use std::net::{SocketAddr, Ipv4Addr, Ipv6Addr}; use std::collections::{hash_map, HashMap}; use std::ptr; use super::cloud::{Protocol, Error, Table}; use super::util::{as_obj, as_bytes}; #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub enum IpAddress { V4(Ipv4Addr), V6(Ipv6Addr) } pub struct InternetProtocol; impl Protocol for InternetProtocol { type Address = IpAddress; fn parse(data: &[u8]) -> Result<(IpAddress, IpAddress), Error> { if data.len() < 1 { return Err(Error::ParseError("Empty header")); } let version = data[0] >> 4; match version { 4 => { if data.len() < 20 { return Err(Error::ParseError("Truncated header")); } let src_data = unsafe { as_obj::<[u8; 4]>(&data[12..]) }; let src = Ipv4Addr::new(src_data[0], src_data[1], src_data[2], src_data[3]); let dst_data = unsafe { as_obj::<[u8; 4]>(&data[16..]) }; let dst = Ipv4Addr::new(dst_data[0], dst_data[1], dst_data[2], dst_data[3]); Ok((IpAddress::V4(src), IpAddress::V4(dst))) }, 6 => { if data.len() < 40 { return Err(Error::ParseError("Truncated header")); } let src_data = unsafe { as_obj::<[u16; 8]>(&data[8..]) }; let src = Ipv6Addr::new( u16::from_be(src_data[0]), u16::from_be(src_data[1]), u16::from_be(src_data[2]), u16::from_be(src_data[3]), u16::from_be(src_data[4]), u16::from_be(src_data[5]), u16::from_be(src_data[6]), u16::from_be(src_data[7]), ); let dst_data = unsafe { as_obj::<[u16; 8]>(&data[24..]) }; let dst = Ipv6Addr::new( u16::from_be(dst_data[0]), u16::from_be(dst_data[1]), u16::from_be(dst_data[2]), u16::from_be(dst_data[3]), u16::from_be(dst_data[4]), u16::from_be(dst_data[5]), u16::from_be(dst_data[6]), u16::from_be(dst_data[7]), ); Ok((IpAddress::V6(src), IpAddress::V6(dst))) }, _ => Err(Error::ParseError("Invalid version")) } } } struct RoutingEntry { address: SocketAddr, bytes: Vec, prefix_len: u8 } pub struct RoutingTable(HashMap, Vec>); impl RoutingTable { pub fn new() -> Self { RoutingTable(HashMap::new()) } pub fn add(&mut self, bytes: Vec, prefix_len: u8, address: SocketAddr) { let group_len = (prefix_len as usize / 16) * 2; let group_bytes: Vec = bytes[..group_len].iter().map(|b| *b).collect(); let routing_entry = RoutingEntry{address: address, bytes: bytes, prefix_len: prefix_len}; match self.0.entry(group_bytes) { hash_map::Entry::Occupied(mut entry) => entry.get_mut().push(routing_entry), hash_map::Entry::Vacant(entry) => { entry.insert(vec![routing_entry]); () } } } pub fn lookup_bytes(&self, bytes: &[u8]) -> Option { let mut len = bytes.len()/2 * 2; for i in 0..len/2 { if let Some(group) = self.0.get(&bytes[0..len-2*i]) { for entry in group { if entry.bytes.len() != bytes.len() { continue; } let mut match_len = 0; for i in 0..bytes.len() { let b = bytes[i] ^ entry.bytes[i]; if b == 0 { match_len += 8; } else { match_len += b.leading_zeros(); break; } } if match_len as u8 >= entry.prefix_len { return Some(entry.address); } } } } None } } impl Table for RoutingTable { type Address = IpAddress; fn learn(&mut self, _src: Self::Address, _addr: SocketAddr) { //nothing to do } fn lookup(&self, dst: &Self::Address) -> Option { match dst { &IpAddress::V4(addr) => { let mut bytes = [0u8; 4]; let ip = addr.octets(); unsafe { ptr::copy_nonoverlapping(ip.as_ptr(), bytes.as_mut_ptr(), ip.len()) }; self.lookup_bytes(&bytes[..]) }, &IpAddress::V6(addr) => { let mut segments = addr.segments(); for i in 0..8 { segments[i] = segments[i].to_be(); } let bytes = unsafe { as_bytes(&segments) }; self.lookup_bytes(bytes) } } } fn housekeep(&mut self) { //nothin to do } }