// Copyright 2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! The EventLoop and internal synchronous I/O interface. use core::prelude::*; use alloc::boxed::Box; use collections::string::String; use collections::vec::Vec; use core::fmt; use core::mem; use libc::c_int; use libc; use c_str::CString; use local::Local; use task::Task; pub trait EventLoop { fn run(&mut self); fn callback(&mut self, arg: proc(): Send); fn pausable_idle_callback(&mut self, Box) -> Box; fn remote_callback(&mut self, Box) -> Box; /// The asynchronous I/O services. Not all event loops may provide one. fn io<'a>(&'a mut self) -> Option<&'a mut IoFactory>; fn has_active_io(&self) -> bool; } pub trait Callback { fn call(&mut self); } pub trait RemoteCallback { /// Trigger the remote callback. Note that the number of times the /// callback is run is not guaranteed. All that is guaranteed is /// that, after calling 'fire', the callback will be called at /// least once, but multiple callbacks may be coalesced and /// callbacks may be called more often requested. Destruction also /// triggers the callback. fn fire(&mut self); } /// Description of what to do when a file handle is closed pub enum CloseBehavior { /// Do not close this handle when the object is destroyed DontClose, /// Synchronously close the handle, meaning that the task will block when /// the handle is destroyed until it has been fully closed. CloseSynchronously, /// Asynchronously closes a handle, meaning that the task will *not* block /// when the handle is destroyed, but the handle will still get deallocated /// and cleaned up (but this will happen asynchronously on the local event /// loop). CloseAsynchronously, } /// Data needed to spawn a process. Serializes the `std::io::process::Command` /// builder. pub struct ProcessConfig<'a> { /// Path to the program to run. pub program: &'a CString, /// Arguments to pass to the program (doesn't include the program itself). pub args: &'a [CString], /// Optional environment to specify for the program. If this is None, then /// it will inherit the current process's environment. pub env: Option<&'a [(&'a CString, &'a CString)]>, /// Optional working directory for the new process. If this is None, then /// the current directory of the running process is inherited. pub cwd: Option<&'a CString>, /// Configuration for the child process's stdin handle (file descriptor 0). /// This field defaults to `CreatePipe(true, false)` so the input can be /// written to. pub stdin: StdioContainer, /// Configuration for the child process's stdout handle (file descriptor 1). /// This field defaults to `CreatePipe(false, true)` so the output can be /// collected. pub stdout: StdioContainer, /// Configuration for the child process's stdout handle (file descriptor 2). /// This field defaults to `CreatePipe(false, true)` so the output can be /// collected. pub stderr: StdioContainer, /// Any number of streams/file descriptors/pipes may be attached to this /// process. This list enumerates the file descriptors and such for the /// process to be spawned, and the file descriptors inherited will start at /// 3 and go to the length of this array. The first three file descriptors /// (stdin/stdout/stderr) are configured with the `stdin`, `stdout`, and /// `stderr` fields. pub extra_io: &'a [StdioContainer], /// Sets the child process's user id. This translates to a `setuid` call in /// the child process. Setting this value on windows will cause the spawn to /// fail. Failure in the `setuid` call on unix will also cause the spawn to /// fail. pub uid: Option, /// Similar to `uid`, but sets the group id of the child process. This has /// the same semantics as the `uid` field. pub gid: Option, /// If true, the child process is spawned in a detached state. On unix, this /// means that the child is the leader of a new process group. pub detach: bool, } pub struct LocalIo<'a> { factory: &'a mut IoFactory+'a, } #[unsafe_destructor] impl<'a> Drop for LocalIo<'a> { fn drop(&mut self) { // FIXME(pcwalton): Do nothing here for now, but eventually we may want // something. For now this serves to make `LocalIo` noncopyable. } } impl<'a> LocalIo<'a> { /// Returns the local I/O: either the local scheduler's I/O services or /// the native I/O services. pub fn borrow() -> Option> { // FIXME(#11053): bad // // This is currently very unsafely implemented. We don't actually // *take* the local I/O so there's a very real possibility that we // can have two borrows at once. Currently there is not a clear way // to actually borrow the local I/O factory safely because even if // ownership were transferred down to the functions that the I/O // factory implements it's just too much of a pain to know when to // relinquish ownership back into the local task (but that would be // the safe way of implementing this function). // // In order to get around this, we just transmute a copy out of the task // in order to have what is likely a static lifetime (bad). let mut t: Box = match Local::try_take() { Some(t) => t, None => return None, }; let ret = t.local_io().map(|t| { unsafe { mem::transmute_copy(&t) } }); Local::put(t); return ret; } pub fn maybe_raise(f: |io: &mut IoFactory| -> IoResult) -> IoResult { #[cfg(unix)] use libc::EINVAL as ERROR; #[cfg(windows)] use libc::ERROR_CALL_NOT_IMPLEMENTED as ERROR; match LocalIo::borrow() { Some(mut io) => f(io.get()), None => Err(IoError { code: ERROR as uint, extra: 0, detail: None, }), } } pub fn new<'a>(io: &'a mut IoFactory+'a) -> LocalIo<'a> { LocalIo { factory: io } } /// Returns the underlying I/O factory as a trait reference. #[inline] pub fn get<'a>(&'a mut self) -> &'a mut IoFactory { let f: &'a mut IoFactory = self.factory; f } } pub trait IoFactory { // networking fn tcp_connect(&mut self, addr: SocketAddr, timeout: Option) -> IoResult>; fn tcp_bind(&mut self, addr: SocketAddr) -> IoResult>; fn udp_bind(&mut self, addr: SocketAddr) -> IoResult>; fn unix_bind(&mut self, path: &CString) -> IoResult>; fn unix_connect(&mut self, path: &CString, timeout: Option) -> IoResult>; fn get_host_addresses(&mut self, host: Option<&str>, servname: Option<&str>, hint: Option) -> IoResult>; // filesystem operations fn fs_from_raw_fd(&mut self, fd: c_int, close: CloseBehavior) -> Box; fn fs_open(&mut self, path: &CString, fm: FileMode, fa: FileAccess) -> IoResult>; fn fs_unlink(&mut self, path: &CString) -> IoResult<()>; fn fs_stat(&mut self, path: &CString) -> IoResult; fn fs_mkdir(&mut self, path: &CString, mode: uint) -> IoResult<()>; fn fs_chmod(&mut self, path: &CString, mode: uint) -> IoResult<()>; fn fs_rmdir(&mut self, path: &CString) -> IoResult<()>; fn fs_rename(&mut self, path: &CString, to: &CString) -> IoResult<()>; fn fs_readdir(&mut self, path: &CString, flags: c_int) -> IoResult>; fn fs_lstat(&mut self, path: &CString) -> IoResult; fn fs_chown(&mut self, path: &CString, uid: int, gid: int) -> IoResult<()>; fn fs_readlink(&mut self, path: &CString) -> IoResult; fn fs_symlink(&mut self, src: &CString, dst: &CString) -> IoResult<()>; fn fs_link(&mut self, src: &CString, dst: &CString) -> IoResult<()>; fn fs_utime(&mut self, src: &CString, atime: u64, mtime: u64) -> IoResult<()>; // misc fn timer_init(&mut self) -> IoResult>; fn spawn(&mut self, cfg: ProcessConfig) -> IoResult<(Box, Vec>>)>; fn kill(&mut self, pid: libc::pid_t, signal: int) -> IoResult<()>; fn pipe_open(&mut self, fd: c_int) -> IoResult>; fn tty_open(&mut self, fd: c_int, readable: bool) -> IoResult>; fn signal(&mut self, signal: int, cb: Box) -> IoResult>; } pub trait RtioTcpListener : RtioSocket { fn listen(self: Box) -> IoResult>; } pub trait RtioTcpAcceptor : RtioSocket { fn accept(&mut self) -> IoResult>; fn accept_simultaneously(&mut self) -> IoResult<()>; fn dont_accept_simultaneously(&mut self) -> IoResult<()>; fn set_timeout(&mut self, timeout: Option); fn clone(&self) -> Box; fn close_accept(&mut self) -> IoResult<()>; } pub trait RtioTcpStream : RtioSocket { fn read(&mut self, buf: &mut [u8]) -> IoResult; fn write(&mut self, buf: &[u8]) -> IoResult<()>; fn peer_name(&mut self) -> IoResult; fn control_congestion(&mut self) -> IoResult<()>; fn nodelay(&mut self) -> IoResult<()>; fn keepalive(&mut self, delay_in_seconds: uint) -> IoResult<()>; fn letdie(&mut self) -> IoResult<()>; fn clone(&self) -> Box; fn close_write(&mut self) -> IoResult<()>; fn close_read(&mut self) -> IoResult<()>; fn set_timeout(&mut self, timeout_ms: Option); fn set_read_timeout(&mut self, timeout_ms: Option); fn set_write_timeout(&mut self, timeout_ms: Option); } pub trait RtioSocket { fn socket_name(&mut self) -> IoResult; } pub trait RtioUdpSocket : RtioSocket { fn recv_from(&mut self, buf: &mut [u8]) -> IoResult<(uint, SocketAddr)>; fn send_to(&mut self, buf: &[u8], dst: SocketAddr) -> IoResult<()>; fn join_multicast(&mut self, multi: IpAddr) -> IoResult<()>; fn leave_multicast(&mut self, multi: IpAddr) -> IoResult<()>; fn loop_multicast_locally(&mut self) -> IoResult<()>; fn dont_loop_multicast_locally(&mut self) -> IoResult<()>; fn multicast_time_to_live(&mut self, ttl: int) -> IoResult<()>; fn time_to_live(&mut self, ttl: int) -> IoResult<()>; fn hear_broadcasts(&mut self) -> IoResult<()>; fn ignore_broadcasts(&mut self) -> IoResult<()>; fn clone(&self) -> Box; fn set_timeout(&mut self, timeout_ms: Option); fn set_read_timeout(&mut self, timeout_ms: Option); fn set_write_timeout(&mut self, timeout_ms: Option); } pub trait RtioTimer { fn sleep(&mut self, msecs: u64); fn oneshot(&mut self, msecs: u64, cb: Box); fn period(&mut self, msecs: u64, cb: Box); } pub trait RtioFileStream { fn read(&mut self, buf: &mut [u8]) -> IoResult; fn write(&mut self, buf: &[u8]) -> IoResult<()>; fn pread(&mut self, buf: &mut [u8], offset: u64) -> IoResult; fn pwrite(&mut self, buf: &[u8], offset: u64) -> IoResult<()>; fn seek(&mut self, pos: i64, whence: SeekStyle) -> IoResult; fn tell(&self) -> IoResult; fn fsync(&mut self) -> IoResult<()>; fn datasync(&mut self) -> IoResult<()>; fn truncate(&mut self, offset: i64) -> IoResult<()>; fn fstat(&mut self) -> IoResult; } pub trait RtioProcess { fn id(&self) -> libc::pid_t; fn kill(&mut self, signal: int) -> IoResult<()>; fn wait(&mut self) -> IoResult; fn set_timeout(&mut self, timeout: Option); } pub trait RtioPipe { fn read(&mut self, buf: &mut [u8]) -> IoResult; fn write(&mut self, buf: &[u8]) -> IoResult<()>; fn clone(&self) -> Box; fn close_write(&mut self) -> IoResult<()>; fn close_read(&mut self) -> IoResult<()>; fn set_timeout(&mut self, timeout_ms: Option); fn set_read_timeout(&mut self, timeout_ms: Option); fn set_write_timeout(&mut self, timeout_ms: Option); } pub trait RtioUnixListener { fn listen(self: Box) -> IoResult>; } pub trait RtioUnixAcceptor { fn accept(&mut self) -> IoResult>; fn set_timeout(&mut self, timeout: Option); fn clone(&self) -> Box; fn close_accept(&mut self) -> IoResult<()>; } pub trait RtioTTY { fn read(&mut self, buf: &mut [u8]) -> IoResult; fn write(&mut self, buf: &[u8]) -> IoResult<()>; fn set_raw(&mut self, raw: bool) -> IoResult<()>; fn get_winsize(&mut self) -> IoResult<(int, int)>; fn isatty(&self) -> bool; } pub trait PausableIdleCallback { fn pause(&mut self); fn resume(&mut self); } pub trait RtioSignal {} pub struct IoError { pub code: uint, pub extra: uint, pub detail: Option, } pub type IoResult = Result; #[deriving(PartialEq, Eq)] pub enum IpAddr { Ipv4Addr(u8, u8, u8, u8), Ipv6Addr(u16, u16, u16, u16, u16, u16, u16, u16), } impl fmt::Show for IpAddr { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { match *self { Ipv4Addr(a, b, c, d) => write!(fmt, "{}.{}.{}.{}", a, b, c, d), Ipv6Addr(a, b, c, d, e, f, g, h) => { write!(fmt, "{:04x}:{:04x}:{:04x}:{:04x}:{:04x}:{:04x}:{:04x}:{:04x}", a, b, c, d, e, f, g, h) } } } } #[deriving(PartialEq, Eq)] pub struct SocketAddr { pub ip: IpAddr, pub port: u16, } pub enum StdioContainer { Ignored, InheritFd(i32), CreatePipe(bool, bool), } pub enum ProcessExit { ExitStatus(int), ExitSignal(int), } pub enum FileMode { Open, Append, Truncate, } pub enum FileAccess { Read, Write, ReadWrite, } pub struct FileStat { pub size: u64, pub kind: u64, pub perm: u64, pub created: u64, pub modified: u64, pub accessed: u64, pub device: u64, pub inode: u64, pub rdev: u64, pub nlink: u64, pub uid: u64, pub gid: u64, pub blksize: u64, pub blocks: u64, pub flags: u64, pub gen: u64, } pub enum SeekStyle { SeekSet, SeekEnd, SeekCur, } pub struct AddrinfoHint { pub family: uint, pub socktype: uint, pub protocol: uint, pub flags: uint, } pub struct AddrinfoInfo { pub address: SocketAddr, pub family: uint, pub socktype: uint, pub protocol: uint, pub flags: uint, }