mitmproxy/test/test_server.py

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import socket
import time
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from OpenSSL import SSL
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from netlib.exceptions import HttpReadDisconnect, HttpException
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from netlib.tcp import Address
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import netlib.tutils
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from netlib import tcp, http, socks
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from netlib.certutils import SSLCert
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from netlib.http import authentication, CONTENT_MISSING, http1
from netlib.tutils import raises
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from libpathod import pathoc, pathod
from libmproxy.proxy.config import HostMatcher
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from libmproxy.protocol import Kill
from libmproxy.models import Error, HTTPResponse
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import tutils
import tservers
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"""
Note that the choice of response code in these tests matters more than you
might think. libcurl treats a 304 response code differently from, say, a
200 response code - it will correctly terminate a 304 response with no
content-length header, whereas it will block forever waiting for content
for a 200 response.
"""
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class CommonMixin:
def test_large(self):
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assert len(self.pathod("200:b@50k").content) == 1024 * 50
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@staticmethod
def wait_until_not_live(flow):
"""
Race condition: We don't want to replay the flow while it is still live.
"""
s = time.time()
while flow.live:
time.sleep(0.001)
if time.time() - s > 5:
raise RuntimeError("Flow is live for too long.")
def test_replay(self):
assert self.pathod("304").status_code == 304
if isinstance(self, tservers.HTTPUpstreamProxTest) and self.ssl:
assert len(self.master.state.view) == 2
else:
assert len(self.master.state.view) == 1
l = self.master.state.view[-1]
assert l.response.status_code == 304
l.request.path = "/p/305"
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self.wait_until_not_live(l)
rt = self.master.replay_request(l, block=True)
assert l.response.status_code == 305
# Disconnect error
l.request.path = "/p/305:d0"
rt = self.master.replay_request(l, block=True)
assert not rt
if isinstance(self, tservers.HTTPUpstreamProxTest):
assert l.response.status_code == 502
else:
assert l.error
# Port error
l.request.port = 1
# In upstream mode, we get a 502 response from the upstream proxy server.
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# In upstream mode with ssl, the replay will fail as we cannot establish
# SSL with the upstream proxy.
rt = self.master.replay_request(l, block=True)
assert not rt
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if isinstance(self, tservers.HTTPUpstreamProxTest):
assert l.response.status_code == 502
else:
assert l.error
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def test_http(self):
f = self.pathod("304")
assert f.status_code == 304
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# In Upstream mode with SSL, we may already have a previous CONNECT
# request.
l = self.master.state.view[-1]
assert l.client_conn.address
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assert "host" in l.request.headers
assert l.response.status_code == 304
def test_invalid_http(self):
t = tcp.TCPClient(("127.0.0.1", self.proxy.port))
t.connect()
t.wfile.write("invalid\r\n\r\n")
t.wfile.flush()
line = t.rfile.readline()
assert ("Bad Request" in line) or ("Bad Gateway" in line)
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def test_sni(self):
if not self.ssl:
return
f = self.pathod("304", sni="testserver.com")
assert f.status_code == 304
log = self.server.last_log()
assert log["request"]["sni"] == "testserver.com"
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class TcpMixin:
def _ignore_on(self):
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assert not hasattr(self, "_ignore_backup")
self._ignore_backup = self.config.check_ignore
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self.config.check_ignore = HostMatcher(
[".+:%s" % self.server.port] + self.config.check_ignore.patterns)
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def _ignore_off(self):
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assert hasattr(self, "_ignore_backup")
self.config.check_ignore = self._ignore_backup
del self._ignore_backup
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def test_ignore(self):
n = self.pathod("304")
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self._ignore_on()
i = self.pathod("305")
i2 = self.pathod("306")
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self._ignore_off()
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self.master.masterq.join()
assert n.status_code == 304
assert i.status_code == 305
assert i2.status_code == 306
assert any(f.response.status_code == 304 for f in self.master.state.flows)
assert not any(f.response.status_code == 305 for f in self.master.state.flows)
assert not any(f.response.status_code == 306 for f in self.master.state.flows)
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# Test that we get the original SSL cert
if self.ssl:
i_cert = SSLCert(i.sslinfo.certchain[0])
i2_cert = SSLCert(i2.sslinfo.certchain[0])
n_cert = SSLCert(n.sslinfo.certchain[0])
assert i_cert == i2_cert
assert i_cert != n_cert
# Test Non-HTTP traffic
spec = "200:i0,@100:d0" # this results in just 100 random bytes
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# mitmproxy responds with bad gateway
assert self.pathod(spec).status_code == 502
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self._ignore_on()
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with raises(HttpException):
self.pathod(spec) # pathoc tries to parse answer as HTTP
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self._ignore_off()
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def _tcpproxy_on(self):
assert not hasattr(self, "_tcpproxy_backup")
self._tcpproxy_backup = self.config.check_tcp
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self.config.check_tcp = HostMatcher(
[".+:%s" % self.server.port] + self.config.check_tcp.patterns)
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def _tcpproxy_off(self):
assert hasattr(self, "_tcpproxy_backup")
self.config.check_tcp = self._tcpproxy_backup
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del self._tcpproxy_backup
def test_tcp(self):
n = self.pathod("304")
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self._tcpproxy_on()
i = self.pathod("305")
i2 = self.pathod("306")
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self._tcpproxy_off()
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self.master.masterq.join()
assert n.status_code == 304
assert i.status_code == 305
assert i2.status_code == 306
assert any(f.response.status_code == 304 for f in self.master.state.flows)
assert not any(f.response.status_code == 305 for f in self.master.state.flows)
assert not any(f.response.status_code == 306 for f in self.master.state.flows)
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# Test that we get the original SSL cert
if self.ssl:
i_cert = SSLCert(i.sslinfo.certchain[0])
i2_cert = SSLCert(i2.sslinfo.certchain[0])
n_cert = SSLCert(n.sslinfo.certchain[0])
assert i_cert == i2_cert == n_cert
# Make sure that TCP messages are in the event log.
assert any("305" in m for m in self.master.log)
assert any("306" in m for m in self.master.log)
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class AppMixin:
def test_app(self):
ret = self.app("/")
assert ret.status_code == 200
assert "mitmproxy" in ret.content
class TestHTTP(tservers.HTTPProxTest, CommonMixin, AppMixin):
def test_app_err(self):
p = self.pathoc()
ret = p.request("get:'http://errapp/'")
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assert ret.status_code == 500
assert "ValueError" in ret.content
def test_invalid_connect(self):
t = tcp.TCPClient(("127.0.0.1", self.proxy.port))
t.connect()
t.wfile.write("CONNECT invalid\n\n")
t.wfile.flush()
assert "Bad Request" in t.rfile.readline()
def test_upstream_ssl_error(self):
p = self.pathoc()
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ret = p.request("get:'https://localhost:%s/'" % self.server.port)
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assert ret.status_code == 400
def test_connection_close(self):
# Add a body, so we have a content-length header, which combined with
# HTTP1.1 means the connection is kept alive.
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response = '%s/p/200:b@1' % self.server.urlbase
# Lets sanity check that the connection does indeed stay open by
# issuing two requests over the same connection
p = self.pathoc()
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assert p.request("get:'%s'" % response)
assert p.request("get:'%s'" % response)
# Now check that the connection is closed as the client specifies
p = self.pathoc()
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assert p.request("get:'%s':h'Connection'='close'" % response)
# There's a race here, which means we can get any of a number of errors.
# Rather than introduce yet another sleep into the test suite, we just
# relax the Exception specification.
with raises(Exception):
p.request("get:'%s'" % response)
def test_reconnect(self):
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req = "get:'%s/p/200:b@1:da'" % self.server.urlbase
p = self.pathoc()
assert p.request(req)
# Server has disconnected. Mitmproxy should detect this, and reconnect.
assert p.request(req)
assert p.request(req)
def test_get_connection_switching(self):
def switched(l):
for i in l:
if "serverdisconnect" in i:
return True
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req = "get:'%s/p/200:b@1'"
p = self.pathoc()
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assert p.request(req % self.server.urlbase)
assert p.request(req % self.server2.urlbase)
assert switched(self.proxy.log)
def test_blank_leading_line(self):
p = self.pathoc()
req = "get:'%s/p/201':i0,'\r\n'"
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assert p.request(req % self.server.urlbase).status_code == 201
def test_invalid_headers(self):
p = self.pathoc()
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resp = p.request("get:'http://foo':h':foo'='bar'")
assert resp.status_code == 400
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def test_stream(self):
self.master.set_stream_large_bodies(1024 * 2)
self.pathod("200:b@1k")
assert not self.master.state.view[-1].response.stream
assert len(self.master.state.view[-1].response.content) == 1024 * 1
self.pathod("200:b@3k")
assert self.master.state.view[-1].response.stream
assert self.master.state.view[-1].response.content == CONTENT_MISSING
self.master.set_stream_large_bodies(None)
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def test_stream_modify(self):
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self.master.load_script(
tutils.test_data.path("scripts/stream_modify.py"))
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d = self.pathod('200:b"foo"')
assert d.content == "bar"
self.master.unload_scripts()
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class TestHTTPAuth(tservers.HTTPProxTest):
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authenticator = http.authentication.BasicProxyAuth(
http.authentication.PassManSingleUser(
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"test",
"test"),
"realm")
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def test_auth(self):
assert self.pathod("202").status_code == 407
p = self.pathoc()
ret = p.request("""
get
'http://localhost:%s/p/202'
h'%s'='%s'
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""" % (
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self.server.port,
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http.authentication.BasicProxyAuth.AUTH_HEADER,
authentication.assemble_http_basic_auth("basic", "test", "test")
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))
assert ret.status_code == 202
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class TestHTTPS(tservers.HTTPProxTest, CommonMixin, TcpMixin):
ssl = True
ssloptions = pathod.SSLOptions(request_client_cert=True)
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clientcerts = True
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def test_clientcert(self):
f = self.pathod("304")
assert f.status_code == 304
assert self.server.last_log()["request"]["clientcert"]["keyinfo"]
def test_error_post_connect(self):
p = self.pathoc()
assert p.request("get:/:i0,'invalid\r\n\r\n'").status_code == 400
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class TestHTTPSCertfile(tservers.HTTPProxTest, CommonMixin):
ssl = True
certfile = True
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def test_certfile(self):
assert self.pathod("304")
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class TestHTTPSUpstreamServerVerificationWTrustedCert(tservers.HTTPProxTest):
"""
Test upstream server certificate verification with a trusted server cert.
"""
ssl = True
ssloptions = pathod.SSLOptions(
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cn="trusted-cert",
certs=[
("trusted-cert", tutils.test_data.path("data/trusted-server.crt"))
])
def test_verification_w_cadir(self):
self.config.openssl_verification_mode_server = SSL.VERIFY_PEER
self.config.openssl_trusted_cadir_server = tutils.test_data.path(
"data/trusted-cadir/")
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self.pathoc()
def test_verification_w_pemfile(self):
self.config.openssl_verification_mode_server = SSL.VERIFY_PEER
self.config.openssl_trusted_ca_server = tutils.test_data.path(
"data/trusted-cadir/trusted-ca.pem")
self.pathoc()
class TestHTTPSUpstreamServerVerificationWBadCert(tservers.HTTPProxTest):
"""
Test upstream server certificate verification with an untrusted server cert.
"""
ssl = True
ssloptions = pathod.SSLOptions(
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cn="untrusted-cert",
certs=[
("untrusted-cert", tutils.test_data.path("data/untrusted-server.crt"))
])
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def _request(self):
p = self.pathoc()
# We need to make an actual request because the upstream connection is lazy-loaded.
return p.request("get:/p/242")
def test_default_verification_w_bad_cert(self):
"""Should use no verification."""
self.config.openssl_trusted_ca_server = tutils.test_data.path(
"data/trusted-cadir/trusted-ca.pem")
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assert self._request().status_code == 242
def test_no_verification_w_bad_cert(self):
self.config.openssl_verification_mode_server = SSL.VERIFY_NONE
self.config.openssl_trusted_ca_server = tutils.test_data.path(
"data/trusted-cadir/trusted-ca.pem")
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assert self._request().status_code == 242
def test_verification_w_bad_cert(self):
self.config.openssl_verification_mode_server = SSL.VERIFY_PEER
self.config.openssl_trusted_ca_server = tutils.test_data.path(
"data/trusted-cadir/trusted-ca.pem")
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assert self._request().status_code == 502
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class TestHTTPSNoCommonName(tservers.HTTPProxTest):
"""
Test what happens if we get a cert without common name back.
"""
ssl = True
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ssloptions = pathod.SSLOptions(
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certs=[
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("*", tutils.test_data.path("data/no_common_name.pem"))
]
)
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def test_http(self):
f = self.pathod("202")
assert f.sslinfo.certchain[0].get_subject().CN == "127.0.0.1"
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class TestReverse(tservers.ReverseProxTest, CommonMixin, TcpMixin):
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reverse = True
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class TestSocks5(tservers.SocksModeTest):
def test_simple(self):
p = self.pathoc()
p.socks_connect(("localhost", self.server.port))
f = p.request("get:/p/200")
assert f.status_code == 200
def test_with_authentication_only(self):
p = self.pathoc()
f = p.request("get:/p/200")
assert f.status_code == 502
assert "SOCKS5 mode failure" in f.content
def test_no_connect(self):
"""
mitmproxy doesn't support UDP or BIND SOCKS CMDs
"""
p = self.pathoc()
socks.ClientGreeting(
socks.VERSION.SOCKS5,
[socks.METHOD.NO_AUTHENTICATION_REQUIRED]
).to_file(p.wfile)
socks.Message(
socks.VERSION.SOCKS5,
socks.CMD.BIND,
socks.ATYP.DOMAINNAME,
("example.com", 8080)
).to_file(p.wfile)
p.wfile.flush()
p.rfile.read(2) # read server greeting
f = p.request("get:/p/200") # the request doesn't matter, error response from handshake will be read anyway.
assert f.status_code == 502
assert "SOCKS5 mode failure" in f.content
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class TestHttps2Http(tservers.ReverseProxTest):
@classmethod
def get_proxy_config(cls):
d = super(TestHttps2Http, cls).get_proxy_config()
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d["upstream_server"] = ("http", d["upstream_server"][1])
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return d
def pathoc(self, ssl, sni=None):
"""
Returns a connected Pathoc instance.
"""
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p = pathoc.Pathoc(
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("localhost", self.proxy.port), ssl=True, sni=sni, fp=None
)
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p.connect()
return p
def test_all(self):
p = self.pathoc(ssl=True)
assert p.request("get:'/p/200'").status_code == 200
def test_sni(self):
p = self.pathoc(ssl=True, sni="example.com")
assert p.request("get:'/p/200'").status_code == 200
assert all("Error in handle_sni" not in msg for msg in self.proxy.log)
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def test_http(self):
p = self.pathoc(ssl=False)
assert p.request("get:'/p/200'").status_code == 200
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class TestTransparent(tservers.TransparentProxTest, CommonMixin, TcpMixin):
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ssl = False
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class TestTransparentSSL(tservers.TransparentProxTest, CommonMixin, TcpMixin):
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ssl = True
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def test_sslerr(self):
p = pathoc.Pathoc(("localhost", self.proxy.port), fp=None)
p.connect()
r = p.request("get:/")
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assert r.status_code == 502
class TestProxy(tservers.HTTPProxTest):
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def test_http(self):
f = self.pathod("304")
assert f.status_code == 304
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f = self.master.state.view[0]
assert f.client_conn.address
assert "host" in f.request.headers
assert f.response.status_code == 304
def test_response_timestamps(self):
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# test that we notice at least 1 sec delay between timestamps
# in response object
f = self.pathod("304:b@1k:p50,1")
assert f.status_code == 304
response = self.master.state.view[0].response
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assert 0.9 <= response.timestamp_end - response.timestamp_start <= 1.2
def test_request_timestamps(self):
# test that we notice a delay between timestamps in request object
connection = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
connection.connect(("127.0.0.1", self.proxy.port))
# call pathod server, wait a second to complete the request
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connection.send(
"GET http://localhost:%d/p/304:b@1k HTTP/1.1\r\n" %
self.server.port)
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time.sleep(1)
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connection.send("\r\n")
connection.recv(50000)
connection.close()
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request, response = self.master.state.view[
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0].request, self.master.state.view[0].response
assert response.status_code == 304 # sanity test for our low level request
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# time.sleep might be a little bit shorter than a second,
# we observed up to 0.93s on appveyor.
assert 0.8 < (request.timestamp_end - request.timestamp_start) < 1.2
def test_request_timestamps_not_affected_by_client_time(self):
# test that don't include user wait time in request's timestamps
f = self.pathod("304:b@10k")
assert f.status_code == 304
f = self.pathod("304:b@10k")
assert f.status_code == 304
request = self.master.state.view[0].request
assert request.timestamp_end - request.timestamp_start <= 0.1
request = self.master.state.view[1].request
assert request.timestamp_end - request.timestamp_start <= 0.1
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def test_request_tcp_setup_timestamp_presence(self):
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# tests that the client_conn a tcp connection has a tcp_setup_timestamp
connection = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
connection.connect(("localhost", self.proxy.port))
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connection.send(
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"GET http://localhost:%d/p/200:b@1k HTTP/1.1\r\n" %
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self.server.port)
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connection.send("\r\n")
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# a bit hacky: make sure that we don't just read the headers only.
recvd = 0
while recvd < 1024:
recvd += len(connection.recv(5000))
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connection.send(
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"GET http://localhost:%d/p/200:b@1k HTTP/1.1\r\n" %
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self.server.port)
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connection.send("\r\n")
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recvd = 0
while recvd < 1024:
recvd += len(connection.recv(5000))
connection.close()
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first_flow = self.master.state.view[0]
second_flow = self.master.state.view[1]
assert first_flow.server_conn.timestamp_tcp_setup
assert first_flow.server_conn.timestamp_ssl_setup is None
assert second_flow.server_conn.timestamp_tcp_setup
assert first_flow.server_conn.timestamp_tcp_setup == second_flow.server_conn.timestamp_tcp_setup
def test_request_ip(self):
f = self.pathod("200:b@100")
assert f.status_code == 200
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f = self.master.state.view[0]
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assert f.server_conn.address == ("127.0.0.1", self.server.port)
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class TestProxySSL(tservers.HTTPProxTest):
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ssl = True
def test_request_ssl_setup_timestamp_presence(self):
# tests that the ssl timestamp is present when ssl is used
f = self.pathod("304:b@10k")
assert f.status_code == 304
first_flow = self.master.state.view[0]
assert first_flow.server_conn.timestamp_ssl_setup
class MasterRedirectRequest(tservers.TestMaster):
redirect_port = None # Set by TestRedirectRequest
def handle_request(self, f):
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if f.request.path == "/p/201":
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# This part should have no impact, but it should also not cause any exceptions.
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addr = f.live.server_conn.address
addr2 = Address(("127.0.0.1", self.redirect_port))
f.live.set_server(addr2)
f.live.set_server(addr)
# This is the actual redirection.
f.request.port = self.redirect_port
super(MasterRedirectRequest, self).handle_request(f)
def handle_response(self, f):
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f.response.body = str(f.client_conn.address.port)
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f.response.headers["server-conn-id"] = str(f.server_conn.source_address.port)
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super(MasterRedirectRequest, self).handle_response(f)
class TestRedirectRequest(tservers.HTTPProxTest):
masterclass = MasterRedirectRequest
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ssl = True
def test_redirect(self):
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"""
Imagine a single HTTPS connection with three requests:
1. First request should pass through unmodified
2. Second request will be redirected to a different host by an inline script
3. Third request should pass through unmodified
This test verifies that the original destination is restored for the third request.
"""
self.master.redirect_port = self.server2.port
p = self.pathoc()
self.server.clear_log()
self.server2.clear_log()
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r1 = p.request("get:'/p/200'")
assert r1.status_code == 200
assert self.server.last_log()
assert not self.server2.last_log()
self.server.clear_log()
self.server2.clear_log()
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r2 = p.request("get:'/p/201'")
assert r2.status_code == 201
assert not self.server.last_log()
assert self.server2.last_log()
self.server.clear_log()
self.server2.clear_log()
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r3 = p.request("get:'/p/202'")
assert r3.status_code == 202
assert self.server.last_log()
assert not self.server2.last_log()
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assert r1.content == r2.content == r3.content
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class MasterStreamRequest(tservers.TestMaster):
"""
Enables the stream flag on the flow for all requests
"""
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def handle_responseheaders(self, f):
f.response.stream = True
f.reply()
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class TestStreamRequest(tservers.HTTPProxTest):
masterclass = MasterStreamRequest
def test_stream_simple(self):
p = self.pathoc()
# a request with 100k of data but without content-length
self.server.clear_log()
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r1 = p.request("get:'%s/p/200:r:b@100k:d102400'" % self.server.urlbase)
assert r1.status_code == 200
assert len(r1.content) > 100000
assert self.server.last_log()
def test_stream_multiple(self):
p = self.pathoc()
# simple request with streaming turned on
self.server.clear_log()
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r1 = p.request("get:'%s/p/200'" % self.server.urlbase)
assert r1.status_code == 200
assert self.server.last_log()
# now send back 100k of data, streamed but not chunked
self.server.clear_log()
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r1 = p.request("get:'%s/p/200:b@100k'" % self.server.urlbase)
assert r1.status_code == 200
assert self.server.last_log()
def test_stream_chunked(self):
connection = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
connection.connect(("127.0.0.1", self.proxy.port))
fconn = connection.makefile()
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spec = '200:h"Transfer-Encoding"="chunked":r:b"4\\r\\nthis\\r\\n11\\r\\nisatest__reachhex\\r\\n0\\r\\n\\r\\n"'
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connection.send(
"GET %s/p/%s HTTP/1.1\r\n" %
(self.server.urlbase, spec))
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connection.send("\r\n")
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resp = http1.read_response_head(fconn)
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assert resp.headers["Transfer-Encoding"] == 'chunked'
assert resp.status_code == 200
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chunks = list(http1.read_body(fconn, None))
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assert chunks == ["this", "isatest__reachhex"]
connection.close()
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class MasterFakeResponse(tservers.TestMaster):
def handle_request(self, f):
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resp = HTTPResponse.wrap(netlib.tutils.tresp())
f.reply(resp)
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class TestFakeResponse(tservers.HTTPProxTest):
masterclass = MasterFakeResponse
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def test_fake(self):
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f = self.pathod("200")
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assert "header-response" in f.headers
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class TestServerConnect(tservers.HTTPProxTest):
masterclass = MasterFakeResponse
no_upstream_cert = True
ssl = True
def test_unnecessary_serverconnect(self):
"""A replayed/fake response with no_upstream_cert should not connect to an upstream server"""
assert self.pathod("200").status_code == 200
for msg in self.proxy.tmaster.log:
assert "serverconnect" not in msg
class MasterKillRequest(tservers.TestMaster):
def handle_request(self, f):
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f.reply(Kill)
class TestKillRequest(tservers.HTTPProxTest):
masterclass = MasterKillRequest
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def test_kill(self):
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with raises(HttpReadDisconnect):
self.pathod("200")
# Nothing should have hit the server
assert not self.server.last_log()
class MasterKillResponse(tservers.TestMaster):
def handle_response(self, f):
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f.reply(Kill)
class TestKillResponse(tservers.HTTPProxTest):
masterclass = MasterKillResponse
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def test_kill(self):
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with raises(HttpReadDisconnect):
self.pathod("200")
# The server should have seen a request
assert self.server.last_log()
class EResolver(tservers.TResolver):
def original_addr(self, sock):
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raise RuntimeError("Could not resolve original destination.")
class TestTransparentResolveError(tservers.TransparentProxTest):
resolver = EResolver
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def test_resolve_error(self):
assert self.pathod("304").status_code == 502
class MasterIncomplete(tservers.TestMaster):
def handle_request(self, f):
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resp = HTTPResponse.wrap(netlib.tutils.tresp())
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resp.content = CONTENT_MISSING
f.reply(resp)
class TestIncompleteResponse(tservers.HTTPProxTest):
masterclass = MasterIncomplete
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def test_incomplete(self):
assert self.pathod("200").status_code == 502
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class TestUpstreamProxy(tservers.HTTPUpstreamProxTest, CommonMixin, AppMixin):
ssl = False
def test_order(self):
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self.proxy.tmaster.replacehooks.add(
"~q",
"foo",
"bar") # replace in request
self.chain[0].tmaster.replacehooks.add("~q", "bar", "baz")
self.chain[1].tmaster.replacehooks.add("~q", "foo", "oh noes!")
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self.chain[0].tmaster.replacehooks.add(
"~s",
"baz",
"ORLY") # replace in response
p = self.pathoc()
req = p.request("get:'%s/p/418:b\"foo\"'" % self.server.urlbase)
assert req.content == "ORLY"
assert req.status_code == 418
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class TestUpstreamProxySSL(
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tservers.HTTPUpstreamProxTest,
CommonMixin,
TcpMixin):
ssl = True
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def _host_pattern_on(self, attr):
"""
Updates config.check_tcp or check_ignore, depending on attr.
"""
assert not hasattr(self, "_ignore_%s_backup" % attr)
backup = []
for proxy in self.chain:
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old_matcher = getattr(
proxy.tmaster.server.config,
"check_%s" %
attr)
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backup.append(old_matcher)
setattr(
proxy.tmaster.server.config,
"check_%s" % attr,
HostMatcher([".+:%s" % self.server.port] + old_matcher.patterns)
)
setattr(self, "_ignore_%s_backup" % attr, backup)
def _host_pattern_off(self, attr):
backup = getattr(self, "_ignore_%s_backup" % attr)
for proxy in reversed(self.chain):
setattr(
proxy.tmaster.server.config,
"check_%s" % attr,
backup.pop()
)
assert not backup
delattr(self, "_ignore_%s_backup" % attr)
def _ignore_on(self):
super(TestUpstreamProxySSL, self)._ignore_on()
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self._host_pattern_on("ignore")
def _ignore_off(self):
super(TestUpstreamProxySSL, self)._ignore_off()
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self._host_pattern_off("ignore")
def _tcpproxy_on(self):
super(TestUpstreamProxySSL, self)._tcpproxy_on()
self._host_pattern_on("tcp")
def _tcpproxy_off(self):
super(TestUpstreamProxySSL, self)._tcpproxy_off()
self._host_pattern_off("tcp")
def test_simple(self):
p = self.pathoc()
req = p.request("get:'/p/418:b\"content\"'")
assert req.content == "content"
assert req.status_code == 418
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# CONNECT from pathoc to chain[0],
assert self.proxy.tmaster.state.flow_count() == 2
# request from pathoc to chain[0]
# CONNECT from proxy to chain[1],
assert self.chain[0].tmaster.state.flow_count() == 2
# request from proxy to chain[1]
# request from chain[0] (regular proxy doesn't store CONNECTs)
assert self.chain[1].tmaster.state.flow_count() == 1
class TestProxyChainingSSLReconnect(tservers.HTTPUpstreamProxTest):
ssl = True
def test_reconnect(self):
"""
Tests proper functionality of ConnectionHandler.server_reconnect mock.
If we have a disconnect on a secure connection that's transparently proxified to
an upstream http proxy, we need to send the CONNECT request again.
"""
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def kill_requests(master, attr, exclude):
k = [0] # variable scope workaround: put into array
_func = getattr(master, attr)
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def handler(f):
k[0] += 1
if not (k[0] in exclude):
f.client_conn.finish()
f.error = Error("terminated")
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f.reply(Kill)
return _func(f)
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setattr(master, attr, handler)
kill_requests(self.chain[1].tmaster, "handle_request",
exclude=[
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# fail first request
2, # allow second request
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])
kill_requests(self.chain[0].tmaster, "handle_request",
exclude=[
1, # CONNECT
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# fail first request
3, # reCONNECT
4, # request
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])
p = self.pathoc()
req = p.request("get:'/p/418:b\"content\"'")
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assert req.content == "content"
assert req.status_code == 418
assert self.proxy.tmaster.state.flow_count() == 2 # CONNECT and request
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# CONNECT, failing request,
assert self.chain[0].tmaster.state.flow_count() == 4
# reCONNECT, request
# failing request, request
assert self.chain[1].tmaster.state.flow_count() == 2
# (doesn't store (repeated) CONNECTs from chain[0]
# as it is a regular proxy)
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assert not self.chain[1].tmaster.state.flows[0].response # killed
assert self.chain[1].tmaster.state.flows[1].response
assert self.proxy.tmaster.state.flows[0].request.form_in == "authority"
assert self.proxy.tmaster.state.flows[1].request.form_in == "relative"
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assert self.chain[0].tmaster.state.flows[
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0].request.form_in == "authority"
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assert self.chain[0].tmaster.state.flows[
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1].request.form_in == "relative"
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assert self.chain[0].tmaster.state.flows[
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2].request.form_in == "authority"
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assert self.chain[0].tmaster.state.flows[
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3].request.form_in == "relative"
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assert self.chain[1].tmaster.state.flows[
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0].request.form_in == "relative"
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assert self.chain[1].tmaster.state.flows[
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1].request.form_in == "relative"
req = p.request("get:'/p/418:b\"content2\"'")
assert req.status_code == 502
assert self.proxy.tmaster.state.flow_count() == 3 # + new request
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# + new request, repeated CONNECT from chain[1]
assert self.chain[0].tmaster.state.flow_count() == 6
# (both terminated)
# nothing happened here
assert self.chain[1].tmaster.state.flow_count() == 2