forked-synapse/tests/handlers/test_device.py
Eric Eastwood b07b14b494
Federation outbound proxy (#15773)
Allow configuring the set of workers to proxy outbound federation traffic through (`outbound_federation_restricted_to`).

This is useful when you have a worker setup with `federation_sender` instances responsible for sending outbound federation requests and want to make sure *all* outbound federation traffic goes through those instances. Before this change, the generic workers would still contact federation themselves for things like profile lookups, backfill, etc. This PR allows you to set more strict access controls/firewall for all workers and only allow the `federation_sender`'s to contact the outside world.

The original code is from @erikjohnston's branches which I've gotten in-shape to merge.
2023-07-05 18:53:55 -05:00

484 lines
17 KiB
Python

# Copyright 2016 OpenMarket Ltd
# Copyright 2018 New Vector Ltd
# Copyright 2020 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.
from typing import Optional
from unittest import mock
from twisted.test.proto_helpers import MemoryReactor
from synapse.api.constants import RoomEncryptionAlgorithms
from synapse.api.errors import NotFoundError, SynapseError
from synapse.appservice import ApplicationService
from synapse.handlers.device import MAX_DEVICE_DISPLAY_NAME_LEN, DeviceHandler
from synapse.server import HomeServer
from synapse.storage.databases.main.appservice import _make_exclusive_regex
from synapse.types import JsonDict
from synapse.util import Clock
from tests import unittest
from tests.test_utils import make_awaitable
from tests.unittest import override_config
user1 = "@boris:aaa"
user2 = "@theresa:bbb"
class DeviceTestCase(unittest.HomeserverTestCase):
def make_homeserver(self, reactor: MemoryReactor, clock: Clock) -> HomeServer:
self.appservice_api = mock.Mock()
hs = self.setup_test_homeserver(
"server",
application_service_api=self.appservice_api,
)
handler = hs.get_device_handler()
assert isinstance(handler, DeviceHandler)
self.handler = handler
self.store = hs.get_datastores().main
return hs
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
# These tests assume that it starts 1000 seconds in.
self.reactor.advance(1000)
def test_device_is_created_with_invalid_name(self) -> None:
self.get_failure(
self.handler.check_device_registered(
user_id="@boris:foo",
device_id="foo",
initial_device_display_name="a" * (MAX_DEVICE_DISPLAY_NAME_LEN + 1),
),
SynapseError,
)
def test_device_is_created_if_doesnt_exist(self) -> None:
res = self.get_success(
self.handler.check_device_registered(
user_id="@boris:foo",
device_id="fco",
initial_device_display_name="display name",
)
)
self.assertEqual(res, "fco")
dev = self.get_success(self.handler.store.get_device("@boris:foo", "fco"))
assert dev is not None
self.assertEqual(dev["display_name"], "display name")
def test_device_is_preserved_if_exists(self) -> None:
res1 = self.get_success(
self.handler.check_device_registered(
user_id="@boris:foo",
device_id="fco",
initial_device_display_name="display name",
)
)
self.assertEqual(res1, "fco")
res2 = self.get_success(
self.handler.check_device_registered(
user_id="@boris:foo",
device_id="fco",
initial_device_display_name="new display name",
)
)
self.assertEqual(res2, "fco")
dev = self.get_success(self.handler.store.get_device("@boris:foo", "fco"))
assert dev is not None
self.assertEqual(dev["display_name"], "display name")
def test_device_id_is_made_up_if_unspecified(self) -> None:
device_id = self.get_success(
self.handler.check_device_registered(
user_id="@theresa:foo",
device_id=None,
initial_device_display_name="display",
)
)
dev = self.get_success(self.handler.store.get_device("@theresa:foo", device_id))
assert dev is not None
self.assertEqual(dev["display_name"], "display")
def test_get_devices_by_user(self) -> None:
self._record_users()
res = self.get_success(self.handler.get_devices_by_user(user1))
self.assertEqual(3, len(res))
device_map = {d["device_id"]: d for d in res}
self.assertDictContainsSubset(
{
"user_id": user1,
"device_id": "xyz",
"display_name": "display 0",
"last_seen_ip": None,
"last_seen_ts": None,
},
device_map["xyz"],
)
self.assertDictContainsSubset(
{
"user_id": user1,
"device_id": "fco",
"display_name": "display 1",
"last_seen_ip": "ip1",
"last_seen_ts": 1000000,
},
device_map["fco"],
)
self.assertDictContainsSubset(
{
"user_id": user1,
"device_id": "abc",
"display_name": "display 2",
"last_seen_ip": "ip3",
"last_seen_ts": 3000000,
},
device_map["abc"],
)
def test_get_device(self) -> None:
self._record_users()
res = self.get_success(self.handler.get_device(user1, "abc"))
self.assertDictContainsSubset(
{
"user_id": user1,
"device_id": "abc",
"display_name": "display 2",
"last_seen_ip": "ip3",
"last_seen_ts": 3000000,
},
res,
)
def test_delete_device(self) -> None:
self._record_users()
# delete the device
self.get_success(self.handler.delete_devices(user1, ["abc"]))
# check the device was deleted
self.get_failure(self.handler.get_device(user1, "abc"), NotFoundError)
# we'd like to check the access token was invalidated, but that's a
# bit of a PITA.
def test_delete_device_and_device_inbox(self) -> None:
self._record_users()
# add an device_inbox
self.get_success(
self.store.db_pool.simple_insert(
"device_inbox",
{
"user_id": user1,
"device_id": "abc",
"stream_id": 1,
"message_json": "{}",
},
)
)
# delete the device
self.get_success(self.handler.delete_devices(user1, ["abc"]))
# check that the device_inbox was deleted
res = self.get_success(
self.store.db_pool.simple_select_one(
table="device_inbox",
keyvalues={"user_id": user1, "device_id": "abc"},
retcols=("user_id", "device_id"),
allow_none=True,
desc="get_device_id_from_device_inbox",
)
)
self.assertIsNone(res)
def test_update_device(self) -> None:
self._record_users()
update = {"display_name": "new display"}
self.get_success(self.handler.update_device(user1, "abc", update))
res = self.get_success(self.handler.get_device(user1, "abc"))
self.assertEqual(res["display_name"], "new display")
def test_update_device_too_long_display_name(self) -> None:
"""Update a device with a display name that is invalid (too long)."""
self._record_users()
# Request to update a device display name with a new value that is longer than allowed.
update = {"display_name": "a" * (MAX_DEVICE_DISPLAY_NAME_LEN + 1)}
self.get_failure(
self.handler.update_device(user1, "abc", update),
SynapseError,
)
# Ensure the display name was not updated.
res = self.get_success(self.handler.get_device(user1, "abc"))
self.assertEqual(res["display_name"], "display 2")
def test_update_unknown_device(self) -> None:
update = {"display_name": "new_display"}
self.get_failure(
self.handler.update_device("user_id", "unknown_device_id", update),
NotFoundError,
)
def _record_users(self) -> None:
# check this works for both devices which have a recorded client_ip,
# and those which don't.
self._record_user(user1, "xyz", "display 0")
self._record_user(user1, "fco", "display 1", "token1", "ip1")
self._record_user(user1, "abc", "display 2", "token2", "ip2")
self._record_user(user1, "abc", "display 2", "token3", "ip3")
self._record_user(user2, "def", "dispkay", "token4", "ip4")
self.reactor.advance(10000)
def _record_user(
self,
user_id: str,
device_id: str,
display_name: str,
access_token: Optional[str] = None,
ip: Optional[str] = None,
) -> None:
device_id = self.get_success(
self.handler.check_device_registered(
user_id=user_id,
device_id=device_id,
initial_device_display_name=display_name,
)
)
if access_token is not None and ip is not None:
self.get_success(
self.store.insert_client_ip(
user_id, access_token, ip, "user_agent", device_id
)
)
self.reactor.advance(1000)
@override_config({"experimental_features": {"msc3984_appservice_key_query": True}})
def test_on_federation_query_user_devices_appservice(self) -> None:
"""Test that querying of appservices for keys overrides responses from the database."""
local_user = "@boris:" + self.hs.hostname
device_1 = "abc"
device_2 = "def"
device_3 = "ghi"
# There are 3 devices:
#
# 1. One which is uploaded to the homeserver.
# 2. One which is uploaded to the homeserver, but a newer copy is returned
# by the appservice.
# 3. One which is only returned by the appservice.
device_key_1: JsonDict = {
"user_id": local_user,
"device_id": device_1,
"algorithms": [
"m.olm.curve25519-aes-sha2",
RoomEncryptionAlgorithms.MEGOLM_V1_AES_SHA2,
],
"keys": {
"ed25519:abc": "base64+ed25519+key",
"curve25519:abc": "base64+curve25519+key",
},
"signatures": {local_user: {"ed25519:abc": "base64+signature"}},
}
device_key_2a: JsonDict = {
"user_id": local_user,
"device_id": device_2,
"algorithms": [
"m.olm.curve25519-aes-sha2",
RoomEncryptionAlgorithms.MEGOLM_V1_AES_SHA2,
],
"keys": {
"ed25519:def": "base64+ed25519+key",
"curve25519:def": "base64+curve25519+key",
},
"signatures": {local_user: {"ed25519:def": "base64+signature"}},
}
device_key_2b: JsonDict = {
"user_id": local_user,
"device_id": device_2,
"algorithms": [
"m.olm.curve25519-aes-sha2",
RoomEncryptionAlgorithms.MEGOLM_V1_AES_SHA2,
],
# The device ID is the same (above), but the keys are different.
"keys": {
"ed25519:xyz": "base64+ed25519+key",
"curve25519:xyz": "base64+curve25519+key",
},
"signatures": {local_user: {"ed25519:xyz": "base64+signature"}},
}
device_key_3: JsonDict = {
"user_id": local_user,
"device_id": device_3,
"algorithms": [
"m.olm.curve25519-aes-sha2",
RoomEncryptionAlgorithms.MEGOLM_V1_AES_SHA2,
],
"keys": {
"ed25519:jkl": "base64+ed25519+key",
"curve25519:jkl": "base64+curve25519+key",
},
"signatures": {local_user: {"ed25519:jkl": "base64+signature"}},
}
# Upload keys for devices 1 & 2a.
e2e_keys_handler = self.hs.get_e2e_keys_handler()
self.get_success(
e2e_keys_handler.upload_keys_for_user(
local_user, device_1, {"device_keys": device_key_1}
)
)
self.get_success(
e2e_keys_handler.upload_keys_for_user(
local_user, device_2, {"device_keys": device_key_2a}
)
)
# Inject an appservice interested in this user.
appservice = ApplicationService(
token="i_am_an_app_service",
id="1234",
namespaces={"users": [{"regex": r"@boris:.+", "exclusive": True}]},
# Note: this user does not have to match the regex above
sender="@as_main:test",
)
self.hs.get_datastores().main.services_cache = [appservice]
self.hs.get_datastores().main.exclusive_user_regex = _make_exclusive_regex(
[appservice]
)
# Setup a response.
self.appservice_api.query_keys.return_value = make_awaitable(
{
"device_keys": {
local_user: {device_2: device_key_2b, device_3: device_key_3}
}
}
)
# Request all devices.
res = self.get_success(
self.handler.on_federation_query_user_devices(local_user)
)
self.assertIn("devices", res)
res_devices = res["devices"]
for device in res_devices:
device["keys"].pop("unsigned", None)
self.assertEqual(
res_devices,
[
{"device_id": device_1, "keys": device_key_1},
{"device_id": device_2, "keys": device_key_2b},
{"device_id": device_3, "keys": device_key_3},
],
)
class DehydrationTestCase(unittest.HomeserverTestCase):
def make_homeserver(self, reactor: MemoryReactor, clock: Clock) -> HomeServer:
hs = self.setup_test_homeserver("server")
handler = hs.get_device_handler()
assert isinstance(handler, DeviceHandler)
self.handler = handler
self.registration = hs.get_registration_handler()
self.auth = hs.get_auth()
self.store = hs.get_datastores().main
return hs
def test_dehydrate_and_rehydrate_device(self) -> None:
user_id = "@boris:dehydration"
self.get_success(self.store.register_user(user_id, "foobar"))
# First check if we can store and fetch a dehydrated device
stored_dehydrated_device_id = self.get_success(
self.handler.store_dehydrated_device(
user_id=user_id,
device_data={"device_data": {"foo": "bar"}},
initial_device_display_name="dehydrated device",
)
)
result = self.get_success(self.handler.get_dehydrated_device(user_id=user_id))
assert result is not None
retrieved_device_id, device_data = result
self.assertEqual(retrieved_device_id, stored_dehydrated_device_id)
self.assertEqual(device_data, {"device_data": {"foo": "bar"}})
# Create a new login for the user and dehydrated the device
device_id, access_token, _expiration_time, _refresh_token = self.get_success(
self.registration.register_device(
user_id=user_id,
device_id=None,
initial_display_name="new device",
)
)
# Trying to claim a nonexistent device should throw an error
self.get_failure(
self.handler.rehydrate_device(
user_id=user_id,
access_token=access_token,
device_id="not the right device ID",
),
NotFoundError,
)
# dehydrating the right devices should succeed and change our device ID
# to the dehydrated device's ID
res = self.get_success(
self.handler.rehydrate_device(
user_id=user_id,
access_token=access_token,
device_id=retrieved_device_id,
)
)
self.assertEqual(res, {"success": True})
# make sure that our device ID has changed
user_info = self.get_success(self.auth.get_user_by_access_token(access_token))
self.assertEqual(user_info.device_id, retrieved_device_id)
# make sure the device has the display name that was set from the login
res = self.get_success(self.handler.get_device(user_id, retrieved_device_id))
self.assertEqual(res["display_name"], "new device")
# make sure that the device ID that we were initially assigned no longer exists
self.get_failure(
self.handler.get_device(user_id, device_id),
NotFoundError,
)
# make sure that there's no device available for dehydrating now
ret = self.get_success(self.handler.get_dehydrated_device(user_id=user_id))
self.assertIsNone(ret)