use crate::headless_project::HeadlessAppState; use crate::HeadlessProject; use anyhow::{anyhow, Context, Result}; use chrono::Utc; use client::{telemetry, ProxySettings}; use fs::{Fs, RealFs}; use futures::channel::mpsc; use futures::{select, select_biased, AsyncRead, AsyncWrite, AsyncWriteExt, FutureExt, SinkExt}; use git::GitHostingProviderRegistry; use gpui::{AppContext, Context as _, Model, ModelContext, UpdateGlobal as _}; use http_client::{read_proxy_from_env, Uri}; use language::LanguageRegistry; use node_runtime::{NodeBinaryOptions, NodeRuntime}; use paths::logs_dir; use project::project_settings::ProjectSettings; use remote::proxy::ProxyLaunchError; use remote::ssh_session::ChannelClient; use remote::{ json_log::LogRecord, protocol::{read_message, write_message}, }; use reqwest_client::ReqwestClient; use rpc::proto::{self, Envelope, SSH_PROJECT_ID}; use rpc::{AnyProtoClient, TypedEnvelope}; use settings::{watch_config_file, Settings, SettingsStore}; use smol::channel::{Receiver, Sender}; use smol::io::AsyncReadExt; use smol::Async; use smol::{net::unix::UnixListener, stream::StreamExt as _}; use std::ffi::OsStr; use std::ops::ControlFlow; use std::{env, thread}; use std::{ io::Write, mem, path::{Path, PathBuf}, sync::Arc, }; use telemetry_events::LocationData; use util::ResultExt; fn init_logging_proxy() { env_logger::builder() .format(|buf, record| { let mut log_record = LogRecord::new(record); log_record.message = format!("(remote proxy) {}", log_record.message); serde_json::to_writer(&mut *buf, &log_record)?; buf.write_all(b"\n")?; Ok(()) }) .init(); } fn init_logging_server(log_file_path: PathBuf) -> Result>> { struct MultiWrite { file: Box, channel: Sender>, buffer: Vec, } impl std::io::Write for MultiWrite { fn write(&mut self, buf: &[u8]) -> std::io::Result { let written = self.file.write(buf)?; self.buffer.extend_from_slice(&buf[..written]); Ok(written) } fn flush(&mut self) -> std::io::Result<()> { self.channel .send_blocking(self.buffer.clone()) .map_err(|error| std::io::Error::new(std::io::ErrorKind::Other, error))?; self.buffer.clear(); self.file.flush() } } let log_file = Box::new(if log_file_path.exists() { std::fs::OpenOptions::new() .append(true) .open(&log_file_path) .context("Failed to open log file in append mode")? } else { std::fs::File::create(&log_file_path).context("Failed to create log file")? }); let (tx, rx) = smol::channel::unbounded(); let target = Box::new(MultiWrite { file: log_file, channel: tx, buffer: Vec::new(), }); env_logger::Builder::from_default_env() .target(env_logger::Target::Pipe(target)) .format(|buf, record| { let mut log_record = LogRecord::new(record); log_record.message = format!("(remote server) {}", log_record.message); serde_json::to_writer(&mut *buf, &log_record)?; buf.write_all(b"\n")?; Ok(()) }) .init(); Ok(rx) } fn init_panic_hook() { std::panic::set_hook(Box::new(|info| { let payload = info .payload() .downcast_ref::<&str>() .map(|s| s.to_string()) .or_else(|| info.payload().downcast_ref::().cloned()) .unwrap_or_else(|| "Box".to_string()); let backtrace = backtrace::Backtrace::new(); let mut backtrace = backtrace .frames() .iter() .flat_map(|frame| { frame .symbols() .iter() .filter_map(|frame| Some(format!("{:#}", frame.name()?))) }) .collect::>(); // Strip out leading stack frames for rust panic-handling. if let Some(ix) = backtrace .iter() .position(|name| name == "rust_begin_unwind") { backtrace.drain(0..=ix); } let thread = thread::current(); let thread_name = thread.name().unwrap_or(""); log::error!( "panic occurred: {}\nBacktrace:\n{}", &payload, (&backtrace).join("\n") ); let panic_data = telemetry_events::Panic { thread: thread_name.into(), payload: payload.clone(), location_data: info.location().map(|location| LocationData { file: location.file().into(), line: location.line(), }), app_version: format!( "remote-server-{}", option_env!("ZED_COMMIT_SHA").unwrap_or(&env!("ZED_PKG_VERSION")) ), release_channel: release_channel::RELEASE_CHANNEL.display_name().into(), os_name: telemetry::os_name(), os_version: Some(telemetry::os_version()), architecture: env::consts::ARCH.into(), panicked_on: Utc::now().timestamp_millis(), backtrace, system_id: None, // Set on SSH client installation_id: None, // Set on SSH client session_id: "".to_string(), // Set on SSH client }; if let Some(panic_data_json) = serde_json::to_string(&panic_data).log_err() { let timestamp = chrono::Utc::now().format("%Y_%m_%d %H_%M_%S").to_string(); let panic_file_path = paths::logs_dir().join(format!("zed-{timestamp}.panic")); let panic_file = std::fs::OpenOptions::new() .append(true) .create(true) .open(&panic_file_path) .log_err(); if let Some(mut panic_file) = panic_file { writeln!(&mut panic_file, "{panic_data_json}").log_err(); panic_file.flush().log_err(); } } std::process::abort(); })); } fn handle_panic_requests(project: &Model, client: &Arc) { let client: AnyProtoClient = client.clone().into(); client.add_request_handler( project.downgrade(), |_, _: TypedEnvelope, _cx| async move { let mut children = smol::fs::read_dir(paths::logs_dir()).await?; let mut panic_files = Vec::new(); while let Some(child) = children.next().await { let child = child?; let child_path = child.path(); if child_path.extension() != Some(OsStr::new("panic")) { continue; } let filename = if let Some(filename) = child_path.file_name() { filename.to_string_lossy() } else { continue; }; if !filename.starts_with("zed") { continue; } let file_contents = smol::fs::read_to_string(&child_path) .await .context("error reading panic file")?; panic_files.push(file_contents); // We've done what we can, delete the file std::fs::remove_file(child_path) .context("error removing panic") .log_err(); } anyhow::Ok(proto::GetPanicFilesResponse { file_contents: panic_files, }) }, ); } struct ServerListeners { stdin: UnixListener, stdout: UnixListener, stderr: UnixListener, } impl ServerListeners { pub fn new(stdin_path: PathBuf, stdout_path: PathBuf, stderr_path: PathBuf) -> Result { Ok(Self { stdin: UnixListener::bind(stdin_path).context("failed to bind stdin socket")?, stdout: UnixListener::bind(stdout_path).context("failed to bind stdout socket")?, stderr: UnixListener::bind(stderr_path).context("failed to bind stderr socket")?, }) } } fn start_server( listeners: ServerListeners, mut log_rx: Receiver>, cx: &mut AppContext, ) -> Arc { // This is the server idle timeout. If no connection comes in in this timeout, the server will shut down. const IDLE_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(10 * 60); let (incoming_tx, incoming_rx) = mpsc::unbounded::(); let (outgoing_tx, mut outgoing_rx) = mpsc::unbounded::(); let (app_quit_tx, mut app_quit_rx) = mpsc::unbounded::<()>(); cx.on_app_quit(move |_| { let mut app_quit_tx = app_quit_tx.clone(); async move { log::info!("app quitting. sending signal to server main loop"); app_quit_tx.send(()).await.ok(); } }) .detach(); cx.spawn(|cx| async move { let mut stdin_incoming = listeners.stdin.incoming(); let mut stdout_incoming = listeners.stdout.incoming(); let mut stderr_incoming = listeners.stderr.incoming(); loop { let streams = futures::future::join3(stdin_incoming.next(), stdout_incoming.next(), stderr_incoming.next()); log::info!("accepting new connections"); let result = select! { streams = streams.fuse() => { let (Some(Ok(stdin_stream)), Some(Ok(stdout_stream)), Some(Ok(stderr_stream))) = streams else { break; }; anyhow::Ok((stdin_stream, stdout_stream, stderr_stream)) } _ = futures::FutureExt::fuse(smol::Timer::after(IDLE_TIMEOUT)) => { log::warn!("timed out waiting for new connections after {:?}. exiting.", IDLE_TIMEOUT); cx.update(|cx| { // TODO: This is a hack, because in a headless project, shutdown isn't executed // when calling quit, but it should be. cx.shutdown(); cx.quit(); })?; break; } _ = app_quit_rx.next().fuse() => { break; } }; let Ok((mut stdin_stream, mut stdout_stream, mut stderr_stream)) = result else { break; }; let mut input_buffer = Vec::new(); let mut output_buffer = Vec::new(); let (mut stdin_msg_tx, mut stdin_msg_rx) = mpsc::unbounded::(); cx.background_executor().spawn(async move { while let Ok(msg) = read_message(&mut stdin_stream, &mut input_buffer).await { if let Err(_) = stdin_msg_tx.send(msg).await { break; } } }).detach(); loop { select_biased! { _ = app_quit_rx.next().fuse() => { return anyhow::Ok(()); } stdin_message = stdin_msg_rx.next().fuse() => { let Some(message) = stdin_message else { log::warn!("error reading message on stdin. exiting."); break; }; if let Err(error) = incoming_tx.unbounded_send(message) { log::error!("failed to send message to application: {:?}. exiting.", error); return Err(anyhow!(error)); } } outgoing_message = outgoing_rx.next().fuse() => { let Some(message) = outgoing_message else { log::error!("stdout handler, no message"); break; }; if let Err(error) = write_message(&mut stdout_stream, &mut output_buffer, message).await { log::error!("failed to write stdout message: {:?}", error); break; } if let Err(error) = stdout_stream.flush().await { log::error!("failed to flush stdout message: {:?}", error); break; } } log_message = log_rx.next().fuse() => { if let Some(log_message) = log_message { if let Err(error) = stderr_stream.write_all(&log_message).await { log::error!("failed to write log message to stderr: {:?}", error); break; } if let Err(error) = stderr_stream.flush().await { log::error!("failed to flush stderr stream: {:?}", error); break; } } } } } } anyhow::Ok(()) }) .detach(); ChannelClient::new(incoming_rx, outgoing_tx, cx, "server") } fn init_paths() -> anyhow::Result<()> { for path in [ paths::config_dir(), paths::extensions_dir(), paths::languages_dir(), paths::logs_dir(), paths::temp_dir(), ] .iter() { std::fs::create_dir_all(path) .map_err(|e| anyhow!("Could not create directory {:?}: {}", path, e))?; } Ok(()) } pub fn execute_run( log_file: PathBuf, pid_file: PathBuf, stdin_socket: PathBuf, stdout_socket: PathBuf, stderr_socket: PathBuf, ) -> Result<()> { init_paths()?; match daemonize()? { ControlFlow::Break(_) => return Ok(()), ControlFlow::Continue(_) => {} } init_panic_hook(); let log_rx = init_logging_server(log_file)?; log::info!( "starting up. pid_file: {:?}, stdin_socket: {:?}, stdout_socket: {:?}, stderr_socket: {:?}", pid_file, stdin_socket, stdout_socket, stderr_socket ); write_pid_file(&pid_file) .with_context(|| format!("failed to write pid file: {:?}", &pid_file))?; let listeners = ServerListeners::new(stdin_socket, stdout_socket, stderr_socket)?; let git_hosting_provider_registry = Arc::new(GitHostingProviderRegistry::new()); gpui::App::headless().run(move |cx| { settings::init(cx); HeadlessProject::init(cx); log::info!("gpui app started, initializing server"); let session = start_server(listeners, log_rx, cx); client::init_settings(cx); GitHostingProviderRegistry::set_global(git_hosting_provider_registry, cx); git_hosting_providers::init(cx); let project = cx.new_model(|cx| { let fs = Arc::new(RealFs::new(Default::default(), None)); let node_settings_rx = initialize_settings(session.clone(), fs.clone(), cx); let proxy_url = read_proxy_settings(cx); let http_client = Arc::new( ReqwestClient::proxy_and_user_agent( proxy_url, &format!( "Zed-Server/{} ({}; {})", env!("CARGO_PKG_VERSION"), std::env::consts::OS, std::env::consts::ARCH ), ) .expect("Could not start HTTP client"), ); let node_runtime = NodeRuntime::new(http_client.clone(), node_settings_rx); let mut languages = LanguageRegistry::new(cx.background_executor().clone()); languages.set_language_server_download_dir(paths::languages_dir().clone()); let languages = Arc::new(languages); HeadlessProject::new( HeadlessAppState { session: session.clone(), fs, http_client, node_runtime, languages, }, cx, ) }); handle_panic_requests(&project, &session); mem::forget(project); }); log::info!("gpui app is shut down. quitting."); Ok(()) } #[derive(Clone)] struct ServerPaths { log_file: PathBuf, pid_file: PathBuf, stdin_socket: PathBuf, stdout_socket: PathBuf, stderr_socket: PathBuf, } impl ServerPaths { fn new(identifier: &str) -> Result { let server_dir = paths::remote_server_state_dir().join(identifier); std::fs::create_dir_all(&server_dir)?; std::fs::create_dir_all(&logs_dir())?; let pid_file = server_dir.join("server.pid"); let stdin_socket = server_dir.join("stdin.sock"); let stdout_socket = server_dir.join("stdout.sock"); let stderr_socket = server_dir.join("stderr.sock"); let log_file = logs_dir().join(format!("server-{}.log", identifier)); Ok(Self { pid_file, stdin_socket, stdout_socket, stderr_socket, log_file, }) } } pub fn execute_proxy(identifier: String, is_reconnecting: bool) -> Result<()> { init_logging_proxy(); init_panic_hook(); log::info!("starting proxy process. PID: {}", std::process::id()); let server_paths = ServerPaths::new(&identifier)?; let server_pid = check_pid_file(&server_paths.pid_file)?; let server_running = server_pid.is_some(); if is_reconnecting { if !server_running { log::error!("attempted to reconnect, but no server running"); return Err(anyhow!(ProxyLaunchError::ServerNotRunning)); } } else { if let Some(pid) = server_pid { log::info!("proxy found server already running with PID {}. Killing process and cleaning up files...", pid); kill_running_server(pid, &server_paths)?; } spawn_server(&server_paths)?; }; let stdin_task = smol::spawn(async move { let stdin = Async::new(std::io::stdin())?; let stream = smol::net::unix::UnixStream::connect(&server_paths.stdin_socket).await?; handle_io(stdin, stream, "stdin").await }); let stdout_task: smol::Task> = smol::spawn(async move { let stdout = Async::new(std::io::stdout())?; let stream = smol::net::unix::UnixStream::connect(&server_paths.stdout_socket).await?; handle_io(stream, stdout, "stdout").await }); let stderr_task: smol::Task> = smol::spawn(async move { let mut stderr = Async::new(std::io::stderr())?; let mut stream = smol::net::unix::UnixStream::connect(&server_paths.stderr_socket).await?; let mut stderr_buffer = vec![0; 2048]; loop { match stream.read(&mut stderr_buffer).await { Ok(0) => { let error = std::io::Error::new(std::io::ErrorKind::UnexpectedEof, "stderr closed"); Err(anyhow!(error))?; } Ok(n) => { stderr.write_all(&mut stderr_buffer[..n]).await?; stderr.flush().await?; } Err(error) => { Err(anyhow!("error reading stderr: {error:?}"))?; } } } }); if let Err(forwarding_result) = smol::block_on(async move { futures::select! { result = stdin_task.fuse() => result.context("stdin_task failed"), result = stdout_task.fuse() => result.context("stdout_task failed"), result = stderr_task.fuse() => result.context("stderr_task failed"), } }) { log::error!( "encountered error while forwarding messages: {:?}, terminating...", forwarding_result ); return Err(forwarding_result); } Ok(()) } fn kill_running_server(pid: u32, paths: &ServerPaths) -> Result<()> { log::info!("killing existing server with PID {}", pid); std::process::Command::new("kill") .arg(pid.to_string()) .output() .context("failed to kill existing server")?; for file in [ &paths.pid_file, &paths.stdin_socket, &paths.stdout_socket, &paths.stderr_socket, ] { log::debug!("cleaning up file {:?} before starting new server", file); std::fs::remove_file(file).ok(); } Ok(()) } fn spawn_server(paths: &ServerPaths) -> Result<()> { if paths.stdin_socket.exists() { std::fs::remove_file(&paths.stdin_socket)?; } if paths.stdout_socket.exists() { std::fs::remove_file(&paths.stdout_socket)?; } if paths.stderr_socket.exists() { std::fs::remove_file(&paths.stderr_socket)?; } let binary_name = std::env::current_exe()?; let mut server_process = std::process::Command::new(binary_name); server_process .arg("run") .arg("--log-file") .arg(&paths.log_file) .arg("--pid-file") .arg(&paths.pid_file) .arg("--stdin-socket") .arg(&paths.stdin_socket) .arg("--stdout-socket") .arg(&paths.stdout_socket) .arg("--stderr-socket") .arg(&paths.stderr_socket); let status = server_process .status() .context("failed to launch server process")?; anyhow::ensure!( status.success(), "failed to launch and detach server process" ); let mut total_time_waited = std::time::Duration::from_secs(0); let wait_duration = std::time::Duration::from_millis(20); while !paths.stdout_socket.exists() || !paths.stdin_socket.exists() || !paths.stderr_socket.exists() { log::debug!("waiting for server to be ready to accept connections..."); std::thread::sleep(wait_duration); total_time_waited += wait_duration; } log::info!( "server ready to accept connections. total time waited: {:?}", total_time_waited ); Ok(()) } fn check_pid_file(path: &Path) -> Result> { let Some(pid) = std::fs::read_to_string(&path) .ok() .and_then(|contents| contents.parse::().ok()) else { return Ok(None); }; log::debug!("Checking if process with PID {} exists...", pid); match std::process::Command::new("kill") .arg("-0") .arg(pid.to_string()) .output() { Ok(output) if output.status.success() => { log::debug!("Process with PID {} exists. NOT spawning new server, but attaching to existing one.", pid); Ok(Some(pid)) } _ => { log::debug!( "Found PID file, but process with that PID does not exist. Removing PID file." ); std::fs::remove_file(&path).context("Failed to remove PID file")?; Ok(None) } } } fn write_pid_file(path: &Path) -> Result<()> { if path.exists() { std::fs::remove_file(path)?; } let pid = std::process::id().to_string(); log::debug!("writing PID {} to file {:?}", pid, path); std::fs::write(path, pid).context("Failed to write PID file") } async fn handle_io(mut reader: R, mut writer: W, socket_name: &str) -> Result<()> where R: AsyncRead + Unpin, W: AsyncWrite + Unpin, { use remote::protocol::read_message_raw; let mut buffer = Vec::new(); loop { read_message_raw(&mut reader, &mut buffer) .await .with_context(|| format!("failed to read message from {}", socket_name))?; write_size_prefixed_buffer(&mut writer, &mut buffer) .await .with_context(|| format!("failed to write message to {}", socket_name))?; writer.flush().await?; buffer.clear(); } } async fn write_size_prefixed_buffer( stream: &mut S, buffer: &mut Vec, ) -> Result<()> { let len = buffer.len() as u32; stream.write_all(len.to_le_bytes().as_slice()).await?; stream.write_all(buffer).await?; Ok(()) } fn initialize_settings( session: Arc, fs: Arc, cx: &mut AppContext, ) -> async_watch::Receiver> { let user_settings_file_rx = watch_config_file( &cx.background_executor(), fs, paths::settings_file().clone(), ); handle_settings_file_changes(user_settings_file_rx, cx, { let session = session.clone(); move |err, _cx| { if let Some(e) = err { log::info!("Server settings failed to change: {}", e); session .send(proto::Toast { project_id: SSH_PROJECT_ID, notification_id: "server-settings-failed".to_string(), message: format!( "Error in settings on remote host {:?}: {}", paths::settings_file(), e ), }) .log_err(); } else { session .send(proto::HideToast { project_id: SSH_PROJECT_ID, notification_id: "server-settings-failed".to_string(), }) .log_err(); } } }); let (tx, rx) = async_watch::channel(None); cx.observe_global::(move |cx| { let settings = &ProjectSettings::get_global(cx).node; log::info!("Got new node settings: {:?}", settings); let options = NodeBinaryOptions { allow_path_lookup: !settings.ignore_system_version.unwrap_or_default(), // TODO: Implement this setting allow_binary_download: true, use_paths: settings.path.as_ref().map(|node_path| { let node_path = PathBuf::from(shellexpand::tilde(node_path).as_ref()); let npm_path = settings .npm_path .as_ref() .map(|path| PathBuf::from(shellexpand::tilde(&path).as_ref())); ( node_path.clone(), npm_path.unwrap_or_else(|| { let base_path = PathBuf::new(); node_path.parent().unwrap_or(&base_path).join("npm") }), ) }), }; tx.send(Some(options)).log_err(); }) .detach(); rx } pub fn handle_settings_file_changes( mut server_settings_file: mpsc::UnboundedReceiver, cx: &mut AppContext, settings_changed: impl Fn(Option, &mut AppContext) + 'static, ) { let server_settings_content = cx .background_executor() .block(server_settings_file.next()) .unwrap(); SettingsStore::update_global(cx, |store, cx| { store .set_server_settings(&server_settings_content, cx) .log_err(); }); cx.spawn(move |cx| async move { while let Some(server_settings_content) = server_settings_file.next().await { let result = cx.update_global(|store: &mut SettingsStore, cx| { let result = store.set_server_settings(&server_settings_content, cx); if let Err(err) = &result { log::error!("Failed to load server settings: {err}"); } settings_changed(result.err(), cx); cx.refresh(); }); if result.is_err() { break; // App dropped } } }) .detach(); } fn read_proxy_settings(cx: &mut ModelContext<'_, HeadlessProject>) -> Option { let proxy_str = ProxySettings::get_global(cx).proxy.to_owned(); let proxy_url = proxy_str .as_ref() .and_then(|input: &String| { input .parse::() .inspect_err(|e| log::error!("Error parsing proxy settings: {}", e)) .ok() }) .or_else(read_proxy_from_env); proxy_url } fn daemonize() -> Result> { match fork::fork().map_err(|e| anyhow::anyhow!("failed to call fork with error code {}", e))? { fork::Fork::Parent(_) => { return Ok(ControlFlow::Break(())); } fork::Fork::Child => {} } // Once we've detached from the parent, we want to close stdout/stderr/stdin // so that the outer SSH process is not attached to us in any way anymore. unsafe { redirect_standard_streams() }?; Ok(ControlFlow::Continue(())) } unsafe fn redirect_standard_streams() -> Result<()> { let devnull_fd = libc::open(b"/dev/null\0" as *const [u8; 10] as _, libc::O_RDWR); anyhow::ensure!(devnull_fd != -1, "failed to open /dev/null"); let process_stdio = |name, fd| { let reopened_fd = libc::dup2(devnull_fd, fd); anyhow::ensure!( reopened_fd != -1, format!("failed to redirect {} to /dev/null", name) ); Ok(()) }; process_stdio("stdin", libc::STDIN_FILENO)?; process_stdio("stdout", libc::STDOUT_FILENO)?; process_stdio("stderr", libc::STDERR_FILENO)?; anyhow::ensure!( libc::close(devnull_fd) != -1, "failed to close /dev/null fd after redirecting" ); Ok(()) }