mitmproxy/test/test_tcp.py
2015-06-05 13:33:37 +02:00

626 lines
17 KiB
Python

import cStringIO
import Queue
import time
import socket
import random
import os
import threading
import mock
from OpenSSL import SSL
import OpenSSL
from netlib import tcp, certutils, test, certffi
import tutils
class EchoHandler(tcp.BaseHandler):
sni = None
def handle_sni(self, connection):
self.sni = connection.get_servername()
def handle(self):
v = self.rfile.readline()
self.wfile.write(v)
self.wfile.flush()
class ClientCipherListHandler(tcp.BaseHandler):
sni = None
def handle(self):
self.wfile.write("%s" % self.connection.get_cipher_list())
self.wfile.flush()
class HangHandler(tcp.BaseHandler):
def handle(self):
while True:
time.sleep(1)
class TestServer(test.ServerTestBase):
handler = EchoHandler
def test_echo(self):
testval = "echo!\n"
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.wfile.write(testval)
c.wfile.flush()
assert c.rfile.readline() == testval
def test_thread_start_error(self):
with mock.patch.object(threading.Thread, "start", side_effect=threading.ThreadError("nonewthread")) as m:
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
assert not c.rfile.read(1)
assert m.called
assert "nonewthread" in self.q.get_nowait()
self.test_echo()
class TestServerBind(test.ServerTestBase):
class handler(tcp.BaseHandler):
def handle(self):
self.wfile.write(str(self.connection.getpeername()))
self.wfile.flush()
def test_bind(self):
""" Test to bind to a given random port. Try again if the random port turned out to be blocked. """
for i in range(20):
random_port = random.randrange(1024, 65535)
try:
c = tcp.TCPClient(
("127.0.0.1", self.port), source_address=(
"127.0.0.1", random_port))
c.connect()
assert c.rfile.readline() == str(("127.0.0.1", random_port))
return
except tcp.NetLibError: # port probably already in use
pass
class TestServerIPv6(test.ServerTestBase):
handler = EchoHandler
addr = tcp.Address(("localhost", 0), use_ipv6=True)
def test_echo(self):
testval = "echo!\n"
c = tcp.TCPClient(tcp.Address(("::1", self.port), use_ipv6=True))
c.connect()
c.wfile.write(testval)
c.wfile.flush()
assert c.rfile.readline() == testval
class TestEcho(test.ServerTestBase):
handler = EchoHandler
def test_echo(self):
testval = "echo!\n"
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.wfile.write(testval)
c.wfile.flush()
assert c.rfile.readline() == testval
class HardDisconnectHandler(tcp.BaseHandler):
def handle(self):
self.connection.close()
class TestFinishFail(test.ServerTestBase):
"""
This tests a difficult-to-trigger exception in the .finish() method of
the handler.
"""
handler = EchoHandler
def test_disconnect_in_finish(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.wfile.write("foo\n")
c.wfile.flush = mock.Mock(side_effect=tcp.NetLibDisconnect)
c.finish()
class TestServerSSL(test.ServerTestBase):
handler = EchoHandler
ssl = dict(
cipher_list="AES256-SHA",
chain_file=tutils.test_data.path("data/server.crt")
)
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(sni="foo.com", options=SSL.OP_ALL)
testval = "echo!\n"
c.wfile.write(testval)
c.wfile.flush()
assert c.rfile.readline() == testval
def test_get_current_cipher(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
assert not c.get_current_cipher()
c.convert_to_ssl(sni="foo.com")
ret = c.get_current_cipher()
assert ret
assert "AES" in ret[0]
class TestSSLv3Only(test.ServerTestBase):
handler = EchoHandler
ssl = dict(
request_client_cert=False,
v3_only=True
)
def test_failure(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises(tcp.NetLibError, c.convert_to_ssl, sni="foo.com")
class TestSSLClientCert(test.ServerTestBase):
class handler(tcp.BaseHandler):
sni = None
def handle_sni(self, connection):
self.sni = connection.get_servername()
def handle(self):
self.wfile.write("%s\n" % self.clientcert.serial)
self.wfile.flush()
ssl = dict(
request_client_cert=True,
v3_only=False
)
def test_clientcert(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(
cert=tutils.test_data.path("data/clientcert/client.pem"))
assert c.rfile.readline().strip() == "1"
def test_clientcert_err(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises(
tcp.NetLibError,
c.convert_to_ssl,
cert=tutils.test_data.path("data/clientcert/make")
)
class TestSNI(test.ServerTestBase):
class handler(tcp.BaseHandler):
sni = None
def handle_sni(self, connection):
self.sni = connection.get_servername()
def handle(self):
self.wfile.write(self.sni)
self.wfile.flush()
ssl = True
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(sni="foo.com")
assert c.sni == "foo.com"
assert c.rfile.readline() == "foo.com"
class TestServerCipherList(test.ServerTestBase):
handler = ClientCipherListHandler
ssl = dict(
cipher_list='RC4-SHA'
)
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(sni="foo.com")
assert c.rfile.readline() == "['RC4-SHA']"
class TestServerCurrentCipher(test.ServerTestBase):
class handler(tcp.BaseHandler):
sni = None
def handle(self):
self.wfile.write("%s" % str(self.get_current_cipher()))
self.wfile.flush()
ssl = dict(
cipher_list='RC4-SHA'
)
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(sni="foo.com")
assert "RC4-SHA" in c.rfile.readline()
class TestServerCipherListError(test.ServerTestBase):
handler = ClientCipherListHandler
ssl = dict(
cipher_list='bogus'
)
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises("handshake error", c.convert_to_ssl, sni="foo.com")
class TestClientCipherListError(test.ServerTestBase):
handler = ClientCipherListHandler
ssl = dict(
cipher_list='RC4-SHA'
)
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises(
"cipher specification",
c.convert_to_ssl,
sni="foo.com",
cipher_list="bogus")
class TestSSLDisconnect(test.ServerTestBase):
class handler(tcp.BaseHandler):
def handle(self):
self.finish()
ssl = True
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl()
# Excercise SSL.ZeroReturnError
c.rfile.read(10)
c.close()
tutils.raises(tcp.NetLibDisconnect, c.wfile.write, "foo")
tutils.raises(Queue.Empty, self.q.get_nowait)
class TestSSLHardDisconnect(test.ServerTestBase):
handler = HardDisconnectHandler
ssl = True
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl()
# Exercise SSL.SysCallError
c.rfile.read(10)
c.close()
tutils.raises(tcp.NetLibDisconnect, c.wfile.write, "foo")
class TestDisconnect(test.ServerTestBase):
def test_echo(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.rfile.read(10)
c.wfile.write("foo")
c.close()
c.close()
class TestServerTimeOut(test.ServerTestBase):
class handler(tcp.BaseHandler):
def handle(self):
self.timeout = False
self.settimeout(0.01)
try:
self.rfile.read(10)
except tcp.NetLibTimeout:
self.timeout = True
def test_timeout(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
time.sleep(0.3)
assert self.last_handler.timeout
class TestTimeOut(test.ServerTestBase):
handler = HangHandler
def test_timeout(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.settimeout(0.1)
assert c.gettimeout() == 0.1
tutils.raises(tcp.NetLibTimeout, c.rfile.read, 10)
class TestALPN(test.ServerTestBase):
handler = EchoHandler
ssl = dict(
alpn_select="foobar"
)
if OpenSSL._util.lib.Cryptography_HAS_ALPN:
def test_alpn(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl(alpn_protos=["foobar"])
assert c.get_alpn_proto_negotiated() == "foobar"
class TestSSLTimeOut(test.ServerTestBase):
handler = HangHandler
ssl = True
def test_timeout_client(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl()
c.settimeout(0.1)
tutils.raises(tcp.NetLibTimeout, c.rfile.read, 10)
class TestDHParams(test.ServerTestBase):
handler = HangHandler
ssl = dict(
dhparams=certutils.CertStore.load_dhparam(
tutils.test_data.path("data/dhparam.pem"),
),
cipher_list="DHE-RSA-AES256-SHA"
)
def test_dhparams(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl()
ret = c.get_current_cipher()
assert ret[0] == "DHE-RSA-AES256-SHA"
def test_create_dhparams(self):
with tutils.tmpdir() as d:
filename = os.path.join(d, "dhparam.pem")
certutils.CertStore.load_dhparam(filename)
assert os.path.exists(filename)
class TestPrivkeyGen(test.ServerTestBase):
class handler(tcp.BaseHandler):
def handle(self):
with tutils.tmpdir() as d:
ca1 = certutils.CertStore.from_store(d, "test2")
ca2 = certutils.CertStore.from_store(d, "test3")
cert, _, _ = ca1.get_cert("foo.com", [])
key = ca2.gen_pkey(cert)
self.convert_to_ssl(cert, key)
def test_privkey(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises("bad record mac", c.convert_to_ssl)
class TestPrivkeyGenNoFlags(test.ServerTestBase):
class handler(tcp.BaseHandler):
def handle(self):
with tutils.tmpdir() as d:
ca1 = certutils.CertStore.from_store(d, "test2")
ca2 = certutils.CertStore.from_store(d, "test3")
cert, _, _ = ca1.get_cert("foo.com", [])
certffi.set_flags(ca2.default_privatekey, 0)
self.convert_to_ssl(cert, ca2.default_privatekey)
def test_privkey(self):
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
tutils.raises("sslv3 alert handshake failure", c.convert_to_ssl)
class TestTCPClient:
def test_conerr(self):
c = tcp.TCPClient(("127.0.0.1", 0))
tutils.raises(tcp.NetLibError, c.connect)
class TestFileLike:
def test_blocksize(self):
s = cStringIO.StringIO("1234567890abcdefghijklmnopqrstuvwxyz")
s = tcp.Reader(s)
s.BLOCKSIZE = 2
assert s.read(1) == "1"
assert s.read(2) == "23"
assert s.read(3) == "456"
assert s.read(4) == "7890"
d = s.read(-1)
assert d.startswith("abc") and d.endswith("xyz")
def test_wrap(self):
s = cStringIO.StringIO("foobar\nfoobar")
s.flush()
s = tcp.Reader(s)
assert s.readline() == "foobar\n"
assert s.readline() == "foobar"
# Test __getattr__
assert s.isatty
def test_limit(self):
s = cStringIO.StringIO("foobar\nfoobar")
s = tcp.Reader(s)
assert s.readline(3) == "foo"
def test_limitless(self):
s = cStringIO.StringIO("f" * (50 * 1024))
s = tcp.Reader(s)
ret = s.read(-1)
assert len(ret) == 50 * 1024
def test_readlog(self):
s = cStringIO.StringIO("foobar\nfoobar")
s = tcp.Reader(s)
assert not s.is_logging()
s.start_log()
assert s.is_logging()
s.readline()
assert s.get_log() == "foobar\n"
s.read(1)
assert s.get_log() == "foobar\nf"
s.start_log()
assert s.get_log() == ""
s.read(1)
assert s.get_log() == "o"
s.stop_log()
tutils.raises(ValueError, s.get_log)
def test_writelog(self):
s = cStringIO.StringIO()
s = tcp.Writer(s)
s.start_log()
assert s.is_logging()
s.write("x")
assert s.get_log() == "x"
s.write("x")
assert s.get_log() == "xx"
def test_writer_flush_error(self):
s = cStringIO.StringIO()
s = tcp.Writer(s)
o = mock.MagicMock()
o.flush = mock.MagicMock(side_effect=socket.error)
s.o = o
tutils.raises(tcp.NetLibDisconnect, s.flush)
def test_reader_read_error(self):
s = cStringIO.StringIO("foobar\nfoobar")
s = tcp.Reader(s)
o = mock.MagicMock()
o.read = mock.MagicMock(side_effect=socket.error)
s.o = o
tutils.raises(tcp.NetLibDisconnect, s.read, 10)
def test_reset_timestamps(self):
s = cStringIO.StringIO("foobar\nfoobar")
s = tcp.Reader(s)
s.first_byte_timestamp = 500
s.reset_timestamps()
assert not s.first_byte_timestamp
def test_first_byte_timestamp_updated_on_read(self):
s = cStringIO.StringIO("foobar\nfoobar")
s = tcp.Reader(s)
s.read(1)
assert s.first_byte_timestamp
expected = s.first_byte_timestamp
s.read(5)
assert s.first_byte_timestamp == expected
def test_first_byte_timestamp_updated_on_readline(self):
s = cStringIO.StringIO("foobar\nfoobar\nfoobar")
s = tcp.Reader(s)
s.readline()
assert s.first_byte_timestamp
expected = s.first_byte_timestamp
s.readline()
assert s.first_byte_timestamp == expected
def test_read_ssl_error(self):
s = mock.MagicMock()
s.read = mock.MagicMock(side_effect=SSL.Error())
s = tcp.Reader(s)
tutils.raises(tcp.NetLibSSLError, s.read, 1)
def test_read_syscall_ssl_error(self):
s = mock.MagicMock()
s.read = mock.MagicMock(side_effect=SSL.SysCallError())
s = tcp.Reader(s)
tutils.raises(tcp.NetLibSSLError, s.read, 1)
def test_reader_readline_disconnect(self):
o = mock.MagicMock()
o.read = mock.MagicMock(side_effect=socket.error)
s = tcp.Reader(o)
tutils.raises(tcp.NetLibDisconnect, s.readline, 10)
class TestAddress:
def test_simple(self):
a = tcp.Address("localhost", True)
assert a.use_ipv6
b = tcp.Address("foo.com", True)
assert not a == b
assert str(b) == str(tuple("foo.com"))
c = tcp.Address("localhost", True)
assert a == c
assert not a != c
assert repr(a)
class TestSSLKeyLogger(test.ServerTestBase):
handler = EchoHandler
ssl = dict(
cipher_list="AES256-SHA"
)
def test_log(self):
testval = "echo!\n"
_logfun = tcp.log_ssl_key
with tutils.tmpdir() as d:
logfile = os.path.join(d, "foo", "bar", "logfile")
tcp.log_ssl_key = tcp.SSLKeyLogger(logfile)
c = tcp.TCPClient(("127.0.0.1", self.port))
c.connect()
c.convert_to_ssl()
c.wfile.write(testval)
c.wfile.flush()
assert c.rfile.readline() == testval
c.finish()
tcp.log_ssl_key.close()
with open(logfile, "rb") as f:
assert f.read().count("CLIENT_RANDOM") == 2
tcp.log_ssl_key = _logfun
def test_create_logfun(self):
assert isinstance(
tcp.SSLKeyLogger.create_logfun("test"),
tcp.SSLKeyLogger)
assert not tcp.SSLKeyLogger.create_logfun(False)