use crate::{utils, Error, Result}; use js_int::UInt; use ruma::{ events::{ presence::{PresenceEvent, PresenceEventContent}, AnyEvent as EduEvent, SyncEphemeralRoomEvent, }, presence::PresenceState, Raw, RoomId, UserId, }; use std::{ collections::HashMap, convert::{TryFrom, TryInto}, }; #[derive(Clone)] pub struct RoomEdus { pub(in super::super) readreceiptid_readreceipt: sled::Tree, // ReadReceiptId = RoomId + Count + UserId pub(in super::super) roomuserid_privateread: sled::Tree, // RoomUserId = Room + User, PrivateRead = Count pub(in super::super) roomuserid_lastprivatereadupdate: sled::Tree, // LastPrivateReadUpdate = Count pub(in super::super) typingid_userid: sled::Tree, // TypingId = RoomId + TimeoutTime + Count pub(in super::super) roomid_lasttypingupdate: sled::Tree, // LastRoomTypingUpdate = Count pub(in super::super) presenceid_presence: sled::Tree, // PresenceId = RoomId + Count + UserId pub(in super::super) userid_lastpresenceupdate: sled::Tree, // LastPresenceUpdate = Count } impl RoomEdus { /// Adds an event which will be saved until a new event replaces it (e.g. read receipt). pub fn readreceipt_update( &self, user_id: &UserId, room_id: &RoomId, event: EduEvent, globals: &super::super::globals::Globals, ) -> Result<()> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); // Remove old entry if let Some(old) = self .readreceiptid_readreceipt .scan_prefix(&prefix) .keys() .rev() .filter_map(|r| r.ok()) .take_while(|key| key.starts_with(&prefix)) .find(|key| { key.rsplit(|&b| b == 0xff) .next() .expect("rsplit always returns an element") == user_id.to_string().as_bytes() }) { // This is the old room_latest self.readreceiptid_readreceipt.remove(old)?; } let mut room_latest_id = prefix; room_latest_id.extend_from_slice(&globals.next_count()?.to_be_bytes()); room_latest_id.push(0xff); room_latest_id.extend_from_slice(&user_id.to_string().as_bytes()); self.readreceiptid_readreceipt.insert( room_latest_id, &*serde_json::to_string(&event).expect("EduEvent::to_string always works"), )?; Ok(()) } /// Returns an iterator over the most recent read_receipts in a room that happened after the event with id `since`. pub fn readreceipts_since( &self, room_id: &RoomId, since: u64, ) -> Result>>> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let mut first_possible_edu = prefix.clone(); first_possible_edu.extend_from_slice(&(since + 1).to_be_bytes()); // +1 so we don't send the event at since Ok(self .readreceiptid_readreceipt .range(&*first_possible_edu..) .filter_map(|r| r.ok()) .take_while(move |(k, _)| k.starts_with(&prefix)) .map(|(_, v)| { Ok(serde_json::from_slice(&v).map_err(|_| { Error::bad_database("Read receipt in roomlatestid_roomlatest is invalid.") })?) })) } /// Sets a private read marker at `count`. pub fn private_read_set( &self, room_id: &RoomId, user_id: &UserId, count: u64, globals: &super::super::globals::Globals, ) -> Result<()> { let mut key = room_id.to_string().as_bytes().to_vec(); key.push(0xff); key.extend_from_slice(&user_id.to_string().as_bytes()); self.roomuserid_privateread .insert(&key, &count.to_be_bytes())?; self.roomuserid_lastprivatereadupdate .insert(&key, &globals.next_count()?.to_be_bytes())?; Ok(()) } /// Returns the private read marker. pub fn private_read_get(&self, room_id: &RoomId, user_id: &UserId) -> Result> { let mut key = room_id.to_string().as_bytes().to_vec(); key.push(0xff); key.extend_from_slice(&user_id.to_string().as_bytes()); self.roomuserid_privateread.get(key)?.map_or(Ok(None), |v| { Ok(Some(utils::u64_from_bytes(&v).map_err(|_| { Error::bad_database("Invalid private read marker bytes") })?)) }) } /// Returns the count of the last typing update in this room. pub fn last_privateread_update(&self, user_id: &UserId, room_id: &RoomId) -> Result { let mut key = room_id.to_string().as_bytes().to_vec(); key.push(0xff); key.extend_from_slice(&user_id.to_string().as_bytes()); Ok(self .roomuserid_lastprivatereadupdate .get(&key)? .map_or(Ok::<_, Error>(None), |bytes| { Ok(Some(utils::u64_from_bytes(&bytes).map_err(|_| { Error::bad_database("Count in roomuserid_lastprivatereadupdate is invalid.") })?)) })? .unwrap_or(0)) } /// Sets a user as typing until the timeout timestamp is reached or roomtyping_remove is /// called. pub fn typing_add( &self, user_id: &UserId, room_id: &RoomId, timeout: u64, globals: &super::super::globals::Globals, ) -> Result<()> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let count = globals.next_count()?.to_be_bytes(); let mut room_typing_id = prefix; room_typing_id.extend_from_slice(&timeout.to_be_bytes()); room_typing_id.push(0xff); room_typing_id.extend_from_slice(&count); self.typingid_userid .insert(&room_typing_id, &*user_id.to_string().as_bytes())?; self.roomid_lasttypingupdate .insert(&room_id.to_string().as_bytes(), &count)?; Ok(()) } /// Removes a user from typing before the timeout is reached. pub fn typing_remove( &self, user_id: &UserId, room_id: &RoomId, globals: &super::super::globals::Globals, ) -> Result<()> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let user_id = user_id.to_string(); let mut found_outdated = false; // Maybe there are multiple ones from calling roomtyping_add multiple times for outdated_edu in self .typingid_userid .scan_prefix(&prefix) .filter_map(|r| r.ok()) .filter(|(_, v)| v == user_id.as_bytes()) { self.typingid_userid.remove(outdated_edu.0)?; found_outdated = true; } if found_outdated { self.roomid_lasttypingupdate.insert( &room_id.to_string().as_bytes(), &globals.next_count()?.to_be_bytes(), )?; } Ok(()) } /// Makes sure that typing events with old timestamps get removed. fn typings_maintain( &self, room_id: &RoomId, globals: &super::super::globals::Globals, ) -> Result<()> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let current_timestamp = utils::millis_since_unix_epoch(); let mut found_outdated = false; // Find all outdated edus before inserting a new one for outdated_edu in self .typingid_userid .scan_prefix(&prefix) .keys() .map(|key| { let key = key?; Ok::<_, Error>(( key.clone(), utils::u64_from_bytes(key.split(|&b| b == 0xff).nth(1).ok_or_else(|| { Error::bad_database("RoomTyping has invalid timestamp or delimiters.") })?) .map_err(|_| Error::bad_database("RoomTyping has invalid timestamp bytes."))?, )) }) .filter_map(|r| r.ok()) .take_while(|&(_, timestamp)| timestamp < current_timestamp) { // This is an outdated edu (time > timestamp) self.typingid_userid.remove(outdated_edu.0)?; found_outdated = true; } if found_outdated { self.roomid_lasttypingupdate.insert( &room_id.to_string().as_bytes(), &globals.next_count()?.to_be_bytes(), )?; } Ok(()) } /// Returns the count of the last typing update in this room. pub fn last_typing_update( &self, room_id: &RoomId, globals: &super::super::globals::Globals, ) -> Result { self.typings_maintain(room_id, globals)?; Ok(self .roomid_lasttypingupdate .get(&room_id.to_string().as_bytes())? .map_or(Ok::<_, Error>(None), |bytes| { Ok(Some(utils::u64_from_bytes(&bytes).map_err(|_| { Error::bad_database("Count in roomid_lastroomactiveupdate is invalid.") })?)) })? .unwrap_or(0)) } pub fn typings_all( &self, room_id: &RoomId, ) -> Result> { let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let mut user_ids = Vec::new(); for user_id in self .typingid_userid .scan_prefix(prefix) .values() .map(|user_id| { Ok::<_, Error>( UserId::try_from(utils::string_from_bytes(&user_id?).map_err(|_| { Error::bad_database("User ID in typingid_userid is invalid unicode.") })?) .map_err(|_| Error::bad_database("User ID in typingid_userid is invalid."))?, ) }) { user_ids.push(user_id?); } Ok(SyncEphemeralRoomEvent { content: ruma::events::typing::TypingEventContent { user_ids }, }) } /// Adds a presence event which will be saved until a new event replaces it. /// /// Note: This method takes a RoomId because presence updates are always bound to rooms to /// make sure users outside these rooms can't see them. pub fn update_presence( &self, user_id: &UserId, room_id: &RoomId, presence: ruma::events::presence::PresenceEvent, globals: &super::super::globals::Globals, ) -> Result<()> { // TODO: Remove old entry? Or maybe just wipe completely from time to time? let count = globals.next_count()?.to_be_bytes(); let mut presence_id = room_id.to_string().as_bytes().to_vec(); presence_id.push(0xff); presence_id.extend_from_slice(&count); presence_id.push(0xff); presence_id.extend_from_slice(&presence.sender.to_string().as_bytes()); self.presenceid_presence.insert( presence_id, &*serde_json::to_string(&presence).expect("PresenceEvent can be serialized"), )?; self.userid_lastpresenceupdate.insert( &user_id.to_string().as_bytes(), &utils::millis_since_unix_epoch().to_be_bytes(), )?; Ok(()) } /// Resets the presence timeout, so the user will stay in their current presence state. pub fn ping_presence(&self, user_id: &UserId) -> Result<()> { self.userid_lastpresenceupdate.insert( &user_id.to_string().as_bytes(), &utils::millis_since_unix_epoch().to_be_bytes(), )?; Ok(()) } /// Returns the timestamp of the last presence update of this user in millis since the unix epoch. pub fn last_presence_update(&self, user_id: &UserId) -> Result> { self.userid_lastpresenceupdate .get(&user_id.to_string().as_bytes())? .map(|bytes| { utils::u64_from_bytes(&bytes).map_err(|_| { Error::bad_database("Invalid timestamp in userid_lastpresenceupdate.") }) }) .transpose() } /// Sets all users to offline who have been quiet for too long. pub fn presence_maintain( &self, rooms: &super::Rooms, globals: &super::super::globals::Globals, ) -> Result<()> { let current_timestamp = utils::millis_since_unix_epoch(); for (user_id_bytes, last_timestamp) in self .userid_lastpresenceupdate .iter() .filter_map(|r| r.ok()) .filter_map(|(k, bytes)| { Some(( k, utils::u64_from_bytes(&bytes) .map_err(|_| { Error::bad_database("Invalid timestamp in userid_lastpresenceupdate.") }) .ok()?, )) }) .take_while(|(_, timestamp)| current_timestamp - timestamp > 5 * 60_000) // 5 Minutes { self.userid_lastpresenceupdate.remove(&user_id_bytes)?; // Send new presence events to set the user offline let count = globals.next_count()?.to_be_bytes(); let user_id = utils::string_from_bytes(&user_id_bytes) .map_err(|_| { Error::bad_database("Invalid UserId bytes in userid_lastpresenceupdate.") })? .try_into() .map_err(|_| Error::bad_database("Invalid UserId in userid_lastpresenceupdate."))?; for room_id in rooms.rooms_joined(&user_id).filter_map(|r| r.ok()) { let mut presence_id = room_id.to_string().as_bytes().to_vec(); presence_id.push(0xff); presence_id.extend_from_slice(&count); presence_id.push(0xff); presence_id.extend_from_slice(&user_id_bytes); self.presenceid_presence.insert( presence_id, &*serde_json::to_string(&PresenceEvent { content: PresenceEventContent { avatar_url: None, currently_active: None, displayname: None, last_active_ago: Some( last_timestamp.try_into().expect("time is valid"), ), presence: PresenceState::Offline, status_msg: None, }, sender: user_id.clone(), }) .expect("PresenceEvent can be serialized"), )?; } } Ok(()) } /// Returns an iterator over the most recent presence updates that happened after the event with id `since`. pub fn presence_since( &self, room_id: &RoomId, since: u64, rooms: &super::Rooms, globals: &super::super::globals::Globals, ) -> Result> { self.presence_maintain(rooms, globals)?; let mut prefix = room_id.to_string().as_bytes().to_vec(); prefix.push(0xff); let mut first_possible_edu = prefix.clone(); first_possible_edu.extend_from_slice(&(since + 1).to_be_bytes()); // +1 so we don't send the event at since let mut hashmap = HashMap::new(); for (key, value) in self .presenceid_presence .range(&*first_possible_edu..) .filter_map(|r| r.ok()) .take_while(|(key, _)| key.starts_with(&prefix)) { let user_id = UserId::try_from( utils::string_from_bytes( key.rsplit(|&b| b == 0xff) .next() .expect("rsplit always returns an element"), ) .map_err(|_| Error::bad_database("Invalid UserId bytes in presenceid_presence."))?, ) .map_err(|_| Error::bad_database("Invalid UserId in presenceid_presence."))?; let mut presence = serde_json::from_slice::(&value) .map_err(|_| Error::bad_database("Invalid presence event in db."))?; let current_timestamp: UInt = utils::millis_since_unix_epoch() .try_into() .expect("time is valid"); if presence.content.presence == PresenceState::Online { // Don't set last_active_ago when the user is online presence.content.last_active_ago = None; } else { // Convert from timestamp to duration presence.content.last_active_ago = presence .content .last_active_ago .map(|timestamp| current_timestamp - timestamp); } hashmap.insert(user_id, presence); } Ok(hashmap) } }