# # This file is licensed under the Affero General Public License (AGPL) version 3. # # Copyright 2019-2021 The Matrix.org Foundation C.I.C. # Copyright 2017 Vector Creations Ltd # Copyright 2014-2016 OpenMarket Ltd # Copyright (C) 2023 New Vector, Ltd # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # See the GNU Affero General Public License for more details: # . # # Originally licensed under the Apache License, Version 2.0: # . # # [This file includes modifications made by New Vector Limited] # # import json import re import time import urllib.parse from http import HTTPStatus from typing import ( Any, AnyStr, Dict, Iterable, Mapping, MutableMapping, Optional, Tuple, overload, ) from urllib.parse import urlencode import attr from typing_extensions import Literal from twisted.test.proto_helpers import MemoryReactorClock from twisted.web.server import Site from synapse.api.constants import Membership, ReceiptTypes from synapse.api.errors import Codes from synapse.server import HomeServer from synapse.types import JsonDict from tests.server import FakeChannel, make_request from tests.test_utils.html_parsers import TestHtmlParser from tests.test_utils.oidc import FakeAuthorizationGrant, FakeOidcServer # an 'oidc_config' suitable for login_via_oidc. TEST_OIDC_ISSUER = "https://issuer.test/" TEST_OIDC_CONFIG = { "enabled": True, "issuer": TEST_OIDC_ISSUER, "client_id": "test-client-id", "client_secret": "test-client-secret", "scopes": ["openid"], "user_mapping_provider": {"config": {"localpart_template": "{{ user.sub }}"}}, } @attr.s(auto_attribs=True) class RestHelper: """Contains extra helper functions to quickly and clearly perform a given REST action, which isn't the focus of the test. """ hs: HomeServer reactor: MemoryReactorClock site: Site auth_user_id: Optional[str] @overload def create_room_as( self, room_creator: Optional[str] = ..., is_public: Optional[bool] = ..., room_version: Optional[str] = ..., tok: Optional[str] = ..., expect_code: Literal[200] = ..., extra_content: Optional[Dict] = ..., custom_headers: Optional[Iterable[Tuple[AnyStr, AnyStr]]] = ..., ) -> str: ... @overload def create_room_as( self, room_creator: Optional[str] = ..., is_public: Optional[bool] = ..., room_version: Optional[str] = ..., tok: Optional[str] = ..., expect_code: int = ..., extra_content: Optional[Dict] = ..., custom_headers: Optional[Iterable[Tuple[AnyStr, AnyStr]]] = ..., ) -> Optional[str]: ... def create_room_as( self, room_creator: Optional[str] = None, is_public: Optional[bool] = True, room_version: Optional[str] = None, tok: Optional[str] = None, expect_code: int = HTTPStatus.OK, extra_content: Optional[Dict] = None, custom_headers: Optional[Iterable[Tuple[AnyStr, AnyStr]]] = None, ) -> Optional[str]: """ Create a room. Args: room_creator: The user ID to create the room with. is_public: If True, the `visibility` parameter will be set to "public". If False, it will be set to "private". If None, doesn't specify the `visibility` parameter in which case the server is supposed to make the room private according to the CS API. Defaults to public, since that is commonly needed in tests for convenience where room privacy is not a problem. room_version: The room version to create the room as. Defaults to Synapse's default room version. tok: The access token to use in the request. expect_code: The expected HTTP response code. extra_content: Extra keys to include in the body of the /createRoom request. Note that if is_public is set, the "visibility" key will be overridden. If room_version is set, the "room_version" key will be overridden. custom_headers: HTTP headers to include in the request. Returns: The ID of the newly created room, or None if the request failed. """ temp_id = self.auth_user_id self.auth_user_id = room_creator path = "/_matrix/client/r0/createRoom" content = extra_content or {} if is_public is not None: content["visibility"] = "public" if is_public else "private" if room_version: content["room_version"] = room_version if tok: path = path + "?access_token=%s" % tok channel = make_request( self.reactor, self.site, "POST", path, content, custom_headers=custom_headers, ) assert channel.code == expect_code, channel.result self.auth_user_id = temp_id if expect_code == HTTPStatus.OK: return channel.json_body["room_id"] else: return None def invite( self, room: str, src: Optional[str] = None, targ: Optional[str] = None, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, extra_data: Optional[dict] = None, ) -> JsonDict: return self.change_membership( room=room, src=src, targ=targ, tok=tok, membership=Membership.INVITE, expect_code=expect_code, extra_data=extra_data, ) def join( self, room: str, user: Optional[str] = None, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, appservice_user_id: Optional[str] = None, expect_errcode: Optional[Codes] = None, expect_additional_fields: Optional[dict] = None, ) -> JsonDict: return self.change_membership( room=room, src=user, targ=user, tok=tok, appservice_user_id=appservice_user_id, membership=Membership.JOIN, expect_code=expect_code, expect_errcode=expect_errcode, expect_additional_fields=expect_additional_fields, ) def knock( self, room: Optional[str] = None, user: Optional[str] = None, reason: Optional[str] = None, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, ) -> None: temp_id = self.auth_user_id self.auth_user_id = user path = "/knock/%s" % room if tok: path = path + "?access_token=%s" % tok data = {} if reason: data["reason"] = reason channel = make_request( self.reactor, self.site, "POST", path, data, ) assert channel.code == expect_code, "Expected: %d, got: %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) self.auth_user_id = temp_id def leave( self, room: str, user: Optional[str] = None, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, ) -> JsonDict: return self.change_membership( room=room, src=user, targ=user, tok=tok, membership=Membership.LEAVE, expect_code=expect_code, ) def ban( self, room: str, src: str, targ: str, expect_code: int = HTTPStatus.OK, tok: Optional[str] = None, ) -> JsonDict: """A convenience helper: `change_membership` with `membership` preset to "ban".""" return self.change_membership( room=room, src=src, targ=targ, tok=tok, membership=Membership.BAN, expect_code=expect_code, ) def change_membership( self, room: str, src: Optional[str], targ: Optional[str], membership: str, extra_data: Optional[dict] = None, tok: Optional[str] = None, appservice_user_id: Optional[str] = None, expect_code: int = HTTPStatus.OK, expect_errcode: Optional[str] = None, expect_additional_fields: Optional[dict] = None, ) -> JsonDict: """ Send a membership state event into a room. Args: room: The ID of the room to send to src: The mxid of the event sender targ: The mxid of the event's target. The state key membership: The type of membership event extra_data: Extra information to include in the content of the event tok: The user access token to use appservice_user_id: The `user_id` URL parameter to pass. This allows driving an application service user using an application service access token in `tok`. expect_code: The expected HTTP response code expect_errcode: The expected Matrix error code Returns: The JSON response """ temp_id = self.auth_user_id self.auth_user_id = src path = f"/_matrix/client/r0/rooms/{room}/state/m.room.member/{targ}" url_params: Dict[str, str] = {} if tok: url_params["access_token"] = tok if appservice_user_id: url_params["user_id"] = appservice_user_id if url_params: path += "?" + urlencode(url_params) data = {"membership": membership} data.update(extra_data or {}) channel = make_request( self.reactor, self.site, "PUT", path, data, ) assert channel.code == expect_code, ( "Expected: %d, got: %d, PUT %s -> resp: %r" % ( expect_code, channel.code, path, channel.result["body"], ) ) if expect_errcode: assert str(channel.json_body["errcode"]) == expect_errcode, ( "Expected: %r, got: %r, resp: %r" % ( expect_errcode, channel.json_body["errcode"], channel.result["body"], ) ) if expect_additional_fields is not None: for expect_key, expect_value in expect_additional_fields.items(): assert expect_key in channel.json_body, "Expected field %s, got %s" % ( expect_key, channel.json_body, ) assert channel.json_body[expect_key] == expect_value, ( "Expected: %s at %s, got: %s, resp: %s" % ( expect_value, expect_key, channel.json_body[expect_key], channel.json_body, ) ) self.auth_user_id = temp_id return channel.json_body def send( self, room_id: str, body: Optional[str] = None, txn_id: Optional[str] = None, tok: Optional[str] = None, expect_code: int = HTTPStatus.OK, custom_headers: Optional[Iterable[Tuple[AnyStr, AnyStr]]] = None, type: str = "m.room.message", ) -> JsonDict: if body is None: body = "body_text_here" content = {"msgtype": "m.text", "body": body} return self.send_event( room_id, type, content, txn_id, tok, expect_code, custom_headers=custom_headers, ) def send_event( self, room_id: str, type: str, content: Optional[dict] = None, txn_id: Optional[str] = None, tok: Optional[str] = None, expect_code: int = HTTPStatus.OK, custom_headers: Optional[Iterable[Tuple[AnyStr, AnyStr]]] = None, ) -> JsonDict: if txn_id is None: txn_id = "m%s" % (str(time.time())) path = "/_matrix/client/r0/rooms/%s/send/%s/%s" % (room_id, type, txn_id) if tok: path = path + "?access_token=%s" % tok channel = make_request( self.reactor, self.site, "PUT", path, content or {}, custom_headers=custom_headers, ) assert channel.code == expect_code, "Expected: %d, got: %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) return channel.json_body def get_event( self, room_id: str, event_id: str, tok: Optional[str] = None, expect_code: int = HTTPStatus.OK, ) -> JsonDict: """Request a specific event from the server. Args: room_id: the room in which the event was sent. event_id: the event's ID. tok: the token to request the event with. expect_code: the expected HTTP status for the response. Returns: The event as a dict. """ path = f"/_matrix/client/v3/rooms/{room_id}/event/{event_id}" if tok: path = path + f"?access_token={tok}" channel = make_request( self.reactor, self.site, "GET", path, ) assert channel.code == expect_code, "Expected: %d, got: %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) return channel.json_body def _read_write_state( self, room_id: str, event_type: str, body: Optional[Dict[str, Any]], tok: Optional[str], expect_code: int = HTTPStatus.OK, state_key: str = "", method: str = "GET", ) -> JsonDict: """Read or write some state from a given room Args: room_id: event_type: The type of state event body: Body that is sent when making the request. The content of the state event. If None, the request to the server will have an empty body tok: The access token to use expect_code: The HTTP code to expect in the response state_key: method: "GET" or "PUT" for reading or writing state, respectively Returns: The response body from the server Raises: AssertionError: if expect_code doesn't match the HTTP code we received """ path = "/_matrix/client/r0/rooms/%s/state/%s/%s" % ( room_id, event_type, state_key, ) if tok: path = path + "?access_token=%s" % tok # Set request body if provided content = b"" if body is not None: content = json.dumps(body).encode("utf8") channel = make_request(self.reactor, self.site, method, path, content) assert channel.code == expect_code, "Expected: %d, got: %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) return channel.json_body def get_state( self, room_id: str, event_type: str, tok: str, expect_code: int = HTTPStatus.OK, state_key: str = "", ) -> JsonDict: """Gets some state from a room Args: room_id: event_type: The type of state event tok: The access token to use expect_code: The HTTP code to expect in the response state_key: Returns: The response body from the server Raises: AssertionError: if expect_code doesn't match the HTTP code we received """ return self._read_write_state( room_id, event_type, None, tok, expect_code, state_key, method="GET" ) def send_state( self, room_id: str, event_type: str, body: Dict[str, Any], tok: Optional[str], expect_code: int = HTTPStatus.OK, state_key: str = "", ) -> JsonDict: """Set some state in a room Args: room_id: event_type: The type of state event body: Body that is sent when making the request. The content of the state event. tok: The access token to use expect_code: The HTTP code to expect in the response state_key: Returns: The response body from the server Raises: AssertionError: if expect_code doesn't match the HTTP code we received """ return self._read_write_state( room_id, event_type, body, tok, expect_code, state_key, method="PUT" ) def upload_media( self, image_data: bytes, tok: str, filename: str = "test.png", expect_code: int = HTTPStatus.OK, ) -> JsonDict: """Upload a piece of test media to the media repo Args: resource: The resource that will handle the upload request image_data: The image data to upload tok: The user token to use during the upload filename: The filename of the media to be uploaded expect_code: The return code to expect from attempting to upload the media """ image_length = len(image_data) path = "/_matrix/media/r0/upload?filename=%s" % (filename,) channel = make_request( self.reactor, self.site, "POST", path, content=image_data, access_token=tok, custom_headers=[("Content-Length", str(image_length))], ) assert channel.code == expect_code, "Expected: %d, got: %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) return channel.json_body def whoami( self, access_token: str, expect_code: Literal[HTTPStatus.OK, HTTPStatus.UNAUTHORIZED] = HTTPStatus.OK, ) -> JsonDict: """Perform a 'whoami' request, which can be a quick way to check for access token validity Args: access_token: The user token to use during the request expect_code: The return code to expect from attempting the whoami request """ channel = make_request( self.reactor, self.site, "GET", "account/whoami", access_token=access_token, ) assert channel.code == expect_code, "Exepcted: %d, got %d, resp: %r" % ( expect_code, channel.code, channel.result["body"], ) return channel.json_body def fake_oidc_server(self, issuer: str = TEST_OIDC_ISSUER) -> FakeOidcServer: """Create a ``FakeOidcServer``. This can be used in conjuction with ``login_via_oidc``:: fake_oidc_server = self.helper.fake_oidc_server() login_data, _ = self.helper.login_via_oidc(fake_oidc_server, "user") """ return FakeOidcServer( clock=self.hs.get_clock(), issuer=issuer, ) def login_via_oidc( self, fake_server: FakeOidcServer, remote_user_id: str, with_sid: bool = False, idp_id: Optional[str] = None, expected_status: int = 200, ) -> Tuple[JsonDict, FakeAuthorizationGrant]: """Log in (as a new user) via OIDC Returns the result of the final token login and the fake authorization grant. Requires that "oidc_config" in the homeserver config be set appropriately (TEST_OIDC_CONFIG is a suitable example) - and by implication, needs a "public_base_url". Also requires the login servlet and the OIDC callback resource to be mounted at the normal places. """ client_redirect_url = "https://x" userinfo = {"sub": remote_user_id} channel, grant = self.auth_via_oidc( fake_server, userinfo, client_redirect_url, with_sid=with_sid, idp_id=idp_id, ) # expect a confirmation page assert channel.code == HTTPStatus.OK, channel.result # fish the matrix login token out of the body of the confirmation page m = re.search( 'a href="%s.*loginToken=([^"]*)"' % (client_redirect_url,), channel.text_body, ) assert m, channel.text_body login_token = m.group(1) return self.login_via_token(login_token, expected_status), grant def login_via_token( self, login_token: str, expected_status: int = 200, ) -> JsonDict: """Submit the matrix login token to the login API, which gives us our matrix access token and device id.Log in (as a new user) via OIDC Returns the result of the token login. Requires that "oidc_config" in the homeserver config be set appropriately (TEST_OIDC_CONFIG is a suitable example) - and by implication, needs a "public_base_url". Also requires the login servlet and the OIDC callback resource to be mounted at the normal places. """ channel = make_request( self.reactor, self.site, "POST", "/login", content={"type": "m.login.token", "token": login_token}, ) assert ( channel.code == expected_status ), f"unexpected status in response: {channel.code}" return channel.json_body def auth_via_oidc( self, fake_server: FakeOidcServer, user_info_dict: JsonDict, client_redirect_url: Optional[str] = None, ui_auth_session_id: Optional[str] = None, with_sid: bool = False, idp_id: Optional[str] = None, ) -> Tuple[FakeChannel, FakeAuthorizationGrant]: """Perform an OIDC authentication flow via a mock OIDC provider. This can be used for either login or user-interactive auth. Starts by making a request to the relevant synapse redirect endpoint, which is expected to serve a 302 to the OIDC provider. We then make a request to the OIDC callback endpoint, intercepting the HTTP requests that will get sent back to the OIDC provider. Requires that "oidc_config" in the homeserver config be set appropriately (TEST_OIDC_CONFIG is a suitable example) - and by implication, needs a "public_base_url". Also requires the login servlet and the OIDC callback resource to be mounted at the normal places. Args: user_info_dict: the remote userinfo that the OIDC provider should present. Typically this should be '{"sub": ""}'. client_redirect_url: for a login flow, the client redirect URL to pass to the login redirect endpoint ui_auth_session_id: if set, we will perform a UI Auth flow. The session id of the UI auth. with_sid: if True, generates a random `sid` (OIDC session ID) idp_id: if set, explicitely chooses one specific IDP Returns: A FakeChannel containing the result of calling the OIDC callback endpoint. Note that the response code may be a 200, 302 or 400 depending on how things went. """ cookies: Dict[str, str] = {} with fake_server.patch_homeserver(hs=self.hs): # if we're doing a ui auth, hit the ui auth redirect endpoint if ui_auth_session_id: # can't set the client redirect url for UI Auth assert client_redirect_url is None oauth_uri = self.initiate_sso_ui_auth(ui_auth_session_id, cookies) else: # otherwise, hit the login redirect endpoint oauth_uri = self.initiate_sso_login( client_redirect_url, cookies, idp_id=idp_id ) # we now have a URI for the OIDC IdP, but we skip that and go straight # back to synapse's OIDC callback resource. However, we do need the "state" # param that synapse passes to the IdP via query params, as well as the cookie # that synapse passes to the client. oauth_uri_path, _ = oauth_uri.split("?", 1) assert oauth_uri_path == fake_server.authorization_endpoint, ( "unexpected SSO URI " + oauth_uri_path ) return self.complete_oidc_auth( fake_server, oauth_uri, cookies, user_info_dict, with_sid=with_sid ) def complete_oidc_auth( self, fake_serer: FakeOidcServer, oauth_uri: str, cookies: Mapping[str, str], user_info_dict: JsonDict, with_sid: bool = False, ) -> Tuple[FakeChannel, FakeAuthorizationGrant]: """Mock out an OIDC authentication flow Assumes that an OIDC auth has been initiated by one of initiate_sso_login or initiate_sso_ui_auth; completes the OIDC bits of the flow by making a request to Synapse's OIDC callback endpoint, intercepting the HTTP requests that will get sent back to the OIDC provider. Requires the OIDC callback resource to be mounted at the normal place. Args: fake_server: the fake OIDC server with which the auth should be done oauth_uri: the OIDC URI returned by synapse's redirect endpoint (ie, from initiate_sso_login or initiate_sso_ui_auth). cookies: the cookies set by synapse's redirect endpoint, which will be sent back to the callback endpoint. user_info_dict: the remote userinfo that the OIDC provider should present. Typically this should be '{"sub": ""}'. with_sid: if True, generates a random `sid` (OIDC session ID) Returns: A FakeChannel containing the result of calling the OIDC callback endpoint. """ _, oauth_uri_qs = oauth_uri.split("?", 1) params = urllib.parse.parse_qs(oauth_uri_qs) code, grant = fake_serer.start_authorization( scope=params["scope"][0], userinfo=user_info_dict, client_id=params["client_id"][0], redirect_uri=params["redirect_uri"][0], nonce=params["nonce"][0], with_sid=with_sid, ) state = params["state"][0] callback_uri = "%s?%s" % ( urllib.parse.urlparse(params["redirect_uri"][0]).path, urllib.parse.urlencode({"state": state, "code": code}), ) with fake_serer.patch_homeserver(hs=self.hs): # now hit the callback URI with the right params and a made-up code channel = make_request( self.reactor, self.site, "GET", callback_uri, custom_headers=[ ("Cookie", "%s=%s" % (k, v)) for (k, v) in cookies.items() ], ) return channel, grant def initiate_sso_login( self, client_redirect_url: Optional[str], cookies: MutableMapping[str, str], idp_id: Optional[str] = None, ) -> str: """Make a request to the login-via-sso redirect endpoint, and return the target Assumes that exactly one SSO provider has been configured. Requires the login servlet to be mounted. Args: client_redirect_url: the client redirect URL to pass to the login redirect endpoint cookies: any cookies returned will be added to this dict idp_id: if set, explicitely chooses one specific IDP Returns: the URI that the client gets redirected to (ie, the SSO server) """ params = {} if client_redirect_url: params["redirectUrl"] = client_redirect_url uri = "/_matrix/client/r0/login/sso/redirect" if idp_id is not None: uri = f"{uri}/{idp_id}" uri = f"{uri}?{urllib.parse.urlencode(params)}" # hit the redirect url (which should redirect back to the redirect url. This # is the easiest way of figuring out what the Host header ought to be set to # to keep Synapse happy. channel = make_request( self.reactor, self.site, "GET", uri, ) assert channel.code == 302, f"Expected 302 for {uri}, got {channel.code}" # hit the redirect url again with the right Host header, which should now issue # a cookie and redirect to the SSO provider. def get_location(channel: FakeChannel) -> str: location_values = channel.headers.getRawHeaders("Location") # Keep mypy happy by asserting that location_values is nonempty assert location_values return location_values[0] location = get_location(channel) parts = urllib.parse.urlsplit(location) next_uri = urllib.parse.urlunsplit(("", "") + parts[2:]) channel = make_request( self.reactor, self.site, "GET", next_uri, custom_headers=[ ("Host", parts[1]), ], ) assert channel.code == 302, f"Expected 302 for {next_uri}, got {channel.code}" channel.extract_cookies(cookies) return get_location(channel) def initiate_sso_ui_auth( self, ui_auth_session_id: str, cookies: MutableMapping[str, str] ) -> str: """Make a request to the ui-auth-via-sso endpoint, and return the target Assumes that exactly one SSO provider has been configured. Requires the AuthRestServlet to be mounted. Args: ui_auth_session_id: the session id of the UI auth cookies: any cookies returned will be added to this dict Returns: the URI that the client gets linked to (ie, the SSO server) """ sso_redirect_endpoint = ( "/_matrix/client/r0/auth/m.login.sso/fallback/web?" + urllib.parse.urlencode({"session": ui_auth_session_id}) ) # hit the redirect url (which will issue a cookie and state) channel = make_request(self.reactor, self.site, "GET", sso_redirect_endpoint) # that should serve a confirmation page assert channel.code == HTTPStatus.OK, channel.text_body channel.extract_cookies(cookies) # parse the confirmation page to fish out the link. p = TestHtmlParser() p.feed(channel.text_body) p.close() assert len(p.links) == 1, "not exactly one link in confirmation page" oauth_uri = p.links[0] return oauth_uri def send_read_receipt(self, room_id: str, event_id: str, *, tok: str) -> None: """Send a read receipt into the room at the given event""" channel = make_request( self.reactor, self.site, method="POST", path=f"/rooms/{room_id}/receipt/{ReceiptTypes.READ}/{event_id}", content={}, access_token=tok, ) assert channel.code == HTTPStatus.OK, channel.text_body