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rCore/kernel/src/syscall/net.rs

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//! Syscalls for networking
use super::*;
use crate::drivers::SOCKET_ACTIVITY;
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use crate::fs::FileLike;
use crate::net::{
Endpoint, LinkLevelEndpoint, PacketSocketState, RawSocketState, Socket, TcpSocketState,
UdpSocketState, SOCKETS,
};
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use crate::sync::{MutexGuard, SpinNoIrq, SpinNoIrqLock as Mutex};
use alloc::boxed::Box;
use core::cmp::min;
use core::mem::size_of;
use smoltcp::wire::*;
pub fn sys_socket(domain: usize, socket_type: usize, protocol: usize) -> SysResult {
let domain = AddressFamily::from(domain as u16);
info!(
"socket: domain: {:?}, socket_type: {}, protocol: {}",
domain, socket_type, protocol
);
let mut proc = process();
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let socket: Box<dyn Socket> = match domain {
AddressFamily::Internet | AddressFamily::Unix => {
match SocketType::from(socket_type as u8 & SOCK_TYPE_MASK) {
SocketType::Stream => Box::new(TcpSocketState::new()),
SocketType::Datagram => Box::new(UdpSocketState::new()),
SocketType::Raw => Box::new(RawSocketState::new(protocol as u8)),
_ => return Err(SysError::EINVAL),
}
}
AddressFamily::Packet => match SocketType::from(socket_type as u8 & SOCK_TYPE_MASK) {
SocketType::Raw => Box::new(PacketSocketState::new()),
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_ => return Err(SysError::EINVAL),
},
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_ => return Err(SysError::EAFNOSUPPORT),
};
let fd = proc.get_free_fd();
proc.files.insert(fd, FileLike::Socket(socket));
Ok(fd)
}
pub fn sys_setsockopt(
fd: usize,
level: usize,
optname: usize,
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optval: *const u8,
optlen: usize,
) -> SysResult {
info!(
"setsockopt: fd: {}, level: {}, optname: {}",
fd, level, optname
);
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let mut proc = process();
proc.vm.check_read_array(optval, optlen)?;
let data = unsafe { slice::from_raw_parts(optval, optlen) };
let socket = proc.get_socket(fd)?;
socket.setsockopt(level, optname, data)
}
pub fn sys_getsockopt(
fd: usize,
level: usize,
optname: usize,
optval: *mut u8,
optlen: *mut u32,
) -> SysResult {
info!(
"getsockopt: fd: {}, level: {}, optname: {} optval: {:?} optlen: {:?}",
fd, level, optname, optval, optlen
);
let proc = process();
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proc.vm.check_write_ptr(optlen)?;
match level {
SOL_SOCKET => match optname {
SO_SNDBUF => {
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proc.vm.check_write_array(optval, 4)?;
unsafe {
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*(optval as *mut u32) = crate::net::TCP_SENDBUF as u32;
*optlen = 4;
}
Ok(0)
}
SO_RCVBUF => {
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proc.vm.check_write_array(optval, 4)?;
unsafe {
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*(optval as *mut u32) = crate::net::TCP_RECVBUF as u32;
*optlen = 4;
}
Ok(0)
}
_ => Err(SysError::ENOPROTOOPT),
},
IPPROTO_TCP => match optname {
TCP_CONGESTION => Ok(0),
_ => Err(SysError::ENOPROTOOPT),
},
_ => Err(SysError::ENOPROTOOPT),
}
}
pub fn sys_connect(fd: usize, addr: *const SockAddr, addr_len: usize) -> SysResult {
info!(
"sys_connect: fd: {}, addr: {:?}, addr_len: {}",
fd, addr, addr_len
);
let mut proc = process();
let endpoint = sockaddr_to_endpoint(&mut proc, addr, addr_len)?;
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let socket = proc.get_socket(fd)?;
socket.connect(endpoint)?;
Ok(0)
}
pub fn sys_sendto(
fd: usize,
base: *const u8,
len: usize,
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_flags: usize,
addr: *const SockAddr,
addr_len: usize,
) -> SysResult {
info!(
"sys_sendto: fd: {} base: {:?} len: {} addr: {:?} addr_len: {}",
fd, base, len, addr, addr_len
);
let mut proc = process();
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proc.vm.check_read_array(base, len)?;
let slice = unsafe { slice::from_raw_parts(base, len) };
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let endpoint = if addr.is_null() {
None
} else {
let endpoint = sockaddr_to_endpoint(&mut proc, addr, addr_len)?;
info!("sys_sendto: sending to endpoint {:?}", endpoint);
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Some(endpoint)
};
let socket = proc.get_socket(fd)?;
socket.write(&slice, endpoint)
}
pub fn sys_recvfrom(
fd: usize,
base: *mut u8,
len: usize,
flags: usize,
addr: *mut SockAddr,
addr_len: *mut u32,
) -> SysResult {
info!(
"sys_recvfrom: fd: {} base: {:?} len: {} flags: {} addr: {:?} addr_len: {:?}",
fd, base, len, flags, addr, addr_len
);
let mut proc = process();
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proc.vm.check_write_array(base, len)?;
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let socket = proc.get_socket(fd)?;
let mut slice = unsafe { slice::from_raw_parts_mut(base, len) };
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let (result, endpoint) = socket.read(&mut slice);
if result.is_ok() && !addr.is_null() {
let sockaddr_in = SockAddr::from(endpoint);
unsafe {
sockaddr_in.write_to(&mut proc, addr, addr_len)?;
}
}
result
}
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pub fn sys_bind(fd: usize, addr: *const SockAddr, addr_len: usize) -> SysResult {
info!("sys_bind: fd: {} addr: {:?} len: {}", fd, addr, addr_len);
let mut proc = process();
let mut endpoint = sockaddr_to_endpoint(&mut proc, addr, addr_len)?;
info!("sys_bind: fd: {} bind to {:?}", fd, endpoint);
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let socket = proc.get_socket(fd)?;
socket.bind(endpoint)
}
pub fn sys_listen(fd: usize, backlog: usize) -> SysResult {
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info!("sys_listen: fd: {} backlog: {}", fd, backlog);
// smoltcp tcp sockets do not support backlog
// open multiple sockets for each connection
let mut proc = process();
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let socket = proc.get_socket(fd)?;
socket.listen()
}
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pub fn sys_shutdown(fd: usize, how: usize) -> SysResult {
info!("sys_shutdown: fd: {} how: {}", fd, how);
let mut proc = process();
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let socket = proc.get_socket(fd)?;
socket.shutdown()
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}
pub fn sys_accept(fd: usize, addr: *mut SockAddr, addr_len: *mut u32) -> SysResult {
info!(
"sys_accept: fd: {} addr: {:?} addr_len: {:?}",
fd, addr, addr_len
);
// smoltcp tcp sockets do not support backlog
// open multiple sockets for each connection
let mut proc = process();
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let socket = proc.get_socket(fd)?;
let (new_socket, remote_endpoint) = socket.accept()?;
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let new_fd = proc.get_free_fd();
proc.files.insert(new_fd, FileLike::Socket(new_socket));
if !addr.is_null() {
let sockaddr_in = SockAddr::from(remote_endpoint);
unsafe {
sockaddr_in.write_to(&mut proc, addr, addr_len)?;
}
}
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Ok(new_fd)
}
pub fn sys_getsockname(fd: usize, addr: *mut SockAddr, addr_len: *mut u32) -> SysResult {
info!(
"sys_getsockname: fd: {} addr: {:?} addr_len: {:?}",
fd, addr, addr_len
);
let mut proc = process();
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if addr.is_null() {
return Err(SysError::EINVAL);
}
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let socket = proc.get_socket(fd)?;
let endpoint = socket.endpoint().ok_or(SysError::EINVAL)?;
let sockaddr_in = SockAddr::from(endpoint);
unsafe {
sockaddr_in.write_to(&mut proc, addr, addr_len)?;
}
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Ok(0)
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}
pub fn sys_getpeername(fd: usize, addr: *mut SockAddr, addr_len: *mut u32) -> SysResult {
info!(
"sys_getpeername: fd: {} addr: {:?} addr_len: {:?}",
fd, addr, addr_len
);
// smoltcp tcp sockets do not support backlog
// open multiple sockets for each connection
let mut proc = process();
if addr as usize == 0 {
return Err(SysError::EINVAL);
}
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let socket = proc.get_socket(fd)?;
let remote_endpoint = socket.remote_endpoint().ok_or(SysError::EINVAL)?;
let sockaddr_in = SockAddr::from(remote_endpoint);
unsafe {
sockaddr_in.write_to(&mut proc, addr, addr_len)?;
}
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Ok(0)
}
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impl Process {
fn get_socket(&mut self, fd: usize) -> Result<&mut Box<dyn Socket>, SysError> {
match self.get_file_like(fd)? {
FileLike::Socket(socket) => Ok(socket),
_ => Err(SysError::EBADF),
}
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}
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}
// cancel alignment
#[repr(packed)]
pub struct SockAddrIn {
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sin_port: u16,
sin_addr: u32,
sin_zero: [u8; 8],
}
#[repr(C)]
pub struct SockAddrUn {
sun_path: [u8; 108],
}
// beware of alignment issue
#[repr(C, packed)]
pub struct SockAddrLl {
sll_protocol: u16,
sll_ifindex: u32,
sll_hatype: u16,
sll_pkttype: u8,
sll_halen: u8,
sll_addr: [u8; 8],
}
#[repr(C)]
pub union SockAddrPayload {
addr_in: SockAddrIn,
addr_un: SockAddrUn,
addr_ll: SockAddrLl,
}
#[repr(C)]
pub struct SockAddr {
family: u16,
payload: SockAddrPayload,
}
impl From<Endpoint> for SockAddr {
fn from(endpoint: Endpoint) -> Self {
if let Endpoint::Ip(ip) = endpoint {
match ip.addr {
IpAddress::Ipv4(ipv4) => SockAddr {
family: AddressFamily::Internet.into(),
payload: SockAddrPayload {
addr_in: SockAddrIn {
sin_port: u16::to_be(ip.port),
sin_addr: u32::to_be(u32::from_be_bytes(ipv4.0)),
sin_zero: [0; 8],
},
},
},
_ => unimplemented!("only ipv4"),
}
} else {
unimplemented!("only ip");
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}
}
}
/// Convert sockaddr to endpoint
// Check len is long enough
fn sockaddr_to_endpoint(
proc: &mut Process,
addr: *const SockAddr,
len: usize,
) -> Result<Endpoint, SysError> {
if len < size_of::<u16>() {
return Err(SysError::EINVAL);
}
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proc.vm.check_read_array(addr as *const u8, len)?;
unsafe {
match AddressFamily::from((*addr).family) {
AddressFamily::Internet => {
if len < size_of::<u16>() + size_of::<SockAddrIn>() {
return Err(SysError::EINVAL);
}
let port = u16::from_be((*addr).payload.addr_in.sin_port);
let addr = IpAddress::from(Ipv4Address::from_bytes(
&u32::from_be((*addr).payload.addr_in.sin_addr).to_be_bytes()[..],
));
Ok(Endpoint::Ip((addr, port).into()))
}
AddressFamily::Unix => Err(SysError::EINVAL),
AddressFamily::Packet => {
if len < size_of::<u16>() + size_of::<SockAddrLl>() {
return Err(SysError::EINVAL);
}
Ok(Endpoint::LinkLevel(LinkLevelEndpoint::new(
(*addr).payload.addr_ll.sll_ifindex as usize,
)))
}
_ => Err(SysError::EINVAL),
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}
}
}
impl SockAddr {
/// Write to user sockaddr
/// Check mutability for user
unsafe fn write_to(
self,
proc: &mut Process,
addr: *mut SockAddr,
addr_len: *mut u32,
) -> SysResult {
// Ignore NULL
if addr.is_null() {
return Ok(0);
}
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proc.vm.check_write_ptr(addr_len)?;
let max_addr_len = *addr_len as usize;
let full_len = match AddressFamily::from(self.family) {
AddressFamily::Internet => size_of::<u16>() + size_of::<SockAddrIn>(),
AddressFamily::Unix => return Err(SysError::EINVAL),
_ => return Err(SysError::EINVAL),
};
let written_len = min(max_addr_len, full_len);
if written_len > 0 {
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proc.vm.check_write_array(addr as *mut u8, written_len)?;
let source = slice::from_raw_parts(&self as *const SockAddr as *const u8, written_len);
let target = slice::from_raw_parts_mut(addr as *mut u8, written_len);
target.copy_from_slice(source);
}
addr_len.write(full_len as u32);
return Ok(0);
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}
}
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enum_with_unknown! {
/// Address families
pub doc enum AddressFamily(u16) {
/// Unspecified
Unspecified = 0,
/// Unix domain sockets
Unix = 1,
/// Internet IP Protocol
Internet = 2,
/// Packet family
Packet = 17,
}
}
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const SOCK_TYPE_MASK: u8 = 0xf;
enum_with_unknown! {
/// Socket types
pub doc enum SocketType(u8) {
/// Stream
Stream = 1,
/// Datagram
Datagram = 2,
/// Raw
Raw = 3,
}
}
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const IPPROTO_IP: usize = 0;
const IPPROTO_ICMP: usize = 1;
const IPPROTO_TCP: usize = 6;
const SOL_SOCKET: usize = 1;
const SO_SNDBUF: usize = 7;
const SO_RCVBUF: usize = 8;
const SO_LINGER: usize = 13;
const TCP_CONGESTION: usize = 13;
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const IP_HDRINCL: usize = 3;