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matrix-rust-sdk/matrix_sdk/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.
#[cfg(feature = "encryption")]
use std::{collections::BTreeMap, io::Write, path::PathBuf};
#[cfg(feature = "sso_login")]
use std::{
collections::HashMap,
io::{Error as IoError, ErrorKind as IoErrorKind},
ops::Range,
};
use std::{
fmt::{self, Debug},
future::Future,
io::Read,
path::Path,
result::Result as StdResult,
sync::Arc,
};
use dashmap::DashMap;
use futures_timer::Delay as sleep;
use http::HeaderValue;
#[cfg(feature = "sso_login")]
use http::Response;
#[cfg(feature = "encryption")]
use matrix_sdk_base::crypto::{
decrypt_key_export, encrypt_key_export, olm::InboundGroupSession, store::CryptoStoreError,
OutgoingRequests, RoomMessageRequest, ToDeviceRequest,
};
use matrix_sdk_base::{
deserialized_responses::SyncResponse, events::AnyMessageEventContent, identifiers::MxcUri,
BaseClient, BaseClientConfig, SendAccessToken, Session, Store,
};
use mime::{self, Mime};
#[cfg(feature = "sso_login")]
use rand::{thread_rng, Rng};
use reqwest::header::InvalidHeaderValue;
#[cfg(feature = "sso_login")]
use tokio::{net::TcpListener, sync::oneshot};
#[cfg(feature = "sso_login")]
use tokio_stream::wrappers::TcpListenerStream;
#[cfg(feature = "encryption")]
use tracing::{debug, warn};
use tracing::{error, info, instrument};
use url::Url;
#[cfg(feature = "sso_login")]
use warp::Filter;
#[cfg(feature = "encryption")]
use zeroize::Zeroizing;
/// Enum controlling if a loop running callbacks should continue or abort.
///
/// This is mainly used in the [`sync_with_callback`] method, the return value
/// of the provided callback controls if the sync loop should be exited.
///
/// [`sync_with_callback`]: #method.sync_with_callback
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum LoopCtrl {
/// Continue running the loop.
Continue,
/// Break out of the loop.
Break,
}
use matrix_sdk_common::{
api::r0::{
account::register,
device::{delete_devices, get_devices},
directory::{get_public_rooms, get_public_rooms_filtered},
filter::{create_filter::Request as FilterUploadRequest, FilterDefinition},
media::{create_content, get_content, get_content_thumbnail},
membership::{join_room_by_id, join_room_by_id_or_alias},
message::send_message_event,
profile::{get_avatar_url, get_display_name, set_avatar_url, set_display_name},
room::create_room,
session::{get_login_types, login, sso_login},
sync::sync_events,
uiaa::AuthData,
},
assign,
identifiers::{DeviceIdBox, RoomId, RoomIdOrAliasId, ServerName, UserId},
instant::{Duration, Instant},
locks::{Mutex, RwLock},
presence::PresenceState,
uuid::Uuid,
FromHttpResponseError, UInt,
};
#[cfg(feature = "encryption")]
use matrix_sdk_common::{
api::r0::{
keys::{get_keys, upload_keys, upload_signing_keys::Request as UploadSigningKeysRequest},
to_device::send_event_to_device::{
Request as RumaToDeviceRequest, Response as ToDeviceResponse,
},
},
identifiers::EventId,
};
#[cfg(feature = "encryption")]
use crate::{
device::{Device, UserDevices},
identifiers::DeviceId,
sas::Sas,
verification_request::VerificationRequest,
};
use crate::{
error::HttpError,
event_handler::Handler,
http_client::{client_with_config, HttpClient, HttpSend},
room, Error, EventHandler, OutgoingRequest, Result,
};
const DEFAULT_REQUEST_TIMEOUT: Duration = Duration::from_secs(10);
const DEFAULT_SYNC_TIMEOUT: Duration = Duration::from_secs(30);
/// A conservative upload speed of 1Mbps
const DEFAULT_UPLOAD_SPEED: u64 = 125_000;
/// 5 min minimal upload request timeout, used to clamp the request timeout.
const MIN_UPLOAD_REQUEST_TIMEOUT: Duration = Duration::from_secs(60 * 5);
/// The range of ports the SSO server will try to bind to randomly
#[cfg(feature = "sso_login")]
const SSO_SERVER_BIND_RANGE: Range<u16> = 20000..30000;
/// The number of timesthe SSO server will try to bind to a random port
#[cfg(feature = "sso_login")]
const SSO_SERVER_BIND_TRIES: u8 = 10;
/// An async/await enabled Matrix client.
///
/// All of the state is held in an `Arc` so the `Client` can be cloned freely.
#[derive(Clone)]
pub struct Client {
/// The URL of the homeserver to connect to.
homeserver: Arc<Url>,
/// The underlying HTTP client.
http_client: HttpClient,
/// User session data.
pub(crate) base_client: BaseClient,
/// Locks making sure we only have one group session sharing request in
/// flight per room.
#[cfg(feature = "encryption")]
pub(crate) group_session_locks: Arc<DashMap<RoomId, Arc<Mutex<()>>>>,
#[cfg(feature = "encryption")]
/// Lock making sure we're only doing one key claim request at a time.
key_claim_lock: Arc<Mutex<()>>,
pub(crate) members_request_locks: Arc<DashMap<RoomId, Arc<Mutex<()>>>>,
pub(crate) typing_notice_times: Arc<DashMap<RoomId, Instant>>,
/// Any implementor of EventHandler will act as the callbacks for various
/// events.
event_handler: Arc<RwLock<Option<Handler>>>,
}
#[cfg(not(tarpaulin_include))]
impl Debug for Client {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> StdResult<(), fmt::Error> {
write!(fmt, "Client {{ homeserver: {} }}", self.homeserver)
}
}
/// Configuration for the creation of the `Client`.
///
/// When setting the `StateStore` it is up to the user to open/connect
/// the storage backend before client creation.
///
/// # Example
///
/// ```
/// # use matrix_sdk::ClientConfig;
/// // To pass all the request through mitmproxy set the proxy and disable SSL
/// // verification
/// let client_config = ClientConfig::new()
/// .proxy("http://localhost:8080")
/// .unwrap()
/// .disable_ssl_verification();
/// ```
#[derive(Default)]
pub struct ClientConfig {
#[cfg(not(target_arch = "wasm32"))]
pub(crate) proxy: Option<reqwest::Proxy>,
pub(crate) user_agent: Option<HeaderValue>,
pub(crate) disable_ssl_verification: bool,
pub(crate) base_config: BaseClientConfig,
pub(crate) request_config: RequestConfig,
pub(crate) client: Option<Arc<dyn HttpSend>>,
}
#[cfg(not(tarpaulin_include))]
impl Debug for ClientConfig {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
let mut res = fmt.debug_struct("ClientConfig");
#[cfg(not(target_arch = "wasm32"))]
let res = res.field("proxy", &self.proxy);
res.field("user_agent", &self.user_agent)
.field("disable_ssl_verification", &self.disable_ssl_verification)
.field("request_config", &self.request_config)
.finish()
}
}
impl ClientConfig {
/// Create a new default `ClientConfig`.
pub fn new() -> Self {
Default::default()
}
/// Set the proxy through which all the HTTP requests should go.
///
/// Note, only HTTP proxies are supported.
///
/// # Arguments
///
/// * `proxy` - The HTTP URL of the proxy.
///
/// # Example
///
/// ```
/// use matrix_sdk::ClientConfig;
///
/// let client_config = ClientConfig::new()
/// .proxy("http://localhost:8080")
/// .unwrap();
/// ```
#[cfg(not(target_arch = "wasm32"))]
pub fn proxy(mut self, proxy: &str) -> Result<Self> {
self.proxy = Some(reqwest::Proxy::all(proxy)?);
Ok(self)
}
/// Disable SSL verification for the HTTP requests.
pub fn disable_ssl_verification(mut self) -> Self {
self.disable_ssl_verification = true;
self
}
/// Set a custom HTTP user agent for the client.
pub fn user_agent(mut self, user_agent: &str) -> StdResult<Self, InvalidHeaderValue> {
self.user_agent = Some(HeaderValue::from_str(user_agent)?);
Ok(self)
}
///// 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.base_config = self.base_config.state_store(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(mut self, path: impl AsRef<Path>) -> Self {
self.base_config = self.base_config.store_path(path);
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.base_config = self.base_config.passphrase(passphrase);
self
}
/// Set the default timeout, fail and retry behavior for all HTTP requests.
pub fn request_config(mut self, request_config: RequestConfig) -> Self {
self.request_config = request_config;
self
}
/// Specify a client to handle sending requests and receiving responses.
///
/// Any type that implements the `HttpSend` trait can be used to
/// send/receive `http` types.
pub fn client(mut self, client: Arc<dyn HttpSend>) -> Self {
self.client = Some(client);
self
}
}
#[derive(Debug, Clone)]
/// Settings for a sync call.
pub struct SyncSettings<'a> {
pub(crate) filter: Option<sync_events::Filter<'a>>,
pub(crate) timeout: Option<Duration>,
pub(crate) token: Option<String>,
pub(crate) full_state: bool,
}
impl<'a> Default for SyncSettings<'a> {
fn default() -> Self {
Self {
filter: Default::default(),
timeout: Some(DEFAULT_SYNC_TIMEOUT),
token: Default::default(),
full_state: Default::default(),
}
}
}
impl<'a> SyncSettings<'a> {
/// Create new default sync settings.
pub fn new() -> Self {
Default::default()
}
/// Set the sync token.
///
/// # Arguments
///
/// * `token` - The sync token that should be used for the sync call.
pub fn token(mut self, token: impl Into<String>) -> Self {
self.token = Some(token.into());
self
}
/// Set the maximum time the server can wait, in milliseconds, before
/// responding to the sync request.
///
/// # Arguments
///
/// * `timeout` - The time the server is allowed to wait.
pub fn timeout(mut self, timeout: Duration) -> Self {
self.timeout = Some(timeout);
self
}
/// Set the sync filter.
/// It can be either the filter ID, or the definition for the filter.
///
/// # Arguments
///
/// * `filter` - The filter configuration that should be used for the sync
/// call.
pub fn filter(mut self, filter: sync_events::Filter<'a>) -> Self {
self.filter = Some(filter);
self
}
/// Should the server return the full state from the start of the timeline.
///
/// This does nothing if no sync token is set.
///
/// # Arguments
/// * `full_state` - A boolean deciding if the server should return the full
/// state or not.
pub fn full_state(mut self, full_state: bool) -> Self {
self.full_state = full_state;
self
}
}
/// Configuration for requests the `Client` makes.
///
/// This sets how often and for how long a request should be repeated. As well
/// as how long a successful request is allowed to take.
///
/// By default requests are retried indefinitely and use no timeout.
///
/// # Example
///
/// ```
/// # use matrix_sdk::RequestConfig;
/// # use std::time::Duration;
/// // This sets makes requests fail after a single send request and sets the timeout to 30s
/// let request_config = RequestConfig::new()
/// .disable_retry()
/// .timeout(Duration::from_secs(30));
/// ```
#[derive(Copy, Clone)]
pub struct RequestConfig {
pub(crate) timeout: Duration,
pub(crate) retry_limit: Option<u64>,
pub(crate) retry_timeout: Option<Duration>,
pub(crate) force_auth: bool,
#[cfg(feature = "appservice")]
pub(crate) assert_identity: bool,
}
#[cfg(not(tarpaulin_include))]
impl Debug for RequestConfig {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
let mut res = fmt.debug_struct("RequestConfig");
res.field("timeout", &self.timeout)
.field("retry_limit", &self.retry_limit)
.field("retry_timeout", &self.retry_timeout)
.finish()
}
}
impl Default for RequestConfig {
fn default() -> Self {
Self {
timeout: DEFAULT_REQUEST_TIMEOUT,
retry_limit: Default::default(),
retry_timeout: Default::default(),
force_auth: false,
#[cfg(feature = "appservice")]
assert_identity: false,
}
}
}
impl RequestConfig {
/// Create a new default `RequestConfig`.
pub fn new() -> Self {
Default::default()
}
/// This is a convince method to disable the retries of a request. Setting
/// the `retry_limit` to `0` has the same effect.
pub fn disable_retry(mut self) -> Self {
self.retry_limit = Some(0);
self
}
/// The number of times a request should be retried. The default is no limit
pub fn retry_limit(mut self, retry_limit: u64) -> Self {
self.retry_limit = Some(retry_limit);
self
}
/// Set the timeout duration for all HTTP requests.
pub fn timeout(mut self, timeout: Duration) -> Self {
self.timeout = timeout;
self
}
/// Set a timeout for how long a request should be retried. The default is
/// no timeout, meaning requests are retried forever.
pub fn retry_timeout(mut self, retry_timeout: Duration) -> Self {
self.retry_timeout = Some(retry_timeout);
self
}
/// Force sending authorization even if the endpoint does not require it.
/// Default is only sending authorization if it is required
#[cfg(feature = "require_auth_for_profile_requests")]
#[cfg_attr(feature = "docs", doc(cfg(require_auth_for_profile_requests)))]
pub(crate) fn force_auth(mut self) -> Self {
self.force_auth = true;
self
}
/// All outgoing http requests will have a GET query key-value appended with
/// `user_id` being the key and the `user_id` from the `Session` being
/// the value. Will error if there's no `Session`. This is called
/// [identity assertion] in the Matrix Appservice Spec
///
/// [identity assertion]: https://spec.matrix.org/unstable/application-service-api/#identity-assertion
#[cfg(feature = "appservice")]
#[cfg_attr(feature = "docs", doc(cfg(appservice)))]
pub fn assert_identity(mut self) -> Self {
self.assert_identity = true;
self
}
}
impl Client {
/// Creates a new client for making HTTP requests to the given homeserver.
///
/// # Arguments
///
/// * `homeserver_url` - The homeserver that the client should connect to.
pub fn new(homeserver_url: Url) -> Result<Self> {
let config = ClientConfig::new();
Client::new_with_config(homeserver_url, config)
}
/// Create a new client with the given configuration.
///
/// # Arguments
///
/// * `homeserver_url` - The homeserver that the client should connect to.
///
/// * `config` - Configuration for the client.
pub fn new_with_config(homeserver_url: Url, config: ClientConfig) -> Result<Self> {
let homeserver = Arc::new(homeserver_url);
let client = if let Some(client) = config.client {
client
} else {
Arc::new(client_with_config(&config)?)
};
let base_client = BaseClient::new_with_config(config.base_config)?;
let session = base_client.session().clone();
let http_client = HttpClient {
homeserver: homeserver.clone(),
inner: client,
session,
request_config: config.request_config,
};
Ok(Self {
homeserver,
http_client,
base_client,
#[cfg(feature = "encryption")]
group_session_locks: Arc::new(DashMap::new()),
#[cfg(feature = "encryption")]
key_claim_lock: Arc::new(Mutex::new(())),
members_request_locks: Arc::new(DashMap::new()),
typing_notice_times: Arc::new(DashMap::new()),
event_handler: Arc::new(RwLock::new(None)),
})
}
/// Process a [transaction] received from the homeserver
///
/// # Arguments
///
/// * `incoming_transaction` - The incoming transaction received from the
/// homeserver.
///
/// [transaction]: https://matrix.org/docs/spec/application_service/r0.1.2#put-matrix-app-v1-transactions-txnid
#[cfg(feature = "appservice")]
#[cfg_attr(feature = "docs", doc(cfg(appservice)))]
pub async fn receive_transaction(
&self,
incoming_transaction: crate::api_appservice::event::push_events::v1::IncomingRequest,
) -> Result<()> {
let txn_id = incoming_transaction.txn_id.clone();
let response = incoming_transaction.try_into_sync_response(txn_id)?;
let base_client = self.base_client.clone();
let sync_response = base_client.receive_sync_response(response).await?;
if let Some(handler) = self.event_handler.read().await.as_ref() {
handler.handle_sync(&sync_response).await;
}
Ok(())
}
/// Is the client logged in.
pub async fn logged_in(&self) -> bool {
self.base_client.logged_in().await
}
/// The Homeserver of the client.
pub fn homeserver(&self) -> &Url {
&self.homeserver
}
/// Get the user id of the current owner of the client.
pub async fn user_id(&self) -> Option<UserId> {
let session = self.base_client.session().read().await;
session.as_ref().cloned().map(|s| s.user_id)
}
/// Get the device id that identifies the current session.
pub async fn device_id(&self) -> Option<DeviceIdBox> {
let session = self.base_client.session().read().await;
session.as_ref().map(|s| s.device_id.clone())
}
/// Get the public ed25519 key of our own device. This is usually what is
/// called the fingerprint of the device.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn ed25519_key(&self) -> Option<String> {
self.base_client.olm_machine().await.map(|o| o.identity_keys().ed25519().to_owned())
}
/// Fetches the display name of the owner of the client.
///
/// # Example
/// ```no_run
/// # use futures::executor::block_on;
/// # use matrix_sdk::Client;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// let user = "example";
/// let client = Client::new(homeserver).unwrap();
/// client.login(user, "password", None, None).await.unwrap();
///
/// if let Some(name) = client.display_name().await.unwrap() {
/// println!("Logged in as user '{}' with display name '{}'", user, name);
/// }
/// # })
/// ```
pub async fn display_name(&self) -> Result<Option<String>> {
let user_id = self.user_id().await.ok_or(Error::AuthenticationRequired)?;
let request = get_display_name::Request::new(&user_id);
let response = self.send(request, None).await?;
Ok(response.displayname)
}
/// Sets the display name of the owner of the client.
///
/// # Example
/// ```no_run
/// # use futures::executor::block_on;
/// # use matrix_sdk::Client;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// let user = "example";
/// let client = Client::new(homeserver).unwrap();
/// client.login(user, "password", None, None).await.unwrap();
///
/// client.set_display_name(Some("Alice")).await.expect("Failed setting display name");
/// # })
/// ```
pub async fn set_display_name(&self, name: Option<&str>) -> Result<()> {
let user_id = self.user_id().await.ok_or(Error::AuthenticationRequired)?;
let request = set_display_name::Request::new(&user_id, name);
self.send(request, None).await?;
Ok(())
}
/// Gets the mxc avatar url of the owner of the client, if set.
///
/// # Example
/// ```no_run
/// # use futures::executor::block_on;
/// # use matrix_sdk::Client;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// # let user = "example";
/// let client = Client::new(homeserver).unwrap();
/// client.login(user, "password", None, None).await.unwrap();
///
/// if let Some(url) = client.avatar_url().await.unwrap() {
/// println!("Your avatar's mxc url is {}", url);
/// }
/// # })
/// ```
pub async fn avatar_url(&self) -> Result<Option<MxcUri>> {
let user_id = self.user_id().await.ok_or(Error::AuthenticationRequired)?;
let request = get_avatar_url::Request::new(&user_id);
#[cfg(not(feature = "require_auth_for_profile_requests"))]
let config = None;
#[cfg(feature = "require_auth_for_profile_requests")]
let config = Some(RequestConfig::new().force_auth());
let response = self.send(request, config).await?;
Ok(response.avatar_url)
}
/// Gets the avatar of the owner of the client, if set.
///
/// Returns the avatar. No guarantee on the size of the image is given.
/// If no size is given the full-sized avatar will be returned.
///
/// # Arguments
///
/// * `width` - The desired width of the avatar.
///
/// * `height` - The desired height of the avatar.
///
/// # Example
/// ```no_run
/// # use futures::executor::block_on;
/// # use matrix_sdk::Client;
/// # use matrix_sdk::identifiers::room_id;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// # let user = "example";
/// let client = Client::new(homeserver).unwrap();
/// client.login(user, "password", None, None).await.unwrap();
///
/// if let Some(avatar) = client.avatar(Some(96), Some(96)).await.unwrap() {
/// std::fs::write("avatar.png", avatar);
/// }
/// # })
/// ```
pub async fn avatar(&self, width: Option<u32>, height: Option<u32>) -> Result<Option<Vec<u8>>> {
// TODO: try to offer the avatar from cache, requires avatar cache
if let Some(url) = self.avatar_url().await? {
if let (Some(width), Some(height)) = (width, height) {
let request =
get_content_thumbnail::Request::from_url(&url, width.into(), height.into())?;
let response = self.send(request, None).await?;
Ok(Some(response.file))
} else {
let request = get_content::Request::from_url(&url)?;
let response = self.send(request, None).await?;
Ok(Some(response.file))
}
} else {
Ok(None)
}
}
/// Get a reference to the store.
pub fn store(&self) -> &Store {
self.base_client.store()
}
/// Sets the mxc avatar url of the client's owner. The avatar gets unset if
/// `url` is `None`.
pub async fn set_avatar_url(&self, url: Option<&MxcUri>) -> Result<()> {
let user_id = self.user_id().await.ok_or(Error::AuthenticationRequired)?;
let request = set_avatar_url::Request::new(&user_id, url);
self.send(request, None).await?;
Ok(())
}
/// Upload and set the owning client's avatar.
///
/// The will upload the data produced by the reader to the homeserver's
/// content repository, and set the user's avatar to the mxc url for the
/// uploaded file.
///
/// This is a convenience method for calling [`upload()`](#method.upload),
/// followed by [`set_avatar_url()`](#method.set_avatar_url).
///
/// # Example
/// ```no_run
/// # use std::{path::Path, fs::File, io::Read};
/// # use futures::executor::block_on;
/// # use matrix_sdk::Client;
/// # use url::Url;
/// # block_on(async {
/// # let homeserver = Url::parse("http://locahost:8080").unwrap();
/// # let client = Client::new(homeserver).unwrap();
/// let path = Path::new("/home/example/selfie.jpg");
/// let mut image = File::open(&path).unwrap();
///
/// client.upload_avatar(&mime::IMAGE_JPEG, &mut image).await.expect("Can't set avatar");
/// # })
/// ```
pub async fn upload_avatar<R: Read>(&self, content_type: &Mime, reader: &mut R) -> Result<()> {
let upload_response = self.upload(content_type, reader).await?;
self.set_avatar_url(Some(&upload_response.content_uri)).await?;
Ok(())
}
/// Add `EventHandler` to `Client`.
///
/// The methods of `EventHandler` are called when the respective
/// `RoomEvents` occur.
pub async fn set_event_handler(&self, handler: Box<dyn EventHandler>) {
let handler = Handler { inner: handler, client: self.clone() };
*self.event_handler.write().await = Some(handler);
}
/// Get all the rooms the client knows about.
///
/// This will return the list of joined, invited, and left rooms.
pub fn rooms(&self) -> Vec<room::Room> {
self.store()
.get_rooms()
.into_iter()
.map(|room| room::Common::new(self.clone(), room).into())
.collect()
}
/// Returns the joined rooms this client knows about.
pub fn joined_rooms(&self) -> Vec<room::Joined> {
self.store()
.get_rooms()
.into_iter()
.filter_map(|room| room::Joined::new(self.clone(), room))
.collect()
}
/// Returns the invited rooms this client knows about.
pub fn invited_rooms(&self) -> Vec<room::Invited> {
self.store()
.get_rooms()
.into_iter()
.filter_map(|room| room::Invited::new(self.clone(), room))
.collect()
}
/// Returns the left rooms this client knows about.
pub fn left_rooms(&self) -> Vec<room::Left> {
self.store()
.get_rooms()
.into_iter()
.filter_map(|room| room::Left::new(self.clone(), room))
.collect()
}
/// Get a room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub fn get_room(&self, room_id: &RoomId) -> Option<room::Room> {
self.store().get_room(room_id).map(|room| room::Common::new(self.clone(), room).into())
}
/// Get a joined room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub fn get_joined_room(&self, room_id: &RoomId) -> Option<room::Joined> {
self.store().get_room(room_id).and_then(|room| room::Joined::new(self.clone(), room))
}
/// Get an invited room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub fn get_invited_room(&self, room_id: &RoomId) -> Option<room::Invited> {
self.store().get_room(room_id).and_then(|room| room::Invited::new(self.clone(), room))
}
/// Get a left room with the given room id.
///
/// # Arguments
///
/// `room_id` - The unique id of the room that should be fetched.
pub fn get_left_room(&self, room_id: &RoomId) -> Option<room::Left> {
self.store().get_room(room_id).and_then(|room| room::Left::new(self.clone(), room))
}
/// Gets the homeservers supported login types.
///
/// This should be the first step when trying to login so you can call the
/// appropriate method for the next step.
pub async fn get_login_types(&self) -> Result<get_login_types::Response> {
let request = get_login_types::Request::new();
self.send(request, None).await
}
/// Get the URL to use to login via Single Sign-On.
///
/// Returns a URL that should be opened in a web browser to let the user
/// login.
///
/// After a successful login, the loginToken received at the redirect URL
/// should be used to login with [`login_with_token`].
///
/// # Arguments
///
/// * `redirect_url` - The URL that will receive a `loginToken` after a
/// successful SSO login.
///
/// [`login_with_token`]: #method.login_with_token
pub fn get_sso_login_url(&self, redirect_url: &str) -> Result<String> {
let homeserver = self.homeserver();
let request = sso_login::Request::new(redirect_url)
.try_into_http_request::<Vec<u8>>(homeserver.as_str(), SendAccessToken::None);
match request {
Ok(req) => Ok(req.uri().to_string()),
Err(err) => Err(Error::from(HttpError::from(err))),
}
}
/// Login to the server.
///
/// This can be used for the first login as well as for subsequent logins,
/// note that if the device id isn't provided a new device will be created.
///
/// If this isn't the first login a device id should be provided to restore
/// the correct stores.
///
/// Alternatively the [`restore_login`] method can be used to restore a
/// logged in client without the password.
///
/// # Arguments
///
/// * `user` - The user that should be logged in to the homeserver.
///
/// * `password` - The password of the user.
///
/// * `device_id` - A unique id that will be associated with this session.
/// If not given the homeserver will create one. Can be an existing
/// device_id from a previous login call. Note that this should be done
/// only if the client also holds the encryption keys for this device.
///
/// # Example
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::Client;
/// # use matrix_sdk::identifiers::DeviceId;
/// # use matrix_sdk_common::assign;
/// # use futures::executor::block_on;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// let client = Client::new(homeserver).unwrap();
/// let user = "example";
/// let response = client
/// .login(user, "wordpass", None, Some("My bot")).await
/// .unwrap();
///
/// println!("Logged in as {}, got device_id {} and access_token {}",
/// user, response.device_id, response.access_token);
/// # })
/// ```
///
/// [`restore_login`]: #method.restore_login
#[instrument(skip(password))]
pub async fn login(
&self,
user: &str,
password: &str,
device_id: Option<&str>,
initial_device_display_name: Option<&str>,
) -> Result<login::Response> {
info!("Logging in to {} as {:?}", self.homeserver, user);
let request = assign!(
login::Request::new(
login::LoginInfo::Password { identifier: login::UserIdentifier::MatrixId(user), password },
), {
device_id: device_id.map(|d| d.into()),
initial_device_display_name,
}
);
let response = self.send(request, None).await?;
self.base_client.receive_login_response(&response).await?;
Ok(response)
}
/// Login to the server via Single Sign-On.
///
/// This takes care of the whole SSO flow:
/// * Spawn a local http server
/// * Provide a callback to open the SSO login URL in a web browser
/// * Wait for the local http server to get the loginToken
/// * Call [`login_with_token`]
///
/// If cancellation is needed the method should be wrapped in a cancellable
/// task. **Note** that users with root access to the system have the
/// ability to snoop in on the data/token that is passed to the local
/// HTTP server that will be spawned.
///
/// If you need more control over the SSO login process, you should use
/// [`get_sso_login_url`] and [`login_with_token`] directly.
///
/// This should only be used for the first login.
///
/// The [`restore_login`] method should be used to restore a
/// logged in client after the first login.
///
/// A device id should be provided to restore the correct stores, if the
/// device id isn't provided a new device will be created.
///
/// # Arguments
///
/// * `use_sso_login_url` - A callback that will receive the SSO Login URL.
/// It should usually be used to open the SSO URL in a browser and must
/// return `Ok(())` if the URL was successfully opened. If it returns
/// `Err`, the error will be forwarded.
///
/// * `server_url` - The local URL the server is going to try to bind to, e.g. `http://localhost:3030`.
/// If `None`, the server will try to open a random port on localhost.
///
/// * `server_response` - The text that will be shown on the webpage at the
/// end of the login process. This can be an HTML page. If `None`, a
/// default text will be displayed.
///
/// * `device_id` - A unique id that will be associated with this session.
/// If not given the homeserver will create one. Can be an existing
/// device_id from a previous login call. Note that this should be
/// provided only if the client also holds the encryption keys for this
/// device.
///
/// * `initial_device_display_name` - A public display name that will be
/// associated with the device_id. Only necessary the first time you login
/// with this device_id. It can be changed later.
///
/// # Example
/// ```no_run
/// # use matrix_sdk::Client;
/// # use futures::executor::block_on;
/// # use url::Url;
/// # let homeserver = Url::parse("https://example.com").unwrap();
/// # block_on(async {
/// let client = Client::new(homeserver).unwrap();
///
/// let response = client
/// .login_with_sso(
/// |sso_url| async move {
/// // Open sso_url
/// Ok(())
/// },
/// None,
/// None,
/// None,
/// Some("My app")
/// )
/// .await
/// .unwrap();
///
/// println!("Logged in as {}, got device_id {} and access_token {}",
/// response.user_id, response.device_id, response.access_token);
/// # })
/// ```
///
/// [`get_sso_login_url`]: #method.get_sso_login_url
/// [`login_with_token`]: #method.login_with_token
/// [`restore_login`]: #method.restore_login
#[cfg(all(feature = "sso_login", not(target_arch = "wasm32")))]
#[cfg_attr(feature = "docs", doc(cfg(all(sso_login, not(target_arch = "wasm32")))))]
pub async fn login_with_sso<C>(
&self,
use_sso_login_url: impl Fn(String) -> C,
server_url: Option<&str>,
server_response: Option<&str>,
device_id: Option<&str>,
initial_device_display_name: Option<&str>,
) -> Result<login::Response>
where
C: Future<Output = Result<()>>,
{
info!("Logging in to {}", self.homeserver);
let (signal_tx, signal_rx) = oneshot::channel();
let (data_tx, data_rx) = oneshot::channel();
let data_tx_mutex = Arc::new(std::sync::Mutex::new(Some(data_tx)));
let mut redirect_url = match server_url {
Some(s) => match Url::parse(s) {
Ok(url) => url,
Err(err) => return Err(IoError::new(IoErrorKind::InvalidData, err).into()),
},
None => Url::parse("http://localhost:0/").unwrap(),
};
let response = match server_response {
Some(s) => s.to_string(),
None => String::from(
"The Single Sign-On login process is complete. You can close this page now.",
),
};
let route = warp::get().and(warp::query::<HashMap<String, String>>()).map(
move |p: HashMap<String, String>| {
if let Some(data_tx) = data_tx_mutex.lock().unwrap().take() {
if let Some(token) = p.get("loginToken") {
data_tx.send(Some(token.to_owned())).unwrap();
} else {
data_tx.send(None).unwrap();
}
}
Response::builder().body(response.clone())
},
);
let listener = {
if redirect_url.port().expect("The redirect URL doesn't include a port") == 0 {
let host = redirect_url.host_str().expect("The redirect URL doesn't have a host");
let mut n = 0u8;
let mut port = 0u16;
let mut res = Err(IoError::new(IoErrorKind::Other, ""));
let mut rng = thread_rng();
while res.is_err() && n < SSO_SERVER_BIND_TRIES {
port = rng.gen_range(SSO_SERVER_BIND_RANGE);
res = TcpListener::bind((host, port)).await;
n += 1;
}
match res {
Ok(s) => {
redirect_url
.set_port(Some(port))
.expect("Could not set new port on redirect URL");
s
}
Err(err) => return Err(err.into()),
}
} else {
match TcpListener::bind(redirect_url.as_str()).await {
Ok(s) => s,
Err(err) => return Err(err.into()),
}
}
};
let server = warp::serve(route).serve_incoming_with_graceful_shutdown(
TcpListenerStream::new(listener),
async {
signal_rx.await.ok();
},
);
tokio::spawn(server);
let sso_url = self.get_sso_login_url(redirect_url.as_str()).unwrap();
match use_sso_login_url(sso_url).await {
Ok(t) => t,
Err(err) => return Err(err),
};
let token = match data_rx.await {
Ok(Some(t)) => t,
Ok(None) => {
return Err(IoError::new(IoErrorKind::Other, "Could not get the loginToken").into())
}
Err(err) => return Err(IoError::new(IoErrorKind::Other, format!("{}", err)).into()),
};
let _ = signal_tx.send(());
self.login_with_token(token.as_str(), device_id, initial_device_display_name).await
}
/// Login to the server with a token.
///
/// This token is usually received in the SSO flow after following the URL
/// provided by [`get_sso_login_url`], note that this is not the access
/// token of a session.
///
/// This should only be used for the first login.
///
/// The [`restore_login`] method should be used to restore a
/// logged in client after the first login.
///
/// A device id should be provided to restore the correct stores, if the
/// device id isn't provided a new device will be created.
///
/// # Arguments
///
/// * `token` - A login token.
///
/// * `device_id` - A unique id that will be associated with this session.
/// If not given the homeserver will create one. Can be an existing
/// device_id from a previous login call. Note that this should be
/// provided only if the client also holds the encryption keys for this
/// device.
///
/// * `initial_device_display_name` - A public display name that will be
/// associated with the device_id. Only necessary the first time you login
/// with this device_id. It can be changed later.
///
/// # Example
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::Client;
/// # use matrix_sdk::identifiers::DeviceId;
/// # use matrix_sdk_common::assign;
/// # use futures::executor::block_on;
/// # use url::Url;
/// # let homeserver = Url::parse("https://example.com").unwrap();
/// # let redirect_url = "http://localhost:1234";
/// # let login_token = "token";
/// # block_on(async {
/// let client = Client::new(homeserver).unwrap();
/// let sso_url = client.get_sso_login_url(redirect_url);
///
/// // Let the user authenticate at the SSO URL
/// // Receive the loginToken param at redirect_url
///
/// let response = client
/// .login_with_token(login_token, None, Some("My app")).await
/// .unwrap();
///
/// println!("Logged in as {}, got device_id {} and access_token {}",
/// response.user_id, response.device_id, response.access_token);
/// # })
/// ```
///
/// [`get_sso_login_url`]: #method.get_sso_login_url
/// [`restore_login`]: #method.restore_login
#[instrument(skip(token))]
pub async fn login_with_token(
&self,
token: &str,
device_id: Option<&str>,
initial_device_display_name: Option<&str>,
) -> Result<login::Response> {
info!("Logging in to {}", self.homeserver);
let request = assign!(
login::Request::new(
login::LoginInfo::Token { token },
), {
device_id: device_id.map(|d| d.into()),
initial_device_display_name,
}
);
let response = self.send(request, None).await?;
self.base_client.receive_login_response(&response).await?;
Ok(response)
}
/// Restore a previously logged in session.
///
/// This can be used to restore the client to a logged in state, loading all
/// the stored state and encryption keys.
///
/// Alternatively, if the whole session isn't stored the [`login`] method
/// can be used with a device id.
///
/// # Arguments
///
/// * `session` - A session that the user already has from a
/// previous login call.
///
/// [`login`]: #method.login
pub async fn restore_login(&self, session: Session) -> Result<()> {
Ok(self.base_client.restore_login(session).await?)
}
/// Register a user to the server.
///
/// # Arguments
///
/// * `registration` - The easiest way to create this request is using the
/// `register::Request`
/// itself.
///
///
/// # Examples
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::Client;
/// # use matrix_sdk::api::r0::account::register::{Request as RegistrationRequest, RegistrationKind};
/// # use matrix_sdk::api::r0::uiaa::AuthData;
/// # use matrix_sdk::identifiers::DeviceId;
/// # use matrix_sdk_common::assign;
/// # use futures::executor::block_on;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
///
/// let request = assign!(RegistrationRequest::new(), {
/// username: Some("user"),
/// password: Some("password"),
/// auth: Some(AuthData::FallbackAcknowledgement { session: "foobar" }),
/// });
/// let client = Client::new(homeserver).unwrap();
/// client.register(request).await;
/// # })
/// ```
#[instrument(skip(registration))]
pub async fn register(
&self,
registration: impl Into<register::Request<'_>>,
) -> Result<register::Response> {
info!("Registering to {}", self.homeserver);
let request = registration.into();
self.send(request, None).await
}
/// Get or upload a sync filter.
///
/// This method will either get a filter ID from the store or upload the
/// filter definition to the homeserver and return the new filter ID.
///
/// # Arguments
///
/// * `filter_name` - The unique name of the filter, this name will be used
/// locally to store and identify the filter ID returned by the server.
///
/// * `definition` - The filter definition that should be uploaded to the
/// server if no filter ID can be found in the store.
///
/// # Examples
///
/// ```no_run
/// # use matrix_sdk::{
/// # Client, SyncSettings,
/// # api::r0::{
/// # filter::{
/// # FilterDefinition, LazyLoadOptions, RoomEventFilter, RoomFilter,
/// # },
/// # sync::sync_events::Filter,
/// # }
/// # };
/// # use futures::executor::block_on;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # let client = Client::new(homeserver).unwrap();
/// # block_on(async {
/// let mut filter = FilterDefinition::default();
/// let mut room_filter = RoomFilter::default();
/// let mut event_filter = RoomEventFilter::default();
///
/// // Let's enable member lazy loading.
/// event_filter.lazy_load_options = LazyLoadOptions::Enabled {
/// include_redundant_members: false,
/// };
/// room_filter.state = event_filter;
/// filter.room = room_filter;
///
/// let filter_id = client
/// .get_or_upload_filter("sync", filter)
/// .await
/// .unwrap();
///
/// let sync_settings = SyncSettings::new()
/// .filter(Filter::FilterId(&filter_id));
///
/// let response = client.sync_once(sync_settings).await.unwrap();
/// # });
pub async fn get_or_upload_filter(
&self,
filter_name: &str,
definition: FilterDefinition<'_>,
) -> Result<String> {
if let Some(filter) = self.base_client.get_filter(filter_name).await? {
Ok(filter)
} else {
let user_id = self.user_id().await.ok_or(Error::AuthenticationRequired)?;
let request = FilterUploadRequest::new(&user_id, definition);
let response = self.send(request, None).await?;
self.base_client.receive_filter_upload(filter_name, &response).await?;
Ok(response.filter_id)
}
}
/// Join a room by `RoomId`.
///
/// Returns a `join_room_by_id::Response` consisting of the
/// joined rooms `RoomId`.
///
/// # Arguments
///
/// * `room_id` - The `RoomId` of the room to be joined.
pub async fn join_room_by_id(&self, room_id: &RoomId) -> Result<join_room_by_id::Response> {
let request = join_room_by_id::Request::new(room_id);
self.send(request, None).await
}
/// Join a room by `RoomId`.
///
/// Returns a `join_room_by_id_or_alias::Response` consisting of the
/// joined rooms `RoomId`.
///
/// # Arguments
///
/// * `alias` - The `RoomId` or `RoomAliasId` of the room to be joined.
/// An alias looks like `#name:example.com`.
pub async fn join_room_by_id_or_alias(
&self,
alias: &RoomIdOrAliasId,
server_names: &[Box<ServerName>],
) -> Result<join_room_by_id_or_alias::Response> {
let request = assign!(join_room_by_id_or_alias::Request::new(alias), {
server_name: server_names,
});
self.send(request, None).await
}
/// Search the homeserver's directory of public rooms.
///
/// Sends a request to "_matrix/client/r0/publicRooms", returns
/// a `get_public_rooms::Response`.
///
/// # Arguments
///
/// * `limit` - The number of `PublicRoomsChunk`s in each response.
///
/// * `since` - Pagination token from a previous request.
///
/// * `server` - The name of the server, if `None` the requested server is
/// used.
///
/// # Examples
/// ```no_run
/// use matrix_sdk::Client;
/// # use std::convert::TryInto;
/// # use url::Url;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # let limit = Some(10);
/// # let since = Some("since token");
/// # let server = Some("servername.com".try_into().unwrap());
///
/// let mut client = Client::new(homeserver).unwrap();
/// # use futures::executor::block_on;
/// # block_on(async {
///
/// client.public_rooms(limit, since, server).await;
/// # });
/// ```
pub async fn public_rooms(
&self,
limit: Option<u32>,
since: Option<&str>,
server: Option<&ServerName>,
) -> Result<get_public_rooms::Response> {
let limit = limit.map(UInt::from);
let request = assign!(get_public_rooms::Request::new(), {
limit,
since,
server,
});
self.send(request, None).await
}
/// Create a room using the `RoomBuilder` and send the request.
///
/// Sends a request to `/_matrix/client/r0/createRoom`, returns a
/// `create_room::Response`, this is an empty response.
///
/// # Arguments
///
/// * `room` - The easiest way to create this request is using the
/// `create_room::Request` itself.
///
/// # Examples
/// ```no_run
/// use matrix_sdk::Client;
/// # use matrix_sdk::api::r0::room::{create_room::Request as CreateRoomRequest, Visibility};
/// # use url::Url;
///
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// let request = CreateRoomRequest::new();
/// let client = Client::new(homeserver).unwrap();
/// # use futures::executor::block_on;
/// # block_on(async {
/// assert!(client.create_room(request).await.is_ok());
/// # });
/// ```
pub async fn create_room(
&self,
room: impl Into<create_room::Request<'_>>,
) -> Result<create_room::Response> {
let request = room.into();
self.send(request, None).await
}
/// Search the homeserver's directory of public rooms with a filter.
///
/// Sends a request to "_matrix/client/r0/publicRooms", returns
/// a `get_public_rooms_filtered::Response`.
///
/// # Arguments
///
/// * `room_search` - The easiest way to create this request is using the
/// `get_public_rooms_filtered::Request` itself.
///
/// # Examples
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::Client;
/// # use matrix_sdk::directory::{Filter, RoomNetwork};
/// # use matrix_sdk::api::r0::directory::get_public_rooms_filtered::Request as PublicRoomsFilterRequest;
/// # use matrix_sdk_common::assign;
/// # use url::Url;
/// # use futures::executor::block_on;
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # block_on(async {
/// let mut client = Client::new(homeserver).unwrap();
///
/// let generic_search_term = Some("matrix-rust-sdk");
/// let filter = assign!(Filter::new(), { generic_search_term });
/// let request = assign!(PublicRoomsFilterRequest::new(), { filter });
///
/// client.public_rooms_filtered(request).await;
/// # })
/// ```
pub async fn public_rooms_filtered(
&self,
room_search: impl Into<get_public_rooms_filtered::Request<'_>>,
) -> Result<get_public_rooms_filtered::Response> {
let request = room_search.into();
self.send(request, None).await
}
#[cfg(feature = "encryption")]
pub(crate) async fn room_send_helper(
&self,
request: &RoomMessageRequest,
) -> Result<send_message_event::Response> {
let content = request.content.clone();
let txn_id = request.txn_id;
let room_id = &request.room_id;
self.get_joined_room(room_id)
.expect("Can't send a message to a room that isn't known to the store")
.send(content, Some(txn_id))
.await
}
/// Upload some media to the server.
///
/// # Arguments
///
/// * `content_type` - The type of the media, this will be used as the
/// content-type header.
///
/// * `reader` - A `Reader` that will be used to fetch the raw bytes of the
/// media.
///
/// # Examples
///
/// ```no_run
/// # use std::{path::PathBuf, fs::File, io::Read};
/// # use matrix_sdk::{Client, identifiers::room_id};
/// # use url::Url;
/// # use futures::executor::block_on;
/// # use mime;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// let path = PathBuf::from("/home/example/my-cat.jpg");
/// let mut image = File::open(path).unwrap();
///
/// let response = client
/// .upload(&mime::IMAGE_JPEG, &mut image)
/// .await
/// .expect("Can't upload my cat.");
///
/// println!("Cat URI: {}", response.content_uri);
/// # });
/// ```
pub async fn upload(
&self,
content_type: &Mime,
reader: &mut impl Read,
) -> Result<create_content::Response> {
let mut data = Vec::new();
reader.read_to_end(&mut data)?;
let timeout = std::cmp::max(
Duration::from_secs(data.len() as u64 / DEFAULT_UPLOAD_SPEED),
MIN_UPLOAD_REQUEST_TIMEOUT,
);
let request = assign!(create_content::Request::new(&data), {
content_type: Some(content_type.essence_str()),
});
let request_config = self.http_client.request_config.timeout(timeout);
Ok(self.http_client.upload(request, Some(request_config)).await?)
}
/// Send a room message to a room.
///
/// Returns the parsed response from the server.
///
/// If the encryption feature is enabled this method will transparently
/// encrypt the room message if this room is encrypted.
///
/// **Note**: This method will send an unencrypted message if the room
/// cannot be found in the store, prefer the higher level
/// [send()](room::Joined::send()) method that can be found for the
/// [Joined](room::Joined) room struct to avoid this.
///
/// # Arguments
///
/// * `room_id` - The unique id of the room.
///
/// * `content` - The content of the message event.
///
/// * `txn_id` - A unique `Uuid` that can be attached to a `MessageEvent`
/// held in its unsigned field as `transaction_id`. If not given one is
/// created for the message.
///
/// # Example
/// ```no_run
/// # use std::sync::{Arc, RwLock};
/// # use matrix_sdk::{Client, SyncSettings};
/// # use url::Url;
/// # use futures::executor::block_on;
/// # use matrix_sdk::identifiers::room_id;
/// # use std::convert::TryFrom;
/// use matrix_sdk::events::{
/// AnyMessageEventContent,
/// room::message::{MessageEventContent, TextMessageEventContent},
/// };
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// # let room_id = room_id!("!test:localhost");
/// use matrix_sdk_common::uuid::Uuid;
///
/// let content = AnyMessageEventContent::RoomMessage(
/// MessageEventContent::text_plain("Hello world")
/// );
///
/// let txn_id = Uuid::new_v4();
/// client.room_send(&room_id, content, Some(txn_id)).await.unwrap();
/// # })
/// ```
pub async fn room_send(
&self,
room_id: &RoomId,
content: impl Into<AnyMessageEventContent>,
txn_id: Option<Uuid>,
) -> Result<send_message_event::Response> {
if let Some(room) = self.get_joined_room(room_id) {
room.send(content, txn_id).await
} else {
let content = content.into();
let txn_id = txn_id.unwrap_or_else(Uuid::new_v4).to_string();
let request = send_message_event::Request::new(room_id, &txn_id, &content);
self.send(request, None).await
}
}
/// Send an arbitrary request to the server, without updating client state.
///
/// **Warning:** Because this method *does not* update the client state, it
/// is important to make sure than you account for this yourself, and
/// use wrapper methods where available. This method should *only* be
/// used if a wrapper method for the endpoint you'd like to use is not
/// available.
///
/// # Arguments
///
/// * `request` - A filled out and valid request for the endpoint to be hit
///
/// * `timeout` - An optional request timeout setting, this overrides the
/// default request setting if one was set.
///
/// # Example
///
/// ```no_run
/// # use matrix_sdk::{Client, SyncSettings};
/// # use futures::executor::block_on;
/// # use url::Url;
/// # use std::convert::TryFrom;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// use matrix_sdk::api::r0::profile;
/// use matrix_sdk::identifiers::user_id;
///
/// // First construct the request you want to make
/// // See https://docs.rs/ruma-client-api/latest/ruma_client_api/index.html
/// // for all available Endpoints
/// let user_id = user_id!("@example:localhost");
/// let request = profile::get_profile::Request::new(&user_id);
///
/// // Start the request using Client::send()
/// let response = client.send(request, None).await.unwrap();
///
/// // Check the corresponding Response struct to find out what types are
/// // returned
/// # })
/// ```
pub async fn send<Request>(
&self,
request: Request,
config: Option<RequestConfig>,
) -> Result<Request::IncomingResponse>
where
Request: OutgoingRequest + Debug,
HttpError: From<FromHttpResponseError<Request::EndpointError>>,
{
Ok(self.http_client.send(request, config).await?)
}
#[cfg(feature = "encryption")]
pub(crate) async fn send_to_device(
&self,
request: &ToDeviceRequest,
) -> Result<ToDeviceResponse> {
let txn_id_string = request.txn_id_string();
let request = RumaToDeviceRequest::new(
request.event_type.clone(),
&txn_id_string,
request.messages.clone(),
);
self.send(request, None).await
}
/// Get information of all our own devices.
///
/// # Examples
///
/// ```no_run
/// # use matrix_sdk::{Client, SyncSettings};
/// # use futures::executor::block_on;
/// # use url::Url;
/// # use std::convert::TryFrom;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// let response = client.devices().await.expect("Can't get devices from server");
///
/// for device in response.devices {
/// println!(
/// "Device: {} {}",
/// device.device_id,
/// device.display_name.as_deref().unwrap_or("")
/// );
/// }
/// # });
/// ```
pub async fn devices(&self) -> Result<get_devices::Response> {
let request = get_devices::Request::new();
self.send(request, None).await
}
/// Delete the given devices from the server.
///
/// # Arguments
///
/// * `devices` - The list of devices that should be deleted from the
/// server.
///
/// * `auth_data` - This request requires user interactive auth, the first
/// request needs to set this to `None` and will always fail with an
/// `UiaaResponse`. The response will contain information for the
/// interactive auth and the same request needs to be made but this time
/// with some `auth_data` provided.
///
/// ```no_run
/// # use matrix_sdk::{
/// # api::r0::uiaa::{UiaaResponse, AuthData},
/// # Client, SyncSettings, Error, FromHttpResponseError, ServerError,
/// # };
/// # use futures::executor::block_on;
/// # use serde_json::json;
/// # use url::Url;
/// # use std::{collections::BTreeMap, convert::TryFrom};
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// let devices = &["DEVICEID".into()];
///
/// if let Err(e) = client.delete_devices(devices, None).await {
/// if let Some(info) = e.uiaa_response() {
/// let mut auth_parameters = BTreeMap::new();
///
/// let identifier = json!({
/// "type": "m.id.user",
/// "user": "example",
/// });
/// auth_parameters.insert("identifier".to_owned(), identifier);
/// auth_parameters.insert("password".to_owned(), "wordpass".into());
///
/// let auth_data = AuthData::DirectRequest {
/// kind: "m.login.password",
/// auth_parameters,
/// session: info.session.as_deref(),
/// };
///
/// client
/// .delete_devices(devices, Some(auth_data))
/// .await
/// .expect("Can't delete devices");
/// }
/// }
/// # });
pub async fn delete_devices(
&self,
devices: &[DeviceIdBox],
auth_data: Option<AuthData<'_>>,
) -> Result<delete_devices::Response> {
let mut request = delete_devices::Request::new(devices);
request.auth = auth_data;
self.send(request, None).await
}
/// Synchronize the client's state with the latest state on the server.
///
/// **Note**: You should not use this method to repeatedly sync if
/// encryption support is enabled, the [`sync`] method will make
/// additional requests between syncs that are needed for E2E encryption
/// to work.
///
/// # Arguments
///
/// * `sync_settings` - Settings for the sync call.
///
/// [`sync`]: #method.sync
#[instrument]
pub async fn sync_once(&self, sync_settings: SyncSettings<'_>) -> Result<SyncResponse> {
let request = assign!(sync_events::Request::new(), {
filter: sync_settings.filter.as_ref(),
since: sync_settings.token.as_deref(),
full_state: sync_settings.full_state,
set_presence: &PresenceState::Online,
timeout: sync_settings.timeout,
});
let request_config = self.http_client.request_config.timeout(
sync_settings.timeout.unwrap_or_else(|| Duration::from_secs(0))
+ self.http_client.request_config.timeout,
);
let response = self.send(request, Some(request_config)).await?;
let sync_response = self.base_client.receive_sync_response(response).await?;
if let Some(handler) = self.event_handler.read().await.as_ref() {
handler.handle_sync(&sync_response).await;
}
Ok(sync_response)
}
/// Repeatedly call sync to synchronize the client state with the server.
///
/// This method will never return, if cancellation is needed the method
/// should be wrapped in a cancelable task or the [`sync_with_callback`]
/// method can be used.
///
/// # Arguments
///
/// * `sync_settings` - Settings for the sync call. Note that those settings
/// will be only used for the first sync call.
///
/// [`sync_with_callback`]: #method.sync_with_callback
pub async fn sync(&self, sync_settings: SyncSettings<'_>) {
self.sync_with_callback(sync_settings, |_| async { LoopCtrl::Continue }).await
}
/// Repeatedly call sync to synchronize the client state with the server.
///
/// # Arguments
///
/// * `sync_settings` - Settings for the sync call. Note that those settings
/// will be only used for the first sync call.
///
/// * `callback` - A callback that will be called every time a successful
/// response has been fetched from the server. The callback must return a
/// boolean which signalizes if the method should stop syncing. If the
/// callback returns `LoopCtrl::Continue` the sync will continue, if the
/// callback returns `LoopCtrl::Break` the sync will be stopped.
///
/// # Examples
///
/// The following example demonstrates how to sync forever while sending all
/// the interesting events through a mpsc channel to another thread e.g. a
/// UI thread.
///
/// ```no_run
/// # use matrix_sdk::events::{
/// # room::message::{MessageEvent, MessageEventContent, TextMessageEventContent},
/// # };
/// # use std::sync::{Arc, RwLock};
/// # use std::time::Duration;
/// # use matrix_sdk::{Client, SyncSettings, LoopCtrl};
/// # use url::Url;
/// # use futures::executor::block_on;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
///
/// use tokio::sync::mpsc::channel;
///
/// let (tx, rx) = channel(100);
///
/// let sync_channel = &tx;
/// let sync_settings = SyncSettings::new()
/// .timeout(Duration::from_secs(30));
///
/// client
/// .sync_with_callback(sync_settings, |response| async move {
/// let channel = sync_channel;
///
/// for (room_id, room) in response.rooms.join {
/// for event in room.timeline.events {
/// channel.send(event).await.unwrap();
/// }
/// }
///
/// LoopCtrl::Continue
/// })
/// .await;
/// })
/// ```
#[instrument(skip(callback))]
pub async fn sync_with_callback<C>(
&self,
mut sync_settings: SyncSettings<'_>,
callback: impl Fn(SyncResponse) -> C,
) where
C: Future<Output = LoopCtrl>,
{
let mut last_sync_time: Option<Instant> = None;
if sync_settings.token.is_none() {
sync_settings.token = self.sync_token().await;
}
loop {
let response = self.sync_once(sync_settings.clone()).await;
let response = match response {
Ok(r) => r,
Err(e) => {
error!("Received an invalid response: {}", e);
sleep::new(Duration::from_secs(1)).await;
continue;
}
};
#[cfg(feature = "encryption")]
{
// This is needed because sometimes we need to automatically
// claim some one-time keys to unwedge an exisitng Olm session.
if let Err(e) = self.claim_one_time_keys([].iter()).await {
warn!("Error while claiming one-time keys {:?}", e);
}
// TODO we should probably abort if we get an cryptostore error here
let outgoing_requests = match self.base_client.outgoing_requests().await {
Ok(r) => r,
Err(e) => {
warn!("Could not fetch the outgoing requests {:?}", e);
vec![]
}
};
for r in outgoing_requests {
match r.request() {
OutgoingRequests::KeysQuery(request) => {
if let Err(e) =
self.keys_query(r.request_id(), request.device_keys.clone()).await
{
warn!("Error while querying device keys {:?}", e);
}
}
OutgoingRequests::KeysUpload(request) => {
if let Err(e) = self.keys_upload(&r.request_id(), request).await {
warn!("Error while querying device keys {:?}", e);
}
}
OutgoingRequests::ToDeviceRequest(request) => {
// TODO remove this unwrap
if let Ok(resp) = self.send_to_device(&request).await {
self.base_client
.mark_request_as_sent(&r.request_id(), &resp)
.await
.unwrap();
}
}
OutgoingRequests::SignatureUpload(request) => {
// TODO remove this unwrap.
if let Ok(resp) = self.send(request.clone(), None).await {
self.base_client
.mark_request_as_sent(&r.request_id(), &resp)
.await
.unwrap();
}
}
OutgoingRequests::RoomMessage(request) => {
if let Ok(resp) = self.room_send_helper(request).await {
self.base_client
.mark_request_as_sent(&r.request_id(), &resp)
.await
.unwrap();
}
}
}
}
}
if callback(response).await == LoopCtrl::Break {
return;
}
let now = Instant::now();
// If the last sync happened less than a second ago, sleep for a
// while to not hammer out requests if the server doesn't respect
// the sync timeout.
if let Some(t) = last_sync_time {
if now - t <= Duration::from_secs(1) {
sleep::new(Duration::from_secs(1)).await;
}
}
last_sync_time = Some(now);
sync_settings.token =
Some(self.sync_token().await.expect("No sync token found after initial sync"));
}
}
/// Claim one-time keys creating new Olm sessions.
///
/// # Arguments
///
/// * `users` - The list of user/device pairs that we should claim keys for.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
#[instrument(skip(users))]
pub(crate) async fn claim_one_time_keys(
&self,
users: impl Iterator<Item = &UserId>,
) -> Result<()> {
let _lock = self.key_claim_lock.lock().await;
if let Some((request_id, request)) = self.base_client.get_missing_sessions(users).await? {
let response = self.send(request, None).await?;
self.base_client.mark_request_as_sent(&request_id, &response).await?;
}
Ok(())
}
/// Upload the E2E encryption keys.
///
/// This uploads the long lived device keys as well as the required amount
/// of one-time keys.
///
/// # Panics
///
/// Panics if the client isn't logged in, or if no encryption keys need to
/// be uploaded.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
#[instrument]
async fn keys_upload(
&self,
request_id: &Uuid,
request: &upload_keys::Request,
) -> Result<upload_keys::Response> {
debug!(
"Uploading encryption keys device keys: {}, one-time-keys: {}",
request.device_keys.is_some(),
request.one_time_keys.as_ref().map_or(0, |k| k.len())
);
let response = self.send(request.clone(), None).await?;
self.base_client.mark_request_as_sent(request_id, &response).await?;
Ok(response)
}
/// 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.base_client.sync_token().await
}
/// Query the server for users device keys.
///
/// # Panics
///
/// Panics if no key query needs to be done.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
#[instrument]
async fn keys_query(
&self,
request_id: &Uuid,
device_keys: BTreeMap<UserId, Vec<DeviceIdBox>>,
) -> Result<get_keys::Response> {
let request = assign!(get_keys::Request::new(), { device_keys });
let response = self.send(request, None).await?;
self.base_client.mark_request_as_sent(request_id, &response).await?;
Ok(response)
}
/// Get a `Sas` verification object with the given flow id.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn get_verification(&self, flow_id: &str) -> Option<Sas> {
self.base_client
.get_verification(flow_id)
.await
.map(|sas| Sas { inner: sas, client: self.clone() })
}
/// Get a `VerificationRequest` object with the given flow id.
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn get_verification_request(&self, flow_id: &EventId) -> Option<VerificationRequest> {
let olm = self.base_client.olm_machine().await?;
olm.get_verification_request(flow_id).and_then(|r| {
self.get_joined_room(r.room_id()).map(|room| VerificationRequest { inner: r, room })
})
}
/// Get a specific device of a user.
///
/// # Arguments
///
/// * `user_id` - The unique id of the user that the device belongs to.
///
/// * `device_id` - The unique id of the device.
///
/// Returns a `Device` if one is found and the crypto store didn't throw an
/// error.
///
/// This will always return None if the client hasn't been logged in.
///
/// # Example
///
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::{Client, identifiers::UserId};
/// # use url::Url;
/// # use futures::executor::block_on;
/// # let alice = UserId::try_from("@alice:example.org").unwrap();
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # let client = Client::new(homeserver).unwrap();
/// # block_on(async {
/// let device = client.get_device(&alice, "DEVICEID".into())
/// .await
/// .unwrap()
/// .unwrap();
///
/// println!("{:?}", device.is_trusted());
///
/// let verification = device.start_verification().await.unwrap();
/// # });
/// ```
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn get_device(
&self,
user_id: &UserId,
device_id: &DeviceId,
) -> StdResult<Option<Device>, CryptoStoreError> {
let device = self.base_client.get_device(user_id, device_id).await?;
Ok(device.map(|d| Device { inner: d, client: self.clone() }))
}
/// Create and upload a new cross signing identity.
///
/// # Arguments
///
/// * `auth_data` - This request requires user interactive auth, the first
/// request needs to set this to `None` and will always fail with an
/// `UiaaResponse`. The response will contain information for the
/// interactive auth and the same request needs to be made but this time
/// with some `auth_data` provided.
///
/// # Examples
/// ```no_run
/// # use std::{convert::TryFrom, collections::BTreeMap};
/// # use matrix_sdk::{Client, identifiers::UserId};
/// # use matrix_sdk::api::r0::uiaa::AuthData;
/// # use url::Url;
/// # use futures::executor::block_on;
/// # use serde_json::json;
/// # let user_id = UserId::try_from("@alice:example.org").unwrap();
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # let client = Client::new(homeserver).unwrap();
/// # block_on(async {
///
/// fn auth_data<'a>(user: &UserId, password: &str, session: Option<&'a str>) -> AuthData<'a> {
/// let mut auth_parameters = BTreeMap::new();
/// let identifier = json!({
/// "type": "m.id.user",
/// "user": user,
/// });
/// auth_parameters.insert("identifier".to_owned(), identifier);
/// auth_parameters.insert("password".to_owned(), password.to_owned().into());
///
/// AuthData::DirectRequest {
/// kind: "m.login.password",
/// auth_parameters,
/// session,
/// }
/// }
///
/// if let Err(e) = client.bootstrap_cross_signing(None).await {
/// if let Some(response) = e.uiaa_response() {
/// let auth_data = auth_data(&user_id, "wordpass", response.session.as_deref());
/// client
/// .bootstrap_cross_signing(Some(auth_data))
/// .await
/// .expect("Couldn't bootstrap cross signing")
/// } else {
/// panic!("Error durign cross signing bootstrap {:#?}", e);
/// }
/// }
/// # })
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn bootstrap_cross_signing(&self, auth_data: Option<AuthData<'_>>) -> Result<()> {
let olm = self.base_client.olm_machine().await.ok_or(Error::AuthenticationRequired)?;
let (request, signature_request) = olm.bootstrap_cross_signing(false).await?;
let request = assign!(UploadSigningKeysRequest::new(), {
auth: auth_data,
master_key: request.master_key,
self_signing_key: request.self_signing_key,
user_signing_key: request.user_signing_key,
});
self.send(request, None).await?;
self.send(signature_request, None).await?;
Ok(())
}
/// Get a map holding all the devices of an user.
///
/// This will always return an empty map if the client hasn't been logged
/// in.
///
/// # Arguments
///
/// * `user_id` - The unique id of the user that the devices belong to.
///
/// # Example
///
/// ```no_run
/// # use std::convert::TryFrom;
/// # use matrix_sdk::{Client, identifiers::UserId};
/// # use url::Url;
/// # use futures::executor::block_on;
/// # let alice = UserId::try_from("@alice:example.org").unwrap();
/// # let homeserver = Url::parse("http://example.com").unwrap();
/// # let client = Client::new(homeserver).unwrap();
/// # block_on(async {
/// let devices = client.get_user_devices(&alice).await.unwrap();
///
/// for device in devices.devices() {
/// println!("{:?}", device);
/// }
/// # });
/// ```
#[cfg(feature = "encryption")]
#[cfg_attr(feature = "docs", doc(cfg(encryption)))]
pub async fn get_user_devices(
&self,
user_id: &UserId,
) -> StdResult<UserDevices, CryptoStoreError> {
let devices = self.base_client.get_user_devices(user_id).await?;
Ok(UserDevices { inner: devices, client: self.clone() })
}
/// Export E2EE keys that match the given predicate encrypting them with the
/// given passphrase.
///
/// # Arguments
///
/// * `path` - The file path where the exported key file will be saved.
///
/// * `passphrase` - The passphrase that will be used to encrypt the
/// exported
/// room keys.
///
/// * `predicate` - A closure that will be called for every known
/// `InboundGroupSession`, which represents a room key. If the closure
/// returns `true` the `InboundGroupSessoin` will be included in the export,
/// if the closure returns `false` it will not be included.
///
/// # Panics
///
/// This method will panic if it isn't run on a Tokio runtime.
///
/// This method will panic if it can't get enough randomness from the OS to
/// encrypt the exported keys securely.
///
/// # Examples
///
/// ```no_run
/// # use std::{path::PathBuf, time::Duration};
/// # use matrix_sdk::{
/// # Client, SyncSettings,
/// # identifiers::room_id,
/// # };
/// # use futures::executor::block_on;
/// # use url::Url;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// let path = PathBuf::from("/home/example/e2e-keys.txt");
/// // Export all room keys.
/// client
/// .export_keys(path, "secret-passphrase", |_| true)
/// .await
/// .expect("Can't export keys.");
///
/// // Export only the room keys for a certain room.
/// let path = PathBuf::from("/home/example/e2e-room-keys.txt");
/// let room_id = room_id!("!test:localhost");
///
/// client
/// .export_keys(path, "secret-passphrase", |s| s.room_id() == &room_id)
/// .await
/// .expect("Can't export keys.");
/// # });
/// ```
#[cfg(feature = "encryption")]
#[cfg(not(target_arch = "wasm32"))]
#[cfg_attr(feature = "docs", doc(cfg(all(encryption, not(target_arch = "wasm32")))))]
pub async fn export_keys(
&self,
path: PathBuf,
passphrase: &str,
predicate: impl FnMut(&InboundGroupSession) -> bool,
) -> Result<()> {
let olm = self.base_client.olm_machine().await.ok_or(Error::AuthenticationRequired)?;
let keys = olm.export_keys(predicate).await?;
let passphrase = Zeroizing::new(passphrase.to_owned());
let encrypt = move || -> Result<()> {
let export: String = encrypt_key_export(&keys, &passphrase, 500_000)?;
let mut file = std::fs::File::create(path)?;
file.write_all(&export.into_bytes())?;
Ok(())
};
let task = tokio::task::spawn_blocking(encrypt);
task.await.expect("Task join error")
}
/// Import E2EE keys from the given file path.
///
/// # Arguments
///
/// * `path` - The file path where the exported key file will can be found.
///
/// * `passphrase` - The passphrase that should be used to decrypt the
/// exported room keys.
///
/// Returns a tuple of numbers that represent the number of sessions that
/// were imported and the total number of sessions that were found in the
/// key export.
///
/// # Panics
///
/// This method will panic if it isn't run on a Tokio runtime.
///
/// ```no_run
/// # use std::{path::PathBuf, time::Duration};
/// # use matrix_sdk::{
/// # Client, SyncSettings,
/// # identifiers::room_id,
/// # };
/// # use futures::executor::block_on;
/// # use url::Url;
/// # block_on(async {
/// # let homeserver = Url::parse("http://localhost:8080").unwrap();
/// # let mut client = Client::new(homeserver).unwrap();
/// let path = PathBuf::from("/home/example/e2e-keys.txt");
/// client
/// .import_keys(path, "secret-passphrase")
/// .await
/// .expect("Can't import keys");
/// # });
/// ```
#[cfg(feature = "encryption")]
#[cfg(not(target_arch = "wasm32"))]
#[cfg_attr(feature = "docs", doc(cfg(all(encryption, not(target_arch = "wasm32")))))]
pub async fn import_keys(&self, path: PathBuf, passphrase: &str) -> Result<(usize, usize)> {
let olm = self.base_client.olm_machine().await.ok_or(Error::AuthenticationRequired)?;
let passphrase = Zeroizing::new(passphrase.to_owned());
let decrypt = move || {
let file = std::fs::File::open(path)?;
decrypt_key_export(file, &passphrase)
};
let task = tokio::task::spawn_blocking(decrypt);
// TODO remove this unwrap.
let import = task.await.expect("Task join error").unwrap();
Ok(olm.import_keys(import, |_, _| {}).await?)
}
}
#[cfg(test)]
mod test {
use std::{collections::BTreeMap, convert::TryInto, io::Cursor, str::FromStr, time::Duration};
use matrix_sdk_base::identifiers::mxc_uri;
use matrix_sdk_common::{
api::r0::{
account::register::Request as RegistrationRequest,
directory::get_public_rooms_filtered::Request as PublicRoomsFilterRequest,
membership::Invite3pid, session::get_login_types::LoginType, uiaa::AuthData,
},
assign,
directory::Filter,
events::{room::message::MessageEventContent, AnyMessageEventContent},
identifiers::{event_id, room_id, user_id},
thirdparty,
};
use matrix_sdk_test::{test_json, EventBuilder, EventsJson};
use mockito::{mock, Matcher};
use serde_json::json;
use super::{
get_public_rooms, get_public_rooms_filtered, register::RegistrationKind, Client, Session,
SyncSettings, Url,
};
use crate::{ClientConfig, HttpError, RequestConfig, RoomMember};
async fn logged_in_client() -> Client {
let session = Session {
access_token: "1234".to_owned(),
user_id: user_id!("@example:localhost"),
device_id: "DEVICEID".into(),
};
let homeserver = url::Url::parse(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
client.restore_login(session).await.unwrap();
client
}
#[tokio::test]
async fn login() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m_types = mock("GET", "/_matrix/client/r0/login")
.with_status(200)
.with_body(test_json::LOGIN_TYPES.to_string())
.create();
let can_password = client
.get_login_types()
.await
.unwrap()
.flows
.iter()
.any(|flow| matches!(flow, LoginType::Password(_)));
assert!(can_password);
let _m_login = mock("POST", "/_matrix/client/r0/login")
.with_status(200)
.with_body(test_json::LOGIN.to_string())
.create();
client.login("example", "wordpass", None, None).await.unwrap();
let logged_in = client.logged_in().await;
assert!(logged_in, "Client should be logged in");
}
#[cfg(feature = "sso_login")]
#[tokio::test]
async fn login_with_sso() {
let _m_login = mock("POST", "/_matrix/client/r0/login")
.with_status(200)
.with_body(test_json::LOGIN.to_string())
.create();
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
client
.login_with_sso(
|sso_url| async move {
let sso_url = Url::parse(sso_url.as_str()).unwrap();
let (_, redirect) =
sso_url.query_pairs().find(|(key, _)| key == "redirectUrl").unwrap();
let mut redirect_url = Url::parse(redirect.into_owned().as_str()).unwrap();
redirect_url.set_query(Some("loginToken=tinytoken"));
reqwest::get(redirect_url.to_string()).await.unwrap();
Ok(())
},
None,
None,
None,
None,
)
.await
.unwrap();
let logged_in = client.logged_in().await;
assert!(logged_in, "Client should be logged in");
}
#[tokio::test]
async fn login_with_sso_token() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m = mock("GET", "/_matrix/client/r0/login")
.with_status(200)
.with_body(test_json::LOGIN_TYPES.to_string())
.create();
let can_sso = client
.get_login_types()
.await
.unwrap()
.flows
.iter()
.any(|flow| matches!(flow, LoginType::Sso(_)));
assert!(can_sso);
let sso_url = client.get_sso_login_url("http://127.0.0.1:3030");
assert!(sso_url.is_ok());
let _m = mock("POST", "/_matrix/client/r0/login")
.with_status(200)
.with_body(test_json::LOGIN.to_string())
.create();
client.login_with_token("averysmalltoken", None, None).await.unwrap();
let logged_in = client.logged_in().await;
assert!(logged_in, "Client should be logged in");
}
#[tokio::test]
async fn devices() {
let client = logged_in_client().await;
let _m = mock("GET", "/_matrix/client/r0/devices")
.with_status(200)
.with_body(test_json::DEVICES.to_string())
.create();
assert!(client.devices().await.is_ok());
}
#[tokio::test]
async fn test_join_leave_room() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let room_id = room_id!("!SVkFJHzfwvuaIEawgC:localhost");
let session = Session {
access_token: "1234".to_owned(),
user_id: user_id!("@example:localhost"),
device_id: "DEVICEID".into(),
};
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.with_body(test_json::SYNC.to_string())
.create();
let client = Client::new(homeserver.clone()).unwrap();
client.restore_login(session.clone()).await.unwrap();
let room = client.get_joined_room(&room_id);
assert!(room.is_none());
client.sync_once(SyncSettings::default()).await.unwrap();
let room = client.get_left_room(&room_id);
assert!(room.is_none());
let room = client.get_joined_room(&room_id);
assert!(room.is_some());
// test store reloads with correct room state from the sled store
let path = tempfile::tempdir().unwrap();
let config = ClientConfig::default().store_path(path);
let joined_client = Client::new_with_config(homeserver, config).unwrap();
joined_client.restore_login(session).await.unwrap();
// joined room reloaded from state store
joined_client.sync_once(SyncSettings::default()).await.unwrap();
let room = joined_client.get_joined_room(&room_id);
assert!(room.is_some());
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.with_body(test_json::LEAVE_SYNC_EVENT.to_string())
.create();
joined_client.sync_once(SyncSettings::default()).await.unwrap();
let room = joined_client.get_joined_room(&room_id);
assert!(room.is_none());
let room = joined_client.get_left_room(&room_id);
assert!(room.is_some());
}
#[tokio::test]
async fn account_data() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.with_body(test_json::SYNC.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
// let bc = &client.base_client;
// let ignored_users = bc.ignored_users.read().await;
// assert_eq!(1, ignored_users.len())
}
#[tokio::test]
async fn room_creation() {
let client = logged_in_client().await;
let response = EventBuilder::default()
.add_state_event(EventsJson::Member)
.add_state_event(EventsJson::PowerLevels)
.build_sync_response();
client.base_client.receive_sync_response(response).await.unwrap();
let room_id = room_id!("!SVkFJHzfwvuaIEawgC:localhost");
assert_eq!(client.homeserver(), &Url::parse(&mockito::server_url()).unwrap());
let room = client.get_joined_room(&room_id);
assert!(room.is_some());
}
#[tokio::test]
async fn login_error() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m = mock("POST", "/_matrix/client/r0/login")
.with_status(403)
.with_body(test_json::LOGIN_RESPONSE_ERR.to_string())
.create();
if let Err(err) = client.login("example", "wordpass", None, None).await {
if let crate::Error::Http(HttpError::ClientApi(crate::FromHttpResponseError::Http(
crate::ServerError::Known(crate::api::Error { kind, message, status_code }),
))) = err
{
if let crate::api::error::ErrorKind::Forbidden = kind {
} else {
panic!("found the wrong `ErrorKind` {:?}, expected `Forbidden", kind);
}
assert_eq!(message, "Invalid password".to_string());
assert_eq!(status_code, http::StatusCode::from_u16(403).unwrap());
} else {
panic!("found the wrong `Error` type {:?}, expected `Error::RumaResponse", err);
}
} else {
panic!("this request should return an `Err` variant")
}
}
#[tokio::test]
async fn register_error() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/register\?.*$".to_string()))
.with_status(403)
.with_body(test_json::REGISTRATION_RESPONSE_ERR.to_string())
.create();
let user = assign!(RegistrationRequest::new(), {
username: Some("user"),
password: Some("password"),
auth: Some(AuthData::FallbackAcknowledgement { session: "foobar" }),
kind: RegistrationKind::User,
});
if let Err(err) = client.register(user).await {
if let crate::Error::Http(HttpError::UiaaError(crate::FromHttpResponseError::Http(
crate::ServerError::Known(crate::api::r0::uiaa::UiaaResponse::MatrixError(
crate::api::Error { kind, message, status_code },
)),
))) = err
{
if let crate::api::error::ErrorKind::Forbidden = kind {
} else {
panic!("found the wrong `ErrorKind` {:?}, expected `Forbidden", kind);
}
assert_eq!(message, "Invalid password".to_string());
assert_eq!(status_code, http::StatusCode::from_u16(403).unwrap());
} else {
panic!("found the wrong `Error` type {:#?}, expected `UiaaResponse`", err);
}
} else {
panic!("this request should return an `Err` variant")
}
}
#[tokio::test]
async fn join_room_by_id() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/join".to_string()))
.with_status(200)
.with_body(test_json::ROOM_ID.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let room_id = room_id!("!testroom:example.org");
assert_eq!(
// this is the `join_by_room_id::Response` but since no PartialEq we check the RoomId
// field
client.join_room_by_id(&room_id).await.unwrap().room_id,
room_id
);
}
#[tokio::test]
async fn join_room_by_id_or_alias() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/join/".to_string()))
.with_status(200)
.with_body(test_json::ROOM_ID.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let room_id = room_id!("!testroom:example.org").into();
assert_eq!(
// this is the `join_by_room_id::Response` but since no PartialEq we check the RoomId
// field
client
.join_room_by_id_or_alias(&room_id, &["server.com".try_into().unwrap()])
.await
.unwrap()
.room_id,
room_id!("!testroom:example.org")
);
}
#[tokio::test]
async fn invite_user_by_id() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/invite".to_string()))
.with_status(200)
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let user = user_id!("@example:localhost");
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.invite_user_by_id(&user).await.unwrap();
}
#[tokio::test]
async fn invite_user_by_3pid() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/invite".to_string()))
.with_status(200)
// empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.invite_user_by_3pid(Invite3pid {
id_server: "example.org",
id_access_token: "IdToken",
medium: thirdparty::Medium::Email,
address: "address",
})
.await
.unwrap();
}
#[tokio::test]
async fn room_search_all() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/publicRooms".to_string()))
.with_status(200)
.with_body(test_json::PUBLIC_ROOMS.to_string())
.create();
let get_public_rooms::Response { chunk, .. } =
client.public_rooms(Some(10), None, None).await.unwrap();
assert_eq!(chunk.len(), 1);
}
#[tokio::test]
async fn room_search_filtered() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/publicRooms".to_string()))
.with_status(200)
.with_body(test_json::PUBLIC_ROOMS.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let generic_search_term = Some("cheese");
let filter = assign!(Filter::new(), { generic_search_term });
let request = assign!(PublicRoomsFilterRequest::new(), { filter });
let get_public_rooms_filtered::Response { chunk, .. } =
client.public_rooms_filtered(request).await.unwrap();
assert_eq!(chunk.len(), 1);
}
#[tokio::test]
async fn leave_room() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/leave".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.leave().await.unwrap();
}
#[tokio::test]
async fn ban_user() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/ban".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let user = user_id!("@example:localhost");
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.ban_user(&user, None).await.unwrap();
}
#[tokio::test]
async fn kick_user() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/kick".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let user = user_id!("@example:localhost");
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.kick_user(&user, None).await.unwrap();
}
#[tokio::test]
async fn forget_room() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/forget".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::LEAVE_SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_left_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.forget().await.unwrap();
}
#[tokio::test]
async fn read_receipt() {
let client = logged_in_client().await;
let _m = mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/receipt".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let event_id = event_id!("$xxxxxx:example.org");
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.read_receipt(&event_id).await.unwrap();
}
#[tokio::test]
async fn read_marker() {
let client = logged_in_client().await;
let _m =
mock("POST", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/read_markers".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let event_id = event_id!("$xxxxxx:example.org");
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.read_marker(&event_id, None).await.unwrap();
}
#[tokio::test]
async fn typing_notice() {
let client = logged_in_client().await;
let _m = mock("PUT", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/typing".to_string()))
.with_status(200)
// this is an empty JSON object
.with_body(test_json::LOGOUT.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
room.typing_notice(true).await.unwrap();
}
#[tokio::test]
async fn room_state_event_send() {
use crate::events::{
room::member::{MemberEventContent, MembershipState},
AnyStateEventContent,
};
let client = logged_in_client().await;
let _m = mock("PUT", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/state/.*".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::EVENT_ID.to_string())
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room_id = room_id!("!SVkFJHzfwvuaIEawgC:localhost");
let room = client.get_joined_room(&room_id).unwrap();
let avatar_url = mxc_uri!("mxc://example.org/avA7ar");
let member_event = MemberEventContent {
avatar_url: Some(avatar_url),
membership: MembershipState::Join,
is_direct: None,
displayname: None,
third_party_invite: None,
};
let content = AnyStateEventContent::RoomMember(member_event);
let response = room.send_state_event(content, "").await.unwrap();
assert_eq!(event_id!("$h29iv0s8:example.com"), response.event_id);
}
#[tokio::test]
async fn room_message_send() {
use matrix_sdk_common::uuid::Uuid;
let client = logged_in_client().await;
let _m = mock("PUT", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/send/".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::EVENT_ID.to_string())
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
let content =
AnyMessageEventContent::RoomMessage(MessageEventContent::text_plain("Hello world"));
let txn_id = Uuid::new_v4();
let response = room.send(content, Some(txn_id)).await.unwrap();
assert_eq!(event_id!("$h29iv0s8:example.com"), response.event_id)
}
#[tokio::test]
async fn room_attachment_send() {
let client = logged_in_client().await;
let _m = mock("PUT", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/send/".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::EVENT_ID.to_string())
.create();
let _m = mock("POST", Matcher::Regex(r"^/_matrix/media/r0/upload".to_string()))
.with_status(200)
.match_header("content-type", "image/jpeg")
.with_body(
json!({
"content_uri": "mxc://example.com/AQwafuaFswefuhsfAFAgsw"
})
.to_string(),
)
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
let mut media = Cursor::new("Hello world");
let response =
room.send_attachment("image", &mime::IMAGE_JPEG, &mut media, None).await.unwrap();
assert_eq!(event_id!("$h29iv0s8:example.com"), response.event_id)
}
#[tokio::test]
async fn room_redact() {
use matrix_sdk_common::uuid::Uuid;
let client = logged_in_client().await;
let _m =
mock("PUT", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/redact/.*?/.*?".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::EVENT_ID.to_string())
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
let event_id = event_id!("$xxxxxxxx:example.com");
let txn_id = Uuid::new_v4();
let reason = Some("Indecent material");
let response = room.redact(&event_id, reason, Some(txn_id)).await.unwrap();
assert_eq!(event_id!("$h29iv0s8:example.com"), response.event_id)
}
#[tokio::test]
async fn user_presence() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/rooms/.*/members".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::MEMBERS.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
let members: Vec<RoomMember> = room.active_members().await.unwrap();
assert_eq!(1, members.len());
// assert!(room.power_levels.is_some())
}
#[tokio::test]
async fn calculate_room_names_from_summary() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::DEFAULT_SYNC_SUMMARY.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
assert_eq!("example2", room.display_name().await.unwrap());
}
#[tokio::test]
async fn invited_rooms() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::INVITE_SYNC.to_string())
.create();
let _response = client.sync_once(SyncSettings::default()).await.unwrap();
assert!(client.joined_rooms().is_empty());
assert!(client.left_rooms().is_empty());
assert!(!client.invited_rooms().is_empty());
assert!(client.get_invited_room(&room_id!("!696r7674:example.com")).is_some());
}
#[tokio::test]
async fn left_rooms() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::LEAVE_SYNC.to_string())
.create();
let _response = client.sync_once(SyncSettings::default()).await.unwrap();
assert!(client.joined_rooms().is_empty());
assert!(!client.left_rooms().is_empty());
assert!(client.invited_rooms().is_empty());
assert!(client.get_left_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).is_some())
}
#[tokio::test]
async fn sync() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.with_body(test_json::SYNC.to_string())
.match_header("authorization", "Bearer 1234")
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let response = client.sync_once(sync_settings).await.unwrap();
assert_ne!(response.next_batch, "");
assert!(client.sync_token().await.is_some());
}
#[tokio::test]
async fn room_names() {
let client = logged_in_client().await;
let _m = mock("GET", Matcher::Regex(r"^/_matrix/client/r0/sync\?.*$".to_string()))
.with_status(200)
.match_header("authorization", "Bearer 1234")
.with_body(test_json::SYNC.to_string())
.create();
let sync_settings = SyncSettings::new().timeout(Duration::from_millis(3000));
let _response = client.sync_once(sync_settings).await.unwrap();
let room = client.get_joined_room(&room_id!("!SVkFJHzfwvuaIEawgC:localhost")).unwrap();
assert_eq!("tutorial".to_string(), room.display_name().await.unwrap());
}
#[tokio::test]
async fn delete_devices() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let client = Client::new(homeserver).unwrap();
let _m = mock("POST", "/_matrix/client/r0/delete_devices")
.with_status(401)
.with_body(
json!({
"flows": [
{
"stages": [
"m.login.password"
]
}
],
"params": {},
"session": "vBslorikviAjxzYBASOBGfPp"
})
.to_string(),
)
.create();
let _m = mock("POST", "/_matrix/client/r0/delete_devices")
.with_status(401)
// empty response
// TODO rename that response type.
.with_body(test_json::LOGOUT.to_string())
.create();
let devices = &["DEVICEID".into()];
if let Err(e) = client.delete_devices(devices, None).await {
if let Some(info) = e.uiaa_response() {
let mut auth_parameters = BTreeMap::new();
let identifier = json!({
"type": "m.id.user",
"user": "example",
});
auth_parameters.insert("identifier".to_owned(), identifier);
auth_parameters.insert("password".to_owned(), "wordpass".into());
let auth_data = AuthData::DirectRequest {
kind: "m.login.password",
auth_parameters,
session: info.session.as_deref(),
};
client.delete_devices(devices, Some(auth_data)).await.unwrap();
}
}
}
#[tokio::test]
async fn retry_limit_http_requests() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let config = ClientConfig::default().request_config(RequestConfig::new().retry_limit(3));
assert!(config.request_config.retry_limit.unwrap() == 3);
let client = Client::new_with_config(homeserver, config).unwrap();
let m = mock("POST", "/_matrix/client/r0/login").with_status(501).expect(3).create();
if client.login("example", "wordpass", None, None).await.is_err() {
m.assert();
} else {
panic!("this request should return an `Err` variant")
}
}
#[tokio::test]
async fn retry_timeout_http_requests() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
// Keep this timeout small so that the test doesn't take long
let retry_timeout = Duration::from_secs(5);
let config = ClientConfig::default()
.request_config(RequestConfig::new().retry_timeout(retry_timeout));
assert!(config.request_config.retry_timeout.unwrap() == retry_timeout);
let client = Client::new_with_config(homeserver, config).unwrap();
let m =
mock("POST", "/_matrix/client/r0/login").with_status(501).expect_at_least(2).create();
if client.login("example", "wordpass", None, None).await.is_err() {
m.assert();
} else {
panic!("this request should return an `Err` variant")
}
}
#[tokio::test]
async fn no_retry_http_requests() {
let homeserver = Url::from_str(&mockito::server_url()).unwrap();
let config = ClientConfig::default().request_config(RequestConfig::new().disable_retry());
assert!(config.request_config.retry_limit.unwrap() == 0);
let client = Client::new_with_config(homeserver, config).unwrap();
let m = mock("POST", "/_matrix/client/r0/login").with_status(501).create();
if client.login("example", "wordpass", None, None).await.is_err() {
m.assert();
} else {
panic!("this request should return an `Err` variant")
}
}
}
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