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synapse/tests/federation/test_federation_sender.py
Erik Johnston 5c9e39e619
Track device list updates per room. (#12321) 
This is a first step in dealing with #7721.

The idea is basically that rather than calculating the full set of users a device list update needs to be sent to up front, we instead simply record the rooms the user was in at the time of the change. This will allow a few things:

1. we can defer calculating the set of remote servers that need to be poked about the change; and
2. during `/sync` and `/keys/changes` we can avoid also avoid calculating users who share rooms with other users, and instead just look at the rooms that have changed.

However, care needs to be taken to correctly handle server downgrades. As such this PR writes to both `device_lists_changes_in_room` and the `device_lists_outbound_pokes` table synchronously. In a future release we can then bump the database schema compat version to `69` and then we can assume that the new `device_lists_changes_in_room` exists and is handled.

There is a temporary option to disable writing to `device_lists_outbound_pokes` synchronously, allowing us to test the new code path does work (and by implication upgrading to a future release and downgrading to this one will work correctly).

Note: Ideally we'd do the calculation of room to servers on a worker (e.g. the background worker), but currently only master can write to the `device_list_outbound_pokes` table.
2022-04-04 15:25:20 +01:00

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# 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 unittest.mock import Mock
from parameterized import parameterized_class
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 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},
}
}
}
},
}
],
)
@parameterized_class(
[
{"enable_room_poke_code_path": False},
{"enable_room_poke_code_path": True},
]
)
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
c["use_new_device_lists_changes_in_room"] = self.enable_room_poke_code_path
return c
def prepare(self, reactor, clock, hs):
# stub out `get_rooms_for_user` and `get_users_in_room` so that the
# server thinks the user shares a room with `@user2:host2`
def get_rooms_for_user(user_id):
return defer.succeed({"!room:host1"})
hs.get_datastores().main.get_rooms_for_user = get_rooms_for_user
def get_users_in_room(room_id):
return defer.succeed({"@user2:host2"})
hs.get_datastores().main.get_users_in_room = get_users_in_room
# 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)
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# a second call should produce no new device EDUs
self.hs.get_federation_sender().send_device_messages("host2")
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")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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)
)
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# expect signing key update edu
self.assertEqual(len(self.edus), 2)
self.assertEqual(self.edus.pop(0)["edu_type"], "m.signing_key_update")
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"], {})
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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"])
)
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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(AssertionError("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"])
)
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
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")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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(AssertionError("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"])
)
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
self.assertGreaterEqual(mock_send_txn.call_count, 4)
# run the prune job
self.reactor.advance(10)
self.get_success(
self.hs.get_datastores().main._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")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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(AssertionError("fail"))
self.login("user", "pass", device_id="D2")
self.login("user", "pass", device_id="D3")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# 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_datastores().main._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")
# We queue up device list updates to be sent over federation, so we
# advance to clear the queue.
self.reactor.advance(1)
# ... 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), 2)
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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