use crate::{Project, ProjectPath}; use anyhow::{Context as _, Result}; use collections::HashMap; use gpui::{AnyWindowHandle, App, AppContext as _, Context, Entity, Task, WeakEntity}; use itertools::Itertools; use language::LanguageName; use settings::{Settings, SettingsLocation}; use smol::channel::bounded; use std::{ borrow::Cow, env::{self}, iter, path::{Path, PathBuf}, sync::Arc, }; use task::{Shell, ShellBuilder, SpawnInTerminal}; use terminal::{ TaskState, TaskStatus, Terminal, TerminalBuilder, terminal_settings::{self, TerminalSettings, VenvSettings}, }; use util::ResultExt; // #[cfg(target_os = "macos")] // use std::os::unix::ffi::OsStrExt; pub struct Terminals { pub(crate) local_handles: Vec>, } /// Terminals are opened either for the users shell, or to run a task. #[allow(clippy::large_enum_variant)] #[derive(Debug)] pub enum TerminalKind { /// Run a shell at the given path (or $HOME if None) Shell(Option), /// Run a task. Task(SpawnInTerminal), /// Run a debug terminal. Debug { command: Option, args: Vec, envs: HashMap, cwd: PathBuf, title: Option, }, } /// SshCommand describes how to connect to a remote server #[derive(Debug, Clone, PartialEq, Eq)] pub struct SshCommand { arguments: Vec, } impl Project { pub fn active_project_directory(&self, cx: &App) -> Option> { let worktree = self .active_entry() .and_then(|entry_id| self.worktree_for_entry(entry_id, cx)) .into_iter() .chain(self.worktrees(cx)) .find_map(|tree| tree.read(cx).root_dir()); worktree } pub fn first_project_directory(&self, cx: &App) -> Option { let worktree = self.worktrees(cx).next()?; let worktree = worktree.read(cx); if worktree.root_entry()?.is_dir() { Some(worktree.abs_path().to_path_buf()) } else { None } } pub fn ssh_details(&self, cx: &App) -> Option<(String, SshCommand)> { if let Some(ssh_client) = &self.ssh_client { let ssh_client = ssh_client.read(cx); if let Some(args) = ssh_client.ssh_args() { return Some(( ssh_client.connection_options().host.clone(), SshCommand { arguments: args }, )); } } return None; } pub fn create_terminal( &mut self, kind: TerminalKind, window: AnyWindowHandle, cx: &mut Context, ) -> Task>> { let path: Option> = match &kind { TerminalKind::Shell(path) => path.as_ref().map(|path| Arc::from(path.as_ref())), TerminalKind::Task(spawn_task) => { if let Some(cwd) = &spawn_task.cwd { Some(Arc::from(cwd.as_ref())) } else { self.active_project_directory(cx) } } TerminalKind::Debug { cwd, .. } => Some(Arc::from(cwd.as_path())), }; let mut settings_location = None; if let Some(path) = path.as_ref() { if let Some((worktree, _)) = self.find_worktree(path, cx) { settings_location = Some(SettingsLocation { worktree_id: worktree.read(cx).id(), path, }); } } let settings = TerminalSettings::get(settings_location, cx).clone(); cx.spawn(async move |project, cx| { let python_venv_directory = if let Some(path) = path.clone() { project .update(cx, |this, cx| { this.python_venv_directory(path, settings.detect_venv.clone(), cx) })? .await } else { None }; project.update(cx, |project, cx| { project.create_terminal_with_venv(kind, python_venv_directory, window, cx) })? }) } pub fn terminal_settings<'a>( &'a self, path: &'a Option, cx: &'a App, ) -> &'a TerminalSettings { let mut settings_location = None; if let Some(path) = path.as_ref() { if let Some((worktree, _)) = self.find_worktree(path, cx) { settings_location = Some(SettingsLocation { worktree_id: worktree.read(cx).id(), path, }); } } TerminalSettings::get(settings_location, cx) } pub fn exec_in_shell(&self, command: String, cx: &App) -> std::process::Command { let path = self.first_project_directory(cx); let ssh_details = self.ssh_details(cx); let settings = self.terminal_settings(&path, cx).clone(); let builder = ShellBuilder::new(ssh_details.is_none(), &settings.shell); let (command, args) = builder.build(command, &Vec::new()); let mut env = self .environment .read(cx) .get_cli_environment() .unwrap_or_default(); env.extend(settings.env.clone()); match &self.ssh_details(cx) { Some((_, ssh_command)) => { let (command, args) = wrap_for_ssh( ssh_command, Some((&command, &args)), path.as_deref(), env, None, ); let mut command = std::process::Command::new(command); command.args(args); command } None => { let mut command = std::process::Command::new(command); command.args(args); command.envs(env); if let Some(path) = path { command.current_dir(path); } command } } } pub fn create_terminal_with_venv( &mut self, kind: TerminalKind, python_venv_directory: Option, window: AnyWindowHandle, cx: &mut Context, ) -> Result> { let this = &mut *self; let path: Option> = match &kind { TerminalKind::Shell(path) => path.as_ref().map(|path| Arc::from(path.as_ref())), TerminalKind::Task(spawn_task) => { if let Some(cwd) = &spawn_task.cwd { Some(Arc::from(cwd.as_ref())) } else { this.active_project_directory(cx) } } TerminalKind::Debug { cwd, .. } => Some(Arc::from(cwd.as_path())), }; let ssh_details = this.ssh_details(cx); let mut settings_location = None; if let Some(path) = path.as_ref() { if let Some((worktree, _)) = this.find_worktree(path, cx) { settings_location = Some(SettingsLocation { worktree_id: worktree.read(cx).id(), path, }); } } let settings = TerminalSettings::get(settings_location, cx).clone(); let (completion_tx, completion_rx) = bounded(1); // Start with the environment that we might have inherited from the Zed CLI. let mut env = this .environment .read(cx) .get_cli_environment() .unwrap_or_default(); // Then extend it with the explicit env variables from the settings, so they take // precedence. env.extend(settings.env.clone()); let local_path = if ssh_details.is_none() { path.clone() } else { None }; let mut python_venv_activate_command = None; let debug_terminal = matches!(kind, TerminalKind::Debug { .. }); let (spawn_task, shell) = match kind { TerminalKind::Shell(_) => { if let Some(python_venv_directory) = &python_venv_directory { python_venv_activate_command = this.python_activate_command(python_venv_directory, &settings.detect_venv); } match &ssh_details { Some((host, ssh_command)) => { log::debug!("Connecting to a remote server: {ssh_command:?}"); // Alacritty sets its terminfo to `alacritty`, this requiring hosts to have it installed // to properly display colors. // We do not have the luxury of assuming the host has it installed, // so we set it to a default that does not break the highlighting via ssh. env.entry("TERM".to_string()) .or_insert_with(|| "xterm-256color".to_string()); let (program, args) = wrap_for_ssh(&ssh_command, None, path.as_deref(), env, None); env = HashMap::default(); ( Option::::None, Shell::WithArguments { program, args, title_override: Some(format!("{} — Terminal", host).into()), }, ) } None => (None, settings.shell.clone()), } } TerminalKind::Task(spawn_task) => { let task_state = Some(TaskState { id: spawn_task.id, full_label: spawn_task.full_label, label: spawn_task.label, command_label: spawn_task.command_label, hide: spawn_task.hide, status: TaskStatus::Running, show_summary: spawn_task.show_summary, show_command: spawn_task.show_command, show_rerun: spawn_task.show_rerun, completion_rx, }); env.extend(spawn_task.env); if let Some(venv_path) = &python_venv_directory { env.insert( "VIRTUAL_ENV".to_string(), venv_path.to_string_lossy().to_string(), ); } match &ssh_details { Some((host, ssh_command)) => { log::debug!("Connecting to a remote server: {ssh_command:?}"); env.entry("TERM".to_string()) .or_insert_with(|| "xterm-256color".to_string()); let (program, args) = wrap_for_ssh( &ssh_command, Some((&spawn_task.command, &spawn_task.args)), path.as_deref(), env, python_venv_directory.as_deref(), ); env = HashMap::default(); ( task_state, Shell::WithArguments { program, args, title_override: Some(format!("{} — Terminal", host).into()), }, ) } None => { if let Some(venv_path) = &python_venv_directory { add_environment_path(&mut env, &venv_path.join("bin")).log_err(); } ( task_state, Shell::WithArguments { program: spawn_task.command, args: spawn_task.args, title_override: None, }, ) } } } TerminalKind::Debug { command, args, envs, title, .. } => { env.extend(envs); let shell = if let Some(program) = command { Shell::WithArguments { program, args, title_override: Some(title.unwrap_or("Debug Terminal".into()).into()), } } else { settings.shell.clone() }; (None, shell) } }; TerminalBuilder::new( local_path.map(|path| path.to_path_buf()), python_venv_directory, spawn_task, shell, env, settings.cursor_shape.unwrap_or_default(), settings.alternate_scroll, settings.max_scroll_history_lines, ssh_details.is_some(), window, completion_tx, debug_terminal, cx, ) .map(|builder| { let terminal_handle = cx.new(|cx| builder.subscribe(cx)); this.terminals .local_handles .push(terminal_handle.downgrade()); let id = terminal_handle.entity_id(); cx.observe_release(&terminal_handle, move |project, _terminal, cx| { let handles = &mut project.terminals.local_handles; if let Some(index) = handles .iter() .position(|terminal| terminal.entity_id() == id) { handles.remove(index); cx.notify(); } }) .detach(); if let Some(activate_command) = python_venv_activate_command { this.activate_python_virtual_environment(activate_command, &terminal_handle, cx); } terminal_handle }) } fn python_venv_directory( &self, abs_path: Arc, venv_settings: VenvSettings, cx: &Context, ) -> Task> { cx.spawn(async move |this, cx| { if let Some((worktree, relative_path)) = this .update(cx, |this, cx| this.find_worktree(&abs_path, cx)) .ok()? { let toolchain = this .update(cx, |this, cx| { this.active_toolchain( ProjectPath { worktree_id: worktree.read(cx).id(), path: relative_path.into(), }, LanguageName::new("Python"), cx, ) }) .ok()? .await; if let Some(toolchain) = toolchain { let toolchain_path = Path::new(toolchain.path.as_ref()); return Some(toolchain_path.parent()?.parent()?.to_path_buf()); } } let venv_settings = venv_settings.as_option()?; this.update(cx, move |this, cx| { if let Some(path) = this.find_venv_in_worktree(&abs_path, &venv_settings, cx) { return Some(path); } this.find_venv_on_filesystem(&abs_path, &venv_settings, cx) }) .ok() .flatten() }) } fn find_venv_in_worktree( &self, abs_path: &Path, venv_settings: &terminal_settings::VenvSettingsContent, cx: &App, ) -> Option { let bin_dir_name = match std::env::consts::OS { "windows" => "Scripts", _ => "bin", }; venv_settings .directories .iter() .map(|name| abs_path.join(name)) .find(|venv_path| { let bin_path = venv_path.join(bin_dir_name); self.find_worktree(&bin_path, cx) .and_then(|(worktree, relative_path)| { worktree.read(cx).entry_for_path(&relative_path) }) .is_some_and(|entry| entry.is_dir()) }) } fn find_venv_on_filesystem( &self, abs_path: &Path, venv_settings: &terminal_settings::VenvSettingsContent, cx: &App, ) -> Option { let (worktree, _) = self.find_worktree(abs_path, cx)?; let fs = worktree.read(cx).as_local()?.fs(); let bin_dir_name = match std::env::consts::OS { "windows" => "Scripts", _ => "bin", }; venv_settings .directories .iter() .map(|name| abs_path.join(name)) .find(|venv_path| { let bin_path = venv_path.join(bin_dir_name); // One-time synchronous check is acceptable for terminal/task initialization smol::block_on(fs.metadata(&bin_path)) .ok() .flatten() .map_or(false, |meta| meta.is_dir) }) } fn python_activate_command( &self, venv_base_directory: &Path, venv_settings: &VenvSettings, ) -> Option { let venv_settings = venv_settings.as_option()?; let activate_keyword = match venv_settings.activate_script { terminal_settings::ActivateScript::Default => match std::env::consts::OS { "windows" => ".", _ => "source", }, terminal_settings::ActivateScript::Nushell => "overlay use", terminal_settings::ActivateScript::PowerShell => ".", _ => "source", }; let activate_script_name = match venv_settings.activate_script { terminal_settings::ActivateScript::Default => "activate", terminal_settings::ActivateScript::Csh => "activate.csh", terminal_settings::ActivateScript::Fish => "activate.fish", terminal_settings::ActivateScript::Nushell => "activate.nu", terminal_settings::ActivateScript::PowerShell => "activate.ps1", }; let path = venv_base_directory .join(match std::env::consts::OS { "windows" => "Scripts", _ => "bin", }) .join(activate_script_name) .to_string_lossy() .to_string(); let quoted = shlex::try_quote(&path).ok()?; let line_ending = match std::env::consts::OS { "windows" => "\r", _ => "\n", }; smol::block_on(self.fs.metadata(path.as_ref())) .ok() .flatten()?; Some(format!( "{} {} ; clear{}", activate_keyword, quoted, line_ending )) } fn activate_python_virtual_environment( &self, command: String, terminal_handle: &Entity, cx: &mut App, ) { terminal_handle.update(cx, |terminal, _| terminal.input_bytes(command.into_bytes())); } pub fn local_terminal_handles(&self) -> &Vec> { &self.terminals.local_handles } } fn wrap_for_ssh( ssh_command: &SshCommand, command: Option<(&String, &Vec)>, path: Option<&Path>, env: HashMap, venv_directory: Option<&Path>, ) -> (String, Vec) { let to_run = if let Some((command, args)) = command { let command = Cow::Borrowed(command.as_str()); let args = args.iter().filter_map(|arg| shlex::try_quote(arg).ok()); iter::once(command).chain(args).join(" ") } else { "exec ${SHELL:-sh} -l".to_string() }; let mut env_changes = String::new(); for (k, v) in env.iter() { if let Some((k, v)) = shlex::try_quote(k).ok().zip(shlex::try_quote(v).ok()) { env_changes.push_str(&format!("{}={} ", k, v)); } } if let Some(venv_directory) = venv_directory { if let Ok(str) = shlex::try_quote(venv_directory.to_string_lossy().as_ref()) { env_changes.push_str(&format!("PATH={}:$PATH ", str)); } } let commands = if let Some(path) = path { let path_string = path.to_string_lossy().to_string(); // shlex will wrap the command in single quotes (''), disabling ~ expansion, // replace ith with something that works let tilde_prefix = "~/"; if path.starts_with(tilde_prefix) { let trimmed_path = path_string .trim_start_matches("/") .trim_start_matches("~") .trim_start_matches("/"); format!("cd \"$HOME/{trimmed_path}\"; {env_changes} {to_run}") } else { format!("cd {path:?}; {env_changes} {to_run}") } } else { format!("cd; {env_changes} {to_run}") }; let shell_invocation = format!("sh -c {}", shlex::try_quote(&commands).unwrap()); let program = "ssh".to_string(); let mut args = ssh_command.arguments.clone(); args.push("-t".to_string()); args.push(shell_invocation); (program, args) } fn add_environment_path(env: &mut HashMap, new_path: &Path) -> Result<()> { let mut env_paths = vec![new_path.to_path_buf()]; if let Some(path) = env.get("PATH").or(env::var("PATH").ok().as_ref()) { let mut paths = std::env::split_paths(&path).collect::>(); env_paths.append(&mut paths); } let paths = std::env::join_paths(env_paths).context("failed to create PATH env variable")?; env.insert("PATH".to_string(), paths.to_string_lossy().to_string()); Ok(()) } #[cfg(test)] mod tests { use collections::HashMap; #[test] fn test_add_environment_path_with_existing_path() { let tmp_path = std::path::PathBuf::from("/tmp/new"); let mut env = HashMap::default(); let old_path = if cfg!(windows) { "/usr/bin;/usr/local/bin" } else { "/usr/bin:/usr/local/bin" }; env.insert("PATH".to_string(), old_path.to_string()); env.insert("OTHER".to_string(), "aaa".to_string()); super::add_environment_path(&mut env, &tmp_path).unwrap(); if cfg!(windows) { assert_eq!(env.get("PATH").unwrap(), &format!("/tmp/new;{}", old_path)); } else { assert_eq!(env.get("PATH").unwrap(), &format!("/tmp/new:{}", old_path)); } assert_eq!(env.get("OTHER").unwrap(), "aaa"); } #[test] fn test_add_environment_path_with_empty_path() { let tmp_path = std::path::PathBuf::from("/tmp/new"); let mut env = HashMap::default(); env.insert("OTHER".to_string(), "aaa".to_string()); let os_path = std::env::var("PATH").unwrap(); super::add_environment_path(&mut env, &tmp_path).unwrap(); if cfg!(windows) { assert_eq!(env.get("PATH").unwrap(), &format!("/tmp/new;{}", os_path)); } else { assert_eq!(env.get("PATH").unwrap(), &format!("/tmp/new:{}", os_path)); } assert_eq!(env.get("OTHER").unwrap(), "aaa"); } }