mpri-webdam/crawl/crawl.py

301 lines
10 KiB
Python

from threading import Thread
from urllib.robotparser import RobotFileParser
from urllib.error import URLError
from urllib.parse import urlparse
from ssl import CertificateError
from random import sample, randrange, randint
import re
from datetime import datetime, timedelta
import asyncio
import aiohttp
import async_timeout
from bs4 import BeautifulSoup, Comment
from profiles.models import BrowserFingerprint, SearchEngine
# Ugly hack to use this module alone instead of integrating it with Django
# from django.conf import settings
# Gets all the direct bookmarks in the html.
# We want this to avoid following this kind of bookmark
HARD_LIMIT = 20
MAX_PER_PAGE = 10
FOOTER_URL = re.compile(".*footer.*")
class Settings:
USER_AGENT = 'Default User'
settings = Settings()
def url_getter(html, current_page, root_url):
links_list = [] # The final resutl
soup = BeautifulSoup(html, "html.parser")
# Get only the body
body = soup.find('body')
if not body:
return links_list
# remove the body
if body.footer:
body.footer.decompose()
# remove all comments
comments = soup.findAll(text=lambda text: isinstance(text, Comment))
for comment in comments:
comment.extract()
footers = soup.findAll(id=FOOTER_URL)
for footer in footers:
footer.extract()
# Remove all bookmark links pointing to the current html page.
links = map(lambda link: link.get("href", ""), body.find_all("a"))
for link in links:
if link: #Edge case, if no href found.
if link.startswith("http"):
links_list.append(link)
elif link.startswith('/'): #Internal link, linking to page root url
links_list.append(root_url + link)
elif link.startswith("#"):
continue
else:
links_list.append(current_page + "/" + link)
## uniqifier works with python <= 3.6
#seen = set()
#links_list = [x for x in links_list if x not in seen and not seen.add(x)]
# uniqifier
# Works only with python >= 3.6
links_list = list(dict.fromkeys(links_list))
forbidden_words = ['login', 'agreement', 'mailto', 'settings']
links_list = [link for link in links_list if not any(word in link.lower()
for word in
forbidden_words)]
return links_list
class WebsiteSchedulerMeta(type):
""" Meta-class for WebsiteScheduler, allowing a singleton class-like
interface, but spawning one instance per canonical website URL """
_instances = {}
_canonicalize = re.compile(r'(https?://)?([^/]+)(/?|$)')
def canonical_url(cls, url):
""" Canonicalize a url """
return cls._canonicalize.search(url).groups()[1]
def __call__(cls, url, *args, **kwargs):
canonical = cls.canonical_url(url)
if canonical not in cls._instances:
cls._instances[canonical] = \
super(WebsiteSchedulerMeta, cls) \
.__call__(canonical, *args, **kwargs)
return cls._instances[canonical]
class WebsiteScheduler(metaclass=WebsiteSchedulerMeta):
""" Schedule the accesses to a website as of robots.txt """
search_engines = [] # Must be set by CrawlingThread.__init__
def __init__(self, name, user_agent):
self.name = name
self.last_crawled = datetime.fromtimestamp(0)
self.dead = False
self.can_fetch_b = False
self.user_agent = (user_agent if user_agent is not None
else settings.USER_AGENT)
if any(self.urlroot() in item for item in self.search_engines):
print("found a search engine for %s" % self.urlroot())
self.crawl_delay = timedelta(seconds=5)
self.can_fetch_b = True
else:
try:
robots_url = self.urlroot() + 'robots.txt'
self.robot_parser = RobotFileParser(robots_url)
self.robot_parser.read() # TODO async?
except (URLError, CertificateError):
try:
robots_url = self.unsafe_urlroot() + 'robots.txt'
self.robot_parser = RobotFileParser(robots_url)
self.robot_parser.read()
except URLError: # Almost surely an offline website.
self.dead = True
self.crawl_delay = 0
except Exception as e:
print(e)
raise e
if not self.robot_parser.default_entry:
self.dead = True
if not self.dead:
delay = self.robot_parser.crawl_delay(self.user_agent)
if delay is None:
req_rate = self.robot_parser.request_rate(self.user_agent)
if req_rate is None:
delay = 5
else:
delay = req_rate.requests, req_rate.seconds
self.crawl_delay = timedelta(seconds=delay)
def urlroot(self):
''' Get the root url for this website '''
return 'https://{}/'.format(self.name)
def unsafe_urlroot(self):
return 'http://{}/'.format(self.name)
def fetch_delay(self):
''' Get the delay needed before fetching a page is possible '''
can_fetch_time = self.last_crawled + self.crawl_delay
if can_fetch_time < datetime.now():
return timedelta(0)
return can_fetch_time - datetime.now()
def can_fetch(self, url):
''' Check whether this program can fetch a given page '''
return ((self.can_fetch_b)
or ((not self.dead) and
self.robot_parser.can_fetch(self.user_agent, url)))
def fetching(self):
''' Tell the scheduler that a page is being fetched now '''
self.last_crawled = datetime.now()
class CrawlingThread(Thread):
""" A separate thread for the crawling task. This is needed to use asyncio,
since the thread will need its own event loop. """
def __init__(self, url, output_tree):
engine_list = [engine.url for engine in SearchEngine.objects.all()]
WebsiteScheduler.search_engines = engine_list
nb_fingerprint = len(BrowserFingerprint.objects.all())
fingerprint = BrowserFingerprint.objects.all()[
randint(0, nb_fingerprint - 1)]
self.headers = fingerprint.serialize_headers()
self.output_tree = output_tree
super(CrawlingThread, self).__init__()
self.url = url
def run(self):
tasks = []
#tasks.append(async_crawler("http://plus.google.com/+Python"))
#tasks.append(async_crawler('https://python.org/'))
tasks.append(async_crawler(self.url, self.output_tree))
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
loop.run_until_complete(asyncio.wait(tasks))
loop.close()
class PageGetter:
""" Asynchronously get a webpage, abiding by robots.txt """
headers = None
def __init__(self, session, url, user_agent):
self.url = url
self.session = session
self.user_agent = user_agent
async def get(self, ssl=True):
""" Actually retrieve the webpage """
scheduler = WebsiteScheduler(self.url, self.user_agent)
if not scheduler.can_fetch(self.url):
return None
delay = scheduler.fetch_delay()
while delay > timedelta(0):
await asyncio.sleep(delay.total_seconds())
delay = scheduler.fetch_delay()
scheduler.fetching()
async with async_timeout.timeout(10):
async with self.session.get(self.url, verify_ssl=ssl) as resp:
print("Resp status %s" % resp.status)
try:
return await resp.text()
except UnicodeDecodeError:
return None
async def async_print(url):
""" Debug function to follow what's actually happening """
async with aiohttp.ClientSession() as session:
html = await PageGetter(session, url,
settings.USER_AGENT).get(ssl=False)
print('GOT {}HTML for {}'.format(
'None ' if html is None else '',
url,
))
class CrawlElem:
''' Describes a crawled element, to be assembled into a tree '''
def __init__(self, url, parent):
self.url = url
self.parent = parent
async def async_crawler(url, output_tree, headers=None):
if headers is None:
headers = {}
if 'User-Agent' not in headers:
headers['User-Agent'] = settings.USER_AGENT
user_agent = headers['User-Agent']
queued = [CrawlElem(url, None)]
crawled = set()
crawl_tree = []
while queued and (len(crawled) < HARD_LIMIT):
async with aiohttp.ClientSession(headers=headers) as session:
try:
crawl_elt = queued.pop(0)
url = crawl_elt.url
except IndexError:
print("Error queue is empty")
return crawled
crawled.add(url)
parsed_url = urlparse(url)
print("Crawling {}".format(url))
html = await PageGetter(session, url, user_agent).get(ssl=False)
if html:
crawl_tree.append(crawl_elt)
new_urls = url_getter(
html,
url,
parsed_url.scheme + "://" + parsed_url.netloc
)
if new_urls:
sampled = sample(
new_urls,
randrange(min(MAX_PER_PAGE, len(new_urls)))
)
queued += [
CrawlElem(sample_url, crawl_elt)
for sample_url in sampled
if sample_url not in queued
and sample_url not in crawled
]
print(crawled)
output_tree += crawl_tree
if __name__ == '__main__':
crawl_tree = []
crawl = CrawlingThread(None, "https://google.com/search?q=fabriquer+masque+manif", crawl_tree)
crawl.start()
crawl.join()