vpncloud/src/udpmessage.rs

use std::{mem, ptr, fmt};
use std::net::{SocketAddr, SocketAddrV4, Ipv4Addr};
use std::u16;

use super::ethcloud::{Mac, Error, Token};
use super::ethernet;
use super::util::as_obj;


#[derive(PartialEq)]
pub enum Message<'a> {
    Frame(ethernet::Frame<'a>),
    Peers(Vec<SocketAddr>),
    GetPeers,
    Close,
}

impl<'a> fmt::Debug for Message<'a> {
    fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {
        match self {
            &Message::Frame(ref frame) => write!(formatter, "Frame({:?})", frame),
            &Message::Peers(ref peers) => {
                try!(write!(formatter, "Peers ["));
                let mut first = true;
                for p in peers {
                    if !first {
                        try!(write!(formatter, ", "));
                    }
                    first = false;
                    try!(p.fmt(formatter));
                }
                write!(formatter, "]")
            },
            &Message::GetPeers => write!(formatter, "GetPeers"),
            &Message::Close => write!(formatter, "Close"),
        }
    }
}

pub fn decode(data: &[u8]) -> Result<(Token, Message), Error> {
    if data.len() < 1 + mem::size_of::<Token>() {
        return Err(Error::ParseError("Empty message"));
    }
    let mut pos = 0;
    let token = Token::from_be(* unsafe { as_obj::<Token>(&data[pos..]) });
    pos += mem::size_of::<Token>();
    match data[pos] {
        0 => {
            pos += 1;
            Ok((token, Message::Frame(try!(ethernet::decode(&data[pos..])))))
        },
        1 => {
            pos += 1;
            if data.len() < pos + 1 {
                return Err(Error::ParseError("Empty peers"));
            }
            let count = data[pos];
            pos += 1;
            let len = count as usize * 6;
            if data.len() < pos + len {
                return Err(Error::ParseError("Peer data too short"));
            }
            let mut peers = Vec::with_capacity(count as usize);
            for _ in 0..count {
                let (ip, port) = unsafe {
                    let ip = as_obj::<[u8; 4]>(&data[pos..]);
                    pos += 4;
                    let port = *as_obj::<u16>(&data[pos..]);
                    let port = u16::from_be(port);
                    pos += 2;
                    (ip, port)
                };
                let addr = SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(ip[0], ip[1], ip[2], ip[3]), port));
                peers.push(addr);
            }
            Ok((token, Message::Peers(peers)))
        },
        2 => Ok((token, Message::GetPeers)),
        3 => Ok((token, Message::Close)),
        _ => Err(Error::ParseError("Unknown message type"))
    }
}

pub fn encode(token: Token, msg: &Message, buf: &mut [u8]) -> usize {
    assert!(buf.len() >= mem::size_of::<Token>() + 1);
    let mut pos = 0;
    let token_dat = unsafe { mem::transmute::<Token, [u8; 8]>(token.to_be()) };
    unsafe { ptr::copy_nonoverlapping(token_dat.as_ptr(), buf[pos..].as_mut_ptr(), token_dat.len()) };
    pos += token_dat.len();
    match msg {
        &Message::Frame(ref frame) => {
            buf[pos] = 0;
            pos += 1;
            pos += ethernet::encode(&frame, &mut buf[pos..])
        },
        &Message::Peers(ref peers) => {
            buf[pos] = 1;
            pos += 1;
            let count_pos = pos;
            pos += 1;
            assert!(buf.len() >= 2 + peers.len() * mem::size_of::<SocketAddrV4>());
            let mut count = 0;
            for p in peers {
                match p {
                    &SocketAddr::V4(addr) => {
                        let ip = addr.ip().octets();
                        let port = addr.port();
                        unsafe {
                            ptr::copy_nonoverlapping(ip.as_ptr(), buf[pos..].as_mut_ptr(), ip.len());
                            pos += ip.len();
                            let port = mem::transmute::<u16, [u8; 2]>(port.to_be());
                            ptr::copy_nonoverlapping(port.as_ptr(), buf[pos..].as_mut_ptr(), port.len());
                            pos += port.len();
                        }
                        count += 1;
                    },
                    &SocketAddr::V6(_addr) => unimplemented!()
                }
            };
            buf[count_pos] = count;
        },
        &Message::GetPeers => {
            buf[pos] = 2;
            pos += 1;
        },
        &Message::Close => {
            buf[pos] = 3;
            pos += 1;
        }
    }
    pos
}


#[test]
fn encode_message_packet() {
    let token = 134;
    let src = Mac([1,2,3,4,5,6]);
    let dst = Mac([7,8,9,10,11,12]);
    let payload = [1,2,3,4,5];
    let msg = Message::Frame(ethernet::Frame{src: &src, dst: &dst, vlan: 0, payload: &payload});
    let mut buf = [0; 1024];
    let size = encode(token, &msg, &mut buf[..]);
    assert_eq!(size, 26);
    assert_eq!(&buf[..9], &[0,0,0,0,0,0,0,134,0]);
    let (token2, msg2) = decode(&buf[..size]).unwrap();
    assert_eq!(token, token2);
    assert_eq!(msg, msg2);
}

#[test]
fn encode_message_peers() {
    use std::str::FromStr;
    let token = 134;
    let msg = Message::Peers(vec![SocketAddr::from_str("1.2.3.4:123").unwrap(), SocketAddr::from_str("5.6.7.8:12345").unwrap()]);
    let mut buf = [0; 1024];
    let size = encode(token, &msg, &mut buf[..]);
    assert_eq!(size, 22);
    assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,1,2,1,2,3,4,0,123,5,6,7,8,48,57]);
    let (token2, msg2) = decode(&buf[..size]).unwrap();
    assert_eq!(token, token2);
    assert_eq!(msg, msg2);
}

#[test]
fn encode_message_getpeers() {
    let token = 134;
    let msg = Message::GetPeers;
    let mut buf = [0; 1024];
    let size = encode(token, &msg, &mut buf[..]);
    assert_eq!(size, 9);
    assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,2]);
    let (token2, msg2) = decode(&buf[..size]).unwrap();
    assert_eq!(token, token2);
    assert_eq!(msg, msg2);
}

#[test]
fn encode_message_close() {
    let token = 134;
    let msg = Message::Close;
    let mut buf = [0; 1024];
    let size = encode(token, &msg, &mut buf[..]);
    assert_eq!(size, 9);
    assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,3]);
    let (token2, msg2) = decode(&buf[..size]).unwrap();
    assert_eq!(token, token2);
    assert_eq!(msg, msg2);
}
Initial working version 2015-11-19 15:34:20 +00:00			`use std::{mem, ptr, fmt};`
			`use std::net::{SocketAddr, SocketAddrV4, Ipv4Addr};`
			`use std::u16;`

restructure 2015-11-19 18:29:42 +00:00			`use super::ethcloud::{Mac, Error, Token};`
			`use super::ethernet;`
			`use super::util::as_obj;`
Initial working version 2015-11-19 15:34:20 +00:00

			`#[derive(PartialEq)]`
			`pub enum Message<'a> {`
restructure 2015-11-19 18:29:42 +00:00			`Frame(ethernet::Frame<'a>),`
Initial working version 2015-11-19 15:34:20 +00:00			`Peers(Vec<SocketAddr>),`
			`GetPeers,`
			`Close,`
			`}`

			`impl<'a> fmt::Debug for Message<'a> {`
			`fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {`
			`match self {`
			`&Message::Frame(ref frame) => write!(formatter, "Frame({:?})", frame),`
			`&Message::Peers(ref peers) => {`
			`try!(write!(formatter, "Peers ["));`
			`let mut first = true;`
			`for p in peers {`
			`if !first {`
			`try!(write!(formatter, ", "));`
			`}`
			`first = false;`
			`try!(p.fmt(formatter));`
			`}`
			`write!(formatter, "]")`
			`},`
			`&Message::GetPeers => write!(formatter, "GetPeers"),`
			`&Message::Close => write!(formatter, "Close"),`
			`}`
			`}`
			`}`

			`pub fn decode(data: &[u8]) -> Result<(Token, Message), Error> {`
			`if data.len() < 1 + mem::size_of::<Token>() {`
			`return Err(Error::ParseError("Empty message"));`
			`}`
			`let mut pos = 0;`
			`let token = Token::from_be(* unsafe { as_obj::<Token>(&data[pos..]) });`
			`pos += mem::size_of::<Token>();`
			`match data[pos] {`
			`0 => {`
			`pos += 1;`
restructure 2015-11-19 18:29:42 +00:00			`Ok((token, Message::Frame(try!(ethernet::decode(&data[pos..])))))`
Initial working version 2015-11-19 15:34:20 +00:00			`},`
			`1 => {`
			`pos += 1;`
			`if data.len() < pos + 1 {`
			`return Err(Error::ParseError("Empty peers"));`
			`}`
			`let count = data[pos];`
			`pos += 1;`
			`let len = count as usize * 6;`
			`if data.len() < pos + len {`
			`return Err(Error::ParseError("Peer data too short"));`
			`}`
			`let mut peers = Vec::with_capacity(count as usize);`
			`for _ in 0..count {`
			`let (ip, port) = unsafe {`
			`let ip = as_obj::<[u8; 4]>(&data[pos..]);`
			`pos += 4;`
			`let port = *as_obj::<u16>(&data[pos..]);`
			`let port = u16::from_be(port);`
			`pos += 2;`
			`(ip, port)`
			`};`
			`let addr = SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(ip[0], ip[1], ip[2], ip[3]), port));`
			`peers.push(addr);`
			`}`
			`Ok((token, Message::Peers(peers)))`
			`},`
			`2 => Ok((token, Message::GetPeers)),`
			`3 => Ok((token, Message::Close)),`
			`_ => Err(Error::ParseError("Unknown message type"))`
			`}`
			`}`

			`pub fn encode(token: Token, msg: &Message, buf: &mut [u8]) -> usize {`
			`assert!(buf.len() >= mem::size_of::<Token>() + 1);`
			`let mut pos = 0;`
			`let token_dat = unsafe { mem::transmute::<Token, [u8; 8]>(token.to_be()) };`
			`unsafe { ptr::copy_nonoverlapping(token_dat.as_ptr(), buf[pos..].as_mut_ptr(), token_dat.len()) };`
			`pos += token_dat.len();`
			`match msg {`
			`&Message::Frame(ref frame) => {`
			`buf[pos] = 0;`
			`pos += 1;`
restructure 2015-11-19 18:29:42 +00:00			`pos += ethernet::encode(&frame, &mut buf[pos..])`
Initial working version 2015-11-19 15:34:20 +00:00			`},`
			`&Message::Peers(ref peers) => {`
			`buf[pos] = 1;`
			`pos += 1;`
			`let count_pos = pos;`
			`pos += 1;`
			`assert!(buf.len() >= 2 + peers.len() * mem::size_of::<SocketAddrV4>());`
			`let mut count = 0;`
			`for p in peers {`
			`match p {`
			`&SocketAddr::V4(addr) => {`
			`let ip = addr.ip().octets();`
			`let port = addr.port();`
			`unsafe {`
			`ptr::copy_nonoverlapping(ip.as_ptr(), buf[pos..].as_mut_ptr(), ip.len());`
			`pos += ip.len();`
			`let port = mem::transmute::<u16, [u8; 2]>(port.to_be());`
			`ptr::copy_nonoverlapping(port.as_ptr(), buf[pos..].as_mut_ptr(), port.len());`
			`pos += port.len();`
			`}`
			`count += 1;`
			`},`
			`&SocketAddr::V6(_addr) => unimplemented!()`
			`}`
			`};`
			`buf[count_pos] = count;`
			`},`
			`&Message::GetPeers => {`
			`buf[pos] = 2;`
			`pos += 1;`
			`},`
			`&Message::Close => {`
			`buf[pos] = 3;`
			`pos += 1;`
			`}`
			`}`
			`pos`
			`}`


			`#[test]`
			`fn encode_message_packet() {`
			`let token = 134;`
			`let src = Mac([1,2,3,4,5,6]);`
			`let dst = Mac([7,8,9,10,11,12]);`
			`let payload = [1,2,3,4,5];`
restructure 2015-11-19 18:29:42 +00:00			`let msg = Message::Frame(ethernet::Frame{src: &src, dst: &dst, vlan: 0, payload: &payload});`
Initial working version 2015-11-19 15:34:20 +00:00			`let mut buf = [0; 1024];`
			`let size = encode(token, &msg, &mut buf[..]);`
			`assert_eq!(size, 26);`
			`assert_eq!(&buf[..9], &[0,0,0,0,0,0,0,134,0]);`
			`let (token2, msg2) = decode(&buf[..size]).unwrap();`
			`assert_eq!(token, token2);`
			`assert_eq!(msg, msg2);`
			`}`

			`#[test]`
			`fn encode_message_peers() {`
			`use std::str::FromStr;`
			`let token = 134;`
			`let msg = Message::Peers(vec![SocketAddr::from_str("1.2.3.4:123").unwrap(), SocketAddr::from_str("5.6.7.8:12345").unwrap()]);`
			`let mut buf = [0; 1024];`
			`let size = encode(token, &msg, &mut buf[..]);`
			`assert_eq!(size, 22);`
			`assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,1,2,1,2,3,4,0,123,5,6,7,8,48,57]);`
			`let (token2, msg2) = decode(&buf[..size]).unwrap();`
			`assert_eq!(token, token2);`
			`assert_eq!(msg, msg2);`
			`}`

			`#[test]`
			`fn encode_message_getpeers() {`
			`let token = 134;`
			`let msg = Message::GetPeers;`
			`let mut buf = [0; 1024];`
			`let size = encode(token, &msg, &mut buf[..]);`
			`assert_eq!(size, 9);`
			`assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,2]);`
			`let (token2, msg2) = decode(&buf[..size]).unwrap();`
			`assert_eq!(token, token2);`
			`assert_eq!(msg, msg2);`
			`}`

			`#[test]`
			`fn encode_message_close() {`
			`let token = 134;`
			`let msg = Message::Close;`
			`let mut buf = [0; 1024];`
			`let size = encode(token, &msg, &mut buf[..]);`
			`assert_eq!(size, 9);`
			`assert_eq!(&buf[..size], &[0,0,0,0,0,0,0,134,3]);`
			`let (token2, msg2) = decode(&buf[..size]).unwrap();`
			`assert_eq!(token, token2);`
			`assert_eq!(msg, msg2);`
			`}`