studio/tuwunel
2
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity
Files
a6127fcd1a300e8b73f3ae6d701b0065215658ff
tuwunel/src/service/sync/mod.rs
Jason Volk 6c724bbc2f Cleanup/optimize sliding sync types and arguments. 
Signed-off-by: Jason Volk <jason@zemos.net>
2025-10-08 03:33:08 +00:00

271 lines
8.3 KiB
Rust
Raw Blame History

mod watch;
use std::{
collections::{BTreeMap, BTreeSet},
sync::{Arc, Mutex, Mutex as StdMutex},
};
use ruma::{
OwnedDeviceId, OwnedRoomId, OwnedUserId,
api::client::sync::sync_events::v5::{
Request, request,
request::{AccountData, E2EE, Receipts, ToDevice, Typing},
},
};
use tuwunel_core::{Result, implement, smallstr::SmallString};
use tuwunel_database::Map;
pub struct Service {
services: Arc<crate::services::OnceServices>,
connections: Connections,
db: Data,
}
pub struct Data {
todeviceid_events: Arc<Map>,
userroomid_joined: Arc<Map>,
userroomid_invitestate: Arc<Map>,
userroomid_leftstate: Arc<Map>,
userroomid_knockedstate: Arc<Map>,
userroomid_notificationcount: Arc<Map>,
userroomid_highlightcount: Arc<Map>,
pduid_pdu: Arc<Map>,
keychangeid_userid: Arc<Map>,
roomuserdataid_accountdata: Arc<Map>,
roomusertype_roomuserdataid: Arc<Map>,
readreceiptid_readreceipt: Arc<Map>,
userid_lastonetimekeyupdate: Arc<Map>,
}
#[derive(Debug, Default)]
pub struct Cache {
lists: Lists,
known_rooms: KnownRooms,
subscriptions: Subscriptions,
extensions: request::Extensions,
}
type Connections = Mutex<BTreeMap<ConnectionKey, Arc<Mutex<Cache>>>>;
pub type ConnectionKey = (OwnedUserId, OwnedDeviceId, Option<ConnectionId>);
pub type ConnectionId = SmallString<[u8; 16]>;
pub type Subscriptions = BTreeMap<OwnedRoomId, request::RoomSubscription>;
pub type Lists = BTreeMap<ListId, request::List>;
pub type KnownRooms = BTreeMap<ListId, ListRooms>;
pub type ListRooms = BTreeMap<OwnedRoomId, u64>;
pub type ListId = SmallString<[u8; 16]>;
impl crate::Service for Service {
fn build(args: &crate::Args<'_>) -> Result<Arc<Self>> {
Ok(Arc::new(Self {
db: Data {
todeviceid_events: args.db["todeviceid_events"].clone(),
userroomid_joined: args.db["userroomid_joined"].clone(),
userroomid_invitestate: args.db["userroomid_invitestate"].clone(),
userroomid_leftstate: args.db["userroomid_leftstate"].clone(),
userroomid_knockedstate: args.db["userroomid_knockedstate"].clone(),
userroomid_notificationcount: args.db["userroomid_notificationcount"].clone(),
userroomid_highlightcount: args.db["userroomid_highlightcount"].clone(),
pduid_pdu: args.db["pduid_pdu"].clone(),
keychangeid_userid: args.db["keychangeid_userid"].clone(),
roomuserdataid_accountdata: args.db["roomuserdataid_accountdata"].clone(),
roomusertype_roomuserdataid: args.db["roomusertype_roomuserdataid"].clone(),
readreceiptid_readreceipt: args.db["readreceiptid_readreceipt"].clone(),
userid_lastonetimekeyupdate: args.db["userid_lastonetimekeyupdate"].clone(),
},
services: args.services.clone(),
connections: StdMutex::new(BTreeMap::new()),
}))
}
fn name(&self) -> &str { crate::service::make_name(std::module_path!()) }
}
#[implement(Service)]
pub fn update_cache(&self, key: &ConnectionKey, request: &mut Request) -> KnownRooms {
let cache = self.get_connection(key);
let mut cached = cache.lock().expect("locked");
Self::update_cache_lists(request, &mut cached);
Self::update_cache_subscriptions(request, &mut cached);
Self::update_cache_extensions(request, &mut cached);
cached.known_rooms.clone()
}
#[implement(Service)]
fn update_cache_lists(request: &mut Request, cached: &mut Cache) {
for (list_id, request_list) in &mut request.lists {
cached
.lists
.entry(list_id.as_str().into())
.and_modify(|cached_list| {
Self::update_cache_list(request_list, cached_list);
})
.or_insert_with(|| request_list.clone());
}
}
#[implement(Service)]
fn update_cache_list(request: &mut request::List, cached: &mut request::List) {
list_or_sticky(
&mut request.room_details.required_state,
&mut cached.room_details.required_state,
);
match (&mut request.filters, &mut cached.filters) {
| (None, None) => {},
| (None, Some(cached)) => request.filters = Some(cached.clone()),
| (Some(request), None) => cached.filters = Some(request.clone()),
| (Some(request), Some(cached)) => {
some_or_sticky(&mut request.is_dm, &mut cached.is_dm);
some_or_sticky(&mut request.is_encrypted, &mut cached.is_encrypted);
some_or_sticky(&mut request.is_invite, &mut cached.is_invite);
list_or_sticky(&mut request.room_types, &mut cached.room_types);
list_or_sticky(&mut request.not_room_types, &mut cached.not_room_types);
list_or_sticky(&mut request.tags, &mut cached.not_tags);
list_or_sticky(&mut request.spaces, &mut cached.spaces);
},
}
}
#[implement(Service)]
fn update_cache_subscriptions(request: &mut Request, cached: &mut Cache) {
cached
.subscriptions
.extend(request.room_subscriptions.clone());
request
.room_subscriptions
.extend(cached.subscriptions.clone());
}
#[implement(Service)]
fn update_cache_extensions(request: &mut Request, cached: &mut Cache) {
let request = &mut request.extensions;
let cached = &mut cached.extensions;
Self::update_cache_account_data(&mut request.account_data, &mut cached.account_data);
Self::update_cache_receipts(&mut request.receipts, &mut cached.receipts);
Self::update_cache_typing(&mut request.typing, &mut cached.typing);
Self::update_cache_to_device(&mut request.to_device, &mut cached.to_device);
Self::update_cache_e2ee(&mut request.e2ee, &mut cached.e2ee);
}
#[implement(Service)]
fn update_cache_account_data(request: &mut AccountData, cached: &mut AccountData) {
some_or_sticky(&mut request.enabled, &mut cached.enabled);
some_or_sticky(&mut request.lists, &mut cached.lists);
some_or_sticky(&mut request.rooms, &mut cached.rooms);
}
#[implement(Service)]
fn update_cache_receipts(request: &mut Receipts, cached: &mut Receipts) {
some_or_sticky(&mut request.enabled, &mut cached.enabled);
some_or_sticky(&mut request.rooms, &mut cached.rooms);
some_or_sticky(&mut request.lists, &mut cached.lists);
}
#[implement(Service)]
fn update_cache_typing(request: &mut Typing, cached: &mut Typing) {
some_or_sticky(&mut request.enabled, &mut cached.enabled);
some_or_sticky(&mut request.rooms, &mut cached.rooms);
some_or_sticky(&mut request.lists, &mut cached.lists);
}
#[implement(Service)]
fn update_cache_to_device(request: &mut ToDevice, cached: &mut ToDevice) {
some_or_sticky(&mut request.enabled, &mut cached.enabled);
}
#[implement(Service)]
fn update_cache_e2ee(request: &mut E2EE, cached: &mut E2EE) {
some_or_sticky(&mut request.enabled, &mut cached.enabled);
}
/// load params from cache if body doesn't contain it, as long as it's allowed
/// in some cases we may need to allow an empty list as an actual value
fn list_or_sticky<T: Clone>(target: &mut Vec<T>, cached: &mut Vec<T>) {
if !target.is_empty() {
cached.clone_from(target);
} else {
target.clone_from(cached);
}
}
fn some_or_sticky<T: Clone>(target: &mut Option<T>, cached: &mut Option<T>) {
if let Some(target) = target {
cached.replace(target.clone());
} else {
target.clone_from(cached);
}
}
#[implement(Service)]
pub fn update_known_rooms(
&self,
key: &ConnectionKey,
list_id: ListId,
new_rooms: BTreeSet<OwnedRoomId>,
globalsince: u64,
) {
assert!(key.2.is_some(), "Some(conn_id) required for this call");
let cache = self.get_connection(key);
let mut cached = cache.lock().expect("locked");
let list_rooms = cached.known_rooms.entry(list_id).or_default();
for (room_id, lastsince) in list_rooms.iter_mut() {
if !new_rooms.contains(room_id) {
*lastsince = 0;
}
}
for room_id in new_rooms {
list_rooms.insert(room_id, globalsince);
}
}
#[implement(Service)]
pub fn update_subscriptions(&self, key: &ConnectionKey, subscriptions: Subscriptions) {
self.get_connection(key)
.lock()
.expect("locked")
.subscriptions = subscriptions;
}
#[implement(Service)]
pub fn get_connection(&self, key: &ConnectionKey) -> Arc<Mutex<Cache>> {
self.connections
.lock()
.expect("locked")
.entry(key.clone())
.or_insert_with(|| Arc::new(Mutex::new(Cache::default())))
.clone()
}
#[implement(Service)]
pub fn forget_connection(&self, key: &ConnectionKey) {
self.connections
.lock()
.expect("locked")
.remove(key);
}
#[implement(Service)]
pub fn is_connection_cached(&self, key: &ConnectionKey) -> bool {
self.connections
.lock()
.expect("locked")
.contains_key(key)
}
#[inline]
pub fn into_connection_key<U, D, C>(user_id: U, device_id: D, conn_id: Option<C>) -> ConnectionKey
where
U: Into<OwnedUserId>,
D: Into<OwnedDeviceId>,
C: Into<ConnectionId>,
{
(user_id.into(), device_id.into(), conn_id.map(Into::into))
}
Reference in New Issue View Git Blame Copy Permalink