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use std::c_str::CString;
use std::mem;
use libc::c_int;
use libc::{O_CREAT, O_APPEND, O_TRUNC, O_RDWR, O_RDONLY, O_WRONLY, S_IRUSR,
S_IWUSR};
use libc;
use std::rt::rtio;
use std::rt::rtio::{ProcessConfig, IoFactory, EventLoop, IoResult};
#[cfg(test)] use std::rt::thread::Thread;
use super::{uv_error_to_io_error, Loop};
use addrinfo::GetAddrInfoRequest;
use async::AsyncWatcher;
use file::{FsRequest, FileWatcher};
use queue::QueuePool;
use homing::HomeHandle;
use idle::IdleWatcher;
use net::{TcpWatcher, TcpListener, UdpWatcher};
use pipe::{PipeWatcher, PipeListener};
use process::Process;
use signal::SignalWatcher;
use timer::TimerWatcher;
use tty::TtyWatcher;
use uvll;pub struct UvEventLoop {
uvio: UvIoFactory
}
impl UvEventLoop {
pub fn new() -> UvEventLoop {
let mut loop_ = Loop::new();
let handle_pool = QueuePool::new(&mut loop_);
UvEventLoop {
uvio: UvIoFactory {
loop_: loop_,
handle_pool: Some(handle_pool),
}
}
}
}
impl Drop for UvEventLoop {
fn drop(&mut self) {let handle = self.uvio.handle_pool.get_ref().handle();
drop(self.uvio.handle_pool.take());
self.run();
self.uvio.loop_.close();
unsafe { uvll::free_handle(handle) }
}
}
impl EventLoop for UvEventLoop {
fn run(&mut self) {
self.uvio.loop_.run();
}
fn callback(&mut self, f: proc()) {
IdleWatcher::onetime(&mut self.uvio.loop_, f);
}
fn pausable_idle_callback(&mut self, cb: Box<rtio::Callback + Send>)
-> Box<rtio::PausableIdleCallback + Send> {
IdleWatcher::new(&mut self.uvio.loop_, cb)
as Box<rtio::PausableIdleCallback + Send>
}
fn remote_callback(&mut self, f: Box<rtio::Callback + Send>)
-> Box<rtio::RemoteCallback + Send> {
box AsyncWatcher::new(&mut self.uvio.loop_, f) as
Box<rtio::RemoteCallback + Send>
}
fn io<'a>(&'a mut self) -> Option<&'a mut rtio::IoFactory> {
let factory = &mut self.uvio as &mut rtio::IoFactory;
Some(factory)
}
fn has_active_io(&self) -> bool {
self.uvio.loop_.get_blockers() > 0
}
}
#[test]
fn test_callback_run_once() {
Thread::start(proc() {
let mut event_loop = UvEventLoop::new();
let mut count = 0;
let count_ptr: *mut int = &mut count;
event_loop.callback(proc() {
unsafe { *count_ptr += 1 }
});
event_loop.run();
assert_eq!(count, 1);
}).join();
}
pub struct UvIoFactory {
pub loop_: Loop,
handle_pool: Option<Box<QueuePool>>,
}
impl UvIoFactory {
pub fn uv_loop<'a>(&mut self) -> *uvll::uv_loop_t { self.loop_.handle }
pub fn make_handle(&mut self) -> HomeHandle {let id: uint = unsafe { mem::transmute_copy(&self) };
HomeHandle::new(id, &mut **self.handle_pool.get_mut_ref())
}
}
impl IoFactory for UvIoFactory {fn tcp_connect(&mut self, addr: rtio::SocketAddr, timeout: Option<u64>)
-> IoResult<Box<rtio::RtioTcpStream + Send>> {
match TcpWatcher::connect(self, addr, timeout) {
Ok(t) => Ok(box t as Box<rtio::RtioTcpStream + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn tcp_bind(&mut self, addr: rtio::SocketAddr)
-> IoResult<Box<rtio::RtioTcpListener + Send>> {
match TcpListener::bind(self, addr) {
Ok(t) => Ok(t as Box<rtio::RtioTcpListener + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn udp_bind(&mut self, addr: rtio::SocketAddr)
-> IoResult<Box<rtio::RtioUdpSocket + Send>> {
match UdpWatcher::bind(self, addr) {
Ok(u) => Ok(box u as Box<rtio::RtioUdpSocket + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn timer_init(&mut self) -> IoResult<Box<rtio::RtioTimer + Send>> {
Ok(TimerWatcher::new(self) as Box<rtio::RtioTimer + Send>)
}
fn get_host_addresses(&mut self, host: Option<&str>, servname: Option<&str>,
hint: Option<rtio::AddrinfoHint>)
-> IoResult<Vec<rtio::AddrinfoInfo>>
{
let r = GetAddrInfoRequest::run(&self.loop_, host, servname, hint);
r.map_err(uv_error_to_io_error)
}
fn fs_from_raw_fd(&mut self, fd: c_int, close: rtio::CloseBehavior)
-> Box<rtio::RtioFileStream + Send> {
box FileWatcher::new(self, fd, close) as
Box<rtio::RtioFileStream + Send>
}
fn fs_open(&mut self, path: &CString, fm: rtio::FileMode,
fa: rtio::FileAccess)
-> IoResult<Box<rtio::RtioFileStream + Send>>
{
let flags = match fm {
rtio::Open => 0,
rtio::Append => libc::O_APPEND,
rtio::Truncate => libc::O_TRUNC,
};let (flags, mode) = match fa {
rtio::Read => (flags | libc::O_RDONLY, 0),
rtio::Write => (flags | libc::O_WRONLY | libc::O_CREAT,
libc::S_IRUSR | libc::S_IWUSR),
rtio::ReadWrite => (flags | libc::O_RDWR | libc::O_CREAT,
libc::S_IRUSR | libc::S_IWUSR),
};
match FsRequest::open(self, path, flags as int, mode as int) {
Ok(fs) => Ok(box fs as Box<rtio::RtioFileStream + Send>),
Err(e) => Err(uv_error_to_io_error(e))
}
}
fn fs_unlink(&mut self, path: &CString) -> IoResult<()> {
let r = FsRequest::unlink(&self.loop_, path);
r.map_err(uv_error_to_io_error)
}
fn fs_lstat(&mut self, path: &CString) -> IoResult<rtio::FileStat> {
let r = FsRequest::lstat(&self.loop_, path);
r.map_err(uv_error_to_io_error)
}
fn fs_stat(&mut self, path: &CString) -> IoResult<rtio::FileStat> {
let r = FsRequest::stat(&self.loop_, path);
r.map_err(uv_error_to_io_error)
}
fn fs_mkdir(&mut self, path: &CString, perm: uint) -> IoResult<()> {
let r = FsRequest::mkdir(&self.loop_, path, perm as c_int);
r.map_err(uv_error_to_io_error)
}
fn fs_rmdir(&mut self, path: &CString) -> IoResult<()> {
let r = FsRequest::rmdir(&self.loop_, path);
r.map_err(uv_error_to_io_error)
}
fn fs_rename(&mut self, path: &CString, to: &CString) -> IoResult<()> {
let r = FsRequest::rename(&self.loop_, path, to);
r.map_err(uv_error_to_io_error)
}
fn fs_chmod(&mut self, path: &CString, perm: uint) -> IoResult<()> {
let r = FsRequest::chmod(&self.loop_, path, perm as c_int);
r.map_err(uv_error_to_io_error)
}
fn fs_readdir(&mut self, path: &CString, flags: c_int)
-> IoResult<Vec<CString>>
{
let r = FsRequest::readdir(&self.loop_, path, flags);
r.map_err(uv_error_to_io_error)
}
fn fs_link(&mut self, src: &CString, dst: &CString) -> IoResult<()> {
let r = FsRequest::link(&self.loop_, src, dst);
r.map_err(uv_error_to_io_error)
}
fn fs_symlink(&mut self, src: &CString, dst: &CString) -> IoResult<()> {
let r = FsRequest::symlink(&self.loop_, src, dst);
r.map_err(uv_error_to_io_error)
}
fn fs_chown(&mut self, path: &CString, uid: int, gid: int) -> IoResult<()> {
let r = FsRequest::chown(&self.loop_, path, uid, gid);
r.map_err(uv_error_to_io_error)
}
fn fs_readlink(&mut self, path: &CString) -> IoResult<CString> {
let r = FsRequest::readlink(&self.loop_, path);
r.map_err(uv_error_to_io_error)
}
fn fs_utime(&mut self, path: &CString, atime: u64, mtime: u64)
-> IoResult<()>
{
let r = FsRequest::utime(&self.loop_, path, atime, mtime);
r.map_err(uv_error_to_io_error)
}
fn spawn(&mut self, cfg: ProcessConfig)
-> IoResult<(Box<rtio::RtioProcess + Send>,
Vec<Option<Box<rtio::RtioPipe + Send>>>)>
{
match Process::spawn(self, cfg) {
Ok((p, io)) => {
Ok((p as Box<rtio::RtioProcess + Send>,
io.move_iter().map(|i| i.map(|p| {
box p as Box<rtio::RtioPipe + Send>
})).collect()))
}
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn kill(&mut self, pid: libc::pid_t, signum: int) -> IoResult<()> {
Process::kill(pid, signum).map_err(uv_error_to_io_error)
}
fn unix_bind(&mut self, path: &CString)
-> IoResult<Box<rtio::RtioUnixListener + Send>> {
match PipeListener::bind(self, path) {
Ok(p) => Ok(p as Box<rtio::RtioUnixListener + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn unix_connect(&mut self, path: &CString, timeout: Option<u64>)
-> IoResult<Box<rtio::RtioPipe + Send>> {
match PipeWatcher::connect(self, path, timeout) {
Ok(p) => Ok(box p as Box<rtio::RtioPipe + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
fn tty_open(&mut self, fd: c_int, readable: bool)
-> IoResult<Box<rtio::RtioTTY + Send>> {
match TtyWatcher::new(self, fd, readable) {
Ok(tty) => Ok(box tty as Box<rtio::RtioTTY + Send>),
Err(e) => Err(uv_error_to_io_error(e))
}
}
fn pipe_open(&mut self, fd: c_int)
-> IoResult<Box<rtio::RtioPipe + Send>>
{
match PipeWatcher::open(self, fd) {
Ok(s) => Ok(box s as Box<rtio::RtioPipe + Send>),
Err(e) => Err(uv_error_to_io_error(e))
}
}
fn signal(&mut self, signum: int, cb: Box<rtio::Callback + Send>)
-> IoResult<Box<rtio::RtioSignal + Send>>
{
match SignalWatcher::new(self, signum, cb) {
Ok(s) => Ok(s as Box<rtio::RtioSignal + Send>),
Err(e) => Err(uv_error_to_io_error(e)),
}
}
}