// Copyright 2020 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 the specific language governing permissions and // limitations under the License. use std::{ convert::TryFrom, sync::{Arc, RwLock as SyncRwLock}, }; use futures::{ future, stream::{self, Stream, StreamExt}, }; use matrix_sdk_common::{ api::r0::sync::sync_events::RoomSummary as RumaSummary, events::{ room::{ create::CreateEventContent, encryption::EncryptionEventContent, guest_access::GuestAccess, history_visibility::HistoryVisibility, join_rules::JoinRule, tombstone::TombstoneEventContent, }, AnySyncStateEvent, EventType, }, identifiers::{RoomAliasId, RoomId, UserId}, }; use serde::{Deserialize, Serialize}; use tracing::info; use crate::{responses::UnreadNotificationsCount, store::SledStore}; use super::{BaseRoomInfo, RoomMember}; #[derive(Debug, Clone)] pub struct Room { room_id: Arc, own_user_id: Arc, inner: Arc>, store: SledStore, } #[derive(Clone, Debug, Default, Serialize, Deserialize)] pub struct RoomSummary { heroes: Vec, joined_member_count: u64, invited_member_count: u64, } /// Signals to the `BaseClient` which `RoomState` to send to `EventEmitter`. #[derive(Clone, Copy, Debug, Serialize, Deserialize)] pub enum RoomType { /// Represents a joined room, the `joined_rooms` HashMap will be used. Joined, /// Represents a left room, the `left_rooms` HashMap will be used. Left, /// Represents an invited room, the `invited_rooms` HashMap will be used. Invited, } impl Room { pub(crate) fn new( own_user_id: &UserId, store: SledStore, room_id: &RoomId, room_type: RoomType, ) -> Self { let room_id = Arc::new(room_id.clone()); let room_info = RoomInfo { room_id, room_type, notification_counts: Default::default(), summary: Default::default(), members_synced: false, last_prev_batch: None, base_info: BaseRoomInfo::new(), }; Self::restore(own_user_id, store, room_info) } pub(crate) fn restore(own_user_id: &UserId, store: SledStore, room_info: RoomInfo) -> Self { Self { own_user_id: Arc::new(own_user_id.clone()), room_id: room_info.room_id.clone(), store, inner: Arc::new(SyncRwLock::new(room_info)), } } pub fn room_id(&self) -> &RoomId { &self.room_id } pub fn own_user_id(&self) -> &UserId { &self.own_user_id } pub fn room_type(&self) -> RoomType { self.inner.read().unwrap().room_type } pub fn unread_notification_counts(&self) -> UnreadNotificationsCount { self.inner.read().unwrap().notification_counts } pub fn are_members_synced(&self) -> bool { self.inner.read().unwrap().members_synced } pub fn last_prev_batch(&self) -> Option { self.inner.read().unwrap().last_prev_batch.clone() } pub fn avatar_url(&self) -> Option { self.inner.read().unwrap().base_info.avatar_url.clone() } pub fn canonical_alias(&self) -> Option { self.inner.read().unwrap().base_info.canonical_alias.clone() } pub fn create_content(&self) -> Option { self.inner.read().unwrap().base_info.create.clone() } pub fn is_direct(&self) -> bool { self.inner.read().unwrap().base_info.dm_target.is_some() } pub fn direct_target(&self) -> Option { self.inner.read().unwrap().base_info.dm_target.clone() } pub fn is_encrypted(&self) -> bool { self.inner.read().unwrap().is_encrypted() } pub fn encryption_settings(&self) -> Option { self.inner.read().unwrap().base_info.encryption.clone() } pub fn guest_access(&self) -> GuestAccess { self.inner.read().unwrap().base_info.guest_access.clone() } pub fn history_visibility(&self) -> HistoryVisibility { self.inner .read() .unwrap() .base_info .history_visibility .clone() } pub fn is_public(&self) -> bool { matches!(self.join_rule(), JoinRule::Public) } pub fn join_rule(&self) -> JoinRule { self.inner.read().unwrap().base_info.join_rule.clone() } pub fn max_power_level(&self) -> i64 { self.inner.read().unwrap().base_info.max_power_level } pub fn name(&self) -> Option { self.inner.read().unwrap().base_info.name.clone() } pub fn is_tombstoned(&self) -> bool { self.inner.read().unwrap().base_info.tombstone.is_some() } pub fn tombstone(&self) -> Option { self.inner.read().unwrap().base_info.tombstone.clone() } pub fn topic(&self) -> Option { self.inner.read().unwrap().base_info.topic.clone() } pub async fn display_name(&self) -> String { self.calculate_name().await } pub async fn joined_user_ids(&self) -> impl Stream { self.store.get_joined_user_ids(self.room_id()).await } pub async fn joined_members(&self) -> impl Stream + '_ { let joined = self.store.get_joined_user_ids(self.room_id()).await; joined.filter_map(move |u| async move { self.get_member(&u).await }) } pub async fn active_members(&self) -> impl Stream + '_ { let joined = self.store.get_joined_user_ids(self.room_id()).await; let invited = self.store.get_invited_user_ids(self.room_id()).await; joined .chain(invited) .filter_map(move |u| async move { self.get_member(&u).await }) } /// Calculate the canonical display name of the room, taking into account /// its name, aliases and members. /// /// The display name is calculated according to [this algorithm][spec]. /// /// [spec]: /// async fn calculate_name(&self) -> String { let name; let alias; { let inner = self.inner.read().unwrap(); name = inner.base_info.name.clone(); alias = inner.base_info.canonical_alias.clone(); } if let Some(name) = name { let name = name.trim(); name.to_string() } else if let Some(alias) = alias { let alias = alias.alias().trim(); alias.to_string() } else { // TODO what should we do here? We have correct counts only if lazy // loading is used. let summary = { self.inner.read().unwrap().summary.clone() }; let joined = summary.joined_member_count; let invited = summary.invited_member_count; let heroes_count = summary.heroes.len() as u64; let is_own_member = |m: &RoomMember| m.user_id() == &*self.own_user_id; let is_own_user_id = |u: &str| u == self.own_user_id().as_str(); let members: Vec = if summary.heroes.is_empty() { self.active_members() .await .filter(|m| future::ready(!is_own_member(m))) .take(5) .collect() .await } else { stream::iter(summary.heroes.iter()) .filter(|u| future::ready(!is_own_user_id(u))) .filter_map(|u| async move { let user_id = UserId::try_from(u.as_str()).ok()?; self.get_member(&user_id).await }) .collect() .await }; info!( "Calculating name for {}, own user {} hero count {} heroes {:#?}", self.room_id(), self.own_user_id, heroes_count, summary.heroes ); self.inner .read() .unwrap() .base_info .calculate_room_name(joined, invited, members) } } pub(crate) fn clone_info(&self) -> RoomInfo { (*self.inner.read().unwrap()).clone() } pub fn update_summary(&self, summary: RoomInfo) { let mut inner = self.inner.write().unwrap(); *inner = summary; } pub async fn get_member(&self, user_id: &UserId) -> Option { let presence = self.store.get_presence_event(user_id).await; let profile = self.store.get_profile(self.room_id(), user_id).await; let max_power_level = self.max_power_level(); let is_room_creator = self .inner .read() .unwrap() .base_info .create .as_ref() .map(|c| &c.creator == user_id) .unwrap_or(false); let power = self .store .get_state_event(self.room_id(), EventType::RoomPowerLevels, "") .await .map(|e| { if let AnySyncStateEvent::RoomPowerLevels(e) = e { Some(e) } else { None } }) .flatten(); self.store .get_member_event(&self.room_id, user_id) .await .map(|e| RoomMember { event: e.into(), profile: profile.into(), presence: presence.into(), power_levles: power.into(), max_power_level, is_room_creator, }) } } #[derive(Clone, Debug, Serialize, Deserialize)] pub struct RoomInfo { pub room_id: Arc, pub room_type: RoomType, pub notification_counts: UnreadNotificationsCount, pub summary: RoomSummary, pub members_synced: bool, pub last_prev_batch: Option, pub base_info: BaseRoomInfo, } impl RoomInfo { pub(crate) fn mark_as_joined(&mut self) { self.room_type = RoomType::Joined; } pub(crate) fn mark_as_left(&mut self) { self.room_type = RoomType::Left; } pub(crate) fn mark_as_invited(&mut self) { self.room_type = RoomType::Invited; } pub(crate) fn mark_members_synced(&mut self) { self.members_synced = true; } pub(crate) fn mark_members_missing(&mut self) { self.members_synced = false; } pub(crate) fn set_prev_batch(&mut self, prev_batch: Option<&str>) -> bool { if self.last_prev_batch.as_deref() != prev_batch { self.last_prev_batch = prev_batch.map(|p| p.to_string()); true } else { false } } pub(crate) fn is_encrypted(&self) -> bool { self.base_info.encryption.is_some() } pub(crate) fn handle_state_event(&mut self, event: &AnySyncStateEvent) -> bool { self.base_info.handle_state_event(&event.content()) } pub(crate) fn update_notification_count( &mut self, notification_counts: UnreadNotificationsCount, ) { self.notification_counts = notification_counts; } pub(crate) fn update_summary(&mut self, summary: &RumaSummary) -> bool { let mut changed = false; if !summary.is_empty() { if !summary.heroes.is_empty() { self.summary.heroes = summary.heroes.clone(); changed = true; } if let Some(joined) = summary.joined_member_count { self.summary.joined_member_count = joined.into(); changed = true; } if let Some(invited) = summary.invited_member_count { self.summary.invited_member_count = invited.into(); changed = true; } } changed } }