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dirstate-tree: Add tree traversal/iteration...
dirstate-tree: Add tree traversal/iteration Like Python’s, Rust’s iterators are "external" in that they are driven by a caller who calls a `next` method. This is as opposed to "internal" iterators who drive themselves and call a callback for each item. Writing an internal iterator traversing a tree is easy with recursion, but internal iterators cannot rely on the call stack in that way, they must save in an explicit object all state that they need to be preserved across two `next` calls. This algorithm uses a `Vec` as a stack that contains what would be local variables on the call stack if we could use recursion. Differential Revision: https://phab.mercurial-scm.org/D10370
Martin von Zweigbergk - - Load All Authors

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procutil.rs
104 lines | 2.8 KiB | application/rls-services+xml | RustLexer
/ rust / chg / src / procutil.rs
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// Copyright 2018 Yuya Nishihara <yuya@tcha.org>
//
// This software may be used and distributed according to the terms of the
// GNU General Public License version 2 or any later version.
//! Low-level utility for signal and process handling.
use libc::{self, c_int, pid_t, size_t, ssize_t};
use std::io;
use std::os::unix::io::RawFd;
use std::sync;
#[link(name = "procutil", kind = "static")]
extern "C" {
// sendfds.c
fn sendfds(sockfd: c_int, fds: *const c_int, fdlen: size_t) -> ssize_t;
// sighandlers.c
fn setupsignalhandler(pid: pid_t, pgid: pid_t) -> c_int;
fn restoresignalhandler() -> c_int;
}
/// Returns the effective uid of the current process.
pub fn get_effective_uid() -> u32 {
unsafe { libc::geteuid() }
}
/// Returns the umask of the current process.
///
/// # Safety
///
/// This is unsafe because the umask value is temporarily changed, and
/// the change can be observed from the other threads. Don't call this in
/// multi-threaded context.
pub unsafe fn get_umask() -> u32 {
let mask = libc::umask(0);
libc::umask(mask);
mask
}
/// Changes the given fd to blocking mode.
pub fn set_blocking_fd(fd: RawFd) -> io::Result<()> {
let flags = unsafe { libc::fcntl(fd, libc::F_GETFL) };
if flags < 0 {
return Err(io::Error::last_os_error());
}
let r =
unsafe { libc::fcntl(fd, libc::F_SETFL, flags & !libc::O_NONBLOCK) };
if r < 0 {
return Err(io::Error::last_os_error());
}
Ok(())
}
/// Sends file descriptors via the given socket.
pub fn send_raw_fds(sock_fd: RawFd, fds: &[RawFd]) -> io::Result<()> {
let r = unsafe { sendfds(sock_fd, fds.as_ptr(), fds.len() as size_t) };
if r < 0 {
return Err(io::Error::last_os_error());
}
Ok(())
}
static SETUP_SIGNAL_HANDLER: sync::Once = sync::Once::new();
static RESTORE_SIGNAL_HANDLER: sync::Once = sync::Once::new();
/// Installs signal handlers to forward signals to the server.
///
/// # Safety
///
/// This touches global states, and thus synchronized as a one-time
/// initialization function.
pub fn setup_signal_handler_once(
pid: u32,
pgid: Option<u32>,
) -> io::Result<()> {
let pid_signed = pid as i32;
let pgid_signed = pgid.map(|n| n as i32).unwrap_or(0);
let mut r = 0;
SETUP_SIGNAL_HANDLER.call_once(|| {
r = unsafe { setupsignalhandler(pid_signed, pgid_signed) };
});
if r < 0 {
return Err(io::Error::last_os_error());
}
Ok(())
}
/// Restores the original signal handlers.
///
/// # Safety
///
/// This touches global states, and thus synchronized as a one-time
/// initialization function.
pub fn restore_signal_handler_once() -> io::Result<()> {
let mut r = 0;
RESTORE_SIGNAL_HANDLER.call_once(|| {
r = unsafe { restoresignalhandler() };
});
if r < 0 {
return Err(io::Error::last_os_error());
}
Ok(())
}