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import socket
import os
import threading
import ssl
import OpenSSL
import pytest
from unittest import mock
from mitmproxy import connections
from mitmproxy import exceptions
from mitmproxy.net import tcp
from mitmproxy.net.http import http1
from mitmproxy.test import tflow
from mitmproxy.test import tutils
from .net import tservers
from pathod import test
class TestClientConnection:
def test_send(self):
c = tflow.tclient_conn()
c.send(b'foobar')
c.send([b'foo', b'bar'])
with pytest.raises(TypeError):
c.send('string')
with pytest.raises(TypeError):
c.send(['string', 'not'])
assert c.wfile.getvalue() == b'foobarfoobar'
def test_repr(self):
c = tflow.tclient_conn()
assert 'address:22' in repr(c)
assert 'ALPN' in repr(c)
assert 'TLS' not in repr(c)
c.alpn_proto_negotiated = None
c.tls_established = True
assert 'ALPN' not in repr(c)
assert 'TLS' in repr(c)
def test_tls_established_property(self):
c = tflow.tclient_conn()
c.tls_established = True
assert c.ssl_established
assert c.tls_established
c.tls_established = False
assert not c.ssl_established
assert not c.tls_established
def test_make_dummy(self):
c = connections.ClientConnection.make_dummy(('foobar', 1234))
assert c.address == ('foobar', 1234)
def test_state(self):
c = tflow.tclient_conn()
assert connections.ClientConnection.from_state(c.get_state()).get_state() == \
c.get_state()
c2 = tflow.tclient_conn()
c2.address = (c2.address[0], 4242)
assert not c == c2
c2.timestamp_start = 42
c.set_state(c2.get_state())
assert c.timestamp_start == 42
c3 = c.copy()
assert c3.get_state() != c.get_state()
c.id = c3.id = "foo"
assert c3.get_state() == c.get_state()
def test_eq(self):
c = tflow.tclient_conn()
c2 = c.copy()
assert c == c
assert c != c2
assert c != 42
assert hash(c) != hash(c2)
class TestServerConnection:
def test_send(self):
c = tflow.tserver_conn()
c.send(b'foobar')
c.send([b'foo', b'bar'])
with pytest.raises(TypeError):
c.send('string')
with pytest.raises(TypeError):
c.send(['string', 'not'])
assert c.wfile.getvalue() == b'foobarfoobar'
def test_repr(self):
c = tflow.tserver_conn()
c.sni = 'foobar'
c.tls_established = True
c.alpn_proto_negotiated = b'h2'
assert 'address:22' in repr(c)
assert 'ALPN' in repr(c)
assert 'TLS: foobar' in repr(c)
c.sni = None
c.tls_established = True
c.alpn_proto_negotiated = None
assert 'ALPN' not in repr(c)
assert 'TLS' in repr(c)
c.sni = None
c.tls_established = False
assert 'TLS' not in repr(c)
def test_tls_established_property(self):
c = tflow.tserver_conn()
c.tls_established = True
assert c.ssl_established
assert c.tls_established
c.tls_established = False
assert not c.ssl_established
assert not c.tls_established
def test_make_dummy(self):
c = connections.ServerConnection.make_dummy(('foobar', 1234))
assert c.address == ('foobar', 1234)
def test_simple(self):
d = test.Daemon()
c = connections.ServerConnection((d.IFACE, d.port))
c.connect()
f = tflow.tflow()
f.server_conn = c
f.request.path = "/p/200:da"
# use this protocol just to assemble - not for actual sending
c.wfile.write(http1.assemble_request(f.request))
c.wfile.flush()
assert http1.read_response(c.rfile, f.request, 1000)
assert d.last_log()
c.finish()
d.shutdown()
def test_terminate_error(self):
d = test.Daemon()
c = connections.ServerConnection((d.IFACE, d.port))
c.connect()
c.connection = mock.Mock()
c.connection.recv = mock.Mock(return_value=False)
c.connection.flush = mock.Mock(side_effect=exceptions.TcpDisconnect)
c.finish()
d.shutdown()
def test_sni(self):
c = connections.ServerConnection(('', 1234))
with pytest.raises(ValueError, matches='sni must be str, not '):
c.establish_ssl(None, b'foobar')
def test_state(self):
c = tflow.tserver_conn()
c2 = c.copy()
assert c2.get_state() != c.get_state()
c.id = c2.id = "foo"
assert c2.get_state() == c.get_state()
def test_eq(self):
c = tflow.tserver_conn()
c2 = c.copy()
assert c == c
assert c != c2
assert c != 42
assert hash(c) != hash(c2)
class TestClientConnectionTLS:
@pytest.mark.parametrize("sni", [
None,
"example.com"
])
def test_tls_with_sni(self, sni):
address = ('127.0.0.1', 0)
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sock.bind(address)
sock.listen()
address = sock.getsockname()
def client_run():
ctx = ssl.create_default_context()
ctx.check_hostname = False
ctx.verify_mode = ssl.CERT_NONE
s = socket.create_connection(address)
s = ctx.wrap_socket(s, server_hostname=sni)
s.send(b'foobar')
s.shutdown(socket.SHUT_RDWR)
threading.Thread(target=client_run).start()
connection, client_address = sock.accept()
c = connections.ClientConnection(connection, client_address, None)
cert = tutils.test_data.path("mitmproxy/net/data/server.crt")
key = OpenSSL.crypto.load_privatekey(
OpenSSL.crypto.FILETYPE_PEM,
open(tutils.test_data.path("mitmproxy/net/data/server.key"), "rb").read())
c.convert_to_ssl(cert, key)
assert c.connected()
assert c.sni == sni
assert c.tls_established
assert c.rfile.read(6) == b'foobar'
c.finish()
class TestServerConnectionTLS(tservers.ServerTestBase):
ssl = True
class handler(tcp.BaseHandler):
def handle(self):
self.finish()
@pytest.mark.parametrize("clientcert", [
None,
tutils.test_data.path("mitmproxy/data/clientcert"),
os.path.join(tutils.test_data.path("mitmproxy/data/clientcert"), "client.pem"),
])
def test_tls(self, clientcert):
c = connections.ServerConnection(("127.0.0.1", self.port))
c.connect()
c.establish_ssl(clientcert, "foo.com")
assert c.connected()
assert c.sni == "foo.com"
assert c.tls_established
c.close()
c.finish()
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