# -*- coding: utf-8 -*- # Copyright 2014-2016 OpenMarket Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from synapse.http.server import HttpServer from synapse.api.errors import cs_error, CodeMessageException, StoreError from synapse.api.constants import EventTypes from synapse.storage.prepare_database import prepare_database from synapse.storage.engines import create_engine from synapse.server import HomeServer from synapse.federation.transport import server from synapse.util.ratelimitutils import FederationRateLimiter from synapse.util.logcontext import LoggingContext from twisted.internet import defer, reactor from twisted.enterprise.adbapi import ConnectionPool from collections import namedtuple from mock import patch, Mock import hashlib import urllib import urlparse from inspect import getcallargs @defer.inlineCallbacks def setup_test_homeserver(name="test", datastore=None, config=None, **kargs): """Setup a homeserver suitable for running tests against. Keyword arguments are passed to the Homeserver constructor. If no datastore is supplied a datastore backed by an in-memory sqlite db will be given to the HS. """ if config is None: config = Mock() config.signing_key = [MockKey()] config.event_cache_size = 1 config.enable_registration = True config.macaroon_secret_key = "not even a little secret" config.expire_access_token = False config.server_name = name config.trusted_third_party_id_servers = [] config.room_invite_state_types = [] config.password_providers = [] config.worker_replication_url = "" config.worker_app = None config.email_enable_notifs = False config.block_non_admin_invites = False config.federation_domain_whitelist = {} # disable user directory updates, because they get done in the # background, which upsets the test runner. config.update_user_directory = False config.use_frozen_dicts = True config.database_config = {"name": "sqlite3"} config.ldap_enabled = False if "clock" not in kargs: kargs["clock"] = MockClock() if datastore is None: db_pool = SQLiteMemoryDbPool() yield db_pool.prepare() hs = HomeServer( name, db_pool=db_pool, config=config, version_string="Synapse/tests", database_engine=create_engine(config.database_config), get_db_conn=db_pool.get_db_conn, room_list_handler=object(), tls_server_context_factory=Mock(), **kargs ) hs.setup() else: hs = HomeServer( name, db_pool=None, datastore=datastore, config=config, version_string="Synapse/tests", database_engine=create_engine(config.database_config), room_list_handler=object(), tls_server_context_factory=Mock(), **kargs ) # bcrypt is far too slow to be doing in unit tests # Need to let the HS build an auth handler and then mess with it # because AuthHandler's constructor requires the HS, so we can't make one # beforehand and pass it in to the HS's constructor (chicken / egg) hs.get_auth_handler().hash = lambda p: hashlib.md5(p).hexdigest() hs.get_auth_handler().validate_hash = lambda p, h: hashlib.md5(p).hexdigest() == h fed = kargs.get("resource_for_federation", None) if fed: server.register_servlets( hs, resource=fed, authenticator=server.Authenticator(hs), ratelimiter=FederationRateLimiter( hs.get_clock(), window_size=hs.config.federation_rc_window_size, sleep_limit=hs.config.federation_rc_sleep_limit, sleep_msec=hs.config.federation_rc_sleep_delay, reject_limit=hs.config.federation_rc_reject_limit, concurrent_requests=hs.config.federation_rc_concurrent ), ) defer.returnValue(hs) def get_mock_call_args(pattern_func, mock_func): """ Return the arguments the mock function was called with interpreted by the pattern functions argument list. """ invoked_args, invoked_kargs = mock_func.call_args return getcallargs(pattern_func, *invoked_args, **invoked_kargs) def mock_getRawHeaders(headers=None): headers = headers if headers is not None else {} def getRawHeaders(name, default=None): return headers.get(name, default) return getRawHeaders # This is a mock /resource/ not an entire server class MockHttpResource(HttpServer): def __init__(self, prefix=""): self.callbacks = [] # 3-tuple of method/pattern/function self.prefix = prefix def trigger_get(self, path): return self.trigger("GET", path, None) @patch('twisted.web.http.Request') @defer.inlineCallbacks def trigger(self, http_method, path, content, mock_request, federation_auth=False): """ Fire an HTTP event. Args: http_method : The HTTP method path : The HTTP path content : The HTTP body mock_request : Mocked request to pass to the event so it can get content. Returns: A tuple of (code, response) Raises: KeyError If no event is found which will handle the path. """ path = self.prefix + path # annoyingly we return a twisted http request which has chained calls # to get at the http content, hence mock it here. mock_content = Mock() config = {'read.return_value': content} mock_content.configure_mock(**config) mock_request.content = mock_content mock_request.method = http_method mock_request.uri = path mock_request.getClientIP.return_value = "-" headers = {} if federation_auth: headers["Authorization"] = ["X-Matrix origin=test,key=,sig="] mock_request.requestHeaders.getRawHeaders = mock_getRawHeaders(headers) # return the right path if the event requires it mock_request.path = path # add in query params to the right place try: mock_request.args = urlparse.parse_qs(path.split('?')[1]) mock_request.path = path.split('?')[0] path = mock_request.path except Exception: pass for (method, pattern, func) in self.callbacks: if http_method != method: continue matcher = pattern.match(path) if matcher: try: args = [ urllib.unquote(u).decode("UTF-8") for u in matcher.groups() ] (code, response) = yield func( mock_request, *args ) defer.returnValue((code, response)) except CodeMessageException as e: defer.returnValue((e.code, cs_error(e.msg, code=e.errcode))) raise KeyError("No event can handle %s" % path) def register_paths(self, method, path_patterns, callback): for path_pattern in path_patterns: self.callbacks.append((method, path_pattern, callback)) class MockKey(object): alg = "mock_alg" version = "mock_version" signature = b"\x9a\x87$" @property def verify_key(self): return self def sign(self, message): return self def verify(self, message, sig): assert sig == b"\x9a\x87$" class MockClock(object): now = 1000 def __init__(self): # list of lists of [absolute_time, callback, expired] in no particular # order self.timers = [] self.loopers = [] def time(self): return self.now def time_msec(self): return self.time() * 1000 def call_later(self, delay, callback, *args, **kwargs): current_context = LoggingContext.current_context() def wrapped_callback(): LoggingContext.thread_local.current_context = current_context callback(*args, **kwargs) t = [self.now + delay, wrapped_callback, False] self.timers.append(t) return t def looping_call(self, function, interval): self.loopers.append([function, interval / 1000., self.now]) def cancel_call_later(self, timer, ignore_errs=False): if timer[2]: if not ignore_errs: raise Exception("Cannot cancel an expired timer") timer[2] = True self.timers = [t for t in self.timers if t != timer] # For unit testing def advance_time(self, secs): self.now += secs timers = self.timers self.timers = [] for t in timers: time, callback, expired = t if expired: raise Exception("Timer already expired") if self.now >= time: t[2] = True callback() else: self.timers.append(t) for looped in self.loopers: func, interval, last = looped if last + interval < self.now: func() looped[2] = self.now def advance_time_msec(self, ms): self.advance_time(ms / 1000.) def time_bound_deferred(self, d, *args, **kwargs): # We don't bother timing things out for now. return d class SQLiteMemoryDbPool(ConnectionPool, object): def __init__(self): super(SQLiteMemoryDbPool, self).__init__( "sqlite3", ":memory:", cp_min=1, cp_max=1, ) self.config = Mock() self.config.password_providers = [] self.config.database_config = {"name": "sqlite3"} def prepare(self): engine = self.create_engine() return self.runWithConnection( lambda conn: prepare_database(conn, engine, self.config) ) def get_db_conn(self): conn = self.connect() engine = self.create_engine() prepare_database(conn, engine, self.config) return conn def create_engine(self): return create_engine(self.config.database_config) class MemoryDataStore(object): Room = namedtuple( "Room", ["room_id", "is_public", "creator"] ) def __init__(self): self.tokens_to_users = {} self.paths_to_content = {} self.members = {} self.rooms = {} self.current_state = {} self.events = [] class Snapshot(namedtuple("Snapshot", "room_id user_id membership_state")): def fill_out_prev_events(self, event): pass def snapshot_room(self, room_id, user_id, state_type=None, state_key=None): return self.Snapshot( room_id, user_id, self.get_room_member(user_id, room_id) ) def register(self, user_id, token, password_hash): if user_id in self.tokens_to_users.values(): raise StoreError(400, "User in use.") self.tokens_to_users[token] = user_id def get_user_by_access_token(self, token): try: return { "name": self.tokens_to_users[token], } except Exception: raise StoreError(400, "User does not exist.") def get_room(self, room_id): try: return self.rooms[room_id] except Exception: return None def store_room(self, room_id, room_creator_user_id, is_public): if room_id in self.rooms: raise StoreError(409, "Conflicting room!") room = MemoryDataStore.Room( room_id=room_id, is_public=is_public, creator=room_creator_user_id ) self.rooms[room_id] = room def get_room_member(self, user_id, room_id): return self.members.get(room_id, {}).get(user_id) def get_room_members(self, room_id, membership=None): if membership: return [ v for k, v in self.members.get(room_id, {}).items() if v.membership == membership ] else: return self.members.get(room_id, {}).values() def get_rooms_for_user_where_membership_is(self, user_id, membership_list): return [ m[user_id] for m in self.members.values() if user_id in m and m[user_id].membership in membership_list ] def get_room_events_stream(self, user_id=None, from_key=None, to_key=None, limit=0, with_feedback=False): return ([], from_key) # TODO def get_joined_hosts_for_room(self, room_id): return defer.succeed([]) def persist_event(self, event): if event.type == EventTypes.Member: room_id = event.room_id user = event.state_key self.members.setdefault(room_id, {})[user] = event if hasattr(event, "state_key"): key = (event.room_id, event.type, event.state_key) self.current_state[key] = event self.events.append(event) def get_current_state(self, room_id, event_type=None, state_key=""): if event_type: key = (room_id, event_type, state_key) if self.current_state.get(key): return [self.current_state.get(key)] return None else: return [ e for e in self.current_state if e[0] == room_id ] def set_presence_state(self, user_localpart, state): return defer.succeed({"state": 0}) def get_presence_list(self, user_localpart, accepted): return [] def get_room_events_max_id(self): return "s0" # TODO (erikj) def get_send_event_level(self, room_id): return defer.succeed(0) def get_power_level(self, room_id, user_id): return defer.succeed(0) def get_add_state_level(self, room_id): return defer.succeed(0) def get_room_join_rule(self, room_id): # TODO (erikj): This should be configurable return defer.succeed("invite") def get_ops_levels(self, room_id): return defer.succeed((5, 5, 5)) def insert_client_ip(self, user, access_token, ip, user_agent): return defer.succeed(None) def _format_call(args, kwargs): return ", ".join( ["%r" % (a) for a in args] + ["%s=%r" % (k, v) for k, v in kwargs.items()] ) class DeferredMockCallable(object): """A callable instance that stores a set of pending call expectations and return values for them. It allows a unit test to assert that the given set of function calls are eventually made, by awaiting on them to be called. """ def __init__(self): self.expectations = [] self.calls = [] def __call__(self, *args, **kwargs): self.calls.append((args, kwargs)) if not self.expectations: raise ValueError("%r has no pending calls to handle call(%s)" % ( self, _format_call(args, kwargs)) ) for (call, result, d) in self.expectations: if args == call[1] and kwargs == call[2]: d.callback(None) return result failure = AssertionError("Was not expecting call(%s)" % ( _format_call(args, kwargs) )) for _, _, d in self.expectations: try: d.errback(failure) except Exception: pass raise failure def expect_call_and_return(self, call, result): self.expectations.append((call, result, defer.Deferred())) @defer.inlineCallbacks def await_calls(self, timeout=1000): deferred = defer.DeferredList( [d for _, _, d in self.expectations], fireOnOneErrback=True ) timer = reactor.callLater( timeout / 1000, deferred.errback, AssertionError("%d pending calls left: %s" % ( len([e for e in self.expectations if not e[2].called]), [e for e in self.expectations if not e[2].called] )) ) yield deferred timer.cancel() self.calls = [] def assert_had_no_calls(self): if self.calls: calls = self.calls self.calls = [] raise AssertionError( "Expected not to received any calls, got:\n" + "\n".join([ "call(%s)" % _format_call(c[0], c[1]) for c in calls ]) )