.get_listers() == db_listers

	def test_update_lister(self, swh_scheduler, stored_lister):
	lister = attr.evolve(stored_lister, current_state={"updated": "now"})

	updated_lister = swh_scheduler.update_lister(lister)

	assert updated_lister.updated > lister.updated
	assert updated_lister == attr.evolve(lister, updated=updated_lister.updated)

	def test_update_lister_stale(self, swh_scheduler, stored_lister):
	swh_scheduler.update_lister(stored_lister)

	with pytest.raises(StaleData) as exc:
	swh_scheduler.update_lister(stored_lister)
	assert "state not updated" in exc.value.args[0]

	def test_record_listed_origins(self, swh_scheduler, listed_origins):
	ret = swh_scheduler.record_listed_origins(listed_origins)

	assert set(returned.url for returned in ret) == set(
	origin.url for origin in listed_origins
	)

	assert all(origin.first_seen == origin.last_seen for origin in ret)

	def test_record_listed_origins_upsert(self, swh_scheduler, listed_origins):
	# First, insert `cutoff` origins
	cutoff = 100
	assert cutoff < len(listed_origins)

	ret = swh_scheduler.record_listed_origins(listed_origins[:cutoff])
	assert len(ret) == cutoff

	# Then, insert all origins, including the `cutoff` first.
	ret = swh_scheduler.record_listed_origins(listed_origins)

	assert len(ret) == len(listed_origins)

	# Two different "first seen" values
	assert len(set(origin.first_seen for origin in ret)) == 2

	# But a single "last seen" value
	assert len(set(origin.last_seen for origin in ret)) == 1

	def test_get_listed_origins_exact(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	for i, origin in enumerate(listed_origins):
	ret = swh_scheduler.get_listed_origins(
	lister_id=origin.lister_id, url=origin.url
	)

	assert ret.next_page_token is None
	assert len(ret.results) == 1
	assert ret.results[0].lister_id == origin.lister_id
	assert ret.results[0].url == origin.url

	@pytest.mark.parametrize("num_origins,limit", [(20, 6), (5, 42), (20, 20)])
	def test_get_listed_origins_limit(
	self, swh_scheduler, listed_origins, num_origins, limit
	) -> None:
	added_origins = sorted(
	listed_origins[:num_origins], key=lambda o: (o.lister_id, o.url)
	)
	swh_scheduler.record_listed_origins(added_origins)

	returned_origins: List[ListedOrigin] = []
	call_count = 0
	next_page_token: Optional[ListedOriginPageToken] = None
	while True:
	call_count += 1
	ret = swh_scheduler.get_listed_origins(
	lister_id=listed_origins[0].lister_id,
	limit=limit,
	page_token=next_page_token,
	)
	returned_origins.extend(ret.results)
	next_page_token = ret.next_page_token
	if next_page_token is None:
	break

	assert call_count == (num_origins // limit) + 1

	assert len(returned_origins) == num_origins
	assert [(origin.lister_id, origin.url) for origin in returned_origins] == [
	(origin.lister_id, origin.url) for origin in added_origins
	]

	def test_get_listed_origins_all(self, swh_scheduler, listed_origins) -> None:
	swh_scheduler.record_listed_origins(listed_origins)

	ret = swh_scheduler.get_listed_origins(limit=len(listed_origins) + 1)
	assert ret.next_page_token is None
	assert len(ret.results) == len(listed_origins)

	def _grab_next_visits_setup(self, swh_scheduler, listed_origins_by_type):
	"""Basic origins setup for scheduling policy tests"""
	visit_type = next(iter(listed_origins_by_type))
	origins = listed_origins_by_type[visit_type][:100]
	assert len(origins) > 0

	recorded_origins = swh_scheduler.record_listed_origins(origins)

	return visit_type, recorded_origins

	def _check_grab_next_visit_basic(
	self, swh_scheduler, visit_type, policy, expected, **kwargs
	):
	"""Calls grab_next_visits with the passed policy, and check that:

	- all the origins returned are the expected ones (in the same order)
	- no extra origins are returned
	- the last_scheduled field has been set properly.

	Pass the extra keyword arguments to the calls to grab_next_visits.

	Returns a timestamp greater than all `last_scheduled` values for the grabbed
	visits.
	"""
	assert len(expected) != 0

	before = utcnow()
	ret = swh_scheduler.grab_next_visits(
	visit_type=visit_type,
	# Request one more than expected to check that no extra origin is returned
	count=len(expected) + 1,
	policy=policy,
	**kwargs,
	)
	after = utcnow()

	assert ret == expected
	visit_stats_list = swh_scheduler.origin_visit_stats_get(
	[(origin.url, origin.visit_type) for origin in expected]
	)
	assert len(visit_stats_list) == len(expected)
	for visit_stats in visit_stats_list:
	# Check that last_scheduled got updated
	assert before <= visit_stats.last_scheduled <= after

	# They should not be scheduled again
	ret = swh_scheduler.grab_next_visits(
	visit_type=visit_type, count=len(expected) + 1, policy=policy, **kwargs
	)
	assert ret == [], "grab_next_visits returned already-scheduled origins"

	return after

	def _check_grab_next_visit(
	self, swh_scheduler, visit_type, policy, expected, **kwargs
	):
	"""Run the same check as _check_grab_next_visit_basic, but also checks the
	origin visits have been marked as scheduled, and are only re-scheduled a
	week later
	"""

	after = self._check_grab_next_visit_basic(
	swh_scheduler, visit_type, policy, expected, **kwargs
	)
	# But a week, later, they should
	ret = swh_scheduler.grab_next_visits(
	visit_type=visit_type,
	count=len(expected) + 1,
	policy=policy,
	timestamp=after + datetime.timedelta(days=7),
	)
	# We need to sort them because their 'last_scheduled' field is updated to
	# exactly the same value, so the order is not deterministic
	assert sorted(ret) == sorted(
	expected
	), "grab_next_visits didn't reschedule visits after a week"

	def _prepare_oldest_scheduled_first_origins(
	self, swh_scheduler, listed_origins_by_type
	):
	visit_type, origins = self._grab_next_visits_setup(
	swh_scheduler, listed_origins_by_type
	)

	# Give all origins but one a last_scheduled date
	base_date = datetime.datetime(2020, 1, 1, 0, 0, 0, tzinfo=datetime.timezone.utc)
	visit_stats = [
	OriginVisitStats(
	url=origin.url,
	visit_type=origin.visit_type,
	last_snapshot=None,
	last_eventful=None,
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	last_scheduled=base_date - datetime.timedelta(seconds=i),
	)
	for i, origin in enumerate(origins[1:])
	]
	swh_scheduler.origin_visit_stats_upsert(visit_stats)

	# We expect to retrieve the origin with a NULL last_scheduled
	# as well as those with the oldest values (i.e. the last ones), in order.
	expected = [origins[0]] + origins[1:][::-1]

	return visit_type, origins, expected

	def test_grab_next_visits_oldest_scheduled_first(
	self, swh_scheduler, listed_origins_by_type,
	):
	visit_type, origins, expected = self._prepare_oldest_scheduled_first_origins(
	swh_scheduler, listed_origins_by_type
	)
	self._check_grab_next_visit(
	swh_scheduler,
	visit_type=visit_type,
	policy="oldest_scheduled_first",
	expected=expected,
	)

	- @pytest.mark.parametrize("which_cooldown", ("scheduled", "failed"))
	+ @pytest.mark.parametrize("which_cooldown", ("scheduled", "failed", "notfound"))
	@pytest.mark.parametrize("cooldown", (7, 15))
	def test_grab_next_visits_cooldowns(
	self, swh_scheduler, listed_origins_by_type, which_cooldown, cooldown,
	):
	visit_type, origins, expected = self._prepare_oldest_scheduled_first_origins(
	swh_scheduler, listed_origins_by_type
	)
	after = self._check_grab_next_visit_basic(
	swh_scheduler,
	visit_type=visit_type,
	policy="oldest_scheduled_first",
	expected=expected,
	)

	# Mark all the visits as `{which_cooldown}` (scheduled, failed or notfound) on
	# the `after` timestamp
	- ovs_args = {"last_failed": None, "last_scheduled": None}
	+ ovs_args = {"last_failed": None, "last_notfound": None, "last_scheduled": None}
	ovs_args[f"last_{which_cooldown}"] = after

	visit_stats = [
	OriginVisitStats(
	url=origin.url,
	visit_type=origin.visit_type,
	last_snapshot=None,
	last_eventful=None,
	last_uneventful=None,
	- last_notfound=None,
	**ovs_args,
	)
	for i, origin in enumerate(origins)
	]
	swh_scheduler.origin_visit_stats_upsert(visit_stats)

	cooldown_td = datetime.timedelta(days=cooldown)
	cooldown_args = {
	"scheduled_cooldown": None,
	"failed_cooldown": None,
	+ "notfound_cooldown": None,
	}
	cooldown_args[f"{which_cooldown}_cooldown"] = cooldown_td

	ret = swh_scheduler.grab_next_visits(
	visit_type=visit_type,
	count=len(expected) + 1,
	policy="oldest_scheduled_first",
	timestamp=after + cooldown_td - datetime.timedelta(seconds=1),
	**cooldown_args,
	)

	assert ret == [], f"{which_cooldown}_cooldown ignored"

	ret = swh_scheduler.grab_next_visits(
	visit_type=visit_type,
	count=len(expected) + 1,
	policy="oldest_scheduled_first",
	timestamp=after + cooldown_td + datetime.timedelta(seconds=1),
	**cooldown_args,
	)

	assert sorted(ret) == sorted(
	expected
	), "grab_next_visits didn't reschedule visits after the configured cooldown"

	def test_grab_next_visits_never_visited_oldest_update_first(
	self, swh_scheduler, listed_origins_by_type,
	):
	visit_type, origins = self._grab_next_visits_setup(
	swh_scheduler, listed_origins_by_type
	)

	# Update known origins with a `last_update` field that we control
	base_date = datetime.datetime(2020, 1, 1, 0, 0, 0, tzinfo=datetime.timezone.utc)
	updated_origins = [
	attr.evolve(origin, last_update=base_date - datetime.timedelta(seconds=i))
	for i, origin in enumerate(origins)
	]
	updated_origins = swh_scheduler.record_listed_origins(updated_origins)

	# We expect to retrieve origins with the oldest update date, that is
	# origins at the end of our updated_origins list.
	expected_origins = sorted(updated_origins, key=lambda o: o.last_update)

	self._check_grab_next_visit(
	swh_scheduler,
	visit_type=visit_type,
	policy="never_visited_oldest_update_first",
	expected=expected_origins,
	)

	def test_grab_next_visits_already_visited_order_by_lag(
	self, swh_scheduler, listed_origins_by_type,
	):
	visit_type, origins = self._grab_next_visits_setup(
	swh_scheduler, listed_origins_by_type
	)

	# Update known origins with a `last_update` field that we control
	base_date = datetime.datetime(2020, 1, 1, 0, 0, 0, tzinfo=datetime.timezone.utc)
	updated_origins = [
	attr.evolve(origin, last_update=base_date - datetime.timedelta(seconds=i))
	for i, origin in enumerate(origins)
	]
	updated_origins = swh_scheduler.record_listed_origins(updated_origins)

	# Update the visit stats with a known visit at a controlled date for
	# half the origins. Pick the date in the middle of the
	# updated_origins' `last_update` range
	visit_date = updated_origins[len(updated_origins) // 2].last_update
	visited_origins = updated_origins[::2]
	visit_stats = [
	OriginVisitStats(
	url=origin.url,
	visit_type=origin.visit_type,
	last_snapshot=hash_to_bytes("d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"),
	last_eventful=visit_date,
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	)
	for origin in visited_origins
	]
	swh_scheduler.origin_visit_stats_upsert(visit_stats)

	# We expect to retrieve visited origins with the largest lag, but only
	# those which haven't been visited since their last update
	expected_origins = sorted(
	[origin for origin in visited_origins if origin.last_update > visit_date],
	key=lambda o: visit_date - o.last_update,
	)

	self._check_grab_next_visit(
	swh_scheduler,
	visit_type=visit_type,
	policy="already_visited_order_by_lag",
	expected=expected_origins,
	)

	def test_grab_next_visits_underflow(self, swh_scheduler, listed_origins_by_type):
	"""Check that grab_next_visits works when there not enough origins in
	the database"""
	visit_type = next(iter(listed_origins_by_type))

	# Only add 5 origins to the database
	origins = listed_origins_by_type[visit_type][:5]
	assert origins

	swh_scheduler.record_listed_origins(origins)

	ret = swh_scheduler.grab_next_visits(
	visit_type, len(origins) + 2, policy="oldest_scheduled_first"
	)

	assert len(ret) == 5

	def test_grab_next_visits_unknown_policy(self, swh_scheduler):
	unknown_policy = "non_existing_policy"
	NUM_RESULTS = 5
	with pytest.raises(UnknownPolicy, match=unknown_policy):
	swh_scheduler.grab_next_visits("type", NUM_RESULTS, policy=unknown_policy)

	def _create_task_types(self, scheduler):
	for tt in TASK_TYPES.values():
	scheduler.create_task_type(tt)

	def test_origin_visit_stats_get_empty(self, swh_scheduler) -> None:
	assert swh_scheduler.origin_visit_stats_get([]) == []

	def test_origin_visit_stats_get_pagination(self, swh_scheduler) -> None:
	page_size = inspect.signature(execute_values).parameters["page_size"].default

	visit_stats = [
	OriginVisitStats(
	url=f"https://example.com/origin-{i:03d}",
	visit_type="git",
	last_eventful=utcnow(),
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	)
	for i in range(
	page_size + 1
	) # Ensure overflow of the psycopg2.extras.execute_values page_size
	]

	swh_scheduler.origin_visit_stats_upsert(visit_stats)

	assert set(
	swh_scheduler.origin_visit_stats_get(
	[(ovs.url, ovs.visit_type) for ovs in visit_stats]
	)
	) == set(visit_stats)

	def test_origin_visit_stats_upsert(self, swh_scheduler) -> None:
	eventful_date = utcnow()
	url = "https://github.com/test"

	visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=eventful_date,
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	)
	swh_scheduler.origin_visit_stats_upsert([visit_stats])
	swh_scheduler.origin_visit_stats_upsert([visit_stats])

	assert swh_scheduler.origin_visit_stats_get([(url, "git")]) == [visit_stats]
	assert swh_scheduler.origin_visit_stats_get([(url, "svn")]) == []

	uneventful_date = utcnow()
	visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=None,
	last_uneventful=uneventful_date,
	last_failed=None,
	last_notfound=None,
	)
	swh_scheduler.origin_visit_stats_upsert([visit_stats])

	uneventful_visits = swh_scheduler.origin_visit_stats_get([(url, "git")])

	expected_visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=eventful_date,
	last_uneventful=uneventful_date,
	last_failed=None,
	last_notfound=None,
	)

	assert uneventful_visits == [expected_visit_stats]

	failed_date = utcnow()
	visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=None,
	last_uneventful=None,
	last_failed=failed_date,
	last_notfound=None,
	)
	swh_scheduler.origin_visit_stats_upsert([visit_stats])

	failed_visits = swh_scheduler.origin_visit_stats_get([(url, "git")])

	expected_visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=eventful_date,
	last_uneventful=uneventful_date,
	last_failed=failed_date,
	last_notfound=None,
	)

	assert failed_visits == [expected_visit_stats]

	def test_origin_visit_stats_upsert_with_snapshot(self, swh_scheduler) -> None:
	eventful_date = utcnow()
	url = "https://github.com/666/test"

	visit_stats = OriginVisitStats(
	url=url,
	visit_type="git",
	last_eventful=eventful_date,
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	last_snapshot=hash_to_bytes("d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"),
	)
	swh_scheduler.origin_visit_stats_upsert([visit_stats])

	assert swh_scheduler.origin_visit_stats_get([(url, "git")]) == [visit_stats]
	assert swh_scheduler.origin_visit_stats_get([(url, "svn")]) == []

	def test_origin_visit_stats_upsert_batch(self, swh_scheduler) -> None:
	"""Batch upsert is ok"""
	visit_stats = [
	OriginVisitStats(
	url="foo",
	visit_type="git",
	last_eventful=utcnow(),
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	last_snapshot=hash_to_bytes("d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"),
	),
	OriginVisitStats(
	url="bar",
	visit_type="git",
	last_eventful=None,
	last_uneventful=utcnow(),
	last_notfound=None,
	last_failed=None,
	last_snapshot=hash_to_bytes("fffcc0710eb6cf9efd5b920a8453e1e07157bfff"),
	),
	]

	swh_scheduler.origin_visit_stats_upsert(visit_stats)

	for visit_stat in swh_scheduler.origin_visit_stats_get(
	[(vs.url, vs.visit_type) for vs in visit_stats]
	):
	assert visit_stat is not None

	def test_origin_visit_stats_upsert_cardinality_failing(self, swh_scheduler) -> None:
	"""Batch upsert does not support altering multiple times the same origin-visit-status

	"""
	with pytest.raises(SchedulerException, match="CardinalityViolation"):
	swh_scheduler.origin_visit_stats_upsert(
	[
	OriginVisitStats(
	url="foo",
	visit_type="git",
	last_eventful=None,
	last_uneventful=utcnow(),
	last_notfound=None,
	last_failed=None,
	last_snapshot=None,
	),
	OriginVisitStats(
	url="foo",
	visit_type="git",
	last_eventful=None,
	last_uneventful=utcnow(),
	last_notfound=None,
	last_failed=None,
	last_snapshot=None,
	),
	]
	)

	def test_metrics_origins_known(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	ret = swh_scheduler.update_metrics()

	assert sum(metric.origins_known for metric in ret) == len(listed_origins)

	def test_metrics_origins_enabled(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)
	disabled_origin = attr.evolve(listed_origins[0], enabled=False)
	swh_scheduler.record_listed_origins([disabled_origin])

	ret = swh_scheduler.update_metrics(lister_id=disabled_origin.lister_id)
	for metric in ret:
	if metric.visit_type == disabled_origin.visit_type:
	# We disabled one of these origins
	assert metric.origins_known - metric.origins_enabled == 1
	else:
	# But these are still all enabled
	assert metric.origins_known == metric.origins_enabled

	def test_metrics_origins_never_visited(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	# Pretend that we've recorded a visit on one origin
	visited_origin = listed_origins[0]
	swh_scheduler.origin_visit_stats_upsert(
	[
	OriginVisitStats(
	url=visited_origin.url,
	visit_type=visited_origin.visit_type,
	last_eventful=utcnow(),
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	last_snapshot=hash_to_bytes(
	"d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"
	),
	),
	]
	)

	ret = swh_scheduler.update_metrics(lister_id=visited_origin.lister_id)
	for metric in ret:
	if metric.visit_type == visited_origin.visit_type:
	# We visited one of these origins
	assert metric.origins_known - metric.origins_never_visited == 1
	else:
	# But none of these have been visited
	assert metric.origins_known == metric.origins_never_visited

	def test_metrics_origins_with_pending_changes(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	# Pretend that we've recorded a visit on one origin, in the past with
	# respect to the "last update" time for the origin
	visited_origin = listed_origins[0]
	assert visited_origin.last_update is not None
	swh_scheduler.origin_visit_stats_upsert(
	[
	OriginVisitStats(
	url=visited_origin.url,
	visit_type=visited_origin.visit_type,
	last_eventful=visited_origin.last_update
	- datetime.timedelta(days=1),
	last_uneventful=None,
	last_failed=None,
	last_notfound=None,
	last_snapshot=hash_to_bytes(
	"d81cc0710eb6cf9efd5b920a8453e1e07157b6cd"
	),
	),
	]
	)

	ret = swh_scheduler.update_metrics(lister_id=visited_origin.lister_id)
	for metric in ret:
	if metric.visit_type == visited_origin.visit_type:
	# We visited one of these origins, in the past
	assert metric.origins_with_pending_changes == 1
	else:
	# But none of these have been visited
	assert metric.origins_with_pending_changes == 0

	def test_update_metrics_explicit_lister(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	fake_uuid = uuid.uuid4()
	assert all(fake_uuid != origin.lister_id for origin in listed_origins)

	ret = swh_scheduler.update_metrics(lister_id=fake_uuid)

	assert len(ret) == 0

	def test_update_metrics_explicit_timestamp(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	ts = datetime.datetime(2020, 1, 1, 0, 0, 0, tzinfo=datetime.timezone.utc)

	ret = swh_scheduler.update_metrics(timestamp=ts)

	assert all(metric.last_update == ts for metric in ret)

	def test_update_metrics_twice(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)

	ts = utcnow()
	ret = swh_scheduler.update_metrics(timestamp=ts)
	assert all(metric.last_update == ts for metric in ret)

	second_ts = ts + datetime.timedelta(seconds=1)
	ret = swh_scheduler.update_metrics(timestamp=second_ts)
	assert all(metric.last_update == second_ts for metric in ret)

	def test_get_metrics(self, swh_scheduler, listed_origins):
	swh_scheduler.record_listed_origins(listed_origins)
	updated = swh_scheduler.update_metrics()

	retrieved = swh_scheduler.get_metrics()
	assert_metrics_equal(updated, retrieved)

	def test_get_metrics_by_lister(self, swh_scheduler, listed_origins):
	lister_id = listed_origins[0].lister_id
	assert lister_id is not None

	swh_scheduler.record_listed_origins(listed_origins)
	updated = swh_scheduler.update_metrics()

	retrieved = swh_scheduler.get_metrics(lister_id=lister_id)
	assert len(retrieved) > 0

	assert_metrics_equal(
	[metric for metric in updated if metric.lister_id == lister_id], retrieved
	)

	def test_get_metrics_by_visit_type(self, swh_scheduler, listed_origins):
	visit_type = listed_origins[0].visit_type
	assert visit_type is not None

	swh_scheduler.record_listed_origins(listed_origins)
	updated = swh_scheduler.update_metrics()

	retrieved = swh_scheduler.get_metrics(visit_type=visit_type)
	assert len(retrieved) > 0

	assert_metrics_equal(
	[metric for metric in updated if metric.visit_type == visit_type], retrieved
	)

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