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|
//! Socket interface functions
//!
//! [Further reading](http://man7.org/linux/man-pages/man7/socket.7.html)
use {Error, Errno, Result};
use features;
use fcntl::{fcntl, FD_CLOEXEC, O_NONBLOCK};
use fcntl::FcntlArg::{F_SETFD, F_SETFL};
use libc::{c_void, c_int, socklen_t, size_t, pid_t, uid_t, gid_t};
use std::{mem, ptr, slice};
use std::os::unix::io::RawFd;
use sys::uio::IoVec;
mod addr;
mod consts;
mod ffi;
mod multicast;
pub mod sockopt;
/*
*
* ===== Re-exports =====
*
*/
pub use self::addr::{
AddressFamily,
SockAddr,
InetAddr,
UnixAddr,
IpAddr,
Ipv4Addr,
Ipv6Addr,
};
#[cfg(any(target_os = "linux", target_os = "android"))]
pub use ::sys::socket::addr::netlink::NetlinkAddr;
pub use libc::{
in_addr,
in6_addr,
sockaddr,
sockaddr_in,
sockaddr_in6,
sockaddr_un,
sa_family_t,
};
pub use self::multicast::{
ip_mreq,
ipv6_mreq,
};
pub use self::consts::*;
pub use libc::sockaddr_storage;
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
#[repr(i32)]
pub enum SockType {
Stream = consts::SOCK_STREAM,
Datagram = consts::SOCK_DGRAM,
SeqPacket = consts::SOCK_SEQPACKET,
Raw = consts::SOCK_RAW,
Rdm = consts::SOCK_RDM,
}
// Extra flags - Supported by Linux 2.6.27, normalized on other platforms
bitflags!(
pub struct SockFlag: c_int {
const SOCK_NONBLOCK = 0o0004000;
const SOCK_CLOEXEC = 0o2000000;
}
);
/// Copy the in-memory representation of src into the byte slice dst,
/// updating the slice to point to the remainder of dst only. Unsafe
/// because it exposes all bytes in src, which may be UB if some of them
/// are uninitialized (including padding).
unsafe fn copy_bytes<'a, 'b, T: ?Sized>(src: &T, dst: &'a mut &'b mut [u8]) {
let srclen = mem::size_of_val(src);
let mut tmpdst = &mut [][..];
mem::swap(&mut tmpdst, dst);
let (target, mut remainder) = tmpdst.split_at_mut(srclen);
// Safe because the mutable borrow of dst guarantees that src does not alias it.
ptr::copy_nonoverlapping(src as *const T as *const u8, target.as_mut_ptr(), srclen);
mem::swap(dst, &mut remainder);
}
use self::ffi::{cmsghdr, msghdr, type_of_cmsg_len, type_of_cmsg_data};
/// A structure used to make room in a cmsghdr passed to recvmsg. The
/// size and alignment match that of a cmsghdr followed by a T, but the
/// fields are not accessible, as the actual types will change on a call
/// to recvmsg.
///
/// To make room for multiple messages, nest the type parameter with
/// tuples, e.g.
/// `let cmsg: CmsgSpace<([RawFd; 3], CmsgSpace<[RawFd; 2]>)> = CmsgSpace::new();`
pub struct CmsgSpace<T> {
_hdr: cmsghdr,
_data: T,
}
impl<T> CmsgSpace<T> {
/// Create a CmsgSpace<T>. The structure is used only for space, so
/// the fields are uninitialized.
pub fn new() -> Self {
// Safe because the fields themselves aren't accessible.
unsafe { mem::uninitialized() }
}
}
pub struct RecvMsg<'a> {
// The number of bytes received.
pub bytes: usize,
cmsg_buffer: &'a [u8],
pub address: Option<SockAddr>,
pub flags: MsgFlags,
}
impl<'a> RecvMsg<'a> {
/// Iterate over the valid control messages pointed to by this
/// msghdr.
pub fn cmsgs(&self) -> CmsgIterator {
CmsgIterator(self.cmsg_buffer)
}
}
pub struct CmsgIterator<'a>(&'a [u8]);
impl<'a> Iterator for CmsgIterator<'a> {
type Item = ControlMessage<'a>;
// The implementation loosely follows CMSG_FIRSTHDR / CMSG_NXTHDR,
// although we handle the invariants in slightly different places to
// get a better iterator interface.
fn next(&mut self) -> Option<ControlMessage<'a>> {
let buf = self.0;
let sizeof_cmsghdr = mem::size_of::<cmsghdr>();
if buf.len() < sizeof_cmsghdr {
return None;
}
let cmsg: &cmsghdr = unsafe { mem::transmute(buf.as_ptr()) };
// This check is only in the glibc implementation of CMSG_NXTHDR
// (although it claims the kernel header checks this), but such
// a structure is clearly invalid, either way.
let cmsg_len = cmsg.cmsg_len as usize;
if cmsg_len < sizeof_cmsghdr {
return None;
}
let len = cmsg_len - sizeof_cmsghdr;
// Advance our internal pointer.
if cmsg_align(cmsg_len) > buf.len() {
return None;
}
self.0 = &buf[cmsg_align(cmsg_len)..];
match (cmsg.cmsg_level, cmsg.cmsg_type) {
(SOL_SOCKET, SCM_RIGHTS) => unsafe {
Some(ControlMessage::ScmRights(
slice::from_raw_parts(
&cmsg.cmsg_data as *const _ as *const _, 1)))
},
(_, _) => unsafe {
Some(ControlMessage::Unknown(UnknownCmsg(
&cmsg,
slice::from_raw_parts(
&cmsg.cmsg_data as *const _ as *const _,
len))))
}
}
}
}
/// A type-safe wrapper around a single control message. More types may
/// be added to this enum; do not exhaustively pattern-match it.
/// [Further reading](http://man7.org/linux/man-pages/man3/cmsg.3.html)
pub enum ControlMessage<'a> {
/// A message of type SCM_RIGHTS, containing an array of file
/// descriptors passed between processes. See the description in the
/// "Ancillary messages" section of the
/// [unix(7) man page](http://man7.org/linux/man-pages/man7/unix.7.html).
ScmRights(&'a [RawFd]),
#[doc(hidden)]
Unknown(UnknownCmsg<'a>),
}
// An opaque structure used to prevent cmsghdr from being a public type
#[doc(hidden)]
pub struct UnknownCmsg<'a>(&'a cmsghdr, &'a [u8]);
fn cmsg_align(len: usize) -> usize {
let align_bytes = mem::size_of::<type_of_cmsg_data>() - 1;
(len + align_bytes) & !align_bytes
}
impl<'a> ControlMessage<'a> {
/// The value of CMSG_SPACE on this message.
fn space(&self) -> usize {
cmsg_align(self.len())
}
/// The value of CMSG_LEN on this message.
fn len(&self) -> usize {
cmsg_align(mem::size_of::<cmsghdr>()) + match *self {
ControlMessage::ScmRights(fds) => {
mem::size_of_val(fds)
},
ControlMessage::Unknown(UnknownCmsg(_, bytes)) => {
mem::size_of_val(bytes)
}
}
}
// Unsafe: start and end of buffer must be size_t-aligned (that is,
// cmsg_align'd). Updates the provided slice; panics if the buffer
// is too small.
unsafe fn encode_into<'b>(&self, buf: &mut &'b mut [u8]) {
match *self {
ControlMessage::ScmRights(fds) => {
let cmsg = cmsghdr {
cmsg_len: self.len() as type_of_cmsg_len,
cmsg_level: SOL_SOCKET,
cmsg_type: SCM_RIGHTS,
cmsg_data: [],
};
copy_bytes(&cmsg, buf);
let padlen = cmsg_align(mem::size_of_val(&cmsg)) -
mem::size_of_val(&cmsg);
let mut tmpbuf = &mut [][..];
mem::swap(&mut tmpbuf, buf);
let (_padding, mut remainder) = tmpbuf.split_at_mut(padlen);
mem::swap(buf, &mut remainder);
copy_bytes(fds, buf);
},
ControlMessage::Unknown(UnknownCmsg(orig_cmsg, bytes)) => {
copy_bytes(orig_cmsg, buf);
copy_bytes(bytes, buf);
}
}
}
}
/// Send data in scatter-gather vectors to a socket, possibly accompanied
/// by ancillary data. Optionally direct the message at the given address,
/// as with sendto.
///
/// Allocates if cmsgs is nonempty.
pub fn sendmsg<'a>(fd: RawFd, iov: &[IoVec<&'a [u8]>], cmsgs: &[ControlMessage<'a>], flags: MsgFlags, addr: Option<&'a SockAddr>) -> Result<usize> {
let mut len = 0;
let mut capacity = 0;
for cmsg in cmsgs {
len += cmsg.len();
capacity += cmsg.space();
}
// Alignment hackery. Note that capacity is guaranteed to be a
// multiple of size_t. Note also that the resulting vector claims
// to have length == capacity, so it's presently uninitialized.
let mut cmsg_buffer = unsafe {
let mut vec = Vec::<u8>::with_capacity(len);
let ptr = vec.as_mut_ptr();
mem::forget(vec);
Vec::<u8>::from_raw_parts(ptr as *mut _, len, len)
};
{
let mut ptr = &mut cmsg_buffer[..];
for cmsg in cmsgs {
unsafe { cmsg.encode_into(&mut ptr) };
}
}
let (name, namelen) = match addr {
Some(addr) => { let (x, y) = unsafe { addr.as_ffi_pair() }; (x as *const _, y) }
None => (0 as *const _, 0),
};
let mhdr = msghdr {
msg_name: name as *const c_void,
msg_namelen: namelen,
msg_iov: iov.as_ptr(),
msg_iovlen: iov.len() as size_t,
msg_control: cmsg_buffer.as_ptr() as *const c_void,
msg_controllen: capacity as size_t,
msg_flags: 0,
};
let ret = unsafe { ffi::sendmsg(fd, &mhdr, flags.bits()) };
Errno::result(ret).map(|r| r as usize)
}
/// Receive message in scatter-gather vectors from a socket, and
/// optionally receive ancillary data into the provided buffer.
/// If no ancillary data is desired, use () as the type parameter.
pub fn recvmsg<'a, T>(fd: RawFd, iov: &[IoVec<&mut [u8]>], cmsg_buffer: Option<&'a mut CmsgSpace<T>>, flags: MsgFlags) -> Result<RecvMsg<'a>> {
let mut address: sockaddr_storage = unsafe { mem::uninitialized() };
let (msg_control, msg_controllen) = match cmsg_buffer {
Some(cmsg_buffer) => (cmsg_buffer as *mut _, mem::size_of_val(cmsg_buffer)),
None => (0 as *mut _, 0),
};
let mut mhdr = msghdr {
msg_name: &mut address as *const _ as *const c_void,
msg_namelen: mem::size_of::<sockaddr_storage>() as socklen_t,
msg_iov: iov.as_ptr() as *const IoVec<&[u8]>, // safe cast to add const-ness
msg_iovlen: iov.len() as size_t,
msg_control: msg_control as *const c_void,
msg_controllen: msg_controllen as size_t,
msg_flags: 0,
};
let ret = unsafe { ffi::recvmsg(fd, &mut mhdr, flags.bits()) };
Ok(unsafe { RecvMsg {
bytes: try!(Errno::result(ret)) as usize,
cmsg_buffer: slice::from_raw_parts(mhdr.msg_control as *const u8,
mhdr.msg_controllen as usize),
address: sockaddr_storage_to_addr(&address,
mhdr.msg_namelen as usize).ok(),
flags: MsgFlags::from_bits_truncate(mhdr.msg_flags),
} })
}
/// Create an endpoint for communication
///
/// [Further reading](http://man7.org/linux/man-pages/man2/socket.2.html)
pub fn socket(domain: AddressFamily, ty: SockType, flags: SockFlag, protocol: c_int) -> Result<RawFd> {
let mut ty = ty as c_int;
let feat_atomic = features::socket_atomic_cloexec();
if feat_atomic {
ty = ty | flags.bits();
}
// TODO: Check the kernel version
let res = try!(Errno::result(unsafe { ffi::socket(domain as c_int, ty, protocol) }));
if !feat_atomic {
if flags.contains(SOCK_CLOEXEC) {
try!(fcntl(res, F_SETFD(FD_CLOEXEC)));
}
if flags.contains(SOCK_NONBLOCK) {
try!(fcntl(res, F_SETFL(O_NONBLOCK)));
}
}
Ok(res)
}
/// Create a pair of connected sockets
///
/// [Further reading](http://man7.org/linux/man-pages/man2/socketpair.2.html)
pub fn socketpair(domain: AddressFamily, ty: SockType, protocol: c_int,
flags: SockFlag) -> Result<(RawFd, RawFd)> {
let mut ty = ty as c_int;
let feat_atomic = features::socket_atomic_cloexec();
if feat_atomic {
ty = ty | flags.bits();
}
let mut fds = [-1, -1];
let res = unsafe {
ffi::socketpair(domain as c_int, ty, protocol, fds.as_mut_ptr())
};
try!(Errno::result(res));
if !feat_atomic {
if flags.contains(SOCK_CLOEXEC) {
try!(fcntl(fds[0], F_SETFD(FD_CLOEXEC)));
try!(fcntl(fds[1], F_SETFD(FD_CLOEXEC)));
}
if flags.contains(SOCK_NONBLOCK) {
try!(fcntl(fds[0], F_SETFL(O_NONBLOCK)));
try!(fcntl(fds[1], F_SETFL(O_NONBLOCK)));
}
}
Ok((fds[0], fds[1]))
}
/// Listen for connections on a socket
///
/// [Further reading](http://man7.org/linux/man-pages/man2/listen.2.html)
pub fn listen(sockfd: RawFd, backlog: usize) -> Result<()> {
let res = unsafe { ffi::listen(sockfd, backlog as c_int) };
Errno::result(res).map(drop)
}
/// Bind a name to a socket
///
/// [Further reading](http://man7.org/linux/man-pages/man2/bind.2.html)
pub fn bind(fd: RawFd, addr: &SockAddr) -> Result<()> {
let res = unsafe {
let (ptr, len) = addr.as_ffi_pair();
ffi::bind(fd, ptr, len)
};
Errno::result(res).map(drop)
}
/// Accept a connection on a socket
///
/// [Further reading](http://man7.org/linux/man-pages/man2/accept.2.html)
pub fn accept(sockfd: RawFd) -> Result<RawFd> {
let res = unsafe { ffi::accept(sockfd, ptr::null_mut(), ptr::null_mut()) };
Errno::result(res)
}
/// Accept a connection on a socket
///
/// [Further reading](http://man7.org/linux/man-pages/man2/accept.2.html)
pub fn accept4(sockfd: RawFd, flags: SockFlag) -> Result<RawFd> {
accept4_polyfill(sockfd, flags)
}
#[inline]
fn accept4_polyfill(sockfd: RawFd, flags: SockFlag) -> Result<RawFd> {
let res = try!(Errno::result(unsafe { ffi::accept(sockfd, ptr::null_mut(), ptr::null_mut()) }));
if flags.contains(SOCK_CLOEXEC) {
try!(fcntl(res, F_SETFD(FD_CLOEXEC)));
}
if flags.contains(SOCK_NONBLOCK) {
try!(fcntl(res, F_SETFL(O_NONBLOCK)));
}
Ok(res)
}
/// Initiate a connection on a socket
///
/// [Further reading](http://man7.org/linux/man-pages/man2/connect.2.html)
pub fn connect(fd: RawFd, addr: &SockAddr) -> Result<()> {
let res = unsafe {
let (ptr, len) = addr.as_ffi_pair();
ffi::connect(fd, ptr, len)
};
Errno::result(res).map(drop)
}
/// Receive data from a connection-oriented socket. Returns the number of
/// bytes read
///
/// [Further reading](http://man7.org/linux/man-pages/man2/recv.2.html)
pub fn recv(sockfd: RawFd, buf: &mut [u8], flags: MsgFlags) -> Result<usize> {
unsafe {
let ret = ffi::recv(
sockfd,
buf.as_ptr() as *mut c_void,
buf.len() as size_t,
flags.bits());
Errno::result(ret).map(|r| r as usize)
}
}
/// Receive data from a connectionless or connection-oriented socket. Returns
/// the number of bytes read and the socket address of the sender.
///
/// [Further reading](http://man7.org/linux/man-pages/man2/recvmsg.2.html)
pub fn recvfrom(sockfd: RawFd, buf: &mut [u8]) -> Result<(usize, SockAddr)> {
unsafe {
let addr: sockaddr_storage = mem::zeroed();
let mut len = mem::size_of::<sockaddr_storage>() as socklen_t;
let ret = try!(Errno::result(ffi::recvfrom(
sockfd,
buf.as_ptr() as *mut c_void,
buf.len() as size_t,
0,
mem::transmute(&addr),
&mut len as *mut socklen_t)));
sockaddr_storage_to_addr(&addr, len as usize)
.map(|addr| (ret as usize, addr))
}
}
pub fn sendto(fd: RawFd, buf: &[u8], addr: &SockAddr, flags: MsgFlags) -> Result<usize> {
let ret = unsafe {
let (ptr, len) = addr.as_ffi_pair();
ffi::sendto(fd, buf.as_ptr() as *const c_void, buf.len() as size_t, flags.bits(), ptr, len)
};
Errno::result(ret).map(|r| r as usize)
}
/// Send data to a connection-oriented socket. Returns the number of bytes read
///
/// [Further reading](http://man7.org/linux/man-pages/man2/send.2.html)
pub fn send(fd: RawFd, buf: &[u8], flags: MsgFlags) -> Result<usize> {
let ret = unsafe {
ffi::send(fd, buf.as_ptr() as *const c_void, buf.len() as size_t, flags.bits())
};
Errno::result(ret).map(|r| r as usize)
}
#[repr(C)]
#[derive(Clone, Copy, Debug)]
pub struct linger {
pub l_onoff: c_int,
pub l_linger: c_int
}
#[repr(C)]
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub struct ucred {
pid: pid_t,
uid: uid_t,
gid: gid_t,
}
/*
*
* ===== Socket Options =====
*
*/
/// The protocol level at which to get / set socket options. Used as an
/// argument to `getsockopt` and `setsockopt`.
///
/// [Further reading](http://man7.org/linux/man-pages/man2/setsockopt.2.html)
#[repr(i32)]
pub enum SockLevel {
Socket = SOL_SOCKET,
Tcp = IPPROTO_TCP,
Ip = IPPROTO_IP,
Ipv6 = IPPROTO_IPV6,
Udp = IPPROTO_UDP,
#[cfg(any(target_os = "linux", target_os = "android"))]
Netlink = SOL_NETLINK,
}
/// Represents a socket option that can be accessed or set. Used as an argument
/// to `getsockopt`
pub trait GetSockOpt : Copy {
type Val;
#[doc(hidden)]
fn get(&self, fd: RawFd) -> Result<Self::Val>;
}
/// Represents a socket option that can be accessed or set. Used as an argument
/// to `setsockopt`
pub trait SetSockOpt : Copy {
type Val;
#[doc(hidden)]
fn set(&self, fd: RawFd, val: &Self::Val) -> Result<()>;
}
/// Get the current value for the requested socket option
///
/// [Further reading](http://man7.org/linux/man-pages/man2/getsockopt.2.html)
pub fn getsockopt<O: GetSockOpt>(fd: RawFd, opt: O) -> Result<O::Val> {
opt.get(fd)
}
/// Sets the value for the requested socket option
///
/// [Further reading](http://man7.org/linux/man-pages/man2/setsockopt.2.html)
pub fn setsockopt<O: SetSockOpt>(fd: RawFd, opt: O, val: &O::Val) -> Result<()> {
opt.set(fd, val)
}
/// Get the address of the peer connected to the socket `fd`.
///
/// [Further reading](http://man7.org/linux/man-pages/man2/getpeername.2.html)
pub fn getpeername(fd: RawFd) -> Result<SockAddr> {
unsafe {
let addr: sockaddr_storage = mem::uninitialized();
let mut len = mem::size_of::<sockaddr_storage>() as socklen_t;
let ret = ffi::getpeername(fd, mem::transmute(&addr), &mut len);
try!(Errno::result(ret));
sockaddr_storage_to_addr(&addr, len as usize)
}
}
/// Get the current address to which the socket `fd` is bound.
///
/// [Further reading](http://man7.org/linux/man-pages/man2/getsockname.2.html)
pub fn getsockname(fd: RawFd) -> Result<SockAddr> {
unsafe {
let addr: sockaddr_storage = mem::uninitialized();
let mut len = mem::size_of::<sockaddr_storage>() as socklen_t;
let ret = ffi::getsockname(fd, mem::transmute(&addr), &mut len);
try!(Errno::result(ret));
sockaddr_storage_to_addr(&addr, len as usize)
}
}
/// Return the appropriate SockAddr type from a `sockaddr_storage` of a certain
/// size. In C this would usually be done by casting. The `len` argument
/// should be the number of bytes in the sockaddr_storage that are actually
/// allocated and valid. It must be at least as large as all the useful parts
/// of the structure. Note that in the case of a `sockaddr_un`, `len` need not
/// include the terminating null.
pub unsafe fn sockaddr_storage_to_addr(
addr: &sockaddr_storage,
len: usize) -> Result<SockAddr> {
if len < mem::size_of_val(&addr.ss_family) {
return Err(Error::Sys(Errno::ENOTCONN));
}
match addr.ss_family as c_int {
consts::AF_INET => {
assert!(len as usize == mem::size_of::<sockaddr_in>());
let ret = *(addr as *const _ as *const sockaddr_in);
Ok(SockAddr::Inet(InetAddr::V4(ret)))
}
consts::AF_INET6 => {
assert!(len as usize == mem::size_of::<sockaddr_in6>());
Ok(SockAddr::Inet(InetAddr::V6((*(addr as *const _ as *const sockaddr_in6)))))
}
consts::AF_UNIX => {
let sun = *(addr as *const _ as *const sockaddr_un);
let pathlen = len - offset_of!(sockaddr_un, sun_path);
Ok(SockAddr::Unix(UnixAddr(sun, pathlen)))
}
#[cfg(any(target_os = "linux", target_os = "android"))]
consts::AF_NETLINK => {
use libc::sockaddr_nl;
Ok(SockAddr::Netlink(NetlinkAddr(*(addr as *const _ as *const sockaddr_nl))))
}
af => panic!("unexpected address family {}", af),
}
}
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub enum Shutdown {
/// Further receptions will be disallowed.
Read,
/// Further transmissions will be disallowed.
Write,
/// Further receptions and transmissions will be disallowed.
Both,
}
/// Shut down part of a full-duplex connection.
///
/// [Further reading](http://man7.org/linux/man-pages/man2/shutdown.2.html)
pub fn shutdown(df: RawFd, how: Shutdown) -> Result<()> {
unsafe {
use libc::shutdown;
let how = match how {
Shutdown::Read => consts::SHUT_RD,
Shutdown::Write => consts::SHUT_WR,
Shutdown::Both => consts::SHUT_RDWR,
};
Errno::result(shutdown(df, how)).map(drop)
}
}
#[test]
pub fn test_struct_sizes() {
use nixtest;
nixtest::assert_size_of::<sockaddr_storage>("sockaddr_storage");
}
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