use crate::common::lock::{PyRwLock, PyRwLockReadGuard, PyRwLockWriteGuard}; use std::io::{self, prelude::*}; use std::net::{IpAddr, Ipv4Addr, Ipv6Addr, Shutdown, SocketAddr, ToSocketAddrs}; use std::time::Duration; use byteorder::{BigEndian, ByteOrder}; use crossbeam_utils::atomic::AtomicCell; use gethostname::gethostname; #[cfg(all(unix, not(target_os = "redox")))] use nix::unistd::sethostname; use socket2::{Domain, Protocol, Socket, Type as SocketType}; use crate::byteslike::PyBytesLike; use crate::exceptions::{IntoPyException, PyBaseExceptionRef}; use crate::function::{OptionalArg, PyFuncArgs}; use crate::obj::objbytearray::PyByteArrayRef; use crate::obj::objbytes::PyBytesRef; use crate::obj::objstr::{PyStr, PyStrRef}; use crate::obj::objtuple::PyTupleRef; use crate::obj::objtype::PyTypeRef; use crate::pyobject::{ BorrowValue, Either, IntoPyObject, PyClassImpl, PyObjectRef, PyRef, PyResult, PyValue, TryFromObject, }; use crate::vm::VirtualMachine; #[cfg(unix)] type RawSocket = std::os::unix::io::RawFd; #[cfg(windows)] type RawSocket = std::os::windows::raw::SOCKET; #[cfg(unix)] mod c { pub use libc::*; // https://gitlab.redox-os.org/redox-os/relibc/-/blob/master/src/header/netdb/mod.rs #[cfg(target_os = "redox")] pub const AI_PASSIVE: c_int = 0x01; #[cfg(target_os = "redox")] pub const AI_ALL: c_int = 0x10; // https://gitlab.redox-os.org/redox-os/relibc/-/blob/master/src/header/sys_socket/constants.rs #[cfg(target_os = "redox")] pub const SO_TYPE: c_int = 3; #[cfg(target_os = "redox")] pub const MSG_OOB: c_int = 1; #[cfg(target_os = "redox")] pub const MSG_WAITALL: c_int = 256; } #[cfg(windows)] mod c { pub use winapi::shared::ws2def::*; pub use winapi::um::winsock2::{ SD_BOTH as SHUT_RDWR, SD_RECEIVE as SHUT_RD, SD_SEND as SHUT_WR, SOCK_DGRAM, SOCK_RAW, SOCK_RDM, SOCK_STREAM, SOL_SOCKET, SO_BROADCAST, SO_REUSEADDR, SO_TYPE, *, }; } #[pyclass(module = "socket", name = "socket")] #[derive(Debug)] pub struct PySocket { kind: AtomicCell, family: AtomicCell, proto: AtomicCell, sock: PyRwLock, } impl PyValue for PySocket { fn class(vm: &VirtualMachine) -> PyTypeRef { vm.class("_socket", "socket") } } pub type PySocketRef = PyRef; #[pyimpl(flags(BASETYPE))] impl PySocket { fn sock(&self) -> PyRwLockReadGuard<'_, Socket> { self.sock.read() } fn sock_mut(&self) -> PyRwLockWriteGuard<'_, Socket> { self.sock.write() } #[pyslot] fn tp_new(cls: PyTypeRef, _args: PyFuncArgs, vm: &VirtualMachine) -> PyResult> { PySocket { kind: AtomicCell::default(), family: AtomicCell::default(), proto: AtomicCell::default(), sock: PyRwLock::new(invalid_sock()), } .into_ref_with_type(vm, cls) } #[pymethod(name = "__init__")] fn init( &self, family: i32, socket_kind: i32, proto: i32, fileno: Option, vm: &VirtualMachine, ) -> PyResult<()> { let sock = if let Some(fileno) = fileno { #[cfg(unix)] { use std::os::unix::io::FromRawFd; unsafe { Socket::from_raw_fd(fileno) } } #[cfg(windows)] { use std::os::windows::io::FromRawSocket; unsafe { Socket::from_raw_socket(fileno) } } } else { let sock = Socket::new( Domain::from(family), SocketType::from(socket_kind), Some(Protocol::from(proto)), ) .map_err(|err| convert_sock_error(vm, err))?; self.family.store(family); self.kind.store(socket_kind); self.proto.store(proto); sock }; *self.sock.write() = sock; Ok(()) } #[pymethod] fn connect(&self, address: Address, vm: &VirtualMachine) -> PyResult<()> { let sock_addr = get_addr(vm, address)?; let res = if let Some(duration) = self.sock().read_timeout().unwrap() { self.sock().connect_timeout(&sock_addr, duration) } else { self.sock().connect(&sock_addr) }; res.map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn bind(&self, address: Address, vm: &VirtualMachine) -> PyResult<()> { let sock_addr = get_addr(vm, address)?; self.sock() .bind(&sock_addr) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn listen(&self, backlog: OptionalArg, vm: &VirtualMachine) -> PyResult<()> { let backlog = backlog.unwrap_or(128); let backlog = if backlog < 0 { 0 } else { backlog }; self.sock() .listen(backlog) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn _accept(&self, vm: &VirtualMachine) -> PyResult<(RawSocket, AddrTuple)> { let (sock, addr) = self .sock() .accept() .map_err(|err| convert_sock_error(vm, err))?; let fd = into_sock_fileno(sock); Ok((fd, get_addr_tuple(addr))) } #[pymethod] fn recv(&self, bufsize: usize, vm: &VirtualMachine) -> PyResult> { let mut buffer = vec![0u8; bufsize]; let n = self .sock() .recv(&mut buffer) .map_err(|err| convert_sock_error(vm, err))?; buffer.truncate(n); Ok(buffer) } #[pymethod] fn recv_into(&self, buf: PyByteArrayRef, vm: &VirtualMachine) -> PyResult { let mut buffer = buf.borrow_value_mut(); self.sock() .recv(&mut buffer.elements) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn recvfrom(&self, bufsize: usize, vm: &VirtualMachine) -> PyResult<(Vec, AddrTuple)> { let mut buffer = vec![0u8; bufsize]; let (n, addr) = self .sock() .recv_from(&mut buffer) .map_err(|err| convert_sock_error(vm, err))?; buffer.truncate(n); Ok((buffer, get_addr_tuple(addr))) } #[pymethod] fn send(&self, bytes: PyBytesLike, vm: &VirtualMachine) -> PyResult { bytes .with_ref(|b| self.sock().send(b)) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn sendall(&self, bytes: PyBytesLike, vm: &VirtualMachine) -> PyResult<()> { bytes .with_ref(|b| self.sock_mut().write_all(b)) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn sendto(&self, bytes: PyBytesLike, address: Address, vm: &VirtualMachine) -> PyResult<()> { let addr = get_addr(vm, address)?; bytes .with_ref(|b| self.sock().send_to(b, &addr)) .map_err(|err| convert_sock_error(vm, err))?; Ok(()) } #[pymethod] fn close(&self) { *self.sock_mut() = invalid_sock(); } #[pymethod] fn detach(&self) -> RawSocket { into_sock_fileno(std::mem::replace(&mut *self.sock_mut(), invalid_sock())) } #[pymethod] fn fileno(&self) -> RawSocket { sock_fileno(&self.sock()) } #[pymethod] fn getsockname(&self, vm: &VirtualMachine) -> PyResult { let addr = self .sock() .local_addr() .map_err(|err| convert_sock_error(vm, err))?; Ok(get_addr_tuple(addr)) } #[pymethod] fn getpeername(&self, vm: &VirtualMachine) -> PyResult { let addr = self .sock() .peer_addr() .map_err(|err| convert_sock_error(vm, err))?; Ok(get_addr_tuple(addr)) } #[pymethod] fn gettimeout(&self, vm: &VirtualMachine) -> PyResult> { let dur = self .sock() .read_timeout() .map_err(|err| convert_sock_error(vm, err))?; Ok(dur.map(|d| d.as_secs_f64())) } #[pymethod] fn setblocking(&self, block: bool, vm: &VirtualMachine) -> PyResult<()> { self.sock() .set_nonblocking(!block) .map_err(|err| convert_sock_error(vm, err)) } #[pymethod] fn getblocking(&self, vm: &VirtualMachine) -> PyResult { Ok(self.gettimeout(vm)?.map_or(false, |t| t == 0.0)) } #[pymethod] fn settimeout(&self, timeout: Option, vm: &VirtualMachine) -> PyResult<()> { // timeout is None: blocking, no timeout // timeout is 0: non-blocking, no timeout // otherwise: timeout is timeout, don't change blocking let (block, timeout) = match timeout { None => (Some(true), None), Some(d) if d == Duration::from_secs(0) => (Some(false), None), Some(d) => (None, Some(d)), }; self.sock() .set_read_timeout(timeout) .map_err(|err| convert_sock_error(vm, err))?; self.sock() .set_write_timeout(timeout) .map_err(|err| convert_sock_error(vm, err))?; if let Some(blocking) = block { self.sock() .set_nonblocking(!blocking) .map_err(|err| convert_sock_error(vm, err))?; } Ok(()) } #[pymethod] fn getsockopt( &self, level: i32, name: i32, buflen: OptionalArg, vm: &VirtualMachine, ) -> PyResult { let fd = sock_fileno(&self.sock()) as _; let buflen = buflen.unwrap_or(0); if buflen == 0 { let mut flag: libc::c_int = 0; let mut flagsize = std::mem::size_of::() as _; let ret = unsafe { c::getsockopt( fd, level, name, &mut flag as *mut libc::c_int as *mut _, &mut flagsize, ) }; if ret < 0 { Err(convert_sock_error(vm, io::Error::last_os_error())) } else { Ok(vm.ctx.new_int(flag)) } } else { if buflen <= 0 || buflen > 1024 { return Err(vm.new_os_error("getsockopt buflen out of range".to_owned())); } let mut buf = vec![0u8; buflen as usize]; let mut buflen = buflen as _; let ret = unsafe { c::getsockopt(fd, level, name, buf.as_mut_ptr() as *mut _, &mut buflen) }; buf.truncate(buflen as usize); if ret < 0 { Err(convert_sock_error(vm, io::Error::last_os_error())) } else { Ok(vm.ctx.new_bytes(buf)) } } } #[pymethod] fn setsockopt( &self, level: i32, name: i32, value: Option>, optlen: OptionalArg, vm: &VirtualMachine, ) -> PyResult<()> { let fd = sock_fileno(&self.sock()) as _; let ret = match (value, optlen) { (Some(Either::A(b)), OptionalArg::Missing) => b.with_ref(|b| unsafe { c::setsockopt(fd, level, name, b.as_ptr() as *const _, b.len() as _) }), (Some(Either::B(ref val)), OptionalArg::Missing) => unsafe { c::setsockopt( fd, level, name, val as *const i32 as *const _, std::mem::size_of::() as _, ) }, (None, OptionalArg::Present(optlen)) => unsafe { c::setsockopt(fd, level, name, std::ptr::null(), optlen as _) }, _ => { return Err( vm.new_type_error("expected the value arg xor the optlen arg".to_owned()) ); } }; if ret < 0 { Err(convert_sock_error(vm, io::Error::last_os_error())) } else { Ok(()) } } #[pymethod] fn shutdown(&self, how: i32, vm: &VirtualMachine) -> PyResult<()> { let how = match how { c::SHUT_RD => Shutdown::Read, c::SHUT_WR => Shutdown::Write, c::SHUT_RDWR => Shutdown::Both, _ => { return Err( vm.new_value_error("`how` must be SHUT_RD, SHUT_WR, or SHUT_RDWR".to_owned()) ) } }; self.sock() .shutdown(how) .map_err(|err| convert_sock_error(vm, err)) } #[pyproperty(name = "type")] fn kind(&self) -> i32 { self.kind.load() } #[pyproperty] fn family(&self) -> i32 { self.family.load() } #[pyproperty] fn proto(&self) -> i32 { self.proto.load() } } impl io::Read for PySocketRef { fn read(&mut self, buf: &mut [u8]) -> io::Result { ::read(&mut self.sock_mut(), buf) } } impl io::Write for PySocketRef { fn write(&mut self, buf: &[u8]) -> io::Result { ::write(&mut self.sock_mut(), buf) } fn flush(&mut self) -> io::Result<()> { ::flush(&mut self.sock_mut()) } } struct Address { host: PyStrRef, port: u16, } impl ToSocketAddrs for Address { type Iter = std::vec::IntoIter; fn to_socket_addrs(&self) -> io::Result { (self.host.borrow_value(), self.port).to_socket_addrs() } } impl TryFromObject for Address { fn try_from_object(vm: &VirtualMachine, obj: PyObjectRef) -> PyResult { let tuple = PyTupleRef::try_from_object(vm, obj)?; if tuple.borrow_value().len() != 2 { Err(vm.new_type_error("Address tuple should have only 2 values".to_owned())) } else { let host = PyStrRef::try_from_object(vm, tuple.borrow_value()[0].clone())?; let host = if host.borrow_value().is_empty() { PyStr::from("0.0.0.0").into_ref(vm) } else { host }; let port = u16::try_from_object(vm, tuple.borrow_value()[1].clone())?; Ok(Address { host, port }) } } } type AddrTuple = (String, u16); fn get_addr_tuple>(addr: A) -> AddrTuple { let addr = addr.into(); if let Some(addr) = addr.as_inet() { (addr.ip().to_string(), addr.port()) } else if let Some(addr) = addr.as_inet6() { (addr.ip().to_string(), addr.port()) } else { (String::new(), 0) } } fn socket_gethostname(vm: &VirtualMachine) -> PyResult { gethostname() .into_string() .map(|hostname| vm.ctx.new_str(hostname)) .map_err(|err| vm.new_os_error(err.into_string().unwrap())) } #[cfg(all(unix, not(target_os = "redox")))] fn socket_sethostname(hostname: PyStrRef, vm: &VirtualMachine) -> PyResult<()> { sethostname(hostname.borrow_value()).map_err(|err| err.into_pyexception(vm)) } fn socket_inet_aton(ip_string: PyStrRef, vm: &VirtualMachine) -> PyResult { ip_string .borrow_value() .parse::() .map(|ip_addr| vm.ctx.new_bytes(ip_addr.octets().to_vec())) .map_err(|_| vm.new_os_error("illegal IP address string passed to inet_aton".to_owned())) } fn socket_inet_ntoa(packed_ip: PyBytesRef, vm: &VirtualMachine) -> PyResult { if packed_ip.len() != 4 { return Err(vm.new_os_error("packed IP wrong length for inet_ntoa".to_owned())); } let ip_num = BigEndian::read_u32(&packed_ip); Ok(vm.ctx.new_str(Ipv4Addr::from(ip_num).to_string())) } fn socket_getservbyname( servicename: PyStrRef, protocolname: OptionalArg, vm: &VirtualMachine, ) -> PyResult { use std::ffi::CString; let cstr_name = CString::new(servicename.borrow_value()) .map_err(|_| vm.new_value_error("embedded null character".to_owned()))?; let protocolname = protocolname.as_ref().map_or("", |s| s.borrow_value()); let cstr_proto = CString::new(protocolname) .map_err(|_| vm.new_value_error("embedded null character".to_owned()))?; let serv = unsafe { c::getservbyname(cstr_name.as_ptr(), cstr_proto.as_ptr()) }; if serv.is_null() { return Err(vm.new_os_error("service/proto not found".to_owned())); } let port = unsafe { (*serv).s_port }; Ok(vm.ctx.new_int(u16::from_be(port as u16))) } #[derive(FromArgs)] struct GAIOptions { #[pyarg(positional)] host: Option, #[pyarg(positional)] port: Option>, #[pyarg(positional, default = "0")] family: i32, #[pyarg(positional, default = "0")] ty: i32, #[pyarg(positional, default = "0")] proto: i32, #[pyarg(positional, default = "0")] flags: i32, } #[cfg(not(target_os = "redox"))] fn socket_getaddrinfo(opts: GAIOptions, vm: &VirtualMachine) -> PyResult { let hints = dns_lookup::AddrInfoHints { socktype: opts.ty, protocol: opts.proto, address: opts.family, flags: opts.flags, }; let host = opts.host.as_ref().map(|s| s.borrow_value()); let port = opts.port.as_ref().map(|p| -> std::borrow::Cow { match p { Either::A(ref s) => s.borrow_value().into(), Either::B(i) => i.to_string().into(), } }); let port = port.as_ref().map(|p| p.as_ref()); let addrs = dns_lookup::getaddrinfo(host, port, Some(hints)).map_err(|err| { let error_type = vm.class("_socket", "gaierror"); vm.new_exception_msg(error_type, io::Error::from(err).to_string()) })?; let list = addrs .map(|ai| { ai.map(|ai| { vm.ctx.new_tuple(vec![ vm.ctx.new_int(ai.address), vm.ctx.new_int(ai.socktype), vm.ctx.new_int(ai.protocol), ai.canonname.into_pyobject(vm), get_addr_tuple(ai.sockaddr).into_pyobject(vm), ]) }) }) .collect::>>() .map_err(|e| convert_sock_error(vm, e))?; Ok(vm.ctx.new_list(list)) } #[cfg(not(target_os = "redox"))] fn socket_gethostbyaddr( addr: PyStrRef, vm: &VirtualMachine, ) -> PyResult<(String, PyObjectRef, PyObjectRef)> { // TODO: figure out how to do this properly let ai = dns_lookup::getaddrinfo(Some(addr.borrow_value()), None, None) .map_err(|e| convert_sock_error(vm, e.into()))? .next() .unwrap() .map_err(|e| convert_sock_error(vm, e))?; let (hostname, _) = dns_lookup::getnameinfo(&ai.sockaddr, 0).map_err(|e| convert_sock_error(vm, e.into()))?; Ok(( hostname, vm.ctx.new_list(vec![]), vm.ctx .new_list(vec![vm.ctx.new_str(ai.sockaddr.ip().to_string())]), )) } #[cfg(not(target_os = "redox"))] fn socket_gethostbyname(name: PyStrRef, vm: &VirtualMachine) -> PyResult { match socket_gethostbyaddr(name, vm) { Ok((_, _, hosts)) => { let lst = vm.extract_elements::(&hosts)?; Ok(lst.get(0).unwrap().to_string()) } Err(_) => { let error_type = vm.class("_socket", "gaierror"); Err(vm.new_exception_msg( error_type, "nodename nor servname provided, or not known".to_owned(), )) } } } fn socket_inet_pton(af_inet: i32, ip_string: PyStrRef, vm: &VirtualMachine) -> PyResult { match af_inet { c::AF_INET => ip_string .borrow_value() .parse::() .map(|ip_addr| vm.ctx.new_bytes(ip_addr.octets().to_vec())) .map_err(|_| { vm.new_os_error("illegal IP address string passed to inet_pton".to_owned()) }), c::AF_INET6 => ip_string .borrow_value() .parse::() .map(|ip_addr| vm.ctx.new_bytes(ip_addr.octets().to_vec())) .map_err(|_| { vm.new_os_error("illegal IP address string passed to inet_pton".to_owned()) }), _ => Err(vm.new_os_error("Address family not supported by protocol".to_owned())), } } fn socket_inet_ntop(af_inet: i32, packed_ip: PyBytesRef, vm: &VirtualMachine) -> PyResult { match af_inet { c::AF_INET => { if packed_ip.len() != 4 { return Err( vm.new_value_error("invalid length of packed IP address string".to_owned()) ); } let ip_num = BigEndian::read_u32(&packed_ip); Ok(vm.ctx.new_str(Ipv4Addr::from(ip_num).to_string())) } c::AF_INET6 => { if packed_ip.len() != 16 { return Err( vm.new_value_error("invalid length of packed IP address string".to_owned()) ); } let mut iter = packed_ip.iter(); let mut ip_num: u128 = *iter.next().unwrap() as u128; for item in iter { ip_num <<= 8; ip_num |= *item as u128 } let ipv6 = Ipv6Addr::from(ip_num); Ok(vm.ctx.new_str(get_ipv6_addr_str(ipv6))) } _ => Err(vm.new_value_error(format!("unknown address family {}", af_inet))), } } fn socket_getprotobyname(name: PyStrRef, vm: &VirtualMachine) -> PyResult { use std::ffi::CString; let cstr = CString::new(name.borrow_value()) .map_err(|_| vm.new_value_error("embedded null character".to_owned()))?; let proto = unsafe { c::getprotobyname(cstr.as_ptr()) }; if proto.is_null() { return Err(vm.new_os_error("protocol not found".to_owned())); } let num = unsafe { (*proto).p_proto }; Ok(vm.ctx.new_int(num)) } fn socket_getnameinfo( address: Address, flags: i32, vm: &VirtualMachine, ) -> PyResult<(String, String)> { let addr = get_addr(vm, address)?; let nameinfo = addr .as_std() .and_then(|addr| dns_lookup::getnameinfo(&addr, flags).ok()); nameinfo.ok_or_else(|| { let error_type = vm.class("_socket", "gaierror"); vm.new_exception_msg( error_type, "nodename nor servname provided, or not known".to_owned(), ) }) } fn get_addr(vm: &VirtualMachine, addr: impl ToSocketAddrs) -> PyResult { match addr.to_socket_addrs() { Ok(mut sock_addrs) => { if let Some(mut addr) = sock_addrs.next() { if option_env!("RUSTPYTHON_NO_IPV6").is_some() { while addr.ip() == IpAddr::V6(Ipv6Addr::LOCALHOST) { if let Some(other) = sock_addrs.next() { addr = other } else { break; } } } Ok(addr.into()) } else { let error_type = vm.class("_socket", "gaierror"); Err(vm.new_exception_msg( error_type, "nodename nor servname provided, or not known".to_owned(), )) } } Err(e) => { let error_type = vm.class("_socket", "gaierror"); Err(vm.new_exception_msg(error_type, e.to_string())) } } } fn sock_fileno(sock: &Socket) -> RawSocket { #[cfg(unix)] { use std::os::unix::io::AsRawFd; sock.as_raw_fd() } #[cfg(windows)] { use std::os::windows::io::AsRawSocket; sock.as_raw_socket() } } fn into_sock_fileno(sock: Socket) -> RawSocket { #[cfg(unix)] { use std::os::unix::io::IntoRawFd; sock.into_raw_fd() } #[cfg(windows)] { use std::os::windows::io::IntoRawSocket; sock.into_raw_socket() } } fn invalid_sock() -> Socket { #[cfg(unix)] { use std::os::unix::io::FromRawFd; unsafe { Socket::from_raw_fd(-1) } } #[cfg(windows)] { use std::os::windows::io::FromRawSocket; unsafe { Socket::from_raw_socket(winapi::um::winsock2::INVALID_SOCKET as RawSocket) } } } fn convert_sock_error(vm: &VirtualMachine, err: io::Error) -> PyBaseExceptionRef { if err.kind() == io::ErrorKind::TimedOut { let socket_timeout = vm.class("_socket", "timeout"); vm.new_exception_msg(socket_timeout, "Timed out".to_owned()) } else { err.into_pyexception(vm) } } fn get_ipv6_addr_str(ipv6: Ipv6Addr) -> String { match ipv6.to_ipv4() { Some(_) => { let segments = ipv6.segments(); if segments[5] == 0 && segments[6] == 0 { format!("::{:x}", segments[7] as u32) } else { ipv6.to_string() } } None => ipv6.to_string(), } } pub fn make_module(vm: &VirtualMachine) -> PyObjectRef { let ctx = &vm.ctx; let socket_timeout = ctx.new_class( "socket.timeout", vm.ctx.exceptions.os_error.clone(), Default::default(), ); let socket_gaierror = ctx.new_class( "socket.gaierror", vm.ctx.exceptions.os_error.clone(), Default::default(), ); let module = py_module!(vm, "_socket", { "socket" => PySocket::make_class(ctx), "error" => ctx.exceptions.os_error.clone(), "timeout" => socket_timeout, "gaierror" => socket_gaierror, "inet_aton" => ctx.new_function(socket_inet_aton), "inet_ntoa" => ctx.new_function(socket_inet_ntoa), "gethostname" => ctx.new_function(socket_gethostname), "htonl" => ctx.new_function(u32::to_be), "htons" => ctx.new_function(u16::to_be), "ntohl" => ctx.new_function(u32::from_be), "ntohs" => ctx.new_function(u16::from_be), "getdefaulttimeout" => ctx.new_function(|vm: &VirtualMachine| vm.ctx.none()), "has_ipv6" => ctx.new_bool(false), "inet_pton" => ctx.new_function(socket_inet_pton), "inet_ntop" => ctx.new_function(socket_inet_ntop), "getprotobyname" => ctx.new_function(socket_getprotobyname), "getnameinfo" => ctx.new_function(socket_getnameinfo), "getservbyname" => ctx.new_function(socket_getservbyname), // constants "AF_UNSPEC" => ctx.new_int(0), "AF_INET" => ctx.new_int(c::AF_INET), "AF_INET6" => ctx.new_int(c::AF_INET6), "SOCK_STREAM" => ctx.new_int(c::SOCK_STREAM), "SOCK_DGRAM" => ctx.new_int(c::SOCK_DGRAM), "SHUT_RD" => ctx.new_int(c::SHUT_RD), "SHUT_WR" => ctx.new_int(c::SHUT_WR), "SHUT_RDWR" => ctx.new_int(c::SHUT_RDWR), "MSG_PEEK" => ctx.new_int(c::MSG_PEEK), "MSG_OOB" => ctx.new_int(c::MSG_OOB), "MSG_WAITALL" => ctx.new_int(c::MSG_WAITALL), "IPPROTO_TCP" => ctx.new_int(c::IPPROTO_TCP), "IPPROTO_UDP" => ctx.new_int(c::IPPROTO_UDP), "IPPROTO_IP" => ctx.new_int(c::IPPROTO_IP), "IPPROTO_IPIP" => ctx.new_int(c::IPPROTO_IP), "IPPROTO_IPV6" => ctx.new_int(c::IPPROTO_IPV6), "SOL_SOCKET" => ctx.new_int(c::SOL_SOCKET), "SO_REUSEADDR" => ctx.new_int(c::SO_REUSEADDR), "SO_TYPE" => ctx.new_int(c::SO_TYPE), "SO_BROADCAST" => ctx.new_int(c::SO_BROADCAST), // "SO_EXCLUSIVEADDRUSE" => ctx.new_int(c::SO_EXCLUSIVEADDRUSE), "TCP_NODELAY" => ctx.new_int(c::TCP_NODELAY), "AI_ALL" => ctx.new_int(c::AI_ALL), "AI_PASSIVE" => ctx.new_int(c::AI_PASSIVE), "NI_NAMEREQD" => ctx.new_int(c::NI_NAMEREQD), "NI_NOFQDN" => ctx.new_int(c::NI_NOFQDN), "NI_NUMERICHOST" => ctx.new_int(c::NI_NUMERICHOST), "NI_NUMERICSERV" => ctx.new_int(c::NI_NUMERICSERV), }); #[cfg(not(windows))] extend_module!(vm, module, { "SO_REUSEPORT" => ctx.new_int(c::SO_REUSEPORT), }); #[cfg(not(target_os = "redox"))] extend_module!(vm, module, { "getaddrinfo" => ctx.new_function(socket_getaddrinfo), "gethostbyaddr" => ctx.new_function(socket_gethostbyaddr), "gethostbyname" => ctx.new_function(socket_gethostbyname), }); extend_module_platform_specific(vm, &module); module } #[cfg(not(unix))] fn extend_module_platform_specific(_vm: &VirtualMachine, _module: &PyObjectRef) {} #[cfg(unix)] fn extend_module_platform_specific(vm: &VirtualMachine, module: &PyObjectRef) { let ctx = &vm.ctx; #[cfg(not(target_os = "redox"))] extend_module!(vm, module, { "sethostname" => ctx.new_function(socket_sethostname), }); }