MatrixSynapse/synapse/rest/client/login.py

669 lines
25 KiB
Python

# Copyright 2014-2021 The Matrix.org Foundation C.I.C.
#
# 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.
import logging
import re
from typing import (
TYPE_CHECKING,
Any,
Awaitable,
Callable,
Dict,
List,
Optional,
Tuple,
Union,
)
from typing_extensions import TypedDict
from synapse.api.constants import ApprovalNoticeMedium
from synapse.api.errors import (
Codes,
InvalidClientTokenError,
LoginError,
NotApprovedError,
SynapseError,
UserDeactivatedError,
)
from synapse.api.ratelimiting import Ratelimiter
from synapse.api.urls import CLIENT_API_PREFIX
from synapse.appservice import ApplicationService
from synapse.handlers.sso import SsoIdentityProvider
from synapse.http import get_request_uri
from synapse.http.server import HttpServer, finish_request
from synapse.http.servlet import (
RestServlet,
assert_params_in_dict,
parse_bytes_from_args,
parse_json_object_from_request,
parse_string,
)
from synapse.http.site import SynapseRequest
from synapse.rest.client._base import client_patterns
from synapse.rest.well_known import WellKnownBuilder
from synapse.types import JsonDict, UserID
if TYPE_CHECKING:
from synapse.server import HomeServer
logger = logging.getLogger(__name__)
class LoginResponse(TypedDict, total=False):
user_id: str
access_token: Optional[str]
home_server: str
expires_in_ms: Optional[int]
refresh_token: Optional[str]
device_id: Optional[str]
well_known: Optional[Dict[str, Any]]
class LoginRestServlet(RestServlet):
PATTERNS = client_patterns("/login$", v1=True)
CATEGORY = "Registration/login requests"
CAS_TYPE = "m.login.cas"
SSO_TYPE = "m.login.sso"
TOKEN_TYPE = "m.login.token"
JWT_TYPE = "org.matrix.login.jwt"
APPSERVICE_TYPE = "m.login.application_service"
REFRESH_TOKEN_PARAM = "refresh_token"
def __init__(self, hs: "HomeServer"):
super().__init__()
self.hs = hs
self._main_store = hs.get_datastores().main
# JWT configuration variables.
self.jwt_enabled = hs.config.jwt.jwt_enabled
# SSO configuration.
self.saml2_enabled = hs.config.saml2.saml2_enabled
self.cas_enabled = hs.config.cas.cas_enabled
self.oidc_enabled = hs.config.oidc.oidc_enabled
self._refresh_tokens_enabled = (
hs.config.registration.refreshable_access_token_lifetime is not None
)
# Whether we need to check if the user has been approved or not.
self._require_approval = (
hs.config.experimental.msc3866.enabled
and hs.config.experimental.msc3866.require_approval_for_new_accounts
)
self.auth = hs.get_auth()
self.clock = hs.get_clock()
self.auth_handler = self.hs.get_auth_handler()
self.registration_handler = hs.get_registration_handler()
self._sso_handler = hs.get_sso_handler()
self._well_known_builder = WellKnownBuilder(hs)
self._address_ratelimiter = Ratelimiter(
store=self._main_store,
clock=hs.get_clock(),
rate_hz=self.hs.config.ratelimiting.rc_login_address.per_second,
burst_count=self.hs.config.ratelimiting.rc_login_address.burst_count,
)
self._account_ratelimiter = Ratelimiter(
store=self._main_store,
clock=hs.get_clock(),
rate_hz=self.hs.config.ratelimiting.rc_login_account.per_second,
burst_count=self.hs.config.ratelimiting.rc_login_account.burst_count,
)
# ensure the CAS/SAML/OIDC handlers are loaded on this worker instance.
# The reason for this is to ensure that the auth_provider_ids are registered
# with SsoHandler, which in turn ensures that the login/registration prometheus
# counters are initialised for the auth_provider_ids.
_load_sso_handlers(hs)
def on_GET(self, request: SynapseRequest) -> Tuple[int, JsonDict]:
flows: List[JsonDict] = []
if self.jwt_enabled:
flows.append({"type": LoginRestServlet.JWT_TYPE})
if self.cas_enabled:
# we advertise CAS for backwards compat, though MSC1721 renamed it
# to SSO.
flows.append({"type": LoginRestServlet.CAS_TYPE})
if self.cas_enabled or self.saml2_enabled or self.oidc_enabled:
flows.append(
{
"type": LoginRestServlet.SSO_TYPE,
"identity_providers": [
_get_auth_flow_dict_for_idp(idp)
for idp in self._sso_handler.get_identity_providers().values()
],
}
)
# While it's valid for us to advertise this login type generally,
# synapse currently only gives out these tokens as part of the
# SSO login flow.
# Generally we don't want to advertise login flows that clients
# don't know how to implement, since they (currently) will always
# fall back to the fallback API if they don't understand one of the
# login flow types returned.
flows.append({"type": LoginRestServlet.TOKEN_TYPE})
flows.extend({"type": t} for t in self.auth_handler.get_supported_login_types())
flows.append({"type": LoginRestServlet.APPSERVICE_TYPE})
return 200, {"flows": flows}
async def on_POST(self, request: SynapseRequest) -> Tuple[int, LoginResponse]:
login_submission = parse_json_object_from_request(request)
# Check to see if the client requested a refresh token.
client_requested_refresh_token = login_submission.get(
LoginRestServlet.REFRESH_TOKEN_PARAM, False
)
if not isinstance(client_requested_refresh_token, bool):
raise SynapseError(400, "`refresh_token` should be true or false.")
should_issue_refresh_token = (
self._refresh_tokens_enabled and client_requested_refresh_token
)
try:
if login_submission["type"] == LoginRestServlet.APPSERVICE_TYPE:
requester = await self.auth.get_user_by_req(request)
appservice = requester.app_service
if appservice is None:
raise InvalidClientTokenError(
"This login method is only valid for application services"
)
if appservice.is_rate_limited():
await self._address_ratelimiter.ratelimit(
None, request.getClientAddress().host
)
result = await self._do_appservice_login(
login_submission,
appservice,
should_issue_refresh_token=should_issue_refresh_token,
)
elif (
self.jwt_enabled
and login_submission["type"] == LoginRestServlet.JWT_TYPE
):
await self._address_ratelimiter.ratelimit(
None, request.getClientAddress().host
)
result = await self._do_jwt_login(
login_submission,
should_issue_refresh_token=should_issue_refresh_token,
)
elif login_submission["type"] == LoginRestServlet.TOKEN_TYPE:
await self._address_ratelimiter.ratelimit(
None, request.getClientAddress().host
)
result = await self._do_token_login(
login_submission,
should_issue_refresh_token=should_issue_refresh_token,
)
else:
await self._address_ratelimiter.ratelimit(
None, request.getClientAddress().host
)
result = await self._do_other_login(
login_submission,
should_issue_refresh_token=should_issue_refresh_token,
)
except KeyError:
raise SynapseError(400, "Missing JSON keys.")
if self._require_approval:
approved = await self.auth_handler.is_user_approved(result["user_id"])
if not approved:
raise NotApprovedError(
msg="This account is pending approval by a server administrator.",
approval_notice_medium=ApprovalNoticeMedium.NONE,
)
well_known_data = self._well_known_builder.get_well_known()
if well_known_data:
result["well_known"] = well_known_data
return 200, result
async def _do_appservice_login(
self,
login_submission: JsonDict,
appservice: ApplicationService,
should_issue_refresh_token: bool = False,
) -> LoginResponse:
identifier = login_submission.get("identifier")
logger.info("Got appservice login request with identifier: %r", identifier)
if not isinstance(identifier, dict):
raise SynapseError(
400, "Invalid identifier in login submission", Codes.INVALID_PARAM
)
# this login flow only supports identifiers of type "m.id.user".
if identifier.get("type") != "m.id.user":
raise SynapseError(
400, "Unknown login identifier type", Codes.INVALID_PARAM
)
user = identifier.get("user")
if not isinstance(user, str):
raise SynapseError(400, "Invalid user in identifier", Codes.INVALID_PARAM)
if user.startswith("@"):
qualified_user_id = user
else:
qualified_user_id = UserID(user, self.hs.hostname).to_string()
if not appservice.is_interested_in_user(qualified_user_id):
raise LoginError(403, "Invalid access_token", errcode=Codes.FORBIDDEN)
return await self._complete_login(
qualified_user_id,
login_submission,
ratelimit=appservice.is_rate_limited(),
should_issue_refresh_token=should_issue_refresh_token,
# The user represented by an appservice's configured sender_localpart
# is not actually created in Synapse.
should_check_deactivated=qualified_user_id != appservice.sender,
)
async def _do_other_login(
self, login_submission: JsonDict, should_issue_refresh_token: bool = False
) -> LoginResponse:
"""Handle non-token/saml/jwt logins
Args:
login_submission:
should_issue_refresh_token: True if this login should issue
a refresh token alongside the access token.
Returns:
HTTP response
"""
# Log the request we got, but only certain fields to minimise the chance of
# logging someone's password (even if they accidentally put it in the wrong
# field)
logger.info(
"Got login request with identifier: %r, medium: %r, address: %r, user: %r",
login_submission.get("identifier"),
login_submission.get("medium"),
login_submission.get("address"),
login_submission.get("user"),
)
canonical_user_id, callback = await self.auth_handler.validate_login(
login_submission, ratelimit=True
)
result = await self._complete_login(
canonical_user_id,
login_submission,
callback,
should_issue_refresh_token=should_issue_refresh_token,
)
return result
async def _complete_login(
self,
user_id: str,
login_submission: JsonDict,
callback: Optional[Callable[[LoginResponse], Awaitable[None]]] = None,
create_non_existent_users: bool = False,
ratelimit: bool = True,
auth_provider_id: Optional[str] = None,
should_issue_refresh_token: bool = False,
auth_provider_session_id: Optional[str] = None,
should_check_deactivated: bool = True,
) -> LoginResponse:
"""Called when we've successfully authed the user and now need to
actually login them in (e.g. create devices). This gets called on
all successful logins.
Applies the ratelimiting for successful login attempts against an
account.
Args:
user_id: ID of the user to register.
login_submission: Dictionary of login information.
callback: Callback function to run after login.
create_non_existent_users: Whether to create the user if they don't
exist. Defaults to False.
ratelimit: Whether to ratelimit the login request.
auth_provider_id: The SSO IdP the user used, if any.
should_issue_refresh_token: True if this login should issue
a refresh token alongside the access token.
auth_provider_session_id: The session ID got during login from the SSO IdP.
should_check_deactivated: True if the user should be checked for
deactivation status before logging in.
This exists purely for appservice's configured sender_localpart
which doesn't have an associated user in the database.
Returns:
Dictionary of account information after successful login.
"""
# Before we actually log them in we check if they've already logged in
# too often. This happens here rather than before as we don't
# necessarily know the user before now.
if ratelimit:
await self._account_ratelimiter.ratelimit(None, user_id.lower())
if create_non_existent_users:
canonical_uid = await self.auth_handler.check_user_exists(user_id)
if not canonical_uid:
canonical_uid = await self.registration_handler.register_user(
localpart=UserID.from_string(user_id).localpart
)
user_id = canonical_uid
# If the account has been deactivated, do not proceed with the login.
if should_check_deactivated:
deactivated = await self._main_store.get_user_deactivated_status(user_id)
if deactivated:
raise UserDeactivatedError("This account has been deactivated")
device_id = login_submission.get("device_id")
# If device_id is present, check that device_id is not longer than a reasonable 512 characters
if device_id and len(device_id) > 512:
raise LoginError(
400,
"device_id cannot be longer than 512 characters.",
errcode=Codes.INVALID_PARAM,
)
if self._require_approval:
approved = await self.auth_handler.is_user_approved(user_id)
if not approved:
# If the user isn't approved (and needs to be) we won't allow them to
# actually log in, so we don't want to create a device/access token.
return LoginResponse(
user_id=user_id,
home_server=self.hs.hostname,
)
initial_display_name = login_submission.get("initial_device_display_name")
(
device_id,
access_token,
valid_until_ms,
refresh_token,
) = await self.registration_handler.register_device(
user_id,
device_id,
initial_display_name,
auth_provider_id=auth_provider_id,
should_issue_refresh_token=should_issue_refresh_token,
auth_provider_session_id=auth_provider_session_id,
)
result = LoginResponse(
user_id=user_id,
access_token=access_token,
home_server=self.hs.hostname,
device_id=device_id,
)
if valid_until_ms is not None:
expires_in_ms = valid_until_ms - self.clock.time_msec()
result["expires_in_ms"] = expires_in_ms
if refresh_token is not None:
result["refresh_token"] = refresh_token
if callback is not None:
await callback(result)
return result
async def _do_token_login(
self, login_submission: JsonDict, should_issue_refresh_token: bool = False
) -> LoginResponse:
"""
Handle token login.
Args:
login_submission: The JSON request body.
should_issue_refresh_token: True if this login should issue
a refresh token alongside the access token.
Returns:
The body of the JSON response.
"""
token = login_submission["token"]
res = await self.auth_handler.consume_login_token(token)
return await self._complete_login(
res.user_id,
login_submission,
self.auth_handler._sso_login_callback,
auth_provider_id=res.auth_provider_id,
should_issue_refresh_token=should_issue_refresh_token,
auth_provider_session_id=res.auth_provider_session_id,
)
async def _do_jwt_login(
self, login_submission: JsonDict, should_issue_refresh_token: bool = False
) -> LoginResponse:
"""
Handle the custom JWT login.
Args:
login_submission: The JSON request body.
should_issue_refresh_token: True if this login should issue
a refresh token alongside the access token.
Returns:
The body of the JSON response.
"""
user_id = self.hs.get_jwt_handler().validate_login(login_submission)
return await self._complete_login(
user_id,
login_submission,
create_non_existent_users=True,
should_issue_refresh_token=should_issue_refresh_token,
)
def _get_auth_flow_dict_for_idp(idp: SsoIdentityProvider) -> JsonDict:
"""Return an entry for the login flow dict
Returns an entry suitable for inclusion in "identity_providers" in the
response to GET /_matrix/client/r0/login
Args:
idp: the identity provider to describe
"""
e: JsonDict = {"id": idp.idp_id, "name": idp.idp_name}
if idp.idp_icon:
e["icon"] = idp.idp_icon
if idp.idp_brand:
e["brand"] = idp.idp_brand
return e
class RefreshTokenServlet(RestServlet):
PATTERNS = client_patterns("/refresh$")
CATEGORY = "Registration/login requests"
def __init__(self, hs: "HomeServer"):
self._auth_handler = hs.get_auth_handler()
self._clock = hs.get_clock()
self.refreshable_access_token_lifetime = (
hs.config.registration.refreshable_access_token_lifetime
)
self.refresh_token_lifetime = hs.config.registration.refresh_token_lifetime
async def on_POST(self, request: SynapseRequest) -> Tuple[int, JsonDict]:
refresh_submission = parse_json_object_from_request(request)
assert_params_in_dict(refresh_submission, ["refresh_token"])
token = refresh_submission["refresh_token"]
if not isinstance(token, str):
raise SynapseError(400, "Invalid param: refresh_token", Codes.INVALID_PARAM)
now = self._clock.time_msec()
access_valid_until_ms = None
if self.refreshable_access_token_lifetime is not None:
access_valid_until_ms = now + self.refreshable_access_token_lifetime
refresh_valid_until_ms = None
if self.refresh_token_lifetime is not None:
refresh_valid_until_ms = now + self.refresh_token_lifetime
(
access_token,
refresh_token,
actual_access_token_expiry,
) = await self._auth_handler.refresh_token(
token, access_valid_until_ms, refresh_valid_until_ms
)
response: Dict[str, Union[str, int]] = {
"access_token": access_token,
"refresh_token": refresh_token,
}
# expires_in_ms is only present if the token expires
if actual_access_token_expiry is not None:
response["expires_in_ms"] = actual_access_token_expiry - now
return 200, response
class SsoRedirectServlet(RestServlet):
PATTERNS = list(client_patterns("/login/(cas|sso)/redirect$", v1=True)) + [
re.compile(
"^"
+ CLIENT_API_PREFIX
+ "/(r0|v3)/login/sso/redirect/(?P<idp_id>[A-Za-z0-9_.~-]+)$"
)
]
CATEGORY = "SSO requests needed for all SSO providers"
def __init__(self, hs: "HomeServer"):
# make sure that the relevant handlers are instantiated, so that they
# register themselves with the main SSOHandler.
_load_sso_handlers(hs)
self._sso_handler = hs.get_sso_handler()
self._public_baseurl = hs.config.server.public_baseurl
async def on_GET(
self, request: SynapseRequest, idp_id: Optional[str] = None
) -> None:
if not self._public_baseurl:
raise SynapseError(400, "SSO requires a valid public_baseurl")
# if this isn't the expected hostname, redirect to the right one, so that we
# get our cookies back.
requested_uri = get_request_uri(request)
baseurl_bytes = self._public_baseurl.encode("utf-8")
if not requested_uri.startswith(baseurl_bytes):
# swap out the incorrect base URL for the right one.
#
# The idea here is to redirect from
# https://foo.bar/whatever/_matrix/...
# to
# https://public.baseurl/_matrix/...
#
i = requested_uri.index(b"/_matrix")
new_uri = baseurl_bytes[:-1] + requested_uri[i:]
logger.info(
"Requested URI %s is not canonical: redirecting to %s",
requested_uri.decode("utf-8", errors="replace"),
new_uri.decode("utf-8", errors="replace"),
)
request.redirect(new_uri)
finish_request(request)
return
args: Dict[bytes, List[bytes]] = request.args # type: ignore
client_redirect_url = parse_bytes_from_args(args, "redirectUrl", required=True)
sso_url = await self._sso_handler.handle_redirect_request(
request,
client_redirect_url,
idp_id,
)
logger.info("Redirecting to %s", sso_url)
request.redirect(sso_url)
finish_request(request)
class CasTicketServlet(RestServlet):
PATTERNS = client_patterns("/login/cas/ticket", v1=True)
def __init__(self, hs: "HomeServer"):
super().__init__()
self._cas_handler = hs.get_cas_handler()
async def on_GET(self, request: SynapseRequest) -> None:
client_redirect_url = parse_string(request, "redirectUrl")
ticket = parse_string(request, "ticket", required=True)
# Maybe get a session ID (if this ticket is from user interactive
# authentication).
session = parse_string(request, "session")
# Either client_redirect_url or session must be provided.
if not client_redirect_url and not session:
message = "Missing string query parameter redirectUrl or session"
raise SynapseError(400, message, errcode=Codes.MISSING_PARAM)
await self._cas_handler.handle_ticket(
request, ticket, client_redirect_url, session
)
def register_servlets(hs: "HomeServer", http_server: HttpServer) -> None:
if hs.config.auth.oauth_delegation_enabled:
return
LoginRestServlet(hs).register(http_server)
if (
hs.config.worker.worker_app is None
and hs.config.registration.refreshable_access_token_lifetime is not None
):
RefreshTokenServlet(hs).register(http_server)
if (
hs.config.cas.cas_enabled
or hs.config.saml2.saml2_enabled
or hs.config.oidc.oidc_enabled
):
SsoRedirectServlet(hs).register(http_server)
if hs.config.cas.cas_enabled:
CasTicketServlet(hs).register(http_server)
def _load_sso_handlers(hs: "HomeServer") -> None:
"""Ensure that the SSO handlers are loaded, if they are enabled by configuration.
This is mostly useful to ensure that the CAS/SAML/OIDC handlers register themselves
with the main SsoHandler.
It's safe to call this multiple times.
"""
if hs.config.cas.cas_enabled:
hs.get_cas_handler()
if hs.config.saml2.saml2_enabled:
hs.get_saml_handler()
if hs.config.oidc.oidc_enabled:
hs.get_oidc_handler()