rust/src/libnative/io/net.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.
use std::cast;
use std::io::net::ip;
use std::io;
use std::libc;
use std::mem;
use std::rt::rtio;
use std::unstable::intrinsics;
use super::{IoResult, retry};
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use super::file::keep_going;
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////////////////////////////////////////////////////////////////////////////////
// sockaddr and misc bindings
////////////////////////////////////////////////////////////////////////////////
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#[cfg(windows)] pub type sock_t = libc::SOCKET;
#[cfg(unix)] pub type sock_t = super::file::fd_t;
pub fn htons(u: u16) -> u16 {
intrinsics::to_be16(u as i16) as u16
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}
pub fn ntohs(u: u16) -> u16 {
intrinsics::from_be16(u as i16) as u16
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}
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enum InAddr {
InAddr(libc::in_addr),
In6Addr(libc::in6_addr),
}
fn ip_to_inaddr(ip: ip::IpAddr) -> InAddr {
match ip {
ip::Ipv4Addr(a, b, c, d) => {
InAddr(libc::in_addr {
s_addr: (d as u32 << 24) |
(c as u32 << 16) |
(b as u32 << 8) |
(a as u32 << 0)
})
}
ip::Ipv6Addr(a, b, c, d, e, f, g, h) => {
In6Addr(libc::in6_addr {
s6_addr: [
htons(a),
htons(b),
htons(c),
htons(d),
htons(e),
htons(f),
htons(g),
htons(h),
]
})
}
}
}
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fn addr_to_sockaddr(addr: ip::SocketAddr) -> (libc::sockaddr_storage, uint) {
unsafe {
let storage: libc::sockaddr_storage = intrinsics::init();
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let len = match ip_to_inaddr(addr.ip) {
InAddr(inaddr) => {
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let storage: *mut libc::sockaddr_in = cast::transmute(&storage);
(*storage).sin_family = libc::AF_INET as libc::sa_family_t;
(*storage).sin_port = htons(addr.port);
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(*storage).sin_addr = inaddr;
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mem::size_of::<libc::sockaddr_in>()
}
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In6Addr(inaddr) => {
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let storage: *mut libc::sockaddr_in6 = cast::transmute(&storage);
(*storage).sin6_family = libc::AF_INET6 as libc::sa_family_t;
(*storage).sin6_port = htons(addr.port);
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(*storage).sin6_addr = inaddr;
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mem::size_of::<libc::sockaddr_in6>()
}
};
return (storage, len);
}
}
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fn socket(addr: ip::SocketAddr, ty: libc::c_int) -> IoResult<sock_t> {
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unsafe {
let fam = match addr.ip {
ip::Ipv4Addr(..) => libc::AF_INET,
ip::Ipv6Addr(..) => libc::AF_INET6,
};
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match libc::socket(fam, ty, 0) {
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-1 => Err(super::last_error()),
fd => Ok(fd),
}
}
}
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fn setsockopt<T>(fd: sock_t, opt: libc::c_int, val: libc::c_int,
payload: T) -> IoResult<()> {
unsafe {
let payload = &payload as *T as *libc::c_void;
let ret = libc::setsockopt(fd, opt, val,
payload,
mem::size_of::<T>() as libc::socklen_t);
super::mkerr_libc(ret)
}
}
#[cfg(windows)] unsafe fn close(sock: sock_t) { libc::closesocket(sock); }
#[cfg(unix)] unsafe fn close(sock: sock_t) { libc::close(sock); }
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fn sockname(fd: sock_t,
f: extern "system" unsafe fn(sock_t, *mut libc::sockaddr,
*mut libc::socklen_t) -> libc::c_int)
-> IoResult<ip::SocketAddr>
{
let mut storage: libc::sockaddr_storage = unsafe { intrinsics::init() };
let mut len = mem::size_of::<libc::sockaddr_storage>() as libc::socklen_t;
unsafe {
let storage = &mut storage as *mut libc::sockaddr_storage;
let ret = f(fd,
storage as *mut libc::sockaddr,
&mut len as *mut libc::socklen_t);
if ret != 0 {
return Err(super::last_error())
}
}
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return sockaddr_to_addr(&storage, len as uint);
}
pub fn sockaddr_to_addr(storage: &libc::sockaddr_storage,
len: uint) -> IoResult<ip::SocketAddr> {
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match storage.ss_family as libc::c_int {
libc::AF_INET => {
assert!(len as uint >= mem::size_of::<libc::sockaddr_in>());
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let storage: &libc::sockaddr_in = unsafe {
cast::transmute(storage)
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};
let addr = storage.sin_addr.s_addr as u32;
let a = (addr >> 0) as u8;
let b = (addr >> 8) as u8;
let c = (addr >> 16) as u8;
let d = (addr >> 24) as u8;
Ok(ip::SocketAddr {
ip: ip::Ipv4Addr(a, b, c, d),
port: ntohs(storage.sin_port),
})
}
libc::AF_INET6 => {
assert!(len as uint >= mem::size_of::<libc::sockaddr_in6>());
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let storage: &libc::sockaddr_in6 = unsafe {
cast::transmute(storage)
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};
let a = ntohs(storage.sin6_addr.s6_addr[0]);
let b = ntohs(storage.sin6_addr.s6_addr[1]);
let c = ntohs(storage.sin6_addr.s6_addr[2]);
let d = ntohs(storage.sin6_addr.s6_addr[3]);
let e = ntohs(storage.sin6_addr.s6_addr[4]);
let f = ntohs(storage.sin6_addr.s6_addr[5]);
let g = ntohs(storage.sin6_addr.s6_addr[6]);
let h = ntohs(storage.sin6_addr.s6_addr[7]);
Ok(ip::SocketAddr {
ip: ip::Ipv6Addr(a, b, c, d, e, f, g, h),
port: ntohs(storage.sin6_port),
})
}
_ => {
Err(io::standard_error(io::OtherIoError))
}
}
}
#[cfg(unix)]
pub fn init() {}
#[cfg(windows)]
pub fn init() {
static WSADESCRIPTION_LEN: uint = 256;
static WSASYS_STATUS_LEN: uint = 128;
struct WSADATA {
wVersion: libc::WORD,
wHighVersion: libc::WORD,
szDescription: [u8, ..WSADESCRIPTION_LEN + 1],
szSystemStatus: [u8, ..WSASYS_STATUS_LEN + 1],
iMaxSockets: u16,
iMaxUdpDg: u16,
lpVendorInfo: *u8,
}
type LPWSADATA = *mut WSADATA;
#[link(name = "ws2_32")]
extern "system" {
fn WSAStartup(wVersionRequested: libc::WORD,
lpWSAData: LPWSADATA) -> libc::c_int;
}
unsafe {
use std::unstable::mutex::{Once, ONCE_INIT};
static mut INIT: Once = ONCE_INIT;
INIT.doit(|| {
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let mut data: WSADATA = intrinsics::init();
let ret = WSAStartup(0x202, // version 2.2
&mut data);
assert_eq!(ret, 0);
});
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}
}
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////////////////////////////////////////////////////////////////////////////////
// TCP streams
////////////////////////////////////////////////////////////////////////////////
pub struct TcpStream {
priv fd: sock_t,
}
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impl TcpStream {
pub fn connect(addr: ip::SocketAddr) -> IoResult<TcpStream> {
unsafe {
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socket(addr, libc::SOCK_STREAM).and_then(|fd| {
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let (addr, len) = addr_to_sockaddr(addr);
let addrp = &addr as *libc::sockaddr_storage;
let ret = TcpStream { fd: fd };
match retry(|| {
libc::connect(fd, addrp as *libc::sockaddr,
len as libc::socklen_t)
}) {
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-1 => Err(super::last_error()),
_ => Ok(ret),
}
})
}
}
pub fn fd(&self) -> sock_t { self.fd }
fn set_nodelay(&mut self, nodelay: bool) -> IoResult<()> {
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setsockopt(self.fd, libc::IPPROTO_TCP, libc::TCP_NODELAY,
nodelay as libc::c_int)
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}
fn set_keepalive(&mut self, seconds: Option<uint>) -> IoResult<()> {
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let ret = setsockopt(self.fd, libc::SOL_SOCKET, libc::SO_KEEPALIVE,
seconds.is_some() as libc::c_int);
match seconds {
Some(n) => ret.and_then(|()| self.set_tcp_keepalive(n)),
None => ret,
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}
}
#[cfg(target_os = "macos")]
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fn set_tcp_keepalive(&mut self, seconds: uint) -> IoResult<()> {
setsockopt(self.fd, libc::IPPROTO_TCP, libc::TCP_KEEPALIVE,
seconds as libc::c_int)
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}
#[cfg(target_os = "freebsd")]
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fn set_tcp_keepalive(&mut self, seconds: uint) -> IoResult<()> {
setsockopt(self.fd, libc::IPPROTO_TCP, libc::TCP_KEEPIDLE,
seconds as libc::c_int)
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}
#[cfg(not(target_os = "macos"), not(target_os = "freebsd"))]
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fn set_tcp_keepalive(&mut self, _seconds: uint) -> IoResult<()> {
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Ok(())
}
}
#[cfg(windows)] type wrlen = libc::c_int;
#[cfg(not(windows))] type wrlen = libc::size_t;
impl rtio::RtioTcpStream for TcpStream {
fn read(&mut self, buf: &mut [u8]) -> IoResult<uint> {
let ret = retry(|| {
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unsafe {
libc::recv(self.fd,
buf.as_ptr() as *mut libc::c_void,
buf.len() as wrlen,
0) as libc::c_int
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}
});
if ret == 0 {
Err(io::standard_error(io::EndOfFile))
} else if ret < 0 {
Err(super::last_error())
} else {
Ok(ret as uint)
}
}
fn write(&mut self, buf: &[u8]) -> IoResult<()> {
let ret = keep_going(buf, |buf, len| {
unsafe {
libc::send(self.fd,
buf as *mut libc::c_void,
len as wrlen,
0) as i64
}
});
if ret < 0 {
Err(super::last_error())
} else {
Ok(())
}
}
fn peer_name(&mut self) -> IoResult<ip::SocketAddr> {
sockname(self.fd, libc::getpeername)
}
fn control_congestion(&mut self) -> IoResult<()> {
self.set_nodelay(false)
}
fn nodelay(&mut self) -> IoResult<()> {
self.set_nodelay(true)
}
fn keepalive(&mut self, delay_in_seconds: uint) -> IoResult<()> {
self.set_keepalive(Some(delay_in_seconds))
}
fn letdie(&mut self) -> IoResult<()> {
self.set_keepalive(None)
}
}
impl rtio::RtioSocket for TcpStream {
fn socket_name(&mut self) -> IoResult<ip::SocketAddr> {
sockname(self.fd, libc::getsockname)
}
}
impl Drop for TcpStream {
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fn drop(&mut self) { unsafe { close(self.fd); } }
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}
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////////////////////////////////////////////////////////////////////////////////
// TCP listeners
////////////////////////////////////////////////////////////////////////////////
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pub struct TcpListener {
priv fd: sock_t,
}
impl TcpListener {
pub fn bind(addr: ip::SocketAddr) -> IoResult<TcpListener> {
unsafe {
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socket(addr, libc::SOCK_STREAM).and_then(|fd| {
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let (addr, len) = addr_to_sockaddr(addr);
let addrp = &addr as *libc::sockaddr_storage;
let ret = TcpListener { fd: fd };
// On platforms with Berkeley-derived sockets, this allows
// to quickly rebind a socket, without needing to wait for
// the OS to clean up the previous one.
if cfg!(unix) {
match setsockopt(fd, libc::SOL_SOCKET,
libc::SO_REUSEADDR,
1 as libc::c_int) {
Err(n) => { return Err(n); },
Ok(..) => { }
}
}
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match libc::bind(fd, addrp as *libc::sockaddr,
len as libc::socklen_t) {
-1 => Err(super::last_error()),
_ => Ok(ret),
}
})
}
}
pub fn fd(&self) -> sock_t { self.fd }
pub fn native_listen(self, backlog: int) -> IoResult<TcpAcceptor> {
match unsafe { libc::listen(self.fd, backlog as libc::c_int) } {
-1 => Err(super::last_error()),
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_ => Ok(TcpAcceptor { listener: self })
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}
}
}
impl rtio::RtioTcpListener for TcpListener {
fn listen(~self) -> IoResult<~rtio::RtioTcpAcceptor> {
self.native_listen(128).map(|a| ~a as ~rtio::RtioTcpAcceptor)
}
}
impl rtio::RtioSocket for TcpListener {
fn socket_name(&mut self) -> IoResult<ip::SocketAddr> {
sockname(self.fd, libc::getsockname)
}
}
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impl Drop for TcpListener {
fn drop(&mut self) { unsafe { close(self.fd); } }
}
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pub struct TcpAcceptor {
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priv listener: TcpListener,
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}
impl TcpAcceptor {
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pub fn fd(&self) -> sock_t { self.listener.fd }
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pub fn native_accept(&mut self) -> IoResult<TcpStream> {
unsafe {
let mut storage: libc::sockaddr_storage = intrinsics::init();
let storagep = &mut storage as *mut libc::sockaddr_storage;
let size = mem::size_of::<libc::sockaddr_storage>();
let mut size = size as libc::socklen_t;
match retry(|| {
libc::accept(self.fd(),
storagep as *mut libc::sockaddr,
&mut size as *mut libc::socklen_t) as libc::c_int
}) as sock_t {
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-1 => Err(super::last_error()),
fd => Ok(TcpStream { fd: fd })
}
}
}
}
impl rtio::RtioSocket for TcpAcceptor {
fn socket_name(&mut self) -> IoResult<ip::SocketAddr> {
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sockname(self.fd(), libc::getsockname)
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}
}
impl rtio::RtioTcpAcceptor for TcpAcceptor {
fn accept(&mut self) -> IoResult<~rtio::RtioTcpStream> {
self.native_accept().map(|s| ~s as ~rtio::RtioTcpStream)
}
fn accept_simultaneously(&mut self) -> IoResult<()> { Ok(()) }
fn dont_accept_simultaneously(&mut self) -> IoResult<()> { Ok(()) }
}
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////////////////////////////////////////////////////////////////////////////////
// UDP
////////////////////////////////////////////////////////////////////////////////
pub struct UdpSocket {
priv fd: sock_t,
}
impl UdpSocket {
pub fn bind(addr: ip::SocketAddr) -> IoResult<UdpSocket> {
unsafe {
socket(addr, libc::SOCK_DGRAM).and_then(|fd| {
let (addr, len) = addr_to_sockaddr(addr);
let addrp = &addr as *libc::sockaddr_storage;
let ret = UdpSocket { fd: fd };
match libc::bind(fd, addrp as *libc::sockaddr,
len as libc::socklen_t) {
-1 => Err(super::last_error()),
_ => Ok(ret),
}
})
}
}
pub fn fd(&self) -> sock_t { self.fd }
pub fn set_broadcast(&mut self, on: bool) -> IoResult<()> {
setsockopt(self.fd, libc::SOL_SOCKET, libc::SO_BROADCAST,
on as libc::c_int)
}
pub fn set_multicast_loop(&mut self, on: bool) -> IoResult<()> {
setsockopt(self.fd, libc::IPPROTO_IP, libc::IP_MULTICAST_LOOP,
on as libc::c_int)
}
pub fn set_membership(&mut self, addr: ip::IpAddr,
opt: libc::c_int) -> IoResult<()> {
match ip_to_inaddr(addr) {
InAddr(addr) => {
let mreq = libc::ip_mreq {
imr_multiaddr: addr,
// interface == INADDR_ANY
imr_interface: libc::in_addr { s_addr: 0x0 },
};
setsockopt(self.fd, libc::IPPROTO_IP, opt, mreq)
}
In6Addr(addr) => {
let mreq = libc::ip6_mreq {
ipv6mr_multiaddr: addr,
ipv6mr_interface: 0,
};
setsockopt(self.fd, libc::IPPROTO_IPV6, opt, mreq)
}
}
}
}
impl rtio::RtioSocket for UdpSocket {
fn socket_name(&mut self) -> IoResult<ip::SocketAddr> {
sockname(self.fd(), libc::getsockname)
}
}
#[cfg(windows)] type msglen_t = libc::c_int;
#[cfg(unix)] type msglen_t = libc::size_t;
impl rtio::RtioUdpSocket for UdpSocket {
fn recvfrom(&mut self, buf: &mut [u8]) -> IoResult<(uint, ip::SocketAddr)> {
unsafe {
let mut storage: libc::sockaddr_storage = intrinsics::init();
let storagep = &mut storage as *mut libc::sockaddr_storage;
let mut addrlen: libc::socklen_t =
mem::size_of::<libc::sockaddr_storage>() as libc::socklen_t;
let ret = retry(|| {
libc::recvfrom(self.fd,
buf.as_ptr() as *mut libc::c_void,
buf.len() as msglen_t,
0,
storagep as *mut libc::sockaddr,
&mut addrlen) as libc::c_int
});
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if ret < 0 { return Err(super::last_error()) }
sockaddr_to_addr(&storage, addrlen as uint).and_then(|addr| {
Ok((ret as uint, addr))
})
}
}
fn sendto(&mut self, buf: &[u8], dst: ip::SocketAddr) -> IoResult<()> {
let (dst, len) = addr_to_sockaddr(dst);
let dstp = &dst as *libc::sockaddr_storage;
unsafe {
let ret = retry(|| {
libc::sendto(self.fd,
buf.as_ptr() as *libc::c_void,
buf.len() as msglen_t,
0,
dstp as *libc::sockaddr,
len as libc::socklen_t) as libc::c_int
});
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match ret {
-1 => Err(super::last_error()),
n if n as uint != buf.len() => {
Err(io::IoError {
kind: io::OtherIoError,
desc: "couldn't send entire packet at once",
detail: None,
})
}
_ => Ok(())
}
}
}
fn join_multicast(&mut self, multi: ip::IpAddr) -> IoResult<()> {
match multi {
ip::Ipv4Addr(..) => {
self.set_membership(multi, libc::IP_ADD_MEMBERSHIP)
}
ip::Ipv6Addr(..) => {
self.set_membership(multi, libc::IPV6_ADD_MEMBERSHIP)
}
}
}
fn leave_multicast(&mut self, multi: ip::IpAddr) -> IoResult<()> {
match multi {
ip::Ipv4Addr(..) => {
self.set_membership(multi, libc::IP_DROP_MEMBERSHIP)
}
ip::Ipv6Addr(..) => {
self.set_membership(multi, libc::IPV6_DROP_MEMBERSHIP)
}
}
}
fn loop_multicast_locally(&mut self) -> IoResult<()> {
self.set_multicast_loop(true)
}
fn dont_loop_multicast_locally(&mut self) -> IoResult<()> {
self.set_multicast_loop(false)
}
fn multicast_time_to_live(&mut self, ttl: int) -> IoResult<()> {
setsockopt(self.fd, libc::IPPROTO_IP, libc::IP_MULTICAST_TTL,
ttl as libc::c_int)
}
fn time_to_live(&mut self, ttl: int) -> IoResult<()> {
setsockopt(self.fd, libc::IPPROTO_IP, libc::IP_TTL, ttl as libc::c_int)
}
fn hear_broadcasts(&mut self) -> IoResult<()> {
self.set_broadcast(true)
}
fn ignore_broadcasts(&mut self) -> IoResult<()> {
self.set_broadcast(false)
}
}
impl Drop for UdpSocket {
fn drop(&mut self) { unsafe { close(self.fd) } }
}