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Include thread information when sending receipts over federation. (#14466)
Include the thread_id field when sending read receipts over federation. This might result in the same user having multiple read receipts per-room, meaning multiple EDUs must be sent to encapsulate those receipts. This restructures the PerDestinationQueue APIs to support multiple receipt EDUs, queue_read_receipt now becomes linear time in the number of queued threaded receipts in the room for the given user, it is expected this is a small number since receipt EDUs are sent as filler in transactions.
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4 changed files with 201 additions and 67 deletions
1
changelog.d/14466.bugfix
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1
changelog.d/14466.bugfix
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Fix a bug introduced in Synapse 1.70.0 where a receipt's thread ID was not sent over federation.
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@ -35,7 +35,7 @@ from synapse.logging import issue9533_logger
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from synapse.logging.opentracing import SynapseTags, set_tag
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from synapse.metrics import sent_transactions_counter
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from synapse.metrics.background_process_metrics import run_as_background_process
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from synapse.types import ReadReceipt
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from synapse.types import JsonDict, ReadReceipt
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from synapse.util.retryutils import NotRetryingDestination, get_retry_limiter
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from synapse.visibility import filter_events_for_server
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@ -136,8 +136,11 @@ class PerDestinationQueue:
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# destination
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self._pending_presence: Dict[str, UserPresenceState] = {}
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# room_id -> receipt_type -> user_id -> receipt_dict
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self._pending_rrs: Dict[str, Dict[str, Dict[str, dict]]] = {}
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# List of room_id -> receipt_type -> user_id -> receipt_dict,
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#
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# Each receipt can only have a single receipt per
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# (room ID, receipt type, user ID, thread ID) tuple.
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self._pending_receipt_edus: List[Dict[str, Dict[str, Dict[str, dict]]]] = []
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self._rrs_pending_flush = False
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# stream_id of last successfully sent to-device message.
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@ -202,17 +205,53 @@ class PerDestinationQueue:
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Args:
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receipt: receipt to be queued
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"""
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self._pending_rrs.setdefault(receipt.room_id, {}).setdefault(
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receipt.receipt_type, {}
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)[receipt.user_id] = {"event_ids": receipt.event_ids, "data": receipt.data}
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serialized_receipt: JsonDict = {
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"event_ids": receipt.event_ids,
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"data": receipt.data,
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}
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if receipt.thread_id is not None:
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serialized_receipt["data"]["thread_id"] = receipt.thread_id
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# Find which EDU to add this receipt to. There's three situations depending
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# on the (room ID, receipt type, user, thread ID) tuple:
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#
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# 1. If it fully matches, clobber the information.
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# 2. If it is missing, add the information.
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# 3. If the subset tuple of (room ID, receipt type, user) matches, check
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# the next EDU (or add a new EDU).
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for edu in self._pending_receipt_edus:
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receipt_content = edu.setdefault(receipt.room_id, {}).setdefault(
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receipt.receipt_type, {}
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)
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# If this room ID, receipt type, user ID is not in this EDU, OR if
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# the full tuple matches, use the current EDU.
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if (
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receipt.user_id not in receipt_content
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or receipt_content[receipt.user_id].get("thread_id")
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== receipt.thread_id
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):
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receipt_content[receipt.user_id] = serialized_receipt
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break
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# If no matching EDU was found, create a new one.
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else:
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self._pending_receipt_edus.append(
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{
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receipt.room_id: {
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receipt.receipt_type: {receipt.user_id: serialized_receipt}
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}
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}
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)
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def flush_read_receipts_for_room(self, room_id: str) -> None:
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# if we don't have any read-receipts for this room, it may be that we've already
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# sent them out, so we don't need to flush.
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if room_id not in self._pending_rrs:
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return
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self._rrs_pending_flush = True
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self.attempt_new_transaction()
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# If there are any pending receipts for this room then force-flush them
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# in a new transaction.
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for edu in self._pending_receipt_edus:
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if room_id in edu:
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self._rrs_pending_flush = True
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self.attempt_new_transaction()
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# No use in checking remaining EDUs if the room was found.
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break
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def send_keyed_edu(self, edu: Edu, key: Hashable) -> None:
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self._pending_edus_keyed[(edu.edu_type, key)] = edu
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@ -351,7 +390,7 @@ class PerDestinationQueue:
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self._pending_edus = []
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self._pending_edus_keyed = {}
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self._pending_presence = {}
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self._pending_rrs = {}
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self._pending_receipt_edus = []
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self._start_catching_up()
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except FederationDeniedError as e:
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@ -543,22 +582,27 @@ class PerDestinationQueue:
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self._destination, last_successful_stream_ordering
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)
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def _get_rr_edus(self, force_flush: bool) -> Iterable[Edu]:
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if not self._pending_rrs:
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def _get_receipt_edus(self, force_flush: bool, limit: int) -> Iterable[Edu]:
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if not self._pending_receipt_edus:
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return
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if not force_flush and not self._rrs_pending_flush:
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# not yet time for this lot
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return
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edu = Edu(
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origin=self._server_name,
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destination=self._destination,
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edu_type=EduTypes.RECEIPT,
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content=self._pending_rrs,
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)
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self._pending_rrs = {}
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self._rrs_pending_flush = False
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yield edu
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# Send at most limit EDUs for receipts.
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for content in self._pending_receipt_edus[:limit]:
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yield Edu(
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origin=self._server_name,
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destination=self._destination,
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edu_type=EduTypes.RECEIPT,
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content=content,
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)
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self._pending_receipt_edus = self._pending_receipt_edus[limit:]
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# If there are still pending read-receipts, don't reset the pending flush
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# flag.
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if not self._pending_receipt_edus:
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self._rrs_pending_flush = False
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def _pop_pending_edus(self, limit: int) -> List[Edu]:
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pending_edus = self._pending_edus
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@ -645,40 +689,20 @@ class _TransactionQueueManager:
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async def __aenter__(self) -> Tuple[List[EventBase], List[Edu]]:
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# First we calculate the EDUs we want to send, if any.
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# We start by fetching device related EDUs, i.e device updates and to
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# device messages. We have to keep 2 free slots for presence and rr_edus.
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device_edu_limit = MAX_EDUS_PER_TRANSACTION - 2
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# There's a maximum number of EDUs that can be sent with a transaction,
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# generally device updates and to-device messages get priority, but we
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# want to ensure that there's room for some other EDUs as well.
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#
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# This is done by:
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#
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# * Add a presence EDU, if one exists.
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# * Add up-to a small limit of read receipt EDUs.
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# * Add to-device EDUs, but leave some space for device list updates.
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# * Add device list updates EDUs.
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# * If there's any remaining room, add other EDUs.
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pending_edus = []
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# We prioritize to-device messages so that existing encryption channels
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# work. We also keep a few slots spare (by reducing the limit) so that
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# we can still trickle out some device list updates.
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(
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to_device_edus,
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device_stream_id,
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) = await self.queue._get_to_device_message_edus(device_edu_limit - 10)
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if to_device_edus:
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self._device_stream_id = device_stream_id
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else:
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self.queue._last_device_stream_id = device_stream_id
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device_edu_limit -= len(to_device_edus)
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device_update_edus, dev_list_id = await self.queue._get_device_update_edus(
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device_edu_limit
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)
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if device_update_edus:
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self._device_list_id = dev_list_id
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else:
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self.queue._last_device_list_stream_id = dev_list_id
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pending_edus = device_update_edus + to_device_edus
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# Now add the read receipt EDU.
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pending_edus.extend(self.queue._get_rr_edus(force_flush=False))
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# And presence EDU.
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# Add presence EDU.
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if self.queue._pending_presence:
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pending_edus.append(
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Edu(
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@ -697,16 +721,47 @@ class _TransactionQueueManager:
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)
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self.queue._pending_presence = {}
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# Finally add any other types of EDUs if there is room.
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pending_edus.extend(
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self.queue._pop_pending_edus(MAX_EDUS_PER_TRANSACTION - len(pending_edus))
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# Add read receipt EDUs.
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pending_edus.extend(self.queue._get_receipt_edus(force_flush=False, limit=5))
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edu_limit = MAX_EDUS_PER_TRANSACTION - len(pending_edus)
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# Next, prioritize to-device messages so that existing encryption channels
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# work. We also keep a few slots spare (by reducing the limit) so that
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# we can still trickle out some device list updates.
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(
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to_device_edus,
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device_stream_id,
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) = await self.queue._get_to_device_message_edus(edu_limit - 10)
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if to_device_edus:
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self._device_stream_id = device_stream_id
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else:
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self.queue._last_device_stream_id = device_stream_id
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pending_edus.extend(to_device_edus)
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edu_limit -= len(to_device_edus)
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# Add device list update EDUs.
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device_update_edus, dev_list_id = await self.queue._get_device_update_edus(
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edu_limit
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)
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while (
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len(pending_edus) < MAX_EDUS_PER_TRANSACTION
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and self.queue._pending_edus_keyed
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):
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if device_update_edus:
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self._device_list_id = dev_list_id
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else:
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self.queue._last_device_list_stream_id = dev_list_id
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pending_edus.extend(device_update_edus)
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edu_limit -= len(device_update_edus)
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# Finally add any other types of EDUs if there is room.
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other_edus = self.queue._pop_pending_edus(edu_limit)
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pending_edus.extend(other_edus)
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edu_limit -= len(other_edus)
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while edu_limit > 0 and self.queue._pending_edus_keyed:
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_, val = self.queue._pending_edus_keyed.popitem()
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pending_edus.append(val)
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edu_limit -= 1
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# Now we look for any PDUs to send, by getting up to 50 PDUs from the
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# queue
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@ -717,8 +772,10 @@ class _TransactionQueueManager:
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# if we've decided to send a transaction anyway, and we have room, we
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# may as well send any pending RRs
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if len(pending_edus) < MAX_EDUS_PER_TRANSACTION:
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pending_edus.extend(self.queue._get_rr_edus(force_flush=True))
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if edu_limit:
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pending_edus.extend(
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self.queue._get_receipt_edus(force_flush=True, limit=edu_limit)
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)
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if self._pdus:
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self._last_stream_ordering = self._pdus[
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@ -92,7 +92,6 @@ class ReceiptsHandler:
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continue
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# Check if these receipts apply to a thread.
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thread_id = None
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data = user_values.get("data", {})
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thread_id = data.get("thread_id")
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# If the thread ID is invalid, consider it missing.
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@ -83,6 +83,83 @@ class FederationSenderReceiptsTestCases(HomeserverTestCase):
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],
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)
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@override_config({"send_federation": True})
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def test_send_receipts_thread(self):
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mock_send_transaction = (
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self.hs.get_federation_transport_client().send_transaction
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)
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mock_send_transaction.return_value = make_awaitable({})
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# Create receipts for:
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#
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# * The same room / user on multiple threads.
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# * A different user in the same room.
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sender = self.hs.get_federation_sender()
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for user, thread in (
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("alice", None),
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("alice", "thread"),
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("bob", None),
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("bob", "diff-thread"),
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):
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receipt = ReadReceipt(
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"room_id",
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"m.read",
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user,
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["event_id"],
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thread_id=thread,
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data={"ts": 1234},
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)
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self.successResultOf(
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defer.ensureDeferred(sender.send_read_receipt(receipt))
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)
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self.pump()
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# expect a call to send_transaction with two EDUs to separate threads.
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mock_send_transaction.assert_called_once()
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json_cb = mock_send_transaction.call_args[0][1]
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data = json_cb()
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# Note that the ordering of the EDUs doesn't matter.
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self.assertCountEqual(
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data["edus"],
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[
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{
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"edu_type": EduTypes.RECEIPT,
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"content": {
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"room_id": {
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"m.read": {
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"alice": {
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"event_ids": ["event_id"],
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"data": {"ts": 1234, "thread_id": "thread"},
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},
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"bob": {
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"event_ids": ["event_id"],
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"data": {"ts": 1234, "thread_id": "diff-thread"},
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},
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}
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}
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},
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},
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{
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"edu_type": EduTypes.RECEIPT,
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"content": {
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"room_id": {
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"m.read": {
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"alice": {
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"event_ids": ["event_id"],
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"data": {"ts": 1234},
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},
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"bob": {
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"event_ids": ["event_id"],
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"data": {"ts": 1234},
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},
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}
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}
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},
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},
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],
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)
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@override_config({"send_federation": True})
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def test_send_receipts_with_backoff(self):
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"""Send two receipts in quick succession; the second should be flushed, but
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