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- # -*- coding: utf-8 -*-
- # Copyright 2019 New Vector 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 typing import Optional
- from mock import Mock
- from signedjson import key, sign
- from signedjson.types import BaseKey, SigningKey
- from twisted.internet import defer
- from synapse.api.constants import RoomEncryptionAlgorithms
- from synapse.rest import admin
- from synapse.rest.client.v1 import login
- from synapse.types import JsonDict, ReadReceipt
- from tests.test_utils import make_awaitable
- from tests.unittest import HomeserverTestCase, override_config
- class FederationSenderReceiptsTestCases(HomeserverTestCase):
- def make_homeserver(self, reactor, clock):
- mock_state_handler = Mock(spec=["get_current_hosts_in_room"])
- # Ensure a new Awaitable is created for each call.
- mock_state_handler.get_current_hosts_in_room.return_value = make_awaitable(
- ["test", "host2"]
- )
- return self.setup_test_homeserver(
- state_handler=mock_state_handler,
- federation_transport_client=Mock(spec=["send_transaction"]),
- )
- @override_config({"send_federation": True})
- def test_send_receipts(self):
- mock_send_transaction = (
- self.hs.get_federation_transport_client().send_transaction
- )
- mock_send_transaction.return_value = make_awaitable({})
- sender = self.hs.get_federation_sender()
- receipt = ReadReceipt(
- "room_id", "m.read", "user_id", ["event_id"], {"ts": 1234}
- )
- self.successResultOf(defer.ensureDeferred(sender.send_read_receipt(receipt)))
- self.pump()
- # expect a call to send_transaction
- mock_send_transaction.assert_called_once()
- json_cb = mock_send_transaction.call_args[0][1]
- data = json_cb()
- self.assertEqual(
- data["edus"],
- [
- {
- "edu_type": "m.receipt",
- "content": {
- "room_id": {
- "m.read": {
- "user_id": {
- "event_ids": ["event_id"],
- "data": {"ts": 1234},
- }
- }
- }
- },
- }
- ],
- )
- @override_config({"send_federation": True})
- def test_send_receipts_with_backoff(self):
- """Send two receipts in quick succession; the second should be flushed, but
- only after 20ms"""
- mock_send_transaction = (
- self.hs.get_federation_transport_client().send_transaction
- )
- mock_send_transaction.return_value = make_awaitable({})
- sender = self.hs.get_federation_sender()
- receipt = ReadReceipt(
- "room_id", "m.read", "user_id", ["event_id"], {"ts": 1234}
- )
- self.successResultOf(defer.ensureDeferred(sender.send_read_receipt(receipt)))
- self.pump()
- # expect a call to send_transaction
- mock_send_transaction.assert_called_once()
- json_cb = mock_send_transaction.call_args[0][1]
- data = json_cb()
- self.assertEqual(
- data["edus"],
- [
- {
- "edu_type": "m.receipt",
- "content": {
- "room_id": {
- "m.read": {
- "user_id": {
- "event_ids": ["event_id"],
- "data": {"ts": 1234},
- }
- }
- }
- },
- }
- ],
- )
- mock_send_transaction.reset_mock()
- # send the second RR
- receipt = ReadReceipt(
- "room_id", "m.read", "user_id", ["other_id"], {"ts": 1234}
- )
- self.successResultOf(defer.ensureDeferred(sender.send_read_receipt(receipt)))
- self.pump()
- mock_send_transaction.assert_not_called()
- self.reactor.advance(19)
- mock_send_transaction.assert_not_called()
- self.reactor.advance(10)
- mock_send_transaction.assert_called_once()
- json_cb = mock_send_transaction.call_args[0][1]
- data = json_cb()
- self.assertEqual(
- data["edus"],
- [
- {
- "edu_type": "m.receipt",
- "content": {
- "room_id": {
- "m.read": {
- "user_id": {
- "event_ids": ["other_id"],
- "data": {"ts": 1234},
- }
- }
- }
- },
- }
- ],
- )
- class FederationSenderDevicesTestCases(HomeserverTestCase):
- servlets = [
- admin.register_servlets,
- login.register_servlets,
- ]
- def make_homeserver(self, reactor, clock):
- return self.setup_test_homeserver(
- federation_transport_client=Mock(spec=["send_transaction"]),
- )
- def default_config(self):
- c = super().default_config()
- c["send_federation"] = True
- return c
- def prepare(self, reactor, clock, hs):
- # stub out get_users_who_share_room_with_user so that it claims that
- # `@user2:host2` is in the room
- def get_users_who_share_room_with_user(user_id):
- return defer.succeed({"@user2:host2"})
- hs.get_datastore().get_users_who_share_room_with_user = (
- get_users_who_share_room_with_user
- )
- # whenever send_transaction is called, record the edu data
- self.edus = []
- self.hs.get_federation_transport_client().send_transaction.side_effect = (
- self.record_transaction
- )
- def record_transaction(self, txn, json_cb):
- data = json_cb()
- self.edus.extend(data["edus"])
- return defer.succeed({})
- def test_send_device_updates(self):
- """Basic case: each device update should result in an EDU"""
- # create a device
- u1 = self.register_user("user", "pass")
- self.login(u1, "pass", device_id="D1")
- # expect one edu
- self.assertEqual(len(self.edus), 1)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D1", None)
- # a second call should produce no new device EDUs
- self.hs.get_federation_sender().send_device_messages("host2")
- self.pump()
- self.assertEqual(self.edus, [])
- # a second device
- self.login("user", "pass", device_id="D2")
- self.assertEqual(len(self.edus), 1)
- self.check_device_update_edu(self.edus.pop(0), u1, "D2", stream_id)
- def test_upload_signatures(self):
- """Uploading signatures on some devices should produce updates for that user"""
- e2e_handler = self.hs.get_e2e_keys_handler()
- # register two devices
- u1 = self.register_user("user", "pass")
- self.login(u1, "pass", device_id="D1")
- self.login(u1, "pass", device_id="D2")
- # expect two edus
- self.assertEqual(len(self.edus), 2)
- stream_id = None
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D1", stream_id)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D2", stream_id)
- # upload signing keys for each device
- device1_signing_key = self.generate_and_upload_device_signing_key(u1, "D1")
- device2_signing_key = self.generate_and_upload_device_signing_key(u1, "D2")
- # expect two more edus
- self.assertEqual(len(self.edus), 2)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D1", stream_id)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D2", stream_id)
- # upload master key and self-signing key
- master_signing_key = generate_self_id_key()
- master_key = {
- "user_id": u1,
- "usage": ["master"],
- "keys": {key_id(master_signing_key): encode_pubkey(master_signing_key)},
- }
- # private key: HvQBbU+hc2Zr+JP1sE0XwBe1pfZZEYtJNPJLZJtS+F8
- selfsigning_signing_key = generate_self_id_key()
- selfsigning_key = {
- "user_id": u1,
- "usage": ["self_signing"],
- "keys": {
- key_id(selfsigning_signing_key): encode_pubkey(selfsigning_signing_key)
- },
- }
- sign.sign_json(selfsigning_key, u1, master_signing_key)
- cross_signing_keys = {
- "master_key": master_key,
- "self_signing_key": selfsigning_key,
- }
- self.get_success(
- e2e_handler.upload_signing_keys_for_user(u1, cross_signing_keys)
- )
- # expect signing key update edu
- self.assertEqual(len(self.edus), 1)
- self.assertEqual(self.edus.pop(0)["edu_type"], "org.matrix.signing_key_update")
- # sign the devices
- d1_json = build_device_dict(u1, "D1", device1_signing_key)
- sign.sign_json(d1_json, u1, selfsigning_signing_key)
- d2_json = build_device_dict(u1, "D2", device2_signing_key)
- sign.sign_json(d2_json, u1, selfsigning_signing_key)
- ret = self.get_success(
- e2e_handler.upload_signatures_for_device_keys(
- u1, {u1: {"D1": d1_json, "D2": d2_json}},
- )
- )
- self.assertEqual(ret["failures"], {})
- # expect two edus, in one or two transactions. We don't know what order the
- # devices will be updated.
- self.assertEqual(len(self.edus), 2)
- stream_id = None # FIXME: there is a discontinuity in the stream IDs: see #7142
- for edu in self.edus:
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- c = edu["content"]
- if stream_id is not None:
- self.assertEqual(c["prev_id"], [stream_id])
- self.assertGreaterEqual(c["stream_id"], stream_id)
- stream_id = c["stream_id"]
- devices = {edu["content"]["device_id"] for edu in self.edus}
- self.assertEqual({"D1", "D2"}, devices)
- def test_delete_devices(self):
- """If devices are deleted, that should result in EDUs too"""
- # create devices
- u1 = self.register_user("user", "pass")
- self.login("user", "pass", device_id="D1")
- self.login("user", "pass", device_id="D2")
- self.login("user", "pass", device_id="D3")
- # expect three edus
- self.assertEqual(len(self.edus), 3)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D1", None)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D2", stream_id)
- stream_id = self.check_device_update_edu(self.edus.pop(0), u1, "D3", stream_id)
- # delete them again
- self.get_success(
- self.hs.get_device_handler().delete_devices(u1, ["D1", "D2", "D3"])
- )
- # expect three edus, in an unknown order
- self.assertEqual(len(self.edus), 3)
- for edu in self.edus:
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- c = edu["content"]
- self.assertGreaterEqual(
- c.items(),
- {"user_id": u1, "prev_id": [stream_id], "deleted": True}.items(),
- )
- self.assertGreaterEqual(c["stream_id"], stream_id)
- stream_id = c["stream_id"]
- devices = {edu["content"]["device_id"] for edu in self.edus}
- self.assertEqual({"D1", "D2", "D3"}, devices)
- def test_unreachable_server(self):
- """If the destination server is unreachable, all the updates should get sent on
- recovery
- """
- mock_send_txn = self.hs.get_federation_transport_client().send_transaction
- mock_send_txn.side_effect = lambda t, cb: defer.fail("fail")
- # create devices
- u1 = self.register_user("user", "pass")
- self.login("user", "pass", device_id="D1")
- self.login("user", "pass", device_id="D2")
- self.login("user", "pass", device_id="D3")
- # delete them again
- self.get_success(
- self.hs.get_device_handler().delete_devices(u1, ["D1", "D2", "D3"])
- )
- self.assertGreaterEqual(mock_send_txn.call_count, 4)
- # recover the server
- mock_send_txn.side_effect = self.record_transaction
- self.hs.get_federation_sender().send_device_messages("host2")
- self.pump()
- # for each device, there should be a single update
- self.assertEqual(len(self.edus), 3)
- stream_id = None
- for edu in self.edus:
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- c = edu["content"]
- self.assertEqual(c["prev_id"], [stream_id] if stream_id is not None else [])
- if stream_id is not None:
- self.assertGreaterEqual(c["stream_id"], stream_id)
- stream_id = c["stream_id"]
- devices = {edu["content"]["device_id"] for edu in self.edus}
- self.assertEqual({"D1", "D2", "D3"}, devices)
- def test_prune_outbound_device_pokes1(self):
- """If a destination is unreachable, and the updates are pruned, we should get
- a single update.
- This case tests the behaviour when the server has never been reachable.
- """
- mock_send_txn = self.hs.get_federation_transport_client().send_transaction
- mock_send_txn.side_effect = lambda t, cb: defer.fail("fail")
- # create devices
- u1 = self.register_user("user", "pass")
- self.login("user", "pass", device_id="D1")
- self.login("user", "pass", device_id="D2")
- self.login("user", "pass", device_id="D3")
- # delete them again
- self.get_success(
- self.hs.get_device_handler().delete_devices(u1, ["D1", "D2", "D3"])
- )
- self.assertGreaterEqual(mock_send_txn.call_count, 4)
- # run the prune job
- self.reactor.advance(10)
- self.get_success(
- self.hs.get_datastore()._prune_old_outbound_device_pokes(prune_age=1)
- )
- # recover the server
- mock_send_txn.side_effect = self.record_transaction
- self.hs.get_federation_sender().send_device_messages("host2")
- self.pump()
- # there should be a single update for this user.
- self.assertEqual(len(self.edus), 1)
- edu = self.edus.pop(0)
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- c = edu["content"]
- # synapse uses an empty prev_id list to indicate "needs a full resync".
- self.assertEqual(c["prev_id"], [])
- def test_prune_outbound_device_pokes2(self):
- """If a destination is unreachable, and the updates are pruned, we should get
- a single update.
- This case tests the behaviour when the server was reachable, but then goes
- offline.
- """
- # create first device
- u1 = self.register_user("user", "pass")
- self.login("user", "pass", device_id="D1")
- # expect the update EDU
- self.assertEqual(len(self.edus), 1)
- self.check_device_update_edu(self.edus.pop(0), u1, "D1", None)
- # now the server goes offline
- mock_send_txn = self.hs.get_federation_transport_client().send_transaction
- mock_send_txn.side_effect = lambda t, cb: defer.fail("fail")
- self.login("user", "pass", device_id="D2")
- self.login("user", "pass", device_id="D3")
- # delete them again
- self.get_success(
- self.hs.get_device_handler().delete_devices(u1, ["D1", "D2", "D3"])
- )
- self.assertGreaterEqual(mock_send_txn.call_count, 3)
- # run the prune job
- self.reactor.advance(10)
- self.get_success(
- self.hs.get_datastore()._prune_old_outbound_device_pokes(prune_age=1)
- )
- # recover the server
- mock_send_txn.side_effect = self.record_transaction
- self.hs.get_federation_sender().send_device_messages("host2")
- self.pump()
- # ... and we should get a single update for this user.
- self.assertEqual(len(self.edus), 1)
- edu = self.edus.pop(0)
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- c = edu["content"]
- # synapse uses an empty prev_id list to indicate "needs a full resync".
- self.assertEqual(c["prev_id"], [])
- def check_device_update_edu(
- self,
- edu: JsonDict,
- user_id: str,
- device_id: str,
- prev_stream_id: Optional[int],
- ) -> int:
- """Check that the given EDU is an update for the given device
- Returns the stream_id.
- """
- self.assertEqual(edu["edu_type"], "m.device_list_update")
- content = edu["content"]
- expected = {
- "user_id": user_id,
- "device_id": device_id,
- "prev_id": [prev_stream_id] if prev_stream_id is not None else [],
- }
- self.assertLessEqual(expected.items(), content.items())
- if prev_stream_id is not None:
- self.assertGreaterEqual(content["stream_id"], prev_stream_id)
- return content["stream_id"]
- def check_signing_key_update_txn(self, txn: JsonDict,) -> None:
- """Check that the txn has an EDU with a signing key update.
- """
- edus = txn["edus"]
- self.assertEqual(len(edus), 1)
- def generate_and_upload_device_signing_key(
- self, user_id: str, device_id: str
- ) -> SigningKey:
- """Generate a signing keypair for the given device, and upload it"""
- sk = key.generate_signing_key(device_id)
- device_dict = build_device_dict(user_id, device_id, sk)
- self.get_success(
- self.hs.get_e2e_keys_handler().upload_keys_for_user(
- user_id, device_id, {"device_keys": device_dict},
- )
- )
- return sk
- def generate_self_id_key() -> SigningKey:
- """generate a signing key whose version is its public key
- ... as used by the cross-signing-keys.
- """
- k = key.generate_signing_key("x")
- k.version = encode_pubkey(k)
- return k
- def key_id(k: BaseKey) -> str:
- return "%s:%s" % (k.alg, k.version)
- def encode_pubkey(sk: SigningKey) -> str:
- """Encode the public key corresponding to the given signing key as base64"""
- return key.encode_verify_key_base64(key.get_verify_key(sk))
- def build_device_dict(user_id: str, device_id: str, sk: SigningKey):
- """Build a dict representing the given device"""
- return {
- "user_id": user_id,
- "device_id": device_id,
- "algorithms": [
- "m.olm.curve25519-aes-sha2",
- RoomEncryptionAlgorithms.MEGOLM_V1_AES_SHA2,
- ],
- "keys": {
- "curve25519:" + device_id: "curve25519+key",
- key_id(sk): encode_pubkey(sk),
- },
- }
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