#![cfg_attr( any(target_os = "linux", target_os = "freebsd", target_os = "windows"), allow(dead_code) )] use anyhow::{Context as _, Result}; use clap::Parser; use cli::{CliRequest, CliResponse, IpcHandshake, ipc::IpcOneShotServer}; use collections::HashMap; use parking_lot::Mutex; use std::{ env, fs, io, path::{Path, PathBuf}, process::ExitStatus, sync::Arc, thread::{self, JoinHandle}, }; use tempfile::NamedTempFile; use util::paths::PathWithPosition; #[cfg(any(target_os = "linux", target_os = "freebsd"))] use std::io::IsTerminal; struct Detect; trait InstalledApp { fn zed_version_string(&self) -> String; fn launch(&self, ipc_url: String) -> anyhow::Result<()>; fn run_foreground( &self, ipc_url: String, user_data_dir: Option<&str>, ) -> io::Result; fn path(&self) -> PathBuf; } #[derive(Parser, Debug)] #[command( name = "zed", disable_version_flag = true, before_help = "The Zed CLI binary. This CLI is a separate binary that invokes Zed. Examples: `zed` Simply opens Zed `zed --foreground` Runs in foreground (shows all logs) `zed path-to-your-project` Open your project in Zed `zed -n path-to-file ` Open file/folder in a new window", after_help = "To read from stdin, append '-', e.g. 'ps axf | zed -'" )] struct Args { /// Wait for all of the given paths to be opened/closed before exiting. #[arg(short, long)] wait: bool, /// Add files to the currently open workspace #[arg(short, long, overrides_with = "new")] add: bool, /// Create a new workspace #[arg(short, long, overrides_with = "add")] new: bool, /// Sets a custom directory for all user data (e.g., database, extensions, logs). /// This overrides the default platform-specific data directory location. /// On macOS, the default is `~/Library/Application Support/Zed`. /// On Linux/FreeBSD, the default is `$XDG_DATA_HOME/zed`. /// On Windows, the default is `%LOCALAPPDATA%\Zed`. #[arg(long, value_name = "DIR")] user_data_dir: Option, /// The paths to open in Zed (space-separated). /// /// Use `path:line:column` syntax to open a file at the given line and column. paths_with_position: Vec, /// Print Zed's version and the app path. #[arg(short, long)] version: bool, /// Run zed in the foreground (useful for debugging) #[arg(long)] foreground: bool, /// Custom path to Zed.app or the zed binary #[arg(long)] zed: Option, /// Run zed in dev-server mode #[arg(long)] dev_server_token: Option, /// Not supported in Zed CLI, only supported on Zed binary /// Will attempt to give the correct command to run #[arg(long)] system_specs: bool, /// Pairs of file paths to diff. Can be specified multiple times. #[arg(long, action = clap::ArgAction::Append, num_args = 2, value_names = ["OLD_PATH", "NEW_PATH"])] diff: Vec, /// Uninstall Zed from user system #[cfg(all( any(target_os = "linux", target_os = "macos"), not(feature = "no-bundled-uninstall") ))] #[arg(long)] uninstall: bool, } fn parse_path_with_position(argument_str: &str) -> anyhow::Result { let canonicalized = match Path::new(argument_str).canonicalize() { Ok(existing_path) => PathWithPosition::from_path(existing_path), Err(_) => { let path = PathWithPosition::parse_str(argument_str); let curdir = env::current_dir().context("retrieving current directory")?; path.map_path(|path| match fs::canonicalize(&path) { Ok(path) => Ok(path), Err(e) => { if let Some(mut parent) = path.parent() { if parent == Path::new("") { parent = &curdir } match fs::canonicalize(parent) { Ok(parent) => Ok(parent.join(path.file_name().unwrap())), Err(_) => Err(e), } } else { Err(e) } } }) } .with_context(|| format!("parsing as path with position {argument_str}"))?, }; Ok(canonicalized.to_string(|path| path.to_string_lossy().to_string())) } fn main() -> Result<()> { #[cfg(all(not(debug_assertions), target_os = "windows"))] unsafe { use ::windows::Win32::System::Console::{ATTACH_PARENT_PROCESS, AttachConsole}; let _ = AttachConsole(ATTACH_PARENT_PROCESS); } #[cfg(unix)] util::prevent_root_execution(); // Exit flatpak sandbox if needed #[cfg(target_os = "linux")] { flatpak::try_restart_to_host(); flatpak::ld_extra_libs(); } // Intercept version designators #[cfg(target_os = "macos")] if let Some(channel) = std::env::args().nth(1).filter(|arg| arg.starts_with("--")) { // When the first argument is a name of a release channel, we're going to spawn off the CLI of that version, with trailing args passed along. use std::str::FromStr as _; if let Ok(channel) = release_channel::ReleaseChannel::from_str(&channel[2..]) { return mac_os::spawn_channel_cli(channel, std::env::args().skip(2).collect()); } } let args = Args::parse(); // Set custom data directory before any path operations let user_data_dir = args.user_data_dir.clone(); if let Some(dir) = &user_data_dir { paths::set_custom_data_dir(dir); } #[cfg(target_os = "linux")] let args = flatpak::set_bin_if_no_escape(args); let app = Detect::detect(args.zed.as_deref()).context("Bundle detection")?; if args.version { println!("{}", app.zed_version_string()); return Ok(()); } if args.system_specs { let path = app.path(); let msg = [ "The `--system-specs` argument is not supported in the Zed CLI, only on Zed binary.", "To retrieve the system specs on the command line, run the following command:", &format!("{} --system-specs", path.display()), ]; anyhow::bail!(msg.join("\n")); } #[cfg(all( any(target_os = "linux", target_os = "macos"), not(feature = "no-bundled-uninstall") ))] if args.uninstall { static UNINSTALL_SCRIPT: &[u8] = include_bytes!("../../../script/uninstall.sh"); let tmp_dir = tempfile::tempdir()?; let script_path = tmp_dir.path().join("uninstall.sh"); fs::write(&script_path, UNINSTALL_SCRIPT)?; use std::os::unix::fs::PermissionsExt as _; fs::set_permissions(&script_path, fs::Permissions::from_mode(0o755))?; let status = std::process::Command::new("sh") .arg(&script_path) .env("ZED_CHANNEL", &*release_channel::RELEASE_CHANNEL_NAME) .status() .context("Failed to execute uninstall script")?; std::process::exit(status.code().unwrap_or(1)); } let (server, server_name) = IpcOneShotServer::::new().context("Handshake before Zed spawn")?; let url = format!("zed-cli://{server_name}"); let open_new_workspace = if args.new { Some(true) } else if args.add { Some(false) } else { None }; let env = { #[cfg(any(target_os = "linux", target_os = "freebsd"))] { // On Linux, the desktop entry uses `cli` to spawn `zed`. // We need to handle env vars correctly since std::env::vars() may not contain // project-specific vars (e.g. those set by direnv). // By setting env to None here, the LSP will use worktree env vars instead, // which is what we want. if !std::io::stdout().is_terminal() { None } else { Some(std::env::vars().collect::>()) } } #[cfg(not(any(target_os = "linux", target_os = "freebsd")))] Some(std::env::vars().collect::>()) }; let exit_status = Arc::new(Mutex::new(None)); let mut paths = vec![]; let mut urls = vec![]; let mut diff_paths = vec![]; let mut stdin_tmp_file: Option = None; let mut anonymous_fd_tmp_files = vec![]; for path in args.diff.chunks(2) { diff_paths.push([ parse_path_with_position(&path[0])?, parse_path_with_position(&path[1])?, ]); } for path in args.paths_with_position.iter() { if path.starts_with("zed://") || path.starts_with("http://") || path.starts_with("https://") || path.starts_with("file://") || path.starts_with("ssh://") { urls.push(path.to_string()); } else if path == "-" && args.paths_with_position.len() == 1 { let file = NamedTempFile::new()?; paths.push(file.path().to_string_lossy().to_string()); let (file, _) = file.keep()?; stdin_tmp_file = Some(file); } else if let Some(file) = anonymous_fd(path) { let tmp_file = NamedTempFile::new()?; paths.push(tmp_file.path().to_string_lossy().to_string()); let (tmp_file, _) = tmp_file.keep()?; anonymous_fd_tmp_files.push((file, tmp_file)); } else { paths.push(parse_path_with_position(path)?) } } anyhow::ensure!( args.dev_server_token.is_none(), "Dev servers were removed in v0.157.x please upgrade to SSH remoting: https://zed.dev/docs/remote-development" ); let sender: JoinHandle> = thread::spawn({ let exit_status = exit_status.clone(); let user_data_dir_for_thread = user_data_dir.clone(); move || { let (_, handshake) = server.accept().context("Handshake after Zed spawn")?; let (tx, rx) = (handshake.requests, handshake.responses); tx.send(CliRequest::Open { paths, urls, diff_paths, wait: args.wait, open_new_workspace, env, user_data_dir: user_data_dir_for_thread, })?; while let Ok(response) = rx.recv() { match response { CliResponse::Ping => {} CliResponse::Stdout { message } => println!("{message}"), CliResponse::Stderr { message } => eprintln!("{message}"), CliResponse::Exit { status } => { exit_status.lock().replace(status); return Ok(()); } } } Ok(()) } }); let stdin_pipe_handle: Option>> = stdin_tmp_file.map(|mut tmp_file| { thread::spawn(move || { let mut stdin = std::io::stdin().lock(); if !io::IsTerminal::is_terminal(&stdin) { io::copy(&mut stdin, &mut tmp_file)?; } Ok(()) }) }); let anonymous_fd_pipe_handles: Vec<_> = anonymous_fd_tmp_files .into_iter() .map(|(mut file, mut tmp_file)| thread::spawn(move || io::copy(&mut file, &mut tmp_file))) .collect(); if args.foreground { app.run_foreground(url, user_data_dir.as_deref())?; } else { app.launch(url)?; sender.join().unwrap()?; if let Some(handle) = stdin_pipe_handle { handle.join().unwrap()?; } for handle in anonymous_fd_pipe_handles { handle.join().unwrap()?; } } if let Some(exit_status) = exit_status.lock().take() { std::process::exit(exit_status); } Ok(()) } fn anonymous_fd(path: &str) -> Option { #[cfg(target_os = "linux")] { use std::os::fd::{self, FromRawFd}; let fd_str = path.strip_prefix("/proc/self/fd/")?; let link = fs::read_link(path).ok()?; if !link.starts_with("memfd:") { return None; } let fd: fd::RawFd = fd_str.parse().ok()?; let file = unsafe { fs::File::from_raw_fd(fd) }; return Some(file); } #[cfg(any(target_os = "macos", target_os = "freebsd"))] { use std::os::{ fd::{self, FromRawFd}, unix::fs::FileTypeExt, }; let fd_str = path.strip_prefix("/dev/fd/")?; let metadata = fs::metadata(path).ok()?; let file_type = metadata.file_type(); if !file_type.is_fifo() && !file_type.is_socket() { return None; } let fd: fd::RawFd = fd_str.parse().ok()?; let file = unsafe { fs::File::from_raw_fd(fd) }; return Some(file); } #[cfg(not(any(target_os = "linux", target_os = "macos", target_os = "freebsd")))] { _ = path; // not implemented for bsd, windows. Could be, but isn't yet return None; } } #[cfg(any(target_os = "linux", target_os = "freebsd"))] mod linux { use std::{ env, ffi::OsString, io, os::unix::net::{SocketAddr, UnixDatagram}, path::{Path, PathBuf}, process::{self, ExitStatus}, thread, time::Duration, }; use anyhow::{Context as _, anyhow}; use cli::FORCE_CLI_MODE_ENV_VAR_NAME; use fork::Fork; use crate::{Detect, InstalledApp}; struct App(PathBuf); impl Detect { pub fn detect(path: Option<&Path>) -> anyhow::Result { let path = if let Some(path) = path { path.to_path_buf().canonicalize()? } else { let cli = env::current_exe()?; let dir = cli.parent().context("no parent path for cli")?; // libexec is the standard, lib/zed is for Arch (and other non-libexec distros), // ./zed is for the target directory in development builds. let possible_locations = ["../libexec/zed-editor", "../lib/zed/zed-editor", "./zed"]; possible_locations .iter() .find_map(|p| dir.join(p).canonicalize().ok().filter(|path| path != &cli)) .with_context(|| { format!("could not find any of: {}", possible_locations.join(", ")) })? }; Ok(App(path)) } } impl InstalledApp for App { fn zed_version_string(&self) -> String { format!( "Zed {}{}{} – {}", if *release_channel::RELEASE_CHANNEL_NAME == "stable" { "".to_string() } else { format!("{} ", *release_channel::RELEASE_CHANNEL_NAME) }, option_env!("RELEASE_VERSION").unwrap_or_default(), match option_env!("ZED_COMMIT_SHA") { Some(commit_sha) => format!(" {commit_sha} "), None => "".to_string(), }, self.0.display(), ) } fn launch(&self, ipc_url: String) -> anyhow::Result<()> { let sock_path = paths::data_dir().join(format!( "zed-{}.sock", *release_channel::RELEASE_CHANNEL_NAME )); let sock = UnixDatagram::unbound()?; if sock.connect(&sock_path).is_err() { self.boot_background(ipc_url)?; } else { sock.send(ipc_url.as_bytes())?; } Ok(()) } fn run_foreground( &self, ipc_url: String, user_data_dir: Option<&str>, ) -> io::Result { let mut cmd = std::process::Command::new(self.0.clone()); cmd.arg(ipc_url); if let Some(dir) = user_data_dir { cmd.arg("--user-data-dir").arg(dir); } cmd.status() } fn path(&self) -> PathBuf { self.0.clone() } } impl App { fn boot_background(&self, ipc_url: String) -> anyhow::Result<()> { let path = &self.0; match fork::fork() { Ok(Fork::Parent(_)) => Ok(()), Ok(Fork::Child) => { unsafe { std::env::set_var(FORCE_CLI_MODE_ENV_VAR_NAME, "") }; if let Err(_) = fork::setsid() { eprintln!("failed to setsid: {}", std::io::Error::last_os_error()); process::exit(1); } if let Err(_) = fork::close_fd() { eprintln!("failed to close_fd: {}", std::io::Error::last_os_error()); } let error = exec::execvp(path.clone(), &[path.as_os_str(), &OsString::from(ipc_url)]); // if exec succeeded, we never get here. eprintln!("failed to exec {:?}: {}", path, error); process::exit(1) } Err(_) => Err(anyhow!(io::Error::last_os_error())), } } fn wait_for_socket( &self, sock_addr: &SocketAddr, sock: &mut UnixDatagram, ) -> Result<(), std::io::Error> { for _ in 0..100 { thread::sleep(Duration::from_millis(10)); if sock.connect_addr(sock_addr).is_ok() { return Ok(()); } } sock.connect_addr(sock_addr) } } } #[cfg(target_os = "linux")] mod flatpak { use std::ffi::OsString; use std::path::PathBuf; use std::process::Command; use std::{env, process}; const EXTRA_LIB_ENV_NAME: &'static str = "ZED_FLATPAK_LIB_PATH"; const NO_ESCAPE_ENV_NAME: &'static str = "ZED_FLATPAK_NO_ESCAPE"; /// Adds bundled libraries to LD_LIBRARY_PATH if running under flatpak pub fn ld_extra_libs() { let mut paths = if let Ok(paths) = env::var("LD_LIBRARY_PATH") { env::split_paths(&paths).collect() } else { Vec::new() }; if let Ok(extra_path) = env::var(EXTRA_LIB_ENV_NAME) { paths.push(extra_path.into()); } unsafe { env::set_var("LD_LIBRARY_PATH", env::join_paths(paths).unwrap()) }; } /// Restarts outside of the sandbox if currently running within it pub fn try_restart_to_host() { if let Some(flatpak_dir) = get_flatpak_dir() { let mut args = vec!["/usr/bin/flatpak-spawn".into(), "--host".into()]; args.append(&mut get_xdg_env_args()); args.push("--env=ZED_UPDATE_EXPLANATION=Please use flatpak to update zed".into()); args.push( format!( "--env={EXTRA_LIB_ENV_NAME}={}", flatpak_dir.join("lib").to_str().unwrap() ) .into(), ); args.push(flatpak_dir.join("bin").join("zed").into()); let mut is_app_location_set = false; for arg in &env::args_os().collect::>()[1..] { args.push(arg.clone()); is_app_location_set |= arg == "--zed"; } if !is_app_location_set { args.push("--zed".into()); args.push(flatpak_dir.join("libexec").join("zed-editor").into()); } let error = exec::execvp("/usr/bin/flatpak-spawn", args); eprintln!("failed restart cli on host: {:?}", error); process::exit(1); } } pub fn set_bin_if_no_escape(mut args: super::Args) -> super::Args { if env::var(NO_ESCAPE_ENV_NAME).is_ok() && env::var("FLATPAK_ID").map_or(false, |id| id.starts_with("dev.zed.Zed")) && args.zed.is_none() { args.zed = Some("/app/libexec/zed-editor".into()); unsafe { env::set_var("ZED_UPDATE_EXPLANATION", "Please use flatpak to update zed") }; } args } fn get_flatpak_dir() -> Option { if env::var(NO_ESCAPE_ENV_NAME).is_ok() { return None; } if let Ok(flatpak_id) = env::var("FLATPAK_ID") { if !flatpak_id.starts_with("dev.zed.Zed") { return None; } let install_dir = Command::new("/usr/bin/flatpak-spawn") .arg("--host") .arg("flatpak") .arg("info") .arg("--show-location") .arg(flatpak_id) .output() .unwrap(); let install_dir = PathBuf::from(String::from_utf8(install_dir.stdout).unwrap().trim()); Some(install_dir.join("files")) } else { None } } fn get_xdg_env_args() -> Vec { let xdg_keys = [ "XDG_DATA_HOME", "XDG_CONFIG_HOME", "XDG_CACHE_HOME", "XDG_STATE_HOME", ]; env::vars() .filter(|(key, _)| xdg_keys.contains(&key.as_str())) .map(|(key, val)| format!("--env=FLATPAK_{}={}", key, val).into()) .collect() } } #[cfg(target_os = "windows")] mod windows { use anyhow::Context; use release_channel::app_identifier; use windows::{ Win32::{ Foundation::{CloseHandle, ERROR_ALREADY_EXISTS, GENERIC_WRITE, GetLastError}, Storage::FileSystem::{ CreateFileW, FILE_FLAGS_AND_ATTRIBUTES, FILE_SHARE_MODE, OPEN_EXISTING, WriteFile, }, System::Threading::CreateMutexW, }, core::HSTRING, }; use crate::{Detect, InstalledApp}; use std::io; use std::path::{Path, PathBuf}; use std::process::ExitStatus; fn check_single_instance() -> bool { let mutex = unsafe { CreateMutexW( None, false, &HSTRING::from(format!("{}-Instance-Mutex", app_identifier())), ) .expect("Unable to create instance sync event") }; let last_err = unsafe { GetLastError() }; let _ = unsafe { CloseHandle(mutex) }; last_err != ERROR_ALREADY_EXISTS } struct App(PathBuf); impl InstalledApp for App { fn zed_version_string(&self) -> String { format!( "Zed {}{}{} – {}", if *release_channel::RELEASE_CHANNEL_NAME == "stable" { "".to_string() } else { format!("{} ", *release_channel::RELEASE_CHANNEL_NAME) }, option_env!("RELEASE_VERSION").unwrap_or_default(), match option_env!("ZED_COMMIT_SHA") { Some(commit_sha) => format!(" {commit_sha} "), None => "".to_string(), }, self.0.display(), ) } fn launch(&self, ipc_url: String) -> anyhow::Result<()> { if check_single_instance() { std::process::Command::new(self.0.clone()) .arg(ipc_url) .spawn()?; } else { unsafe { let pipe = CreateFileW( &HSTRING::from(format!("\\\\.\\pipe\\{}-Named-Pipe", app_identifier())), GENERIC_WRITE.0, FILE_SHARE_MODE::default(), None, OPEN_EXISTING, FILE_FLAGS_AND_ATTRIBUTES::default(), None, )?; let message = ipc_url.as_bytes(); let mut bytes_written = 0; WriteFile(pipe, Some(message), Some(&mut bytes_written), None)?; CloseHandle(pipe)?; } } Ok(()) } fn run_foreground( &self, ipc_url: String, user_data_dir: Option<&str>, ) -> io::Result { let mut cmd = std::process::Command::new(self.0.clone()); cmd.arg(ipc_url).arg("--foreground"); if let Some(dir) = user_data_dir { cmd.arg("--user-data-dir").arg(dir); } cmd.spawn()?.wait() } fn path(&self) -> PathBuf { self.0.clone() } } impl Detect { pub fn detect(path: Option<&Path>) -> anyhow::Result { let path = if let Some(path) = path { path.to_path_buf().canonicalize()? } else { let cli = std::env::current_exe()?; let dir = cli.parent().context("no parent path for cli")?; // ../Zed.exe is the standard, lib/zed is for MSYS2, ./zed.exe is for the target // directory in development builds. let possible_locations = ["../Zed.exe", "../lib/zed/zed-editor.exe", "./zed.exe"]; possible_locations .iter() .find_map(|p| dir.join(p).canonicalize().ok().filter(|path| path != &cli)) .context(format!( "could not find any of: {}", possible_locations.join(", ") ))? }; Ok(App(path)) } } } #[cfg(target_os = "macos")] mod mac_os { use anyhow::{Context as _, Result}; use core_foundation::{ array::{CFArray, CFIndex}, base::TCFType as _, string::kCFStringEncodingUTF8, url::{CFURL, CFURLCreateWithBytes}, }; use core_services::{LSLaunchURLSpec, LSOpenFromURLSpec, kLSLaunchDefaults}; use serde::Deserialize; use std::{ ffi::OsStr, fs, io, path::{Path, PathBuf}, process::{Command, ExitStatus}, ptr, }; use cli::FORCE_CLI_MODE_ENV_VAR_NAME; use crate::{Detect, InstalledApp}; #[derive(Debug, Deserialize)] struct InfoPlist { #[serde(rename = "CFBundleShortVersionString")] bundle_short_version_string: String, } enum Bundle { App { app_bundle: PathBuf, plist: InfoPlist, }, LocalPath { executable: PathBuf, }, } fn locate_bundle() -> Result { let cli_path = std::env::current_exe()?.canonicalize()?; let mut app_path = cli_path.clone(); while app_path.extension() != Some(OsStr::new("app")) { anyhow::ensure!( app_path.pop(), "cannot find app bundle containing {cli_path:?}" ); } Ok(app_path) } impl Detect { pub fn detect(path: Option<&Path>) -> anyhow::Result { let bundle_path = if let Some(bundle_path) = path { bundle_path .canonicalize() .with_context(|| format!("Args bundle path {bundle_path:?} canonicalization"))? } else { locate_bundle().context("bundle autodiscovery")? }; match bundle_path.extension().and_then(|ext| ext.to_str()) { Some("app") => { let plist_path = bundle_path.join("Contents/Info.plist"); let plist = plist::from_file::<_, InfoPlist>(&plist_path).with_context(|| { format!("Reading *.app bundle plist file at {plist_path:?}") })?; Ok(Bundle::App { app_bundle: bundle_path, plist, }) } _ => Ok(Bundle::LocalPath { executable: bundle_path, }), } } } impl InstalledApp for Bundle { fn zed_version_string(&self) -> String { format!("Zed {} – {}", self.version(), self.path().display(),) } fn launch(&self, url: String) -> anyhow::Result<()> { match self { Self::App { app_bundle, .. } => { let app_path = app_bundle; let status = unsafe { let app_url = CFURL::from_path(app_path, true) .with_context(|| format!("invalid app path {app_path:?}"))?; let url_to_open = CFURL::wrap_under_create_rule(CFURLCreateWithBytes( ptr::null(), url.as_ptr(), url.len() as CFIndex, kCFStringEncodingUTF8, ptr::null(), )); // equivalent to: open zed-cli:... -a /Applications/Zed\ Preview.app let urls_to_open = CFArray::from_copyable(&[url_to_open.as_concrete_TypeRef()]); LSOpenFromURLSpec( &LSLaunchURLSpec { appURL: app_url.as_concrete_TypeRef(), itemURLs: urls_to_open.as_concrete_TypeRef(), passThruParams: ptr::null(), launchFlags: kLSLaunchDefaults, asyncRefCon: ptr::null_mut(), }, ptr::null_mut(), ) }; anyhow::ensure!( status == 0, "cannot start app bundle {}", self.zed_version_string() ); } Self::LocalPath { executable, .. } => { let executable_parent = executable .parent() .with_context(|| format!("Executable {executable:?} path has no parent"))?; let subprocess_stdout_file = fs::File::create( executable_parent.join("zed_dev.log"), ) .with_context(|| format!("Log file creation in {executable_parent:?}"))?; let subprocess_stdin_file = subprocess_stdout_file.try_clone().with_context(|| { format!("Cloning descriptor for file {subprocess_stdout_file:?}") })?; let mut command = std::process::Command::new(executable); let command = command .env(FORCE_CLI_MODE_ENV_VAR_NAME, "") .stderr(subprocess_stdout_file) .stdout(subprocess_stdin_file) .arg(url); command .spawn() .with_context(|| format!("Spawning {command:?}"))?; } } Ok(()) } fn run_foreground( &self, ipc_url: String, user_data_dir: Option<&str>, ) -> io::Result { let path = match self { Bundle::App { app_bundle, .. } => app_bundle.join("Contents/MacOS/zed"), Bundle::LocalPath { executable, .. } => executable.clone(), }; let mut cmd = std::process::Command::new(path); cmd.arg(ipc_url); if let Some(dir) = user_data_dir { cmd.arg("--user-data-dir").arg(dir); } cmd.status() } fn path(&self) -> PathBuf { match self { Bundle::App { app_bundle, .. } => app_bundle.join("Contents/MacOS/zed").clone(), Bundle::LocalPath { executable, .. } => executable.clone(), } } } impl Bundle { fn version(&self) -> String { match self { Self::App { plist, .. } => plist.bundle_short_version_string.clone(), Self::LocalPath { .. } => "".to_string(), } } fn path(&self) -> &Path { match self { Self::App { app_bundle, .. } => app_bundle, Self::LocalPath { executable, .. } => executable, } } } pub(super) fn spawn_channel_cli( channel: release_channel::ReleaseChannel, leftover_args: Vec, ) -> Result<()> { use anyhow::bail; let app_path_prompt = format!( "POSIX path of (path to application \"{}\")", channel.display_name() ); let app_path_output = Command::new("osascript") .arg("-e") .arg(&app_path_prompt) .output()?; if !app_path_output.status.success() { bail!( "Could not determine app path for {}", channel.display_name() ); } let app_path = String::from_utf8(app_path_output.stdout)?.trim().to_owned(); let cli_path = format!("{app_path}/Contents/MacOS/cli"); Command::new(cli_path).args(leftover_args).spawn()?; Ok(()) } }