use std::net::Ipv4Addr;
use netlink_packet_utils::{
nla::{self, DefaultNla, NlaBuffer},
traits::{Emitable, Parseable},
DecodeError,
};
use crate::tc::{constants::*, TC_GEN_BUF_LEN};
pub const KIND: &str = "nat";
pub const TC_NAT_BUF_LEN: usize = TC_GEN_BUF_LEN + 16;
#[derive(Debug, PartialEq, Eq, Clone)]
#[non_exhaustive]
pub enum Nla {
Unspec(Vec<u8>),
Tm(Vec<u8>),
Parms(TcNat),
Other(DefaultNla),
}
impl nla::Nla for Nla {
fn value_len(&self) -> usize {
use self::Nla::*;
match self {
Unspec(bytes) | Tm(bytes) => bytes.len(),
Parms(_) => TC_NAT_BUF_LEN,
Other(attr) => attr.value_len(),
}
}
fn emit_value(&self, buffer: &mut [u8]) {
use self::Nla::*;
match self {
Unspec(bytes) | Tm(bytes) => {
buffer.copy_from_slice(bytes.as_slice())
}
Parms(p) => p.emit(buffer),
Other(attr) => attr.emit_value(buffer),
}
}
fn kind(&self) -> u16 {
use self::Nla::*;
match self {
Unspec(_) => TCA_NAT_UNSPEC,
Tm(_) => TCA_NAT_TM,
Parms(_) => TCA_NAT_PARMS,
Other(nla) => nla.kind(),
}
}
}
impl<'a, T: AsRef<[u8]> + ?Sized> Parseable<NlaBuffer<&'a T>> for Nla {
fn parse(buf: &NlaBuffer<&'a T>) -> Result<Self, DecodeError> {
use self::Nla::*;
let payload = buf.value();
Ok(match buf.kind() {
TCA_NAT_UNSPEC => Unspec(payload.to_vec()),
TCA_NAT_TM => Tm(payload.to_vec()),
TCA_NAT_PARMS => {
Parms(TcNat::parse(&TcNatBuffer::new_checked(payload)?)?)
}
_ => Other(DefaultNla::parse(buf)?),
})
}
}
#[derive(Debug, PartialEq, Eq, Clone, Default)]
#[non_exhaustive]
pub struct TcNat {
pub index: u32,
pub capab: u32,
pub action: i32,
pub refcnt: i32,
pub bindcnt: i32,
pub old_addr: Vec<u8>,
pub new_addr: Vec<u8>,
pub mask: Vec<u8>,
pub flags: u32,
}
buffer!(TcNatBuffer(TC_NAT_BUF_LEN) {
index: (u32, 0..4),
capab: (u32, 4..8),
action: (i32, 8..12),
refcnt: (i32, 12..16),
bindcnt: (i32, 16..20),
old_addr: (slice, TC_GEN_BUF_LEN..(TC_GEN_BUF_LEN+4)),
new_addr: (slice, (TC_GEN_BUF_LEN +4)..(TC_GEN_BUF_LEN+8)),
mask: (slice, (TC_GEN_BUF_LEN +8)..(TC_GEN_BUF_LEN+12)),
flags: (u32, (TC_GEN_BUF_LEN+12)..TC_NAT_BUF_LEN),
});
impl TcNat {
pub fn set_new_addr(mut self, target: Ipv4Addr) -> Self {
self.new_addr = target.octets().to_vec();
self
}
pub fn set_old_addr(mut self, target: Ipv4Addr) -> Self {
self.old_addr = target.octets().to_vec();
self
}
pub fn set_prefix(mut self, prefix_len: usize) -> Self {
assert!(prefix_len <= 32);
let prefix: u32 = if prefix_len == 0 {
0x0
} else {
!((1 << (32 - prefix_len)) - 1)
};
self.mask = prefix.to_be_bytes().to_vec();
self
}
pub fn egress(mut self) -> Self {
self.flags = TCA_NAT_FLAG_EGRESS;
self
}
}
impl Emitable for TcNat {
fn buffer_len(&self) -> usize {
TC_NAT_BUF_LEN
}
fn emit(&self, buffer: &mut [u8]) {
let mut packet = TcNatBuffer::new(buffer);
packet.set_index(self.index);
packet.set_capab(self.capab);
packet.set_action(self.action);
packet.set_refcnt(self.refcnt);
packet.set_bindcnt(self.bindcnt);
packet.old_addr_mut().copy_from_slice(&self.old_addr[0..4]);
packet.new_addr_mut().copy_from_slice(&self.new_addr[0..4]);
packet.mask_mut().copy_from_slice(&self.mask[0..4]);
packet.set_flags(self.flags);
}
}
impl<'buf, T: AsRef<[u8]> + ?Sized> Parseable<TcNatBuffer<&'buf T>> for TcNat {
fn parse(buf: &TcNatBuffer<&'buf T>) -> Result<Self, DecodeError> {
Ok(Self {
index: buf.index(),
capab: buf.capab(),
action: buf.action(),
refcnt: buf.refcnt(),
bindcnt: buf.bindcnt(),
old_addr: buf.old_addr().to_vec(),
new_addr: buf.new_addr().to_vec(),
mask: buf.mask().to_vec(),
flags: buf.flags(),
})
}
}