bazarr/libs/subliminal_patch/http.py

# coding=utf-8
from __future__ import absolute_import
import json
from collections import OrderedDict

import certifi
import ssl
import os
import socket
import logging
import requests
import six.moves.xmlrpc_client
import dns.resolver
import ipaddress
import re
from six import PY3

from requests import exceptions
from urllib3.util import connection
from retry.api import retry_call
from .exceptions import APIThrottled
from dogpile.cache.api import NO_VALUE
from subliminal.cache import region
from subliminal_patch.pitcher import pitchers
from cloudscraper import CloudScraper
import six

try:
    import brotli
except:
    pass

try:
    from six.moves.urllib.parse import urlparse
except ImportError:
    from urllib.parse import urlparse

from subzero.lib.io import get_viable_encoding

logger = logging.getLogger(__name__)
pem_file = os.path.normpath(os.path.join(os.path.dirname(os.path.realpath(__file__)), "..", certifi.where()))
try:
    default_ssl_context = ssl.create_default_context(cafile=pem_file)
except AttributeError:
    # < Python 2.7.9
    default_ssl_context = None


class TimeoutSession(requests.Session):
    timeout = 10

    def __init__(self, timeout=None):
        super(TimeoutSession, self).__init__()
        self.timeout = timeout or self.timeout

    def request(self, method, url, *args, **kwargs):
        if kwargs.get('timeout') is None:
            kwargs['timeout'] = self.timeout

        return super(TimeoutSession, self).request(method, url, *args, **kwargs)


class CertifiSession(TimeoutSession):
    def __init__(self):
        super(CertifiSession, self).__init__()
        self.verify = pem_file


class NeedsCaptchaException(Exception):
    pass


class CFSession(CloudScraper):
    def __init__(self, *args, **kwargs):
        super(CFSession, self).__init__(*args, **kwargs)
        self.debug = os.environ.get("CF_DEBUG", False)

    def _request(self, method, url, *args, **kwargs):
        ourSuper = super(CloudScraper, self)
        resp = ourSuper.request(method, url, *args, **kwargs)

        if resp.headers.get('Content-Encoding') == 'br':
            if self.allow_brotli and resp._content:
                resp._content = brotli.decompress(resp.content)
            else:
                logging.warning('Brotli content detected, But option is disabled, we will not continue.')
                return resp

        # Debug request
        if self.debug:
            self.debugRequest(resp)

        # Check if Cloudflare anti-bot is on
        try:
            if self.is_Challenge_Request(resp):
                if resp.request.method != 'GET':
                    # Work around if the initial request is not a GET,
                    # Supersede with a GET then re-request the original METHOD.
                    CloudScraper.request(self, 'GET', resp.url)
                    resp = ourSuper.request(method, url, *args, **kwargs)
                else:
                    # Solve Challenge
                    resp = self.sendChallengeResponse(resp, **kwargs)

        except ValueError as e:
            if PY3:
                error = str(e)
            else:
                error = e.message
            if error == "Captcha":
                parsed_url = urlparse(url)
                domain = parsed_url.netloc
                # solve the captcha
                site_key = re.search(r'data-sitekey="(.+?)"', resp.text).group(1)
                challenge_s = re.search(r'type="hidden" name="s" value="(.+?)"', resp.text).group(1)
                challenge_ray = re.search(r'data-ray="(.+?)"', resp.text).group(1)
                if not all([site_key, challenge_s, challenge_ray]):
                    raise Exception("cf: Captcha site-key not found!")

                pitcher = pitchers.get_pitcher()("cf: %s" % domain, resp.request.url, site_key,
                                                 user_agent=self.headers["User-Agent"],
                                                 cookies=self.cookies.get_dict(),
                                                 is_invisible=True)

                parsed_url = urlparse(resp.url)
                logger.info("cf: %s: Solving captcha", domain)
                result = pitcher.throw()
                if not result:
                    raise Exception("cf: Couldn't solve captcha!")

                submit_url = '{}://{}/cdn-cgi/l/chk_captcha'.format(parsed_url.scheme, domain)
                method = resp.request.method

                cloudflare_kwargs = {
                    'allow_redirects': False,
                    'headers': {'Referer': resp.url},
                    'params': OrderedDict(
                        [
                            ('s', challenge_s),
                            ('g-recaptcha-response', result)
                        ]
                    )
                }

                return CloudScraper.request(self, method, submit_url, **cloudflare_kwargs)

        return resp

    def request(self, method, url, *args, **kwargs):
        parsed_url = urlparse(url)
        domain = parsed_url.netloc

        cache_key = "cf_data3_%s" % domain

        if not self.cookies.get("cf_clearance", "", domain=domain):
            cf_data = region.get(cache_key)
            if cf_data is not NO_VALUE:
                cf_cookies, hdrs = cf_data
                logger.debug("Trying to use old cf data for %s: %s", domain, cf_data)
                for cookie, value in six.iteritems(cf_cookies):
                    self.cookies.set(cookie, value, domain=domain)

                self.headers = hdrs

        ret = self._request(method, url, *args, **kwargs)

        try:
            cf_data = self.get_cf_live_tokens(domain)
        except:
            pass
        else:
            if cf_data and "cf_clearance" in cf_data[0] and cf_data[0]["cf_clearance"]:
                if cf_data != region.get(cache_key):
                    logger.debug("Storing cf data for %s: %s", domain, cf_data)
                    region.set(cache_key, cf_data)
                elif cf_data[0]["cf_clearance"]:
                    logger.debug("CF Live tokens not updated")

        return ret

    def get_cf_live_tokens(self, domain):
        for d in self.cookies.list_domains():
            if d.startswith(".") and d in ("." + domain):
                cookie_domain = d
                break
        else:
            raise ValueError(
                "Unable to find Cloudflare cookies. Does the site actually have "
                "Cloudflare IUAM (\"I'm Under Attack Mode\") enabled?")

        return (OrderedDict([x for x in [
                    ("__cfduid", self.cookies.get("__cfduid", "", domain=cookie_domain)),
                    ("cf_clearance", self.cookies.get("cf_clearance", "", domain=cookie_domain))
                ] if x[1]]),
                self.headers
        )


class RetryingSession(CertifiSession):
    proxied_functions = ("get", "post")

    def __init__(self):
        super(RetryingSession, self).__init__()

        proxy = os.environ.get('SZ_HTTP_PROXY')
        if proxy:
            self.proxies = {
                "http": proxy,
                "https": proxy
            }

    def retry_method(self, method, *args, **kwargs):
        if self.proxies:
            # fixme: may be a little loud
            logger.debug("Using proxy %s for: %s", self.proxies["http"], args[0])

        return retry_call(getattr(super(RetryingSession, self), method), fargs=args, fkwargs=kwargs, tries=3, delay=5,
                          exceptions=(exceptions.ConnectionError,
                                      exceptions.ProxyError,
                                      exceptions.SSLError,
                                      exceptions.Timeout,
                                      exceptions.ConnectTimeout,
                                      exceptions.ReadTimeout,
                                      socket.timeout))

    def get(self, *args, **kwargs):
        if self.proxies and "timeout" in kwargs and kwargs["timeout"]:
            kwargs["timeout"] = kwargs["timeout"] * 3
        return self.retry_method("get", *args, **kwargs)

    def post(self, *args, **kwargs):
        if self.proxies and "timeout" in kwargs and kwargs["timeout"]:
            kwargs["timeout"] = kwargs["timeout"] * 3
        return self.retry_method("post", *args, **kwargs)


class RetryingCFSession(RetryingSession, CFSession):
    pass


class SubZeroRequestsTransport(six.moves.xmlrpc_client.SafeTransport):
    """
    Drop in Transport for xmlrpclib that uses Requests instead of httplib

    Based on: https://gist.github.com/chrisguitarguy/2354951#gistcomment-2388906

    """
    # change our user agent to reflect Requests
    user_agent = "Python XMLRPC with Requests (python-requests.org)"
    proxies = None

    def __init__(self, use_https=True, verify=None, user_agent=None, timeout=10, *args, **kwargs):
        self.verify = pem_file if verify is None else verify
        self.use_https = use_https
        self.user_agent = user_agent if user_agent is not None else self.user_agent
        self.timeout = timeout
        proxy = os.environ.get('SZ_HTTP_PROXY')
        if proxy:
            self.proxies = {
                "http": proxy,
                "https": proxy
            }

        six.moves.xmlrpc_client.SafeTransport.__init__(self, *args, **kwargs)

    def request(self, host, handler, request_body, verbose=0):
        """
        Make an xmlrpc request.
        """
        headers = {'User-Agent': self.user_agent}
        url = self._build_url(host, handler)
        try:
            resp = requests.post(url, data=request_body, headers=headers,
                                 stream=True, timeout=self.timeout, proxies=self.proxies,
                                 verify=self.verify)
        except ValueError:
            raise
        except Exception:
            raise  # something went wrong
        else:
            resp.raise_for_status()

            try:
                if 'x-ratelimit-remaining' in resp.headers and int(resp.headers['x-ratelimit-remaining']) <= 2:
                    raise APIThrottled()
            except ValueError:
                logger.info('Couldn\'t parse "x-ratelimit-remaining": %r' % resp.headers['x-ratelimit-remaining'])

            self.verbose = verbose
            try:
                return self.parse_response(resp.raw)
            except:
                logger.debug("Bad response data: %r", resp.raw)

    def _build_url(self, host, handler):
        """
        Build a url for our request based on the host, handler and use_http
        property
        """
        scheme = 'https' if self.use_https else 'http'
        handler = handler[1:] if handler and handler[0] == "/" else handler
        return '%s://%s/%s' % (scheme, host, handler)


_orig_create_connection = connection.create_connection


dns_cache = {}


_custom_resolver = None
_custom_resolver_ips = None


def patch_create_connection():
    if hasattr(connection.create_connection, "_sz_patched"):
        return

    def patched_create_connection(address, *args, **kwargs):
        """Wrap urllib3's create_connection to resolve the name elsewhere"""
        # resolve hostname to an ip address; use your own
        # resolver here, as otherwise the system resolver will be used.
        __custom_resolver_ips = os.environ.get("dns_resolvers", None)
        if not __custom_resolver_ips:
            return _orig_create_connection(address, *args, **kwargs)

        global _custom_resolver, _custom_resolver_ips, dns_cache
        host, port = address

        try:
            ipaddress.ip_address(six.text_type(host))
        except (ipaddress.AddressValueError, ValueError):
            # resolver ips changed in the meantime?
            if __custom_resolver_ips != _custom_resolver_ips:
                _custom_resolver = None
                _custom_resolver_ips = __custom_resolver_ips
                dns_cache = {}

            custom_resolver = _custom_resolver

            if not custom_resolver:
                if _custom_resolver_ips:
                    logger.debug("DNS: Trying to use custom DNS resolvers: %s", _custom_resolver_ips)
                    custom_resolver = dns.resolver.Resolver(configure=False)
                    custom_resolver.lifetime = os.environ.get("dns_resolvers_timeout", 8.0)
                    try:
                        custom_resolver.nameservers = json.loads(_custom_resolver_ips)
                    except:
                        logger.debug("DNS: Couldn't load custom DNS resolvers: %s", _custom_resolver_ips)
                    else:
                        _custom_resolver = custom_resolver

            if custom_resolver:
                if host in dns_cache:
                    ip = dns_cache[host]
                    logger.debug("DNS: Using %s=%s from cache", host, ip)
                    return _orig_create_connection((ip, port), *args, **kwargs)
                else:
                    try:
                        ip = custom_resolver.query(host)[0].address
                        logger.debug("DNS: Resolved %s to %s using %s", host, ip, custom_resolver.nameservers)
                        dns_cache[host] = ip
                        return _orig_create_connection((ip, port), *args, **kwargs)
                    except dns.exception.DNSException:
                        logger.warning("DNS: Couldn't resolve %s with DNS: %s", host, custom_resolver.nameservers)

        logger.debug("DNS: Falling back to default DNS or IP on %s", host)
        return _orig_create_connection((host, port), *args, **kwargs)

    patch_create_connection._sz_patched = True
    connection.create_connection = patched_create_connection


patch_create_connection()