use acp_thread::AgentConnection; use acp_tools::AcpConnectionRegistry; use action_log::ActionLog; use agent_client_protocol::{self as acp, Agent as _, ErrorCode}; use anyhow::anyhow; use collections::HashMap; use futures::AsyncBufReadExt as _; use futures::io::BufReader; use project::Project; use project::agent_server_store::AgentServerCommand; use serde::Deserialize; use util::ResultExt as _; use std::path::PathBuf; use std::{any::Any, cell::RefCell}; use std::{path::Path, rc::Rc}; use thiserror::Error; use anyhow::{Context as _, Result}; use gpui::{App, AppContext as _, AsyncApp, Entity, SharedString, Task, WeakEntity}; use acp_thread::{AcpThread, AuthRequired, LoadError, TerminalProviderEvent}; use terminal::TerminalBuilder; use terminal::terminal_settings::{AlternateScroll, CursorShape}; #[derive(Debug, Error)] #[error("Unsupported version")] pub struct UnsupportedVersion; pub struct AcpConnection { server_name: SharedString, telemetry_id: SharedString, connection: Rc, sessions: Rc>>, auth_methods: Vec, agent_capabilities: acp::AgentCapabilities, default_mode: Option, default_model: Option, root_dir: PathBuf, // NB: Don't move this into the wait_task, since we need to ensure the process is // killed on drop (setting kill_on_drop on the command seems to not always work). child: smol::process::Child, _io_task: Task>, _wait_task: Task>, _stderr_task: Task>, } pub struct AcpSession { thread: WeakEntity, suppress_abort_err: bool, models: Option>>, session_modes: Option>>, } pub async fn connect( server_name: SharedString, command: AgentServerCommand, root_dir: &Path, default_mode: Option, default_model: Option, is_remote: bool, cx: &mut AsyncApp, ) -> Result> { let conn = AcpConnection::stdio( server_name, command.clone(), root_dir, default_mode, default_model, is_remote, cx, ) .await?; Ok(Rc::new(conn) as _) } const MINIMUM_SUPPORTED_VERSION: acp::ProtocolVersion = acp::ProtocolVersion::V1; impl AcpConnection { pub async fn stdio( server_name: SharedString, command: AgentServerCommand, root_dir: &Path, default_mode: Option, default_model: Option, is_remote: bool, cx: &mut AsyncApp, ) -> Result { let mut child = util::command::new_smol_command(&command.path); child .args(command.args.iter().map(|arg| arg.as_str())) .envs(command.env.iter().flatten()) .stdin(std::process::Stdio::piped()) .stdout(std::process::Stdio::piped()) .stderr(std::process::Stdio::piped()); if !is_remote { child.current_dir(root_dir); } let mut child = child.spawn()?; let stdout = child.stdout.take().context("Failed to take stdout")?; let stdin = child.stdin.take().context("Failed to take stdin")?; let stderr = child.stderr.take().context("Failed to take stderr")?; log::debug!( "Spawning external agent server: {:?}, {:?}", command.path, command.args ); log::trace!("Spawned (pid: {})", child.id()); let sessions = Rc::new(RefCell::new(HashMap::default())); let (release_channel, version) = cx.update(|cx| { ( release_channel::ReleaseChannel::try_global(cx) .map(|release_channel| release_channel.display_name()), release_channel::AppVersion::global(cx).to_string(), ) })?; let client = ClientDelegate { sessions: sessions.clone(), cx: cx.clone(), }; let (connection, io_task) = acp::ClientSideConnection::new(client, stdin, stdout, { let foreground_executor = cx.foreground_executor().clone(); move |fut| { foreground_executor.spawn(fut).detach(); } }); let io_task = cx.background_spawn(io_task); let stderr_task = cx.background_spawn(async move { let mut stderr = BufReader::new(stderr); let mut line = String::new(); while let Ok(n) = stderr.read_line(&mut line).await && n > 0 { log::warn!("agent stderr: {}", line.trim()); line.clear(); } Ok(()) }); let wait_task = cx.spawn({ let sessions = sessions.clone(); let status_fut = child.status(); async move |cx| { let status = status_fut.await?; for session in sessions.borrow().values() { session .thread .update(cx, |thread, cx| { thread.emit_load_error(LoadError::Exited { status }, cx) }) .ok(); } anyhow::Ok(()) } }); let connection = Rc::new(connection); cx.update(|cx| { AcpConnectionRegistry::default_global(cx).update(cx, |registry, cx| { registry.set_active_connection(server_name.clone(), &connection, cx) }); })?; let response = connection .initialize( acp::InitializeRequest::new(acp::ProtocolVersion::V1) .client_capabilities( acp::ClientCapabilities::new() .fs(acp::FileSystemCapability::new() .read_text_file(true) .write_text_file(true)) .terminal(true) // Experimental: Allow for rendering terminal output from the agents .meta(acp::Meta::from_iter([ ("terminal_output".into(), true.into()), ("terminal-auth".into(), true.into()), ])), ) .client_info( acp::Implementation::new("zed", version) .title(release_channel.map(ToOwned::to_owned)), ), ) .await?; if response.protocol_version < MINIMUM_SUPPORTED_VERSION { return Err(UnsupportedVersion.into()); } let telemetry_id = response .agent_info // Use the one the agent provides if we have one .map(|info| info.name.into()) // Otherwise, just use the name .unwrap_or_else(|| server_name.clone()); Ok(Self { auth_methods: response.auth_methods, root_dir: root_dir.to_owned(), connection, server_name, telemetry_id, sessions, agent_capabilities: response.agent_capabilities, default_mode, default_model, _io_task: io_task, _wait_task: wait_task, _stderr_task: stderr_task, child, }) } pub fn prompt_capabilities(&self) -> &acp::PromptCapabilities { &self.agent_capabilities.prompt_capabilities } pub fn root_dir(&self) -> &Path { &self.root_dir } } impl Drop for AcpConnection { fn drop(&mut self) { // See the comment on the child field. self.child.kill().log_err(); } } impl AgentConnection for AcpConnection { fn telemetry_id(&self) -> SharedString { self.telemetry_id.clone() } fn new_thread( self: Rc, project: Entity, cwd: &Path, cx: &mut App, ) -> Task>> { let name = self.server_name.clone(); let conn = self.connection.clone(); let sessions = self.sessions.clone(); let default_mode = self.default_mode.clone(); let default_model = self.default_model.clone(); let cwd = cwd.to_path_buf(); let context_server_store = project.read(cx).context_server_store().read(cx); let mcp_servers = if project.read(cx).is_local() { context_server_store .configured_server_ids() .iter() .filter_map(|id| { let configuration = context_server_store.configuration_for_server(id)?; match &*configuration { project::context_server_store::ContextServerConfiguration::Custom { command, .. } | project::context_server_store::ContextServerConfiguration::Extension { command, .. } => Some(acp::McpServer::Stdio( acp::McpServerStdio::new(id.0.to_string(), &command.path) .args(command.args.clone()) .env(if let Some(env) = command.env.as_ref() { env.iter() .map(|(name, value)| acp::EnvVariable::new(name, value)) .collect() } else { vec![] }), )), project::context_server_store::ContextServerConfiguration::Http { url, headers, } => Some(acp::McpServer::Http( acp::McpServerHttp::new(id.0.to_string(), url.to_string()).headers( headers .iter() .map(|(name, value)| acp::HttpHeader::new(name, value)) .collect(), ), )), } }) .collect() } else { // In SSH projects, the external agent is running on the remote // machine, and currently we only run MCP servers on the local // machine. So don't pass any MCP servers to the agent in that case. Vec::new() }; cx.spawn(async move |cx| { let response = conn .new_session(acp::NewSessionRequest::new(cwd).mcp_servers(mcp_servers)) .await .map_err(|err| { if err.code == acp::ErrorCode::AuthRequired { let mut error = AuthRequired::new(); if err.message != acp::ErrorCode::AuthRequired.to_string() { error = error.with_description(err.message); } anyhow!(error) } else { anyhow!(err) } })?; let modes = response.modes.map(|modes| Rc::new(RefCell::new(modes))); let models = response.models.map(|models| Rc::new(RefCell::new(models))); if let Some(default_mode) = default_mode { if let Some(modes) = modes.as_ref() { let mut modes_ref = modes.borrow_mut(); let has_mode = modes_ref.available_modes.iter().any(|mode| mode.id == default_mode); if has_mode { let initial_mode_id = modes_ref.current_mode_id.clone(); cx.spawn({ let default_mode = default_mode.clone(); let session_id = response.session_id.clone(); let modes = modes.clone(); let conn = conn.clone(); async move |_| { let result = conn.set_session_mode(acp::SetSessionModeRequest::new(session_id, default_mode)) .await.log_err(); if result.is_none() { modes.borrow_mut().current_mode_id = initial_mode_id; } } }).detach(); modes_ref.current_mode_id = default_mode; } else { let available_modes = modes_ref .available_modes .iter() .map(|mode| format!("- `{}`: {}", mode.id, mode.name)) .collect::>() .join("\n"); log::warn!( "`{default_mode}` is not valid {name} mode. Available options:\n{available_modes}", ); } } else { log::warn!( "`{name}` does not support modes, but `default_mode` was set in settings.", ); } } if let Some(default_model) = default_model { if let Some(models) = models.as_ref() { let mut models_ref = models.borrow_mut(); let has_model = models_ref.available_models.iter().any(|model| model.model_id == default_model); if has_model { let initial_model_id = models_ref.current_model_id.clone(); cx.spawn({ let default_model = default_model.clone(); let session_id = response.session_id.clone(); let models = models.clone(); let conn = conn.clone(); async move |_| { let result = conn.set_session_model(acp::SetSessionModelRequest::new(session_id, default_model)) .await.log_err(); if result.is_none() { models.borrow_mut().current_model_id = initial_model_id; } } }).detach(); models_ref.current_model_id = default_model; } else { let available_models = models_ref .available_models .iter() .map(|model| format!("- `{}`: {}", model.model_id, model.name)) .collect::>() .join("\n"); log::warn!( "`{default_model}` is not a valid {name} model. Available options:\n{available_models}", ); } } else { log::warn!( "`{name}` does not support model selection, but `default_model` was set in settings.", ); } } let session_id = response.session_id; let action_log = cx.new(|_| ActionLog::new(project.clone()))?; let thread = cx.new(|cx| { AcpThread::new( self.server_name.clone(), self.clone(), project, action_log, session_id.clone(), // ACP doesn't currently support per-session prompt capabilities or changing capabilities dynamically. watch::Receiver::constant(self.agent_capabilities.prompt_capabilities.clone()), cx, ) })?; let session = AcpSession { thread: thread.downgrade(), suppress_abort_err: false, session_modes: modes, models, }; sessions.borrow_mut().insert(session_id, session); Ok(thread) }) } fn auth_methods(&self) -> &[acp::AuthMethod] { &self.auth_methods } fn authenticate(&self, method_id: acp::AuthMethodId, cx: &mut App) -> Task> { let conn = self.connection.clone(); cx.foreground_executor().spawn(async move { conn.authenticate(acp::AuthenticateRequest::new(method_id)) .await?; Ok(()) }) } fn prompt( &self, _id: Option, params: acp::PromptRequest, cx: &mut App, ) -> Task> { let conn = self.connection.clone(); let sessions = self.sessions.clone(); let session_id = params.session_id.clone(); cx.foreground_executor().spawn(async move { let result = conn.prompt(params).await; let mut suppress_abort_err = false; if let Some(session) = sessions.borrow_mut().get_mut(&session_id) { suppress_abort_err = session.suppress_abort_err; session.suppress_abort_err = false; } match result { Ok(response) => Ok(response), Err(err) => { if err.code == acp::ErrorCode::AuthRequired { return Err(anyhow!(acp::Error::auth_required())); } if err.code != ErrorCode::InternalError { anyhow::bail!(err) } let Some(data) = &err.data else { anyhow::bail!(err) }; // Temporary workaround until the following PR is generally available: // https://github.com/google-gemini/gemini-cli/pull/6656 #[derive(Deserialize)] #[serde(deny_unknown_fields)] struct ErrorDetails { details: Box, } match serde_json::from_value(data.clone()) { Ok(ErrorDetails { details }) => { if suppress_abort_err && (details.contains("This operation was aborted") || details.contains("The user aborted a request")) { Ok(acp::PromptResponse::new(acp::StopReason::Cancelled)) } else { Err(anyhow!(details)) } } Err(_) => Err(anyhow!(err)), } } } }) } fn cancel(&self, session_id: &acp::SessionId, cx: &mut App) { if let Some(session) = self.sessions.borrow_mut().get_mut(session_id) { session.suppress_abort_err = true; } let conn = self.connection.clone(); let params = acp::CancelNotification::new(session_id.clone()); cx.foreground_executor() .spawn(async move { conn.cancel(params).await }) .detach(); } fn session_modes( &self, session_id: &acp::SessionId, _cx: &App, ) -> Option> { let sessions = self.sessions.clone(); let sessions_ref = sessions.borrow(); let Some(session) = sessions_ref.get(session_id) else { return None; }; if let Some(modes) = session.session_modes.as_ref() { Some(Rc::new(AcpSessionModes { connection: self.connection.clone(), session_id: session_id.clone(), state: modes.clone(), }) as _) } else { None } } fn model_selector( &self, session_id: &acp::SessionId, ) -> Option> { let sessions = self.sessions.clone(); let sessions_ref = sessions.borrow(); let Some(session) = sessions_ref.get(session_id) else { return None; }; if let Some(models) = session.models.as_ref() { Some(Rc::new(AcpModelSelector::new( session_id.clone(), self.connection.clone(), models.clone(), )) as _) } else { None } } fn into_any(self: Rc) -> Rc { self } } struct AcpSessionModes { session_id: acp::SessionId, connection: Rc, state: Rc>, } impl acp_thread::AgentSessionModes for AcpSessionModes { fn current_mode(&self) -> acp::SessionModeId { self.state.borrow().current_mode_id.clone() } fn all_modes(&self) -> Vec { self.state.borrow().available_modes.clone() } fn set_mode(&self, mode_id: acp::SessionModeId, cx: &mut App) -> Task> { let connection = self.connection.clone(); let session_id = self.session_id.clone(); let old_mode_id; { let mut state = self.state.borrow_mut(); old_mode_id = state.current_mode_id.clone(); state.current_mode_id = mode_id.clone(); }; let state = self.state.clone(); cx.foreground_executor().spawn(async move { let result = connection .set_session_mode(acp::SetSessionModeRequest::new(session_id, mode_id)) .await; if result.is_err() { state.borrow_mut().current_mode_id = old_mode_id; } result?; Ok(()) }) } } struct AcpModelSelector { session_id: acp::SessionId, connection: Rc, state: Rc>, } impl AcpModelSelector { fn new( session_id: acp::SessionId, connection: Rc, state: Rc>, ) -> Self { Self { session_id, connection, state, } } } impl acp_thread::AgentModelSelector for AcpModelSelector { fn list_models(&self, _cx: &mut App) -> Task> { Task::ready(Ok(acp_thread::AgentModelList::Flat( self.state .borrow() .available_models .clone() .into_iter() .map(acp_thread::AgentModelInfo::from) .collect(), ))) } fn select_model(&self, model_id: acp::ModelId, cx: &mut App) -> Task> { let connection = self.connection.clone(); let session_id = self.session_id.clone(); let old_model_id; { let mut state = self.state.borrow_mut(); old_model_id = state.current_model_id.clone(); state.current_model_id = model_id.clone(); }; let state = self.state.clone(); cx.foreground_executor().spawn(async move { let result = connection .set_session_model(acp::SetSessionModelRequest::new(session_id, model_id)) .await; if result.is_err() { state.borrow_mut().current_model_id = old_model_id; } result?; Ok(()) }) } fn selected_model(&self, _cx: &mut App) -> Task> { let state = self.state.borrow(); Task::ready( state .available_models .iter() .find(|m| m.model_id == state.current_model_id) .cloned() .map(acp_thread::AgentModelInfo::from) .ok_or_else(|| anyhow::anyhow!("Model not found")), ) } } struct ClientDelegate { sessions: Rc>>, cx: AsyncApp, } #[async_trait::async_trait(?Send)] impl acp::Client for ClientDelegate { async fn request_permission( &self, arguments: acp::RequestPermissionRequest, ) -> Result { let respect_always_allow_setting; let thread; { let sessions_ref = self.sessions.borrow(); let session = sessions_ref .get(&arguments.session_id) .context("Failed to get session")?; respect_always_allow_setting = session.session_modes.is_none(); thread = session.thread.clone(); } let cx = &mut self.cx.clone(); let task = thread.update(cx, |thread, cx| { thread.request_tool_call_authorization( arguments.tool_call, arguments.options, respect_always_allow_setting, cx, ) })??; let outcome = task.await; Ok(acp::RequestPermissionResponse::new(outcome)) } async fn write_text_file( &self, arguments: acp::WriteTextFileRequest, ) -> Result { let cx = &mut self.cx.clone(); let task = self .session_thread(&arguments.session_id)? .update(cx, |thread, cx| { thread.write_text_file(arguments.path, arguments.content, cx) })?; task.await?; Ok(Default::default()) } async fn read_text_file( &self, arguments: acp::ReadTextFileRequest, ) -> Result { let task = self.session_thread(&arguments.session_id)?.update( &mut self.cx.clone(), |thread, cx| { thread.read_text_file(arguments.path, arguments.line, arguments.limit, false, cx) }, )?; let content = task.await?; Ok(acp::ReadTextFileResponse::new(content)) } async fn session_notification( &self, notification: acp::SessionNotification, ) -> Result<(), acp::Error> { let sessions = self.sessions.borrow(); let session = sessions .get(¬ification.session_id) .context("Failed to get session")?; if let acp::SessionUpdate::CurrentModeUpdate(acp::CurrentModeUpdate { current_mode_id, .. }) = ¬ification.update { if let Some(session_modes) = &session.session_modes { session_modes.borrow_mut().current_mode_id = current_mode_id.clone(); } else { log::error!( "Got a `CurrentModeUpdate` notification, but they agent didn't specify `modes` during setting setup." ); } } // Clone so we can inspect meta both before and after handing off to the thread let update_clone = notification.update.clone(); // Pre-handle: if a ToolCall carries terminal_info, create/register a display-only terminal. if let acp::SessionUpdate::ToolCall(tc) = &update_clone { if let Some(meta) = &tc.meta { if let Some(terminal_info) = meta.get("terminal_info") { if let Some(id_str) = terminal_info.get("terminal_id").and_then(|v| v.as_str()) { let terminal_id = acp::TerminalId::new(id_str); let cwd = terminal_info .get("cwd") .and_then(|v| v.as_str().map(PathBuf::from)); // Create a minimal display-only lower-level terminal and register it. let _ = session.thread.update(&mut self.cx.clone(), |thread, cx| { let builder = TerminalBuilder::new_display_only( CursorShape::default(), AlternateScroll::On, None, 0, )?; let lower = cx.new(|cx| builder.subscribe(cx)); thread.on_terminal_provider_event( TerminalProviderEvent::Created { terminal_id, label: tc.title.clone(), cwd, output_byte_limit: None, terminal: lower, }, cx, ); anyhow::Ok(()) }); } } } } // Forward the update to the acp_thread as usual. session.thread.update(&mut self.cx.clone(), |thread, cx| { thread.handle_session_update(notification.update.clone(), cx) })??; // Post-handle: stream terminal output/exit if present on ToolCallUpdate meta. if let acp::SessionUpdate::ToolCallUpdate(tcu) = &update_clone { if let Some(meta) = &tcu.meta { if let Some(term_out) = meta.get("terminal_output") { if let Some(id_str) = term_out.get("terminal_id").and_then(|v| v.as_str()) { let terminal_id = acp::TerminalId::new(id_str); if let Some(s) = term_out.get("data").and_then(|v| v.as_str()) { let data = s.as_bytes().to_vec(); let _ = session.thread.update(&mut self.cx.clone(), |thread, cx| { thread.on_terminal_provider_event( TerminalProviderEvent::Output { terminal_id, data }, cx, ); }); } } } // terminal_exit if let Some(term_exit) = meta.get("terminal_exit") { if let Some(id_str) = term_exit.get("terminal_id").and_then(|v| v.as_str()) { let terminal_id = acp::TerminalId::new(id_str); let status = acp::TerminalExitStatus::new() .exit_code( term_exit .get("exit_code") .and_then(|v| v.as_u64()) .map(|i| i as u32), ) .signal( term_exit .get("signal") .and_then(|v| v.as_str().map(|s| s.to_string())), ); let _ = session.thread.update(&mut self.cx.clone(), |thread, cx| { thread.on_terminal_provider_event( TerminalProviderEvent::Exit { terminal_id, status, }, cx, ); }); } } } } Ok(()) } async fn create_terminal( &self, args: acp::CreateTerminalRequest, ) -> Result { let thread = self.session_thread(&args.session_id)?; let project = thread.read_with(&self.cx, |thread, _cx| thread.project().clone())?; let terminal_entity = acp_thread::create_terminal_entity( args.command.clone(), &args.args, args.env .into_iter() .map(|env| (env.name, env.value)) .collect(), args.cwd.clone(), &project, &mut self.cx.clone(), ) .await?; // Register with renderer let terminal_entity = thread.update(&mut self.cx.clone(), |thread, cx| { thread.register_terminal_created( acp::TerminalId::new(uuid::Uuid::new_v4().to_string()), format!("{} {}", args.command, args.args.join(" ")), args.cwd.clone(), args.output_byte_limit, terminal_entity, cx, ) })?; let terminal_id = terminal_entity.read_with(&self.cx, |terminal, _| terminal.id().clone())?; Ok(acp::CreateTerminalResponse::new(terminal_id)) } async fn kill_terminal_command( &self, args: acp::KillTerminalCommandRequest, ) -> Result { self.session_thread(&args.session_id)? .update(&mut self.cx.clone(), |thread, cx| { thread.kill_terminal(args.terminal_id, cx) })??; Ok(Default::default()) } async fn ext_method(&self, _args: acp::ExtRequest) -> Result { Err(acp::Error::method_not_found()) } async fn ext_notification(&self, _args: acp::ExtNotification) -> Result<(), acp::Error> { Err(acp::Error::method_not_found()) } async fn release_terminal( &self, args: acp::ReleaseTerminalRequest, ) -> Result { self.session_thread(&args.session_id)? .update(&mut self.cx.clone(), |thread, cx| { thread.release_terminal(args.terminal_id, cx) })??; Ok(Default::default()) } async fn terminal_output( &self, args: acp::TerminalOutputRequest, ) -> Result { self.session_thread(&args.session_id)? .read_with(&mut self.cx.clone(), |thread, cx| { let out = thread .terminal(args.terminal_id)? .read(cx) .current_output(cx); Ok(out) })? } async fn wait_for_terminal_exit( &self, args: acp::WaitForTerminalExitRequest, ) -> Result { let exit_status = self .session_thread(&args.session_id)? .update(&mut self.cx.clone(), |thread, cx| { anyhow::Ok(thread.terminal(args.terminal_id)?.read(cx).wait_for_exit()) })?? .await; Ok(acp::WaitForTerminalExitResponse::new(exit_status)) } } impl ClientDelegate { fn session_thread(&self, session_id: &acp::SessionId) -> Result> { let sessions = self.sessions.borrow(); sessions .get(session_id) .context("Failed to get session") .map(|session| session.thread.clone()) } }