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import os.path
import threading
import Queue
import shutil
import tempfile
import flask
import mock
from libmproxy.proxy.config import ProxyConfig
from libmproxy.proxy.server import ProxyServer
from libmproxy.proxy.primitives import TransparentProxyMode
import libpathod.test
import libpathod.pathoc
from libmproxy import flow, controller
from libmproxy.cmdline import APP_HOST, APP_PORT
import tutils
testapp = flask.Flask(__name__)
@testapp.route("/")
def hello():
return "testapp"
@testapp.route("/error")
def error():
raise ValueError("An exception...")
def errapp(environ, start_response):
raise ValueError("errapp")
class TestMaster(flow.FlowMaster):
def __init__(self, config):
config.port = 0
s = ProxyServer(config)
state = flow.State()
flow.FlowMaster.__init__(self, s, state)
self.apps.add(testapp, "testapp", 80)
self.apps.add(errapp, "errapp", 80)
self.clear_log()
def handle_request(self, f):
flow.FlowMaster.handle_request(self, f)
f.reply()
def handle_response(self, f):
flow.FlowMaster.handle_response(self, f)
f.reply()
def clear_log(self):
self.log = []
def handle_log(self, l):
self.log.append(l.msg)
l.reply()
class ProxyThread(threading.Thread):
def __init__(self, tmaster):
threading.Thread.__init__(self)
self.tmaster = tmaster
self.name = "ProxyThread (%s:%s)" % (
tmaster.server.address.host, tmaster.server.address.port)
controller.should_exit = False
@property
def port(self):
return self.tmaster.server.address.port
@property
def log(self):
return self.tmaster.log
def run(self):
self.tmaster.run()
def shutdown(self):
self.tmaster.shutdown()
class ProxTestBase(object):
# Test Configuration
ssl = None
ssloptions = False
clientcerts = False
no_upstream_cert = False
authenticator = None
masterclass = TestMaster
certforward = False
@classmethod
def setupAll(cls):
cls.server = libpathod.test.Daemon(
ssl=cls.ssl,
ssloptions=cls.ssloptions)
cls.server2 = libpathod.test.Daemon(
ssl=cls.ssl,
ssloptions=cls.ssloptions)
cls.config = ProxyConfig(**cls.get_proxy_config())
tmaster = cls.masterclass(cls.config)
tmaster.start_app(APP_HOST, APP_PORT)
cls.proxy = ProxyThread(tmaster)
cls.proxy.start()
@classmethod
def teardownAll(cls):
shutil.rmtree(cls.cadir)
cls.proxy.shutdown()
cls.server.shutdown()
cls.server2.shutdown()
def setUp(self):
self.master.clear_log()
self.master.state.clear()
self.server.clear_log()
self.server2.clear_log()
@property
def master(self):
return self.proxy.tmaster
@classmethod
def get_proxy_config(cls):
cls.cadir = os.path.join(tempfile.gettempdir(), "mitmproxy")
return dict(
no_upstream_cert = cls.no_upstream_cert,
cadir = cls.cadir,
authenticator = cls.authenticator,
certforward = cls.certforward,
ssl_ports=([cls.server.port, cls.server2.port] if cls.ssl else []),
clientcerts = tutils.test_data.path("data/clientcert") if cls.clientcerts else None
)
class HTTPProxTest(ProxTestBase):
def pathoc_raw(self):
return libpathod.pathoc.Pathoc(("127.0.0.1", self.proxy.port), fp=None)
def pathoc(self, sni=None):
"""
Returns a connected Pathoc instance.
"""
p = libpathod.pathoc.Pathoc(
("localhost", self.proxy.port), ssl=self.ssl, sni=sni, fp=None
)
if self.ssl:
p.connect(("127.0.0.1", self.server.port))
else:
p.connect()
return p
def pathod(self, spec, sni=None):
"""
Constructs a pathod GET request, with the appropriate base and proxy.
"""
p = self.pathoc(sni=sni)
spec = spec.encode("string_escape")
if self.ssl:
q = "get:'/p/%s'" % spec
else:
q = "get:'%s/p/%s'" % (self.server.urlbase, spec)
return p.request(q)
def app(self, page):
if self.ssl:
p = libpathod.pathoc.Pathoc(
("127.0.0.1", self.proxy.port), True, fp=None
)
p.connect((APP_HOST, APP_PORT))
return p.request("get:'%s'" % page)
else:
p = self.pathoc()
return p.request("get:'http://%s%s'" % (APP_HOST, page))
class TResolver:
def __init__(self, port):
self.port = port
def original_addr(self, sock):
return ("127.0.0.1", self.port)
class TransparentProxTest(ProxTestBase):
ssl = None
resolver = TResolver
@classmethod
@mock.patch("libmproxy.platform.resolver")
def setupAll(cls, _):
super(TransparentProxTest, cls).setupAll()
if cls.ssl:
ports = [cls.server.port, cls.server2.port]
else:
ports = []
cls.config.mode = TransparentProxyMode(
cls.resolver(
cls.server.port),
ports)
@classmethod
def get_proxy_config(cls):
d = ProxTestBase.get_proxy_config()
d["mode"] = "transparent"
return d
def pathod(self, spec, sni=None):
"""
Constructs a pathod GET request, with the appropriate base and proxy.
"""
if self.ssl:
p = self.pathoc(sni=sni)
q = "get:'/p/%s'" % spec
else:
p = self.pathoc()
q = "get:'/p/%s'" % spec
return p.request(q)
def pathoc(self, sni=None):
"""
Returns a connected Pathoc instance.
"""
p = libpathod.pathoc.Pathoc(
("localhost", self.proxy.port), ssl=self.ssl, sni=sni, fp=None
)
p.connect()
return p
class ReverseProxTest(ProxTestBase):
ssl = None
@classmethod
def get_proxy_config(cls):
d = ProxTestBase.get_proxy_config()
d["upstream_server"] = [
True if cls.ssl else False,
True if cls.ssl else False,
"127.0.0.1",
cls.server.port
]
d["mode"] = "reverse"
return d
def pathoc(self, sni=None):
"""
Returns a connected Pathoc instance.
"""
p = libpathod.pathoc.Pathoc(
("localhost", self.proxy.port), ssl=self.ssl, sni=sni, fp=None
)
p.connect()
return p
def pathod(self, spec, sni=None):
"""
Constructs a pathod GET request, with the appropriate base and proxy.
"""
if self.ssl:
p = self.pathoc(sni=sni)
q = "get:'/p/%s'" % spec
else:
p = self.pathoc()
q = "get:'/p/%s'" % spec
return p.request(q)
class ChainProxTest(ProxTestBase):
"""
Chain three instances of mitmproxy in a row to test upstream mode.
Proxy order is cls.proxy -> cls.chain[0] -> cls.chain[1]
cls.proxy and cls.chain[0] are in upstream mode,
cls.chain[1] is in regular mode.
"""
chain = None
n = 2
@classmethod
def setupAll(cls):
cls.chain = []
super(ChainProxTest, cls).setupAll()
for _ in range(cls.n):
config = ProxyConfig(**cls.get_proxy_config())
tmaster = cls.masterclass(config)
proxy = ProxyThread(tmaster)
proxy.start()
cls.chain.insert(0, proxy)
# Patch the orginal proxy to upstream mode
cls.config = cls.proxy.tmaster.config = cls.proxy.tmaster.server.config = ProxyConfig(
**cls.get_proxy_config())
@classmethod
def teardownAll(cls):
super(ChainProxTest, cls).teardownAll()
for proxy in cls.chain:
proxy.shutdown()
def setUp(self):
super(ChainProxTest, self).setUp()
for proxy in self.chain:
proxy.tmaster.clear_log()
proxy.tmaster.state.clear()
@classmethod
def get_proxy_config(cls):
d = super(ChainProxTest, cls).get_proxy_config()
if cls.chain: # First proxy is in normal mode.
d.update(
mode="upstream",
upstream_server=(False, False, "127.0.0.1", cls.chain[0].port)
)
return d
class HTTPUpstreamProxTest(ChainProxTest, HTTPProxTest):
pass
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