from __future__ import annotations import shutil import tempfile from abc import ABC, abstractmethod from collections import deque from typing import Any, NamedTuple import pytest from twisted.internet import defer from twisted.trial.unittest import TestCase from scrapy.core.downloader import Downloader from scrapy.core.scheduler import BaseScheduler, Scheduler from scrapy.crawler import Crawler from scrapy.http import Request from scrapy.spiders import Spider from scrapy.utils.httpobj import urlparse_cached from scrapy.utils.misc import load_object from scrapy.utils.test import get_crawler from tests.mockserver import MockServer class MemoryScheduler(BaseScheduler): paused = False def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.queue = deque( Request(value) if isinstance(value, str) else value for value in getattr(self, "queue", []) ) def enqueue_request(self, request: Request) -> bool: self.queue.append(request) return True def has_pending_requests(self) -> bool: return self.paused or bool(self.queue) def next_request(self) -> Request | None: if self.paused: return None try: return self.queue.pop() except IndexError: return None def pause(self) -> None: self.paused = True def unpause(self) -> None: self.paused = False class MockEngine(NamedTuple): downloader: MockDownloader class MockSlot(NamedTuple): active: list[Any] class MockDownloader: def __init__(self): self.slots = {} def get_slot_key(self, request): if Downloader.DOWNLOAD_SLOT in request.meta: return request.meta[Downloader.DOWNLOAD_SLOT] return urlparse_cached(request).hostname or "" def increment(self, slot_key): slot = self.slots.setdefault(slot_key, MockSlot(active=[])) slot.active.append(1) def decrement(self, slot_key): slot = self.slots.get(slot_key) slot.active.pop() def close(self): pass class MockCrawler(Crawler): def __init__(self, priority_queue_cls, jobdir): settings = { "SCHEDULER_DEBUG": False, "SCHEDULER_DISK_QUEUE": "scrapy.squeues.PickleLifoDiskQueue", "SCHEDULER_MEMORY_QUEUE": "scrapy.squeues.LifoMemoryQueue", "SCHEDULER_PRIORITY_QUEUE": priority_queue_cls, "JOBDIR": jobdir, "DUPEFILTER_CLASS": "scrapy.dupefilters.BaseDupeFilter", } super().__init__(Spider, settings) self.engine = MockEngine(downloader=MockDownloader()) self.stats = load_object(self.settings["STATS_CLASS"])(self) class SchedulerHandler(ABC): jobdir = None @property @abstractmethod def priority_queue_cls(self) -> str: raise NotImplementedError def create_scheduler(self): self.mock_crawler = MockCrawler(self.priority_queue_cls, self.jobdir) self.scheduler = Scheduler.from_crawler(self.mock_crawler) self.spider = Spider(name="spider") self.scheduler.open(self.spider) def close_scheduler(self): self.scheduler.close("finished") self.mock_crawler.stop() self.mock_crawler.engine.downloader.close() def setup_method(self): self.create_scheduler() def teardown_method(self): self.close_scheduler() _PRIORITIES = [ ("http://foo.com/a", -2), ("http://foo.com/d", 1), ("http://foo.com/b", -1), ("http://foo.com/c", 0), ("http://foo.com/e", 2), ] _URLS = {"http://foo.com/a", "http://foo.com/b", "http://foo.com/c"} class TestSchedulerInMemoryBase(SchedulerHandler): def test_length(self): assert not self.scheduler.has_pending_requests() assert len(self.scheduler) == 0 for url in _URLS: self.scheduler.enqueue_request(Request(url)) assert self.scheduler.has_pending_requests() assert len(self.scheduler) == len(_URLS) def test_dequeue(self): for url in _URLS: self.scheduler.enqueue_request(Request(url)) urls = set() while self.scheduler.has_pending_requests(): urls.add(self.scheduler.next_request().url) assert urls == _URLS def test_dequeue_priorities(self): for url, priority in _PRIORITIES: self.scheduler.enqueue_request(Request(url, priority=priority)) priorities = [] while self.scheduler.has_pending_requests(): priorities.append(self.scheduler.next_request().priority) assert priorities == sorted([x[1] for x in _PRIORITIES], key=lambda x: -x) class TestSchedulerOnDiskBase(SchedulerHandler): def setup_method(self): self.jobdir = tempfile.mkdtemp() self.create_scheduler() def teardown_method(self): self.close_scheduler() shutil.rmtree(self.jobdir) self.jobdir = None def test_length(self): assert not self.scheduler.has_pending_requests() assert len(self.scheduler) == 0 for url in _URLS: self.scheduler.enqueue_request(Request(url)) self.close_scheduler() self.create_scheduler() assert self.scheduler.has_pending_requests() assert len(self.scheduler) == len(_URLS) def test_dequeue(self): for url in _URLS: self.scheduler.enqueue_request(Request(url)) self.close_scheduler() self.create_scheduler() urls = set() while self.scheduler.has_pending_requests(): urls.add(self.scheduler.next_request().url) assert urls == _URLS def test_dequeue_priorities(self): for url, priority in _PRIORITIES: self.scheduler.enqueue_request(Request(url, priority=priority)) self.close_scheduler() self.create_scheduler() priorities = [] while self.scheduler.has_pending_requests(): priorities.append(self.scheduler.next_request().priority) assert priorities == sorted([x[1] for x in _PRIORITIES], key=lambda x: -x) class TestSchedulerInMemory(TestSchedulerInMemoryBase): @property def priority_queue_cls(self) -> str: return "scrapy.pqueues.ScrapyPriorityQueue" class TestSchedulerOnDisk(TestSchedulerOnDiskBase): @property def priority_queue_cls(self) -> str: return "scrapy.pqueues.ScrapyPriorityQueue" _URLS_WITH_SLOTS = [ ("http://foo.com/a", "a"), ("http://foo.com/b", "a"), ("http://foo.com/c", "b"), ("http://foo.com/d", "b"), ("http://foo.com/e", "c"), ("http://foo.com/f", "c"), ] class TestMigration: def test_migration(self, tmpdir): class PrevSchedulerHandler(SchedulerHandler): jobdir = tmpdir @property def priority_queue_cls(self) -> str: return "scrapy.pqueues.ScrapyPriorityQueue" class NextSchedulerHandler(SchedulerHandler): jobdir = tmpdir @property def priority_queue_cls(self) -> str: return "scrapy.pqueues.DownloaderAwarePriorityQueue" prev_scheduler_handler = PrevSchedulerHandler() prev_scheduler_handler.create_scheduler() for url in _URLS: prev_scheduler_handler.scheduler.enqueue_request(Request(url)) prev_scheduler_handler.close_scheduler() next_scheduler_handler = NextSchedulerHandler() with pytest.raises( ValueError, match="DownloaderAwarePriorityQueue accepts ``slot_startprios`` as a dict", ): next_scheduler_handler.create_scheduler() def _is_scheduling_fair(enqueued_slots, dequeued_slots): """ We enqueued same number of requests for every slot. Assert correct order, e.g. >>> enqueued = ['a', 'b', 'c'] * 2 >>> correct = ['a', 'c', 'b', 'b', 'a', 'c'] >>> incorrect = ['a', 'a', 'b', 'c', 'c', 'b'] >>> _is_scheduling_fair(enqueued, correct) True >>> _is_scheduling_fair(enqueued, incorrect) False """ if len(dequeued_slots) != len(enqueued_slots): return False slots_number = len(set(enqueued_slots)) for i in range(0, len(dequeued_slots), slots_number): part = dequeued_slots[i : i + slots_number] if len(part) != len(set(part)): return False return True class DownloaderAwareSchedulerTestMixin: reopen = False @property def priority_queue_cls(self) -> str: return "scrapy.pqueues.DownloaderAwarePriorityQueue" def test_logic(self): for url, slot in _URLS_WITH_SLOTS: request = Request(url) request.meta[Downloader.DOWNLOAD_SLOT] = slot self.scheduler.enqueue_request(request) if self.reopen: self.close_scheduler() self.create_scheduler() dequeued_slots = [] requests = [] downloader = self.mock_crawler.engine.downloader while self.scheduler.has_pending_requests(): request = self.scheduler.next_request() slot = downloader.get_slot_key(request) dequeued_slots.append(slot) downloader.increment(slot) requests.append(request) for request in requests: slot = downloader.get_slot_key(request) downloader.decrement(slot) assert _is_scheduling_fair([s for u, s in _URLS_WITH_SLOTS], dequeued_slots) assert sum(len(s.active) for s in downloader.slots.values()) == 0 class TestSchedulerWithDownloaderAwareInMemory( DownloaderAwareSchedulerTestMixin, TestSchedulerInMemoryBase ): pass class TestSchedulerWithDownloaderAwareOnDisk( DownloaderAwareSchedulerTestMixin, TestSchedulerOnDiskBase ): reopen = True class StartUrlsSpider(Spider): def __init__(self, start_urls): self.start_urls = start_urls super().__init__(name="StartUrlsSpider") def parse(self, response): pass class TestIntegrationWithDownloaderAwareInMemory(TestCase): def setUp(self): self.crawler = get_crawler( spidercls=StartUrlsSpider, settings_dict={ "SCHEDULER_PRIORITY_QUEUE": "scrapy.pqueues.DownloaderAwarePriorityQueue", "DUPEFILTER_CLASS": "scrapy.dupefilters.BaseDupeFilter", }, ) @defer.inlineCallbacks def tearDown(self): yield self.crawler.stop() @defer.inlineCallbacks def test_integration_downloader_aware_priority_queue(self): with MockServer() as mockserver: url = mockserver.url("/status?n=200", is_secure=False) start_urls = [url] * 6 yield self.crawler.crawl(start_urls) assert self.crawler.stats.get_value("downloader/response_count") == len( start_urls ) class TestIncompatibility: def _incompatible(self): settings = { "SCHEDULER_PRIORITY_QUEUE": "scrapy.pqueues.DownloaderAwarePriorityQueue", "CONCURRENT_REQUESTS_PER_IP": 1, } crawler = get_crawler(Spider, settings) scheduler = Scheduler.from_crawler(crawler) spider = Spider(name="spider") scheduler.open(spider) def test_incompatibility(self): with pytest.raises( ValueError, match="does not support CONCURRENT_REQUESTS_PER_IP" ): self._incompatible()