matrix_sdk/sliding_sync/mod.rs
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// Copyright 2022-2023 Benjamin Kampmann
// Copyright 2022 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 that specific language governing permissions and
// limitations under the License.
#![doc = include_str!("README.md")]
mod builder;
mod cache;
mod client;
mod error;
mod list;
mod room;
mod sticky_parameters;
mod utils;
use std::{
collections::{btree_map::Entry, BTreeMap, HashSet},
fmt::Debug,
future::Future,
sync::{Arc, RwLock as StdRwLock},
time::Duration,
};
use async_stream::stream;
pub use client::{Version, VersionBuilder};
use futures_core::stream::Stream;
pub use matrix_sdk_base::sliding_sync::http;
use matrix_sdk_common::{deserialized_responses::SyncTimelineEvent, timer};
use ruma::{
api::{client::error::ErrorKind, OutgoingRequest},
assign, OwnedEventId, OwnedRoomId, RoomId,
};
use serde::{Deserialize, Serialize};
use tokio::{
select, spawn,
sync::{broadcast::Sender, Mutex as AsyncMutex, OwnedMutexGuard, RwLock as AsyncRwLock},
};
use tracing::{debug, error, info, instrument, trace, warn, Instrument, Span};
#[cfg(feature = "e2e-encryption")]
use self::utils::JoinHandleExt as _;
pub use self::{builder::*, client::VersionBuilderError, error::*, list::*, room::*};
use self::{
cache::restore_sliding_sync_state,
client::SlidingSyncResponseProcessor,
sticky_parameters::{LazyTransactionId, SlidingSyncStickyManager, StickyData},
};
use crate::{config::RequestConfig, Client, HttpError, Result};
/// The Sliding Sync instance.
///
/// It is OK to clone this type as much as you need: cloning it is cheap.
#[derive(Clone, Debug)]
pub struct SlidingSync {
/// The Sliding Sync data.
inner: Arc<SlidingSyncInner>,
}
#[derive(Debug)]
pub(super) struct SlidingSyncInner {
/// A unique identifier for this instance of sliding sync.
///
/// Used to distinguish different connections to the sliding sync proxy.
id: String,
/// Either an overridden sliding sync [`Version`], or one inherited from the
/// client.
version: Version,
/// The HTTP Matrix client.
client: Client,
/// Long-polling timeout that appears the sliding sync proxy request.
poll_timeout: Duration,
/// Extra duration for the sliding sync request to timeout. This is added to
/// the [`Self::proxy_timeout`].
network_timeout: Duration,
/// The storage key to keep this cache at and load it from.
storage_key: String,
/// Should this sliding sync instance try to restore its sync position
/// from the database?
///
/// Note: in non-cfg(e2e-encryption) builds, it's always set to false. We
/// keep it even so, to avoid sparkling cfg statements everywhere
/// throughout this file.
share_pos: bool,
/// Position markers.
///
/// The `pos` marker represents a progression when exchanging requests and
/// responses with the server: the server acknowledges the request by
/// responding with a new `pos`. If the client sends two non-necessarily
/// consecutive requests with the same `pos`, the server has to reply with
/// the same identical response.
///
/// `position` is behind a mutex so that a new request starts after the
/// previous request trip has fully ended (successfully or not). This
/// mechanism exists to wait for the response to be handled and to see the
/// `position` being updated, before sending a new request.
position: Arc<AsyncMutex<SlidingSyncPositionMarkers>>,
/// The lists of this Sliding Sync instance.
lists: AsyncRwLock<BTreeMap<String, SlidingSyncList>>,
/// All the rooms synced with Sliding Sync.
rooms: AsyncRwLock<BTreeMap<OwnedRoomId, SlidingSyncRoom>>,
/// Request parameters that are sticky.
sticky: StdRwLock<SlidingSyncStickyManager<SlidingSyncStickyParameters>>,
/// Internal channel used to pass messages between Sliding Sync and other
/// types.
internal_channel: Sender<SlidingSyncInternalMessage>,
}
impl SlidingSync {
pub(super) fn new(inner: SlidingSyncInner) -> Self {
Self { inner: Arc::new(inner) }
}
async fn cache_to_storage(&self, position: &SlidingSyncPositionMarkers) -> Result<()> {
cache::store_sliding_sync_state(self, position).await
}
/// Create a new [`SlidingSyncBuilder`].
pub fn builder(id: String, client: Client) -> Result<SlidingSyncBuilder, Error> {
SlidingSyncBuilder::new(id, client)
}
/// Subscribe to many rooms.
///
/// If the associated `Room`s exist, it will be marked as
/// members are missing, so that it ensures to re-fetch all members.
///
/// A subscription to an already subscribed room is ignored.
pub fn subscribe_to_rooms(
&self,
room_ids: &[&RoomId],
settings: Option<http::request::RoomSubscription>,
cancel_in_flight_request: bool,
) {
let settings = settings.unwrap_or_default();
let mut sticky = self.inner.sticky.write().unwrap();
let room_subscriptions = &mut sticky.data_mut().room_subscriptions;
let mut skip_over_current_sync_loop_iteration = false;
for room_id in room_ids {
// If the room subscription already exists, let's not
// override it with a new one. First, it would reset its
// state (`RoomSubscriptionState`), and second it would try to
// re-subscribe with the next request. We don't want that. A room
// subscription should happen once, and next subscriptions should
// be ignored.
if let Entry::Vacant(entry) = room_subscriptions.entry((*room_id).to_owned()) {
if let Some(room) = self.inner.client.get_room(room_id) {
room.mark_members_missing();
}
entry.insert((RoomSubscriptionState::default(), settings.clone()));
skip_over_current_sync_loop_iteration = true;
}
}
if cancel_in_flight_request && skip_over_current_sync_loop_iteration {
self.inner.internal_channel_send_if_possible(
SlidingSyncInternalMessage::SyncLoopSkipOverCurrentIteration,
);
}
}
/// Lookup a specific room
pub async fn get_room(&self, room_id: &RoomId) -> Option<SlidingSyncRoom> {
self.inner.rooms.read().await.get(room_id).cloned()
}
/// Check the number of rooms.
pub fn get_number_of_rooms(&self) -> usize {
self.inner.rooms.blocking_read().len()
}
/// Find a list by its name, and do something on it if it exists.
pub async fn on_list<Function, FunctionOutput, R>(
&self,
list_name: &str,
function: Function,
) -> Option<R>
where
Function: FnOnce(&SlidingSyncList) -> FunctionOutput,
FunctionOutput: Future<Output = R>,
{
let lists = self.inner.lists.read().await;
match lists.get(list_name) {
Some(list) => Some(function(list).await),
None => None,
}
}
/// Add the list to the list of lists.
///
/// As lists need to have a unique `.name`, if a list with the same name
/// is found the new list will replace the old one and the return it or
/// `None`.
pub async fn add_list(
&self,
list_builder: SlidingSyncListBuilder,
) -> Result<Option<SlidingSyncList>> {
let list = list_builder.build(self.inner.internal_channel.clone());
let old_list = self.inner.lists.write().await.insert(list.name().to_owned(), list);
self.inner.internal_channel_send_if_possible(
SlidingSyncInternalMessage::SyncLoopSkipOverCurrentIteration,
);
Ok(old_list)
}
/// Add a list that will be cached and reloaded from the cache.
///
/// This will raise an error if a storage key was not set, or if there
/// was a I/O error reading from the cache.
///
/// The rest of the semantics is the same as [`Self::add_list`].
pub async fn add_cached_list(
&self,
mut list_builder: SlidingSyncListBuilder,
) -> Result<Option<SlidingSyncList>> {
let _timer = timer!(format!("restoring (loading+processing) list {}", list_builder.name));
list_builder.set_cached_and_reload(&self.inner.client, &self.inner.storage_key).await?;
self.add_list(list_builder).await
}
/// Lookup a set of rooms
pub async fn get_rooms<I: Iterator<Item = OwnedRoomId>>(
&self,
room_ids: I,
) -> Vec<Option<SlidingSyncRoom>> {
let rooms = self.inner.rooms.read().await;
room_ids.map(|room_id| rooms.get(&room_id).cloned()).collect()
}
/// Get all rooms.
pub async fn get_all_rooms(&self) -> Vec<SlidingSyncRoom> {
self.inner.rooms.read().await.values().cloned().collect()
}
/// Handle the HTTP response.
#[instrument(skip_all)]
async fn handle_response(
&self,
mut sliding_sync_response: http::Response,
position: &mut SlidingSyncPositionMarkers,
) -> Result<UpdateSummary, crate::Error> {
let pos = Some(sliding_sync_response.pos.clone());
let must_process_rooms_response = self.must_process_rooms_response().await;
trace!(yes = must_process_rooms_response, "Must process rooms response?");
// Compute `limited` for the SS proxy only, if we're interested in a room list
// query.
if !self.inner.version.is_native() && must_process_rooms_response {
let known_rooms = self.inner.rooms.read().await;
compute_limited(&known_rooms, &mut sliding_sync_response.rooms);
}
// Transform a Sliding Sync Response to a `SyncResponse`.
//
// We may not need the `sync_response` in the future (once `SyncResponse` will
// move to Sliding Sync, i.e. to `http::Response`), but processing the
// `sliding_sync_response` is vital, so it must be done somewhere; for now it
// happens here.
let mut sync_response = {
// Take the lock to avoid concurrent sliding syncs overwriting each other's room
// infos.
let _sync_lock = self.inner.client.base_client().sync_lock().lock().await;
let rooms = &*self.inner.rooms.read().await;
let mut response_processor =
SlidingSyncResponseProcessor::new(self.inner.client.clone(), rooms);
#[cfg(feature = "e2e-encryption")]
if self.is_e2ee_enabled() {
response_processor.handle_encryption(&sliding_sync_response.extensions).await?
}
// Only handle the room's subsection of the response, if this sliding sync was
// configured to do so. That's because even when not requesting it,
// sometimes the current (2023-07-20) proxy will forward room events
// unrelated to the current connection's parameters.
//
// NOTE: SS proxy workaround.
if must_process_rooms_response {
response_processor
.handle_room_response(&sliding_sync_response, self.inner.version.is_native())
.await?;
}
response_processor.process_and_take_response().await?
};
debug!(?sync_response, "Sliding Sync response has been handled by the client");
// Commit sticky parameters, if needed.
if let Some(ref txn_id) = sliding_sync_response.txn_id {
let txn_id = txn_id.as_str().into();
self.inner.sticky.write().unwrap().maybe_commit(txn_id);
let mut lists = self.inner.lists.write().await;
lists.values_mut().for_each(|list| list.maybe_commit_sticky(txn_id));
}
let update_summary = {
// Update the rooms.
let updated_rooms = {
let mut rooms_map = self.inner.rooms.write().await;
let mut updated_rooms = Vec::with_capacity(sync_response.rooms.join.len());
for (room_id, mut room_data) in sliding_sync_response.rooms.into_iter() {
// `sync_response` contains the rooms with decrypted events if any, so look at
// the timeline events here first if the room exists.
// Otherwise, let's look at the timeline inside the `sliding_sync_response`.
let timeline =
if let Some(joined_room) = sync_response.rooms.join.remove(&room_id) {
joined_room.timeline.events
} else {
room_data.timeline.drain(..).map(SyncTimelineEvent::new).collect()
};
match rooms_map.get_mut(&room_id) {
// The room existed before, let's update it.
Some(room) => {
room.update(room_data, timeline);
}
// First time we need this room, let's create it.
None => {
rooms_map.insert(
room_id.clone(),
SlidingSyncRoom::new(
self.inner.client.clone(),
room_id.clone(),
room_data.prev_batch,
timeline,
),
);
}
}
updated_rooms.push(room_id);
}
// There might be other rooms that were only mentioned in the sliding sync
// extensions part of the response, and thus would result in rooms present in
// the `sync_response.join`. Mark them as updated too.
//
// Since we've removed rooms that were in the room subsection from
// `sync_response.rooms.join`, the remaining ones aren't already present in
// `updated_rooms` and wouldn't cause any duplicates.
updated_rooms.extend(sync_response.rooms.join.keys().cloned());
updated_rooms
};
// Update the lists.
let updated_lists = {
debug!(
lists = ?sliding_sync_response.lists,
"Update lists"
);
let mut updated_lists = Vec::with_capacity(sliding_sync_response.lists.len());
let mut lists = self.inner.lists.write().await;
// Iterate on known lists, not on lists in the response. Rooms may have been
// updated that were not involved in any list update.
for (name, list) in lists.iter_mut() {
if let Some(updates) = sliding_sync_response.lists.get(name) {
let maximum_number_of_rooms: u32 =
updates.count.try_into().expect("failed to convert `count` to `u32`");
if list.update(Some(maximum_number_of_rooms))? {
updated_lists.push(name.clone());
}
} else if list.update(None)? {
updated_lists.push(name.clone());
}
}
// Report about unknown lists.
for name in sliding_sync_response.lists.keys() {
if !lists.contains_key(name) {
error!("Response for list `{name}` - unknown to us; skipping");
}
}
updated_lists
};
UpdateSummary { lists: updated_lists, rooms: updated_rooms }
};
// Everything went well, we can update the position markers.
//
// Save the new position markers.
position.pos = pos;
Ok(update_summary)
}
async fn generate_sync_request(
&self,
txn_id: &mut LazyTransactionId,
) -> Result<(http::Request, RequestConfig, OwnedMutexGuard<SlidingSyncPositionMarkers>)> {
// Collect requests for lists.
let mut requests_lists = BTreeMap::new();
let require_timeout = {
let lists = self.inner.lists.read().await;
// Start at `true` in case there is zero list.
let mut require_timeout = true;
for (name, list) in lists.iter() {
requests_lists.insert(name.clone(), list.next_request(txn_id)?);
require_timeout = require_timeout && list.requires_timeout();
}
require_timeout
};
// Collect the `pos`.
//
// Wait on the `position` mutex to be available. It means no request nor
// response is running. The `position` mutex is released whether the response
// has been fully handled successfully, in this case the `pos` is updated, or
// the response handling has failed, in this case the `pos` hasn't been updated
// and the same `pos` will be used for this new request.
let mut position_guard = self.inner.position.clone().lock_owned().await;
let to_device_enabled =
self.inner.sticky.read().unwrap().data().extensions.to_device.enabled == Some(true);
let restored_fields = if self.inner.share_pos || to_device_enabled {
let lists = self.inner.lists.read().await;
restore_sliding_sync_state(&self.inner.client, &self.inner.storage_key, &lists).await?
} else {
None
};
// Update pos: either the one restored from the database, if any and the sliding
// sync was configured so, or read it from the memory cache.
let pos = if self.inner.share_pos {
if let Some(fields) = &restored_fields {
// Override the memory one with the database one, for consistency.
if fields.pos != position_guard.pos {
info!(
"Pos from previous request ('{:?}') was different from \
pos in database ('{:?}').",
position_guard.pos, fields.pos
);
position_guard.pos = fields.pos.clone();
}
fields.pos.clone()
} else {
position_guard.pos.clone()
}
} else {
position_guard.pos.clone()
};
Span::current().record("pos", &pos);
// There is a non-negligible difference MSC3575 and MSC4186 in how
// the `e2ee` extension works. When the client sends a request with
// no `pos`:
//
// * MSC3575 returns all device lists updates since the last request from the
// device that asked for device lists (this works similarly to to-device
// message handling),
// * MSC4186 returns no device lists updates, as it only returns changes since
// the provided `pos` (which is `null` in this case); this is in line with
// sync v2.
//
// Therefore, with MSC4186, the device list cache must be marked as to be
// re-downloaded if the `since` token is `None`, otherwise it's easy to miss
// device lists updates that happened between the previous request and the new
// “initial” request.
#[cfg(feature = "e2e-encryption")]
if pos.is_none() && self.inner.version.is_native() && self.is_e2ee_enabled() {
info!("Marking all tracked users as dirty");
let olm_machine = self.inner.client.olm_machine().await;
let olm_machine = olm_machine.as_ref().ok_or(Error::NoOlmMachine)?;
olm_machine.mark_all_tracked_users_as_dirty().await?;
}
// Configure the timeout.
//
// The `timeout` query is necessary when all lists require it. Please see
// [`SlidingSyncList::requires_timeout`].
let timeout = require_timeout.then(|| self.inner.poll_timeout);
let mut request = assign!(http::Request::new(), {
conn_id: Some(self.inner.id.clone()),
pos,
timeout,
lists: requests_lists,
});
// Apply sticky parameters, if needs be.
self.inner.sticky.write().unwrap().maybe_apply(&mut request, txn_id);
// Extensions are now applied (via sticky parameters).
//
// Override the to-device token if the extension is enabled.
if to_device_enabled {
request.extensions.to_device.since =
restored_fields.and_then(|fields| fields.to_device_token);
}
// Apply the transaction id if one was generated.
if let Some(txn_id) = txn_id.get() {
request.txn_id = Some(txn_id.to_string());
}
Ok((
// The request itself.
request,
// Configure long-polling. We need some time for the long-poll itself,
// and extra time for the network delays.
RequestConfig::default().timeout(self.inner.poll_timeout + self.inner.network_timeout),
position_guard,
))
}
/// Send a sliding sync request.
///
/// This method contains the sending logic. It takes a generic `Request`
/// because it can be an MSC4186 or an MSC3575 `Request`.
async fn send_sync_request<Request>(
&self,
request: Request,
request_config: RequestConfig,
mut position_guard: OwnedMutexGuard<SlidingSyncPositionMarkers>,
) -> Result<UpdateSummary>
where
Request: OutgoingRequest + Clone + Debug + Send + Sync + 'static,
Request::IncomingResponse: Send
+ Sync
+
// This is required to get back an MSC4186 `Response` whatever the
// `Request` type.
Into<http::Response>,
HttpError: From<ruma::api::error::FromHttpResponseError<Request::EndpointError>>,
{
debug!("Sending request");
// Prepare the request.
let request =
self.inner.client.send(request, Some(request_config)).with_homeserver_override(
self.inner.version.overriding_url().map(ToString::to_string),
);
// Send the request and get a response with end-to-end encryption support.
//
// Sending the `/sync` request out when end-to-end encryption is enabled means
// that we need to also send out any outgoing e2ee related request out
// coming from the `OlmMachine::outgoing_requests()` method.
#[cfg(feature = "e2e-encryption")]
let response = {
if self.is_e2ee_enabled() {
// Here, we need to run 2 things:
//
// 1. Send the sliding sync request and get a response,
// 2. Send the E2EE requests.
//
// We don't want to use a `join` or `try_join` because we want to fail if and
// only if sending the sliding sync request fails. Failing to send the E2EE
// requests should just result in a log.
//
// We also want to give the priority to sliding sync request. E2EE requests are
// sent concurrently to the sliding sync request, but the priority is on waiting
// a sliding sync response.
//
// If sending sliding sync request fails, the sending of E2EE requests must be
// aborted as soon as possible.
let client = self.inner.client.clone();
let e2ee_uploads = spawn(async move {
if let Err(error) = client.send_outgoing_requests().await {
error!(?error, "Error while sending outgoing E2EE requests");
}
})
// Ensure that the task is not running in detached mode. It is aborted when it's
// dropped.
.abort_on_drop();
// Wait on the sliding sync request success or failure early.
let response = request.await?;
// At this point, if `request` has been resolved successfully, we wait on
// `e2ee_uploads`. It did run concurrently, so it should not be blocking for too
// long. Otherwise —if `request` has failed— `e2ee_uploads` has
// been dropped, so aborted.
e2ee_uploads.await.map_err(|error| Error::JoinError {
task_description: "e2ee_uploads".to_owned(),
error,
})?;
response
} else {
request.await?
}
};
// Send the request and get a response _without_ end-to-end encryption support.
#[cfg(not(feature = "e2e-encryption"))]
let response = request.await?;
// The code manipulates `Request` and `Response` from MSC4186 because it's the
// future standard. But this function may have received a `Request` from MSC4186
// or MSC3575. We need to get back an MSC4186 `Response`.
let response = Into::<http::msc4186::Response>::into(response);
debug!("Received response");
// At this point, the request has been sent, and a response has been received.
//
// We must ensure the handling of the response cannot be stopped/
// cancelled. It must be done entirely, otherwise we can have
// corrupted/incomplete states for Sliding Sync and other parts of
// the code.
//
// That's why we are running the handling of the response in a spawned
// future that cannot be cancelled by anything.
let this = self.clone();
// Spawn a new future to ensure that the code inside this future cannot be
// cancelled if this method is cancelled.
let future = async move {
debug!("Start handling response");
// In case the task running this future is detached, we must
// ensure responses are handled one at a time. At this point we still own
// `position_guard`, so we're fine.
// Handle the response.
let updates = this.handle_response(response, &mut position_guard).await?;
this.cache_to_storage(&position_guard).await?;
// Release the position guard lock.
// It means that other responses can be generated and then handled later.
drop(position_guard);
debug!("Done handling response");
Ok(updates)
};
spawn(future.instrument(Span::current())).await.unwrap()
}
/// Is the e2ee extension enabled for this sliding sync instance?
#[cfg(feature = "e2e-encryption")]
fn is_e2ee_enabled(&self) -> bool {
self.inner.sticky.read().unwrap().data().extensions.e2ee.enabled == Some(true)
}
#[cfg(not(feature = "e2e-encryption"))]
fn is_e2ee_enabled(&self) -> bool {
false
}
/// Should we process the room's subpart of a response?
async fn must_process_rooms_response(&self) -> bool {
// We consider that we must, if there's any room subscription or there's any
// list.
!self.inner.sticky.read().unwrap().data().room_subscriptions.is_empty()
|| !self.inner.lists.read().await.is_empty()
}
#[instrument(skip_all, fields(pos, conn_id = self.inner.id))]
async fn sync_once(&self) -> Result<UpdateSummary> {
let (request, request_config, position_guard) =
self.generate_sync_request(&mut LazyTransactionId::new()).await?;
// The code manipulates `Request` and `Response` from MSC4186 because it's
// the future standard (at the time of writing: 2024-09-09). Let's check if
// the generated request must be transformed into an MSC3575 `Request`.
let summaries = if !self.inner.version.is_native() {
self.send_sync_request(
Into::<http::msc3575::Request>::into(request),
request_config,
position_guard,
)
.await?
} else {
self.send_sync_request(request, request_config, position_guard).await?
};
// Notify a new sync was received
self.inner.client.inner.sync_beat.notify(usize::MAX);
Ok(summaries)
}
/// Create a _new_ Sliding Sync sync loop.
///
/// This method returns a `Stream`, which will send requests and will handle
/// responses automatically. Lists and rooms are updated automatically.
///
/// This function returns `Ok(…)` if everything went well, otherwise it will
/// return `Err(…)`. An `Err` will _always_ lead to the `Stream`
/// termination.
#[allow(unknown_lints, clippy::let_with_type_underscore)] // triggered by instrument macro
#[instrument(name = "sync_stream", skip_all, fields(conn_id = self.inner.id, with_e2ee = self.is_e2ee_enabled()))]
pub fn sync(&self) -> impl Stream<Item = Result<UpdateSummary, crate::Error>> + '_ {
debug!("Starting sync stream");
let mut internal_channel_receiver = self.inner.internal_channel.subscribe();
stream! {
loop {
debug!("Sync stream is running");
select! {
biased;
internal_message = internal_channel_receiver.recv() => {
use SlidingSyncInternalMessage::*;
debug!(?internal_message, "Sync stream has received an internal message");
match internal_message {
Err(_) | Ok(SyncLoopStop) => {
break;
}
Ok(SyncLoopSkipOverCurrentIteration) => {
continue;
}
}
}
update_summary = self.sync_once() => {
match update_summary {
Ok(updates) => {
yield Ok(updates);
}
// Here, errors we **cannot** ignore, and that must stop the sync loop.
Err(error) => {
if error.client_api_error_kind() == Some(&ErrorKind::UnknownPos) {
// The Sliding Sync session has expired. Let's reset `pos` and sticky parameters.
self.expire_session().await;
}
yield Err(error);
// Terminates the loop, and terminates the stream.
break;
}
}
}
}
}
debug!("Sync stream has exited.");
}
}
/// Force to stop the sync loop ([`Self::sync`]) if it's running.
///
/// Usually, dropping the `Stream` returned by [`Self::sync`] should be
/// enough to “stop” it, but depending of how this `Stream` is used, it
/// might not be obvious to drop it immediately (thinking of using this API
/// over FFI; the foreign-language might not be able to drop a value
/// immediately). Thus, calling this method will ensure that the sync loop
/// stops gracefully and as soon as it returns.
pub fn stop_sync(&self) -> Result<()> {
Ok(self.inner.internal_channel_send(SlidingSyncInternalMessage::SyncLoopStop)?)
}
/// Expire the current Sliding Sync session on the client-side.
///
/// Expiring a Sliding Sync session means: resetting `pos`. It also resets
/// sticky parameters.
///
/// This should only be used when it's clear that this session was about to
/// expire anyways, and should be used only in very specific cases (e.g.
/// multiple sliding syncs being run in parallel, and one of them has
/// expired).
///
/// This method **MUST** be called when the sync loop is stopped.
#[doc(hidden)]
pub async fn expire_session(&self) {
info!("Session expired; resetting `pos` and sticky parameters");
{
let mut position = self.inner.position.lock().await;
position.pos = None;
if let Err(err) = self.cache_to_storage(&position).await {
error!(
"couldn't invalidate sliding sync frozen state when expiring session: {err}"
);
}
}
{
let mut sticky = self.inner.sticky.write().unwrap();
// Clear all room subscriptions: we don't want to resend all room subscriptions
// when the session will restart.
sticky.data_mut().room_subscriptions.clear();
}
self.inner.lists.read().await.values().for_each(|list| list.invalidate_sticky_data());
}
}
impl SlidingSyncInner {
/// Send a message over the internal channel.
#[instrument]
fn internal_channel_send(&self, message: SlidingSyncInternalMessage) -> Result<(), Error> {
self.internal_channel.send(message).map(|_| ()).map_err(|_| Error::InternalChannelIsBroken)
}
/// Send a message over the internal channel if there is a receiver, i.e. if
/// the sync loop is running.
#[instrument]
fn internal_channel_send_if_possible(&self, message: SlidingSyncInternalMessage) {
// If there is no receiver, the send will fail, but that's OK here.
let _ = self.internal_channel.send(message);
}
}
#[derive(Copy, Clone, Debug, PartialEq)]
enum SlidingSyncInternalMessage {
/// Instruct the sync loop to stop.
SyncLoopStop,
/// Instruct the sync loop to skip over any remaining work in its iteration,
/// and to jump to the next iteration.
SyncLoopSkipOverCurrentIteration,
}
#[cfg(any(test, feature = "testing"))]
impl SlidingSync {
/// Set a new value for `pos`.
pub async fn set_pos(&self, new_pos: String) {
let mut position_lock = self.inner.position.lock().await;
position_lock.pos = Some(new_pos);
}
/// Get the sliding sync version used by this instance.
pub fn version(&self) -> &Version {
&self.inner.version
}
/// Read the static extension configuration for this Sliding Sync.
///
/// Note: this is not the next content of the sticky parameters, but rightly
/// the static configuration that was set during creation of this
/// Sliding Sync.
pub fn extensions_config(&self) -> http::request::Extensions {
let sticky = self.inner.sticky.read().unwrap();
sticky.data().extensions.clone()
}
}
#[derive(Clone, Debug)]
pub(super) struct SlidingSyncPositionMarkers {
/// An ephemeral position in the current stream, as received from the
/// previous `/sync` response, or `None` for the first request.
///
/// Should not be persisted.
pos: Option<String>,
}
/// Frozen bits of a Sliding Sync that are stored in the *state* store.
#[derive(Debug, Serialize, Deserialize)]
struct FrozenSlidingSync {
/// Deprecated: prefer storing in the crypto store.
#[serde(skip_serializing_if = "Option::is_none")]
to_device_since: Option<String>,
#[serde(default, skip_serializing_if = "Vec::is_empty")]
rooms: Vec<FrozenSlidingSyncRoom>,
}
impl FrozenSlidingSync {
fn new(rooms: &BTreeMap<OwnedRoomId, SlidingSyncRoom>) -> Self {
// The to-device token must be saved in the `FrozenCryptoSlidingSync` now.
Self {
to_device_since: None,
rooms: rooms
.iter()
.map(|(_room_id, sliding_sync_room)| FrozenSlidingSyncRoom::from(sliding_sync_room))
.collect::<Vec<_>>(),
}
}
}
#[derive(Serialize, Deserialize)]
struct FrozenSlidingSyncPos {
#[serde(skip_serializing_if = "Option::is_none")]
pos: Option<String>,
}
/// A summary of the updates received after a sync (like in
/// [`SlidingSync::sync`]).
#[derive(Debug, Clone)]
pub struct UpdateSummary {
/// The names of the lists that have seen an update.
pub lists: Vec<String>,
/// The rooms that have seen updates
pub rooms: Vec<OwnedRoomId>,
}
/// A very basic bool-ish enum to represent the state of a
/// [`http::request::RoomSubscription`]. A `RoomSubscription` that has been sent
/// once should ideally not being sent again, to mostly save bandwidth.
#[derive(Debug, Default)]
enum RoomSubscriptionState {
/// The `RoomSubscription` has not been sent or received correctly from the
/// server, i.e. the `RoomSubscription` —which is part of the sticky
/// parameters— has not been committed.
#[default]
Pending,
/// The `RoomSubscription` has been sent and received correctly by the
/// server.
Applied,
}
/// The set of sticky parameters owned by the `SlidingSyncInner` instance, and
/// sent in the request.
#[derive(Debug)]
pub(super) struct SlidingSyncStickyParameters {
/// Room subscriptions, i.e. rooms that may be out-of-scope of all lists
/// but one wants to receive updates.
room_subscriptions:
BTreeMap<OwnedRoomId, (RoomSubscriptionState, http::request::RoomSubscription)>,
/// The intended state of the extensions being supplied to sliding /sync
/// calls.
extensions: http::request::Extensions,
}
impl SlidingSyncStickyParameters {
/// Create a new set of sticky parameters.
pub fn new(
room_subscriptions: BTreeMap<OwnedRoomId, http::request::RoomSubscription>,
extensions: http::request::Extensions,
) -> Self {
Self {
room_subscriptions: room_subscriptions
.into_iter()
.map(|(room_id, room_subscription)| {
(room_id, (RoomSubscriptionState::Pending, room_subscription))
})
.collect(),
extensions,
}
}
}
impl StickyData for SlidingSyncStickyParameters {
type Request = http::Request;
fn apply(&self, request: &mut Self::Request) {
request.room_subscriptions = self
.room_subscriptions
.iter()
.filter(|(_, (state, _))| matches!(state, RoomSubscriptionState::Pending))
.map(|(room_id, (_, room_subscription))| (room_id.clone(), room_subscription.clone()))
.collect();
request.extensions = self.extensions.clone();
}
fn on_commit(&mut self) {
// All room subscriptions are marked as `Applied`.
for (state, _room_subscription) in self.room_subscriptions.values_mut() {
if matches!(state, RoomSubscriptionState::Pending) {
*state = RoomSubscriptionState::Applied;
}
}
}
}
/// As of 2023-07-13, the sliding sync proxy doesn't provide us with `limited`
/// correctly, so we cheat and "correct" it using heuristics here.
/// TODO remove this workaround as soon as support of the `limited` flag is
/// properly implemented in the open-source proxy: https://github.com/matrix-org/sliding-sync/issues/197
// NOTE: SS proxy workaround.
fn compute_limited(
local_rooms: &BTreeMap<OwnedRoomId, SlidingSyncRoom>,
remote_rooms: &mut BTreeMap<OwnedRoomId, http::response::Room>,
) {
for (room_id, remote_room) in remote_rooms {
// Only rooms marked as initially loaded are subject to the fixup.
let initial = remote_room.initial.unwrap_or(false);
if !initial {
continue;
}
if remote_room.limited {
// If the room was already marked as limited, the server knew more than we do.
continue;
}
let remote_events = &remote_room.timeline;
if remote_events.is_empty() {
trace!(?room_id, "no timeline updates in the response => not limited");
continue;
}
let Some(local_room) = local_rooms.get(room_id) else {
trace!(?room_id, "room isn't known locally => not limited");
continue;
};
let local_events = local_room.timeline_queue();
if local_events.is_empty() {
trace!(?room_id, "local timeline had no events => not limited");
continue;
}
// If the local room had some timeline events, consider it's a `limited` if
// there's absolutely no overlap between the known events and the new
// events in the timeline.
// Gather all the known event IDs. Ignore events that don't have an event ID.
let num_local_events = local_events.len();
let local_events_with_ids: HashSet<OwnedEventId> =
HashSet::from_iter(local_events.into_iter().filter_map(|event| event.event_id()));
// There's overlap if, and only if, there's at least one event in the response's
// timeline that matches an event id we've seen before.
let mut num_remote_events_missing_ids = 0;
let overlap = remote_events.iter().any(|remote_event| {
if let Some(remote_event_id) =
remote_event.get_field::<OwnedEventId>("event_id").ok().flatten()
{
local_events_with_ids.contains(&remote_event_id)
} else {
num_remote_events_missing_ids += 1;
false
}
});
remote_room.limited = !overlap;
trace!(
?room_id,
num_events_response = remote_events.len(),
num_local_events,
num_local_events_with_ids = local_events_with_ids.len(),
num_remote_events_missing_ids,
room_limited = remote_room.limited,
"done"
);
}
}
#[cfg(test)]
#[allow(clippy::dbg_macro)]
mod tests {
use std::{
collections::BTreeMap,
future::ready,
ops::Not,
sync::{Arc, Mutex},
time::Duration,
};
use assert_matches::assert_matches;
use event_listener::Listener;
use futures_util::{future::join_all, pin_mut, StreamExt};
use matrix_sdk_common::deserialized_responses::SyncTimelineEvent;
use matrix_sdk_test::async_test;
use ruma::{
api::client::error::ErrorKind, assign, owned_room_id, room_id, serde::Raw, uint,
OwnedRoomId, TransactionId,
};
use serde::Deserialize;
use serde_json::json;
use url::Url;
use wiremock::{http::Method, Match, Mock, MockServer, Request, ResponseTemplate};
use super::{
compute_limited, http,
sticky_parameters::{LazyTransactionId, SlidingSyncStickyManager},
FrozenSlidingSync, SlidingSync, SlidingSyncList, SlidingSyncListBuilder, SlidingSyncMode,
SlidingSyncRoom, SlidingSyncStickyParameters, Version,
};
use crate::{
sliding_sync::cache::restore_sliding_sync_state, test_utils::logged_in_client, Result,
};
#[derive(Copy, Clone)]
struct SlidingSyncMatcher;
impl Match for SlidingSyncMatcher {
fn matches(&self, request: &Request) -> bool {
request.url.path() == "/_matrix/client/unstable/org.matrix.simplified_msc3575/sync"
&& request.method == Method::POST
}
}
async fn new_sliding_sync(
lists: Vec<SlidingSyncListBuilder>,
) -> Result<(MockServer, SlidingSync)> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let mut sliding_sync_builder = client.sliding_sync("test-slidingsync")?;
for list in lists {
sliding_sync_builder = sliding_sync_builder.add_list(list);
}
let sliding_sync = sliding_sync_builder.build().await?;
Ok((server, sliding_sync))
}
#[async_test]
async fn test_subscribe_to_rooms() -> Result<()> {
let (server, sliding_sync) = new_sliding_sync(vec![SlidingSyncList::builder("foo")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10))])
.await?;
let stream = sliding_sync.sync();
pin_mut!(stream);
let room_id_0 = room_id!("!r0:bar.org");
let room_id_1 = room_id!("!r1:bar.org");
let room_id_2 = room_id!("!r2:bar.org");
{
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(ResponseTemplate::new(200).set_body_json(json!({
"pos": "1",
"lists": {},
"rooms": {
room_id_0: {
"name": "Room #0",
"initial": true,
},
room_id_1: {
"name": "Room #1",
"initial": true,
},
room_id_2: {
"name": "Room #2",
"initial": true,
},
}
})))
.mount_as_scoped(&server)
.await;
let _ = stream.next().await.unwrap()?;
}
let room0 = sliding_sync.inner.client.get_room(room_id_0).unwrap();
// Members aren't synced.
// We need to make them synced, so that we can test that subscribing to a room
// make members not synced. That's a desired feature.
assert!(room0.are_members_synced().not());
{
struct MemberMatcher(OwnedRoomId);
impl Match for MemberMatcher {
fn matches(&self, request: &Request) -> bool {
request.url.path()
== format!("/_matrix/client/r0/rooms/{room_id}/members", room_id = self.0)
&& request.method == Method::GET
}
}
let _mock_guard = Mock::given(MemberMatcher(room_id_0.to_owned()))
.respond_with(ResponseTemplate::new(200).set_body_json(json!({
"chunk": [],
})))
.mount_as_scoped(&server)
.await;
assert_matches!(room0.request_members().await, Ok(()));
}
// Members are now synced! We can start subscribing and see how it goes.
assert!(room0.are_members_synced());
sliding_sync.subscribe_to_rooms(&[room_id_0, room_id_1], None, true);
// OK, we have subscribed to some rooms. Let's check on `room0` if members are
// now marked as not synced.
assert!(room0.are_members_synced().not());
{
let sticky = sliding_sync.inner.sticky.read().unwrap();
let room_subscriptions = &sticky.data().room_subscriptions;
assert!(room_subscriptions.contains_key(room_id_0));
assert!(room_subscriptions.contains_key(room_id_1));
assert!(!room_subscriptions.contains_key(room_id_2));
}
// Subscribing to the same room doesn't reset the member sync state.
{
struct MemberMatcher(OwnedRoomId);
impl Match for MemberMatcher {
fn matches(&self, request: &Request) -> bool {
request.url.path()
== format!("/_matrix/client/r0/rooms/{room_id}/members", room_id = self.0)
&& request.method == Method::GET
}
}
let _mock_guard = Mock::given(MemberMatcher(room_id_0.to_owned()))
.respond_with(ResponseTemplate::new(200).set_body_json(json!({
"chunk": [],
})))
.mount_as_scoped(&server)
.await;
assert_matches!(room0.request_members().await, Ok(()));
}
// Members are synced, good, good.
assert!(room0.are_members_synced());
sliding_sync.subscribe_to_rooms(&[room_id_0], None, false);
// Members are still synced: because we have already subscribed to the
// room, the members aren't marked as unsynced.
assert!(room0.are_members_synced());
Ok(())
}
#[async_test]
async fn test_room_subscriptions_are_reset_when_session_expires() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![SlidingSyncList::builder("foo")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10))])
.await?;
let room_id_0 = room_id!("!r0:bar.org");
let room_id_1 = room_id!("!r1:bar.org");
let room_id_2 = room_id!("!r2:bar.org");
// Subscribe to two rooms.
sliding_sync.subscribe_to_rooms(&[room_id_0, room_id_1], None, false);
{
let sticky = sliding_sync.inner.sticky.read().unwrap();
let room_subscriptions = &sticky.data().room_subscriptions;
assert!(room_subscriptions.contains_key(room_id_0));
assert!(room_subscriptions.contains_key(room_id_1));
assert!(room_subscriptions.contains_key(room_id_2).not());
}
// Subscribe to one more room.
sliding_sync.subscribe_to_rooms(&[room_id_2], None, false);
{
let sticky = sliding_sync.inner.sticky.read().unwrap();
let room_subscriptions = &sticky.data().room_subscriptions;
assert!(room_subscriptions.contains_key(room_id_0));
assert!(room_subscriptions.contains_key(room_id_1));
assert!(room_subscriptions.contains_key(room_id_2));
}
// Suddenly, the session expires!
sliding_sync.expire_session().await;
{
let sticky = sliding_sync.inner.sticky.read().unwrap();
let room_subscriptions = &sticky.data().room_subscriptions;
assert!(room_subscriptions.is_empty());
}
// Subscribe to one room again.
sliding_sync.subscribe_to_rooms(&[room_id_2], None, false);
{
let sticky = sliding_sync.inner.sticky.read().unwrap();
let room_subscriptions = &sticky.data().room_subscriptions;
assert!(room_subscriptions.contains_key(room_id_0).not());
assert!(room_subscriptions.contains_key(room_id_1).not());
assert!(room_subscriptions.contains_key(room_id_2));
}
Ok(())
}
#[async_test]
async fn test_to_device_token_properly_cached() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![SlidingSyncList::builder("foo")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10))])
.await?;
// FrozenSlidingSync doesn't contain the to_device_token anymore, as it's saved
// in the crypto store since PR #2323.
let frozen = FrozenSlidingSync::new(&*sliding_sync.inner.rooms.read().await);
assert!(frozen.to_device_since.is_none());
Ok(())
}
#[async_test]
async fn test_add_list() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![SlidingSyncList::builder("foo")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10))])
.await?;
let _stream = sliding_sync.sync();
pin_mut!(_stream);
sliding_sync
.add_list(
SlidingSyncList::builder("bar")
.sync_mode(SlidingSyncMode::new_selective().add_range(50..=60)),
)
.await?;
let lists = sliding_sync.inner.lists.read().await;
assert!(lists.contains_key("foo"));
assert!(lists.contains_key("bar"));
// this test also ensures that Tokio is not panicking when calling `add_list`.
Ok(())
}
#[test]
fn test_sticky_parameters_api_invalidated_flow() {
let r0 = room_id!("!r0.matrix.org");
let r1 = room_id!("!r1:matrix.org");
let mut room_subscriptions = BTreeMap::new();
room_subscriptions.insert(r0.to_owned(), Default::default());
// At first it's invalidated.
let mut sticky = SlidingSyncStickyManager::new(SlidingSyncStickyParameters::new(
room_subscriptions,
Default::default(),
));
assert!(sticky.is_invalidated());
// Then when we create a request, the sticky parameters are applied.
let txn_id: &TransactionId = "tid123".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(request.txn_id.is_some());
assert_eq!(request.room_subscriptions.len(), 1);
assert!(request.room_subscriptions.contains_key(r0));
let tid = request.txn_id.unwrap();
sticky.maybe_commit(tid.as_str().into());
assert!(!sticky.is_invalidated());
// Applying new parameters will invalidate again.
sticky
.data_mut()
.room_subscriptions
.insert(r1.to_owned(), (Default::default(), Default::default()));
assert!(sticky.is_invalidated());
// Committing with the wrong transaction id will keep it invalidated.
sticky.maybe_commit("wrong tid today, my love has gone away 🎵".into());
assert!(sticky.is_invalidated());
// Restarting a request will only remember the last generated transaction id.
let txn_id1: &TransactionId = "tid456".into();
let mut request1 = http::Request::default();
request1.txn_id = Some(txn_id1.to_string());
sticky.maybe_apply(&mut request1, &mut LazyTransactionId::from_owned(txn_id1.to_owned()));
assert!(sticky.is_invalidated());
// The first room subscription has been applied to `request`, so it's not
// reapplied here. It's a particular logic of `room_subscriptions`, it's not
// related to the sticky design.
assert_eq!(request1.room_subscriptions.len(), 1);
assert!(request1.room_subscriptions.contains_key(r1));
let txn_id2: &TransactionId = "tid789".into();
let mut request2 = http::Request::default();
request2.txn_id = Some(txn_id2.to_string());
sticky.maybe_apply(&mut request2, &mut LazyTransactionId::from_owned(txn_id2.to_owned()));
assert!(sticky.is_invalidated());
// `request2` contains `r1` because the sticky parameters have not been
// committed, so it's still marked as pending.
assert_eq!(request2.room_subscriptions.len(), 1);
assert!(request2.room_subscriptions.contains_key(r1));
// Here we commit with the not most-recent TID, so it keeps the invalidated
// status.
sticky.maybe_commit(txn_id1);
assert!(sticky.is_invalidated());
// But here we use the latest TID, so the commit is effective.
sticky.maybe_commit(txn_id2);
assert!(!sticky.is_invalidated());
}
#[test]
fn test_room_subscriptions_are_sticky() {
let r0 = room_id!("!r0.matrix.org");
let r1 = room_id!("!r1:matrix.org");
let mut sticky = SlidingSyncStickyManager::new(SlidingSyncStickyParameters::new(
BTreeMap::new(),
Default::default(),
));
// A room subscription is added, applied, and committed.
{
// Insert `r0`.
sticky
.data_mut()
.room_subscriptions
.insert(r0.to_owned(), (Default::default(), Default::default()));
// Then the sticky parameters are applied.
let txn_id: &TransactionId = "tid0".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(request.txn_id.is_some());
assert_eq!(request.room_subscriptions.len(), 1);
assert!(request.room_subscriptions.contains_key(r0));
// Then the sticky parameters are committed.
let tid = request.txn_id.unwrap();
sticky.maybe_commit(tid.as_str().into());
}
// A room subscription is added, applied, but NOT committed.
{
// Insert `r1`.
sticky
.data_mut()
.room_subscriptions
.insert(r1.to_owned(), (Default::default(), Default::default()));
// Then the sticky parameters are applied.
let txn_id: &TransactionId = "tid1".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(request.txn_id.is_some());
assert_eq!(request.room_subscriptions.len(), 1);
// `r0` is not present, it's only `r1`.
assert!(request.room_subscriptions.contains_key(r1));
// Then the sticky parameters are NOT committed.
// It can happen if the request has failed to be sent for example,
// or if the response didn't match.
}
// A previously added room subscription is re-added, applied, and committed.
{
// Then the sticky parameters are applied.
let txn_id: &TransactionId = "tid2".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(request.txn_id.is_some());
assert_eq!(request.room_subscriptions.len(), 1);
// `r0` is not present, it's only `r1`.
assert!(request.room_subscriptions.contains_key(r1));
// Then the sticky parameters are committed.
let tid = request.txn_id.unwrap();
sticky.maybe_commit(tid.as_str().into());
}
// All room subscriptions have been committed.
{
// Then the sticky parameters are applied.
let txn_id: &TransactionId = "tid3".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(request.txn_id.is_some());
// All room subscriptions have been sent.
assert!(request.room_subscriptions.is_empty());
}
}
#[test]
fn test_extensions_are_sticky() {
let mut extensions = http::request::Extensions::default();
extensions.account_data.enabled = Some(true);
// At first it's invalidated.
let mut sticky = SlidingSyncStickyManager::new(SlidingSyncStickyParameters::new(
Default::default(),
extensions,
));
assert!(sticky.is_invalidated(), "invalidated because of non default parameters");
// `StickyParameters::new` follows its caller's intent when it comes to e2ee and
// to-device.
let extensions = &sticky.data().extensions;
assert_eq!(extensions.e2ee.enabled, None);
assert_eq!(extensions.to_device.enabled, None);
assert_eq!(extensions.to_device.since, None);
// What the user explicitly enabled is… enabled.
assert_eq!(extensions.account_data.enabled, Some(true));
let txn_id: &TransactionId = "tid123".into();
let mut request = http::Request::default();
request.txn_id = Some(txn_id.to_string());
sticky.maybe_apply(&mut request, &mut LazyTransactionId::from_owned(txn_id.to_owned()));
assert!(sticky.is_invalidated());
assert_eq!(request.extensions.to_device.enabled, None);
assert_eq!(request.extensions.to_device.since, None);
assert_eq!(request.extensions.e2ee.enabled, None);
assert_eq!(request.extensions.account_data.enabled, Some(true));
}
#[async_test]
async fn test_sticky_extensions_plus_since() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let sync = client
.sliding_sync("test-slidingsync")?
.add_list(SlidingSyncList::builder("new_list"))
.build()
.await?;
// No extensions have been explicitly enabled here.
assert_eq!(sync.inner.sticky.read().unwrap().data().extensions.to_device.enabled, None);
assert_eq!(sync.inner.sticky.read().unwrap().data().extensions.e2ee.enabled, None);
assert_eq!(sync.inner.sticky.read().unwrap().data().extensions.account_data.enabled, None);
// Now enable e2ee and to-device.
let sync = client
.sliding_sync("test-slidingsync")?
.add_list(SlidingSyncList::builder("new_list"))
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
// Even without a since token, the first request will contain the extensions
// configuration, at least.
let txn_id = TransactionId::new();
let (request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id.to_owned()))
.await?;
assert_eq!(request.extensions.e2ee.enabled, Some(true));
assert_eq!(request.extensions.to_device.enabled, Some(true));
assert!(request.extensions.to_device.since.is_none());
{
// Committing with another transaction id doesn't validate anything.
let mut sticky = sync.inner.sticky.write().unwrap();
assert!(sticky.is_invalidated());
sticky.maybe_commit(
"hopefully the rng won't generate this very specific transaction id".into(),
);
assert!(sticky.is_invalidated());
}
// Regenerating a request will yield the same one.
let txn_id2 = TransactionId::new();
let (request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id2.to_owned()))
.await?;
assert_eq!(request.extensions.e2ee.enabled, Some(true));
assert_eq!(request.extensions.to_device.enabled, Some(true));
assert!(request.extensions.to_device.since.is_none());
assert!(txn_id != txn_id2, "the two requests must not share the same transaction id");
{
// Committing with the expected transaction id will validate it.
let mut sticky = sync.inner.sticky.write().unwrap();
assert!(sticky.is_invalidated());
sticky.maybe_commit(txn_id2.as_str().into());
assert!(!sticky.is_invalidated());
}
// The next request should contain no sticky parameters.
let txn_id = TransactionId::new();
let (request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id.to_owned()))
.await?;
assert!(request.extensions.e2ee.enabled.is_none());
assert!(request.extensions.to_device.enabled.is_none());
assert!(request.extensions.to_device.since.is_none());
// If there's a to-device `since` token, we make sure we put the token
// into the extension config. The rest doesn't need to be re-enabled due to
// stickiness.
let _since_token = "since";
#[cfg(feature = "e2e-encryption")]
{
use matrix_sdk_base::crypto::store::Changes;
if let Some(olm_machine) = &*client.olm_machine().await {
olm_machine
.store()
.save_changes(Changes {
next_batch_token: Some(_since_token.to_owned()),
..Default::default()
})
.await?;
}
}
let txn_id = TransactionId::new();
let (request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id.to_owned()))
.await?;
assert!(request.extensions.e2ee.enabled.is_none());
assert!(request.extensions.to_device.enabled.is_none());
#[cfg(feature = "e2e-encryption")]
assert_eq!(request.extensions.to_device.since.as_deref(), Some(_since_token));
Ok(())
}
// With MSC4186, with the `e2ee` extension enabled, if a request has no `pos`,
// all the tracked users by the `OlmMachine` must be marked as dirty, i.e.
// `/key/query` requests must be sent. See the code to see the details.
//
// This test is asserting that.
#[async_test]
#[cfg(feature = "e2e-encryption")]
async fn test_no_pos_with_e2ee_marks_all_tracked_users_as_dirty() -> anyhow::Result<()> {
use matrix_sdk_base::crypto::types::requests::{AnyIncomingResponse, AnyOutgoingRequest};
use matrix_sdk_test::ruma_response_from_json;
use ruma::user_id;
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let alice = user_id!("@alice:localhost");
let bob = user_id!("@bob:localhost");
let me = user_id!("@example:localhost");
// Track and mark users are not dirty, so that we can check they are “dirty”
// after that. Dirty here means that a `/key/query` must be sent.
{
let olm_machine = client.olm_machine().await;
let olm_machine = olm_machine.as_ref().unwrap();
olm_machine.update_tracked_users([alice, bob]).await?;
// Assert requests.
let outgoing_requests = olm_machine.outgoing_requests().await?;
assert_eq!(outgoing_requests.len(), 2);
assert_matches!(outgoing_requests[0].request(), AnyOutgoingRequest::KeysUpload(_));
assert_matches!(outgoing_requests[1].request(), AnyOutgoingRequest::KeysQuery(_));
// Fake responses.
olm_machine
.mark_request_as_sent(
outgoing_requests[0].request_id(),
AnyIncomingResponse::KeysUpload(&ruma_response_from_json(&json!({
"one_time_key_counts": {}
}))),
)
.await?;
olm_machine
.mark_request_as_sent(
outgoing_requests[1].request_id(),
AnyIncomingResponse::KeysQuery(&ruma_response_from_json(&json!({
"device_keys": {
alice: {},
bob: {},
}
}))),
)
.await?;
// Once more.
let outgoing_requests = olm_machine.outgoing_requests().await?;
assert_eq!(outgoing_requests.len(), 1);
assert_matches!(outgoing_requests[0].request(), AnyOutgoingRequest::KeysQuery(_));
olm_machine
.mark_request_as_sent(
outgoing_requests[0].request_id(),
AnyIncomingResponse::KeysQuery(&ruma_response_from_json(&json!({
"device_keys": {
me: {},
}
}))),
)
.await?;
// No more.
let outgoing_requests = olm_machine.outgoing_requests().await?;
assert!(outgoing_requests.is_empty());
}
let sync = client
.sliding_sync("test-slidingsync")?
.add_list(SlidingSyncList::builder("new_list"))
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
// First request: no `pos`.
let txn_id = TransactionId::new();
let (_request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id.to_owned()))
.await?;
// Now, tracked users must be dirty.
{
let olm_machine = client.olm_machine().await;
let olm_machine = olm_machine.as_ref().unwrap();
// Assert requests.
let outgoing_requests = olm_machine.outgoing_requests().await?;
assert_eq!(outgoing_requests.len(), 1);
assert_matches!(
outgoing_requests[0].request(),
AnyOutgoingRequest::KeysQuery(request) => {
assert!(request.device_keys.contains_key(alice));
assert!(request.device_keys.contains_key(bob));
assert!(request.device_keys.contains_key(me));
}
);
// Fake responses.
olm_machine
.mark_request_as_sent(
outgoing_requests[0].request_id(),
AnyIncomingResponse::KeysQuery(&ruma_response_from_json(&json!({
"device_keys": {
alice: {},
bob: {},
me: {},
}
}))),
)
.await?;
}
// Second request: with a `pos` this time.
sync.set_pos("chocolat".to_owned()).await;
let txn_id = TransactionId::new();
let (_request, _, _) = sync
.generate_sync_request(&mut LazyTransactionId::from_owned(txn_id.to_owned()))
.await?;
// Tracked users are not marked as dirty.
{
let olm_machine = client.olm_machine().await;
let olm_machine = olm_machine.as_ref().unwrap();
// Assert requests.
let outgoing_requests = olm_machine.outgoing_requests().await?;
assert!(outgoing_requests.is_empty());
}
Ok(())
}
#[async_test]
async fn test_unknown_pos_resets_pos_and_sticky_parameters() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client
.sliding_sync("test-slidingsync")?
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true) }),
)
.build()
.await?;
// First request asks to enable the extension.
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.extensions.to_device.enabled.is_some());
let sync = sliding_sync.sync();
pin_mut!(sync);
// `pos` is `None` to start with.
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
#[derive(Deserialize)]
struct PartialRequest {
txn_id: Option<String>,
}
{
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(|request: &Request| {
// Repeat the txn_id in the response, if set.
let request: PartialRequest = request.body_json().unwrap();
ResponseTemplate::new(200).set_body_json(json!({
"txn_id": request.txn_id,
"pos": "0",
}))
})
.mount_as_scoped(&server)
.await;
let next = sync.next().await;
assert_matches!(next, Some(Ok(_update_summary)));
// `pos` has been updated.
assert_eq!(sliding_sync.inner.position.lock().await.pos, Some("0".to_owned()));
}
// Next request doesn't ask to enable the extension.
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.extensions.to_device.enabled.is_none());
// Next request is successful.
{
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(|request: &Request| {
// Repeat the txn_id in the response, if set.
let request: PartialRequest = request.body_json().unwrap();
ResponseTemplate::new(200).set_body_json(json!({
"txn_id": request.txn_id,
"pos": "1",
}))
})
.mount_as_scoped(&server)
.await;
let next = sync.next().await;
assert_matches!(next, Some(Ok(_update_summary)));
// `pos` has been updated.
assert_eq!(sliding_sync.inner.position.lock().await.pos, Some("1".to_owned()));
}
// Next request is successful despite it receives an already
// received `pos` from the server.
{
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(|request: &Request| {
// Repeat the txn_id in the response, if set.
let request: PartialRequest = request.body_json().unwrap();
ResponseTemplate::new(200).set_body_json(json!({
"txn_id": request.txn_id,
"pos": "0", // <- already received!
}))
})
.up_to_n_times(1) // run this mock only once.
.mount_as_scoped(&server)
.await;
let next = sync.next().await;
assert_matches!(next, Some(Ok(_update_summary)));
// `pos` has been updated.
assert_eq!(sliding_sync.inner.position.lock().await.pos, Some("0".to_owned()));
}
// Stop responding with successful requests!
//
// When responding with `M_UNKNOWN_POS`, that regenerates the sticky parameters,
// so they're reset. It also resets the `pos`.
{
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(ResponseTemplate::new(400).set_body_json(json!({
"error": "foo",
"errcode": "M_UNKNOWN_POS",
})))
.mount_as_scoped(&server)
.await;
let next = sync.next().await;
// The expected error is returned.
assert_matches!(next, Some(Err(err)) if err.client_api_error_kind() == Some(&ErrorKind::UnknownPos));
// `pos` has been reset.
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
// Next request asks to enable the extension again.
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.extensions.to_device.enabled.is_some());
// `sync` has been stopped.
assert!(sync.next().await.is_none());
}
Ok(())
}
#[cfg(feature = "e2e-encryption")]
#[async_test]
async fn test_sliding_sync_doesnt_remember_pos() -> Result<()> {
let server = MockServer::start().await;
#[derive(Deserialize)]
struct PartialRequest {
txn_id: Option<String>,
}
let server_pos = Arc::new(Mutex::new(0));
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(move |request: &Request| {
// Repeat the txn_id in the response, if set.
let request: PartialRequest = request.body_json().unwrap();
let pos = {
let mut pos = server_pos.lock().unwrap();
let prev = *pos;
*pos += 1;
prev
};
ResponseTemplate::new(200).set_body_json(json!({
"txn_id": request.txn_id,
"pos": pos.to_string(),
}))
})
.mount_as_scoped(&server)
.await;
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client.sliding_sync("forgetful-sync")?.build().await?;
// `pos` is `None` to start with.
{
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.pos.is_none());
}
let sync = sliding_sync.sync();
pin_mut!(sync);
// Sync goes well, and then the position is saved both into the internal memory
// and the database.
let next = sync.next().await;
assert_matches!(next, Some(Ok(_update_summary)));
assert_eq!(sliding_sync.inner.position.lock().await.pos.as_deref(), Some("0"));
let restored_fields = restore_sliding_sync_state(
&client,
&sliding_sync.inner.storage_key,
&*sliding_sync.inner.lists.read().await,
)
.await?
.expect("must have restored fields");
// While it has been saved into the database, it's not necessarily going to be
// used later!
assert_eq!(restored_fields.pos.as_deref(), Some("0"));
// Now, even if we mess with the position stored in the database, the sliding
// sync instance isn't configured to reload the stream position from the
// database, so it won't be changed.
{
let other_sync = client.sliding_sync("forgetful-sync")?.build().await?;
let mut position_guard = other_sync.inner.position.lock().await;
position_guard.pos = Some("yolo".to_owned());
other_sync.cache_to_storage(&position_guard).await?;
}
// It's still 0, not "yolo".
{
assert_eq!(sliding_sync.inner.position.lock().await.pos.as_deref(), Some("0"));
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert_eq!(request.pos.as_deref(), Some("0"));
}
// Recreating a sliding sync with the same ID doesn't preload the pos, if not
// asked to.
{
let sliding_sync = client.sliding_sync("forgetful-sync")?.build().await?;
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
}
Ok(())
}
#[cfg(feature = "e2e-encryption")]
#[async_test]
async fn test_sliding_sync_does_remember_pos() -> Result<()> {
let server = MockServer::start().await;
#[derive(Deserialize)]
struct PartialRequest {
txn_id: Option<String>,
}
let server_pos = Arc::new(Mutex::new(0));
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(move |request: &Request| {
// Repeat the txn_id in the response, if set.
let request: PartialRequest = request.body_json().unwrap();
let pos = {
let mut pos = server_pos.lock().unwrap();
let prev = *pos;
*pos += 1;
prev
};
ResponseTemplate::new(200).set_body_json(json!({
"txn_id": request.txn_id,
"pos": pos.to_string(),
}))
})
.mount_as_scoped(&server)
.await;
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client.sliding_sync("elephant-sync")?.share_pos().build().await?;
// `pos` is `None` to start with.
{
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.pos.is_none());
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
}
let sync = sliding_sync.sync();
pin_mut!(sync);
// Sync goes well, and then the position is saved both into the internal memory
// and the database.
let next = sync.next().await;
assert_matches!(next, Some(Ok(_update_summary)));
assert_eq!(sliding_sync.inner.position.lock().await.pos, Some("0".to_owned()));
let restored_fields = restore_sliding_sync_state(
&client,
&sliding_sync.inner.storage_key,
&*sliding_sync.inner.lists.read().await,
)
.await?
.expect("must have restored fields");
// While it has been saved into the database, it's not necessarily going to be
// used later!
assert_eq!(restored_fields.pos.as_deref(), Some("0"));
// Another process modifies the stream position under our feet...
{
let other_sync = client.sliding_sync("elephant-sync")?.build().await?;
let mut position_guard = other_sync.inner.position.lock().await;
position_guard.pos = Some("42".to_owned());
other_sync.cache_to_storage(&position_guard).await?;
}
// It's alright, the next request will load it from the database.
{
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert_eq!(request.pos.as_deref(), Some("42"));
assert_eq!(sliding_sync.inner.position.lock().await.pos.as_deref(), Some("42"));
}
// Recreating a sliding sync with the same ID will reload it too.
{
let sliding_sync = client.sliding_sync("elephant-sync")?.share_pos().build().await?;
assert_eq!(sliding_sync.inner.position.lock().await.pos.as_deref(), Some("42"));
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert_eq!(request.pos.as_deref(), Some("42"));
}
// Invalidating the session will remove the in-memory value AND the database
// value.
sliding_sync.expire_session().await;
{
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.pos.is_none());
}
// And new sliding syncs with the same ID won't find it either.
{
let sliding_sync = client.sliding_sync("elephant-sync")?.share_pos().build().await?;
assert!(sliding_sync.inner.position.lock().await.pos.is_none());
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
assert!(request.pos.is_none());
}
Ok(())
}
#[async_test]
async fn test_stop_sync_loop() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![SlidingSyncList::builder("foo")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10))])
.await?;
// Start the sync loop.
let stream = sliding_sync.sync();
pin_mut!(stream);
// The sync loop is actually running.
assert!(stream.next().await.is_some());
// Stop the sync loop.
sliding_sync.stop_sync()?;
// The sync loop is actually stopped.
assert!(stream.next().await.is_none());
// Start a new sync loop.
let stream = sliding_sync.sync();
pin_mut!(stream);
// The sync loop is actually running.
assert!(stream.next().await.is_some());
Ok(())
}
#[async_test]
async fn test_sliding_sync_version() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
// By default, sliding sync inherits its version from the client, which is
// `Native`.
{
let sync = client.sliding_sync("default")?.build().await?;
assert_matches!(sync.version(), Version::Native);
}
// Sliding sync can override the configuration from the client.
{
let url = Url::parse("https://bar.matrix/").unwrap();
let sync = client
.sliding_sync("own-proxy")?
.version(Version::Proxy { url: url.clone() })
.build()
.await?;
assert_matches!(
sync.version(),
Version::Proxy { url: given_url } => {
assert_eq!(&url, given_url);
}
);
}
// Sliding sync inherits from the client…
let url = Url::parse("https://foo.matrix/").unwrap();
client.set_sliding_sync_version(Version::Proxy { url: url.clone() });
{
// The sliding sync inherits the client's sliding sync proxy URL.
let sync = client.sliding_sync("client-proxy")?.build().await?;
assert_matches!(
sync.version(),
Version::Proxy { url: given_url } => {
assert_eq!(&url, given_url);
}
);
}
{
// …unless we override it afterwards.
let sync = client.sliding_sync("own-proxy")?.version(Version::Native).build().await?;
assert_matches!(sync.version(), Version::Native);
}
Ok(())
}
#[async_test]
async fn test_limited_flag_computation() {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let make_event = |event_id: &str| -> SyncTimelineEvent {
SyncTimelineEvent::new(
Raw::from_json_string(
json!({
"event_id": event_id,
"sender": "@johnmastodon:example.org",
"origin_server_ts": 1337424242,
"type": "m.room.message",
"room_id": "!meaningless:example.org",
"content": {
"body": "Hello, world!",
"msgtype": "m.text"
},
})
.to_string(),
)
.unwrap(),
)
};
let event_a = make_event("$a");
let event_b = make_event("$b");
let event_c = make_event("$c");
let event_d = make_event("$d");
let not_initial = room_id!("!croissant:example.org");
let no_overlap = room_id!("!omelette:example.org");
let partial_overlap = room_id!("!fromage:example.org");
let complete_overlap = room_id!("!baguette:example.org");
let no_remote_events = room_id!("!pain:example.org");
let no_local_events = room_id!("!crepe:example.org");
let already_limited = room_id!("!paris:example.org");
let response_timeline = vec![event_c.raw().clone(), event_d.raw().clone()];
let local_rooms = BTreeMap::from_iter([
(
// This has no events overlapping with the response timeline, hence limited, but
// it's not marked as initial in the response.
not_initial.to_owned(),
SlidingSyncRoom::new(
client.clone(),
no_overlap.to_owned(),
None,
vec![event_a.clone(), event_b.clone()],
),
),
(
// This has no events overlapping with the response timeline, hence limited.
no_overlap.to_owned(),
SlidingSyncRoom::new(
client.clone(),
no_overlap.to_owned(),
None,
vec![event_a.clone(), event_b.clone()],
),
),
(
// This has event_c in common with the response timeline.
partial_overlap.to_owned(),
SlidingSyncRoom::new(
client.clone(),
partial_overlap.to_owned(),
None,
vec![event_a.clone(), event_b.clone(), event_c.clone()],
),
),
(
// This has all events in common with the response timeline.
complete_overlap.to_owned(),
SlidingSyncRoom::new(
client.clone(),
partial_overlap.to_owned(),
None,
vec![event_c.clone(), event_d.clone()],
),
),
(
// We locally have events for this room, and receive none in the response: not
// limited.
no_remote_events.to_owned(),
SlidingSyncRoom::new(
client.clone(),
no_remote_events.to_owned(),
None,
vec![event_c.clone(), event_d.clone()],
),
),
(
// We don't have events for this room locally, and even if the remote room contains
// some events, it's not a limited sync.
no_local_events.to_owned(),
SlidingSyncRoom::new(client.clone(), no_local_events.to_owned(), None, vec![]),
),
(
// Already limited, but would be marked limited if the flag wasn't ignored (same as
// partial overlap).
already_limited.to_owned(),
SlidingSyncRoom::new(
client,
already_limited.to_owned(),
None,
vec![event_a, event_b, event_c.clone()],
),
),
]);
let mut remote_rooms = BTreeMap::from_iter([
(
not_initial.to_owned(),
assign!(http::response::Room::default(), { timeline: response_timeline }),
),
(
no_overlap.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
timeline: vec![event_c.raw().clone(), event_d.raw().clone()],
}),
),
(
partial_overlap.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
timeline: vec![event_c.raw().clone(), event_d.raw().clone()],
}),
),
(
complete_overlap.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
timeline: vec![event_c.raw().clone(), event_d.raw().clone()],
}),
),
(
no_remote_events.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
timeline: vec![],
}),
),
(
no_local_events.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
timeline: vec![event_c.raw().clone(), event_d.raw().clone()],
}),
),
(
already_limited.to_owned(),
assign!(http::response::Room::default(), {
initial: Some(true),
limited: true,
timeline: vec![event_c.into_raw(), event_d.into_raw()],
}),
),
]);
compute_limited(&local_rooms, &mut remote_rooms);
assert!(!remote_rooms.get(not_initial).unwrap().limited);
assert!(remote_rooms.get(no_overlap).unwrap().limited);
assert!(!remote_rooms.get(partial_overlap).unwrap().limited);
assert!(!remote_rooms.get(complete_overlap).unwrap().limited);
assert!(!remote_rooms.get(no_remote_events).unwrap().limited);
assert!(!remote_rooms.get(no_local_events).unwrap().limited);
assert!(remote_rooms.get(already_limited).unwrap().limited);
}
#[async_test]
async fn test_process_read_receipts() -> Result<()> {
let room = owned_room_id!("!pony:example.org");
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client
.sliding_sync("test")?
.with_receipt_extension(
assign!(http::request::Receipts::default(), { enabled: Some(true) }),
)
.add_list(
SlidingSyncList::builder("all")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=100)),
)
.build()
.await?;
// Initial state.
{
let server_response = assign!(http::Response::new("0".to_owned()), {
rooms: BTreeMap::from([(
room.clone(),
http::response::Room::default(),
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
let server_response = assign!(http::Response::new("1".to_owned()), {
extensions: assign!(http::response::Extensions::default(), {
receipts: assign!(http::response::Receipts::default(), {
rooms: BTreeMap::from([
(
room.clone(),
Raw::from_json_string(
json!({
"room_id": room,
"type": "m.receipt",
"content": {
"$event:bar.org": {
"m.read": {
client.user_id().unwrap(): {
"ts": 1436451550,
}
}
}
}
})
.to_string(),
).unwrap()
)
])
})
})
});
let summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
assert!(summary.rooms.contains(&room));
Ok(())
}
#[async_test]
async fn test_process_marked_unread_room_account_data() -> Result<()> {
let room_id = owned_room_id!("!unicorn:example.org");
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
// Setup sliding sync with with one room and one list
let sliding_sync = client
.sliding_sync("test")?
.with_account_data_extension(
assign!(http::request::AccountData::default(), { enabled: Some(true) }),
)
.add_list(
SlidingSyncList::builder("all")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=100)),
)
.build()
.await?;
// Initial state.
{
let server_response = assign!(http::Response::new("0".to_owned()), {
rooms: BTreeMap::from([(
room_id.clone(),
http::response::Room::default(),
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
// Simulate a response that only changes the marked unread state of the room to
// true
let server_response = make_mark_unread_response("1", room_id.clone(), true, false);
let update_summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
// Check that the list list and entry received the update
assert!(update_summary.rooms.contains(&room_id));
let room = client.get_room(&room_id).unwrap();
// Check the actual room data, this powers RoomInfo
assert!(room.is_marked_unread());
// Change it back to false and check if it updates
let server_response = make_mark_unread_response("2", room_id.clone(), false, true);
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?;
let room = client.get_room(&room_id).unwrap();
assert!(!room.is_marked_unread());
Ok(())
}
fn make_mark_unread_response(
response_number: &str,
room_id: OwnedRoomId,
unread: bool,
add_rooms_section: bool,
) -> http::Response {
let rooms = if add_rooms_section {
BTreeMap::from([(room_id.clone(), http::response::Room::default())])
} else {
BTreeMap::new()
};
let extensions = assign!(http::response::Extensions::default(), {
account_data: assign!(http::response::AccountData::default(), {
rooms: BTreeMap::from([
(
room_id,
vec![
Raw::from_json_string(
json!({
"content": {
"unread": unread
},
"type": "com.famedly.marked_unread"
})
.to_string(),
).unwrap()
]
)
])
})
});
assign!(http::Response::new(response_number.to_owned()), { rooms: rooms, extensions: extensions })
}
#[async_test]
async fn test_process_rooms_account_data() -> Result<()> {
let room = owned_room_id!("!pony:example.org");
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client
.sliding_sync("test")?
.with_account_data_extension(
assign!(http::request::AccountData::default(), { enabled: Some(true) }),
)
.add_list(
SlidingSyncList::builder("all")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=100)),
)
.build()
.await?;
// Initial state.
{
let server_response = assign!(http::Response::new("0".to_owned()), {
rooms: BTreeMap::from([(
room.clone(),
http::response::Room::default(),
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
let server_response = assign!(http::Response::new("1".to_owned()), {
extensions: assign!(http::response::Extensions::default(), {
account_data: assign!(http::response::AccountData::default(), {
rooms: BTreeMap::from([
(
room.clone(),
vec![
Raw::from_json_string(
json!({
"content": {
"tags": {
"u.work": {
"order": 0.9
}
}
},
"type": "m.tag"
})
.to_string(),
).unwrap()
]
)
])
})
})
});
let summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
assert!(summary.rooms.contains(&room));
Ok(())
}
#[async_test]
#[cfg(feature = "e2e-encryption")]
async fn test_process_only_encryption_events() -> Result<()> {
use ruma::OneTimeKeyAlgorithm;
let room = owned_room_id!("!croissant:example.org");
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let server_response = assign!(http::Response::new("0".to_owned()), {
rooms: BTreeMap::from([(
room.clone(),
assign!(http::response::Room::default(), {
name: Some("Croissants lovers".to_owned()),
timeline: Vec::new(),
}),
)]),
extensions: assign!(http::response::Extensions::default(), {
e2ee: assign!(http::response::E2EE::default(), {
device_one_time_keys_count: BTreeMap::from([(OneTimeKeyAlgorithm::SignedCurve25519, uint!(42))])
}),
to_device: Some(assign!(http::response::ToDevice::default(), {
next_batch: "to-device-token".to_owned(),
})),
})
});
// Don't process non-encryption events if the sliding sync is configured for
// encryption only.
let sliding_sync = client
.sliding_sync("test")?
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
{
let mut position_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut position_guard).await?;
}
// E2EE has been properly handled.
let uploaded_key_count = client.encryption().uploaded_key_count().await?;
assert_eq!(uploaded_key_count, 42);
{
let olm_machine = &*client.olm_machine_for_testing().await;
assert_eq!(
olm_machine.as_ref().unwrap().store().next_batch_token().await?.as_deref(),
Some("to-device-token")
);
}
// Room events haven't.
assert!(client.get_room(&room).is_none());
// Conversely, only process room lists events if the sliding sync was configured
// as so.
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client
.sliding_sync("test")?
.add_list(SlidingSyncList::builder("thelist"))
.build()
.await?;
{
let mut position_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut position_guard).await?;
}
// E2EE response has been ignored.
let uploaded_key_count = client.encryption().uploaded_key_count().await?;
assert_eq!(uploaded_key_count, 0);
{
let olm_machine = &*client.olm_machine_for_testing().await;
assert_eq!(
olm_machine.as_ref().unwrap().store().next_batch_token().await?.as_deref(),
None
);
}
// The room is now known.
assert!(client.get_room(&room).is_some());
// And it's also possible to set up both.
let client = logged_in_client(Some(server.uri())).await;
let sliding_sync = client
.sliding_sync("test")?
.add_list(SlidingSyncList::builder("thelist"))
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
{
let mut position_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut position_guard).await?;
}
// E2EE has been properly handled.
let uploaded_key_count = client.encryption().uploaded_key_count().await?;
assert_eq!(uploaded_key_count, 42);
{
let olm_machine = &*client.olm_machine_for_testing().await;
assert_eq!(
olm_machine.as_ref().unwrap().store().next_batch_token().await?.as_deref(),
Some("to-device-token")
);
}
// The room is now known.
assert!(client.get_room(&room).is_some());
Ok(())
}
#[async_test]
async fn test_lock_multiple_requests() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let pos = Arc::new(Mutex::new(0));
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(move |_: &Request| {
let mut pos = pos.lock().unwrap();
*pos += 1;
ResponseTemplate::new(200).set_body_json(json!({
"pos": pos.to_string(),
"lists": {},
"rooms": {}
}))
})
.mount_as_scoped(&server)
.await;
let sliding_sync = client
.sliding_sync("test")?
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
// Spawn two requests in parallel. Before #2430, this lead to a deadlock and the
// test would never terminate.
let requests = join_all([sliding_sync.sync_once(), sliding_sync.sync_once()]);
for result in requests.await {
result?;
}
Ok(())
}
#[cfg(not(target_arch = "wasm32"))] // b/o tokio::time::sleep
#[async_test]
async fn test_aborted_request_doesnt_update_future_requests() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let pos = Arc::new(Mutex::new(0));
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(move |_: &Request| {
let mut pos = pos.lock().unwrap();
*pos += 1;
// Respond slowly enough that we can skip one iteration.
ResponseTemplate::new(200)
.set_body_json(json!({
"pos": pos.to_string(),
"lists": {},
"rooms": {}
}))
.set_delay(Duration::from_secs(2))
})
.mount_as_scoped(&server)
.await;
let sliding_sync =
client
.sliding_sync("test")?
.add_list(SlidingSyncList::builder("room-list").sync_mode(
SlidingSyncMode::new_growing(10).maximum_number_of_rooms_to_fetch(100),
))
.add_list(
SlidingSyncList::builder("another-list")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10)),
)
.build()
.await?;
let stream = sliding_sync.sync();
pin_mut!(stream);
let cloned_sync = sliding_sync.clone();
tokio::spawn(async move {
tokio::time::sleep(Duration::from_millis(100)).await;
cloned_sync
.on_list("another-list", |list| {
list.set_sync_mode(SlidingSyncMode::new_selective().add_range(10..=20));
ready(())
})
.await;
});
assert_matches!(stream.next().await, Some(Ok(_)));
sliding_sync.stop_sync().unwrap();
assert_matches!(stream.next().await, None);
let mut num_requests = 0;
for request in server.received_requests().await.unwrap() {
if !SlidingSyncMatcher.matches(&request) {
continue;
}
let another_list_ranges = if num_requests == 0 {
// First request
json!([[0, 10]])
} else {
// Second request
json!([[10, 20]])
};
num_requests += 1;
assert!(num_requests <= 2, "more than one request hit the server");
let json_value = serde_json::from_slice::<serde_json::Value>(&request.body).unwrap();
if let Err(err) = assert_json_diff::assert_json_matches_no_panic(
&json_value,
&json!({
"conn_id": "test",
"lists": {
"room-list": {
"ranges": [[0, 9]],
"required_state": [
["m.room.encryption", ""],
["m.room.tombstone", ""]
],
},
"another-list": {
"ranges": another_list_ranges,
"required_state": [
["m.room.encryption", ""],
["m.room.tombstone", ""]
],
},
}
}),
assert_json_diff::Config::new(assert_json_diff::CompareMode::Inclusive),
) {
dbg!(json_value);
panic!("json differ: {err}");
}
}
assert_eq!(num_requests, 2);
Ok(())
}
#[async_test]
async fn test_timeout_zero_list() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![]).await?;
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// Zero list means sliding sync is fully loaded, so there is a timeout to wait
// on new update to pop.
assert!(request.timeout.is_some());
Ok(())
}
#[async_test]
async fn test_timeout_one_list() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![
SlidingSyncList::builder("foo").sync_mode(SlidingSyncMode::new_growing(10))
])
.await?;
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// The list does not require a timeout.
assert!(request.timeout.is_none());
// Simulate a response.
{
let server_response = assign!(http::Response::new("0".to_owned()), {
lists: BTreeMap::from([(
"foo".to_owned(),
assign!(http::response::List::default(), {
count: uint!(7),
})
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// The list is now fully loaded, so it requires a timeout.
assert!(request.timeout.is_some());
Ok(())
}
#[async_test]
async fn test_timeout_three_lists() -> Result<()> {
let (_server, sliding_sync) = new_sliding_sync(vec![
SlidingSyncList::builder("foo").sync_mode(SlidingSyncMode::new_growing(10)),
SlidingSyncList::builder("bar").sync_mode(SlidingSyncMode::new_paging(10)),
SlidingSyncList::builder("baz")
.sync_mode(SlidingSyncMode::new_selective().add_range(0..=10)),
])
.await?;
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// Two lists don't require a timeout.
assert!(request.timeout.is_none());
// Simulate a response.
{
let server_response = assign!(http::Response::new("0".to_owned()), {
lists: BTreeMap::from([(
"foo".to_owned(),
assign!(http::response::List::default(), {
count: uint!(7),
})
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// One don't require a timeout.
assert!(request.timeout.is_none());
// Simulate a response.
{
let server_response = assign!(http::Response::new("1".to_owned()), {
lists: BTreeMap::from([(
"bar".to_owned(),
assign!(http::response::List::default(), {
count: uint!(7),
})
)])
});
let _summary = {
let mut pos_guard = sliding_sync.inner.position.clone().lock_owned().await;
sliding_sync.handle_response(server_response.clone(), &mut pos_guard).await?
};
}
let (request, _, _) =
sliding_sync.generate_sync_request(&mut LazyTransactionId::new()).await?;
// All lists require a timeout.
assert!(request.timeout.is_some());
Ok(())
}
#[async_test]
async fn test_sync_beat_is_notified_on_sync_response() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(ResponseTemplate::new(200).set_body_json(json!({
"pos": "0",
"lists": {},
"rooms": {}
})))
.mount_as_scoped(&server)
.await;
let sliding_sync = client
.sliding_sync("test")?
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
let sliding_sync = Arc::new(sliding_sync);
// Create the listener and perform a sync request
let sync_beat_listener = client.inner.sync_beat.listen();
sliding_sync.sync_once().await?;
// The sync beat listener should be notified shortly after
assert!(sync_beat_listener.wait_timeout(Duration::from_secs(1)).is_some());
Ok(())
}
#[async_test]
async fn test_sync_beat_is_not_notified_on_sync_failure() -> Result<()> {
let server = MockServer::start().await;
let client = logged_in_client(Some(server.uri())).await;
let _mock_guard = Mock::given(SlidingSyncMatcher)
.respond_with(ResponseTemplate::new(404))
.mount_as_scoped(&server)
.await;
let sliding_sync = client
.sliding_sync("test")?
.with_to_device_extension(
assign!(http::request::ToDevice::default(), { enabled: Some(true)}),
)
.with_e2ee_extension(assign!(http::request::E2EE::default(), { enabled: Some(true)}))
.build()
.await?;
let sliding_sync = Arc::new(sliding_sync);
// Create the listener and perform a sync request
let sync_beat_listener = client.inner.sync_beat.listen();
let sync_result = sliding_sync.sync_once().await;
assert!(sync_result.is_err());
// The sync beat listener won't be notified in this case
assert!(sync_beat_listener.wait_timeout(Duration::from_secs(1)).is_none());
Ok(())
}
}