mirror of
https://github.com/Grasscutters/mitmproxy.git
synced 2024-11-23 16:17:49 +00:00
780 lines
30 KiB
Python
780 lines
30 KiB
Python
from __future__ import absolute_import
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import Cookie
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import copy
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import threading
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import time
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import urllib
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import urlparse
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from email.utils import parsedate_tz, formatdate, mktime_tz
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import netlib
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from netlib import http, tcp, odict, utils, encoding
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from netlib.http import cookies, http1, http2
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from netlib.http.semantics import CONTENT_MISSING
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from .tcp import TCPHandler
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from .primitives import KILL, ProtocolHandler, Flow, Error
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from ..proxy.connection import ServerConnection
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from .. import utils, controller, stateobject, proxy
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from .http_wrappers import decoded, HTTPRequest, HTTPResponse
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class KillSignal(Exception):
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pass
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def send_connect_request(conn, host, port, update_state=True):
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upstream_request = HTTPRequest(
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"authority",
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"CONNECT",
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None,
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host,
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port,
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None,
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(1, 1),
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odict.ODictCaseless(),
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""
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)
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# we currently only support HTTP/1 CONNECT requests
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protocol = http1.HTTP1Protocol(conn)
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conn.send(protocol.assemble(upstream_request))
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resp = HTTPResponse.from_protocol(protocol, upstream_request.method)
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if resp.status_code != 200:
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raise proxy.ProxyError(resp.status_code,
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"Cannot establish SSL " +
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"connection with upstream proxy: \r\n" +
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repr(resp))
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if update_state:
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conn.state.append(("http", {
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"state": "connect",
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"host": host,
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"port": port}
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))
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return resp
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class HTTPFlow(Flow):
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"""
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A HTTPFlow is a collection of objects representing a single HTTP
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transaction. The main attributes are:
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request: HTTPRequest object
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response: HTTPResponse object
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error: Error object
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server_conn: ServerConnection object
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client_conn: ClientConnection object
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Note that it's possible for a Flow to have both a response and an error
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object. This might happen, for instance, when a response was received
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from the server, but there was an error sending it back to the client.
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The following additional attributes are exposed:
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intercepted: Is this flow currently being intercepted?
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live: Does this flow have a live client connection?
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"""
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def __init__(self, client_conn, server_conn, live=None):
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super(HTTPFlow, self).__init__("http", client_conn, server_conn, live)
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self.request = None
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"""@type: HTTPRequest"""
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self.response = None
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"""@type: HTTPResponse"""
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_stateobject_attributes = Flow._stateobject_attributes.copy()
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_stateobject_attributes.update(
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request=HTTPRequest,
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response=HTTPResponse
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)
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@classmethod
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def from_state(cls, state):
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f = cls(None, None)
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f.load_state(state)
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return f
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def __repr__(self):
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s = "<HTTPFlow"
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for a in ("request", "response", "error", "client_conn", "server_conn"):
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if getattr(self, a, False):
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s += "\r\n %s = {flow.%s}" % (a, a)
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s += ">"
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return s.format(flow=self)
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def copy(self):
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f = super(HTTPFlow, self).copy()
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if self.request:
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f.request = self.request.copy()
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if self.response:
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f.response = self.response.copy()
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return f
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def match(self, f):
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"""
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Match this flow against a compiled filter expression. Returns True
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if matched, False if not.
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If f is a string, it will be compiled as a filter expression. If
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the expression is invalid, ValueError is raised.
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"""
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if isinstance(f, basestring):
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from .. import filt
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f = filt.parse(f)
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if not f:
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raise ValueError("Invalid filter expression.")
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if f:
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return f(self)
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return True
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def replace(self, pattern, repl, *args, **kwargs):
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"""
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Replaces a regular expression pattern with repl in both request and
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response of the flow. Encoded content will be decoded before
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replacement, and re-encoded afterwards.
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Returns the number of replacements made.
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"""
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c = self.request.replace(pattern, repl, *args, **kwargs)
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if self.response:
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c += self.response.replace(pattern, repl, *args, **kwargs)
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return c
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class HTTPHandler(ProtocolHandler):
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"""
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HTTPHandler implements mitmproxys understanding of the HTTP protocol.
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"""
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def __init__(self, c):
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super(HTTPHandler, self).__init__(c)
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self.expected_form_in = c.config.mode.http_form_in
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self.expected_form_out = c.config.mode.http_form_out
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self.skip_authentication = False
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def handle_messages(self):
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while self.handle_flow():
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pass
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def get_response_from_server(self, flow):
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self.c.establish_server_connection()
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for attempt in (0, 1):
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try:
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if not self.c.server_conn.protocol:
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# instantiate new protocol if connection does not have one yet
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# TODO: select correct protocol based on ALPN (?)
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self.c.server_conn.protocol = http1.HTTP1Protocol(self.c.server_conn)
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# self.c.server_conn.protocol = http2.HTTP2Protocol(self.c.server_conn)
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# self.c.server_conn.protocol.perform_connection_preface()
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self.c.server_conn.send(self.c.server_conn.protocol.assemble(flow.request))
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# Only get the headers at first...
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flow.response = HTTPResponse.from_protocol(
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self.c.server_conn.protocol,
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flow.request.method,
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body_size_limit=self.c.config.body_size_limit,
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include_body=False,
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)
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break
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except (tcp.NetLibError, http.HttpErrorConnClosed) as v:
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self.c.log(
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"error in server communication: %s" % repr(v),
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level="debug"
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)
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if attempt == 0:
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# In any case, we try to reconnect at least once. This is
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# necessary because it might be possible that we already
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# initiated an upstream connection after clientconnect that
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# has already been expired, e.g consider the following event
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# log:
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# > clientconnect (transparent mode destination known)
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# > serverconnect
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# > read n% of large request
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# > server detects timeout, disconnects
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# > read (100-n)% of large request
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# > send large request upstream
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self.c.server_reconnect()
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else:
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raise
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# call the appropriate script hook - this is an opportunity for an
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# inline script to set flow.stream = True
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flow = self.c.channel.ask("responseheaders", flow)
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if flow is None or flow == KILL:
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raise KillSignal()
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else:
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# now get the rest of the request body, if body still needs to be
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# read but not streaming this response
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if flow.response.stream:
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flow.response.content = CONTENT_MISSING
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else:
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if isinstance(self.c.server_conn.protocol, http1.HTTP1Protocol):
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# streaming is only supported with HTTP/1 at the moment
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flow.response.content = self.c.server_conn.protocol.read_http_body(
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flow.response.headers,
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self.c.config.body_size_limit,
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flow.request.method,
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flow.response.code,
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False
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)
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flow.response.timestamp_end = utils.timestamp()
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def handle_flow(self):
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flow = HTTPFlow(self.c.client_conn, self.c.server_conn, self.live)
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try:
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try:
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if not flow.client_conn.protocol:
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# instantiate new protocol if connection does not have one yet
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# the first request might be a CONNECT - which is currently only supported with HTTP/1
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flow.client_conn.protocol = http1.HTTP1Protocol(self.c.client_conn)
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req = HTTPRequest.from_protocol(
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flow.client_conn.protocol,
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body_size_limit=self.c.config.body_size_limit
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)
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except tcp.NetLibError:
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# don't throw an error for disconnects that happen
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# before/between requests.
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return False
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self.c.log(
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"request",
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"debug",
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[repr(req)]
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)
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ret = self.process_request(flow, req)
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if ret:
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# instantiate new protocol if connection does not have one yet
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# TODO: select correct protocol based on ALPN (?)
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flow.client_conn.protocol = http1.HTTP1Protocol(self.c.client_conn)
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# flow.client_conn.protocol = http2.HTTP2Protocol(self.c.client_conn, is_server=True)
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if ret is not None:
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return ret
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# Be careful NOT to assign the request to the flow before
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# process_request completes. This is because the call can raise an
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# exception. If the request object is already attached, this results
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# in an Error object that has an attached request that has not been
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# sent through to the Master.
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flow.request = req
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request_reply = self.c.channel.ask("request", flow)
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if request_reply is None or request_reply == KILL:
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raise KillSignal()
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# The inline script may have changed request.host
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self.process_server_address(flow)
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if isinstance(request_reply, HTTPResponse):
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flow.response = request_reply
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else:
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self.get_response_from_server(flow)
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# no further manipulation of self.c.server_conn beyond this point
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# we can safely set it as the final attribute value here.
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flow.server_conn = self.c.server_conn
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self.c.log(
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"response",
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"debug",
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[repr(flow.response)]
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)
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response_reply = self.c.channel.ask("response", flow)
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if response_reply is None or response_reply == KILL:
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raise KillSignal()
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self.send_response_to_client(flow)
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if self.check_close_connection(flow):
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return False
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# We sent a CONNECT request to an upstream proxy.
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if flow.request.form_in == "authority" and flow.response.code == 200:
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# TODO: Possibly add headers (memory consumption/usefulness
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# tradeoff) Make sure to add state info before the actual
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# processing of the CONNECT request happens. During an SSL
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# upgrade, we may receive an SNI indication from the client,
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# which resets the upstream connection. If this is the case, we
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# must already re-issue the CONNECT request at this point.
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self.c.server_conn.state.append(
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(
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"http", {
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"state": "connect",
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"host": flow.request.host,
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"port": flow.request.port
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}
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)
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)
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if not self.process_connect_request(
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(flow.request.host, flow.request.port)):
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return False
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# If the user has changed the target server on this connection,
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# restore the original target server
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flow.live.restore_server()
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return True # Next flow please.
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except (
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http.HttpAuthenticationError,
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http.HttpError,
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proxy.ProxyError,
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tcp.NetLibError,
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) as e:
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self.handle_error(e, flow)
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except KillSignal:
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self.c.log("Connection killed", "info")
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finally:
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flow.live = None # Connection is not live anymore.
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return False
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def handle_server_reconnect(self, state):
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if state["state"] == "connect":
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send_connect_request(
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self.c.server_conn,
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state["host"],
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state["port"],
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update_state=False
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)
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else: # pragma: nocover
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raise RuntimeError("Unknown State: %s" % state["state"])
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def handle_error(self, error, flow=None):
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message = repr(error)
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message_debug = None
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if isinstance(error, tcp.NetLibError):
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message = None
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message_debug = "TCP connection closed unexpectedly."
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elif "tlsv1 alert unknown ca" in message:
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message = "TLSv1 Alert Unknown CA: The client does not trust the proxy's certificate."
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elif "handshake error" in message:
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message_debug = message
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message = "SSL handshake error: The client may not trust the proxy's certificate."
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if message:
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self.c.log(message, level="info")
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if message_debug:
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self.c.log(message_debug, level="debug")
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if flow:
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# TODO: no flows without request or with both request and response
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# at the moment.
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if flow.request and not flow.response:
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flow.error = Error(message or message_debug)
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self.c.channel.ask("error", flow)
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try:
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status_code = getattr(error, "code", 502)
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headers = getattr(error, "headers", None)
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html_message = message or ""
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if message_debug:
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html_message += "<pre>%s</pre>" % message_debug
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self.send_error(status_code, html_message, headers)
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except:
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pass
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def send_error(self, status_code, message, headers):
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response = http.status_codes.RESPONSES.get(status_code, "Unknown")
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body = """
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<html>
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<head>
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<title>%d %s</title>
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</head>
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<body>%s</body>
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</html>
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""" % (status_code, response, message)
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if not headers:
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headers = odict.ODictCaseless()
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assert isinstance(headers, odict.ODictCaseless)
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headers["Server"] = [self.c.config.server_version]
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headers["Connection"] = ["close"]
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headers["Content-Length"] = [len(body)]
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headers["Content-Type"] = ["text/html"]
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resp = HTTPResponse(
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(1, 1), # if HTTP/2 is used, this value is ignored anyway
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status_code,
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response,
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headers,
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body,
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)
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# if no protocol is assigned yet - just assume HTTP/1
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# TODO: maybe check ALPN and use HTTP/2 if required?
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protocol = self.c.client_conn.protocol or http1.HTTP1Protocol(self.c.client_conn)
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self.c.client_conn.send(protocol.assemble(resp))
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def process_request(self, flow, request):
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"""
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@returns:
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True, if the request should not be sent upstream
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False, if the connection should be aborted
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None, if the request should be sent upstream
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(a status code != None should be returned directly by handle_flow)
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"""
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if not self.skip_authentication:
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self.authenticate(request)
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# Determine .scheme, .host and .port attributes
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# For absolute-form requests, they are directly given in the request.
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# For authority-form requests, we only need to determine the request scheme.
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# For relative-form requests, we need to determine host and port as
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# well.
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if not request.scheme:
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request.scheme = "https" if flow.server_conn and flow.server_conn.ssl_established else "http"
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if not request.host:
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# Host/Port Complication: In upstream mode, use the server we CONNECTed to,
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# not the upstream proxy.
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if flow.server_conn:
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for s in flow.server_conn.state:
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if s[0] == "http" and s[1]["state"] == "connect":
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request.host, request.port = s[1]["host"], s[1]["port"]
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if not request.host and flow.server_conn:
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request.host, request.port = flow.server_conn.address.host, flow.server_conn.address.port
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# Now we can process the request.
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if request.form_in == "authority":
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if self.c.client_conn.ssl_established:
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raise http.HttpError(
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400,
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"Must not CONNECT on already encrypted connection"
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)
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if self.c.config.mode == "regular":
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self.c.set_server_address((request.host, request.port))
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# Update server_conn attribute on the flow
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flow.server_conn = self.c.server_conn
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# since we currently only support HTTP/1 CONNECT requests
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# the response must be HTTP/1 as well
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self.c.client_conn.send(
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('HTTP/%s.%s 200 ' % (request.httpversion[0], request.httpversion[1])) +
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'Connection established\r\n' +
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'Content-Length: 0\r\n' +
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('Proxy-agent: %s\r\n' % self.c.config.server_version) +
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'\r\n'
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)
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return self.process_connect_request(self.c.server_conn.address)
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elif self.c.config.mode == "upstream":
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return None
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else:
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# CONNECT should never occur if we don't expect absolute-form
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# requests
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pass
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elif request.form_in == self.expected_form_in:
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request.form_out = self.expected_form_out
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if request.form_in == "absolute":
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if request.scheme != "http":
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raise http.HttpError(
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400,
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"Invalid request scheme: %s" % request.scheme
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)
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if self.c.config.mode == "regular":
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# Update info so that an inline script sees the correct
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# value at flow.server_conn
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self.c.set_server_address((request.host, request.port))
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flow.server_conn = self.c.server_conn
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elif request.form_in == "relative":
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if self.c.config.mode == "spoof":
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# Host header
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h = request.pretty_host(hostheader=True)
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if h is None:
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raise http.HttpError(
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400,
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"Invalid request: No host information"
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)
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p = netlib.utils.parse_url("http://" + h)
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request.scheme = p[0]
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request.host = p[1]
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request.port = p[2]
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self.c.set_server_address((request.host, request.port))
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flow.server_conn = self.c.server_conn
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if self.c.config.mode == "sslspoof":
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# SNI is processed in server.py
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if not (flow.server_conn and flow.server_conn.ssl_established):
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raise http.HttpError(
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400,
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"Invalid request: No host information"
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)
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return None
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raise http.HttpError(
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400, "Invalid HTTP request form (expected: %s, got: %s)" % (
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self.expected_form_in, request.form_in
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)
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)
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def process_server_address(self, flow):
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# Depending on the proxy mode, server handling is entirely different
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# We provide a mostly unified API to the user, which needs to be
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# unfiddled here
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# ( See also: https://github.com/mitmproxy/mitmproxy/issues/337 )
|
|
address = tcp.Address((flow.request.host, flow.request.port))
|
|
|
|
ssl = (flow.request.scheme == "https")
|
|
|
|
if self.c.config.mode == "upstream":
|
|
# The connection to the upstream proxy may have a state we may need
|
|
# to take into account.
|
|
connected_to = None
|
|
for s in flow.server_conn.state:
|
|
if s[0] == "http" and s[1]["state"] == "connect":
|
|
connected_to = tcp.Address((s[1]["host"], s[1]["port"]))
|
|
|
|
# We need to reconnect if the current flow either requires a
|
|
# (possibly impossible) change to the connection state, e.g. the
|
|
# host has changed but we already CONNECTed somewhere else.
|
|
needs_server_change = (
|
|
ssl != self.c.server_conn.ssl_established
|
|
or
|
|
# HTTP proxying is "stateless", CONNECT isn't.
|
|
(connected_to and address != connected_to)
|
|
)
|
|
|
|
if needs_server_change:
|
|
# force create new connection to the proxy server to reset
|
|
# state
|
|
self.live.change_server(self.c.server_conn.address, force=True)
|
|
if ssl:
|
|
send_connect_request(
|
|
self.c.server_conn,
|
|
address.host,
|
|
address.port
|
|
)
|
|
self.c.establish_ssl(server=True)
|
|
else:
|
|
# If we're not in upstream mode, we just want to update the host
|
|
# and possibly establish TLS. This is a no op if the addresses
|
|
# match.
|
|
self.live.change_server(address, ssl=ssl)
|
|
|
|
flow.server_conn = self.c.server_conn
|
|
|
|
def send_response_to_client(self, flow):
|
|
if not flow.response.stream:
|
|
# no streaming:
|
|
# we already received the full response from the server and can
|
|
# send it to the client straight away.
|
|
self.c.client_conn.send(self.c.client_conn.protocol.assemble(flow.response))
|
|
else:
|
|
if isinstance(self.c.client_conn.protocol, http2.HTTP2Protocol):
|
|
raise NotImplementedError("HTTP streaming with HTTP/2 is currently not supported.")
|
|
|
|
|
|
# streaming:
|
|
# First send the headers and then transfer the response
|
|
# incrementally:
|
|
h = self.c.client_conn.protocol._assemble_response_first_line(flow.response)
|
|
self.c.client_conn.send(h + "\r\n")
|
|
h = self.c.client_conn.protocol._assemble_response_headers(flow.response, preserve_transfer_encoding=True)
|
|
self.c.client_conn.send(h + "\r\n")
|
|
|
|
chunks = self.c.server_conn.protocol.read_http_body_chunked(
|
|
flow.response.headers,
|
|
self.c.config.body_size_limit,
|
|
flow.request.method,
|
|
flow.response.code,
|
|
False,
|
|
4096
|
|
)
|
|
|
|
if callable(flow.response.stream):
|
|
chunks = flow.response.stream(chunks)
|
|
|
|
for chunk in chunks:
|
|
for part in chunk:
|
|
self.c.client_conn.wfile.write(part)
|
|
self.c.client_conn.wfile.flush()
|
|
|
|
flow.response.timestamp_end = utils.timestamp()
|
|
|
|
def check_close_connection(self, flow):
|
|
"""
|
|
Checks if the connection should be closed depending on the HTTP
|
|
semantics. Returns True, if so.
|
|
"""
|
|
|
|
# TODO: add logic for HTTP/2
|
|
|
|
close_connection = (
|
|
http1.HTTP1Protocol.connection_close(
|
|
flow.request.httpversion,
|
|
flow.request.headers
|
|
) or http1.HTTP1Protocol.connection_close(
|
|
flow.response.httpversion,
|
|
flow.response.headers
|
|
) or http1.HTTP1Protocol.expected_http_body_size(
|
|
flow.response.headers,
|
|
False,
|
|
flow.request.method,
|
|
flow.response.code) == -1
|
|
)
|
|
if close_connection:
|
|
if flow.request.form_in == "authority" and flow.response.code == 200:
|
|
# Workaround for
|
|
# https://github.com/mitmproxy/mitmproxy/issues/313: Some
|
|
# proxies (e.g. Charles) send a CONNECT response with HTTP/1.0
|
|
# and no Content-Length header
|
|
pass
|
|
else:
|
|
return True
|
|
return False
|
|
|
|
def process_connect_request(self, address):
|
|
"""
|
|
Process a CONNECT request.
|
|
Returns True if the CONNECT request has been processed successfully.
|
|
Returns False, if the connection should be closed immediately.
|
|
"""
|
|
address = tcp.Address.wrap(address)
|
|
if self.c.config.check_ignore(address):
|
|
self.c.log("Ignore host: %s:%s" % address(), "info")
|
|
TCPHandler(self.c, log=False).handle_messages()
|
|
return False
|
|
else:
|
|
self.expected_form_in = "relative"
|
|
self.expected_form_out = "relative"
|
|
self.skip_authentication = True
|
|
|
|
# In practice, nobody issues a CONNECT request to send unencrypted
|
|
# HTTP requests afterwards. If we don't delegate to TCP mode, we
|
|
# should always negotiate a SSL connection.
|
|
#
|
|
# FIXME: Turns out the previous statement isn't entirely true.
|
|
# Chrome on Windows CONNECTs to :80 if an explicit proxy is
|
|
# configured and a websocket connection should be established. We
|
|
# don't support websocket at the moment, so it fails anyway, but we
|
|
# should come up with a better solution to this if we start to
|
|
# support WebSockets.
|
|
should_establish_ssl = (
|
|
address.port in self.c.config.ssl_ports
|
|
or
|
|
not self.c.config.check_tcp(address)
|
|
)
|
|
|
|
if should_establish_ssl:
|
|
self.c.log(
|
|
"Received CONNECT request to SSL port. "
|
|
"Upgrading to SSL...", "debug"
|
|
)
|
|
server_ssl = not self.c.config.no_upstream_cert
|
|
if server_ssl:
|
|
self.c.establish_server_connection()
|
|
self.c.establish_ssl(server=server_ssl, client=True)
|
|
self.c.log("Upgrade to SSL completed.", "debug")
|
|
|
|
if self.c.config.check_tcp(address):
|
|
self.c.log(
|
|
"Generic TCP mode for host: %s:%s" % address(),
|
|
"info"
|
|
)
|
|
TCPHandler(self.c).handle_messages()
|
|
return False
|
|
|
|
return True
|
|
|
|
def authenticate(self, request):
|
|
if self.c.config.authenticator:
|
|
if self.c.config.authenticator.authenticate(request.headers):
|
|
self.c.config.authenticator.clean(request.headers)
|
|
else:
|
|
raise http.HttpAuthenticationError(
|
|
self.c.config.authenticator.auth_challenge_headers())
|
|
return request.headers
|
|
|
|
|
|
class RequestReplayThread(threading.Thread):
|
|
name = "RequestReplayThread"
|
|
|
|
def __init__(self, config, flow, masterq, should_exit):
|
|
"""
|
|
masterqueue can be a queue or None, if no scripthooks should be
|
|
processed.
|
|
"""
|
|
self.config, self.flow = config, flow
|
|
if masterq:
|
|
self.channel = controller.Channel(masterq, should_exit)
|
|
else:
|
|
self.channel = None
|
|
super(RequestReplayThread, self).__init__()
|
|
|
|
def run(self):
|
|
r = self.flow.request
|
|
form_out_backup = r.form_out
|
|
try:
|
|
self.flow.response = None
|
|
|
|
# If we have a channel, run script hooks.
|
|
if self.channel:
|
|
request_reply = self.channel.ask("request", self.flow)
|
|
if request_reply is None or request_reply == KILL:
|
|
raise KillSignal()
|
|
elif isinstance(request_reply, HTTPResponse):
|
|
self.flow.response = request_reply
|
|
|
|
if not self.flow.response:
|
|
# In all modes, we directly connect to the server displayed
|
|
if self.config.mode == "upstream":
|
|
# FIXME
|
|
server_address = self.config.mode.get_upstream_server(
|
|
self.flow.client_conn
|
|
)[2:]
|
|
server = ServerConnection(server_address)
|
|
server.connect()
|
|
if r.scheme == "https":
|
|
send_connect_request(server, r.host, r.port)
|
|
server.establish_ssl(
|
|
self.config.clientcerts,
|
|
sni=self.flow.server_conn.sni
|
|
)
|
|
r.form_out = "relative"
|
|
else:
|
|
r.form_out = "absolute"
|
|
else:
|
|
server_address = (r.host, r.port)
|
|
server = ServerConnection(server_address)
|
|
server.connect()
|
|
if r.scheme == "https":
|
|
server.establish_ssl(
|
|
self.config.clientcerts,
|
|
sni=self.flow.server_conn.sni
|
|
)
|
|
r.form_out = "relative"
|
|
|
|
server.send(self.flow.server_conn.protocol.assemble(r))
|
|
self.flow.server_conn = server
|
|
self.flow.server_conn.protocol = http1.HTTP1Protocol(self.flow.server_conn)
|
|
self.flow.response = HTTPResponse.from_protocol(
|
|
self.flow.server_conn.protocol,
|
|
r.method,
|
|
body_size_limit=self.config.body_size_limit,
|
|
)
|
|
if self.channel:
|
|
response_reply = self.channel.ask("response", self.flow)
|
|
if response_reply is None or response_reply == KILL:
|
|
raise KillSignal()
|
|
except (proxy.ProxyError, http.HttpError, tcp.NetLibError) as v:
|
|
self.flow.error = Error(repr(v))
|
|
if self.channel:
|
|
self.channel.ask("error", self.flow)
|
|
except KillSignal:
|
|
# KillSignal should only be raised if there's a channel in the
|
|
# first place.
|
|
self.channel.tell("log", proxy.Log("Connection killed", "info"))
|
|
finally:
|
|
r.form_out = form_out_backup
|