use crate::printer::{Printer, Stat};
use crate::timeout_stream::TimeoutStream;
-const PATH_SUFFIX_LEN: usize = 2;
+const PATH_SUFFIX_LEN: usize = 3;
#[derive(Clone)]
struct Route { // 32 bytes with a path id u32
path_suffix: [u32; PATH_SUFFIX_LEN],
med: u32,
}
#[allow(dead_code)]
-const ROUTE_LEN: usize = 32 - std::mem::size_of::<(u32, Route)>();
+const ROUTE_LEN: usize = 36 - std::mem::size_of::<(u32, Route)>();
// To keep memory tight (and since we dont' need such close alignment), newtype the v4/v6 routing
// table entries to make sure they are aligned to single bytes.
// and Vecs are way more memory-effecient in that case.
v4_table: HashMap<V4Addr, Vec<(u32, Route)>>,
v6_table: HashMap<V6Addr, Vec<(u32, Route)>>,
+ max_paths: usize,
+ routes_with_max: usize,
}
impl RoutingTable {
fn new() -> Self {
Self {
- v4_table: HashMap::new(),
- v6_table: HashMap::new(),
+ v4_table: HashMap::with_capacity(900_000),
+ v6_table: HashMap::with_capacity(100_000),
+ max_paths: 0,
+ routes_with_max: 0,
}
}
($rt: expr, $v: expr, $id: expr) => { {
match $rt.entry($v.into()) {
hash_map::Entry::Occupied(mut entry) => {
+ if entry.get().len() == self.max_paths {
+ self.routes_with_max -= 1;
+ if self.routes_with_max == 0 {
+ self.max_paths = 0;
+ }
+ }
entry.get_mut().retain(|e| e.0 != $id);
if entry.get_mut().is_empty() {
entry.remove();
NLRIEncoding::IP_MPLS_WITH_PATH_ID(_) => (),
NLRIEncoding::IP_VPN_MPLS(_) => (),
NLRIEncoding::L2VPN(_) => (),
- NLRIEncoding::FLOWSPEC(_) => (),
};
}
fn announce(&mut self, prefix: NLRIEncoding, route: Route) {
macro_rules! insert {
($rt: expr, $v: expr, $id: expr) => { {
- let entry = $rt.entry($v.into()).or_insert(Vec::new());
+ let old_max_paths = self.max_paths;
+ let entry = $rt.entry($v.into()).or_insert_with(|| Vec::with_capacity(old_max_paths));
+ let entry_had_max = entry.len() == self.max_paths;
entry.retain(|e| e.0 != $id);
+ if entry_had_max {
+ entry.reserve_exact(1);
+ } else {
+ entry.reserve_exact(cmp::max(self.max_paths, entry.len() + 1) - entry.len());
+ }
entry.push(($id, route));
+ if entry.len() > self.max_paths {
+ self.max_paths = entry.len();
+ self.routes_with_max = 1;
+ } else if entry.len() == self.max_paths {
+ if !entry_had_max { self.routes_with_max += 1; }
+ }
} }
}
match prefix {
NLRIEncoding::IP_MPLS_WITH_PATH_ID(_) => (),
NLRIEncoding::IP_VPN_MPLS(_) => (),
NLRIEncoding::L2VPN(_) => (),
- NLRIEncoding::FLOWSPEC(_) => (),
};
}
}
match reader.read() {
Ok((_header, msg)) => {
decoder.buf.advance(decoder.pos);
+ if let Message::Open(ref o) = &msg {
+ self.0 = Some(Capabilities::from_parameters(o.parameters.clone()));
+ }
Ok(Some(msg))
},
Err(e) => match e.kind() {
});
let primary_route = path_vecs.pop().unwrap();
- 'asn_candidates: for asn in primary_route.path_suffix.iter().rev() {
- if *asn == 0 { continue 'asn_candidates; }
- for secondary_route in path_vecs.iter() {
- if !secondary_route.path_suffix.contains(asn) {
- continue 'asn_candidates;
+ if path_vecs.len() > 3 {
+ // If we have at least 3 paths, try to find the last unique ASN which doesn't show up in other paths
+ // If we hit a T1 that is reasonably assumed to care about net neutrality, return the
+ // previous ASN.
+ let mut prev_asn = 0;
+ 'asn_candidates: for asn in primary_route.path_suffix.iter().rev() {
+ if *asn == 0 { continue 'asn_candidates; }
+ match *asn {
+ // Included: CenturyLink (L3), Cogent, Telia, NTT, GTT, Level3,
+ // GBLX (L3), Zayo, TI Sparkle Seabone, HE, Telefonica
+ // Left out from Caida top-20: TATA, PCCW, Vodafone, RETN, Orange, Telstra,
+ // Singtel, Rostelecom, DTAG
+ 209|174|1299|2914|3257|3356|3549|6461|6762|6939|12956 if prev_asn != 0 => return prev_asn,
+ _ => if path_vecs.iter().any(|route| !route.path_suffix.contains(asn)) {
+ if prev_asn != 0 { return prev_asn } else {
+ // Multi-origin prefix, just give up and take the last AS in the
+ // default path
+ break 'asn_candidates;
+ }
+ } else {
+ // We only ever possibly return an ASN if it appears in all paths
+ prev_asn = *asn;
+ },
}
}
- return *asn;
+ // All paths were the same, if the first ASN is non-0, return it.
+ if prev_asn != 0 {
+ return prev_asn;
+ }
}
for asn in primary_route.path_suffix.iter().rev() {
}
printer.set_stat(Stat::V4RoutingTableSize(route_table.v4_table.len()));
printer.set_stat(Stat::V6RoutingTableSize(route_table.v6_table.len()));
+ printer.set_stat(Stat::RoutingTablePaths(route_table.max_paths));
},
_ => {}
}