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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.
use std::c_str::CString;
use std::io::IoError;
use std::libc;
use std::rt::rtio::{RtioPipe, RtioUnixListener, RtioUnixAcceptor};
use std::rt::task::BlockedTask;
use access::Access;
use homing::{HomingIO, HomeHandle};
use rc::Refcount;
use stream::StreamWatcher;
use super::{Loop, UvError, UvHandle, Request, uv_error_to_io_error,
wait_until_woken_after, wakeup};
use uvio::UvIoFactory;
use uvll;
pub struct PipeWatcher {
stream: StreamWatcher,
home: HomeHandle,
priv defused: bool,
priv refcount: Refcount,
// see comments in TcpWatcher for why these exist
priv write_access: Access,
priv read_access: Access,
}
pub struct PipeListener {
home: HomeHandle,
pipe: *uvll::uv_pipe_t,
priv outgoing: Sender<Result<~RtioPipe, IoError>>,
priv incoming: Receiver<Result<~RtioPipe, IoError>>,
}
pub struct PipeAcceptor {
listener: ~PipeListener,
}
// PipeWatcher implementation and traits
impl PipeWatcher {
// Creates an uninitialized pipe watcher. The underlying uv pipe is ready to
// get bound to some other source (this is normally a helper method paired
// with another call).
pub fn new(io: &mut UvIoFactory, ipc: bool) -> PipeWatcher {
let home = io.make_handle();
PipeWatcher::new_home(&io.loop_, home, ipc)
}
pub fn new_home(loop_: &Loop, home: HomeHandle, ipc: bool) -> PipeWatcher {
let handle = unsafe {
let handle = uvll::malloc_handle(uvll::UV_NAMED_PIPE);
assert!(!handle.is_null());
let ipc = ipc as libc::c_int;
assert_eq!(uvll::uv_pipe_init(loop_.handle, handle, ipc), 0);
handle
};
PipeWatcher {
stream: StreamWatcher::new(handle),
home: home,
defused: false,
refcount: Refcount::new(),
read_access: Access::new(),
write_access: Access::new(),
}
}
pub fn open(io: &mut UvIoFactory, file: libc::c_int)
-> Result<PipeWatcher, UvError>
{
let pipe = PipeWatcher::new(io, false);
match unsafe { uvll::uv_pipe_open(pipe.handle(), file) } {
0 => Ok(pipe),
n => Err(UvError(n))
}
}
pub fn connect(io: &mut UvIoFactory, name: &CString)
-> Result<PipeWatcher, UvError>
{
struct Ctx { task: Option<BlockedTask>, result: libc::c_int, }
let mut cx = Ctx { task: None, result: 0 };
let mut req = Request::new(uvll::UV_CONNECT);
let pipe = PipeWatcher::new(io, false);
wait_until_woken_after(&mut cx.task, &io.loop_, || {
unsafe {
uvll::uv_pipe_connect(req.handle,
pipe.handle(),
name.with_ref(|p| p),
connect_cb)
}
req.set_data(&cx);
req.defuse(); // uv callback now owns this request
});
return match cx.result {
0 => Ok(pipe),
n => Err(UvError(n))
};
extern fn connect_cb(req: *uvll::uv_connect_t, status: libc::c_int) {;
let req = Request::wrap(req);
assert!(status != uvll::ECANCELED);
let cx: &mut Ctx = unsafe { req.get_data() };
cx.result = status;
wakeup(&mut cx.task);
}
}
pub fn handle(&self) -> *uvll::uv_pipe_t { self.stream.handle }
// Unwraps the underlying uv pipe. This cancels destruction of the pipe and
// allows the pipe to get moved elsewhere
fn unwrap(mut self) -> *uvll::uv_pipe_t {
self.defused = true;
return self.stream.handle;
}
}
impl RtioPipe for PipeWatcher {
fn read(&mut self, buf: &mut [u8]) -> Result<uint, IoError> {
let m = self.fire_homing_missile();
let _g = self.read_access.grant(m);
self.stream.read(buf).map_err(uv_error_to_io_error)
}
fn write(&mut self, buf: &[u8]) -> Result<(), IoError> {
let m = self.fire_homing_missile();
let _g = self.write_access.grant(m);
self.stream.write(buf).map_err(uv_error_to_io_error)
}
fn clone(&self) -> ~RtioPipe {
~PipeWatcher {
stream: StreamWatcher::new(self.stream.handle),
defused: false,
home: self.home.clone(),
refcount: self.refcount.clone(),
read_access: self.read_access.clone(),
write_access: self.write_access.clone(),
} as ~RtioPipe
}
}
impl HomingIO for PipeWatcher {
fn home<'a>(&'a mut self) -> &'a mut HomeHandle { &mut self.home }
}
impl UvHandle<uvll::uv_pipe_t> for PipeWatcher {
fn uv_handle(&self) -> *uvll::uv_pipe_t { self.stream.handle }
}
impl Drop for PipeWatcher {
fn drop(&mut self) {
let _m = self.fire_homing_missile();
if !self.defused && self.refcount.decrement() {
self.close();
}
}
}
// PipeListener implementation and traits
impl PipeListener {
pub fn bind(io: &mut UvIoFactory, name: &CString)
-> Result<~PipeListener, UvError>
{
let pipe = PipeWatcher::new(io, false);
match unsafe {
uvll::uv_pipe_bind(pipe.handle(), name.with_ref(|p| p))
} {
0 => {
// If successful, unwrap the PipeWatcher because we control how
// we close the pipe differently. We can't rely on
// StreamWatcher's default close method.
let (tx, rx) = channel();
let p = ~PipeListener {
home: io.make_handle(),
pipe: pipe.unwrap(),
incoming: rx,
outgoing: tx,
};
Ok(p.install())
}
n => Err(UvError(n))
}
}
}
impl RtioUnixListener for PipeListener {
fn listen(~self) -> Result<~RtioUnixAcceptor, IoError> {
// create the acceptor object from ourselves
let mut acceptor = ~PipeAcceptor { listener: self };
let _m = acceptor.fire_homing_missile();
// FIXME: the 128 backlog should be configurable
match unsafe { uvll::uv_listen(acceptor.listener.pipe, 128, listen_cb) } {
0 => Ok(acceptor as ~RtioUnixAcceptor),
n => Err(uv_error_to_io_error(UvError(n))),
}
}
}
impl HomingIO for PipeListener {
fn home<'r>(&'r mut self) -> &'r mut HomeHandle { &mut self.home }
}
impl UvHandle<uvll::uv_pipe_t> for PipeListener {
fn uv_handle(&self) -> *uvll::uv_pipe_t { self.pipe }
}
extern fn listen_cb(server: *uvll::uv_stream_t, status: libc::c_int) {
assert!(status != uvll::ECANCELED);
let pipe: &mut PipeListener = unsafe { UvHandle::from_uv_handle(&server) };
let msg = match status {
0 => {
let loop_ = Loop::wrap(unsafe {
uvll::get_loop_for_uv_handle(server)
});
let client = PipeWatcher::new_home(&loop_, pipe.home().clone(), false);
assert_eq!(unsafe { uvll::uv_accept(server, client.handle()) }, 0);
Ok(~client as ~RtioPipe)
}
n => Err(uv_error_to_io_error(UvError(n)))
};
pipe.outgoing.send(msg);
}
impl Drop for PipeListener {
fn drop(&mut self) {
let _m = self.fire_homing_missile();
self.close();
}
}
// PipeAcceptor implementation and traits
impl RtioUnixAcceptor for PipeAcceptor {
fn accept(&mut self) -> Result<~RtioPipe, IoError> {
self.listener.incoming.recv()
}
}
impl HomingIO for PipeAcceptor {
fn home<'r>(&'r mut self) -> &'r mut HomeHandle { &mut self.listener.home }
}
#[cfg(test)]
mod tests {
use std::rt::rtio::{RtioUnixListener, RtioUnixAcceptor, RtioPipe};
use std::io::test::next_test_unix;
use super::{PipeWatcher, PipeListener};
use super::super::local_loop;
#[test]
fn connect_err() {
match PipeWatcher::connect(local_loop(), &"path/to/nowhere".to_c_str()) {
Ok(..) => fail!(),
Err(..) => {}
}
}
#[test]
fn bind_err() {
match PipeListener::bind(local_loop(), &"path/to/nowhere".to_c_str()) {
Ok(..) => fail!(),
Err(e) => assert_eq!(e.name(), ~"EACCES"),
}
}
#[test]
fn bind() {
let p = next_test_unix().to_c_str();
match PipeListener::bind(local_loop(), &p) {
Ok(..) => {}
Err(..) => fail!(),
}
}
#[test] #[should_fail]
fn bind_fail() {
let p = next_test_unix().to_c_str();
let _w = PipeListener::bind(local_loop(), &p).unwrap();
fail!();
}
#[test]
fn connect() {
let path = next_test_unix();
let path2 = path.clone();
let (tx, rx) = channel();
spawn(proc() {
let p = PipeListener::bind(local_loop(), &path2.to_c_str()).unwrap();
let mut p = p.listen().unwrap();
tx.send(());
let mut client = p.accept().unwrap();
let mut buf = [0];
assert!(client.read(buf).unwrap() == 1);
assert_eq!(buf[0], 1);
assert!(client.write([2]).is_ok());
});
rx.recv();
let mut c = PipeWatcher::connect(local_loop(), &path.to_c_str()).unwrap();
assert!(c.write([1]).is_ok());
let mut buf = [0];
assert!(c.read(buf).unwrap() == 1);
assert_eq!(buf[0], 2);
}
#[test] #[should_fail]
fn connect_fail() {
let path = next_test_unix();
let path2 = path.clone();
let (tx, rx) = channel();
spawn(proc() {
let p = PipeListener::bind(local_loop(), &path2.to_c_str()).unwrap();
let mut p = p.listen().unwrap();
tx.send(());
drop(p.accept().unwrap());
});
rx.recv();
let _c = PipeWatcher::connect(local_loop(), &path.to_c_str()).unwrap();
fail!()
}
}
|
