scrapy-redis分布式爬虫源码分析
scrapy是Python的一个非常好用的爬虫库,功能非常强大,但是当我们要爬取的页面非常多的时候,单个主机的处理能力就不能满足我们的需求了(无论是处理速度还是网络请求的并发数),这时候分布式爬虫的优势就显现出来,人多力量大。而scrapy-Redis就是结合了分布式数据库redis,重写了scrapy一些比较关键的代码,将scrapy变成一个可以在多个主机上同时运行的分布式爬虫。
scrapy-redis是github上的一个开源项目,可以直接下载到他的源代码:
https://github.com/rolando/scrapy-redis
scrapy-redis的官方文档写的比较简洁,没有提及其运行原理,所以如果想全面的理解分布式爬虫的运行原理,还是得看scrapy-redis的源代码才行(还得先理解scrapy的运行原理,不然看scrapy-redis还是比较费劲),不过scrapy-redis的源代码很少,也比较好懂,很快就能看完。
scrapy-redis工程的主体还是是redis和scrapy两个库,工程本身实现的东西不是很多,这个工程就像胶水一样,把这两个插件粘结了起来。下面我们来看看,scrapy-redis的每一个源代码文件都实现了什么功能,最后如何实现分布式的爬虫系统:
connection.py 连接得配置文件 defaults.py 默认得配置文件 dupefilter.py 去重规则 picklecompat.py 格式化 pipelines.py 序列化变成字符串 queue.py 队列 scheduler.py 调度器 spiders.py 爬虫 utils.py 把字节转换成字符串
connect.py
import six from scrapy.utils.misc import load_object from . import defaults # Shortcut maps 'setting name' -> 'parmater name'. SETTINGS_PARAMS_MAP = { 'REDIS_URL': 'url', 'REDIS_HOST': 'host', 'REDIS_PORT': 'port', 'REDIS_ENCODING': 'encoding', } def get_redis_from_settings(settings): """Returns a redis client instance from given Scrapy settings object. This function uses ``get_client`` to instantiate the client and uses ``defaults.REDIS_PARAMS`` global as defaults values for the parameters. You can override them using the ``REDIS_PARAMS`` setting. Parameters ---------- settings : Settings A scrapy settings object. See the supported settings below. Returns ------- server Redis client instance. Other Parameters ---------------- REDIS_URL : str, optional Server connection URL. REDIS_HOST : str, optional Server host. REDIS_PORT : str, optional Server port. REDIS_ENCODING : str, optional Data encoding. REDIS_PARAMS : dict, optional Additional client parameters. """ params = defaults.REDIS_PARAMS.copy() params.update(settings.getdict('REDIS_PARAMS')) # XXX: Deprecate REDIS_* settings. for source, dest in SETTINGS_PARAMS_MAP.items(): val = settings.get(source) if val: params[dest] = val # Allow ``redis_cls`` to be a path to a class. if isinstance(params.get('redis_cls'), six.string_types): params['redis_cls'] = load_object(params['redis_cls']) return get_redis(**params) # Backwards compatible alias. from_settings = get_redis_from_settings def get_redis(**kwargs): """Returns a redis client instance. Parameters ---------- redis_cls : class, optional Defaults to ``redis.StrictRedis``. url : str, optional If given, ``redis_cls.from_url`` is used to instantiate the class. **kwargs Extra parameters to be passed to the ``redis_cls`` class. Returns ------- server Redis client instance. """ redis_cls = kwargs.pop('redis_cls', defaults.REDIS_CLS) url = kwargs.pop('url', None) if url: return redis_cls.from_url(url, **kwargs) else: return redis_cls(**kwargs)
connect文件引入了redis模块,这个是redis-python库的接口,用于通过python访问redis数据库,主要是实现连接redis数据库的功能(返回的是reids库的Redis对象或者StrictRedis对象,这俩都是可以直接用来进行数据操作的对象)。这些连接接口在其他文件中经常被用到。其中,我们可以看到,要想连接到redis数据库,和其他数据库差不多,需要一个ip地址、端口号、用户名密码(可选)和一个整型的数据库编号,同时我们还可以再scrapy的settings文件中配置套接字的超时时间、等待时间等。
dupefilters.py
import logging import time from scrapy.dupefilters import BaseDupeFilter from scrapy.utils.request import request_fingerprint from . import defaults from .connection import get_redis_from_settings logger = logging.getLogger(__name__) # TODO: Rename class to RedisDupeFilter. class RFPDupeFilter(BaseDupeFilter): """Redis-based request duplicates filter. This class can also be used with default Scrapy's scheduler. """ logger = logger def __init__(self, server, key, debug=False): """Initialize the duplicates filter. Parameters ---------- server : redis.StrictRedis The redis server instance. key : str Redis key Where to store fingerprints. debug : bool, optional Whether to log filtered requests. """ self.server = server self.key = key self.debug = debug self.logdupes = True @classmethod def from_settings(cls, settings): """Returns an instance from given settings. This uses by default the key ``dupefilter:<timestamp>``. When using the ``scrapy_redis.scheduler.Scheduler`` class, this method is not used as it needs to pass the spider name in the key. Parameters ---------- settings : scrapy.settings.Settings Returns ------- RFPDupeFilter A RFPDupeFilter instance. """ server = get_redis_from_settings(settings) # XXX: This creates one-time key. needed to support to use this # class as standalone dupefilter with scrapy's default scheduler # if scrapy passes spider on open() method this wouldn't be needed # TODO: Use SCRAPY_JOB env as default and fallback to timestamp. key = defaults.DUPEFILTER_KEY % {'timestamp': int(time.time())} debug = settings.getbool('DUPEFILTER_DEBUG') return cls(server, key=key, debug=debug) @classmethod def from_crawler(cls, crawler): """Returns instance from crawler. Parameters ---------- crawler : scrapy.crawler.Crawler Returns ------- RFPDupeFilter Instance of RFPDupeFilter. """ return cls.from_settings(crawler.settings) def request_seen(self, request): """Returns True if request was already seen. Parameters ---------- request : scrapy.http.Request Returns ------- bool """ fp = self.request_fingerprint(request) # This returns the number of values added, zero if already exists. added = self.server.sadd(self.key, fp) return added == 0 def request_fingerprint(self, request): """Returns a fingerprint for a given request. Parameters ---------- request : scrapy.http.Request Returns ------- str """ return request_fingerprint(request) def close(self, reason=''): """Delete data on close. Called by Scrapy's scheduler. Parameters ---------- reason : str, optional """ self.clear() def clear(self): """Clears fingerprints data.""" self.server.delete(self.key) def log(self, request, spider): """Logs given request. Parameters ---------- request : scrapy.http.Request spider : scrapy.spiders.Spider """ if self.debug: msg = "Filtered duplicate request: %(request)s" self.logger.debug(msg, {'request': request}, extra={'spider': spider}) elif self.logdupes: msg = ("Filtered duplicate request %(request)s" " - no more duplicates will be shown" " (see DUPEFILTER_DEBUG to show all duplicates)") self.logger.debug(msg, {'request': request}, extra={'spider': spider}) self.logdupes = False
这个文件看起来比较复杂,重写了scrapy本身已经实现的request判重功能。因为本身scrapy单机跑的话,只需要读取内存中的request队列或者持久化的request队列(scrapy默认的持久化似乎是json格式的文件,不是数据库)就能判断这次要发出的request url是否已经请求过或者正在调度(本地读就行了)。而分布式跑的话,就需要各个主机上的scheduler都连接同一个数据库的同一个request池来判断这次的请求是否是重复的了。
在这个文件中,通过继承BaseDupeFilter重写他的方法,实现了基于redis的判重。根据源代码来看,scrapy-redis使用了scrapy本身的一个fingerprint接request_fingerprint,这个接口很有趣,根据scrapy文档所说,他通过hash来判断两个url是否相同(相同的url会生成相同的hash结果),但是当两个url的地址相同,get型参数相同但是顺序不同时,也会生成相同的hash结果(这个真的比较神奇。。。)所以scrapy-redis依旧使用url的fingerprint来判断request请求是否已经出现过。这个类通过连接redis,使用一个key来向redis的一个set中插入fingerprint(这个key对于同一种spider是相同的,redis是一个key-value的数据库,如果key是相同的,访问到的值就是相同的,这里使用spider名字+DupeFilter的key就是为了在不同主机上的不同爬虫实例,只要属于同一种spider,就会访问到同一个set,而这个set就是他们的url判重池),如果返回值为0,说明该set中该fingerprint已经存在(因为集合是没有重复值的),则返回False,如果返回值为1,说明添加了一个fingerprint到set中,则说明这个request没有重复,于是返回True,还顺便把新fingerprint加入到数据库中了。
DupeFilter判重会在scheduler类中用到,每一个request在进入调度之前都要进行判重,如果重复就不需要参加调度,直接舍弃就好了,不然就是白白浪费资源。
picklecompat.py
"""A pickle wrapper module with protocol=-1 by default.""" try: import cPickle as pickle # PY2 except ImportError: import pickle def loads(s): return pickle.loads(s) def dumps(obj): return pickle.dumps(obj, protocol=-1)
这里实现了loads和dumps两个函数,其实就是实现了一个serializer,因为redis数据库不能存储复杂对象(value部分只能是字符串,字符串列表,字符串集合和hash,key部分只能是字符串),所以我们存啥都要先串行化成文本才行。这里使用的就是python的pickle模块,一个兼容py2和py3的串行化工具。这个serializer主要用于一会的scheduler存reuqest对象,至于为什么不实用json格式,我也不是很懂,item pipeline的串行化默认用的就是json。
pipeline.py
from scrapy.utils.misc import load_object from scrapy.utils.serialize import ScrapyJSONEncoder from twisted.internet.threads import deferToThread from . import connection, defaults default_serialize = ScrapyJSONEncoder().encode class RedisPipeline(object): """Pushes serialized item into a redis list/queue Settings -------- REDIS_ITEMS_KEY : str Redis key where to store items. REDIS_ITEMS_SERIALIZER : str Object path to serializer function. """ def __init__(self, server, key=defaults.PIPELINE_KEY, serialize_func=default_serialize): """Initialize pipeline. Parameters ---------- server : StrictRedis Redis client instance. key : str Redis key where to store items. serialize_func : callable Items serializer function. """ self.server = server self.key = key self.serialize = serialize_func @classmethod def from_settings(cls, settings): params = { 'server': connection.from_settings(settings), } if settings.get('REDIS_ITEMS_KEY'): params['key'] = settings['REDIS_ITEMS_KEY'] if settings.get('REDIS_ITEMS_SERIALIZER'): params['serialize_func'] = load_object( settings['REDIS_ITEMS_SERIALIZER'] ) return cls(**params) @classmethod def from_crawler(cls, crawler): return cls.from_settings(crawler.settings) def process_item(self, item, spider): return deferToThread(self._process_item, item, spider) def _process_item(self, item, spider): key = self.item_key(item, spider) data = self.serialize(item) self.server.rpush(key, data) return item def item_key(self, item, spider): """Returns redis key based on given spider. Override this function to use a different key depending on the item and/or spider. """ return self.key % {'spider': spider.name}
pipeline文件实现了一个item pipieline类,和scrapy的item pipeline是同一个对象,通过从settings中拿到我们配置的REDIS_ITEMS_KEY作为key,把item串行化之后存入redis数据库对应的value中(这个value可以看出出是个list,我们的每个item是这个list中的一个结点),这个pipeline把提取出的item存起来,主要是为了方便我们延后处理数据。
queue.py
from scrapy.utils.reqser import request_to_dict, request_from_dict from . import picklecompat class Base(object): """Per-spider base queue class""" def __init__(self, server, spider, key, serializer=None): """Initialize per-spider redis queue. Parameters ---------- server : StrictRedis Redis client instance. spider : Spider Scrapy spider instance. key: str Redis key where to put and get messages. serializer : object Serializer object with ``loads`` and ``dumps`` methods. """ if serializer is None: # Backward compatibility. # TODO: deprecate pickle. serializer = picklecompat if not hasattr(serializer, 'loads'): raise TypeError("serializer does not implement 'loads' function: %r" % serializer) if not hasattr(serializer, 'dumps'): raise TypeError("serializer '%s' does not implement 'dumps' function: %r" % serializer) self.server = server self.spider = spider self.key = key % {'spider': spider.name} self.serializer = serializer def _encode_request(self, request): """Encode a request object""" obj = request_to_dict(request, self.spider) return self.serializer.dumps(obj) def _decode_request(self, encoded_request): """Decode an request previously encoded""" obj = self.serializer.loads(encoded_request) return request_from_dict(obj, self.spider) def __len__(self): """Return the length of the queue""" raise NotImplementedError def push(self, request): """Push a request""" raise NotImplementedError def pop(self, timeout=0): """Pop a request""" raise NotImplementedError def clear(self): """Clear queue/stack""" self.server.delete(self.key) class FifoQueue(Base): """Per-spider FIFO queue""" def __len__(self): """Return the length of the queue""" return self.server.llen(self.key) def push(self, request): """Push a request""" self.server.lpush(self.key, self._encode_request(request)) def pop(self, timeout=0): """Pop a request""" if timeout > 0: data = self.server.brpop(self.key, timeout) if isinstance(data, tuple): data = data[1] else: data = self.server.rpop(self.key) if data: return self._decode_request(data) class PriorityQueue(Base): """Per-spider priority queue abstraction using redis' sorted set""" def __len__(self): """Return the length of the queue""" return self.server.zcard(self.key) def push(self, request): """Push a request""" data = self._encode_request(request) score = -request.priority # We don't use zadd method as the order of arguments change depending on # whether the class is Redis or StrictRedis, and the option of using # kwargs only accepts strings, not bytes. self.server.execute_command('ZADD', self.key, score, data) def pop(self, timeout=0): """ Pop a request timeout not support in this queue class """ # use atomic range/remove using multi/exec pipe = self.server.pipeline() pipe.multi() pipe.zrange(self.key, 0, 0).zremrangebyrank(self.key, 0, 0) results, count = pipe.execute() if results: return self._decode_request(results[0]) class LifoQueue(Base): """Per-spider LIFO queue.""" def __len__(self): """Return the length of the stack""" return self.server.llen(self.key) def push(self, request): """Push a request""" self.server.lpush(self.key, self._encode_request(request)) def pop(self, timeout=0): """Pop a request""" if timeout > 0: data = self.server.blpop(self.key, timeout) if isinstance(data, tuple): data = data[1] else: data = self.server.lpop(self.key) if data: return self._decode_request(data) # TODO: Deprecate the use of these names. SpiderQueue = FifoQueue SpiderStack = LifoQueue SpiderPriorityQueue = PriorityQueue
该文件实现了几个容器类,可以看这些容器和redis交互频繁,同时使用了我们上边picklecompat中定义的serializer。这个文件实现的几个容器大体相同,只不过一个是队列,一个是栈,一个是优先级队列,这三个容器到时候会被scheduler对象实例化,来实现request的调度。比如我们使用SpiderQueue最为调度队列的类型,到时候request的调度方法就是先进先出,而实用SpiderStack就是先进后出了。
我们可以仔细看看SpiderQueue的实现,他的push函数就和其他容器的一样,只不过push进去的request请求先被scrapy的接口request_to_dict变成了一个dict对象(因为request对象实在是比较复杂,有方法有属性不好串行化),之后使用picklecompat中的serializer串行化为字符串,然后使用一个特定的key存入redis中(该key在同一种spider中是相同的)。而调用pop时,其实就是从redis用那个特定的key去读其值(一个list),从list中读取最早进去的那个,于是就先进先出了。
这些容器类都会作为scheduler调度request的容器,scheduler在每个主机上都会实例化一个,并且和spider一一对应,所以分布式运行时会有一个spider的多个实例和一个scheduler的多个实例存在于不同的主机上,但是,因为scheduler都是用相同的容器,而这些容器都连接同一个redis服务器,又都使用spider名加queue来作为key读写数据,所以不同主机上的不同爬虫实例公用一个request调度池,实现了分布式爬虫之间的统一调度。
scheduler.py
import importlib import six from scrapy.utils.misc import load_object from . import connection, defaults # TODO: add SCRAPY_JOB support. class Scheduler(object): """Redis-based scheduler Settings -------- SCHEDULER_PERSIST : bool (default: False) Whether to persist or clear redis queue. SCHEDULER_FLUSH_ON_START : bool (default: False) Whether to flush redis queue on start. SCHEDULER_IDLE_BEFORE_CLOSE : int (default: 0) How many seconds to wait before closing if no message is received. SCHEDULER_QUEUE_KEY : str Scheduler redis key. SCHEDULER_QUEUE_CLASS : str Scheduler queue class. SCHEDULER_DUPEFILTER_KEY : str Scheduler dupefilter redis key. SCHEDULER_DUPEFILTER_CLASS : str Scheduler dupefilter class. SCHEDULER_SERIALIZER : str Scheduler serializer. """ def __init__(self, server, persist=False, flush_on_start=False, queue_key=defaults.SCHEDULER_QUEUE_KEY, queue_cls=defaults.SCHEDULER_QUEUE_CLASS, dupefilter_key=defaults.SCHEDULER_DUPEFILTER_KEY, dupefilter_cls=defaults.SCHEDULER_DUPEFILTER_CLASS, idle_before_close=0, serializer=None): """Initialize scheduler. Parameters ---------- server : Redis The redis server instance. persist : bool Whether to flush requests when closing. Default is False. flush_on_start : bool Whether to flush requests on start. Default is False. queue_key : str Requests queue key. queue_cls : str Importable path to the queue class. dupefilter_key : str Duplicates filter key. dupefilter_cls : str Importable path to the dupefilter class. idle_before_close : int Timeout before giving up. """ if idle_before_close < 0: raise TypeError("idle_before_close cannot be negative") self.server = server self.persist = persist self.flush_on_start = flush_on_start self.queue_key = queue_key self.queue_cls = queue_cls self.dupefilter_cls = dupefilter_cls self.dupefilter_key = dupefilter_key self.idle_before_close = idle_before_close self.serializer = serializer self.stats = None def __len__(self): return len(self.queue) @classmethod def from_settings(cls, settings): kwargs = { 'persist': settings.getbool('SCHEDULER_PERSIST'), 'flush_on_start': settings.getbool('SCHEDULER_FLUSH_ON_START'), 'idle_before_close': settings.getint('SCHEDULER_IDLE_BEFORE_CLOSE'), } # If these values are missing, it means we want to use the defaults. optional = { # TODO: Use custom prefixes for this settings to note that are # specific to scrapy-redis. 'queue_key': 'SCHEDULER_QUEUE_KEY', 'queue_cls': 'SCHEDULER_QUEUE_CLASS', 'dupefilter_key': 'SCHEDULER_DUPEFILTER_KEY', # We use the default setting name to keep compatibility. 'dupefilter_cls': 'DUPEFILTER_CLASS', 'serializer': 'SCHEDULER_SERIALIZER', } for name, setting_name in optional.items(): val = settings.get(setting_name) if val: kwargs[name] = val # Support serializer as a path to a module. if isinstance(kwargs.get('serializer'), six.string_types): kwargs['serializer'] = importlib.import_module(kwargs['serializer']) server = connection.from_settings(settings) # Ensure the connection is working. server.ping() return cls(server=server, **kwargs) @classmethod def from_crawler(cls, crawler): instance = cls.from_settings(crawler.settings) # FIXME: for now, stats are only supported from this constructor instance.stats = crawler.stats return instance def open(self, spider): self.spider = spider try: self.queue = load_object(self.queue_cls)( server=self.server, spider=spider, key=self.queue_key % {'spider': spider.name}, serializer=self.serializer, ) except TypeError as e: raise ValueError("Failed to instantiate queue class '%s': %s", self.queue_cls, e) try: self.df = load_object(self.dupefilter_cls)( server=self.server, key=self.dupefilter_key % {'spider': spider.name}, debug=spider.settings.getbool('DUPEFILTER_DEBUG'), ) except TypeError as e: raise ValueError("Failed to instantiate dupefilter class '%s': %s", self.dupefilter_cls, e) if self.flush_on_start: self.flush() # notice if there are requests already in the queue to resume the crawl if len(self.queue): spider.log("Resuming crawl (%d requests scheduled)" % len(self.queue)) def close(self, reason): if not self.persist: self.flush() def flush(self): self.df.clear() self.queue.clear() def enqueue_request(self, request): if not request.dont_filter and self.df.request_seen(request): self.df.log(request, self.spider) return False if self.stats: self.stats.inc_value('scheduler/enqueued/redis', spider=self.spider) self.queue.push(request) return True def next_request(self): block_pop_timeout = self.idle_before_close request = self.queue.pop(block_pop_timeout) if request and self.stats: self.stats.inc_value('scheduler/dequeued/redis', spider=self.spider) return request def has_pending_requests(self): return len(self) > 0
这个文件重写了scheduler类,用来代替scrapy.core.scheduler的原有调度器。其实对原有调度器的逻辑没有很大的改变,主要是使用了redis作为数据存储的媒介,以达到各个爬虫之间的统一调度。
scheduler负责调度各个spider的request请求,scheduler初始化时,通过settings文件读取queue和dupefilters的类型(一般就用上边默认的),配置queue和dupefilters使用的key(一般就是spider name加上queue或者dupefilters,这样对于同一种spider的不同实例,就会使用相同的数据块了)。每当一个request要被调度时,enqueue_request被调用,scheduler使用dupefilters来判断这个url是否重复,如果不重复,就添加到queue的容器中(先进先出,先进后出和优先级都可以,可以在settings中配置)。当调度完成时,next_request被调用,scheduler就通过queue容器的接口,取出一个request,把他发送给相应的spider,让spider进行爬取工作。
同时我们可以看到,如果setting文件中配置了SCHEDULER_PERSIST为True,那么在爬虫关闭的时候scheduler会调用自己的flush函数把redis数据库中的判重和调度池全部清空,使得我们的爬取进度完全丢失(但是item没有丢失,item数据在另一个键中储存)。如果设置SCHEDULER_PERSIST为False,爬虫关闭后,判重池和调度池仍然存在于redis数据库中,则我们再次开启爬虫时,可以接着上一次的进度继续爬取。
spider.py
from scrapy import signals from scrapy.exceptions import DontCloseSpider from scrapy.spiders import Spider, CrawlSpider from . import connection, defaults from .utils import bytes_to_str class RedisMixin(object): """Mixin class to implement reading urls from a redis queue.""" redis_key = None redis_batch_size = None redis_encoding = None # Redis client placeholder. server = None def start_requests(self): """Returns a batch of start requests from redis.""" return self.next_requests() def setup_redis(self, crawler=None): """Setup redis connection and idle signal. This should be called after the spider has set its crawler object. """ if self.server is not None: return if crawler is None: # We allow optional crawler argument to keep backwards # compatibility. # XXX: Raise a deprecation warning. crawler = getattr(self, 'crawler', None) if crawler is None: raise ValueError("crawler is required") settings = crawler.settings if self.redis_key is None: self.redis_key = settings.get( 'REDIS_START_URLS_KEY', defaults.START_URLS_KEY, ) self.redis_key = self.redis_key % {'name': self.name} if not self.redis_key.strip(): raise ValueError("redis_key must not be empty") if self.redis_batch_size is None: # TODO: Deprecate this setting (REDIS_START_URLS_BATCH_SIZE). self.redis_batch_size = settings.getint( 'REDIS_START_URLS_BATCH_SIZE', settings.getint('CONCURRENT_REQUESTS'), ) try: self.redis_batch_size = int(self.redis_batch_size) except (TypeError, ValueError): raise ValueError("redis_batch_size must be an integer") if self.redis_encoding is None: self.redis_encoding = settings.get('REDIS_ENCODING', defaults.REDIS_ENCODING) self.logger.info("Reading start URLs from redis key '%(redis_key)s' " "(batch size: %(redis_batch_size)s, encoding: %(redis_encoding)s", self.__dict__) self.server = connection.from_settings(crawler.settings) # The idle signal is called when the spider has no requests left, # that's when we will schedule new requests from redis queue crawler.signals.connect(self.spider_idle, signal=signals.spider_idle) def next_requests(self): """Returns a request to be scheduled or none.""" use_set = self.settings.getbool('REDIS_START_URLS_AS_SET', defaults.START_URLS_AS_SET) fetch_one = self.server.spop if use_set else self.server.lpop # XXX: Do we need to use a timeout here? found = 0 # TODO: Use redis pipeline execution. while found < self.redis_batch_size: data = fetch_one(self.redis_key) if not data: # Queue empty. break req = self.make_request_from_data(data) if req: yield req found += 1 else: self.logger.debug("Request not made from data: %r", data) if found: self.logger.debug("Read %s requests from '%s'", found, self.redis_key) def make_request_from_data(self, data): """Returns a Request instance from data coming from Redis. By default, ``data`` is an encoded URL. You can override this method to provide your own message decoding. Parameters ---------- data : bytes Message from redis. """ url = bytes_to_str(data, self.redis_encoding) return self.make_requests_from_url(url) def schedule_next_requests(self): """Schedules a request if available""" # TODO: While there is capacity, schedule a batch of redis requests. for req in self.next_requests(): self.crawler.engine.crawl(req, spider=self) def spider_idle(self): """Schedules a request if available, otherwise waits.""" # XXX: Handle a sentinel to close the spider. self.schedule_next_requests() raise DontCloseSpider class RedisSpider(RedisMixin, Spider): """Spider that reads urls from redis queue when idle. Attributes ---------- redis_key : str (default: REDIS_START_URLS_KEY) Redis key where to fetch start URLs from.. redis_batch_size : int (default: CONCURRENT_REQUESTS) Number of messages to fetch from redis on each attempt. redis_encoding : str (default: REDIS_ENCODING) Encoding to use when decoding messages from redis queue. Settings -------- REDIS_START_URLS_KEY : str (default: "<spider.name>:start_urls") Default Redis key where to fetch start URLs from.. REDIS_START_URLS_BATCH_SIZE : int (deprecated by CONCURRENT_REQUESTS) Default number of messages to fetch from redis on each attempt. REDIS_START_URLS_AS_SET : bool (default: False) Use SET operations to retrieve messages from the redis queue. If False, the messages are retrieve using the LPOP command. REDIS_ENCODING : str (default: "utf-8") Default encoding to use when decoding messages from redis queue. """ @classmethod def from_crawler(self, crawler, *args, **kwargs): obj = super(RedisSpider, self).from_crawler(crawler, *args, **kwargs) obj.setup_redis(crawler) return obj class RedisCrawlSpider(RedisMixin, CrawlSpider): """Spider that reads urls from redis queue when idle. Attributes ---------- redis_key : str (default: REDIS_START_URLS_KEY) Redis key where to fetch start URLs from.. redis_batch_size : int (default: CONCURRENT_REQUESTS) Number of messages to fetch from redis on each attempt. redis_encoding : str (default: REDIS_ENCODING) Encoding to use when decoding messages from redis queue. Settings -------- REDIS_START_URLS_KEY : str (default: "<spider.name>:start_urls") Default Redis key where to fetch start URLs from.. REDIS_START_URLS_BATCH_SIZE : int (deprecated by CONCURRENT_REQUESTS) Default number of messages to fetch from redis on each attempt. REDIS_START_URLS_AS_SET : bool (default: True) Use SET operations to retrieve messages from the redis queue. REDIS_ENCODING : str (default: "utf-8") Default encoding to use when decoding messages from redis queue. """ @classmethod def from_crawler(self, crawler, *args, **kwargs): obj = super(RedisCrawlSpider, self).from_crawler(crawler, *args, **kwargs) obj.setup_redis(crawler) return obj
spider的改动也不是很大,主要是通过connect接口,给spider绑定了spider_idle信号,spider初始化时,通过setup_redis函数初始化好和redis的连接,之后通过next_requests函数从redis中取出strat url,使用的key是settings中REDIS_START_URLS_AS_SET定义的(注意了这里的初始化url池和我们上边的queue的url池不是一个东西,queue的池是用于调度的,初始化url池是存放入口url的,他们都存在redis中,但是使用不同的key来区分,就当成是不同的表吧),spider使用少量的start url,可以发展出很多新的url,这些url会进入scheduler进行判重和调度。直到spider跑到调度池内没有url的时候,会触发spider_idle信号,从而触发spider的next_requests函数,再次从redis的start url池中读取一些url。
总结:
crapy-redis的总体思路:这个工程通过重写scheduler和spider类,实现了调度、spider启动和redis的交互。实现新的dupefilter和queue类,达到了判重和调度容器和redis的交互,因为每个主机上的爬虫进程都访问同一个redis数据库,所以调度和判重都统一进行统一管理,达到了分布式爬虫的目的。
当spider被初始化时,同时会初始化一个对应的scheduler对象,这个调度器对象通过读取settings,配置好自己的调度容器queue和判重工具dupefilter。每当一个spider产出一个request的时候,scrapy内核会把这个reuqest递交给这个spider对应的scheduler对象进行调度,scheduler对象通过访问redis对request进行判重,如果不重复就把他添加进redis中的调度池。当调度条件满足时,scheduler对象就从redis的调度池中取出一个request发送给spider,让他爬取。当spider爬取的所有暂时可用url之后,scheduler发现这个spider对应的redis的调度池空了,于是触发信号spider_idle,spider收到这个信号之后,直接连接redis读取strart url池,拿去新的一批url入口,然后再次重复上边的工作