pferd/PFERD/crawl/http_crawler.py
2021-05-24 13:10:44 +02:00

166 lines
6.5 KiB
Python

import asyncio
from pathlib import Path, PurePath
from typing import Dict, List, Optional
import aiohttp
from aiohttp.client import ClientTimeout
from ..auth import Authenticator
from ..config import Config
from ..logging import log
from ..utils import fmt_real_path
from ..version import NAME, VERSION
from .crawler import Crawler, CrawlerSection
class HttpCrawlerSection(CrawlerSection):
def http_timeout(self) -> float:
return self.s.getfloat("http_timeout", fallback=20)
class HttpCrawler(Crawler):
COOKIE_FILE = PurePath(".cookies")
def __init__(
self,
name: str,
section: HttpCrawlerSection,
config: Config,
shared_auth: Optional[Authenticator] = None,
) -> None:
super().__init__(name, section, config)
self._authentication_id = 0
self._authentication_lock = asyncio.Lock()
self._request_count = 0
self._http_timeout = section.http_timeout()
self._cookie_jar_path = self._output_dir.resolve(self.COOKIE_FILE)
self._shared_cookie_jar_paths: Optional[List[Path]] = None
self._shared_auth = shared_auth
self._current_cookie_jar: Optional[aiohttp.CookieJar] = None
self._output_dir.register_reserved(self.COOKIE_FILE)
async def _current_auth_id(self) -> int:
"""
Returns the id for the current authentication, i.e. an identifier for the last
successful call to [authenticate].
This method must be called before any request that might authenticate is made, so the
HttpCrawler can properly track when [authenticate] can return early and when actual
authentication is necessary.
"""
# We acquire the lock here to ensure we wait for any concurrent authenticate to finish.
# This should reduce the amount of requests we make: If an authentication is in progress
# all future requests wait for authentication to complete.
async with self._authentication_lock:
self._request_count += 1
return self._authentication_id
async def authenticate(self, caller_auth_id: int) -> None:
"""
Starts the authentication process. The main work is offloaded to _authenticate, which
you should overwrite in a subclass if needed. This method should *NOT* be overwritten.
The [caller_auth_id] should be the result of a [_current_auth_id] call made *before*
the request was made. This ensures that authentication is not performed needlessly.
"""
async with self._authentication_lock:
# Another thread successfully called authenticate in-between
# We do not want to perform auth again, so we return here. We can
# assume the other thread suceeded as authenticate will throw an error
# if it failed and aborts the crawl process.
if caller_auth_id != self._authentication_id:
return
await self._authenticate()
self._authentication_id += 1
# Saving the cookies after the first auth ensures we won't need to re-authenticate
# on the next run, should this one be aborted or crash
self._save_cookies()
async def _authenticate(self) -> None:
"""
Performs authentication. This method must only return normally if authentication suceeded.
In all other cases it must either retry internally or throw a terminal exception.
"""
raise RuntimeError("_authenticate() was called but crawler doesn't provide an implementation")
def share_cookies(self, shared: Dict[Authenticator, List[Path]]) -> None:
if not self._shared_auth:
return
if self._shared_auth in shared:
self._shared_cookie_jar_paths = shared[self._shared_auth]
else:
self._shared_cookie_jar_paths = []
shared[self._shared_auth] = self._shared_cookie_jar_paths
self._shared_cookie_jar_paths.append(self._cookie_jar_path)
def _load_cookies(self) -> None:
log.explain_topic("Loading cookies")
cookie_jar_path: Optional[Path] = None
if self._shared_cookie_jar_paths is None:
log.explain("Not sharing any cookies")
cookie_jar_path = self._cookie_jar_path
else:
log.explain("Sharing cookies")
max_mtime: Optional[float] = None
for path in self._shared_cookie_jar_paths:
if not path.is_file():
log.explain(f"{fmt_real_path(path)} is not a file")
continue
mtime = path.stat().st_mtime
if max_mtime is None or mtime > max_mtime:
log.explain(f"{fmt_real_path(path)} has newest mtime so far")
max_mtime = mtime
cookie_jar_path = path
else:
log.explain(f"{fmt_real_path(path)} has older mtime")
if cookie_jar_path is None:
log.explain("Couldn't find a suitable cookie file")
return
log.explain(f"Loading cookies from {fmt_real_path(cookie_jar_path)}")
try:
self._current_cookie_jar = aiohttp.CookieJar()
self._current_cookie_jar.load(cookie_jar_path)
except Exception as e:
log.explain("Failed to load cookies")
log.explain(str(e))
def _save_cookies(self) -> None:
log.explain_topic("Saving cookies")
if not self._current_cookie_jar:
log.explain("No cookie jar, save aborted")
return
try:
log.explain(f"Saving cookies to {fmt_real_path(self._cookie_jar_path)}")
self._current_cookie_jar.save(self._cookie_jar_path)
except Exception as e:
log.warn(f"Failed to save cookies to {fmt_real_path(self._cookie_jar_path)}")
log.warn(str(e))
async def run(self) -> None:
self._request_count = 0
self._load_cookies()
async with aiohttp.ClientSession(
headers={"User-Agent": f"{NAME}/{VERSION}"},
cookie_jar=self._current_cookie_jar,
timeout=ClientTimeout(total=self._http_timeout)
) as session:
self.session = session
try:
await super().run()
finally:
del self.session
log.explain_topic(f"Total amount of HTTP requests: {self._request_count}")
# They are saved in authenticate, but a final save won't hurt
self._save_cookies()