mod store; use crate::{ auth, db::{self, ChannelId, MessageId, User, UserId}, AppState, Result, }; use anyhow::anyhow; use async_tungstenite::tungstenite::{ protocol::CloseFrame as TungsteniteCloseFrame, Message as TungsteniteMessage, }; use axum::{ body::Body, extract::{ ws::{CloseFrame as AxumCloseFrame, Message as AxumMessage}, ConnectInfo, WebSocketUpgrade, }, headers::{Header, HeaderName}, http::StatusCode, middleware, response::IntoResponse, routing::get, Extension, Router, TypedHeader, }; use collections::HashMap; use futures::{ channel::mpsc, future::{self, BoxFuture}, FutureExt, SinkExt, StreamExt, TryStreamExt, }; use lazy_static::lazy_static; use prometheus::{register_int_gauge, IntGauge}; use rpc::{ proto::{self, AnyTypedEnvelope, EntityMessage, EnvelopedMessage, RequestMessage}, Connection, ConnectionId, Peer, Receipt, TypedEnvelope, }; use serde::{Serialize, Serializer}; use std::{ any::TypeId, future::Future, marker::PhantomData, net::SocketAddr, ops::{Deref, DerefMut}, rc::Rc, sync::{ atomic::{AtomicBool, Ordering::SeqCst}, Arc, }, time::Duration, }; use time::OffsetDateTime; use tokio::{ sync::{RwLock, RwLockReadGuard, RwLockWriteGuard}, time::Sleep, }; use tower::ServiceBuilder; use tracing::{info_span, instrument, Instrument}; pub use store::{Store, Worktree}; lazy_static! { static ref METRIC_CONNECTIONS: IntGauge = register_int_gauge!("connections", "number of connections").unwrap(); static ref METRIC_REGISTERED_PROJECTS: IntGauge = register_int_gauge!("registered_projects", "number of registered projects").unwrap(); static ref METRIC_ACTIVE_PROJECTS: IntGauge = register_int_gauge!("active_projects", "number of active projects").unwrap(); static ref METRIC_SHARED_PROJECTS: IntGauge = register_int_gauge!( "shared_projects", "number of open projects with one or more guests" ) .unwrap(); } type MessageHandler = Box, Box) -> BoxFuture<'static, ()>>; struct Response { server: Arc, receipt: Receipt, responded: Arc, } impl Response { fn send(self, payload: R::Response) -> Result<()> { self.responded.store(true, SeqCst); self.server.peer.respond(self.receipt, payload)?; Ok(()) } fn into_receipt(self) -> Receipt { self.responded.store(true, SeqCst); self.receipt } } pub struct Server { peer: Arc, pub(crate) store: RwLock, app_state: Arc, handlers: HashMap, notifications: Option>, } pub trait Executor: Send + Clone { type Sleep: Send + Future; fn spawn_detached>(&self, future: F); fn sleep(&self, duration: Duration) -> Self::Sleep; } #[derive(Clone)] pub struct RealExecutor; const MESSAGE_COUNT_PER_PAGE: usize = 100; const MAX_MESSAGE_LEN: usize = 1024; struct StoreReadGuard<'a> { guard: RwLockReadGuard<'a, Store>, _not_send: PhantomData>, } struct StoreWriteGuard<'a> { guard: RwLockWriteGuard<'a, Store>, _not_send: PhantomData>, } #[derive(Serialize)] pub struct ServerSnapshot<'a> { peer: &'a Peer, #[serde(serialize_with = "serialize_deref")] store: RwLockReadGuard<'a, Store>, } pub fn serialize_deref(value: &T, serializer: S) -> Result where S: Serializer, T: Deref, U: Serialize, { Serialize::serialize(value.deref(), serializer) } impl Server { pub fn new( app_state: Arc, notifications: Option>, ) -> Arc { let mut server = Self { peer: Peer::new(), app_state, store: Default::default(), handlers: Default::default(), notifications, }; server .add_request_handler(Server::ping) .add_request_handler(Server::register_project) .add_request_handler(Server::unregister_project) .add_request_handler(Server::join_project) .add_message_handler(Server::leave_project) .add_message_handler(Server::respond_to_join_project_request) .add_message_handler(Server::update_project) .add_message_handler(Server::register_project_activity) .add_request_handler(Server::update_worktree) .add_message_handler(Server::start_language_server) .add_message_handler(Server::update_language_server) .add_message_handler(Server::update_diagnostic_summary) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler( Server::forward_project_request::, ) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::forward_project_request::) .add_request_handler(Server::update_buffer) .add_message_handler(Server::update_buffer_file) .add_message_handler(Server::buffer_reloaded) .add_message_handler(Server::buffer_saved) .add_request_handler(Server::save_buffer) .add_request_handler(Server::get_channels) .add_request_handler(Server::get_users) .add_request_handler(Server::fuzzy_search_users) .add_request_handler(Server::request_contact) .add_request_handler(Server::remove_contact) .add_request_handler(Server::respond_to_contact_request) .add_request_handler(Server::join_channel) .add_message_handler(Server::leave_channel) .add_request_handler(Server::send_channel_message) .add_request_handler(Server::follow) .add_message_handler(Server::unfollow) .add_message_handler(Server::update_followers) .add_request_handler(Server::get_channel_messages); Arc::new(server) } fn add_message_handler(&mut self, handler: F) -> &mut Self where F: 'static + Send + Sync + Fn(Arc, TypedEnvelope) -> Fut, Fut: 'static + Send + Future>, M: EnvelopedMessage, { let prev_handler = self.handlers.insert( TypeId::of::(), Box::new(move |server, envelope| { let envelope = envelope.into_any().downcast::>().unwrap(); let span = info_span!( "handle message", payload_type = envelope.payload_type_name() ); span.in_scope(|| { tracing::info!( payload = format!("{:?}", envelope.payload).as_str(), "message payload" ); }); let future = (handler)(server, *envelope); async move { if let Err(error) = future.await { tracing::error!(%error, "error handling message"); } } .instrument(span) .boxed() }), ); if prev_handler.is_some() { panic!("registered a handler for the same message twice"); } self } /// Handle a request while holding a lock to the store. This is useful when we're registering /// a connection but we want to respond on the connection before anybody else can send on it. fn add_request_handler(&mut self, handler: F) -> &mut Self where F: 'static + Send + Sync + Fn(Arc, TypedEnvelope, Response) -> Fut, Fut: Send + Future>, M: RequestMessage, { let handler = Arc::new(handler); self.add_message_handler(move |server, envelope| { let receipt = envelope.receipt(); let handler = handler.clone(); async move { let responded = Arc::new(AtomicBool::default()); let response = Response { server: server.clone(), responded: responded.clone(), receipt: envelope.receipt(), }; match (handler)(server.clone(), envelope, response).await { Ok(()) => { if responded.load(std::sync::atomic::Ordering::SeqCst) { Ok(()) } else { Err(anyhow!("handler did not send a response"))? } } Err(error) => { server.peer.respond_with_error( receipt, proto::Error { message: error.to_string(), }, )?; Err(error) } } } }) } pub fn handle_connection( self: &Arc, connection: Connection, address: String, user: User, mut send_connection_id: Option>, executor: E, ) -> impl Future> { let mut this = self.clone(); let user_id = user.id; let login = user.github_login; let span = info_span!("handle connection", %user_id, %login, %address); async move { let (connection_id, handle_io, mut incoming_rx) = this .peer .add_connection(connection, { let executor = executor.clone(); move |duration| { let timer = executor.sleep(duration); async move { timer.await; } } }) .await; tracing::info!(%user_id, %login, %connection_id, %address, "connection opened"); if let Some(send_connection_id) = send_connection_id.as_mut() { let _ = send_connection_id.send(connection_id).await; } if !user.connected_once { this.peer.send(connection_id, proto::ShowContacts {})?; this.app_state.db.set_user_connected_once(user_id, true).await?; } let (contacts, invite_code) = future::try_join( this.app_state.db.get_contacts(user_id), this.app_state.db.get_invite_code_for_user(user_id) ).await?; { let mut store = this.store_mut().await; store.add_connection(connection_id, user_id, user.admin); this.peer.send(connection_id, store.build_initial_contacts_update(contacts))?; if let Some((code, count)) = invite_code { this.peer.send(connection_id, proto::UpdateInviteInfo { url: format!("{}{}", this.app_state.invite_link_prefix, code), count, })?; } } this.update_user_contacts(user_id).await?; let handle_io = handle_io.fuse(); futures::pin_mut!(handle_io); loop { let next_message = incoming_rx.next().fuse(); futures::pin_mut!(next_message); futures::select_biased! { result = handle_io => { if let Err(error) = result { tracing::error!(?error, %user_id, %login, %connection_id, %address, "error handling I/O"); } break; } message = next_message => { if let Some(message) = message { let type_name = message.payload_type_name(); let span = tracing::info_span!("receive message", %user_id, %login, %connection_id, %address, type_name); async { if let Some(handler) = this.handlers.get(&message.payload_type_id()) { let notifications = this.notifications.clone(); let is_background = message.is_background(); let handle_message = (handler)(this.clone(), message); let handle_message = async move { handle_message.await; if let Some(mut notifications) = notifications { let _ = notifications.send(()).await; } }; if is_background { executor.spawn_detached(handle_message); } else { handle_message.await; } } else { tracing::error!(%user_id, %login, %connection_id, %address, "no message handler"); } }.instrument(span).await; } else { tracing::info!(%user_id, %login, %connection_id, %address, "connection closed"); break; } } } } tracing::info!(%user_id, %login, %connection_id, %address, "signing out"); if let Err(error) = this.sign_out(connection_id).await { tracing::error!(%user_id, %login, %connection_id, %address, ?error, "error signing out"); } Ok(()) }.instrument(span) } #[instrument(skip(self), err)] async fn sign_out(self: &mut Arc, connection_id: ConnectionId) -> Result<()> { self.peer.disconnect(connection_id); let removed_user_id = { let mut store = self.store_mut().await; let removed_connection = store.remove_connection(connection_id)?; for (project_id, project) in removed_connection.hosted_projects { broadcast(connection_id, project.guests.keys().copied(), |conn_id| { self.peer .send(conn_id, proto::UnregisterProject { project_id }) }); for (_, receipts) in project.join_requests { for receipt in receipts { self.peer.respond( receipt, proto::JoinProjectResponse { variant: Some(proto::join_project_response::Variant::Decline( proto::join_project_response::Decline { reason: proto::join_project_response::decline::Reason::WentOffline as i32 }, )), }, )?; } } } for project_id in removed_connection.guest_project_ids { if let Some(project) = store.project(project_id).trace_err() { broadcast(connection_id, project.connection_ids(), |conn_id| { self.peer.send( conn_id, proto::RemoveProjectCollaborator { project_id, peer_id: connection_id.0, }, ) }); if project.guests.is_empty() { self.peer .send( project.host_connection_id, proto::ProjectUnshared { project_id }, ) .trace_err(); } } } removed_connection.user_id }; self.update_user_contacts(removed_user_id).await?; Ok(()) } pub async fn invite_code_redeemed( self: &Arc, code: &str, invitee_id: UserId, ) -> Result<()> { let user = self.app_state.db.get_user_for_invite_code(code).await?; let store = self.store().await; let invitee_contact = store.contact_for_user(invitee_id, true); for connection_id in store.connection_ids_for_user(user.id) { self.peer.send( connection_id, proto::UpdateContacts { contacts: vec![invitee_contact.clone()], ..Default::default() }, )?; self.peer.send( connection_id, proto::UpdateInviteInfo { url: format!("{}{}", self.app_state.invite_link_prefix, code), count: user.invite_count as u32, }, )?; } Ok(()) } pub async fn invite_count_updated(self: &Arc, user_id: UserId) -> Result<()> { if let Some(user) = self.app_state.db.get_user_by_id(user_id).await? { if let Some(invite_code) = &user.invite_code { let store = self.store().await; for connection_id in store.connection_ids_for_user(user_id) { self.peer.send( connection_id, proto::UpdateInviteInfo { url: format!("{}{}", self.app_state.invite_link_prefix, invite_code), count: user.invite_count as u32, }, )?; } } } Ok(()) } async fn ping( self: Arc, _: TypedEnvelope, response: Response, ) -> Result<()> { response.send(proto::Ack {})?; Ok(()) } async fn register_project( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let project_id; { let mut state = self.store_mut().await; let user_id = state.user_id_for_connection(request.sender_id)?; project_id = state.register_project(request.sender_id, user_id); }; response.send(proto::RegisterProjectResponse { project_id })?; Ok(()) } async fn unregister_project( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let (user_id, project) = { let mut state = self.store_mut().await; let project = state.unregister_project(request.payload.project_id, request.sender_id)?; (state.user_id_for_connection(request.sender_id)?, project) }; broadcast( request.sender_id, project.guests.keys().copied(), |conn_id| { self.peer.send( conn_id, proto::UnregisterProject { project_id: request.payload.project_id, }, ) }, ); for (_, receipts) in project.join_requests { for receipt in receipts { self.peer.respond( receipt, proto::JoinProjectResponse { variant: Some(proto::join_project_response::Variant::Decline( proto::join_project_response::Decline { reason: proto::join_project_response::decline::Reason::Closed as i32, }, )), }, )?; } } // Send out the `UpdateContacts` message before responding to the unregister // request. This way, when the project's host can keep track of the project's // remote id until after they've received the `UpdateContacts` message for // themself. self.update_user_contacts(user_id).await?; response.send(proto::Ack {})?; Ok(()) } async fn update_user_contacts(self: &Arc, user_id: UserId) -> Result<()> { let contacts = self.app_state.db.get_contacts(user_id).await?; let store = self.store().await; let updated_contact = store.contact_for_user(user_id, false); for contact in contacts { if let db::Contact::Accepted { user_id: contact_user_id, .. } = contact { for contact_conn_id in store.connection_ids_for_user(contact_user_id) { self.peer .send( contact_conn_id, proto::UpdateContacts { contacts: vec![updated_contact.clone()], remove_contacts: Default::default(), incoming_requests: Default::default(), remove_incoming_requests: Default::default(), outgoing_requests: Default::default(), remove_outgoing_requests: Default::default(), }, ) .trace_err(); } } } Ok(()) } async fn join_project( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let project_id = request.payload.project_id; let host_user_id; let guest_user_id; let host_connection_id; { let state = self.store().await; let project = state.project(project_id)?; host_user_id = project.host_user_id; host_connection_id = project.host_connection_id; guest_user_id = state.user_id_for_connection(request.sender_id)?; }; tracing::info!(project_id, %host_user_id, %host_connection_id, "join project"); let has_contact = self .app_state .db .has_contact(guest_user_id, host_user_id) .await?; if !has_contact { return Err(anyhow!("no such project"))?; } self.store_mut().await.request_join_project( guest_user_id, project_id, response.into_receipt(), )?; self.peer.send( host_connection_id, proto::RequestJoinProject { project_id, requester_id: guest_user_id.to_proto(), }, )?; Ok(()) } async fn respond_to_join_project_request( self: Arc, request: TypedEnvelope, ) -> Result<()> { let host_user_id; { let mut state = self.store_mut().await; let project_id = request.payload.project_id; let project = state.project(project_id)?; if project.host_connection_id != request.sender_id { Err(anyhow!("no such connection"))?; } host_user_id = project.host_user_id; let guest_user_id = UserId::from_proto(request.payload.requester_id); if !request.payload.allow { let receipts = state .deny_join_project_request(request.sender_id, guest_user_id, project_id) .ok_or_else(|| anyhow!("no such request"))?; for receipt in receipts { self.peer.respond( receipt, proto::JoinProjectResponse { variant: Some(proto::join_project_response::Variant::Decline( proto::join_project_response::Decline { reason: proto::join_project_response::decline::Reason::Declined as i32, }, )), }, )?; } return Ok(()); } let (receipts_with_replica_ids, project) = state .accept_join_project_request(request.sender_id, guest_user_id, project_id) .ok_or_else(|| anyhow!("no such request"))?; let peer_count = project.guests.len(); let mut collaborators = Vec::with_capacity(peer_count); collaborators.push(proto::Collaborator { peer_id: project.host_connection_id.0, replica_id: 0, user_id: project.host_user_id.to_proto(), }); let worktrees = project .worktrees .iter() .filter_map(|(id, shared_worktree)| { let worktree = project.worktrees.get(&id)?; Some(proto::Worktree { id: *id, root_name: worktree.root_name.clone(), entries: shared_worktree.entries.values().cloned().collect(), diagnostic_summaries: shared_worktree .diagnostic_summaries .values() .cloned() .collect(), visible: worktree.visible, scan_id: shared_worktree.scan_id, }) }) .collect::>(); // Add all guests other than the requesting user's own connections as collaborators for (peer_conn_id, (peer_replica_id, peer_user_id)) in &project.guests { if receipts_with_replica_ids .iter() .all(|(receipt, _)| receipt.sender_id != *peer_conn_id) { collaborators.push(proto::Collaborator { peer_id: peer_conn_id.0, replica_id: *peer_replica_id as u32, user_id: peer_user_id.to_proto(), }); } } for conn_id in project.connection_ids() { for (receipt, replica_id) in &receipts_with_replica_ids { if conn_id != receipt.sender_id { self.peer.send( conn_id, proto::AddProjectCollaborator { project_id, collaborator: Some(proto::Collaborator { peer_id: receipt.sender_id.0, replica_id: *replica_id as u32, user_id: guest_user_id.to_proto(), }), }, )?; } } } for (receipt, replica_id) in receipts_with_replica_ids { self.peer.respond( receipt, proto::JoinProjectResponse { variant: Some(proto::join_project_response::Variant::Accept( proto::join_project_response::Accept { worktrees: worktrees.clone(), replica_id: replica_id as u32, collaborators: collaborators.clone(), language_servers: project.language_servers.clone(), }, )), }, )?; } } self.update_user_contacts(host_user_id).await?; Ok(()) } async fn leave_project( self: Arc, request: TypedEnvelope, ) -> Result<()> { let sender_id = request.sender_id; let project_id = request.payload.project_id; let project; { let mut store = self.store_mut().await; project = store.leave_project(sender_id, project_id)?; tracing::info!( project_id, host_user_id = %project.host_user_id, host_connection_id = %project.host_connection_id, "leave project" ); if project.remove_collaborator { broadcast(sender_id, project.connection_ids, |conn_id| { self.peer.send( conn_id, proto::RemoveProjectCollaborator { project_id, peer_id: sender_id.0, }, ) }); } if let Some(requester_id) = project.cancel_request { self.peer.send( project.host_connection_id, proto::JoinProjectRequestCancelled { project_id, requester_id: requester_id.to_proto(), }, )?; } if project.unshare { self.peer.send( project.host_connection_id, proto::ProjectUnshared { project_id }, )?; } } self.update_user_contacts(project.host_user_id).await?; Ok(()) } async fn update_project( self: Arc, request: TypedEnvelope, ) -> Result<()> { let user_id; { let mut state = self.store_mut().await; user_id = state.user_id_for_connection(request.sender_id)?; let guest_connection_ids = state .read_project(request.payload.project_id, request.sender_id)? .guest_connection_ids(); state.update_project( request.payload.project_id, &request.payload.worktrees, request.sender_id, )?; broadcast(request.sender_id, guest_connection_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); }; self.update_user_contacts(user_id).await?; Ok(()) } async fn register_project_activity( self: Arc, request: TypedEnvelope, ) -> Result<()> { self.store_mut() .await .register_project_activity(request.payload.project_id, request.sender_id)?; Ok(()) } async fn update_worktree( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let (connection_ids, metadata_changed) = { let mut store = self.store_mut().await; let (connection_ids, metadata_changed, extension_counts) = store.update_worktree( request.sender_id, request.payload.project_id, request.payload.worktree_id, &request.payload.root_name, &request.payload.removed_entries, &request.payload.updated_entries, request.payload.scan_id, )?; for (extension, count) in extension_counts { tracing::info!( project_id = request.payload.project_id, worktree_id = request.payload.worktree_id, ?extension, %count, "worktree updated" ); } (connection_ids, metadata_changed) }; broadcast(request.sender_id, connection_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); if metadata_changed { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; self.update_user_contacts(user_id).await?; } response.send(proto::Ack {})?; Ok(()) } async fn update_diagnostic_summary( self: Arc, request: TypedEnvelope, ) -> Result<()> { let summary = request .payload .summary .clone() .ok_or_else(|| anyhow!("invalid summary"))?; let receiver_ids = self.store_mut().await.update_diagnostic_summary( request.payload.project_id, request.payload.worktree_id, request.sender_id, summary, )?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn start_language_server( self: Arc, request: TypedEnvelope, ) -> Result<()> { let receiver_ids = self.store_mut().await.start_language_server( request.payload.project_id, request.sender_id, request .payload .server .clone() .ok_or_else(|| anyhow!("invalid language server"))?, )?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn update_language_server( self: Arc, request: TypedEnvelope, ) -> Result<()> { let receiver_ids = self .store() .await .project_connection_ids(request.payload.project_id, request.sender_id)?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn forward_project_request( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> where T: EntityMessage + RequestMessage, { let host_connection_id = self .store() .await .read_project(request.payload.remote_entity_id(), request.sender_id)? .host_connection_id; response.send( self.peer .forward_request(request.sender_id, host_connection_id, request.payload) .await?, )?; Ok(()) } async fn save_buffer( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let host = self .store() .await .read_project(request.payload.project_id, request.sender_id)? .host_connection_id; let response_payload = self .peer .forward_request(request.sender_id, host, request.payload.clone()) .await?; let mut guests = self .store() .await .read_project(request.payload.project_id, request.sender_id)? .connection_ids(); guests.retain(|guest_connection_id| *guest_connection_id != request.sender_id); broadcast(host, guests, |conn_id| { self.peer .forward_send(host, conn_id, response_payload.clone()) }); response.send(response_payload)?; Ok(()) } async fn update_buffer( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let receiver_ids = { let mut store = self.store_mut().await; store.register_project_activity(request.payload.project_id, request.sender_id)?; store.project_connection_ids(request.payload.project_id, request.sender_id)? }; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); response.send(proto::Ack {})?; Ok(()) } async fn update_buffer_file( self: Arc, request: TypedEnvelope, ) -> Result<()> { let receiver_ids = self .store() .await .project_connection_ids(request.payload.project_id, request.sender_id)?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn buffer_reloaded( self: Arc, request: TypedEnvelope, ) -> Result<()> { let receiver_ids = self .store() .await .project_connection_ids(request.payload.project_id, request.sender_id)?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn buffer_saved( self: Arc, request: TypedEnvelope, ) -> Result<()> { let receiver_ids = self .store() .await .project_connection_ids(request.payload.project_id, request.sender_id)?; broadcast(request.sender_id, receiver_ids, |connection_id| { self.peer .forward_send(request.sender_id, connection_id, request.payload.clone()) }); Ok(()) } async fn follow( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let leader_id = ConnectionId(request.payload.leader_id); let follower_id = request.sender_id; { let mut store = self.store_mut().await; if !store .project_connection_ids(request.payload.project_id, follower_id)? .contains(&leader_id) { Err(anyhow!("no such peer"))?; } store.register_project_activity(request.payload.project_id, follower_id)?; } let mut response_payload = self .peer .forward_request(request.sender_id, leader_id, request.payload) .await?; response_payload .views .retain(|view| view.leader_id != Some(follower_id.0)); response.send(response_payload)?; Ok(()) } async fn unfollow(self: Arc, request: TypedEnvelope) -> Result<()> { let leader_id = ConnectionId(request.payload.leader_id); let mut store = self.store_mut().await; if !store .project_connection_ids(request.payload.project_id, request.sender_id)? .contains(&leader_id) { Err(anyhow!("no such peer"))?; } store.register_project_activity(request.payload.project_id, request.sender_id)?; self.peer .forward_send(request.sender_id, leader_id, request.payload)?; Ok(()) } async fn update_followers( self: Arc, request: TypedEnvelope, ) -> Result<()> { let mut store = self.store_mut().await; store.register_project_activity(request.payload.project_id, request.sender_id)?; let connection_ids = store.project_connection_ids(request.payload.project_id, request.sender_id)?; let leader_id = request .payload .variant .as_ref() .and_then(|variant| match variant { proto::update_followers::Variant::CreateView(payload) => payload.leader_id, proto::update_followers::Variant::UpdateView(payload) => payload.leader_id, proto::update_followers::Variant::UpdateActiveView(payload) => payload.leader_id, }); for follower_id in &request.payload.follower_ids { let follower_id = ConnectionId(*follower_id); if connection_ids.contains(&follower_id) && Some(follower_id.0) != leader_id { self.peer .forward_send(request.sender_id, follower_id, request.payload.clone())?; } } Ok(()) } async fn get_channels( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; let channels = self.app_state.db.get_accessible_channels(user_id).await?; response.send(proto::GetChannelsResponse { channels: channels .into_iter() .map(|chan| proto::Channel { id: chan.id.to_proto(), name: chan.name, }) .collect(), })?; Ok(()) } async fn get_users( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let user_ids = request .payload .user_ids .into_iter() .map(UserId::from_proto) .collect(); let users = self .app_state .db .get_users_by_ids(user_ids) .await? .into_iter() .map(|user| proto::User { id: user.id.to_proto(), avatar_url: format!("https://github.com/{}.png?size=128", user.github_login), github_login: user.github_login, }) .collect(); response.send(proto::UsersResponse { users })?; Ok(()) } async fn fuzzy_search_users( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; let query = request.payload.query; let db = &self.app_state.db; let users = match query.len() { 0 => vec![], 1 | 2 => db .get_user_by_github_login(&query) .await? .into_iter() .collect(), _ => db.fuzzy_search_users(&query, 10).await?, }; let users = users .into_iter() .filter(|user| user.id != user_id) .map(|user| proto::User { id: user.id.to_proto(), avatar_url: format!("https://github.com/{}.png?size=128", user.github_login), github_login: user.github_login, }) .collect(); response.send(proto::UsersResponse { users })?; Ok(()) } async fn request_contact( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let requester_id = self .store() .await .user_id_for_connection(request.sender_id)?; let responder_id = UserId::from_proto(request.payload.responder_id); if requester_id == responder_id { return Err(anyhow!("cannot add yourself as a contact"))?; } self.app_state .db .send_contact_request(requester_id, responder_id) .await?; // Update outgoing contact requests of requester let mut update = proto::UpdateContacts::default(); update.outgoing_requests.push(responder_id.to_proto()); for connection_id in self.store().await.connection_ids_for_user(requester_id) { self.peer.send(connection_id, update.clone())?; } // Update incoming contact requests of responder let mut update = proto::UpdateContacts::default(); update .incoming_requests .push(proto::IncomingContactRequest { requester_id: requester_id.to_proto(), should_notify: true, }); for connection_id in self.store().await.connection_ids_for_user(responder_id) { self.peer.send(connection_id, update.clone())?; } response.send(proto::Ack {})?; Ok(()) } async fn respond_to_contact_request( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let responder_id = self .store() .await .user_id_for_connection(request.sender_id)?; let requester_id = UserId::from_proto(request.payload.requester_id); if request.payload.response == proto::ContactRequestResponse::Dismiss as i32 { self.app_state .db .dismiss_contact_notification(responder_id, requester_id) .await?; } else { let accept = request.payload.response == proto::ContactRequestResponse::Accept as i32; self.app_state .db .respond_to_contact_request(responder_id, requester_id, accept) .await?; let store = self.store().await; // Update responder with new contact let mut update = proto::UpdateContacts::default(); if accept { update .contacts .push(store.contact_for_user(requester_id, false)); } update .remove_incoming_requests .push(requester_id.to_proto()); for connection_id in store.connection_ids_for_user(responder_id) { self.peer.send(connection_id, update.clone())?; } // Update requester with new contact let mut update = proto::UpdateContacts::default(); if accept { update .contacts .push(store.contact_for_user(responder_id, true)); } update .remove_outgoing_requests .push(responder_id.to_proto()); for connection_id in store.connection_ids_for_user(requester_id) { self.peer.send(connection_id, update.clone())?; } } response.send(proto::Ack {})?; Ok(()) } async fn remove_contact( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let requester_id = self .store() .await .user_id_for_connection(request.sender_id)?; let responder_id = UserId::from_proto(request.payload.user_id); self.app_state .db .remove_contact(requester_id, responder_id) .await?; // Update outgoing contact requests of requester let mut update = proto::UpdateContacts::default(); update .remove_outgoing_requests .push(responder_id.to_proto()); for connection_id in self.store().await.connection_ids_for_user(requester_id) { self.peer.send(connection_id, update.clone())?; } // Update incoming contact requests of responder let mut update = proto::UpdateContacts::default(); update .remove_incoming_requests .push(requester_id.to_proto()); for connection_id in self.store().await.connection_ids_for_user(responder_id) { self.peer.send(connection_id, update.clone())?; } response.send(proto::Ack {})?; Ok(()) } async fn join_channel( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; let channel_id = ChannelId::from_proto(request.payload.channel_id); if !self .app_state .db .can_user_access_channel(user_id, channel_id) .await? { Err(anyhow!("access denied"))?; } self.store_mut() .await .join_channel(request.sender_id, channel_id); let messages = self .app_state .db .get_channel_messages(channel_id, MESSAGE_COUNT_PER_PAGE, None) .await? .into_iter() .map(|msg| proto::ChannelMessage { id: msg.id.to_proto(), body: msg.body, timestamp: msg.sent_at.unix_timestamp() as u64, sender_id: msg.sender_id.to_proto(), nonce: Some(msg.nonce.as_u128().into()), }) .collect::>(); response.send(proto::JoinChannelResponse { done: messages.len() < MESSAGE_COUNT_PER_PAGE, messages, })?; Ok(()) } async fn leave_channel( self: Arc, request: TypedEnvelope, ) -> Result<()> { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; let channel_id = ChannelId::from_proto(request.payload.channel_id); if !self .app_state .db .can_user_access_channel(user_id, channel_id) .await? { Err(anyhow!("access denied"))?; } self.store_mut() .await .leave_channel(request.sender_id, channel_id); Ok(()) } async fn send_channel_message( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let channel_id = ChannelId::from_proto(request.payload.channel_id); let user_id; let connection_ids; { let state = self.store().await; user_id = state.user_id_for_connection(request.sender_id)?; connection_ids = state.channel_connection_ids(channel_id)?; } // Validate the message body. let body = request.payload.body.trim().to_string(); if body.len() > MAX_MESSAGE_LEN { return Err(anyhow!("message is too long"))?; } if body.is_empty() { return Err(anyhow!("message can't be blank"))?; } let timestamp = OffsetDateTime::now_utc(); let nonce = request .payload .nonce .ok_or_else(|| anyhow!("nonce can't be blank"))?; let message_id = self .app_state .db .create_channel_message(channel_id, user_id, &body, timestamp, nonce.clone().into()) .await? .to_proto(); let message = proto::ChannelMessage { sender_id: user_id.to_proto(), id: message_id, body, timestamp: timestamp.unix_timestamp() as u64, nonce: Some(nonce), }; broadcast(request.sender_id, connection_ids, |conn_id| { self.peer.send( conn_id, proto::ChannelMessageSent { channel_id: channel_id.to_proto(), message: Some(message.clone()), }, ) }); response.send(proto::SendChannelMessageResponse { message: Some(message), })?; Ok(()) } async fn get_channel_messages( self: Arc, request: TypedEnvelope, response: Response, ) -> Result<()> { let user_id = self .store() .await .user_id_for_connection(request.sender_id)?; let channel_id = ChannelId::from_proto(request.payload.channel_id); if !self .app_state .db .can_user_access_channel(user_id, channel_id) .await? { Err(anyhow!("access denied"))?; } let messages = self .app_state .db .get_channel_messages( channel_id, MESSAGE_COUNT_PER_PAGE, Some(MessageId::from_proto(request.payload.before_message_id)), ) .await? .into_iter() .map(|msg| proto::ChannelMessage { id: msg.id.to_proto(), body: msg.body, timestamp: msg.sent_at.unix_timestamp() as u64, sender_id: msg.sender_id.to_proto(), nonce: Some(msg.nonce.as_u128().into()), }) .collect::>(); response.send(proto::GetChannelMessagesResponse { done: messages.len() < MESSAGE_COUNT_PER_PAGE, messages, })?; Ok(()) } async fn store<'a>(self: &'a Arc) -> StoreReadGuard<'a> { #[cfg(test)] tokio::task::yield_now().await; let guard = self.store.read().await; #[cfg(test)] tokio::task::yield_now().await; StoreReadGuard { guard, _not_send: PhantomData, } } async fn store_mut<'a>(self: &'a Arc) -> StoreWriteGuard<'a> { #[cfg(test)] tokio::task::yield_now().await; let guard = self.store.write().await; #[cfg(test)] tokio::task::yield_now().await; StoreWriteGuard { guard, _not_send: PhantomData, } } pub async fn snapshot<'a>(self: &'a Arc) -> ServerSnapshot<'a> { ServerSnapshot { store: self.store.read().await, peer: &self.peer, } } } impl<'a> Deref for StoreReadGuard<'a> { type Target = Store; fn deref(&self) -> &Self::Target { &*self.guard } } impl<'a> Deref for StoreWriteGuard<'a> { type Target = Store; fn deref(&self) -> &Self::Target { &*self.guard } } impl<'a> DerefMut for StoreWriteGuard<'a> { fn deref_mut(&mut self) -> &mut Self::Target { &mut *self.guard } } impl<'a> Drop for StoreWriteGuard<'a> { fn drop(&mut self) { #[cfg(test)] self.check_invariants(); let metrics = self.metrics(); METRIC_CONNECTIONS.set(metrics.connections as _); METRIC_REGISTERED_PROJECTS.set(metrics.registered_projects as _); METRIC_ACTIVE_PROJECTS.set(metrics.active_projects as _); METRIC_SHARED_PROJECTS.set(metrics.shared_projects as _); tracing::info!( connections = metrics.connections, registered_projects = metrics.registered_projects, active_projects = metrics.active_projects, shared_projects = metrics.shared_projects, "metrics" ); } } impl Executor for RealExecutor { type Sleep = Sleep; fn spawn_detached>(&self, future: F) { tokio::task::spawn(future); } fn sleep(&self, duration: Duration) -> Self::Sleep { tokio::time::sleep(duration) } } fn broadcast( sender_id: ConnectionId, receiver_ids: impl IntoIterator, mut f: F, ) where F: FnMut(ConnectionId) -> anyhow::Result<()>, { for receiver_id in receiver_ids { if receiver_id != sender_id { f(receiver_id).trace_err(); } } } lazy_static! { static ref ZED_PROTOCOL_VERSION: HeaderName = HeaderName::from_static("x-zed-protocol-version"); } pub struct ProtocolVersion(u32); impl Header for ProtocolVersion { fn name() -> &'static HeaderName { &ZED_PROTOCOL_VERSION } fn decode<'i, I>(values: &mut I) -> Result where Self: Sized, I: Iterator, { let version = values .next() .ok_or_else(|| axum::headers::Error::invalid())? .to_str() .map_err(|_| axum::headers::Error::invalid())? .parse() .map_err(|_| axum::headers::Error::invalid())?; Ok(Self(version)) } fn encode>(&self, values: &mut E) { values.extend([self.0.to_string().parse().unwrap()]); } } pub fn routes(server: Arc) -> Router { Router::new() .route("/rpc", get(handle_websocket_request)) .layer( ServiceBuilder::new() .layer(Extension(server.app_state.clone())) .layer(middleware::from_fn(auth::validate_header)), ) .route("/metrics", get(handle_metrics)) .layer(Extension(server)) } pub async fn handle_websocket_request( TypedHeader(ProtocolVersion(protocol_version)): TypedHeader, ConnectInfo(socket_address): ConnectInfo, Extension(server): Extension>, Extension(user): Extension, ws: WebSocketUpgrade, ) -> axum::response::Response { if protocol_version != rpc::PROTOCOL_VERSION { return ( StatusCode::UPGRADE_REQUIRED, "client must be upgraded".to_string(), ) .into_response(); } let socket_address = socket_address.to_string(); ws.on_upgrade(move |socket| { use util::ResultExt; let socket = socket .map_ok(to_tungstenite_message) .err_into() .with(|message| async move { Ok(to_axum_message(message)) }); let connection = Connection::new(Box::pin(socket)); async move { server .handle_connection(connection, socket_address, user, None, RealExecutor) .await .log_err(); } }) } pub async fn handle_metrics(Extension(server): Extension>) -> axum::response::Response { // We call `store_mut` here for its side effects of updating metrics. server.store_mut().await; let encoder = prometheus::TextEncoder::new(); let metric_families = prometheus::gather(); match encoder.encode_to_string(&metric_families) { Ok(string) => (StatusCode::OK, string).into_response(), Err(error) => ( StatusCode::INTERNAL_SERVER_ERROR, format!("failed to encode metrics {:?}", error), ) .into_response(), } } fn to_axum_message(message: TungsteniteMessage) -> AxumMessage { match message { TungsteniteMessage::Text(payload) => AxumMessage::Text(payload), TungsteniteMessage::Binary(payload) => AxumMessage::Binary(payload), TungsteniteMessage::Ping(payload) => AxumMessage::Ping(payload), TungsteniteMessage::Pong(payload) => AxumMessage::Pong(payload), TungsteniteMessage::Close(frame) => AxumMessage::Close(frame.map(|frame| AxumCloseFrame { code: frame.code.into(), reason: frame.reason, })), } } fn to_tungstenite_message(message: AxumMessage) -> TungsteniteMessage { match message { AxumMessage::Text(payload) => TungsteniteMessage::Text(payload), AxumMessage::Binary(payload) => TungsteniteMessage::Binary(payload), AxumMessage::Ping(payload) => TungsteniteMessage::Ping(payload), AxumMessage::Pong(payload) => TungsteniteMessage::Pong(payload), AxumMessage::Close(frame) => { TungsteniteMessage::Close(frame.map(|frame| TungsteniteCloseFrame { code: frame.code.into(), reason: frame.reason, })) } } } pub trait ResultExt { type Ok; fn trace_err(self) -> Option; } impl ResultExt for Result where E: std::fmt::Debug, { type Ok = T; fn trace_err(self) -> Option { match self { Ok(value) => Some(value), Err(error) => { tracing::error!("{:?}", error); None } } } }