use super::{ breakpoint_store::BreakpointStore, dap_command::EvaluateCommand, locators, session::{self, Session, SessionStateEvent}, }; use crate::{ InlayHint, InlayHintLabel, ProjectEnvironment, ResolveState, project_settings::ProjectSettings, terminals::{SshCommand, wrap_for_ssh}, worktree_store::WorktreeStore, }; use anyhow::{Context as _, Result, anyhow}; use async_trait::async_trait; use collections::HashMap; use dap::{ Capabilities, CompletionItem, CompletionsArguments, DapRegistry, DebugRequest, EvaluateArguments, EvaluateArgumentsContext, EvaluateResponse, Source, StackFrameId, adapters::{ DapDelegate, DebugAdapterBinary, DebugAdapterName, DebugTaskDefinition, TcpArguments, }, client::SessionId, inline_value::VariableLookupKind, messages::Message, requests::{Completions, Evaluate}, }; use fs::Fs; use futures::{ StreamExt, channel::mpsc::{self, UnboundedSender}, future::{Shared, join_all}, }; use gpui::{App, AppContext, AsyncApp, Context, Entity, EventEmitter, SharedString, Task}; use http_client::HttpClient; use language::{Buffer, LanguageToolchainStore, language_settings::InlayHintKind}; use node_runtime::NodeRuntime; use remote::SshRemoteClient; use rpc::{ AnyProtoClient, TypedEnvelope, proto::{self}, }; use settings::{Settings, WorktreeId}; use std::{ borrow::Borrow, collections::BTreeMap, ffi::OsStr, net::Ipv4Addr, path::{Path, PathBuf}, sync::{Arc, Once}, }; use task::{DebugScenario, SpawnInTerminal, TaskTemplate}; use util::ResultExt as _; use worktree::Worktree; #[derive(Debug)] pub enum DapStoreEvent { DebugClientStarted(SessionId), DebugSessionInitialized(SessionId), DebugClientShutdown(SessionId), DebugClientEvent { session_id: SessionId, message: Message, }, Notification(String), RemoteHasInitialized, } enum DapStoreMode { Local(LocalDapStore), Ssh(SshDapStore), Collab, } pub struct LocalDapStore { fs: Arc, node_runtime: NodeRuntime, http_client: Arc, environment: Entity, toolchain_store: Arc, } pub struct SshDapStore { ssh_client: Entity, upstream_client: AnyProtoClient, upstream_project_id: u64, } pub struct DapStore { mode: DapStoreMode, downstream_client: Option<(AnyProtoClient, u64)>, breakpoint_store: Entity, worktree_store: Entity, sessions: BTreeMap>, next_session_id: u32, } impl EventEmitter for DapStore {} impl DapStore { pub fn init(client: &AnyProtoClient, cx: &mut App) { static ADD_LOCATORS: Once = Once::new(); ADD_LOCATORS.call_once(|| { let registry = DapRegistry::global(cx); registry.add_locator(Arc::new(locators::cargo::CargoLocator {})); registry.add_locator(Arc::new(locators::go::GoLocator {})); registry.add_locator(Arc::new(locators::node::NodeLocator)); registry.add_locator(Arc::new(locators::python::PythonLocator)); }); client.add_entity_request_handler(Self::handle_run_debug_locator); client.add_entity_request_handler(Self::handle_get_debug_adapter_binary); client.add_entity_message_handler(Self::handle_log_to_debug_console); } #[expect(clippy::too_many_arguments)] pub fn new_local( http_client: Arc, node_runtime: NodeRuntime, fs: Arc, environment: Entity, toolchain_store: Arc, worktree_store: Entity, breakpoint_store: Entity, cx: &mut Context, ) -> Self { let mode = DapStoreMode::Local(LocalDapStore { fs, environment, http_client, node_runtime, toolchain_store, }); Self::new(mode, breakpoint_store, worktree_store, cx) } pub fn new_ssh( project_id: u64, ssh_client: Entity, breakpoint_store: Entity, worktree_store: Entity, cx: &mut Context, ) -> Self { let mode = DapStoreMode::Ssh(SshDapStore { upstream_client: ssh_client.read(cx).proto_client(), ssh_client, upstream_project_id: project_id, }); Self::new(mode, breakpoint_store, worktree_store, cx) } pub fn new_collab( _project_id: u64, _upstream_client: AnyProtoClient, breakpoint_store: Entity, worktree_store: Entity, cx: &mut Context, ) -> Self { Self::new(DapStoreMode::Collab, breakpoint_store, worktree_store, cx) } fn new( mode: DapStoreMode, breakpoint_store: Entity, worktree_store: Entity, _cx: &mut Context, ) -> Self { Self { mode, next_session_id: 0, downstream_client: None, breakpoint_store, worktree_store, sessions: Default::default(), } } pub fn get_debug_adapter_binary( &mut self, definition: DebugTaskDefinition, session_id: SessionId, console: UnboundedSender, cx: &mut Context, ) -> Task> { match &self.mode { DapStoreMode::Local(_) => { let Some(worktree) = self.worktree_store.read(cx).visible_worktrees(cx).next() else { return Task::ready(Err(anyhow!("Failed to find a worktree"))); }; let Some(adapter) = DapRegistry::global(cx).adapter(&definition.adapter) else { return Task::ready(Err(anyhow!("Failed to find a debug adapter"))); }; let user_installed_path = ProjectSettings::get_global(cx) .dap .get(&adapter.name()) .and_then(|s| s.binary.as_ref().map(PathBuf::from)); let delegate = self.delegate(&worktree, console, cx); let cwd: Arc = worktree.read(cx).abs_path().as_ref().into(); cx.spawn(async move |this, cx| { let mut binary = adapter .get_binary(&delegate, &definition, user_installed_path, cx) .await?; let env = this .update(cx, |this, cx| { this.as_local() .unwrap() .environment .update(cx, |environment, cx| { environment.get_directory_environment(cwd, cx) }) })? .await; if let Some(mut env) = env { env.extend(std::mem::take(&mut binary.envs)); binary.envs = env; } Ok(binary) }) } DapStoreMode::Ssh(ssh) => { let request = ssh.upstream_client.request(proto::GetDebugAdapterBinary { session_id: session_id.to_proto(), project_id: ssh.upstream_project_id, definition: Some(definition.to_proto()), }); let ssh_client = ssh.ssh_client.clone(); cx.spawn(async move |_, cx| { let response = request.await?; let binary = DebugAdapterBinary::from_proto(response)?; let mut ssh_command = ssh_client.read_with(cx, |ssh, _| { anyhow::Ok(SshCommand { arguments: ssh.ssh_args().context("SSH arguments not found")?, }) })??; let mut connection = None; if let Some(c) = binary.connection { let local_bind_addr = Ipv4Addr::LOCALHOST; let port = dap::transport::TcpTransport::unused_port(local_bind_addr).await?; ssh_command.add_port_forwarding(port, c.host.to_string(), c.port); connection = Some(TcpArguments { port, host: local_bind_addr, timeout: c.timeout, }) } let (program, args) = wrap_for_ssh( &ssh_command, Some((&binary.command, &binary.arguments)), binary.cwd.as_deref(), binary.envs, None, ); Ok(DebugAdapterBinary { command: program, arguments: args, envs: HashMap::default(), cwd: None, connection, request_args: binary.request_args, }) }) } DapStoreMode::Collab => { Task::ready(Err(anyhow!("Debugging is not yet supported via collab"))) } } } pub fn debug_scenario_for_build_task( &self, build: TaskTemplate, adapter: DebugAdapterName, label: SharedString, cx: &mut App, ) -> Option { DapRegistry::global(cx) .locators() .values() .find_map(|locator| locator.create_scenario(&build, &label, adapter.clone())) } pub fn run_debug_locator( &mut self, locator_name: &str, build_command: SpawnInTerminal, cx: &mut Context, ) -> Task> { match &self.mode { DapStoreMode::Local(_) => { // Pre-resolve args with existing environment. let locators = DapRegistry::global(cx).locators(); let locator = locators.get(locator_name); if let Some(locator) = locator.cloned() { cx.background_spawn(async move { let result = locator .run(build_command.clone()) .await .log_with_level(log::Level::Error); if let Some(result) = result { return Ok(result); } anyhow::bail!( "None of the locators for task `{}` completed successfully", build_command.label ) }) } else { Task::ready(Err(anyhow!( "Couldn't find any locator for task `{}`. Specify the `attach` or `launch` arguments in your debug scenario definition", build_command.label ))) } } DapStoreMode::Ssh(ssh) => { let request = ssh.upstream_client.request(proto::RunDebugLocators { project_id: ssh.upstream_project_id, build_command: Some(build_command.to_proto()), locator: locator_name.to_owned(), }); cx.background_spawn(async move { let response = request.await?; DebugRequest::from_proto(response) }) } DapStoreMode::Collab => { Task::ready(Err(anyhow!("Debugging is not yet supported via collab"))) } } } fn as_local(&self) -> Option<&LocalDapStore> { match &self.mode { DapStoreMode::Local(local_dap_store) => Some(local_dap_store), _ => None, } } pub fn new_session( &mut self, label: SharedString, adapter: DebugAdapterName, parent_session: Option>, cx: &mut Context, ) -> Entity { let session_id = SessionId(util::post_inc(&mut self.next_session_id)); if let Some(session) = &parent_session { session.update(cx, |session, _| { session.add_child_session_id(session_id); }); } let session = Session::new( self.breakpoint_store.clone(), session_id, parent_session, label, adapter, cx, ); self.sessions.insert(session_id, session.clone()); cx.notify(); cx.subscribe(&session, { move |this: &mut DapStore, _, event: &SessionStateEvent, cx| match event { SessionStateEvent::Shutdown => { this.shutdown_session(session_id, cx).detach_and_log_err(cx); } SessionStateEvent::Restart | SessionStateEvent::SpawnChildSession { .. } => {} SessionStateEvent::Running => { cx.emit(DapStoreEvent::DebugClientStarted(session_id)); } } }) .detach(); session } pub fn boot_session( &self, session: Entity, definition: DebugTaskDefinition, cx: &mut Context, ) -> Task> { let Some(worktree) = self.worktree_store.read(cx).visible_worktrees(cx).next() else { return Task::ready(Err(anyhow!("Failed to find a worktree"))); }; let dap_store = cx.weak_entity(); let console = session.update(cx, |session, cx| session.console_output(cx)); let session_id = session.read(cx).session_id(); cx.spawn({ let session = session.clone(); async move |this, cx| { let binary = this .update(cx, |this, cx| { this.get_debug_adapter_binary(definition.clone(), session_id, console, cx) })? .await?; session .update(cx, |session, cx| { session.boot(binary, worktree, dap_store, cx) })? .await } }) } pub fn session_by_id( &self, session_id: impl Borrow, ) -> Option> { let session_id = session_id.borrow(); let client = self.sessions.get(session_id).cloned(); client } pub fn sessions(&self) -> impl Iterator> { self.sessions.values() } pub fn capabilities_by_id( &self, session_id: impl Borrow, cx: &App, ) -> Option { let session_id = session_id.borrow(); self.sessions .get(session_id) .map(|client| client.read(cx).capabilities.clone()) } pub fn breakpoint_store(&self) -> &Entity { &self.breakpoint_store } pub fn worktree_store(&self) -> &Entity { &self.worktree_store } #[allow(dead_code)] async fn handle_ignore_breakpoint_state( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let session_id = SessionId::from_proto(envelope.payload.session_id); this.update(&mut cx, |this, cx| { if let Some(session) = this.session_by_id(&session_id) { session.update(cx, |session, cx| { session.set_ignore_breakpoints(envelope.payload.ignore, cx) }) } else { Task::ready(HashMap::default()) } })? .await; Ok(()) } fn delegate( &self, worktree: &Entity, console: UnboundedSender, cx: &mut App, ) -> Arc { let Some(local_store) = self.as_local() else { unimplemented!("Starting session on remote side"); }; Arc::new(DapAdapterDelegate::new( local_store.fs.clone(), worktree.read(cx).snapshot(), console, local_store.node_runtime.clone(), local_store.http_client.clone(), local_store.toolchain_store.clone(), local_store.environment.update(cx, |env, cx| { env.get_worktree_environment(worktree.clone(), cx) }), )) } pub fn evaluate( &self, session_id: &SessionId, stack_frame_id: u64, expression: String, context: EvaluateArgumentsContext, source: Option, cx: &mut Context, ) -> Task> { let Some(client) = self .session_by_id(session_id) .and_then(|client| client.read(cx).adapter_client()) else { return Task::ready(Err(anyhow!("Could not find client: {:?}", session_id))); }; cx.background_executor().spawn(async move { client .request::(EvaluateArguments { expression: expression.clone(), frame_id: Some(stack_frame_id), context: Some(context), format: None, line: None, column: None, source, }) .await }) } pub fn completions( &self, session_id: &SessionId, stack_frame_id: u64, text: String, completion_column: u64, cx: &mut Context, ) -> Task>> { let Some(client) = self .session_by_id(session_id) .and_then(|client| client.read(cx).adapter_client()) else { return Task::ready(Err(anyhow!("Could not find client: {:?}", session_id))); }; cx.background_executor().spawn(async move { Ok(client .request::(CompletionsArguments { frame_id: Some(stack_frame_id), line: None, text, column: completion_column, }) .await? .targets) }) } pub fn resolve_inline_value_locations( &self, session: Entity, stack_frame_id: StackFrameId, buffer_handle: Entity, inline_value_locations: Vec, cx: &mut Context, ) -> Task>> { let snapshot = buffer_handle.read(cx).snapshot(); let all_variables = session.read(cx).variables_by_stack_frame_id(stack_frame_id); fn format_value(mut value: String) -> String { const LIMIT: usize = 100; if value.len() > LIMIT { value.truncate(LIMIT); value.push_str("..."); } format!(": {}", value) } cx.spawn(async move |_, cx| { let mut inlay_hints = Vec::with_capacity(inline_value_locations.len()); for inline_value_location in inline_value_locations.iter() { let point = snapshot.point_to_point_utf16(language::Point::new( inline_value_location.row as u32, inline_value_location.column as u32, )); let position = snapshot.anchor_after(point); match inline_value_location.lookup { VariableLookupKind::Variable => { let Some(variable) = all_variables .iter() .find(|variable| variable.name == inline_value_location.variable_name) else { continue; }; inlay_hints.push(InlayHint { position, label: InlayHintLabel::String(format_value(variable.value.clone())), kind: Some(InlayHintKind::Type), padding_left: false, padding_right: false, tooltip: None, resolve_state: ResolveState::Resolved, }); } VariableLookupKind::Expression => { let Ok(eval_task) = session.read_with(cx, |session, _| { session.mode.request_dap(EvaluateCommand { expression: inline_value_location.variable_name.clone(), frame_id: Some(stack_frame_id), source: None, context: Some(EvaluateArgumentsContext::Variables), }) }) else { continue; }; if let Some(response) = eval_task.await.log_err() { inlay_hints.push(InlayHint { position, label: InlayHintLabel::String(format_value(response.result)), kind: Some(InlayHintKind::Type), padding_left: false, padding_right: false, tooltip: None, resolve_state: ResolveState::Resolved, }); }; } }; } Ok(inlay_hints) }) } pub fn shutdown_sessions(&mut self, cx: &mut Context) -> Task<()> { let mut tasks = vec![]; for session_id in self.sessions.keys().cloned().collect::>() { tasks.push(self.shutdown_session(session_id, cx)); } cx.background_executor().spawn(async move { futures::future::join_all(tasks).await; }) } pub fn shutdown_session( &mut self, session_id: SessionId, cx: &mut Context, ) -> Task> { let Some(session) = self.sessions.remove(&session_id) else { return Task::ready(Err(anyhow!("Could not find session: {:?}", session_id))); }; let shutdown_children = session .read(cx) .child_session_ids() .iter() .map(|session_id| self.shutdown_session(*session_id, cx)) .collect::>(); let shutdown_parent_task = if let Some(parent_session) = session .read(cx) .parent_id(cx) .and_then(|session_id| self.session_by_id(session_id)) { let shutdown_id = parent_session.update(cx, |parent_session, _| { parent_session.remove_child_session_id(session_id); if parent_session.child_session_ids().len() == 0 { Some(parent_session.session_id()) } else { None } }); shutdown_id.map(|session_id| self.shutdown_session(session_id, cx)) } else { None }; let shutdown_task = session.update(cx, |this, cx| this.shutdown(cx)); cx.background_spawn(async move { if shutdown_children.len() > 0 { let _ = join_all(shutdown_children).await; } shutdown_task.await; if let Some(parent_task) = shutdown_parent_task { parent_task.await?; } Ok(()) }) } pub fn shared( &mut self, project_id: u64, downstream_client: AnyProtoClient, _: &mut Context, ) { self.downstream_client = Some((downstream_client.clone(), project_id)); } pub fn unshared(&mut self, cx: &mut Context) { self.downstream_client.take(); cx.notify(); } async fn handle_run_debug_locator( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result { let task = envelope .payload .build_command .context("missing definition")?; let build_task = SpawnInTerminal::from_proto(task); let locator = envelope.payload.locator; let request = this .update(&mut cx, |this, cx| { this.run_debug_locator(&locator, build_task, cx) })? .await?; Ok(request.to_proto()) } async fn handle_get_debug_adapter_binary( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result { let definition = DebugTaskDefinition::from_proto( envelope.payload.definition.context("missing definition")?, )?; let (tx, mut rx) = mpsc::unbounded(); let session_id = envelope.payload.session_id; cx.spawn({ let this = this.clone(); async move |cx| { while let Some(message) = rx.next().await { this.read_with(cx, |this, _| { if let Some((downstream, project_id)) = this.downstream_client.clone() { downstream .send(proto::LogToDebugConsole { project_id, session_id, message, }) .ok(); } }) .ok(); } } }) .detach(); let binary = this .update(&mut cx, |this, cx| { this.get_debug_adapter_binary(definition, SessionId::from_proto(session_id), tx, cx) })? .await?; Ok(binary.to_proto()) } async fn handle_log_to_debug_console( this: Entity, envelope: TypedEnvelope, mut cx: AsyncApp, ) -> Result<()> { let session_id = SessionId::from_proto(envelope.payload.session_id); this.update(&mut cx, |this, cx| { let Some(session) = this.sessions.get(&session_id) else { return; }; session.update(cx, |session, cx| { session .console_output(cx) .unbounded_send(envelope.payload.message) .ok(); }) }) } } #[derive(Clone)] pub struct DapAdapterDelegate { fs: Arc, console: mpsc::UnboundedSender, worktree: worktree::Snapshot, node_runtime: NodeRuntime, http_client: Arc, toolchain_store: Arc, load_shell_env_task: Shared>>>, } impl DapAdapterDelegate { pub fn new( fs: Arc, worktree: worktree::Snapshot, status: mpsc::UnboundedSender, node_runtime: NodeRuntime, http_client: Arc, toolchain_store: Arc, load_shell_env_task: Shared>>>, ) -> Self { Self { fs, console: status, worktree, http_client, node_runtime, toolchain_store, load_shell_env_task, } } } #[async_trait] impl dap::adapters::DapDelegate for DapAdapterDelegate { fn worktree_id(&self) -> WorktreeId { self.worktree.id() } fn worktree_root_path(&self) -> &Path { &self.worktree.abs_path() } fn http_client(&self) -> Arc { self.http_client.clone() } fn node_runtime(&self) -> NodeRuntime { self.node_runtime.clone() } fn fs(&self) -> Arc { self.fs.clone() } fn output_to_console(&self, msg: String) { self.console.unbounded_send(msg).ok(); } async fn which(&self, command: &OsStr) -> Option { which::which(command).ok() } async fn shell_env(&self) -> HashMap { let task = self.load_shell_env_task.clone(); task.await.unwrap_or_default() } fn toolchain_store(&self) -> Arc { self.toolchain_store.clone() } async fn read_text_file(&self, path: PathBuf) -> Result { let entry = self .worktree .entry_for_path(&path) .with_context(|| format!("no worktree entry for path {path:?}"))?; let abs_path = self .worktree .absolutize(&entry.path) .with_context(|| format!("cannot absolutize path {path:?}"))?; self.fs.load(&abs_path).await } }