// Copyright 2016 Joe Wilm, The Alacritty Project Contributors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // //! tty related functionality use crate::config::{Config, Shell}; use crate::event::OnResize; use crate::term::SizeInfo; use crate::tty::{ChildEvent, EventedPty, EventedReadWrite}; use mio; use libc::{self, c_int, pid_t, winsize, TIOCSCTTY}; use log::error; use nix::pty::openpty; use signal_hook::{self as sighook, iterator::Signals}; use mio::unix::EventedFd; use std::ffi::CStr; use std::fs::File; use std::io; use std::mem::MaybeUninit; use std::os::unix::{ io::{AsRawFd, FromRawFd, RawFd}, process::CommandExt, }; use std::process::{Child, Command, Stdio}; use std::ptr; use std::sync::atomic::{AtomicUsize, Ordering}; /// Process ID of child process /// /// Necessary to put this in static storage for `sigchld` to have access static PID: AtomicUsize = AtomicUsize::new(0); macro_rules! die { ($($arg:tt)*) => {{ error!($($arg)*); ::std::process::exit(1); }} } pub fn child_pid() -> pid_t { PID.load(Ordering::Relaxed) as pid_t } /// Get raw fds for master/slave ends of a new pty fn make_pty(size: winsize) -> (RawFd, RawFd) { let mut win_size = size; win_size.ws_xpixel = 0; win_size.ws_ypixel = 0; let ends = openpty(Some(&win_size), None).expect("openpty failed"); (ends.master, ends.slave) } /// Really only needed on BSD, but should be fine elsewhere fn set_controlling_terminal(fd: c_int) { let res = unsafe { // TIOSCTTY changes based on platform and the `ioctl` call is different // based on architecture (32/64). So a generic cast is used to make sure // there are no issues. To allow such a generic cast the clippy warning // is disabled. #[allow(clippy::cast_lossless)] libc::ioctl(fd, TIOCSCTTY as _, 0) }; if res < 0 { die!("ioctl TIOCSCTTY failed: {}", io::Error::last_os_error()); } } #[derive(Debug)] struct Passwd<'a> { name: &'a str, passwd: &'a str, uid: libc::uid_t, gid: libc::gid_t, gecos: &'a str, dir: &'a str, shell: &'a str, } /// Return a Passwd struct with pointers into the provided buf /// /// # Unsafety /// /// If `buf` is changed while `Passwd` is alive, bad thing will almost certainly happen. fn get_pw_entry(buf: &mut [i8; 1024]) -> Passwd<'_> { // Create zeroed passwd struct let mut entry: MaybeUninit = MaybeUninit::uninit(); let mut res: *mut libc::passwd = ptr::null_mut(); // Try and read the pw file. let uid = unsafe { libc::getuid() }; let status = unsafe { libc::getpwuid_r(uid, entry.as_mut_ptr(), buf.as_mut_ptr() as *mut _, buf.len(), &mut res) }; let entry = unsafe { entry.assume_init() }; if status < 0 { die!("getpwuid_r failed"); } if res.is_null() { die!("pw not found"); } // sanity check assert_eq!(entry.pw_uid, uid); // Build a borrowed Passwd struct Passwd { name: unsafe { CStr::from_ptr(entry.pw_name).to_str().unwrap() }, passwd: unsafe { CStr::from_ptr(entry.pw_passwd).to_str().unwrap() }, uid: entry.pw_uid, gid: entry.pw_gid, gecos: unsafe { CStr::from_ptr(entry.pw_gecos).to_str().unwrap() }, dir: unsafe { CStr::from_ptr(entry.pw_dir).to_str().unwrap() }, shell: unsafe { CStr::from_ptr(entry.pw_shell).to_str().unwrap() }, } } pub struct Pty { child: Child, pub fd: File, token: mio::Token, signals: Signals, signals_token: mio::Token, } /// Create a new tty and return a handle to interact with it. pub fn new(config: &Config, size: &SizeInfo, window_id: Option) -> Pty { let win_size = size.to_winsize(); let mut buf = [0; 1024]; let pw = get_pw_entry(&mut buf); let (master, slave) = make_pty(win_size); let default_shell = if cfg!(target_os = "macos") { let shell_name = pw.shell.rsplit('/').next().unwrap(); let argv = vec![String::from("-c"), format!("exec -a -{} {}", shell_name, pw.shell)]; Shell::new_with_args("/bin/bash", argv) } else { Shell::new(pw.shell) }; let shell = config.shell.as_ref().unwrap_or(&default_shell); let mut builder = Command::new(&*shell.program); for arg in &shell.args { builder.arg(arg); } // Setup child stdin/stdout/stderr as slave fd of pty // Ownership of fd is transferred to the Stdio structs and will be closed by them at the end of // this scope. (It is not an issue that the fd is closed three times since File::drop ignores // error on libc::close.) builder.stdin(unsafe { Stdio::from_raw_fd(slave) }); builder.stderr(unsafe { Stdio::from_raw_fd(slave) }); builder.stdout(unsafe { Stdio::from_raw_fd(slave) }); // Setup shell environment builder.env("LOGNAME", pw.name); builder.env("USER", pw.name); builder.env("SHELL", pw.shell); builder.env("HOME", pw.dir); if let Some(window_id) = window_id { builder.env("WINDOWID", format!("{}", window_id)); } unsafe { builder.pre_exec(move || { // Create a new process group let err = libc::setsid(); if err == -1 { die!("Failed to set session id: {}", io::Error::last_os_error()); } set_controlling_terminal(slave); // No longer need slave/master fds libc::close(slave); libc::close(master); libc::signal(libc::SIGCHLD, libc::SIG_DFL); libc::signal(libc::SIGHUP, libc::SIG_DFL); libc::signal(libc::SIGINT, libc::SIG_DFL); libc::signal(libc::SIGQUIT, libc::SIG_DFL); libc::signal(libc::SIGTERM, libc::SIG_DFL); libc::signal(libc::SIGALRM, libc::SIG_DFL); Ok(()) }); } // Handle set working directory option if let Some(ref dir) = config.working_directory() { builder.current_dir(dir.as_path()); } // Prepare signal handling before spawning child let signals = Signals::new(&[sighook::SIGCHLD]).expect("error preparing signal handling"); match builder.spawn() { Ok(child) => { // Remember child PID so other modules can use it PID.store(child.id() as usize, Ordering::Relaxed); unsafe { // Maybe this should be done outside of this function so nonblocking // isn't forced upon consumers. Although maybe it should be? set_nonblocking(master); } let pty = Pty { child, fd: unsafe { File::from_raw_fd(master) }, token: mio::Token::from(0), signals, signals_token: mio::Token::from(0), }; pty.fd.as_raw_fd().on_resize(size); pty }, Err(err) => die!("Failed to spawn command: {}", err), } } impl EventedReadWrite for Pty { type Reader = File; type Writer = File; #[inline] fn register( &mut self, poll: &mio::Poll, token: &mut dyn Iterator, interest: mio::Ready, poll_opts: mio::PollOpt, ) -> io::Result<()> { self.token = token.next().unwrap(); poll.register(&EventedFd(&self.fd.as_raw_fd()), self.token, interest, poll_opts)?; self.signals_token = token.next().unwrap(); poll.register( &self.signals, self.signals_token, mio::Ready::readable(), mio::PollOpt::level(), ) } #[inline] fn reregister( &mut self, poll: &mio::Poll, interest: mio::Ready, poll_opts: mio::PollOpt, ) -> io::Result<()> { poll.reregister(&EventedFd(&self.fd.as_raw_fd()), self.token, interest, poll_opts)?; poll.reregister( &self.signals, self.signals_token, mio::Ready::readable(), mio::PollOpt::level(), ) } #[inline] fn deregister(&mut self, poll: &mio::Poll) -> io::Result<()> { poll.deregister(&EventedFd(&self.fd.as_raw_fd()))?; poll.deregister(&self.signals) } #[inline] fn reader(&mut self) -> &mut File { &mut self.fd } #[inline] fn read_token(&self) -> mio::Token { self.token } #[inline] fn writer(&mut self) -> &mut File { &mut self.fd } #[inline] fn write_token(&self) -> mio::Token { self.token } } impl EventedPty for Pty { #[inline] fn next_child_event(&mut self) -> Option { self.signals.pending().next().and_then(|signal| { if signal != sighook::SIGCHLD { return None; } match self.child.try_wait() { Err(e) => { error!("Error checking child process termination: {}", e); None }, Ok(None) => None, Ok(_) => Some(ChildEvent::Exited), } }) } #[inline] fn child_event_token(&self) -> mio::Token { self.signals_token } } pub fn process_should_exit() -> bool { false } /// Types that can produce a `libc::winsize` pub trait ToWinsize { /// Get a `libc::winsize` fn to_winsize(&self) -> winsize; } impl<'a> ToWinsize for &'a SizeInfo { fn to_winsize(&self) -> winsize { winsize { ws_row: self.lines().0 as libc::c_ushort, ws_col: self.cols().0 as libc::c_ushort, ws_xpixel: self.width as libc::c_ushort, ws_ypixel: self.height as libc::c_ushort, } } } impl OnResize for i32 { /// Resize the pty /// /// Tells the kernel that the window size changed with the new pixel /// dimensions and line/column counts. fn on_resize(&mut self, size: &SizeInfo) { let win = size.to_winsize(); let res = unsafe { libc::ioctl(*self, libc::TIOCSWINSZ, &win as *const _) }; if res < 0 { die!("ioctl TIOCSWINSZ failed: {}", io::Error::last_os_error()); } } } unsafe fn set_nonblocking(fd: c_int) { use libc::{fcntl, F_GETFL, F_SETFL, O_NONBLOCK}; let res = fcntl(fd, F_SETFL, fcntl(fd, F_GETFL, 0) | O_NONBLOCK); assert_eq!(res, 0); } #[test] fn test_get_pw_entry() { let mut buf: [i8; 1024] = [0; 1024]; let _pw = get_pw_entry(&mut buf); }