// Copyright 2021 Famedly GmbH // // 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. //! Matrix [Application Service] library //! //! The appservice crate aims to provide a batteries-included experience by //! being a thin wrapper around the [`matrix_sdk`]. That means that we //! //! * ship with functionality to configure your webserver crate or simply run //! the webserver for you //! * receive and validate requests from the homeserver correctly //! * allow calling the homeserver with proper virtual user identity assertion //! * have consistent room state by leveraging matrix-sdk's state store //! * provide E2EE support by leveraging matrix-sdk's crypto store //! //! # Status //! //! The crate is in an experimental state. Follow //! [matrix-org/matrix-rust-sdk#228] for progress. //! //! # Quickstart //! //! ```no_run //! # async { //! # //! # use matrix_sdk::{async_trait, EventHandler}; //! # //! # struct MyEventHandler; //! # //! # #[async_trait] //! # impl EventHandler for MyEventHandler {} //! # //! use matrix_sdk_appservice::{AppService, AppServiceRegistration}; //! //! let homeserver_url = "http://127.0.0.1:8008"; //! let server_name = "localhost"; //! let registration = AppServiceRegistration::try_from_yaml_str( //! r" //! id: appservice //! url: http://127.0.0.1:9009 //! as_token: as_token //! hs_token: hs_token //! sender_localpart: _appservice //! namespaces: //! users: //! - exclusive: true //! regex: '@_appservice_.*' //! ")?; //! //! let mut appservice = AppService::new(homeserver_url, server_name, registration).await?; //! appservice.set_event_handler(Box::new(MyEventHandler)).await?; //! //! let (host, port) = appservice.registration().get_host_and_port()?; //! appservice.run(host, port).await?; //! # //! # Ok::<(), Box>(()) //! # }; //! ``` //! //! Check the [examples directory] for fully working examples. //! //! [Application Service]: https://matrix.org/docs/spec/application_service/r0.1.2 //! [matrix-org/matrix-rust-sdk#228]: https://github.com/matrix-org/matrix-rust-sdk/issues/228 //! [examples directory]: https://github.com/matrix-org/matrix-rust-sdk/tree/master/matrix_sdk_appservice/examples #[cfg(not(any(feature = "warp")))] compile_error!("one webserver feature must be enabled. available ones: `warp`"); use std::{ convert::{TryFrom, TryInto}, fs::File, ops::Deref, path::PathBuf, sync::Arc, }; use dashmap::DashMap; pub use error::Error; use http::{uri::PathAndQuery, Uri}; pub use matrix_sdk; #[doc(no_inline)] pub use matrix_sdk::ruma; use matrix_sdk::{ bytes::Bytes, reqwest::Url, Client, ClientConfig, EventHandler, HttpError, Session, }; use regex::Regex; use ruma::{ api::{ appservice::Registration, client::{ error::ErrorKind, r0::{account::register, uiaa::UiaaResponse}, }, error::{FromHttpResponseError, ServerError}, }, assign, identifiers, DeviceId, ServerNameBox, UserId, }; use tracing::{info, warn}; mod error; mod webserver; pub type Result = std::result::Result; pub type Host = String; pub type Port = u16; /// AppService Registration /// /// Wrapper around [`Registration`] #[derive(Debug, Clone)] pub struct AppServiceRegistration { inner: Registration, } impl AppServiceRegistration { /// Try to load registration from yaml string /// /// See the fields of [`Registration`] for the required format pub fn try_from_yaml_str(value: impl AsRef) -> Result { Ok(Self { inner: serde_yaml::from_str(value.as_ref())? }) } /// Try to load registration from yaml file /// /// See the fields of [`Registration`] for the required format pub fn try_from_yaml_file(path: impl Into) -> Result { let file = File::open(path.into())?; Ok(Self { inner: serde_yaml::from_reader(file)? }) } /// Get the host and port from the registration URL /// /// If no port is found it falls back to scheme defaults: 80 for http and /// 443 for https pub fn get_host_and_port(&self) -> Result<(Host, Port)> { let uri = Uri::try_from(&self.inner.url)?; let host = uri.host().ok_or(Error::MissingRegistrationHost)?.to_owned(); let port = match uri.port() { Some(port) => Ok(port.as_u16()), None => match uri.scheme_str() { Some("http") => Ok(80), Some("https") => Ok(443), _ => Err(Error::MissingRegistrationPort), }, }?; Ok((host, port)) } } impl From for AppServiceRegistration { fn from(value: Registration) -> Self { Self { inner: value } } } impl Deref for AppServiceRegistration { type Target = Registration; fn deref(&self) -> &Self::Target { &self.inner } } type Localpart = String; /// The `localpart` of the user associated with the application service via /// `sender_localpart` in [`AppServiceRegistration`]. /// /// Dummy type for shared documentation #[allow(dead_code)] pub type MainUser = (); /// The application service may specify the virtual user to act as through use /// of a user_id query string parameter on the request. The user specified in /// the query string must be covered by one of the [`AppServiceRegistration`]'s /// `users` namespaces. /// /// Dummy type for shared documentation pub type VirtualUser = (); /// AppService #[derive(Debug, Clone)] pub struct AppService { homeserver_url: Url, server_name: ServerNameBox, registration: Arc, clients: Arc>, } impl AppService { /// Create new AppService /// /// Also creates and caches a [`Client`] for the [`MainUser`]. /// The default [`ClientConfig`] is used, if you want to customize it /// use [`Self::new_with_config()`] instead. /// /// # Arguments /// /// * `homeserver_url` - The homeserver that the client should connect to. /// * `server_name` - The server name to use when constructing user ids from /// the localpart. /// * `registration` - The [AppService Registration] to use when interacting /// with the homeserver. /// /// [AppService Registration]: https://matrix.org/docs/spec/application_service/r0.1.2#registration pub async fn new( homeserver_url: impl TryInto, server_name: impl TryInto, registration: AppServiceRegistration, ) -> Result { let appservice = Self::new_with_config( homeserver_url, server_name, registration, ClientConfig::default(), ) .await?; Ok(appservice) } /// Same as [`Self::new()`] but lets you provide a [`ClientConfig`] for the /// [`Client`] pub async fn new_with_config( homeserver_url: impl TryInto, server_name: impl TryInto, registration: AppServiceRegistration, client_config: ClientConfig, ) -> Result { let homeserver_url = homeserver_url.try_into()?; let server_name = server_name.try_into()?; let registration = Arc::new(registration); let clients = Arc::new(DashMap::new()); let sender_localpart = registration.sender_localpart.clone(); let appservice = AppService { homeserver_url, server_name, registration, clients }; // we create and cache the [`MainUser`] by default appservice.create_and_cache_client(&sender_localpart, client_config).await?; Ok(appservice) } /// Create a [`Client`] for the given [`VirtualUser`]'s `localpart` /// /// Will create and return a [`Client`] that's configured to [assert the /// identity] on all outgoing homeserver requests if `localpart` is /// given. /// /// This method is a singleton that saves the client internally for re-use /// based on the `localpart`. The cached [`Client`] can be retrieved either /// by calling this method again or by calling [`Self::get_cached_client()`] /// which is non-async convenience wrapper. /// /// Note that if you want to do actions like joining rooms with a virtual /// user it needs to be registered first. `Self::register_virtual_user()` /// can be used for that purpose. /// /// # Arguments /// /// * `localpart` - The localpart of the user we want assert our identity to /// /// [registration]: https://matrix.org/docs/spec/application_service/r0.1.2#registration /// [assert the identity]: https://matrix.org/docs/spec/application_service/r0.1.2#identity-assertion pub async fn virtual_user_client(&self, localpart: impl AsRef) -> Result { let client = self.virtual_user_client_with_config(localpart, ClientConfig::default()).await?; Ok(client) } /// Same as [`Self::virtual_user_client()`] but with the ability to pass in /// a [`ClientConfig`] /// /// Since this method is a singleton follow-up calls with different /// [`ClientConfig`]s will be ignored. pub async fn virtual_user_client_with_config( &self, localpart: impl AsRef, config: ClientConfig, ) -> Result { // TODO: check if localpart is covered by namespace? let localpart = localpart.as_ref(); let client = if let Some(client) = self.clients.get(localpart) { client.clone() } else { self.create_and_cache_client(localpart, config).await? }; Ok(client) } async fn create_and_cache_client( &self, localpart: &str, config: ClientConfig, ) -> Result { let user_id = UserId::parse_with_server_name(localpart, &self.server_name)?; // The `as_token` in the `Session` maps to the [`MainUser`] // (`sender_localpart`) by default, so we don't need to assert identity // in that case let config = if localpart != self.registration.sender_localpart { let request_config = config.get_request_config().assert_identity(); config.request_config(request_config) } else { config }; let client = Client::new_with_config(self.homeserver_url.clone(), config.appservice_mode())?; let session = Session { access_token: self.registration.as_token.clone(), user_id: user_id.clone(), // TODO: expose & proper E2EE device_id: DeviceId::new(), }; client.restore_login(session).await?; self.clients.insert(localpart.to_owned(), client.clone()); Ok(client) } /// Get cached [`Client`] /// /// Will return the client for the given `localpart` if previously /// constructed with [`Self::virtual_user_client()`] or /// [`Self::virtual_user_client_with_config()`]. /// /// If no `localpart` is given it assumes the [`MainUser`]'s `localpart`. If /// no client for `localpart` is found it will return an Error. pub fn get_cached_client(&self, localpart: Option<&str>) -> Result { let localpart = localpart.unwrap_or_else(|| self.registration.sender_localpart.as_ref()); let entry = self.clients.get(localpart).ok_or(Error::NoClientForLocalpart)?; Ok(entry.value().clone()) } /// Convenience wrapper around [`Client::set_event_handler()`] that attaches /// the event handler to the [`MainUser`]'s [`Client`] /// /// Note that the event handler in the [`AppService`] context only triggers /// [`join` room `timeline` events], so no state events or events from the /// `invite`, `knock` or `leave` scope. The rationale behind that is /// that incoming AppService transactions from the homeserver are not /// necessarily bound to a specific user but can cover a multitude of /// namespaces, and as such the AppService basically only "observes /// joined rooms". Also currently homeservers only push PDUs to appservices, /// no EDUs. There's the open [MSC2409] regarding supporting EDUs in the /// future, though it seems to be planned to put EDUs into a different /// JSON key than `events` to stay backwards compatible. /// /// [`join` room `timeline` events]: https://spec.matrix.org/unstable/client-server-api/#get_matrixclientr0sync /// [MSC2409]: https://github.com/matrix-org/matrix-doc/pull/2409 pub async fn set_event_handler(&mut self, handler: Box) -> Result<()> { let client = self.get_cached_client(None)?; client.set_event_handler(handler).await; Ok(()) } /// Register a virtual user by sending a [`register::Request`] to the /// homeserver /// /// # Arguments /// /// * `localpart` - The localpart of the user to register. Must be covered /// by the namespaces in the [`Registration`] in order to succeed. pub async fn register_virtual_user(&self, localpart: impl AsRef) -> Result<()> { let request = assign!(register::Request::new(), { username: Some(localpart.as_ref()), login_type: Some(®ister::LoginType::ApplicationService), }); let client = self.get_cached_client(None)?; match client.register(request).await { Ok(_) => (), Err(error) => match error { matrix_sdk::Error::Http(HttpError::UiaaError(FromHttpResponseError::Http( ServerError::Known(UiaaResponse::MatrixError(ref matrix_error)), ))) => { match matrix_error.kind { ErrorKind::UserInUse => { // TODO: persist the fact that we registered that user warn!("{}", matrix_error.message); } _ => return Err(error.into()), } } _ => return Err(error.into()), }, } Ok(()) } /// Get the AppService [registration] /// /// [registration]: https://matrix.org/docs/spec/application_service/r0.1.2#registration pub fn registration(&self) -> &AppServiceRegistration { &self.registration } /// Compare the given `hs_token` against `registration.hs_token` /// /// Returns `true` if the tokens match, `false` otherwise. pub fn compare_hs_token(&self, hs_token: impl AsRef) -> bool { self.registration.hs_token == hs_token.as_ref() } /// Check if given `user_id` is in any of the [`AppServiceRegistration`]'s /// `users` namespaces pub fn user_id_is_in_namespace(&self, user_id: impl AsRef) -> Result { for user in &self.registration.namespaces.users { // TODO: precompile on AppService construction let re = Regex::new(&user.regex)?; if re.is_match(user_id.as_ref()) { return Ok(true); } } Ok(false) } /// Returns a [`warp::Filter`] to be used as [`warp::serve()`] route /// /// Note that if you handle any of the [application-service-specific /// routes], including the legacy routes, you will break the appservice /// functionality. /// /// [application-service-specific routes]: https://spec.matrix.org/unstable/application-service-api/#legacy-routes #[cfg(feature = "warp")] #[cfg_attr(docs, doc(cfg(feature = "warp")))] pub fn warp_filter(&self) -> warp::filters::BoxedFilter<(impl warp::Reply,)> { webserver::warp::warp_filter(self.clone()) } /// Convenience method that runs an http server depending on the selected /// server feature /// /// This is a blocking call that tries to listen on the provided host and /// port pub async fn run(&self, host: impl Into, port: impl Into) -> Result<()> { let host = host.into(); let port = port.into(); info!("Starting AppService on {}:{}", &host, &port); #[cfg(feature = "warp")] { webserver::warp::run_server(self.clone(), host, port).await?; Ok(()) } #[cfg(not(any(feature = "warp",)))] unreachable!() } } /// Transforms [legacy routes] to the correct route so ruma can parse them /// properly /// /// [legacy routes]: https://matrix.org/docs/spec/application_service/r0.1.2#legacy-routes pub(crate) fn transform_legacy_route( mut request: http::Request, ) -> Result> { let uri = request.uri().to_owned(); if !uri.path().starts_with("/_matrix/app/v1") { // rename legacy routes let mut parts = uri.into_parts(); let path_and_query = match parts.path_and_query { Some(path_and_query) => format!("/_matrix/app/v1{}", path_and_query), None => "/_matrix/app/v1".to_owned(), }; parts.path_and_query = Some(PathAndQuery::try_from(path_and_query).map_err(http::Error::from)?); let uri = parts.try_into().map_err(http::Error::from)?; *request.uri_mut() = uri; } Ok(request) }