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use std::net::{IpAddr, Ipv4Addr};
use log::trace;
use packet::builder::Builder;
use packet::Packet;
use packet::{icmp, ip};
use crate::error::{Result, SurgeError};
#[derive(Debug)]
pub struct EchoRequest {
pub ident: u16,
pub seq_cnt: u16,
pub size: usize,
}
impl EchoRequest {
pub fn new(ident: u16, seq_cnt: u16, size: usize) -> Self {
EchoRequest {
ident,
seq_cnt,
size,
}
}
pub fn encode(&self) -> Result<Vec<u8>> {
let payload = vec![0; self.size];
let echo_request = icmp::Builder::default()
.echo()?
.request()?
.identifier(self.ident)?
.sequence(self.seq_cnt)?
.payload(&payload)?
.build()?;
Ok(echo_request)
}
}
#[derive(Debug)]
pub struct EchoReply {
pub ttl: u8,
pub source: Ipv4Addr,
pub sequence: u16,
pub identifier: u16,
pub size: usize,
}
impl EchoReply {
pub fn decode(addr: IpAddr, buf: &[u8]) -> Result<EchoReply> {
let ip_packet = ip::v4::Packet::no_payload(buf)?;
if ip_packet.source() != addr {
return Err(SurgeError::OtherICMP);
}
let packet = icmp::Packet::new(ip_packet.payload())?;
if packet.kind() == icmp::Kind::EchoReply {
let echo_reply = packet.echo()?;
Ok(EchoReply {
ttl: ip_packet.ttl(),
source: ip_packet.source(),
sequence: echo_reply.sequence(),
identifier: echo_reply.identifier(),
size: echo_reply.payload().as_ref().len(),
})
} else {
trace!(
"type={:?},code={},src={},dst={}",
packet.kind(),
packet.code(),
ip_packet.source(),
ip_packet.destination()
);
Err(SurgeError::KindError(packet.kind()))
}
}
}