mirror of
https://github.com/moparisthebest/SickRage
synced 2024-11-13 21:05:11 -05:00
528 lines
22 KiB
Python
528 lines
22 KiB
Python
#!/usr/bin/env python
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from __future__ import absolute_import, division, print_function, with_statement
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from tornado.concurrent import is_future
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from tornado.escape import utf8, _unicode
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from tornado.httpclient import HTTPResponse, HTTPError, AsyncHTTPClient, main, _RequestProxy
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from tornado import httputil
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from tornado.http1connection import HTTP1Connection, HTTP1ConnectionParameters
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from tornado.iostream import StreamClosedError
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from tornado.netutil import Resolver, OverrideResolver
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from tornado.log import gen_log
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from tornado import stack_context
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from tornado.tcpclient import TCPClient
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import base64
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import collections
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import copy
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import functools
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import re
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import socket
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import sys
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try:
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from io import BytesIO # python 3
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except ImportError:
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from cStringIO import StringIO as BytesIO # python 2
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try:
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import urlparse # py2
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except ImportError:
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import urllib.parse as urlparse # py3
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try:
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import ssl
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except ImportError:
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# ssl is not available on Google App Engine.
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ssl = None
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try:
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import certifi
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except ImportError:
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certifi = None
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def _default_ca_certs():
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if certifi is None:
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raise Exception("The 'certifi' package is required to use https "
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"in simple_httpclient")
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return certifi.where()
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class SimpleAsyncHTTPClient(AsyncHTTPClient):
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"""Non-blocking HTTP client with no external dependencies.
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This class implements an HTTP 1.1 client on top of Tornado's IOStreams.
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It does not currently implement all applicable parts of the HTTP
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specification, but it does enough to work with major web service APIs.
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Some features found in the curl-based AsyncHTTPClient are not yet
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supported. In particular, proxies are not supported, connections
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are not reused, and callers cannot select the network interface to be
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used.
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"""
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def initialize(self, io_loop, max_clients=10,
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hostname_mapping=None, max_buffer_size=104857600,
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resolver=None, defaults=None, max_header_size=None):
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"""Creates a AsyncHTTPClient.
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Only a single AsyncHTTPClient instance exists per IOLoop
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in order to provide limitations on the number of pending connections.
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force_instance=True may be used to suppress this behavior.
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max_clients is the number of concurrent requests that can be
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in progress. Note that this arguments are only used when the
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client is first created, and will be ignored when an existing
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client is reused.
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hostname_mapping is a dictionary mapping hostnames to IP addresses.
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It can be used to make local DNS changes when modifying system-wide
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settings like /etc/hosts is not possible or desirable (e.g. in
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unittests).
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max_buffer_size is the number of bytes that can be read by IOStream. It
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defaults to 100mb.
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"""
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super(SimpleAsyncHTTPClient, self).initialize(io_loop,
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defaults=defaults)
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self.max_clients = max_clients
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self.queue = collections.deque()
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self.active = {}
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self.waiting = {}
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self.max_buffer_size = max_buffer_size
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self.max_header_size = max_header_size
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# TCPClient could create a Resolver for us, but we have to do it
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# ourselves to support hostname_mapping.
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if resolver:
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self.resolver = resolver
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self.own_resolver = False
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else:
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self.resolver = Resolver(io_loop=io_loop)
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self.own_resolver = True
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if hostname_mapping is not None:
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self.resolver = OverrideResolver(resolver=self.resolver,
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mapping=hostname_mapping)
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self.tcp_client = TCPClient(resolver=self.resolver, io_loop=io_loop)
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def close(self):
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super(SimpleAsyncHTTPClient, self).close()
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if self.own_resolver:
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self.resolver.close()
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self.tcp_client.close()
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def fetch_impl(self, request, callback):
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key = object()
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self.queue.append((key, request, callback))
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if not len(self.active) < self.max_clients:
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timeout_handle = self.io_loop.add_timeout(
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self.io_loop.time() + min(request.connect_timeout,
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request.request_timeout),
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functools.partial(self._on_timeout, key))
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else:
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timeout_handle = None
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self.waiting[key] = (request, callback, timeout_handle)
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self._process_queue()
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if self.queue:
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gen_log.debug("max_clients limit reached, request queued. "
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"%d active, %d queued requests." % (
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len(self.active), len(self.queue)))
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def _process_queue(self):
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with stack_context.NullContext():
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while self.queue and len(self.active) < self.max_clients:
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key, request, callback = self.queue.popleft()
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if key not in self.waiting:
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continue
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self._remove_timeout(key)
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self.active[key] = (request, callback)
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release_callback = functools.partial(self._release_fetch, key)
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self._handle_request(request, release_callback, callback)
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def _handle_request(self, request, release_callback, final_callback):
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_HTTPConnection(self.io_loop, self, request, release_callback,
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final_callback, self.max_buffer_size, self.tcp_client,
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self.max_header_size)
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def _release_fetch(self, key):
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del self.active[key]
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self._process_queue()
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def _remove_timeout(self, key):
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if key in self.waiting:
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request, callback, timeout_handle = self.waiting[key]
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if timeout_handle is not None:
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self.io_loop.remove_timeout(timeout_handle)
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del self.waiting[key]
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def _on_timeout(self, key):
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request, callback, timeout_handle = self.waiting[key]
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self.queue.remove((key, request, callback))
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timeout_response = HTTPResponse(
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request, 599, error=HTTPError(599, "Timeout"),
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request_time=self.io_loop.time() - request.start_time)
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self.io_loop.add_callback(callback, timeout_response)
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del self.waiting[key]
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class _HTTPConnection(httputil.HTTPMessageDelegate):
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_SUPPORTED_METHODS = set(["GET", "HEAD", "POST", "PUT", "DELETE", "PATCH", "OPTIONS"])
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def __init__(self, io_loop, client, request, release_callback,
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final_callback, max_buffer_size, tcp_client,
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max_header_size):
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self.start_time = io_loop.time()
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self.io_loop = io_loop
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self.client = client
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self.request = request
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self.release_callback = release_callback
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self.final_callback = final_callback
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self.max_buffer_size = max_buffer_size
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self.tcp_client = tcp_client
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self.max_header_size = max_header_size
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self.code = None
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self.headers = None
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self.chunks = []
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self._decompressor = None
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# Timeout handle returned by IOLoop.add_timeout
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self._timeout = None
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self._sockaddr = None
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with stack_context.ExceptionStackContext(self._handle_exception):
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self.parsed = urlparse.urlsplit(_unicode(self.request.url))
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if self.parsed.scheme not in ("http", "https"):
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raise ValueError("Unsupported url scheme: %s" %
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self.request.url)
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# urlsplit results have hostname and port results, but they
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# didn't support ipv6 literals until python 2.7.
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netloc = self.parsed.netloc
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if "@" in netloc:
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userpass, _, netloc = netloc.rpartition("@")
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match = re.match(r'^(.+):(\d+)$', netloc)
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if match:
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host = match.group(1)
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port = int(match.group(2))
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else:
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host = netloc
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port = 443 if self.parsed.scheme == "https" else 80
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if re.match(r'^\[.*\]$', host):
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# raw ipv6 addresses in urls are enclosed in brackets
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host = host[1:-1]
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self.parsed_hostname = host # save final host for _on_connect
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if request.allow_ipv6 is False:
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af = socket.AF_INET
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else:
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af = socket.AF_UNSPEC
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ssl_options = self._get_ssl_options(self.parsed.scheme)
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timeout = min(self.request.connect_timeout, self.request.request_timeout)
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if timeout:
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self._timeout = self.io_loop.add_timeout(
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self.start_time + timeout,
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stack_context.wrap(self._on_timeout))
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self.tcp_client.connect(host, port, af=af,
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ssl_options=ssl_options,
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callback=self._on_connect)
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def _get_ssl_options(self, scheme):
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if scheme == "https":
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ssl_options = {}
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if self.request.validate_cert:
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ssl_options["cert_reqs"] = ssl.CERT_REQUIRED
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if self.request.ca_certs is not None:
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ssl_options["ca_certs"] = self.request.ca_certs
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else:
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ssl_options["ca_certs"] = _default_ca_certs()
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if self.request.client_key is not None:
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ssl_options["keyfile"] = self.request.client_key
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if self.request.client_cert is not None:
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ssl_options["certfile"] = self.request.client_cert
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# SSL interoperability is tricky. We want to disable
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# SSLv2 for security reasons; it wasn't disabled by default
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# until openssl 1.0. The best way to do this is to use
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# the SSL_OP_NO_SSLv2, but that wasn't exposed to python
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# until 3.2. Python 2.7 adds the ciphers argument, which
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# can also be used to disable SSLv2. As a last resort
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# on python 2.6, we set ssl_version to TLSv1. This is
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# more narrow than we'd like since it also breaks
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# compatibility with servers configured for SSLv3 only,
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# but nearly all servers support both SSLv3 and TLSv1:
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# http://blog.ivanristic.com/2011/09/ssl-survey-protocol-support.html
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if sys.version_info >= (2, 7):
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# In addition to disabling SSLv2, we also exclude certain
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# classes of insecure ciphers.
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ssl_options["ciphers"] = "DEFAULT:!SSLv2:!EXPORT:!DES"
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else:
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# This is really only necessary for pre-1.0 versions
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# of openssl, but python 2.6 doesn't expose version
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# information.
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ssl_options["ssl_version"] = ssl.PROTOCOL_TLSv1
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return ssl_options
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return None
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def _on_timeout(self):
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self._timeout = None
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if self.final_callback is not None:
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raise HTTPError(599, "Timeout")
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def _remove_timeout(self):
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if self._timeout is not None:
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self.io_loop.remove_timeout(self._timeout)
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self._timeout = None
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def _on_connect(self, stream):
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if self.final_callback is None:
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# final_callback is cleared if we've hit our timeout.
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stream.close()
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return
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self.stream = stream
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self.stream.set_close_callback(self._on_close)
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self._remove_timeout()
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if self.final_callback is None:
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return
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if self.request.request_timeout:
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self._timeout = self.io_loop.add_timeout(
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self.start_time + self.request.request_timeout,
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stack_context.wrap(self._on_timeout))
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if (self.request.method not in self._SUPPORTED_METHODS and
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not self.request.allow_nonstandard_methods):
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raise KeyError("unknown method %s" % self.request.method)
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for key in ('network_interface',
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'proxy_host', 'proxy_port',
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'proxy_username', 'proxy_password'):
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if getattr(self.request, key, None):
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raise NotImplementedError('%s not supported' % key)
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if "Connection" not in self.request.headers:
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self.request.headers["Connection"] = "close"
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if "Host" not in self.request.headers:
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if '@' in self.parsed.netloc:
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self.request.headers["Host"] = self.parsed.netloc.rpartition('@')[-1]
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else:
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self.request.headers["Host"] = self.parsed.netloc
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username, password = None, None
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if self.parsed.username is not None:
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username, password = self.parsed.username, self.parsed.password
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elif self.request.auth_username is not None:
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username = self.request.auth_username
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password = self.request.auth_password or ''
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if username is not None:
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if self.request.auth_mode not in (None, "basic"):
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raise ValueError("unsupported auth_mode %s",
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self.request.auth_mode)
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auth = utf8(username) + b":" + utf8(password)
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self.request.headers["Authorization"] = (b"Basic " +
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base64.b64encode(auth))
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if self.request.user_agent:
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self.request.headers["User-Agent"] = self.request.user_agent
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if not self.request.allow_nonstandard_methods:
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if self.request.method in ("POST", "PATCH", "PUT"):
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if (self.request.body is None and
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self.request.body_producer is None):
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raise AssertionError(
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'Body must not be empty for "%s" request'
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% self.request.method)
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else:
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if (self.request.body is not None or
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self.request.body_producer is not None):
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raise AssertionError(
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'Body must be empty for "%s" request'
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% self.request.method)
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if self.request.expect_100_continue:
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self.request.headers["Expect"] = "100-continue"
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if self.request.body is not None:
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# When body_producer is used the caller is responsible for
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# setting Content-Length (or else chunked encoding will be used).
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self.request.headers["Content-Length"] = str(len(
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self.request.body))
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if (self.request.method == "POST" and
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"Content-Type" not in self.request.headers):
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self.request.headers["Content-Type"] = "application/x-www-form-urlencoded"
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if self.request.use_gzip:
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self.request.headers["Accept-Encoding"] = "gzip"
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req_path = ((self.parsed.path or '/') +
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(('?' + self.parsed.query) if self.parsed.query else ''))
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self.stream.set_nodelay(True)
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self.connection = HTTP1Connection(
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self.stream, True,
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HTTP1ConnectionParameters(
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no_keep_alive=True,
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max_header_size=self.max_header_size,
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use_gzip=self.request.use_gzip),
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self._sockaddr)
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start_line = httputil.RequestStartLine(self.request.method,
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req_path, 'HTTP/1.1')
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self.connection.write_headers(start_line, self.request.headers)
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if self.request.expect_100_continue:
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self._read_response()
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else:
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self._write_body(True)
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def _write_body(self, start_read):
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if self.request.body is not None:
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self.connection.write(self.request.body)
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self.connection.finish()
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elif self.request.body_producer is not None:
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fut = self.request.body_producer(self.connection.write)
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if is_future(fut):
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def on_body_written(fut):
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fut.result()
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self.connection.finish()
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if start_read:
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self._read_response()
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self.io_loop.add_future(fut, on_body_written)
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return
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self.connection.finish()
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if start_read:
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self._read_response()
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def _read_response(self):
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# Ensure that any exception raised in read_response ends up in our
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# stack context.
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self.io_loop.add_future(
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self.connection.read_response(self),
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lambda f: f.result())
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def _release(self):
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if self.release_callback is not None:
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release_callback = self.release_callback
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self.release_callback = None
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release_callback()
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def _run_callback(self, response):
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self._release()
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if self.final_callback is not None:
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final_callback = self.final_callback
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self.final_callback = None
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self.io_loop.add_callback(final_callback, response)
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def _handle_exception(self, typ, value, tb):
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if self.final_callback:
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self._remove_timeout()
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if isinstance(value, StreamClosedError):
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value = HTTPError(599, "Stream closed")
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self._run_callback(HTTPResponse(self.request, 599, error=value,
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request_time=self.io_loop.time() - self.start_time,
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))
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if hasattr(self, "stream"):
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# TODO: this may cause a StreamClosedError to be raised
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# by the connection's Future. Should we cancel the
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# connection more gracefully?
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self.stream.close()
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return True
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else:
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# If our callback has already been called, we are probably
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# catching an exception that is not caused by us but rather
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# some child of our callback. Rather than drop it on the floor,
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# pass it along, unless it's just the stream being closed.
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return isinstance(value, StreamClosedError)
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def _on_close(self):
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if self.final_callback is not None:
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message = "Connection closed"
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if self.stream.error:
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raise self.stream.error
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raise HTTPError(599, message)
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def headers_received(self, first_line, headers):
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if self.request.expect_100_continue and first_line.code == 100:
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self._write_body(False)
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return
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self.headers = headers
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self.code = first_line.code
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self.reason = first_line.reason
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if "Content-Length" in self.headers:
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if "," in self.headers["Content-Length"]:
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# Proxies sometimes cause Content-Length headers to get
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# duplicated. If all the values are identical then we can
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# use them but if they differ it's an error.
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pieces = re.split(r',\s*', self.headers["Content-Length"])
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if any(i != pieces[0] for i in pieces):
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raise ValueError("Multiple unequal Content-Lengths: %r" %
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self.headers["Content-Length"])
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self.headers["Content-Length"] = pieces[0]
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content_length = int(self.headers["Content-Length"])
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else:
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content_length = None
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if self.request.header_callback is not None:
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# Reassemble the start line.
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self.request.header_callback('%s %s %s\r\n' % first_line)
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for k, v in self.headers.get_all():
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self.request.header_callback("%s: %s\r\n" % (k, v))
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self.request.header_callback('\r\n')
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if 100 <= self.code < 200 or self.code == 204:
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# These response codes never have bodies
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# http://www.w3.org/Protocols/rfc2616/rfc2616-sec4.html#sec4.3
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if ("Transfer-Encoding" in self.headers or
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content_length not in (None, 0)):
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raise ValueError("Response with code %d should not have body" %
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self.code)
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def finish(self):
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data = b''.join(self.chunks)
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self._remove_timeout()
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original_request = getattr(self.request, "original_request",
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self.request)
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if (self.request.follow_redirects and
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self.request.max_redirects > 0 and
|
|
self.code in (301, 302, 303, 307)):
|
|
assert isinstance(self.request, _RequestProxy)
|
|
new_request = copy.copy(self.request.request)
|
|
new_request.url = urlparse.urljoin(self.request.url,
|
|
self.headers["Location"])
|
|
new_request.max_redirects = self.request.max_redirects - 1
|
|
del new_request.headers["Host"]
|
|
# http://www.w3.org/Protocols/rfc2616/rfc2616-sec10.html#sec10.3.4
|
|
# Client SHOULD make a GET request after a 303.
|
|
# According to the spec, 302 should be followed by the same
|
|
# method as the original request, but in practice browsers
|
|
# treat 302 the same as 303, and many servers use 302 for
|
|
# compatibility with pre-HTTP/1.1 user agents which don't
|
|
# understand the 303 status.
|
|
if self.code in (302, 303):
|
|
new_request.method = "GET"
|
|
new_request.body = None
|
|
for h in ["Content-Length", "Content-Type",
|
|
"Content-Encoding", "Transfer-Encoding"]:
|
|
try:
|
|
del self.request.headers[h]
|
|
except KeyError:
|
|
pass
|
|
new_request.original_request = original_request
|
|
final_callback = self.final_callback
|
|
self.final_callback = None
|
|
self._release()
|
|
self.client.fetch(new_request, final_callback)
|
|
self._on_end_request()
|
|
return
|
|
if self.request.streaming_callback:
|
|
buffer = BytesIO()
|
|
else:
|
|
buffer = BytesIO(data) # TODO: don't require one big string?
|
|
response = HTTPResponse(original_request,
|
|
self.code, reason=getattr(self, 'reason', None),
|
|
headers=self.headers,
|
|
request_time=self.io_loop.time() - self.start_time,
|
|
buffer=buffer,
|
|
effective_url=self.request.url)
|
|
self._run_callback(response)
|
|
self._on_end_request()
|
|
|
|
def _on_end_request(self):
|
|
self.stream.close()
|
|
|
|
def data_received(self, chunk):
|
|
if self.request.streaming_callback is not None:
|
|
self.request.streaming_callback(chunk)
|
|
else:
|
|
self.chunks.append(chunk)
|
|
|
|
|
|
if __name__ == "__main__":
|
|
AsyncHTTPClient.configure(SimpleAsyncHTTPClient)
|
|
main()
|