from __future__ import absolute_import, print_function import traceback import sys import socket from netlib import tcp from netlib.http.http1 import HTTP1Protocol from netlib.tcp import NetLibError from .. import protocol2 from ..exceptions import ProtocolException, ServerException from .primitives import Log, Kill from .connection import ClientConnection class DummyServer: bound = False def __init__(self, config): self.config = config def start_slave(self, *args): pass def shutdown(self): pass class ProxyServer(tcp.TCPServer): allow_reuse_address = True bound = True def __init__(self, config): """ Raises ProxyServerError if there's a startup problem. """ self.config = config try: super(ProxyServer, self).__init__((config.host, config.port)) except socket.error as e: raise ServerException('Error starting proxy server: ' + repr(e), e) self.channel = None def start_slave(self, klass, channel): slave = klass(channel, self) slave.start() def set_channel(self, channel): self.channel = channel def handle_client_connection(self, conn, client_address): h = ConnectionHandler( conn, client_address, self.config, self.channel ) h.handle() class ConnectionHandler(object): def __init__(self, client_conn, client_address, config, channel): self.config = config """@type: libmproxy.proxy.config.ProxyConfig""" self.client_conn = ClientConnection( client_conn, client_address, None) """@type: libmproxy.proxy.connection.ClientConnection""" self.channel = channel """@type: libmproxy.controller.Channel""" def _create_root_layer(self): root_context = protocol2.RootContext( self.client_conn, self.config, self.channel ) mode = self.config.mode if mode == "upstream": return protocol2.HttpUpstreamProxy( root_context, self.config.upstream_server.address ) elif mode == "transparent": return protocol2.TransparentProxy(root_context) elif mode == "reverse": client_tls = self.config.upstream_server.scheme.startswith("https") server_tls = self.config.upstream_server.scheme.endswith("https") return protocol2.ReverseProxy( root_context, self.config.upstream_server.address, client_tls, server_tls ) elif mode == "socks5": return protocol2.Socks5Proxy(root_context) elif mode == "regular": return protocol2.HttpProxy(root_context) elif callable(mode): # pragma: nocover return mode(root_context) else: # pragma: nocover raise ValueError("Unknown proxy mode: %s" % mode) def handle(self): self.log("clientconnect", "info") root_layer = self._create_root_layer() try: root_layer() except Kill: self.log("Connection killed", "info") except ProtocolException as e: self.log(e, "info") # If an error propagates to the topmost level, # we send an HTTP error response, which is both # understandable by HTTP clients and humans. try: error_response = protocol2.make_error_response(502, repr(e)) self.client_conn.send(HTTP1Protocol().assemble(error_response)) except NetLibError: pass except Exception: self.log(traceback.format_exc(), "error") print(traceback.format_exc(), file=sys.stderr) print("mitmproxy has crashed!", file=sys.stderr) print("Please lodge a bug report at: https://github.com/mitmproxy/mitmproxy", file=sys.stderr) self.log("clientdisconnect", "info") self.client_conn.finish() def log(self, msg, level): msg = "{}: {}".format(repr(self.client_conn.address), msg) self.channel.tell("log", Log(msg, level))