rust/src/librustuv/lib.rs

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// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*!
Bindings to libuv, along with the default implementation of `std::rt::rtio`.
UV types consist of the event loop (Loop), Watchers, Requests and
Callbacks.
Watchers and Requests encapsulate pointers to uv *handles*, which have
subtyping relationships with each other. This subtyping is reflected
in the bindings with explicit or implicit coercions. For example, an
upcast from TcpWatcher to StreamWatcher is done with
`tcp_watcher.as_stream()`. In other cases a callback on a specific
type of watcher will be passed a watcher of a supertype.
Currently all use of Request types (connect/write requests) are
encapsulated in the bindings and don't need to be dealt with by the
caller.
# Safety note
Due to the complex lifecycle of uv handles, as well as compiler bugs,
this module is not memory safe and requires explicit memory management,
via `close` and `delete` methods.
*/
#[link(name = "rustuv",
package_id = "rustuv",
vers = "0.9-pre",
uuid = "f3719011-0459-9b86-b11c-29265c0d0864",
url = "https://github.com/mozilla/rust/tree/master/src/librustuv")];
#[license = "MIT/ASL2"];
#[crate_type = "lib"];
#[feature(macro_rules, globs)];
use std::cast::transmute;
use std::cast;
use std::libc::{c_int, malloc};
use std::ptr::null;
use std::ptr;
use std::rt::BlockedTask;
use std::rt::local::Local;
use std::rt::sched::Scheduler;
use std::str::raw::from_c_str;
use std::str;
use std::task;
use std::unstable::finally::Finally;
use std::vec;
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use std::io::IoError;
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pub use self::async::AsyncWatcher;
pub use self::file::{FsRequest, FileWatcher};
pub use self::idle::IdleWatcher;
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pub use self::net::{TcpWatcher, TcpListener, TcpAcceptor, UdpWatcher};
pub use self::pipe::{PipeWatcher, PipeListener, PipeAcceptor};
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pub use self::process::Process;
pub use self::signal::SignalWatcher;
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pub use self::timer::TimerWatcher;
pub use self::tty::TtyWatcher;
mod macros;
/// The implementation of `rtio` for libuv
pub mod uvio;
/// C bindings to libuv
pub mod uvll;
pub mod file;
pub mod net;
pub mod idle;
pub mod timer;
pub mod async;
pub mod addrinfo;
pub mod process;
pub mod pipe;
pub mod tty;
pub mod signal;
pub mod stream;
/// A type that wraps a uv handle
pub trait UvHandle<T> {
fn uv_handle(&self) -> *T;
// FIXME(#8888) dummy self
fn alloc(_: Option<Self>, ty: uvll::uv_handle_type) -> *T {
unsafe {
let handle = uvll::malloc_handle(ty);
assert!(!handle.is_null());
handle as *T
}
}
unsafe fn from_uv_handle<'a>(h: &'a *T) -> &'a mut Self {
cast::transmute(uvll::get_data_for_uv_handle(*h))
}
fn install(~self) -> ~Self {
unsafe {
let myptr = cast::transmute::<&~Self, &*u8>(&self);
uvll::set_data_for_uv_handle(self.uv_handle(), *myptr);
}
self
}
fn close_async_(&mut self) {
// we used malloc to allocate all handles, so we must always have at
// least a callback to free all the handles we allocated.
extern fn close_cb(handle: *uvll::uv_handle_t) {
unsafe { uvll::free_handle(handle) }
}
unsafe {
uvll::set_data_for_uv_handle(self.uv_handle(), null::<()>());
uvll::uv_close(self.uv_handle() as *uvll::uv_handle_t, close_cb)
}
}
fn close(&mut self) {
let mut slot = None;
unsafe {
uvll::uv_close(self.uv_handle() as *uvll::uv_handle_t, close_cb);
uvll::set_data_for_uv_handle(self.uv_handle(), ptr::null::<()>());
wait_until_woken_after(&mut slot, || {
uvll::set_data_for_uv_handle(self.uv_handle(), &slot);
})
}
extern fn close_cb(handle: *uvll::uv_handle_t) {
unsafe {
let data = uvll::get_data_for_uv_handle(handle);
uvll::free_handle(handle);
if data == ptr::null() { return }
let slot: &mut Option<BlockedTask> = cast::transmute(data);
let sched: ~Scheduler = Local::take();
sched.resume_blocked_task_immediately(slot.take_unwrap());
}
}
}
}
pub struct ForbidSwitch {
msg: &'static str,
sched: uint,
}
impl ForbidSwitch {
fn new(s: &'static str) -> ForbidSwitch {
ForbidSwitch {
msg: s, sched: Local::borrow(|s: &mut Scheduler| s.sched_id())
}
}
}
impl Drop for ForbidSwitch {
fn drop(&mut self) {
assert!(self.sched == Local::borrow(|s: &mut Scheduler| s.sched_id()),
"didnt want a scheduler switch: {}", self.msg);
}
}
pub struct ForbidUnwind {
msg: &'static str,
failing_before: bool,
}
impl ForbidUnwind {
fn new(s: &'static str) -> ForbidUnwind {
ForbidUnwind {
msg: s, failing_before: task::failing(),
}
}
}
impl Drop for ForbidUnwind {
fn drop(&mut self) {
assert!(self.failing_before == task::failing(),
"didnt want an unwind during: {}", self.msg);
}
}
fn wait_until_woken_after(slot: *mut Option<BlockedTask>, f: ||) {
let _f = ForbidUnwind::new("wait_until_woken_after");
unsafe {
assert!((*slot).is_none());
let sched: ~Scheduler = Local::take();
sched.deschedule_running_task_and_then(|_, task| {
f();
*slot = Some(task);
})
}
}
pub struct Request {
handle: *uvll::uv_req_t,
priv defused: bool,
}
impl Request {
pub fn new(ty: uvll::uv_req_type) -> Request {
unsafe {
let handle = uvll::malloc_req(ty);
uvll::set_data_for_req(handle, null::<()>());
Request::wrap(handle)
}
}
pub fn wrap(handle: *uvll::uv_req_t) -> Request {
Request { handle: handle, defused: false }
}
pub fn set_data<T>(&self, t: *T) {
unsafe { uvll::set_data_for_req(self.handle, t) }
}
pub unsafe fn get_data<T>(&self) -> &'static mut T {
let data = uvll::get_data_for_req(self.handle);
assert!(data != null());
cast::transmute(data)
}
// This function should be used when the request handle has been given to an
// underlying uv function, and the uv function has succeeded. This means
// that uv will at some point invoke the callback, and in the meantime we
// can't deallocate the handle because libuv could be using it.
//
// This is still a problem in blocking situations due to linked failure. In
// the connection callback the handle should be re-wrapped with the `wrap`
// function to ensure its destruction.
pub fn defuse(&mut self) {
self.defused = true;
}
}
impl Drop for Request {
fn drop(&mut self) {
if !self.defused {
unsafe { uvll::free_req(self.handle) }
}
}
}
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/// XXX: Loop(*handle) is buggy with destructors. Normal structs
/// with dtors may not be destructured, but tuple structs can,
/// but the results are not correct.
pub struct Loop {
priv handle: *uvll::uv_loop_t
}
impl Loop {
pub fn new() -> Loop {
let handle = unsafe { uvll::loop_new() };
assert!(handle.is_not_null());
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Loop::wrap(handle)
}
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pub fn wrap(handle: *uvll::uv_loop_t) -> Loop { Loop { handle: handle } }
pub fn run(&mut self) {
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unsafe { uvll::uv_run(self.handle, uvll::RUN_DEFAULT) };
}
pub fn close(&mut self) {
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unsafe { uvll::uv_loop_delete(self.handle) };
}
}
// XXX: Need to define the error constants like EOF so they can be
// compared to the UvError type
pub struct UvError(c_int);
impl UvError {
pub fn name(&self) -> ~str {
unsafe {
let inner = match self { &UvError(a) => a };
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let name_str = uvll::uv_err_name(inner);
assert!(name_str.is_not_null());
from_c_str(name_str)
}
}
pub fn desc(&self) -> ~str {
unsafe {
let inner = match self { &UvError(a) => a };
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let desc_str = uvll::uv_strerror(inner);
assert!(desc_str.is_not_null());
from_c_str(desc_str)
}
}
pub fn is_eof(&self) -> bool {
**self == uvll::EOF
}
}
impl ToStr for UvError {
fn to_str(&self) -> ~str {
format!("{}: {}", self.name(), self.desc())
}
}
#[test]
fn error_smoke_test() {
let err: UvError = UvError(uvll::EOF);
assert_eq!(err.to_str(), ~"EOF: end of file");
}
pub fn uv_error_to_io_error(uverr: UvError) -> IoError {
unsafe {
// Importing error constants
use uvll::*;
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use std::io::*;
// uv error descriptions are static
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let c_desc = uvll::uv_strerror(*uverr);
let desc = str::raw::c_str_to_static_slice(c_desc);
let kind = match *uverr {
UNKNOWN => OtherIoError,
OK => OtherIoError,
EOF => EndOfFile,
EACCES => PermissionDenied,
ECONNREFUSED => ConnectionRefused,
ECONNRESET => ConnectionReset,
ENOTCONN => NotConnected,
EPIPE => BrokenPipe,
ECONNABORTED => ConnectionAborted,
err => {
uvdebug!("uverr.code {}", err as int);
// XXX: Need to map remaining uv error types
OtherIoError
}
};
IoError {
kind: kind,
desc: desc,
detail: None
}
}
}
/// Given a uv error code, convert a callback status to a UvError
pub fn status_to_maybe_uv_error(status: c_int) -> Option<UvError> {
if status >= 0 {
None
} else {
Some(UvError(status))
}
}
pub fn status_to_io_result(status: c_int) -> Result<(), IoError> {
if status >= 0 {Ok(())} else {Err(uv_error_to_io_error(UvError(status)))}
}
/// The uv buffer type
pub type Buf = uvll::uv_buf_t;
pub fn empty_buf() -> Buf {
uvll::uv_buf_t {
base: null(),
len: 0,
}
}
/// Borrow a slice to a Buf
pub fn slice_to_uv_buf(v: &[u8]) -> Buf {
let data = vec::raw::to_ptr(v);
uvll::uv_buf_t { base: data, len: v.len() as uvll::uv_buf_len_t }
}
#[cfg(test)]
fn local_loop() -> &'static mut Loop {
unsafe {
cast::transmute(Local::borrow(|sched: &mut Scheduler| {
let mut io = None;
sched.event_loop.io(|i| {
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let (_vtable, uvio): (uint, &'static mut uvio::UvIoFactory) =
cast::transmute(i);
io = Some(uvio);
});
io.unwrap()
}).uv_loop())
}
}
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#[cfg(test)]
mod test {
use std::cast::transmute;
use std::ptr;
use std::unstable::run_in_bare_thread;
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use super::{slice_to_uv_buf, Loop};
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#[test]
fn test_slice_to_uv_buf() {
let slice = [0, .. 20];
let buf = slice_to_uv_buf(slice);
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assert_eq!(buf.len, 20);
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unsafe {
let base = transmute::<*u8, *mut u8>(buf.base);
(*base) = 1;
(*ptr::mut_offset(base, 1)) = 2;
}
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assert!(slice[0] == 1);
assert!(slice[1] == 2);
}
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#[test]
fn loop_smoke_test() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
loop_.run();
loop_.close();
}
}
}