matrix-rust-sdk/matrix_sdk_base/src/client.rs

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// Copyright 2020 Damir Jelić
// 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::collections::HashMap;
#[cfg(feature = "encryption")]
use std::collections::{BTreeMap, HashSet};
use std::fmt;
use std::path::{Path, PathBuf};
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use std::sync::Arc;
use zeroize::Zeroizing;
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use std::result::Result as StdResult;
use crate::api::r0 as api;
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use crate::error::Result;
use crate::events::collections::all::{RoomEvent, StateEvent};
use crate::events::presence::PresenceEvent;
// `NonRoomEvent` is what it is aliased as
use crate::event_emitter::CustomOrRawEvent;
use crate::events::collections::only::Event as NonRoomEvent;
use crate::events::ignored_user_list::IgnoredUserListEvent;
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use crate::events::push_rules::{PushRulesEvent, Ruleset};
use crate::events::room::member::MemberEventContent;
use crate::events::stripped::AnyStrippedStateEvent;
use crate::events::EventJson;
use crate::identifiers::{RoomId, UserId};
use crate::models::Room;
use crate::session::Session;
use crate::state::{AllRooms, ClientState, StateStore};
use crate::EventEmitter;
#[cfg(feature = "encryption")]
use matrix_sdk_common::locks::Mutex;
use matrix_sdk_common::locks::RwLock;
use std::ops::Deref;
#[cfg(feature = "encryption")]
use crate::api::r0::keys::{
claim_keys::Response as KeysClaimResponse, get_keys::Response as KeysQueryResponse,
upload_keys::Response as KeysUploadResponse, DeviceKeys, KeyAlgorithm,
};
#[cfg(feature = "encryption")]
use crate::api::r0::to_device::send_event_to_device;
#[cfg(feature = "encryption")]
use crate::events::room::{encrypted::EncryptedEventContent, message::MessageEventContent};
#[cfg(feature = "encryption")]
use crate::identifiers::DeviceId;
#[cfg(not(target_arch = "wasm32"))]
use crate::JsonStore;
#[cfg(feature = "encryption")]
use matrix_sdk_crypto::{CryptoStore, OlmError, OlmMachine, OneTimeKeys};
pub type Token = String;
/// A deserialization wrapper for extracting the prev_content field when
/// found in an `unsigned` field.
///
/// Represents the outer `unsigned` field
#[derive(serde::Deserialize)]
pub struct AdditionalEventData {
unsigned: AdditionalUnsignedData,
}
/// A deserialization wrapper for extracting the prev_content field when
/// found in an `unsigned` field.
///
/// Represents the inner `prev_content` field
#[derive(serde::Deserialize)]
pub struct AdditionalUnsignedData {
pub prev_content: Option<EventJson<MemberEventContent>>,
}
/// If a `prev_content` field is found inside of `unsigned` we move it up to the events `prev_content` field.
fn deserialize_prev_content(event: &EventJson<RoomEvent>) -> Option<EventJson<RoomEvent>> {
let prev_content = serde_json::from_str::<AdditionalEventData>(event.json().get())
.map(|more_unsigned| more_unsigned.unsigned)
.map(|additional| additional.prev_content)
.ok()
.flatten()?;
let mut ev = event.deserialize().ok()?;
match &mut ev {
RoomEvent::RoomMember(ref mut member) if member.prev_content.is_none() => {
member.prev_content = prev_content.deserialize().ok();
Some(EventJson::from(ev))
}
_ => None,
}
}
fn stripped_deserialize_prev_content(
event: &EventJson<AnyStrippedStateEvent>,
) -> Option<AdditionalUnsignedData> {
serde_json::from_str::<AdditionalEventData>(event.json().get())
.map(|more_unsigned| more_unsigned.unsigned)
.ok()
}
/// Signals to the `BaseClient` which `RoomState` to send to `EventEmitter`.
#[derive(Debug)]
pub enum RoomStateType {
/// 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,
}
/// An enum that represents the state of the given `Room`.
///
/// If the event came from the `join`, `invite` or `leave` rooms map from the server
/// the variant that holds the corresponding room is used. `RoomState` is generic
/// so it can be used to represent a `Room` or an `Arc<RwLock<Room>>`
#[derive(Debug)]
pub enum RoomState<R> {
/// A room from the `join` section of a sync response.
Joined(R),
/// A room from the `leave` section of a sync response.
Left(R),
/// A room from the `invite` section of a sync response.
Invited(R),
}
/// A no IO Client implementation.
///
/// This Client is a state machine that receives responses and events and
/// accordingly updates it's state.
#[derive(Clone)]
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pub struct BaseClient {
/// The current client session containing our user id, device id and access
/// token.
session: Arc<RwLock<Option<Session>>>,
/// The current sync token that should be used for the next sync call.
pub(crate) sync_token: Arc<RwLock<Option<Token>>>,
/// A map of the rooms our user is joined in.
joined_rooms: Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>>,
/// A map of the rooms our user is invited to.
invited_rooms: Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>>,
/// A map of the rooms our user has left.
left_rooms: Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>>,
/// A list of ignored users.
pub(crate) ignored_users: Arc<RwLock<Vec<UserId>>>,
/// The push ruleset for the logged in user.
pub(crate) push_ruleset: Arc<RwLock<Option<Ruleset>>>,
/// Any implementor of EventEmitter will act as the callbacks for various
/// events.
event_emitter: Arc<RwLock<Option<Box<dyn EventEmitter>>>>,
/// Any implementor of `StateStore` will be called to save `Room` and
/// some `BaseClient` state after receiving a sync response.
///
/// There is a default implementation `JsonStore` that saves JSON to disk.
state_store: Arc<RwLock<Option<Box<dyn StateStore>>>>,
#[cfg(feature = "encryption")]
olm: Arc<Mutex<Option<OlmMachine>>>,
#[cfg(feature = "encryption")]
cryptostore: Arc<Mutex<Option<Box<dyn CryptoStore>>>>,
store_path: Arc<Option<PathBuf>>,
store_passphrase: Arc<Zeroizing<String>>,
}
#[cfg_attr(tarpaulin, skip)]
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impl fmt::Debug for BaseClient {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("Client")
.field("session", &self.session)
.field("sync_token", &self.sync_token)
.field("joined_rooms", &self.joined_rooms)
.field("ignored_users", &self.ignored_users)
.field("push_ruleset", &self.push_ruleset)
.field("event_emitter", &"EventEmitter<...>")
.finish()
}
}
/// Configuration for the creation of the `BaseClient`.
///
/// # Example
///
/// ```
/// # use matrix_sdk_base::BaseClientConfig;
///
/// let client_config = BaseClientConfig::new()
/// .store_path("/home/example/matrix-sdk-client")
/// .passphrase("test-passphrase".to_owned());
/// ```
#[derive(Default)]
pub struct BaseClientConfig {
state_store: Option<Box<dyn StateStore>>,
#[cfg(feature = "encryption")]
crypto_store: Option<Box<dyn CryptoStore>>,
store_path: Option<PathBuf>,
passphrase: Option<Zeroizing<String>>,
}
#[cfg_attr(tarpaulin, skip)]
impl std::fmt::Debug for BaseClientConfig {
fn fmt(&self, fmt: &mut std::fmt::Formatter<'_>) -> StdResult<(), std::fmt::Error> {
fmt.debug_struct("BaseClientConfig").finish()
}
}
impl BaseClientConfig {
/// Create a new default `BaseClientConfig`.
pub fn new() -> Self {
Default::default()
}
/// Set a custom implementation of a `StateStore`.
///
/// The state store should be opened before being set.
pub fn state_store(mut self, store: Box<dyn StateStore>) -> Self {
self.state_store = Some(store);
self
}
/// Set a custom implementation of a `CryptoStore`.
///
/// The crypto store should be opened before being set.
#[cfg(feature = "encryption")]
pub fn crypto_store(mut self, store: Box<dyn CryptoStore>) -> Self {
self.crypto_store = Some(store);
self
}
/// Set the path for storage.
///
/// # Arguments
///
/// * `path` - The path where the stores should save data in. It is the
/// callers responsibility to make sure that the path exists.
///
/// In the default configuration the client will open default
/// implementations for the crypto store and the state store. It will use
/// the given path to open the stores. If no path is provided no store will
/// be opened
pub fn store_path<P: AsRef<Path>>(mut self, path: P) -> Self {
self.store_path = Some(path.as_ref().into());
self
}
/// Set the passphrase to encrypt the crypto store.
///
/// # Argument
///
/// * `passphrase` - The passphrase that will be used to encrypt the data in
/// the cryptostore.
///
/// This is only used if no custom cryptostore is set.
pub fn passphrase(mut self, passphrase: String) -> Self {
self.passphrase = Some(Zeroizing::new(passphrase));
self
}
}
impl BaseClient {
/// Create a new default client.
pub fn new() -> Result<Self> {
BaseClient::new_with_config(BaseClientConfig::default())
}
/// Create a new client.
///
/// # Arguments
///
/// * `config` - An optional session if the user already has one from a
/// previous login call.
pub fn new_with_config(config: BaseClientConfig) -> Result<Self> {
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Ok(BaseClient {
session: Arc::new(RwLock::new(None)),
sync_token: Arc::new(RwLock::new(None)),
joined_rooms: Arc::new(RwLock::new(HashMap::new())),
invited_rooms: Arc::new(RwLock::new(HashMap::new())),
left_rooms: Arc::new(RwLock::new(HashMap::new())),
ignored_users: Arc::new(RwLock::new(Vec::new())),
push_ruleset: Arc::new(RwLock::new(None)),
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event_emitter: Arc::new(RwLock::new(None)),
state_store: Arc::new(RwLock::new(config.state_store)),
#[cfg(feature = "encryption")]
olm: Arc::new(Mutex::new(None)),
#[cfg(feature = "encryption")]
cryptostore: Arc::new(Mutex::new(config.crypto_store)),
store_path: Arc::new(config.store_path),
store_passphrase: Arc::new(
config
.passphrase
.unwrap_or_else(|| Zeroizing::new("DEFAULT_PASSPHRASE".to_owned())),
),
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})
}
/// The current client session containing our user id, device id and access
/// token.
pub fn session(&self) -> &Arc<RwLock<Option<Session>>> {
&self.session
}
/// Is the client logged in.
pub async fn logged_in(&self) -> bool {
// TODO turn this into a atomic bool so this method doesn't need to be
// async.
self.session.read().await.is_some()
}
/// Add `EventEmitter` to `Client`.
///
/// The methods of `EventEmitter` are called when the respective `RoomEvents` occur.
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pub async fn add_event_emitter(&self, emitter: Box<dyn EventEmitter>) {
*self.event_emitter.write().await = Some(emitter);
}
/// When a client is provided the state store will load state from the `StateStore`.
///
/// Returns `true` when a state store sync has successfully completed.
async fn sync_with_state_store(&self, session: &Session) -> Result<bool> {
let store = self.state_store.read().await;
let loaded = if let Some(store) = store.as_ref() {
if let Some(client_state) = store.load_client_state(session).await? {
let ClientState {
sync_token,
ignored_users,
push_ruleset,
} = client_state;
*self.sync_token.write().await = sync_token;
*self.ignored_users.write().await = ignored_users;
*self.push_ruleset.write().await = push_ruleset;
} else {
// return false and continues with a sync request then save the state and create
// and populate the files during the sync
return Ok(false);
}
let AllRooms {
mut joined,
mut invited,
mut left,
} = store.load_all_rooms().await?;
*self.joined_rooms.write().await = joined
.drain()
.map(|(k, room)| (k, Arc::new(RwLock::new(room))))
.collect();
*self.invited_rooms.write().await = invited
.drain()
.map(|(k, room)| (k, Arc::new(RwLock::new(room))))
.collect();
*self.left_rooms.write().await = left
.drain()
.map(|(k, room)| (k, Arc::new(RwLock::new(room))))
.collect();
true
} else {
false
};
Ok(loaded)
}
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/// When a client is provided the state store will load state from the `StateStore`.
///
/// Returns `true` when a state store sync has successfully completed.
pub async fn store_room_state(&self, room_id: &RoomId) -> Result<()> {
if let Some(store) = self.state_store.read().await.as_ref() {
if let Some(room) = self.get_joined_room(room_id).await {
let room = room.read().await;
store
.store_room_state(RoomState::Joined(room.deref()))
.await?;
}
if let Some(room) = self.get_invited_room(room_id).await {
let room = room.read().await;
store
.store_room_state(RoomState::Invited(room.deref()))
.await?;
}
if let Some(room) = self.get_left_room(room_id).await {
let room = room.read().await;
store
.store_room_state(RoomState::Left(room.deref()))
.await?;
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}
}
Ok(())
}
/// Receive a login response and update the session of the client.
///
/// # Arguments
///
/// * `response` - A successful login response that contains our access token
/// and device id.
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pub async fn receive_login_response(
&self,
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response: &api::session::login::Response,
) -> Result<()> {
let session = Session {
access_token: response.access_token.clone(),
device_id: response.device_id.clone(),
user_id: response.user_id.clone(),
};
self.restore_login(session).await
}
/// Restore a previously logged in session.
///
/// # Arguments
///
/// * `session` - An session that the user already has from a
/// previous login call.
pub async fn restore_login(&self, session: Session) -> Result<()> {
#[cfg(feature = "encryption")]
{
let mut olm = self.olm.lock().await;
let store = self.cryptostore.lock().await.take();
if let Some(store) = store {
*olm = Some(
OlmMachine::new_with_store(
session.user_id.to_owned(),
session.device_id.to_owned(),
store,
)
.await
.map_err(OlmError::from)?,
);
} else if let Some(path) = self.store_path.as_ref() {
#[cfg(feature = "sqlite-cryptostore")]
{
*olm = Some(
OlmMachine::new_with_default_store(
&session.user_id,
&session.device_id,
path,
&self.store_passphrase,
)
.await
.map_err(OlmError::from)?,
);
}
#[cfg(not(feature = "sqlite-cryptostore"))]
{
*olm = Some(OlmMachine::new(&session.user_id, &session.device_id));
}
} else {
*olm = Some(OlmMachine::new(&session.user_id, &session.device_id));
}
}
// If there wasn't a state store opened, try to open the default one if
// a store path was provided.
if self.state_store.read().await.is_none() {
#[cfg(not(target_arch = "wasm32"))]
{
if let Some(path) = &*self.store_path {
let store = JsonStore::open(path)?;
*self.state_store.write().await = Some(Box::new(store));
}
}
}
self.sync_with_state_store(&session).await?;
*self.session.write().await = Some(session);
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Ok(())
}
pub(crate) async fn get_or_create_joined_room(
&self,
room_id: &RoomId,
) -> Result<Arc<RwLock<Room>>> {
// If this used to be an invited or left room remove them from our other
// hashmaps.
if self.invited_rooms.write().await.remove(room_id).is_some() {
if let Some(store) = self.state_store.read().await.as_ref() {
store.delete_room_state(RoomState::Invited(room_id)).await?;
}
}
if self.left_rooms.write().await.remove(room_id).is_some() {
if let Some(store) = self.state_store.read().await.as_ref() {
store.delete_room_state(RoomState::Left(room_id)).await?;
}
}
let mut rooms = self.joined_rooms.write().await;
#[allow(clippy::or_fun_call)]
Ok(rooms
.entry(room_id.clone())
.or_insert(Arc::new(RwLock::new(Room::new(
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room_id,
&self
.session
.read()
.await
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.as_ref()
.expect("Receiving events while not being logged in")
.user_id,
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))))
.clone())
}
/// Get a joined room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub async fn get_joined_room(&self, room_id: &RoomId) -> Option<Arc<RwLock<Room>>> {
self.joined_rooms.read().await.get(room_id).cloned()
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}
/// Returns the joined rooms this client knows about.
///
/// A `HashMap` of room id to `matrix::models::Room`
pub fn joined_rooms(&self) -> Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>> {
self.joined_rooms.clone()
}
pub(crate) async fn get_or_create_invited_room(
&self,
room_id: &RoomId,
) -> Result<Arc<RwLock<Room>>> {
// Remove the left rooms only here, since a join -> invite action per
// spec can't happen.
if self.left_rooms.write().await.remove(room_id).is_some() {
if let Some(store) = self.state_store.read().await.as_ref() {
store.delete_room_state(RoomState::Left(room_id)).await?;
}
}
let mut rooms = self.invited_rooms.write().await;
#[allow(clippy::or_fun_call)]
Ok(rooms
.entry(room_id.clone())
.or_insert(Arc::new(RwLock::new(Room::new(
room_id,
&self
.session
.read()
.await
.as_ref()
.expect("Receiving events while not being logged in")
.user_id,
))))
.clone())
}
/// Get an invited room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub async fn get_invited_room(&self, room_id: &RoomId) -> Option<Arc<RwLock<Room>>> {
self.invited_rooms.read().await.get(room_id).cloned()
}
/// Returns the invited rooms this client knows about.
///
/// A `HashMap` of room id to `matrix::models::Room`
pub fn invited_rooms(&self) -> Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>> {
self.invited_rooms.clone()
}
pub(crate) async fn get_or_create_left_room(
&self,
room_id: &RoomId,
) -> Result<Arc<RwLock<Room>>> {
// If this used to be an invited or joined room remove them from our other
// hashmaps.
if self.invited_rooms.write().await.remove(room_id).is_some() {
if let Some(store) = self.state_store.read().await.as_ref() {
store.delete_room_state(RoomState::Invited(room_id)).await?;
}
}
if self.joined_rooms.write().await.remove(room_id).is_some() {
if let Some(store) = self.state_store.read().await.as_ref() {
store.delete_room_state(RoomState::Joined(room_id)).await?;
}
}
let mut rooms = self.left_rooms.write().await;
#[allow(clippy::or_fun_call)]
Ok(rooms
.entry(room_id.clone())
.or_insert(Arc::new(RwLock::new(Room::new(
room_id,
&self
.session
.read()
.await
.as_ref()
.expect("Receiving events while not being logged in")
.user_id,
))))
.clone())
}
/// Get an left room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub async fn get_left_room(&self, room_id: &RoomId) -> Option<Arc<RwLock<Room>>> {
self.left_rooms.read().await.get(room_id).cloned()
}
/// Returns the left rooms this client knows about.
///
/// A `HashMap` of room id to `matrix::models::Room`
pub fn left_rooms(&self) -> Arc<RwLock<HashMap<RoomId, Arc<RwLock<Room>>>>> {
self.left_rooms.clone()
}
/// Handle a m.ignored_user_list event, updating the room state if necessary.
///
/// Returns true if the room name changed, false otherwise.
pub(crate) async fn handle_ignored_users(&self, event: &IgnoredUserListEvent) -> bool {
// this avoids cloning every UserId for the eq check
if self.ignored_users.read().await.iter().collect::<Vec<_>>()
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== event.content.ignored_users.iter().collect::<Vec<_>>()
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{
false
} else {
*self.ignored_users.write().await = event.content.ignored_users.to_vec();
true
}
}
/// Handle a m.ignored_user_list event, updating the room state if necessary.
///
/// Returns true if the room name changed, false otherwise.
pub(crate) async fn handle_push_rules(&self, event: &PushRulesEvent) -> bool {
// TODO this is basically a stub
// TODO ruma removed PartialEq for evens, so this doesn't work anymore.
// Returning always true for now should be ok here since those don't
// change often.
// if self.push_ruleset.as_ref() == Some(&event.content.global) {
// false
// } else {
*self.push_ruleset.write().await = Some(event.content.global.clone());
true
// }
}
/// Receive a timeline event for a joined room and update the client state.
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///
/// Returns a tuple of the successfully decrypted event, or None on failure and
/// a bool, true when the `Room` state has been updated.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The event that should be handled by the client.
pub async fn receive_joined_timeline_event(
&self,
room_id: &RoomId,
event: &mut EventJson<RoomEvent>,
) -> Result<(Option<EventJson<RoomEvent>>, bool)> {
// if the event is a m.room.member event the server will sometimes
// send the `prev_content` field as part of the unsigned field this extracts and
// places it where everything else expects it.
if let Some(e) = deserialize_prev_content(event) {
*event = e;
}
match event.deserialize() {
#[allow(unused_mut)]
Ok(mut e) => {
#[cfg(feature = "encryption")]
let mut decrypted_event = None;
#[cfg(not(feature = "encryption"))]
let decrypted_event = None;
#[cfg(feature = "encryption")]
{
if let RoomEvent::RoomEncrypted(ref mut e) = e {
e.room_id = Some(room_id.to_owned());
let mut olm = self.olm.lock().await;
if let Some(o) = &mut *olm {
decrypted_event = o.decrypt_room_event(&e).await.ok();
}
}
}
let room_lock = self.get_or_create_joined_room(&room_id).await?;
let mut room = room_lock.write().await;
if let RoomEvent::RoomMember(mem_event) = &mut e {
let changed = room.handle_membership(mem_event);
// The memberlist of the room changed, invalidate the group session
// of the room.
if changed {
#[cfg(feature = "encryption")]
self.invalidate_group_session(room_id).await;
}
Ok((decrypted_event, changed))
} else {
Ok((decrypted_event, room.receive_timeline_event(&e)))
}
}
_ => Ok((None, false)),
}
}
/// Receive a state event for a joined room and update the client state.
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///
/// Returns true if the state of the room changed, false
/// otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The event that should be handled by the client.
pub async fn receive_joined_state_event(
&self,
room_id: &RoomId,
event: &StateEvent,
) -> Result<bool> {
let room_lock = self.get_or_create_joined_room(room_id).await?;
let mut room = room_lock.write().await;
if let StateEvent::RoomMember(e) = event {
let changed = room.handle_membership(e);
// The memberlist of the room changed, invalidate the group session
// of the room.
if changed {
#[cfg(feature = "encryption")]
self.invalidate_group_session(room_id).await;
}
Ok(changed)
} else {
Ok(room.receive_state_event(event))
}
}
/// Receive a state event for a room the user has been invited to.
///
/// Returns true if the state of the room changed, false
/// otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - A `AnyStrippedStateEvent` that should be handled by the client.
pub async fn receive_invite_state_event(
&self,
room_id: &RoomId,
event: &AnyStrippedStateEvent,
) -> Result<bool> {
let room_lock = self.get_or_create_invited_room(room_id).await?;
let mut room = room_lock.write().await;
Ok(room.receive_stripped_state_event(event))
}
/// Receive a timeline event for a room the user has left and update the client state.
///
/// Returns a tuple of the successfully decrypted event, or None on failure and
/// a bool, true when the `Room` state has been updated.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The event that should be handled by the client.
pub async fn receive_left_timeline_event(
&self,
room_id: &RoomId,
event: &EventJson<RoomEvent>,
) -> Result<bool> {
match event.deserialize() {
Ok(e) => {
let room_lock = self.get_or_create_left_room(room_id).await?;
let mut room = room_lock.write().await;
Ok(room.receive_timeline_event(&e))
}
_ => Ok(false),
}
}
/// Receive a state event for a room the user has left and update the client state.
///
/// Returns true if the state of the room changed, false
/// otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The event that should be handled by the client.
pub async fn receive_left_state_event(
&self,
room_id: &RoomId,
event: &StateEvent,
) -> Result<bool> {
let room_lock = self.get_or_create_left_room(room_id).await?;
let mut room = room_lock.write().await;
Ok(room.receive_state_event(event))
}
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/// Receive a presence event from a sync response and updates the client state.
///
/// Returns true if the state of the room changed, false
/// otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The event that should be handled by the client.
pub async fn receive_presence_event(&self, room_id: &RoomId, event: &PresenceEvent) -> bool {
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// this should be the room that was just created in the `Client::sync` loop.
if let Some(room) = self.get_joined_room(room_id).await {
let mut room = room.write().await;
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room.receive_presence_event(event)
} else {
false
}
}
/// Receive an account data event from a sync response and updates the client state.
///
/// Returns true if the state of the `Room` has changed, false otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The presence event for a specified room member.
pub async fn receive_account_data_event(&self, room_id: &RoomId, event: &NonRoomEvent) -> bool {
match event {
NonRoomEvent::IgnoredUserList(iu) => self.handle_ignored_users(iu).await,
NonRoomEvent::Presence(p) => self.receive_presence_event(room_id, p).await,
NonRoomEvent::PushRules(pr) => self.handle_push_rules(pr).await,
_ => false,
}
}
/// Receive an ephemeral event from a sync response and updates the client state.
///
/// Returns true if the state of the `Room` has changed, false otherwise.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room the event belongs to.
///
/// * `event` - The presence event for a specified room member.
pub async fn receive_ephemeral_event(&self, room_id: &RoomId, event: &NonRoomEvent) -> bool {
match event {
NonRoomEvent::IgnoredUserList(iu) => self.handle_ignored_users(iu).await,
NonRoomEvent::Presence(p) => self.receive_presence_event(room_id, p).await,
NonRoomEvent::PushRules(pr) => self.handle_push_rules(pr).await,
_ => false,
}
}
/// Get the current, if any, sync token of the client.
/// This will be None if the client didn't sync at least once.
pub async fn sync_token(&self) -> Option<String> {
self.sync_token.read().await.clone()
}
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/// Receive a response from a sync call.
///
/// # Arguments
///
/// * `response` - The response that we received after a successful sync.
pub async fn receive_sync_response(
&self,
response: &mut api::sync::sync_events::Response,
) -> Result<()> {
// The server might respond multiple times with the same sync token, in
// that case we already received this response and there's nothing to
// do.
if self.sync_token.read().await.as_ref() == Some(&response.next_batch) {
return Ok(());
}
*self.sync_token.write().await = Some(response.next_batch.clone());
#[cfg(feature = "encryption")]
{
let mut olm = self.olm.lock().await;
if let Some(o) = &mut *olm {
// Let the crypto machine handle the sync response, this
// decryptes to-device events, but leaves room events alone.
// This makes sure that we have the deryption keys for the room
// events at hand.
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o.receive_sync_response(response).await;
}
}
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// when events change state, updated_* signals to StateStore to update database
self.iter_joined_rooms(response).await?;
self.iter_invited_rooms(&response).await?;
self.iter_left_rooms(response).await?;
let store = self.state_store.read().await;
// Store now the new sync token an other client specific state. Since we
// know the sync token changed we can assume that this needs to be done
// always.
if let Some(store) = store.as_ref() {
let state = ClientState::from_base_client(&self).await;
store.store_client_state(state).await?;
}
Ok(())
}
async fn iter_joined_rooms(
&self,
response: &mut api::sync::sync_events::Response,
) -> Result<bool> {
let mut updated = false;
for (room_id, joined_room) in &mut response.rooms.join {
let matrix_room = {
for event in &joined_room.state.events {
if let Ok(e) = event.deserialize() {
if self.receive_joined_state_event(&room_id, &e).await? {
updated = true;
}
self.emit_state_event(&room_id, &e, RoomStateType::Joined)
.await;
}
}
self.get_or_create_joined_room(&room_id).await?.clone()
};
#[cfg(feature = "encryption")]
{
let mut olm = self.olm.lock().await;
if let Some(o) = &mut *olm {
let room = matrix_room.read().await;
// If the room is encrypted, update the tracked users.
if room.is_encrypted() {
o.update_tracked_users(room.members.keys()).await;
}
}
}
// RoomSummary contains information for calculating room name
matrix_room
.write()
.await
.set_room_summary(&joined_room.summary);
// set unread notification count
matrix_room
.write()
.await
.set_unread_notice_count(&joined_room.unread_notifications);
for mut event in &mut joined_room.timeline.events {
let decrypted_event = {
let (decrypt_ev, timeline_update) = self
.receive_joined_timeline_event(room_id, &mut event)
.await?;
if timeline_update {
updated = true;
};
decrypt_ev
};
if let Some(e) = decrypted_event {
*event = e;
}
if let Some(e) = deserialize_prev_content(&event) {
*event = e;
}
if let Ok(e) = event.deserialize() {
self.emit_timeline_event(&room_id, &e, RoomStateType::Joined)
.await;
} else {
self.emit_unrecognized_event(&room_id, &event, RoomStateType::Joined)
.await;
}
}
// look at AccountData to further cut down users by collecting ignored users
if let Some(account_data) = &joined_room.account_data {
for account_data in &account_data.events {
{
if let Ok(e) = account_data.deserialize() {
if self.receive_account_data_event(&room_id, &e).await {
updated = true;
}
self.emit_account_data_event(room_id, &e, RoomStateType::Joined)
.await;
}
}
}
}
// After the room has been created and state/timeline events accounted for we use the room_id of the newly created
// room to add any presence events that relate to a user in the current room. This is not super
// efficient but we need a room_id so we would loop through now or later.
for presence in &mut response.presence.events {
{
if let Ok(e) = presence.deserialize() {
if self.receive_presence_event(&room_id, &e).await {
updated = true;
}
self.emit_presence_event(&room_id, &e, RoomStateType::Joined)
.await;
}
}
}
for ephemeral in &mut joined_room.ephemeral.events {
{
if let Ok(e) = ephemeral.deserialize() {
if self.receive_ephemeral_event(&room_id, &e).await {
updated = true;
}
self.emit_ephemeral_event(&room_id, &e, RoomStateType::Joined)
.await;
}
}
}
if updated {
if let Some(store) = self.state_store.read().await.as_ref() {
store
.store_room_state(RoomState::Joined(matrix_room.read().await.deref()))
.await?;
}
}
}
Ok(updated)
}
async fn iter_left_rooms(
&self,
response: &mut api::sync::sync_events::Response,
) -> Result<bool> {
let mut updated = false;
for (room_id, left_room) in &mut response.rooms.leave {
let matrix_room = {
for event in &left_room.state.events {
if let Ok(e) = event.deserialize() {
if self.receive_left_state_event(&room_id, &e).await? {
updated = true;
}
}
}
self.get_or_create_left_room(&room_id).await?.clone()
};
for event in &mut left_room.state.events {
if let Ok(e) = event.deserialize() {
self.emit_state_event(&room_id, &e, RoomStateType::Left)
.await;
}
}
for event in &mut left_room.timeline.events {
if let Some(e) = deserialize_prev_content(&event) {
*event = e;
}
if self.receive_left_timeline_event(room_id, &event).await? {
updated = true;
};
if let Ok(e) = event.deserialize() {
self.emit_timeline_event(&room_id, &e, RoomStateType::Left)
.await;
}
}
if updated {
if let Some(store) = self.state_store.read().await.as_ref() {
store
.store_room_state(RoomState::Left(matrix_room.read().await.deref()))
.await?;
}
}
}
Ok(updated)
}
async fn iter_invited_rooms(
&self,
response: &api::sync::sync_events::Response,
) -> Result<bool> {
let mut updated = false;
for (room_id, invited_room) in &response.rooms.invite {
let matrix_room = {
for event in &invited_room.invite_state.events {
if let Ok(e) = event.deserialize() {
if self.receive_invite_state_event(&room_id, &e).await? {
updated = true;
}
}
}
self.get_or_create_invited_room(&room_id).await?.clone()
};
for event in &invited_room.invite_state.events {
if let Ok(mut e) = event.deserialize() {
// if the event is a m.room.member event the server will sometimes
// send the `prev_content` field as part of the unsigned field.
if let AnyStrippedStateEvent::RoomMember(_) = &mut e {
if let Some(raw_content) = stripped_deserialize_prev_content(event) {
let prev_content = match raw_content.prev_content {
Some(json) => json.deserialize().ok(),
None => None,
};
self.emit_stripped_state_event(
&room_id,
&e,
prev_content,
RoomStateType::Invited,
)
.await;
continue;
}
}
self.emit_stripped_state_event(&room_id, &e, None, RoomStateType::Invited)
.await;
}
}
if updated {
if let Some(store) = self.state_store.read().await.as_ref() {
store
.store_room_state(RoomState::Invited(matrix_room.read().await.deref()))
.await?;
}
}
}
Ok(updated)
}
/// Should account or one-time keys be uploaded to the server.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn should_upload_keys(&self) -> bool {
let olm = self.olm.lock().await;
match &*olm {
Some(o) => o.should_upload_keys().await,
None => false,
}
}
/// Should the client share a group session for the given room.
///
/// Returns true if a session needs to be shared before room messages can be
/// encrypted, false if one is already shared and ready to encrypt room
/// messages.
///
/// This should be called every time a new room message wants to be sent out
/// since group sessions can expire at any time.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn should_share_group_session(&self, room_id: &RoomId) -> bool {
let olm = self.olm.lock().await;
match &*olm {
Some(o) => o.should_share_group_session(room_id),
None => false,
}
}
/// Should users be queried for their device keys.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn should_query_keys(&self) -> bool {
let olm = self.olm.lock().await;
match &*olm {
Some(o) => o.should_query_keys(),
None => false,
}
}
/// Get a tuple of device and one-time keys that need to be uploaded.
///
/// Returns an empty error if no keys need to be uploaded.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn get_missing_sessions(
&self,
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users: impl Iterator<Item = &UserId>,
) -> Result<BTreeMap<UserId, BTreeMap<DeviceId, KeyAlgorithm>>> {
let mut olm = self.olm.lock().await;
match &mut *olm {
Some(o) => Ok(o.get_missing_sessions(users).await?),
None => Ok(BTreeMap::new()),
}
}
/// Get a to-device request that will share a group session for a room.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn share_group_session(
&self,
room_id: &RoomId,
) -> Result<Vec<send_event_to_device::Request>> {
let room = self.get_joined_room(room_id).await.expect("No room found");
let mut olm = self.olm.lock().await;
match &mut *olm {
Some(o) => {
let room = room.write().await;
let members = room.members.keys();
Ok(o.share_group_session(room_id, members).await?)
}
None => panic!("Olm machine wasn't started"),
}
}
/// Encrypt a message event content.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn encrypt(
&self,
room_id: &RoomId,
content: MessageEventContent,
) -> Result<EncryptedEventContent> {
let mut olm = self.olm.lock().await;
match &mut *olm {
Some(o) => Ok(o.encrypt(room_id, content).await?),
None => panic!("Olm machine wasn't started"),
}
}
/// Get a tuple of device and one-time keys that need to be uploaded.
///
/// Returns an empty error if no keys need to be uploaded.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
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pub async fn keys_for_upload(
&self,
) -> StdResult<(Option<DeviceKeys>, Option<OneTimeKeys>), ()> {
let olm = self.olm.lock().await;
match &*olm {
Some(o) => o.keys_for_upload().await,
None => Err(()),
}
}
/// Get the users that we need to query keys for.
///
/// Returns an empty error if no keys need to be queried.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
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pub async fn users_for_key_query(&self) -> StdResult<HashSet<UserId>, ()> {
let olm = self.olm.lock().await;
match &*olm {
Some(o) => Ok(o.users_for_key_query()),
None => Err(()),
}
}
/// Receive a successful keys upload response.
///
/// # Arguments
///
/// * `response` - The keys upload response of the request that the client
/// performed.
///
/// # Panics
/// Panics if the client hasn't been logged in.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn receive_keys_upload_response(&self, response: &KeysUploadResponse) -> Result<()> {
let mut olm = self.olm.lock().await;
let o = olm.as_mut().expect("Client isn't logged in.");
o.receive_keys_upload_response(response).await?;
Ok(())
}
/// Receive a successful keys claim response.
///
/// # Arguments
///
/// * `response` - The keys claim response of the request that the client
/// performed.
///
/// # Panics
/// Panics if the client hasn't been logged in.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn receive_keys_claim_response(&self, response: &KeysClaimResponse) -> Result<()> {
let mut olm = self.olm.lock().await;
let o = olm.as_mut().expect("Client isn't logged in.");
o.receive_keys_claim_response(response).await?;
Ok(())
}
/// Receive a successful keys query response.
///
/// # Arguments
///
/// * `response` - The keys query response of the request that the client
/// performed.
///
/// # Panics
/// Panics if the client hasn't been logged in.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn receive_keys_query_response(&self, response: &KeysQueryResponse) -> Result<()> {
let mut olm = self.olm.lock().await;
let o = olm.as_mut().expect("Client isn't logged in.");
o.receive_keys_query_response(response).await?;
// TODO notify our callers of new devices via some callback.
Ok(())
}
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/// Invalidate the currently active outbound group session for the given
/// room.
///
/// Returns true if a session was invalidated, false if there was no session
/// to invalidate.
#[cfg(feature = "encryption")]
#[cfg_attr(docsrs, doc(cfg(feature = "encryption")))]
pub async fn invalidate_group_session(&self, room_id: &RoomId) -> bool {
let mut olm = self.olm.lock().await;
match &mut *olm {
Some(o) => o.invalidate_group_session(room_id),
None => false,
}
}
pub(crate) async fn emit_timeline_event(
&self,
room_id: &RoomId,
event: &RoomEvent,
room_state: RoomStateType,
) {
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let lock = self.event_emitter.read().await;
let event_emitter = if let Some(ee) = lock.as_ref() {
ee
} else {
return;
};
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
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};
match event {
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RoomEvent::RoomMember(mem) => event_emitter.on_room_member(room, &mem).await,
RoomEvent::RoomName(name) => event_emitter.on_room_name(room, &name).await,
RoomEvent::RoomCanonicalAlias(canonical) => {
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event_emitter
.on_room_canonical_alias(room, &canonical)
.await
}
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RoomEvent::RoomAliases(aliases) => event_emitter.on_room_aliases(room, &aliases).await,
RoomEvent::RoomAvatar(avatar) => event_emitter.on_room_avatar(room, &avatar).await,
RoomEvent::RoomMessage(msg) => event_emitter.on_room_message(room, &msg).await,
RoomEvent::RoomMessageFeedback(msg_feedback) => {
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event_emitter
.on_room_message_feedback(room, &msg_feedback)
.await
}
RoomEvent::RoomRedaction(redaction) => {
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event_emitter.on_room_redaction(room, &redaction).await
}
RoomEvent::RoomPowerLevels(power) => {
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event_emitter.on_room_power_levels(room, &power).await
}
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RoomEvent::RoomTombstone(tomb) => event_emitter.on_room_tombstone(room, &tomb).await,
RoomEvent::CustomRoom(custom) => {
event_emitter
.on_unrecognized_event(room, &CustomOrRawEvent::CustomRoom(custom))
.await
}
_ => {}
}
}
pub(crate) async fn emit_state_event(
&self,
room_id: &RoomId,
event: &StateEvent,
room_state: RoomStateType,
) {
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let lock = self.event_emitter.read().await;
let event_emitter = if let Some(ee) = lock.as_ref() {
ee
} else {
return;
};
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
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};
match event {
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StateEvent::RoomMember(member) => event_emitter.on_state_member(room, &member).await,
StateEvent::RoomName(name) => event_emitter.on_state_name(room, &name).await,
StateEvent::RoomCanonicalAlias(canonical) => {
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event_emitter
.on_state_canonical_alias(room, &canonical)
.await
}
StateEvent::RoomAliases(aliases) => {
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event_emitter.on_state_aliases(room, &aliases).await
}
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StateEvent::RoomAvatar(avatar) => event_emitter.on_state_avatar(room, &avatar).await,
StateEvent::RoomPowerLevels(power) => {
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event_emitter.on_state_power_levels(room, &power).await
}
StateEvent::RoomJoinRules(rules) => {
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event_emitter.on_state_join_rules(room, &rules).await
}
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StateEvent::RoomTombstone(tomb) => event_emitter.on_room_tombstone(room, &tomb).await,
StateEvent::CustomState(custom) => {
event_emitter
.on_unrecognized_event(room, &CustomOrRawEvent::CustomState(custom))
.await
}
_ => {}
}
}
pub(crate) async fn emit_stripped_state_event(
&self,
room_id: &RoomId,
event: &AnyStrippedStateEvent,
prev_content: Option<MemberEventContent>,
room_state: RoomStateType,
) {
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let lock = self.event_emitter.read().await;
let event_emitter = if let Some(ee) = lock.as_ref() {
ee
} else {
return;
};
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
};
match event {
AnyStrippedStateEvent::RoomMember(member) => {
event_emitter
.on_stripped_state_member(room, &member, prev_content)
.await
}
AnyStrippedStateEvent::RoomName(name) => {
event_emitter.on_stripped_state_name(room, &name).await
}
AnyStrippedStateEvent::RoomCanonicalAlias(canonical) => {
event_emitter
.on_stripped_state_canonical_alias(room, &canonical)
.await
}
AnyStrippedStateEvent::RoomAliases(aliases) => {
event_emitter
.on_stripped_state_aliases(room, &aliases)
.await
}
AnyStrippedStateEvent::RoomAvatar(avatar) => {
event_emitter.on_stripped_state_avatar(room, &avatar).await
}
AnyStrippedStateEvent::RoomPowerLevels(power) => {
event_emitter
.on_stripped_state_power_levels(room, &power)
.await
}
AnyStrippedStateEvent::RoomJoinRules(rules) => {
event_emitter
.on_stripped_state_join_rules(room, &rules)
.await
}
_ => {}
}
}
pub(crate) async fn emit_account_data_event(
&self,
room_id: &RoomId,
event: &NonRoomEvent,
room_state: RoomStateType,
) {
let lock = self.event_emitter.read().await;
let event_emitter = if let Some(ee) = lock.as_ref() {
ee
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} else {
return;
};
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
};
match event {
NonRoomEvent::Presence(presence) => {
event_emitter.on_non_room_presence(room, &presence).await
}
NonRoomEvent::IgnoredUserList(ignored) => {
event_emitter
.on_non_room_ignored_users(room, &ignored)
.await
}
NonRoomEvent::PushRules(rules) => {
event_emitter.on_non_room_push_rules(room, &rules).await
}
NonRoomEvent::FullyRead(full_read) => {
event_emitter.on_non_room_fully_read(room, &full_read).await
}
NonRoomEvent::Typing(typing) => event_emitter.on_non_room_typing(room, &typing).await,
_ => {}
}
}
pub(crate) async fn emit_ephemeral_event(
&self,
room_id: &RoomId,
event: &NonRoomEvent,
room_state: RoomStateType,
) {
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let lock = self.event_emitter.read().await;
let event_emitter = if let Some(ee) = lock.as_ref() {
ee
} else {
return;
};
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
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};
match event {
NonRoomEvent::Presence(presence) => {
event_emitter.on_non_room_presence(room, &presence).await
}
NonRoomEvent::IgnoredUserList(ignored) => {
event_emitter
.on_non_room_ignored_users(room, &ignored)
.await
}
NonRoomEvent::PushRules(rules) => {
event_emitter.on_non_room_push_rules(room, &rules).await
}
NonRoomEvent::FullyRead(full_read) => {
event_emitter.on_non_room_fully_read(room, &full_read).await
}
NonRoomEvent::Typing(typing) => event_emitter.on_non_room_typing(room, &typing).await,
_ => {}
}
}
pub(crate) async fn emit_presence_event(
&self,
room_id: &RoomId,
event: &PresenceEvent,
room_state: RoomStateType,
) {
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
};
if let Some(ee) = &self.event_emitter.read().await.as_ref() {
ee.on_presence_event(room, &event).await;
}
}
pub(crate) async fn emit_unrecognized_event<T>(
&self,
room_id: &RoomId,
event: &EventJson<T>,
room_state: RoomStateType,
) {
let room = match room_state {
RoomStateType::Invited => {
if let Some(room) = self.get_invited_room(&room_id).await {
RoomState::Invited(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Joined => {
if let Some(room) = self.get_joined_room(&room_id).await {
RoomState::Joined(Arc::clone(&room))
} else {
return;
}
}
RoomStateType::Left => {
if let Some(room) = self.get_left_room(&room_id).await {
RoomState::Left(Arc::clone(&room))
} else {
return;
}
}
};
if let Some(ee) = &self.event_emitter.read().await.as_ref() {
ee.on_unrecognized_event(room, &CustomOrRawEvent::RawJson(event.json()))
.await;
}
}
}
#[cfg(test)]
mod test {
use crate::identifiers::{RoomId, UserId};
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use crate::{
events::{collections::all::RoomEvent, stripped::AnyStrippedStateEvent},
BaseClient, Session,
};
use matrix_sdk_test::{async_test, EventBuilder, EventsFile};
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use serde_json::json;
use std::convert::TryFrom;
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#[cfg(target_arch = "wasm32")]
use wasm_bindgen_test::*;
async fn get_client() -> BaseClient {
let session = Session {
access_token: "1234".to_owned(),
user_id: UserId::try_from("@example:localhost").unwrap(),
device_id: "DEVICEID".to_owned(),
};
let client = BaseClient::new().unwrap();
client.restore_login(session).await.unwrap();
client
}
fn get_room_id() -> RoomId {
RoomId::try_from("!SVkFJHzfwvuaIEawgC:localhost").unwrap()
}
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fn member_event() -> serde_json::Value {
json!({
"content": {
"displayname": "example",
"membership": "join"
},
"event_id": "$151800140517rfvjc:localhost",
"membership": "join",
"origin_server_ts": 0,
"sender": "@example:localhost",
"state_key": "@example:localhost",
"type": "m.room.member",
})
}
#[async_test]
async fn test_joined_room_creation() {
let mut sync_response = EventBuilder::default()
.add_room_event(EventsFile::Member, RoomEvent::RoomMember)
.build_sync_response();
let client = get_client().await;
let room_id = get_room_id();
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let room = client.get_joined_room(&room_id).await;
assert!(room.is_none());
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
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let room = client.get_left_room(&room_id).await;
assert!(room.is_none());
let room = client.get_joined_room(&room_id).await;
assert!(room.is_some());
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let mut sync_response = EventBuilder::default()
.add_custom_left_event(&room_id, member_event(), RoomEvent::RoomMember)
.build_sync_response();
sync_response.next_batch = "Hello".to_owned();
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
let room = client.get_joined_room(&room_id).await;
assert!(room.is_none());
let room = client.get_left_room(&room_id).await;
assert!(room.is_some());
}
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#[async_test]
async fn test_left_room_creation() {
let room_id = RoomId::try_from("!left_room:localhost").unwrap();
let mut sync_response = EventBuilder::default()
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.add_custom_left_event(&room_id, member_event(), RoomEvent::RoomMember)
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.build_sync_response();
let client = get_client().await;
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let room = client.get_left_room(&room_id).await;
assert!(room.is_none());
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client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
let room = client.get_left_room(&room_id).await;
assert!(room.is_some());
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let mut sync_response = EventBuilder::default()
.add_custom_joined_event(&room_id, member_event(), RoomEvent::RoomMember)
.build_sync_response();
sync_response.next_batch = "Hello".to_owned();
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
let room = client.get_left_room(&room_id).await;
assert!(room.is_none());
let room = client.get_joined_room(&room_id).await;
assert!(room.is_some());
}
#[async_test]
async fn test_invited_room_creation() {
let room_id = RoomId::try_from("!invited_room:localhost").unwrap();
let mut sync_response = EventBuilder::default()
.add_custom_invited_event(&room_id, member_event(), AnyStrippedStateEvent::RoomMember)
.build_sync_response();
let client = get_client().await;
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let room = client.get_invited_room(&room_id).await;
assert!(room.is_none());
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
let room = client.get_invited_room(&room_id).await;
assert!(room.is_some());
let mut sync_response = EventBuilder::default()
.add_custom_joined_event(&room_id, member_event(), RoomEvent::RoomMember)
.build_sync_response();
sync_response.next_batch = "Hello".to_owned();
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
let room = client.get_invited_room(&room_id).await;
assert!(room.is_none());
let room = client.get_joined_room(&room_id).await;
assert!(room.is_some());
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}
#[async_test]
async fn test_prev_content_from_unsigned() {
use super::*;
use crate::{EventEmitter, SyncRoom};
use matrix_sdk_common::events::room::member::{MemberEvent, MembershipChange};
use matrix_sdk_common::locks::RwLock;
use std::sync::{
atomic::{AtomicBool, Ordering},
Arc,
};
struct EE(Arc<AtomicBool>);
#[async_trait::async_trait]
impl EventEmitter for EE {
async fn on_room_member(&self, room: SyncRoom, event: &MemberEvent) {
if let SyncRoom::Joined(_) = room {
match event.membership_change() {
MembershipChange::Joined => {
self.0.swap(true, Ordering::SeqCst);
}
_ => {}
};
}
if event.prev_content.is_none() {
self.0.swap(false, Ordering::SeqCst);
}
}
}
let room_id = get_room_id();
let passed = Arc::new(AtomicBool::default());
let emitter = EE(Arc::clone(&passed));
let mut client = get_client().await;
client.event_emitter = Arc::new(RwLock::new(Some(Box::new(emitter))));
// This is needed other wise the `EventBuilder` goes through a de/ser cycle and the `prev_content` is lost.
let event = serde_json::from_str::<serde_json::Value>(include_str!(
"../../test_data/events/member.json"
))
.unwrap();
let mut joined_rooms: HashMap<RoomId, serde_json::Value> = HashMap::new();
let joined_room = serde_json::json!({
"summary": {},
"account_data": {
"events": [],
},
"ephemeral": {
"events": [],
},
"state": {
"events": [],
},
"timeline": {
"events": vec![ event ],
"limited": true,
"prev_batch": "t392-516_47314_0_7_1_1_1_11444_1"
},
"unread_notifications": {
"highlight_count": 0,
"notification_count": 11
}
});
joined_rooms.insert(room_id, joined_room);
let empty_room: HashMap<RoomId, serde_json::Value> = HashMap::new();
let body = serde_json::json!({
"device_one_time_keys_count": {},
"next_batch": "s526_47314_0_7_1_1_1_11444_1",
"device_lists": {
"changed": [],
"left": []
},
"rooms": {
"invite": empty_room,
"join": joined_rooms,
"leave": empty_room,
},
"to_device": {
"events": []
},
"presence": {
"events": []
}
});
let response = http::Response::builder()
.body(serde_json::to_vec(&body).unwrap())
.unwrap();
let mut sync =
matrix_sdk_common::api::r0::sync::sync_events::Response::try_from(response).unwrap();
client.receive_sync_response(&mut sync).await.unwrap();
assert!(passed.load(Ordering::SeqCst))
}
#[async_test]
async fn test_unrecognized_events() {
use super::*;
use crate::{EventEmitter, SyncRoom};
use matrix_sdk_common::locks::RwLock;
use std::sync::{
atomic::{AtomicBool, Ordering},
Arc,
};
struct EE(Arc<AtomicBool>);
#[async_trait::async_trait]
impl EventEmitter for EE {
async fn on_unrecognized_event(&self, room: SyncRoom, event: &CustomOrRawEvent<'_>) {
if let SyncRoom::Joined(_) = room {
if let CustomOrRawEvent::RawJson(raw) = event {
let val = serde_json::to_value(raw).unwrap();
if val.get("type").unwrap() == &json! { "m.room.message" }
&& val.get("content").unwrap().get("m.relates_to").is_some()
{
self.0.swap(true, Ordering::SeqCst);
}
}
}
}
}
let room_id = get_room_id();
let passed = Arc::new(AtomicBool::default());
let emitter = EE(Arc::clone(&passed));
let mut client = get_client().await;
client.event_emitter = Arc::new(RwLock::new(Some(Box::new(emitter))));
// This is needed other wise the `EventBuilder` goes through a de/ser cycle and the `prev_content` is lost.
let event = serde_json::from_str::<serde_json::Value>(include_str!(
"../../test_data/events/message_edit.json"
))
.unwrap();
let mut joined_rooms: HashMap<RoomId, serde_json::Value> = HashMap::new();
let joined_room = serde_json::json!({
"summary": {},
"account_data": {
"events": [],
},
"ephemeral": {
"events": [],
},
"state": {
"events": [],
},
"timeline": {
"events": vec![ event ],
"limited": true,
"prev_batch": "t392-516_47314_0_7_1_1_1_11444_1"
},
"unread_notifications": {
"highlight_count": 0,
"notification_count": 11
}
});
joined_rooms.insert(room_id, joined_room);
let empty_room: HashMap<RoomId, serde_json::Value> = HashMap::new();
let body = serde_json::json!({
"device_one_time_keys_count": {},
"next_batch": "s526_47314_0_7_1_1_1_11444_1",
"device_lists": {
"changed": [],
"left": []
},
"rooms": {
"invite": empty_room,
"join": joined_rooms,
"leave": empty_room,
},
"to_device": {
"events": []
},
"presence": {
"events": []
}
});
let response = http::Response::builder()
.body(serde_json::to_vec(&body).unwrap())
.unwrap();
let mut sync =
matrix_sdk_common::api::r0::sync::sync_events::Response::try_from(response).unwrap();
client.receive_sync_response(&mut sync).await.unwrap();
assert!(passed.load(Ordering::SeqCst))
}
#[async_test]
async fn test_unrecognized_custom_event() {
use super::*;
use crate::{EventEmitter, SyncRoom};
use matrix_sdk_common::locks::RwLock;
use std::sync::{
atomic::{AtomicBool, Ordering},
Arc,
};
struct EE(Arc<AtomicBool>);
#[async_trait::async_trait]
impl EventEmitter for EE {
async fn on_unrecognized_event(&self, room: SyncRoom, event: &CustomOrRawEvent<'_>) {
if let SyncRoom::Joined(_) = room {
if let CustomOrRawEvent::CustomRoom(custom) = event {
if custom.event_type == "m.reaction"
&& custom.content.get("m.relates_to").is_some()
{
self.0.swap(true, Ordering::SeqCst);
}
}
}
}
}
let room_id = get_room_id();
let passed = Arc::new(AtomicBool::default());
let emitter = EE(Arc::clone(&passed));
let mut client = get_client().await;
client.event_emitter = Arc::new(RwLock::new(Some(Box::new(emitter))));
// This is needed other wise the `EventBuilder` goes through a de/ser cycle and the `prev_content` is lost.
let event = serde_json::from_str::<serde_json::Value>(include_str!(
"../../test_data/events/reaction.json"
))
.unwrap();
let mut joined_rooms: HashMap<RoomId, serde_json::Value> = HashMap::new();
let joined_room = serde_json::json!({
"summary": {},
"account_data": {
"events": [],
},
"ephemeral": {
"events": [],
},
"state": {
"events": [],
},
"timeline": {
"events": vec![ event ],
"limited": true,
"prev_batch": "t392-516_47314_0_7_1_1_1_11444_1"
},
"unread_notifications": {
"highlight_count": 0,
"notification_count": 11
}
});
joined_rooms.insert(room_id, joined_room);
let empty_room: HashMap<RoomId, serde_json::Value> = HashMap::new();
let body = serde_json::json!({
"device_one_time_keys_count": {},
"next_batch": "s526_47314_0_7_1_1_1_11444_1",
"device_lists": {
"changed": [],
"left": []
},
"rooms": {
"invite": empty_room,
"join": joined_rooms,
"leave": empty_room,
},
"to_device": {
"events": []
},
"presence": {
"events": []
}
});
let response = http::Response::builder()
.body(serde_json::to_vec(&body).unwrap())
.unwrap();
let mut sync =
matrix_sdk_common::api::r0::sync::sync_events::Response::try_from(response).unwrap();
client.receive_sync_response(&mut sync).await.unwrap();
assert!(passed.load(Ordering::SeqCst))
}
#[async_test]
#[cfg(feature = "encryption")]
async fn test_group_session_invalidation() {
let client = get_client().await;
let room_id = get_room_id();
let mut sync_response = EventBuilder::default()
.add_room_event(EventsFile::Member, RoomEvent::RoomMember)
.build_sync_response();
client
.receive_sync_response(&mut sync_response)
.await
.unwrap();
assert!(client.should_share_group_session(&room_id).await);
let _ = client.share_group_session(&room_id).await.unwrap();
assert!(!client.should_share_group_session(&room_id).await);
client.invalidate_group_session(&room_id).await;
}
}