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rCore/kernel/src/syscall/net.rs

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//! Syscalls for networking
use super::*;
use crate::drivers::{NET_DRIVERS, SOCKET_ACTIVITY};
use core::mem::size_of;
use smoltcp::socket::*;
use smoltcp::wire::*;
const AF_INET: usize = 2;
const SOCK_STREAM: usize = 1;
const SOCK_DGRAM: usize = 2;
const SOCK_RAW: usize = 3;
const IPPROTO_IP: usize = 0;
const IPPROTO_ICMP: usize = 1;
fn parse_addr(sockaddr_in: &SockaddrIn, dest: &mut Option<IpAddress>, port: &mut u16) {
if sockaddr_in.sin_family == AF_INET as u16 {
*port = u16::from_be(sockaddr_in.sin_port);
let addr = u32::from_be(sockaddr_in.sin_addr);
*dest = Some(IpAddress::v4(
(addr >> 24) as u8,
((addr >> 16) & 0xFF) as u8,
((addr >> 8) & 0xFF) as u8,
(addr & 0xFF) as u8,
));
}
}
fn fill_addr(sockaddr_in: &mut SockaddrIn, dest: IpAddress, port: u16) {
if let IpAddress::Ipv4(ipv4) = dest {
sockaddr_in.sin_family = AF_INET as u16;
sockaddr_in.sin_port = u16::to_be(port);
sockaddr_in.sin_addr = u32::to_be(
((ipv4.0[0] as u32) << 24)
| ((ipv4.0[1] as u32) << 16)
| ((ipv4.0[2] as u32) << 8)
| ipv4.0[3] as u32,
);
} else {
unimplemented!("ipv6");
}
}
pub fn sys_socket(domain: usize, socket_type: usize, protocol: usize) -> SysResult {
info!(
"socket: domain: {}, socket_type: {}, protocol: {}",
domain, socket_type, protocol
);
let mut proc = process();
let iface = &mut *(NET_DRIVERS.lock()[0]);
match domain {
AF_INET => match socket_type {
SOCK_STREAM => {
let fd = proc.get_free_inode();
let tcp_rx_buffer = TcpSocketBuffer::new(vec![0; 2048]);
let tcp_tx_buffer = TcpSocketBuffer::new(vec![0; 2048]);
let tcp_socket = TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer);
let tcp_handle = iface.sockets().add(tcp_socket);
proc.files.insert(
fd,
FileLike::Socket(SocketWrapper {
handle: tcp_handle,
socket_type: SocketType::Tcp,
}),
);
Ok(fd as isize)
}
SOCK_RAW => {
let fd = proc.get_free_inode();
let raw_rx_buffer =
RawSocketBuffer::new(vec![RawPacketMetadata::EMPTY; 2], vec![0; 2048]);
let raw_tx_buffer =
RawSocketBuffer::new(vec![RawPacketMetadata::EMPTY; 2], vec![0; 2048]);
let raw_socket = RawSocket::new(
IpVersion::Ipv4,
IpProtocol::from(protocol as u8),
raw_rx_buffer,
raw_tx_buffer,
);
let raw_handle = iface.sockets().add(raw_socket);
proc.files.insert(
fd,
FileLike::Socket(SocketWrapper {
handle: raw_handle,
socket_type: SocketType::Raw,
}),
);
Ok(fd as isize)
}
_ => Err(SysError::EINVAL),
},
_ => Err(SysError::EAFNOSUPPORT),
}
}
pub fn sys_setsockopt(
fd: usize,
level: usize,
optname: usize,
optval: *const u8,
optlen: usize,
) -> SysResult {
info!(
"setsockopt: fd: {}, level: {}, optname: {}",
fd, level, optname
);
warn!("sys_setsockopt is unimplemented");
Ok(0)
}
#[repr(C)]
struct SockaddrIn {
sin_family: u16,
sin_port: u16,
sin_addr: u32,
sin_zero: [u8; 8],
}
impl Process {
fn get_socket(&mut self, fd: usize) -> Result<SocketWrapper, SysError> {
let file = self.files.get_mut(&fd).ok_or(SysError::EBADF)?;
match file {
FileLike::Socket(wrapper) => Ok(wrapper.clone()),
_ => Err(SysError::ENOTSOCK),
}
}
}
pub fn sys_connect(fd: usize, addr: *const u8, addrlen: usize) -> SysResult {
info!(
"sys_connect: fd: {}, addr: {:?}, addrlen: {}",
fd, addr, addrlen
);
let mut proc = process();
proc.memory_set.check_ptr(addr)?;
let iface = &mut *(NET_DRIVERS.lock()[0]);
let mut dest = None;
let mut port = 0;
// FIXME: check size as per sin_family
let sockaddr_in = unsafe { &*(addr as *const SockaddrIn) };
parse_addr(&sockaddr_in, &mut dest, &mut port);
if dest == None {
return Err(SysError::EINVAL);
}
let wrapper = proc.get_socket(fd)?;
if let SocketType::Tcp = wrapper.socket_type {
let mut sockets = iface.sockets();
let mut socket = sockets.get::<TcpSocket>(wrapper.handle);
// TODO selects non-conflict high port
static mut EPHEMERAL_PORT: u16 = 49152;
let temp_port = unsafe {
if EPHEMERAL_PORT == 65535 {
EPHEMERAL_PORT = 49152;
} else {
EPHEMERAL_PORT = EPHEMERAL_PORT + 1;
}
EPHEMERAL_PORT
};
match socket.connect((dest.unwrap(), port), temp_port) {
Ok(()) => {
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// avoid deadlock
drop(socket);
drop(sockets);
// wait for connection result
loop {
iface.poll();
let mut sockets = iface.sockets();
let mut socket = sockets.get::<TcpSocket>(wrapper.handle);
if socket.state() == TcpState::SynSent {
// still connecting
SOCKET_ACTIVITY._wait()
} else if socket.state() == TcpState::Established {
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break Ok(0);
} else if socket.state() == TcpState::Closed {
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break Err(SysError::ECONNREFUSED);
}
}
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}
Err(_) => Err(SysError::ENOBUFS),
}
} else {
unimplemented!("socket type")
}
}
pub fn sys_write_socket(proc: &mut Process, fd: usize, base: *const u8, len: usize) -> SysResult {
let iface = &mut *(NET_DRIVERS.lock()[0]);
let wrapper = proc.get_socket(fd)?;
if let SocketType::Tcp = wrapper.socket_type {
let mut sockets = iface.sockets();
let mut socket = sockets.get::<TcpSocket>(wrapper.handle);
let slice = unsafe { slice::from_raw_parts(base, len) };
if socket.is_open() {
if socket.can_send() {
match socket.send_slice(&slice) {
Ok(size) => {
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// avoid deadlock
drop(socket);
drop(sockets);
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iface.poll();
Ok(size as isize)
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}
Err(err) => Err(SysError::ENOBUFS),
}
} else {
Err(SysError::ENOBUFS)
}
} else {
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Err(SysError::ENOTCONN)
}
} else {
unimplemented!("socket type")
}
}
pub fn sys_select(
fd: usize,
inp: *const u8,
outp: *const u8,
exp: *const u8,
tvp: *const u8,
) -> SysResult {
info!("sys_select: fd: {}", fd);
warn!("sys_select is unimplemented");
Err(SysError::EINVAL)
}
pub fn sys_sendto(
fd: usize,
buffer: *const u8,
len: usize,
flags: usize,
addr: *const u8,
addr_len: usize,
) -> SysResult {
info!(
"sys_sendto: fd: {} buffer: {:?} len: {} addr: {:?} addr_len: {}",
fd, buffer, len, addr, addr_len
);
let mut proc = process();
proc.memory_set.check_ptr(addr)?;
proc.memory_set.check_array(buffer, len)?;
let iface = &mut *(NET_DRIVERS.lock()[0]);
let wrapper = proc.get_socket(fd)?;
if let SocketType::Raw = wrapper.socket_type {
let v4_src = iface.ipv4_address().unwrap();
let mut sockets = iface.sockets();
let mut socket = sockets.get::<RawSocket>(wrapper.handle);
let mut dest = None;
let mut port = 0;
// FIXME: check size as per sin_family
let sockaddr_in = unsafe { &*(addr as *const SockaddrIn) };
parse_addr(&sockaddr_in, &mut dest, &mut port);
if dest == None {
return Err(SysError::EINVAL);
} else if let Some(IpAddress::Ipv4(v4_dst)) = dest {
let slice = unsafe { slice::from_raw_parts(buffer, len) };
// using 20-byte IPv4 header
let mut buffer = vec![0u8; len + 20];
let mut packet = Ipv4Packet::new_unchecked(&mut buffer);
packet.set_version(4);
packet.set_header_len(20);
packet.set_total_len((20 + len) as u16);
packet.set_protocol(socket.ip_protocol().into());
packet.set_src_addr(v4_src);
packet.set_dst_addr(v4_dst);
let payload = packet.payload_mut();
payload.copy_from_slice(slice);
packet.fill_checksum();
socket.send_slice(&buffer).unwrap();
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// avoid deadlock
drop(socket);
drop(sockets);
iface.poll();
Ok(len as isize)
} else {
unimplemented!("ip type")
}
} else {
unimplemented!("socket type")
}
}
pub fn sys_recvfrom(
fd: usize,
buffer: *mut u8,
len: usize,
flags: usize,
addr: *mut u8,
addr_len: *mut usize,
) -> SysResult {
info!(
"sys_recvfrom: fd: {} buffer: {:?} len: {} flags: {} addr: {:?} addr_len: {:?}",
fd, buffer, len, flags, addr, addr_len
);
let mut proc = process();
let iface = &mut *(NET_DRIVERS.lock()[0]);
let wrapper = proc.get_socket(fd)?;
if let SocketType::Raw = wrapper.socket_type {
loop {
let mut sockets = iface.sockets();
let mut socket = sockets.get::<RawSocket>(wrapper.handle);
let mut slice = unsafe { slice::from_raw_parts_mut(buffer, len) };
if let Ok(size) = socket.recv_slice(&mut slice) {
let mut packet = Ipv4Packet::new_unchecked(&slice);
// FIXME: check size as per sin_family
let mut sockaddr_in = unsafe { &mut *(addr as *mut SockaddrIn) };
fill_addr(&mut sockaddr_in, IpAddress::Ipv4(packet.src_addr()), 0);
unsafe { *addr_len = size_of::<SockaddrIn>() };
return Ok(size as isize);
}
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// avoid deadlock
drop(socket);
SOCKET_ACTIVITY._wait()
}
} else {
unimplemented!("socket type")
}
}
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pub fn sys_close_socket(proc: &mut Process, fd: usize, handle: SocketHandle) -> SysResult {
let iface = &mut *(NET_DRIVERS.lock()[0]);
let mut socket = iface.sockets().remove(handle);
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match socket {
Socket::Tcp(ref mut tcp_socket) => {
tcp_socket.close();
}
_ => {}
}
Ok(0)
}