046062d3bf
The existing APIs for spawning processes took strings for the command and arguments, but the underlying system may not impose utf8 encoding, so this is overly limiting. The assumption we actually want to make is just that the command and arguments are viewable as [u8] slices with no interior NULLs, i.e., as CStrings. The ToCStr trait is a handy bound for types that meet this requirement (such as &str and Path). However, since the commands and arguments are often a mixture of strings and paths, it would be inconvenient to take a slice with a single T: ToCStr bound. So this patch revamps the process creation API to instead use a builder-style interface, called `Command`, allowing arguments to be added one at a time with differing ToCStr implementations for each. The initial cut of the builder API has some drawbacks that can be addressed once issue #13851 (libstd as a facade) is closed. These are detailed as FIXMEs. Closes #11650. [breaking-change]
293 lines
8.8 KiB
Rust
293 lines
8.8 KiB
Rust
// Copyright 2013 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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//! Native thread-blocking I/O implementation
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//!
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//! This module contains the implementation of native thread-blocking
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//! implementations of I/O on all platforms. This module is not intended to be
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//! used directly, but rather the rust runtime will fall back to using it if
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//! necessary.
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//!
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//! Rust code normally runs inside of green tasks with a local scheduler using
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//! asynchronous I/O to cooperate among tasks. This model is not always
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//! available, however, and that's where these native implementations come into
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//! play. The only dependencies of these modules are the normal system libraries
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//! that you would find on the respective platform.
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use libc::c_int;
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use libc;
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use std::c_str::CString;
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use std::io;
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use std::io::IoError;
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use std::io::net::ip::SocketAddr;
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use std::io::signal::Signum;
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use std::os;
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use std::rt::rtio;
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use std::rt::rtio::{RtioTcpStream, RtioTcpListener, RtioUdpSocket};
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use std::rt::rtio::{RtioUnixListener, RtioPipe, RtioFileStream, RtioProcess};
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use std::rt::rtio::{RtioSignal, RtioTTY, CloseBehavior, RtioTimer, ProcessConfig};
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use ai = std::io::net::addrinfo;
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// Local re-exports
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pub use self::file::FileDesc;
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pub use self::process::Process;
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mod helper_thread;
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// Native I/O implementations
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pub mod addrinfo;
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pub mod net;
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pub mod process;
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mod util;
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#[cfg(unix)]
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#[path = "file_unix.rs"]
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pub mod file;
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#[cfg(windows)]
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#[path = "file_win32.rs"]
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pub mod file;
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#[cfg(target_os = "macos")]
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#[cfg(target_os = "freebsd")]
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#[cfg(target_os = "android")]
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#[cfg(target_os = "linux")]
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#[path = "timer_unix.rs"]
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pub mod timer;
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#[cfg(target_os = "win32")]
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#[path = "timer_win32.rs"]
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pub mod timer;
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#[cfg(unix)]
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#[path = "pipe_unix.rs"]
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pub mod pipe;
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#[cfg(windows)]
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#[path = "pipe_win32.rs"]
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pub mod pipe;
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#[cfg(unix)] #[path = "c_unix.rs"] mod c;
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#[cfg(windows)] #[path = "c_win32.rs"] mod c;
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pub type IoResult<T> = Result<T, IoError>;
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fn unimpl() -> IoError {
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IoError {
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kind: io::IoUnavailable,
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desc: "unimplemented I/O interface",
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detail: None,
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}
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}
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fn last_error() -> IoError {
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IoError::last_error()
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}
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// unix has nonzero values as errors
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fn mkerr_libc(ret: libc::c_int) -> IoResult<()> {
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if ret != 0 {
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Err(last_error())
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} else {
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Ok(())
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}
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}
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// windows has zero values as errors
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#[cfg(windows)]
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fn mkerr_winbool(ret: libc::c_int) -> IoResult<()> {
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if ret == 0 {
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Err(last_error())
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} else {
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Ok(())
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}
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}
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#[cfg(windows)]
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#[inline]
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fn retry(f: || -> libc::c_int) -> libc::c_int {
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loop {
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match f() {
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-1 if os::errno() as int == libc::WSAEINTR as int => {}
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n => return n,
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}
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}
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}
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#[cfg(unix)]
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#[inline]
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fn retry(f: || -> libc::c_int) -> libc::c_int {
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loop {
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match f() {
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-1 if os::errno() as int == libc::EINTR as int => {}
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n => return n,
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}
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}
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}
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fn keep_going(data: &[u8], f: |*u8, uint| -> i64) -> i64 {
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let origamt = data.len();
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let mut data = data.as_ptr();
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let mut amt = origamt;
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while amt > 0 {
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let ret = retry(|| f(data, amt) as libc::c_int);
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if ret == 0 {
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break
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} else if ret != -1 {
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amt -= ret as uint;
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data = unsafe { data.offset(ret as int) };
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} else {
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return ret as i64;
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}
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}
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return (origamt - amt) as i64;
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}
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/// Implementation of rt::rtio's IoFactory trait to generate handles to the
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/// native I/O functionality.
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pub struct IoFactory {
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cannot_construct_outside_of_this_module: ()
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}
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impl IoFactory {
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pub fn new() -> IoFactory {
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net::init();
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IoFactory { cannot_construct_outside_of_this_module: () }
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}
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}
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impl rtio::IoFactory for IoFactory {
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// networking
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fn tcp_connect(&mut self, addr: SocketAddr,
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timeout: Option<u64>) -> IoResult<Box<RtioTcpStream:Send>> {
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net::TcpStream::connect(addr, timeout).map(|s| {
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box s as Box<RtioTcpStream:Send>
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})
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}
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fn tcp_bind(&mut self, addr: SocketAddr)
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-> IoResult<Box<RtioTcpListener:Send>> {
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net::TcpListener::bind(addr).map(|s| {
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box s as Box<RtioTcpListener:Send>
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})
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}
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fn udp_bind(&mut self, addr: SocketAddr)
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-> IoResult<Box<RtioUdpSocket:Send>> {
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net::UdpSocket::bind(addr).map(|u| box u as Box<RtioUdpSocket:Send>)
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}
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fn unix_bind(&mut self, path: &CString)
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-> IoResult<Box<RtioUnixListener:Send>> {
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pipe::UnixListener::bind(path).map(|s| {
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box s as Box<RtioUnixListener:Send>
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})
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}
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fn unix_connect(&mut self, path: &CString,
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timeout: Option<u64>) -> IoResult<Box<RtioPipe:Send>> {
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pipe::UnixStream::connect(path, timeout).map(|s| {
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box s as Box<RtioPipe:Send>
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})
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}
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fn get_host_addresses(&mut self, host: Option<&str>, servname: Option<&str>,
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hint: Option<ai::Hint>) -> IoResult<Vec<ai::Info>> {
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addrinfo::GetAddrInfoRequest::run(host, servname, hint)
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}
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// filesystem operations
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fn fs_from_raw_fd(&mut self, fd: c_int, close: CloseBehavior)
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-> Box<RtioFileStream:Send> {
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let close = match close {
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rtio::CloseSynchronously | rtio::CloseAsynchronously => true,
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rtio::DontClose => false
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};
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box file::FileDesc::new(fd, close) as Box<RtioFileStream:Send>
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}
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fn fs_open(&mut self, path: &CString, fm: io::FileMode, fa: io::FileAccess)
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-> IoResult<Box<RtioFileStream:Send>> {
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file::open(path, fm, fa).map(|fd| box fd as Box<RtioFileStream:Send>)
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}
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fn fs_unlink(&mut self, path: &CString) -> IoResult<()> {
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file::unlink(path)
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}
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fn fs_stat(&mut self, path: &CString) -> IoResult<io::FileStat> {
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file::stat(path)
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}
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fn fs_mkdir(&mut self, path: &CString,
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mode: io::FilePermission) -> IoResult<()> {
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file::mkdir(path, mode)
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}
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fn fs_chmod(&mut self, path: &CString,
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mode: io::FilePermission) -> IoResult<()> {
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file::chmod(path, mode)
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}
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fn fs_rmdir(&mut self, path: &CString) -> IoResult<()> {
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file::rmdir(path)
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}
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fn fs_rename(&mut self, path: &CString, to: &CString) -> IoResult<()> {
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file::rename(path, to)
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}
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fn fs_readdir(&mut self, path: &CString, _flags: c_int) -> IoResult<Vec<Path>> {
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file::readdir(path)
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}
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fn fs_lstat(&mut self, path: &CString) -> IoResult<io::FileStat> {
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file::lstat(path)
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}
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fn fs_chown(&mut self, path: &CString, uid: int, gid: int) -> IoResult<()> {
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file::chown(path, uid, gid)
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}
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fn fs_readlink(&mut self, path: &CString) -> IoResult<Path> {
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file::readlink(path)
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}
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fn fs_symlink(&mut self, src: &CString, dst: &CString) -> IoResult<()> {
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file::symlink(src, dst)
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}
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fn fs_link(&mut self, src: &CString, dst: &CString) -> IoResult<()> {
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file::link(src, dst)
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}
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fn fs_utime(&mut self, src: &CString, atime: u64,
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mtime: u64) -> IoResult<()> {
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file::utime(src, atime, mtime)
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}
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// misc
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fn timer_init(&mut self) -> IoResult<Box<RtioTimer:Send>> {
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timer::Timer::new().map(|t| box t as Box<RtioTimer:Send>)
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}
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fn spawn(&mut self, cfg: ProcessConfig)
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-> IoResult<(Box<RtioProcess:Send>,
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Vec<Option<Box<RtioPipe:Send>>>)> {
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process::Process::spawn(cfg).map(|(p, io)| {
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(box p as Box<RtioProcess:Send>,
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io.move_iter().map(|p| p.map(|p| {
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box p as Box<RtioPipe:Send>
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})).collect())
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})
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}
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fn kill(&mut self, pid: libc::pid_t, signum: int) -> IoResult<()> {
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process::Process::kill(pid, signum)
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}
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fn pipe_open(&mut self, fd: c_int) -> IoResult<Box<RtioPipe:Send>> {
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Ok(box file::FileDesc::new(fd, true) as Box<RtioPipe:Send>)
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}
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fn tty_open(&mut self, fd: c_int, _readable: bool)
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-> IoResult<Box<RtioTTY:Send>> {
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if unsafe { libc::isatty(fd) } != 0 {
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Ok(box file::FileDesc::new(fd, true) as Box<RtioTTY:Send>)
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} else {
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Err(IoError {
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kind: io::MismatchedFileTypeForOperation,
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desc: "file descriptor is not a TTY",
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detail: None,
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})
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}
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}
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fn signal(&mut self, _signal: Signum, _channel: Sender<Signum>)
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-> IoResult<Box<RtioSignal:Send>> {
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Err(unimpl())
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}
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}
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