import Queue import time import os.path from cStringIO import StringIO import email.utils import mock import netlib.utils from netlib import odict from netlib.http.semantics import CONTENT_MISSING, HDR_FORM_URLENCODED, Headers from libmproxy import filt, protocol, controller, tnetstring, flow from libmproxy.models import Error, Flow, HTTPRequest, HTTPResponse, HTTPFlow, decoded from libmproxy.proxy.config import HostMatcher from libmproxy.proxy import ProxyConfig from libmproxy.proxy.server import DummyServer from libmproxy.models.connections import ClientConnection import tutils def test_app_registry(): ar = flow.AppRegistry() ar.add("foo", "domain", 80) r = HTTPRequest.wrap(netlib.tutils.treq()) r.host = "domain" r.port = 80 assert ar.get(r) r.port = 81 assert not ar.get(r) r = HTTPRequest.wrap(netlib.tutils.treq()) r.host = "domain2" r.port = 80 assert not ar.get(r) r.headers["host"] = "domain" assert ar.get(r) class TestStickyCookieState: def _response(self, cookie, host): s = flow.StickyCookieState(filt.parse(".*")) f = tutils.tflow(req=netlib.tutils.treq(host=host, port=80), resp=True) f.response.headers["Set-Cookie"] = cookie s.handle_response(f) return s, f def test_domain_match(self): s = flow.StickyCookieState(filt.parse(".*")) assert s.domain_match("www.google.com", ".google.com") assert s.domain_match("google.com", ".google.com") def test_handle_response(self): c = "SSID=mooo; domain=.google.com, FOO=bar; Domain=.google.com; Path=/; "\ "Expires=Wed, 13-Jan-2021 22:23:01 GMT; Secure; " s, f = self._response(c, "host") assert not s.jar.keys() s, f = self._response(c, "www.google.com") assert s.jar.keys() s, f = self._response("SSID=mooo", "www.google.com") assert s.jar.keys()[0] == ('www.google.com', 80, '/') def test_handle_request(self): s, f = self._response("SSID=mooo", "www.google.com") assert "cookie" not in f.request.headers s.handle_request(f) assert "cookie" in f.request.headers class TestStickyAuthState: def test_handle_response(self): s = flow.StickyAuthState(filt.parse(".*")) f = tutils.tflow(resp=True) f.request.headers["authorization"] = "foo" s.handle_request(f) assert "address" in s.hosts f = tutils.tflow(resp=True) s.handle_request(f) assert f.request.headers["authorization"] == "foo" class TestClientPlaybackState: def test_tick(self): first = tutils.tflow() s = flow.State() fm = flow.FlowMaster(None, s) fm.start_client_playback([first, tutils.tflow()], True) c = fm.client_playback c.testing = True assert not c.done() assert not s.flow_count() assert c.count() == 2 c.tick(fm) assert s.flow_count() assert c.count() == 1 c.tick(fm) assert c.count() == 1 c.clear(c.current) c.tick(fm) assert c.count() == 0 c.clear(c.current) assert c.done() q = Queue.Queue() fm.state.clear() fm.tick(q, timeout=0) fm.stop_client_playback() assert not fm.client_playback class TestServerPlaybackState: def test_hash(self): s = flow.ServerPlaybackState( None, [], False, False, None, False, None, False) r = tutils.tflow() r2 = tutils.tflow() assert s._hash(r) assert s._hash(r) == s._hash(r2) r.request.headers["foo"] = "bar" assert s._hash(r) == s._hash(r2) r.request.path = "voing" assert s._hash(r) != s._hash(r2) r.request.path = "path?blank_value" r2.request.path = "path?" assert s._hash(r) != s._hash(r2) def test_headers(self): s = flow.ServerPlaybackState( ["foo"], [], False, False, None, False, None, False) r = tutils.tflow(resp=True) r.request.headers["foo"] = "bar" r2 = tutils.tflow(resp=True) assert not s._hash(r) == s._hash(r2) r2.request.headers["foo"] = "bar" assert s._hash(r) == s._hash(r2) r2.request.headers["oink"] = "bar" assert s._hash(r) == s._hash(r2) r = tutils.tflow(resp=True) r2 = tutils.tflow(resp=True) assert s._hash(r) == s._hash(r2) def test_load(self): r = tutils.tflow(resp=True) r.request.headers["key"] = "one" r2 = tutils.tflow(resp=True) r2.request.headers["key"] = "two" s = flow.ServerPlaybackState( None, [ r, r2], False, False, None, False, None, False) assert s.count() == 2 assert len(s.fmap.keys()) == 1 n = s.next_flow(r) assert n.request.headers["key"] == "one" assert s.count() == 1 n = s.next_flow(r) assert n.request.headers["key"] == "two" assert s.count() == 0 assert not s.next_flow(r) def test_load_with_nopop(self): r = tutils.tflow(resp=True) r.request.headers["key"] = "one" r2 = tutils.tflow(resp=True) r2.request.headers["key"] = "two" s = flow.ServerPlaybackState( None, [ r, r2], False, True, None, False, None, False) assert s.count() == 2 s.next_flow(r) assert s.count() == 2 def test_ignore_params(self): s = flow.ServerPlaybackState( None, [], False, False, [ "param1", "param2"], False, None, False) r = tutils.tflow(resp=True) r.request.path = "/test?param1=1" r2 = tutils.tflow(resp=True) r2.request.path = "/test" assert s._hash(r) == s._hash(r2) r2.request.path = "/test?param1=2" assert s._hash(r) == s._hash(r2) r2.request.path = "/test?param2=1" assert s._hash(r) == s._hash(r2) r2.request.path = "/test?param3=2" assert not s._hash(r) == s._hash(r2) def test_ignore_payload_params(self): s = flow.ServerPlaybackState( None, [], False, False, None, False, [ "param1", "param2"], False) r = tutils.tflow(resp=True) r.request.headers["Content-Type"] = "application/x-www-form-urlencoded" r.request.content = "paramx=x¶m1=1" r2 = tutils.tflow(resp=True) r2.request.headers["Content-Type"] = "application/x-www-form-urlencoded" r2.request.content = "paramx=x¶m1=1" # same parameters assert s._hash(r) == s._hash(r2) # ignored parameters != r2.request.content = "paramx=x¶m1=2" assert s._hash(r) == s._hash(r2) # missing parameter r2.request.content = "paramx=x" assert s._hash(r) == s._hash(r2) # ignorable parameter added r2.request.content = "paramx=x¶m1=2" assert s._hash(r) == s._hash(r2) # not ignorable parameter changed r2.request.content = "paramx=y¶m1=1" assert not s._hash(r) == s._hash(r2) # not ignorable parameter missing r2.request.content = "param1=1" assert not s._hash(r) == s._hash(r2) def test_ignore_payload_params_other_content_type(self): s = flow.ServerPlaybackState( None, [], False, False, None, False, [ "param1", "param2"], False) r = tutils.tflow(resp=True) r.request.headers["Content-Type"] = "application/json" r.request.content = '{"param1":"1"}' r2 = tutils.tflow(resp=True) r2.request.headers["Content-Type"] = "application/json" r2.request.content = '{"param1":"1"}' # same content assert s._hash(r) == s._hash(r2) # distint content (note only x-www-form-urlencoded payload is analysed) r2.request.content = '{"param1":"2"}' assert not s._hash(r) == s._hash(r2) def test_ignore_payload_wins_over_params(self): # NOTE: parameters are mutually exclusive in options s = flow.ServerPlaybackState( None, [], False, False, None, True, [ "param1", "param2"], False) r = tutils.tflow(resp=True) r.request.headers["Content-Type"] = "application/x-www-form-urlencoded" r.request.content = "paramx=y" r2 = tutils.tflow(resp=True) r2.request.headers["Content-Type"] = "application/x-www-form-urlencoded" r2.request.content = "paramx=x" # same parameters assert s._hash(r) == s._hash(r2) def test_ignore_content(self): s = flow.ServerPlaybackState( None, [], False, False, None, False, None, False) r = tutils.tflow(resp=True) r2 = tutils.tflow(resp=True) r.request.content = "foo" r2.request.content = "foo" assert s._hash(r) == s._hash(r2) r2.request.content = "bar" assert not s._hash(r) == s._hash(r2) # now ignoring content s = flow.ServerPlaybackState( None, [], False, False, None, True, None, False) r = tutils.tflow(resp=True) r2 = tutils.tflow(resp=True) r.request.content = "foo" r2.request.content = "foo" assert s._hash(r) == s._hash(r2) r2.request.content = "bar" assert s._hash(r) == s._hash(r2) r2.request.content = "" assert s._hash(r) == s._hash(r2) r2.request.content = None assert s._hash(r) == s._hash(r2) def test_ignore_host(self): s = flow.ServerPlaybackState( None, [], False, False, None, False, None, True) r = tutils.tflow(resp=True) r2 = tutils.tflow(resp=True) r.request.host = "address" r2.request.host = "address" assert s._hash(r) == s._hash(r2) r2.request.host = "wrong_address" assert s._hash(r) == s._hash(r2) class TestFlow: def test_copy(self): f = tutils.tflow(resp=True) a0 = f.get_state() f2 = f.copy() a = f.get_state() b = f2.get_state() del a["id"] del b["id"] assert a == b assert not f == f2 assert not f is f2 assert f.request.get_state() == f2.request.get_state() assert not f.request is f2.request assert f.request.headers == f2.request.headers assert not f.request.headers is f2.request.headers assert f.response.get_state() == f2.response.get_state() assert not f.response is f2.response f = tutils.tflow(err=True) f2 = f.copy() assert not f is f2 assert not f.request is f2.request assert f.request.headers == f2.request.headers assert not f.request.headers is f2.request.headers assert f.error.get_state() == f2.error.get_state() assert not f.error is f2.error def test_match(self): f = tutils.tflow(resp=True) assert not f.match("~b test") assert f.match(None) assert not f.match("~b test") f = tutils.tflow(err=True) assert f.match("~e") tutils.raises(ValueError, f.match, "~") def test_backup(self): f = tutils.tflow() f.response = HTTPResponse.wrap(netlib.tutils.tresp()) f.request.content = "foo" assert not f.modified() f.backup() f.request.content = "bar" assert f.modified() f.revert() assert f.request.content == "foo" def test_backup_idempotence(self): f = tutils.tflow(resp=True) f.backup() f.revert() f.backup() f.revert() def test_getset_state(self): f = tutils.tflow(resp=True) state = f.get_state() assert f.get_state() == HTTPFlow.from_state( state).get_state() f.response = None f.error = Error("error") state = f.get_state() assert f.get_state() == HTTPFlow.from_state( state).get_state() f2 = f.copy() f2.id = f.id # copy creates a different uuid assert f.get_state() == f2.get_state() assert not f == f2 f2.error = Error("e2") assert not f == f2 f.load_state(f2.get_state()) assert f.get_state() == f2.get_state() def test_kill(self): s = flow.State() fm = flow.FlowMaster(None, s) f = tutils.tflow() f.intercept(mock.Mock()) assert not f.reply.acked f.kill(fm) assert f.reply.acked def test_killall(self): s = flow.State() fm = flow.FlowMaster(None, s) f = tutils.tflow() fm.handle_request(f) f = tutils.tflow() fm.handle_request(f) for i in s.view: assert not i.reply.acked s.killall(fm) for i in s.view: assert i.reply.acked def test_accept_intercept(self): f = tutils.tflow() f.intercept(mock.Mock()) assert not f.reply.acked f.accept_intercept(mock.Mock()) assert f.reply.acked def test_replace_unicode(self): f = tutils.tflow(resp=True) f.response.content = "\xc2foo" f.replace("foo", u"bar") def test_replace(self): f = tutils.tflow(resp=True) f.request.headers["foo"] = "foo" f.request.content = "afoob" f.response.headers["foo"] = "foo" f.response.content = "afoob" assert f.replace("foo", "bar") == 6 assert f.request.headers["bar"] == "bar" assert f.request.content == "abarb" assert f.response.headers["bar"] == "bar" assert f.response.content == "abarb" def test_replace_encoded(self): f = tutils.tflow(resp=True) f.request.content = "afoob" f.request.encode("gzip") f.response.content = "afoob" f.response.encode("gzip") f.replace("foo", "bar") assert f.request.content != "abarb" f.request.decode() assert f.request.content == "abarb" assert f.response.content != "abarb" f.response.decode() assert f.response.content == "abarb" class TestState: def test_backup(self): c = flow.State() f = tutils.tflow() c.add_flow(f) f.backup() c.revert(f) def test_flow(self): """ normal flow: connect -> request -> response """ c = flow.State() f = tutils.tflow() c.add_flow(f) assert f assert c.flow_count() == 1 assert c.active_flow_count() == 1 newf = tutils.tflow() assert c.add_flow(newf) assert c.active_flow_count() == 2 f.response = HTTPResponse.wrap(netlib.tutils.tresp()) assert c.update_flow(f) assert c.flow_count() == 2 assert c.active_flow_count() == 1 _ = HTTPResponse.wrap(netlib.tutils.tresp()) assert not c.update_flow(None) assert c.active_flow_count() == 1 newf.response = HTTPResponse.wrap(netlib.tutils.tresp()) assert c.update_flow(newf) assert c.active_flow_count() == 0 def test_err(self): c = flow.State() f = tutils.tflow() c.add_flow(f) f.error = Error("message") assert c.update_flow(f) c = flow.State() f = tutils.tflow() c.add_flow(f) c.set_limit("~e") assert not c.view f.error = tutils.terr() assert c.update_flow(f) assert c.view def test_set_limit(self): c = flow.State() f = tutils.tflow() assert len(c.view) == 0 c.add_flow(f) assert len(c.view) == 1 c.set_limit("~s") assert c.limit_txt == "~s" assert len(c.view) == 0 f.response = HTTPResponse.wrap(netlib.tutils.tresp()) c.update_flow(f) assert len(c.view) == 1 c.set_limit(None) assert len(c.view) == 1 f = tutils.tflow() c.add_flow(f) assert len(c.view) == 2 c.set_limit("~q") assert len(c.view) == 1 c.set_limit("~s") assert len(c.view) == 1 assert "Invalid" in c.set_limit("~") def test_set_intercept(self): c = flow.State() assert not c.set_intercept("~q") assert c.intercept_txt == "~q" assert "Invalid" in c.set_intercept("~") assert not c.set_intercept(None) assert c.intercept_txt is None def _add_request(self, state): f = tutils.tflow() state.add_flow(f) return f def _add_response(self, state): f = tutils.tflow() state.add_flow(f) f.response = HTTPResponse.wrap(netlib.tutils.tresp()) state.update_flow(f) def _add_error(self, state): f = tutils.tflow(err=True) state.add_flow(f) def test_clear(self): c = flow.State() f = self._add_request(c) f.intercepted = True c.clear() assert c.flow_count() == 0 def test_dump_flows(self): c = flow.State() self._add_request(c) self._add_response(c) self._add_request(c) self._add_response(c) self._add_request(c) self._add_response(c) self._add_error(c) flows = c.view[:] c.clear() c.load_flows(flows) assert isinstance(c.flows[0], Flow) def test_accept_all(self): c = flow.State() self._add_request(c) self._add_response(c) self._add_request(c) c.accept_all(mock.Mock()) class TestSerialize: def _treader(self): sio = StringIO() w = flow.FlowWriter(sio) for i in range(3): f = tutils.tflow(resp=True) w.add(f) for i in range(3): f = tutils.tflow(err=True) w.add(f) sio.seek(0) return flow.FlowReader(sio) def test_roundtrip(self): sio = StringIO() f = tutils.tflow() f.request.content = "".join(chr(i) for i in range(255)) w = flow.FlowWriter(sio) w.add(f) sio.seek(0) r = flow.FlowReader(sio) l = list(r.stream()) assert len(l) == 1 f2 = l[0] assert f2.get_state() == f.get_state() assert f2.request == f.request def test_load_flows(self): r = self._treader() s = flow.State() fm = flow.FlowMaster(None, s) fm.load_flows(r) assert len(s.flows) == 6 def test_load_flows_reverse(self): r = self._treader() s = flow.State() conf = ProxyConfig( mode="reverse", upstream_server=("https", ("use-this-domain", 80)) ) fm = flow.FlowMaster(DummyServer(conf), s) fm.load_flows(r) assert s.flows[0].request.host == "use-this-domain" def test_filter(self): sio = StringIO() fl = filt.parse("~c 200") w = flow.FilteredFlowWriter(sio, fl) f = tutils.tflow(resp=True) f.response.code = 200 w.add(f) f = tutils.tflow(resp=True) f.response.code = 201 w.add(f) sio.seek(0) r = flow.FlowReader(sio) assert len(list(r.stream())) def test_error(self): sio = StringIO() sio.write("bogus") sio.seek(0) r = flow.FlowReader(sio) tutils.raises(flow.FlowReadError, list, r.stream()) f = flow.FlowReadError("foo") assert f.strerror == "foo" def test_versioncheck(self): f = tutils.tflow() d = f.get_state() d["version"] = (0, 0) sio = StringIO() tnetstring.dump(d, sio) sio.seek(0) r = flow.FlowReader(sio) tutils.raises("version", list, r.stream()) class TestFlowMaster: def test_load_script(self): s = flow.State() fm = flow.FlowMaster(None, s) assert not fm.load_script(tutils.test_data.path("scripts/a.py")) assert not fm.load_script(tutils.test_data.path("scripts/a.py")) assert not fm.unload_scripts() assert fm.load_script("nonexistent") assert "ValueError" in fm.load_script( tutils.test_data.path("scripts/starterr.py")) assert len(fm.scripts) == 0 def test_getset_ignore(self): p = mock.Mock() p.config.check_ignore = HostMatcher() fm = flow.FlowMaster(p, flow.State()) assert not fm.get_ignore_filter() fm.set_ignore_filter(["^apple\.com:", ":443$"]) assert fm.get_ignore_filter() def test_replay(self): s = flow.State() fm = flow.FlowMaster(None, s) f = tutils.tflow(resp=True) f.request.content = CONTENT_MISSING assert "missing" in fm.replay_request(f) f.intercepted = True assert "intercepting" in fm.replay_request(f) f.live = True assert "live" in fm.replay_request(f, run_scripthooks=True) def test_script_reqerr(self): s = flow.State() fm = flow.FlowMaster(None, s) assert not fm.load_script(tutils.test_data.path("scripts/reqerr.py")) f = tutils.tflow() fm.handle_clientconnect(f.client_conn) assert fm.handle_request(f) def test_script(self): s = flow.State() fm = flow.FlowMaster(None, s) assert not fm.load_script(tutils.test_data.path("scripts/all.py")) f = tutils.tflow(resp=True) fm.handle_clientconnect(f.client_conn) assert fm.scripts[0].ns["log"][-1] == "clientconnect" fm.handle_serverconnect(f.server_conn) assert fm.scripts[0].ns["log"][-1] == "serverconnect" fm.handle_request(f) assert fm.scripts[0].ns["log"][-1] == "request" fm.handle_response(f) assert fm.scripts[0].ns["log"][-1] == "response" # load second script assert not fm.load_script(tutils.test_data.path("scripts/all.py")) assert len(fm.scripts) == 2 fm.handle_clientdisconnect(f.server_conn) assert fm.scripts[0].ns["log"][-1] == "clientdisconnect" assert fm.scripts[1].ns["log"][-1] == "clientdisconnect" # unload first script fm.unload_scripts() assert len(fm.scripts) == 0 assert not fm.load_script(tutils.test_data.path("scripts/all.py")) f.error = tutils.terr() fm.handle_error(f) assert fm.scripts[0].ns["log"][-1] == "error" def test_duplicate_flow(self): s = flow.State() fm = flow.FlowMaster(None, s) f = tutils.tflow(resp=True) f = fm.load_flow(f) assert s.flow_count() == 1 f2 = fm.duplicate_flow(f) assert f2.response assert s.flow_count() == 2 assert s.index(f2) == 1 def test_all(self): s = flow.State() fm = flow.FlowMaster(None, s) fm.anticache = True fm.anticomp = True f = tutils.tflow(req=None) fm.handle_clientconnect(f.client_conn) f.request = HTTPRequest.wrap(netlib.tutils.treq()) fm.handle_request(f) assert s.flow_count() == 1 f.response = HTTPResponse.wrap(netlib.tutils.tresp()) fm.handle_response(f) assert not fm.handle_response(None) assert s.flow_count() == 1 fm.handle_clientdisconnect(f.client_conn) f.error = Error("msg") f.error.reply = controller.DummyReply() fm.handle_error(f) fm.load_script(tutils.test_data.path("scripts/a.py")) fm.shutdown() def test_client_playback(self): s = flow.State() f = tutils.tflow(resp=True) pb = [tutils.tflow(resp=True), f] fm = flow.FlowMaster(DummyServer(ProxyConfig()), s) assert not fm.start_server_playback( pb, False, [], False, False, None, False, None, False) assert not fm.start_client_playback(pb, False) fm.client_playback.testing = True q = Queue.Queue() assert not fm.state.flow_count() fm.tick(q, 0) assert fm.state.flow_count() f.error = Error("error") fm.handle_error(f) def test_server_playback(self): s = flow.State() f = tutils.tflow() f.response = HTTPResponse.wrap(netlib.tutils.tresp(f.request)) pb = [f] fm = flow.FlowMaster(None, s) fm.refresh_server_playback = True assert not fm.do_server_playback(tutils.tflow()) fm.start_server_playback( pb, False, [], False, False, None, False, None, False) assert fm.do_server_playback(tutils.tflow()) fm.start_server_playback( pb, False, [], True, False, None, False, None, False) r = tutils.tflow() r.request.content = "gibble" assert not fm.do_server_playback(r) assert fm.do_server_playback(tutils.tflow()) fm.start_server_playback( pb, False, [], True, False, None, False, None, False) q = Queue.Queue() fm.tick(q, 0) assert fm.should_exit.is_set() fm.stop_server_playback() assert not fm.server_playback def test_server_playback_kill(self): s = flow.State() f = tutils.tflow() f.response = HTTPResponse.wrap(netlib.tutils.tresp(f.request)) pb = [f] fm = flow.FlowMaster(None, s) fm.refresh_server_playback = True fm.start_server_playback( pb, True, [], False, False, None, False, None, False) f = tutils.tflow() f.request.host = "nonexistent" fm.process_new_request(f) assert "killed" in f.error.msg def test_stickycookie(self): s = flow.State() fm = flow.FlowMaster(None, s) assert "Invalid" in fm.set_stickycookie("~h") fm.set_stickycookie(".*") assert fm.stickycookie_state fm.set_stickycookie(None) assert not fm.stickycookie_state fm.set_stickycookie(".*") f = tutils.tflow(resp=True) f.response.headers["set-cookie"] = "foo=bar" fm.handle_request(f) fm.handle_response(f) assert fm.stickycookie_state.jar assert not "cookie" in f.request.headers f = f.copy() fm.handle_request(f) assert f.request.headers["cookie"] == "foo=bar" def test_stickyauth(self): s = flow.State() fm = flow.FlowMaster(None, s) assert "Invalid" in fm.set_stickyauth("~h") fm.set_stickyauth(".*") assert fm.stickyauth_state fm.set_stickyauth(None) assert not fm.stickyauth_state fm.set_stickyauth(".*") f = tutils.tflow(resp=True) f.request.headers["authorization"] = "foo" fm.handle_request(f) f = tutils.tflow(resp=True) assert fm.stickyauth_state.hosts assert not "authorization" in f.request.headers fm.handle_request(f) assert f.request.headers["authorization"] == "foo" def test_stream(self): with tutils.tmpdir() as tdir: p = os.path.join(tdir, "foo") def r(): r = flow.FlowReader(open(p, "rb")) return list(r.stream()) s = flow.State() fm = flow.FlowMaster(None, s) f = tutils.tflow(resp=True) fm.start_stream(file(p, "ab"), None) fm.handle_request(f) fm.handle_response(f) fm.stop_stream() assert r()[0].response f = tutils.tflow() fm.start_stream(file(p, "ab"), None) fm.handle_request(f) fm.shutdown() assert not r()[1].response class TestRequest: def test_simple(self): f = tutils.tflow() r = f.request u = r.url r.url = u tutils.raises(ValueError, setattr, r, "url", "") assert r.url == u r2 = r.copy() assert r.get_state() == r2.get_state() def test_get_url(self): r = HTTPRequest.wrap(netlib.tutils.treq()) assert r.url == "http://address:22/path" r.scheme = "https" assert r.url == "https://address:22/path" r.host = "host" r.port = 42 assert r.url == "https://host:42/path" r.host = "address" r.port = 22 assert r.url == "https://address:22/path" assert r.pretty_url(True) == "https://address:22/path" r.headers["Host"] = "foo.com" assert r.pretty_url(False) == "https://address:22/path" assert r.pretty_url(True) == "https://foo.com:22/path" def test_path_components(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.path = "/" assert r.get_path_components() == [] r.path = "/foo/bar" assert r.get_path_components() == ["foo", "bar"] q = odict.ODict() q["test"] = ["123"] r.set_query(q) assert r.get_path_components() == ["foo", "bar"] r.set_path_components([]) assert r.get_path_components() == [] r.set_path_components(["foo"]) assert r.get_path_components() == ["foo"] r.set_path_components(["/oo"]) assert r.get_path_components() == ["/oo"] assert "%2F" in r.path def test_getset_form_urlencoded(self): d = odict.ODict([("one", "two"), ("three", "four")]) r = HTTPRequest.wrap(netlib.tutils.treq(content=netlib.utils.urlencode(d.lst))) r.headers["content-type"] = HDR_FORM_URLENCODED assert r.get_form_urlencoded() == d d = odict.ODict([("x", "y")]) r.set_form_urlencoded(d) assert r.get_form_urlencoded() == d r.headers["content-type"] = "foo" assert not r.get_form_urlencoded() def test_getset_query(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.path = "/foo?x=y&a=b" q = r.get_query() assert q.lst == [("x", "y"), ("a", "b")] r.path = "/" q = r.get_query() assert not q r.path = "/?adsfa" q = r.get_query() assert q.lst == [("adsfa", "")] r.path = "/foo?x=y&a=b" assert r.get_query() r.set_query(odict.ODict([])) assert not r.get_query() qv = odict.ODict([("a", "b"), ("c", "d")]) r.set_query(qv) assert r.get_query() == qv def test_anticache(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.headers = Headers() r.headers["if-modified-since"] = "test" r.headers["if-none-match"] = "test" r.anticache() assert not "if-modified-since" in r.headers assert not "if-none-match" in r.headers def test_replace(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.path = "path/foo" r.headers["Foo"] = "fOo" r.content = "afoob" assert r.replace("foo(?i)", "boo") == 4 assert r.path == "path/boo" assert not "foo" in r.content assert r.headers["boo"] == "boo" def test_constrain_encoding(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.headers["accept-encoding"] = "gzip, oink" r.constrain_encoding() assert "oink" not in r.headers["accept-encoding"] r.headers.set_all("accept-encoding", ["gzip", "oink"]) r.constrain_encoding() assert "oink" not in r.headers["accept-encoding"] def test_decodeencode(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.headers["content-encoding"] = "identity" r.content = "falafel" r.decode() assert "content-encoding" not in r.headers assert r.content == "falafel" r = HTTPRequest.wrap(netlib.tutils.treq()) r.content = "falafel" assert not r.decode() r = HTTPRequest.wrap(netlib.tutils.treq()) r.headers["content-encoding"] = "identity" r.content = "falafel" r.encode("identity") assert r.headers["content-encoding"] == "identity" assert r.content == "falafel" r = HTTPRequest.wrap(netlib.tutils.treq()) r.headers["content-encoding"] = "identity" r.content = "falafel" r.encode("gzip") assert r.headers["content-encoding"] == "gzip" assert r.content != "falafel" r.decode() assert "content-encoding" not in r.headers assert r.content == "falafel" def test_get_decoded_content(self): r = HTTPRequest.wrap(netlib.tutils.treq()) r.content = None r.headers["content-encoding"] = "identity" assert r.get_decoded_content() == None r.content = "falafel" r.encode("gzip") assert r.get_decoded_content() == "falafel" def test_get_content_type(self): resp = HTTPResponse.wrap(netlib.tutils.tresp()) resp.headers = Headers(content_type="text/plain") assert resp.headers["content-type"] == "text/plain" class TestResponse: def test_simple(self): f = tutils.tflow(resp=True) resp = f.response resp2 = resp.copy() assert resp2.get_state() == resp.get_state() def test_refresh(self): r = HTTPResponse.wrap(netlib.tutils.tresp()) n = time.time() r.headers["date"] = email.utils.formatdate(n) pre = r.headers["date"] r.refresh(n) assert pre == r.headers["date"] r.refresh(n + 60) d = email.utils.parsedate_tz(r.headers["date"]) d = email.utils.mktime_tz(d) # Weird that this is not exact... assert abs(60 - (d - n)) <= 1 r.headers["set-cookie"] = "MOO=BAR; Expires=Tue, 08-Mar-2011 00:20:38 GMT; Path=foo.com; Secure" r.refresh() def test_refresh_cookie(self): r = HTTPResponse.wrap(netlib.tutils.tresp()) # Invalid expires format, sent to us by Reddit. c = "rfoo=bar; Domain=reddit.com; expires=Thu, 31 Dec 2037 23:59:59 GMT; Path=/" assert r._refresh_cookie(c, 60) c = "MOO=BAR; Expires=Tue, 08-Mar-2011 00:20:38 GMT; Path=foo.com; Secure" assert "00:21:38" in r._refresh_cookie(c, 60) def test_replace(self): r = HTTPResponse.wrap(netlib.tutils.tresp()) r.headers["Foo"] = "fOo" r.content = "afoob" assert r.replace("foo(?i)", "boo") == 3 assert not "foo" in r.content assert r.headers["boo"] == "boo" def test_decodeencode(self): r = HTTPResponse.wrap(netlib.tutils.tresp()) r.headers["content-encoding"] = "identity" r.content = "falafel" assert r.decode() assert "content-encoding" not in r.headers assert r.content == "falafel" r = HTTPResponse.wrap(netlib.tutils.tresp()) r.headers["content-encoding"] = "identity" r.content = "falafel" r.encode("identity") assert r.headers["content-encoding"] == "identity" assert r.content == "falafel" r = HTTPResponse.wrap(netlib.tutils.tresp()) r.headers["content-encoding"] = "identity" r.content = "falafel" r.encode("gzip") assert r.headers["content-encoding"] == "gzip" assert r.content != "falafel" assert r.decode() assert "content-encoding" not in r.headers assert r.content == "falafel" r.headers["content-encoding"] = "gzip" assert not r.decode() assert r.content == "falafel" def test_get_content_type(self): resp = HTTPResponse.wrap(netlib.tutils.tresp()) resp.headers = Headers(content_type="text/plain") assert resp.headers["content-type"] == "text/plain" class TestError: def test_getset_state(self): e = Error("Error") state = e.get_state() assert Error.from_state(state).get_state() == e.get_state() assert e.copy() e2 = Error("bar") assert not e == e2 e.load_state(e2.get_state()) assert e.get_state() == e2.get_state() e3 = e.copy() assert e3.get_state() == e.get_state() class TestClientConnection: def test_state(self): c = tutils.tclient_conn() assert ClientConnection.from_state(c.get_state()).get_state() ==\ c.get_state() c2 = tutils.tclient_conn() c2.address.address = (c2.address.host, 4242) assert not c == c2 c2.timestamp_start = 42 c.load_state(c2.get_state()) assert c.timestamp_start == 42 c3 = c.copy() assert c3.get_state() == c.get_state() assert str(c) def test_decoded(): r = HTTPRequest.wrap(netlib.tutils.treq()) assert r.content == "content" assert "content-encoding" not in r.headers r.encode("gzip") assert r.headers["content-encoding"] assert r.content != "content" with decoded(r): assert "content-encoding" not in r.headers assert r.content == "content" assert r.headers["content-encoding"] assert r.content != "content" with decoded(r): r.content = "foo" assert r.content != "foo" r.decode() assert r.content == "foo" def test_replacehooks(): h = flow.ReplaceHooks() h.add("~q", "foo", "bar") assert h.lst h.set( [ (".*", "one", "two"), (".*", "three", "four"), ] ) assert h.count() == 2 h.clear() assert not h.lst h.add("~q", "foo", "bar") h.add("~s", "foo", "bar") v = h.get_specs() assert v == [('~q', 'foo', 'bar'), ('~s', 'foo', 'bar')] assert h.count() == 2 h.clear() assert h.count() == 0 f = tutils.tflow() f.request.content = "foo" h.add("~s", "foo", "bar") h.run(f) assert f.request.content == "foo" f = tutils.tflow(resp=True) f.request.content = "foo" f.response.content = "foo" h.run(f) assert f.response.content == "bar" assert f.request.content == "foo" f = tutils.tflow() h.clear() h.add("~q", "foo", "bar") f.request.content = "foo" h.run(f) assert f.request.content == "bar" assert not h.add("~", "foo", "bar") assert not h.add("foo", "*", "bar") def test_setheaders(): h = flow.SetHeaders() h.add("~q", "foo", "bar") assert h.lst h.set( [ (".*", "one", "two"), (".*", "three", "four"), ] ) assert h.count() == 2 h.clear() assert not h.lst h.add("~q", "foo", "bar") h.add("~s", "foo", "bar") v = h.get_specs() assert v == [('~q', 'foo', 'bar'), ('~s', 'foo', 'bar')] assert h.count() == 2 h.clear() assert h.count() == 0 f = tutils.tflow() f.request.content = "foo" h.add("~s", "foo", "bar") h.run(f) assert f.request.content == "foo" h.clear() h.add("~s", "one", "two") h.add("~s", "one", "three") f = tutils.tflow(resp=True) f.request.headers["one"] = "xxx" f.response.headers["one"] = "xxx" h.run(f) assert f.request.headers["one"] == "xxx" assert f.response.headers.get_all("one") == ["two", "three"] h.clear() h.add("~q", "one", "two") h.add("~q", "one", "three") f = tutils.tflow() f.request.headers["one"] = "xxx" h.run(f) assert f.request.headers.get_all("one") == ["two", "three"] assert not h.add("~", "foo", "bar")