use super::netlink;
use crate::interface::interface::Interface;
use crate::interface::state::OperState;
use crate::ipnet::{Ipv4Net, Ipv6Net};
use crate::net::mac::MacAddr;
use std::net::{Ipv4Addr, Ipv6Addr};
#[cfg(feature = "gateway")]
use crate::net::device::NetworkDevice;
#[cfg(feature = "gateway")]
use crate::os::unix::dns::get_system_dns_conf;
use crate::os::unix::interface::unix_interfaces;
fn push_ipv4(v: &mut Vec<Ipv4Net>, add: (Ipv4Addr, u8)) {
if v.iter()
.any(|n| n.addr() == add.0 && n.prefix_len() == add.1)
{
return;
}
if let Ok(net) = Ipv4Net::new(add.0, add.1) {
v.push(net);
}
}
fn push_ipv6(v: &mut Vec<Ipv6Net>, add: (Ipv6Addr, u8)) {
if v.iter()
.any(|n| n.addr() == add.0 && n.prefix_len() == add.1)
{
return;
}
if let Ok(net) = Ipv6Net::new(add.0, add.1) {
v.push(net);
}
}
#[inline]
fn calc_v6_scope_id(addr: &Ipv6Addr, ifindex: u32) -> u32 {
let seg0 = addr.segments()[0];
if (seg0 & 0xffc0) == 0xfe80 {
ifindex
} else {
0
}
}
fn finalize_interface(iface: &mut Interface) {
if let Some(sysfs_type) = super::sysfs::get_interface_type(&iface.name) {
iface.if_type = sysfs_type;
} else if let Some(guessed_type) = super::types::guess_type_by_name(&iface.name) {
iface.if_type = guessed_type;
}
if iface.transmit_speed.is_none() || iface.receive_speed.is_none() {
let speed = super::sysfs::get_interface_speed(&iface.name);
if iface.transmit_speed.is_none() {
iface.transmit_speed = speed;
}
if iface.receive_speed.is_none() {
iface.receive_speed = speed;
}
}
if iface.stats.is_none() {
iface.stats = crate::stats::counters::get_stats_from_name(&iface.name);
}
if iface.mtu.is_none() {
iface.mtu = crate::os::linux::mtu::get_mtu(&iface.name);
}
}
pub fn interfaces() -> Vec<Interface> {
let mut ifaces: Vec<Interface> = Vec::new();
match netlink::collect_interfaces() {
Ok(rows) => {
for r in rows {
let name = r.name.clone();
let mut iface = Interface {
index: r.index,
name: name.clone(),
friendly_name: None,
description: None,
if_type: super::types::guess_type_by_name(&name).unwrap_or(r.if_type),
mac_addr: r.mac.map(MacAddr::from_octets),
ipv4: Vec::new(),
ipv6: Vec::new(),
ipv6_scope_ids: Vec::new(),
flags: r.flags,
oper_state: OperState::from_if_flags(r.flags),
transmit_speed: None,
receive_speed: None,
stats: r.stats.clone(),
#[cfg(feature = "gateway")]
gateway: None,
#[cfg(feature = "gateway")]
dns_servers: Vec::new(),
mtu: r.mtu,
#[cfg(feature = "gateway")]
default: false,
};
for (a, p) in r.ipv4 {
push_ipv4(&mut iface.ipv4, (a, p));
}
for (a, p) in r.ipv6 {
push_ipv6(&mut iface.ipv6, (a, p));
iface.ipv6_scope_ids.push(calc_v6_scope_id(&a, iface.index));
}
ifaces.push(iface);
}
}
Err(_) => {
ifaces = unix_interfaces();
}
}
for iface in &mut ifaces {
finalize_interface(iface);
}
#[cfg(feature = "gateway")]
{
if let Ok(mut gmap) = netlink::collect_routes() {
for iface in &mut ifaces {
if iface.index == 0 {
continue;
}
if let Some(row) = gmap.remove(&iface.index) {
iface.gateway = Some(NetworkDevice {
mac_addr: row.mac.map(MacAddr::from_octets).unwrap_or(MacAddr::zero()),
ipv4: row.gw_v4,
ipv6: row.gw_v6,
});
}
}
}
if let Some(local_ip) = crate::net::ip::get_local_ipaddr() {
if let Some(idx) = crate::interface::pick_default_iface_index(&ifaces, local_ip) {
if let Some(iface) = ifaces.iter_mut().find(|it| it.index == idx) {
iface.default = true;
iface.dns_servers = get_system_dns_conf();
}
}
}
}
ifaces
}