import time from typing import List, Dict, Callable, Optional, Set from urllib.parse import urlparse, urlunsplit, ParseResult import logging import threading import requests from tqdm import tqdm from .rotating import RotatingProxy from ..utils.shared import PROXIES_LIST, CHUNK_SIZE from ..utils.support_classes import DownloadResult from ..objects import Target class Connection: def __init__( self, host: str, proxies: List[dict] = None, tries: int = (len(PROXIES_LIST) + 1) * 4, timeout: int = 7, logger: logging.Logger = logging.getLogger("connection"), header_values: Dict[str, str] = None, accepted_response_codes: Set[int] = None, semantic_not_found: bool = True, sleep_after_404: float = 0.0, hearthbeat_interval = 0, ): if proxies is None: proxies = PROXIES_LIST if header_values is None: header_values = dict() self.HEADER_VALUES = header_values self.LOGGER = logger self.HOST = urlparse(host) self.TRIES = tries self.TIMEOUT = timeout self.rotating_proxy = RotatingProxy(proxy_list=proxies) self.ACCEPTED_RESPONSE_CODES = accepted_response_codes or {200} self.SEMANTIC_NOT_FOUND = semantic_not_found self.sleep_after_404 = sleep_after_404 self.session = requests.Session() self.session.headers = self.get_header(**self.HEADER_VALUES) self.session.proxies = self.rotating_proxy.current_proxy self.session_is_occupied: bool = False self.hearthbeat_thread = None self.hearthbeat_interval = hearthbeat_interval def start_hearthbeat(self): if self.hearthbeat_interval <= 0: self.LOGGER.warning(f"Can't start a hearthbeat with {self.hearthbeat_interval}s in between.") self.hearthbeat_thread = threading.Thread(target=self._hearthbeat_loop, args=(self.hearthbeat_interval, ), daemon=True) self.hearthbeat_thread.start() def hearthbeat_failed(self): self.LOGGER.warning(f"I just died... (The hearthbeat failed)") def hearthbeat(self): # Your code to send heartbeat requests goes here print("the hearth is beating, but it needs to be implemented ;-;\nFuck youuuu for setting hearthbeat in the constructor to true, but not implementing the method Connection.hearbeat()") def _hearthbeat_loop(self, interval: float): def hearthbeat_wrapper(): self.session_is_occupied = True self.LOGGER.info(f"I am living. (sending a hearthbeat)") self.hearthbeat() self.LOGGER.debug(f"finished the hearthbeat") self.session_is_occupied = False while True: hearthbeat_wrapper() time.sleep(interval) def base_url(self, url: ParseResult = None): if url is None: url = self.HOST return urlunsplit((url.scheme, url.netloc, "", "", "")) def get_header(self, **header_values) -> Dict[str, str]: return { "user-agent": "Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/112.0.0.0 Safari/537.36", "Connection": "keep-alive", # "Host": self.HOST.netloc, "Referer": self.base_url(), **header_values } def rotate(self): self.session.proxies = self.rotating_proxy.rotate() def _update_headers( self, headers: Optional[dict], refer_from_origin: bool, url: ParseResult ) -> Dict[str, str]: if headers is None: headers = dict() if not refer_from_origin: headers["Referer"] = self.base_url(url=url) return headers def _request( self, request: Callable, try_count: int, accepted_response_codes: set, url: str, timeout: float, headers: dict, refer_from_origin: bool = True, raw_url: bool = False, sleep_after_404: float = None, is_hearthbeat: bool = False, **kwargs ) -> Optional[requests.Response]: if sleep_after_404 is None: sleep_after_404 = self.sleep_after_404 if try_count >= self.TRIES: return if timeout is None: timeout = self.TIMEOUT parsed_url = urlparse(url) headers = self._update_headers( headers=headers, refer_from_origin=refer_from_origin, url=parsed_url ) request_url = parsed_url.geturl() if not raw_url else url connection_failed = False try: if self.session_is_occupied and not is_hearthbeat: self.LOGGER.info(f"Waiting for the hearthbeat to finish.") while self.session_is_occupied and not is_hearthbeat: pass r: requests.Response = request(request_url, timeout=timeout, headers=headers, **kwargs) if r.status_code in accepted_response_codes: return r if self.SEMANTIC_NOT_FOUND and r.status_code == 404: self.LOGGER.warning(f"Couldn't find url (404): {request_url}") return None except requests.exceptions.Timeout: self.LOGGER.warning(f"Request timed out at \"{request_url}\": ({try_count}-{self.TRIES})") connection_failed = True except requests.exceptions.ConnectionError: self.LOGGER.warning(f"Couldn't connect to \"{request_url}\": ({try_count}-{self.TRIES})") connection_failed = True if not connection_failed: self.LOGGER.warning(f"{self.HOST.netloc} responded wit {r.status_code} " f"at {url}. ({try_count}-{self.TRIES})") self.LOGGER.debug(r.content) if sleep_after_404 != 0: self.LOGGER.warning(f"Waiting for {sleep_after_404} seconds.") time.sleep(sleep_after_404) self.rotate() return self._request( request=request, try_count=try_count+1, accepted_response_codes=accepted_response_codes, url=url, timeout=timeout, headers=headers, sleep_after_404=sleep_after_404, is_hearthbeat=is_hearthbeat, **kwargs ) def get( self, url: str, refer_from_origin: bool = True, stream: bool = False, accepted_response_codes: set = None, timeout: float = None, headers: dict = None, raw_url: bool = False, **kwargs ) -> Optional[requests.Response]: if accepted_response_codes is None: accepted_response_codes = self.ACCEPTED_RESPONSE_CODES r = self._request( request=self.session.get, try_count=0, accepted_response_codes=accepted_response_codes, url=url, timeout=timeout, headers=headers, raw_url=raw_url, refer_from_origin=refer_from_origin, stream=stream, **kwargs ) if r is None: self.LOGGER.warning(f"Max attempts ({self.TRIES}) exceeded for: GET:{url}") return r def post( self, url: str, json: dict, refer_from_origin: bool = True, stream: bool = False, accepted_response_codes: set = None, timeout: float = None, headers: dict = None, raw_url: bool = False, **kwargs ) -> Optional[requests.Response]: r = self._request( request=self.session.post, try_count=0, accepted_response_codes=accepted_response_codes or self.ACCEPTED_RESPONSE_CODES, url=url, timeout=timeout, headers=headers, refer_from_origin=refer_from_origin, raw_url=raw_url, json=json, stream=stream, **kwargs ) if r is None: self.LOGGER.warning(f"Max attempts ({self.TRIES}) exceeded for: GET:{url}") self.LOGGER.warning(f"payload: {json}") return r def stream_into( self, url: str, target: Target, description: str = "download", refer_from_origin: bool = True, accepted_response_codes: set = None, timeout: float = None, headers: dict = None, raw_url: bool = False, chunk_size: int = CHUNK_SIZE, try_count: int = 0, progress: int = 0, **kwargs ) -> DownloadResult: if progress > 0: if headers is None: headers = dict() headers["Range"] = f"bytes={target.size}-" if accepted_response_codes is None: accepted_response_codes = self.ACCEPTED_RESPONSE_CODES r = self._request( request=self.session.get, try_count=0, accepted_response_codes=accepted_response_codes, url=url, timeout=timeout, headers=headers, raw_url=raw_url, refer_from_origin=refer_from_origin, stream=True, **kwargs ) if r is None: return DownloadResult(error_message=f"Could not establish connection to: {url}") target.create_path() total_size = int(r.headers.get('content-length')) progress = 0 retry = False with target.open("ab") as f: """ https://en.wikipedia.org/wiki/Kilobyte > The internationally recommended unit symbol for the kilobyte is kB. """ with tqdm(total=total_size-target.size, unit='B', unit_scale=True, unit_divisor=1024, desc=description) as t: try: for chunk in r.iter_content(chunk_size=chunk_size): size = f.write(chunk) progress += size t.update(size) except requests.exceptions.ConnectionError: if try_count >= self.TRIES: self.LOGGER.warning(f"Stream timed out at \"{url}\": to many retries, aborting.") return DownloadResult(error_message=f"Stream timed out from {url}, reducing the chunksize might help.") self.LOGGER.warning(f"Stream timed out at \"{url}\": ({try_count}-{self.TRIES})") retry = True if total_size > progress: retry = True if retry: self.LOGGER.warning(f"Retrying stream...") accepted_response_codes.add(206) return self.stream_into( url = url, target = target, description = description, try_count=try_count+1, progress=progress, accepted_response_codes=accepted_response_codes, timeout=timeout, headers=headers, raw_url=raw_url, refer_from_origin=refer_from_origin, chunk_size=chunk_size, **kwargs ) return DownloadResult()