use chain::chaininterface::{ChainError, ChainWatchInterface};
use ln::channelmanager;
-use ln::msgs::{DecodeError,ErrorAction,LightningError,RoutingMessageHandler,NetAddress,GlobalFeatures};
+use ln::features::{ChannelFeatures, NodeFeatures};
+use ln::msgs::{DecodeError,ErrorAction,LightningError,RoutingMessageHandler,NetAddress};
use ln::msgs;
use util::ser::{Writeable, Readable, Writer, ReadableArgs};
use util::logger::Logger;
pub struct RouteHop {
/// The node_id of the node at this hop.
pub pubkey: PublicKey,
+ /// The node_announcement features of the node at this hop. For the last hop, these may be
+ /// amended to match the features present in the invoice this node generated.
+ pub node_features: NodeFeatures,
/// The channel that should be used from the previous hop to reach this node.
pub short_channel_id: u64,
+ /// The channel_announcement features of the channel that should be used from the previous hop
+ /// to reach this node.
+ pub channel_features: ChannelFeatures,
/// The fee taken on this hop. For the last hop, this should be the full value of the payment.
pub fee_msat: u64,
/// The CLTV delta added for this hop. For the last hop, this should be the full CLTV value
(self.hops.len() as u8).write(writer)?;
for hop in self.hops.iter() {
hop.pubkey.write(writer)?;
+ hop.node_features.write(writer)?;
hop.short_channel_id.write(writer)?;
+ hop.channel_features.write(writer)?;
hop.fee_msat.write(writer)?;
hop.cltv_expiry_delta.write(writer)?;
}
for _ in 0..hops_count {
hops.push(RouteHop {
pubkey: Readable::read(reader)?,
+ node_features: Readable::read(reader)?,
short_channel_id: Readable::read(reader)?,
+ channel_features: Readable::read(reader)?,
fee_msat: Readable::read(reader)?,
cltv_expiry_delta: Readable::read(reader)?,
});
#[derive(PartialEq)]
struct ChannelInfo {
- features: GlobalFeatures,
+ features: ChannelFeatures,
one_to_two: DirectionalChannelInfo,
two_to_one: DirectionalChannelInfo,
//this is cached here so we can send out it later if required by route_init_sync
lowest_inbound_channel_fee_base_msat: u32,
lowest_inbound_channel_fee_proportional_millionths: u32,
- features: GlobalFeatures,
+ features: NodeFeatures,
last_update: u32,
rgb: [u8; 3],
alias: [u8; 32],
}
}
-struct MutNetworkMap<'a> {
- #[cfg(feature = "non_bitcoin_chain_hash_routing")]
- channels: &'a mut BTreeMap<(u64, Sha256dHash), ChannelInfo>,
- #[cfg(not(feature = "non_bitcoin_chain_hash_routing"))]
- channels: &'a mut BTreeMap<u64, ChannelInfo>,
- nodes: &'a mut BTreeMap<PublicKey, NodeInfo>,
-}
-impl NetworkMap {
- fn borrow_parts(&mut self) -> MutNetworkMap {
- MutNetworkMap {
- channels: &mut self.channels,
- nodes: &mut self.nodes,
- }
- }
-}
impl std::fmt::Display for NetworkMap {
fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
write!(f, "Node id {} network map\n[Channels]\n", log_pubkey!(self.our_node_id))?;
let msg_hash = hash_to_message!(&Sha256dHash::hash(&msg.contents.encode()[..])[..]);
secp_verify_sig!(self.secp_ctx, &msg_hash, &msg.signature, &msg.contents.node_id);
- if msg.contents.features.requires_unknown_bits() {
- panic!("Unknown-required-features NodeAnnouncements should never deserialize!");
- }
-
let mut network = self.network_map.write().unwrap();
match network.nodes.get_mut(&msg.contents.node_id) {
None => Err(LightningError{err: "No existing channels for node_announcement", action: ErrorAction::IgnoreError}),
node.alias = msg.contents.alias;
node.addresses = msg.contents.addresses.clone();
- let should_relay = msg.contents.excess_data.is_empty() && msg.contents.excess_address_data.is_empty() && !msg.contents.features.supports_unknown_bits();
+ let should_relay = msg.contents.excess_data.is_empty() && msg.contents.excess_address_data.is_empty();
node.announcement_message = if should_relay { Some(msg.clone()) } else { None };
Ok(should_relay)
}
secp_verify_sig!(self.secp_ctx, &msg_hash, &msg.bitcoin_signature_1, &msg.contents.bitcoin_key_1);
secp_verify_sig!(self.secp_ctx, &msg_hash, &msg.bitcoin_signature_2, &msg.contents.bitcoin_key_2);
- if msg.contents.features.requires_unknown_bits() {
- panic!("Unknown-required-features ChannelAnnouncements should never deserialize!");
- }
-
let checked_utxo = match self.chain_monitor.get_chain_utxo(msg.contents.chain_hash, msg.contents.short_channel_id) {
Ok((script_pubkey, _value)) => {
let expected_script = Builder::new().push_opcode(opcodes::all::OP_PUSHNUM_2)
};
let mut network_lock = self.network_map.write().unwrap();
- let network = network_lock.borrow_parts();
+ let network = &mut *network_lock;
- let should_relay = msg.contents.excess_data.is_empty() && !msg.contents.features.supports_unknown_bits();
+ let should_relay = msg.contents.excess_data.is_empty();
let chan_info = ChannelInfo {
features: msg.contents.features.clone(),
// b) we don't track UTXOs of channels we know about and remove them if they
// get reorg'd out.
// c) it's unclear how to do so without exposing ourselves to massive DoS risk.
- Self::remove_channel_in_nodes(network.nodes, &entry.get(), msg.contents.short_channel_id);
+ Self::remove_channel_in_nodes(&mut network.nodes, &entry.get(), msg.contents.short_channel_id);
*entry.get_mut() = chan_info;
} else {
return Err(LightningError{err: "Already have knowledge of channel", action: ErrorAction::IgnoreError})
channels: vec!(NetworkMap::get_key(msg.contents.short_channel_id, msg.contents.chain_hash)),
lowest_inbound_channel_fee_base_msat: u32::max_value(),
lowest_inbound_channel_fee_proportional_millionths: u32::max_value(),
- features: GlobalFeatures::new(),
+ features: NodeFeatures::empty(),
last_update: 0,
rgb: [0; 3],
alias: [0; 32],
channels: Vec::new(),
lowest_inbound_channel_fee_base_msat: u32::max_value(),
lowest_inbound_channel_fee_proportional_millionths: u32::max_value(),
- features: GlobalFeatures::new(),
+ features: NodeFeatures::empty(),
last_update: 0,
rgb: [0; 3],
alias: [0; 32],
return Ok(Route {
hops: vec![RouteHop {
pubkey: chan.remote_network_id,
+ node_features: NodeFeatures::with_known_relevant_init_flags(&chan.counterparty_features),
short_channel_id,
+ channel_features: ChannelFeatures::with_known_relevant_init_flags(&chan.counterparty_features),
fee_msat: final_value_msat,
cltv_expiry_delta: final_cltv,
}],
});
}
- first_hop_targets.insert(chan.remote_network_id, short_channel_id);
+ first_hop_targets.insert(chan.remote_network_id, (short_channel_id, chan.counterparty_features.clone()));
}
if first_hop_targets.is_empty() {
return Err(LightningError{err: "Cannot route when there are no outbound routes away from us", action: ErrorAction::IgnoreError});
// Adds entry which goes from the node pointed to by $directional_info to
// $dest_node_id over the channel with id $chan_id with fees described in
// $directional_info.
- ( $chan_id: expr, $dest_node_id: expr, $directional_info: expr, $starting_fee_msat: expr ) => {
+ ( $chan_id: expr, $dest_node_id: expr, $directional_info: expr, $chan_features: expr, $starting_fee_msat: expr ) => {
//TODO: Explore simply adding fee to hit htlc_minimum_msat
if $starting_fee_msat as u64 + final_value_msat >= $directional_info.htlc_minimum_msat {
let proportional_fee_millions = ($starting_fee_msat + final_value_msat).checked_mul($directional_info.fee_proportional_millionths as u64);
node.lowest_inbound_channel_fee_proportional_millionths,
RouteHop {
pubkey: $dest_node_id.clone(),
+ node_features: NodeFeatures::empty(),
short_channel_id: 0,
+ channel_features: $chan_features.clone(),
fee_msat: 0,
cltv_expiry_delta: 0,
})
old_entry.0 = total_fee;
old_entry.3 = RouteHop {
pubkey: $dest_node_id.clone(),
+ node_features: NodeFeatures::empty(),
short_channel_id: $chan_id.clone(),
+ channel_features: $chan_features.clone(),
fee_msat: new_fee, // This field is ignored on the last-hop anyway
cltv_expiry_delta: $directional_info.cltv_expiry_delta as u32,
}
macro_rules! add_entries_to_cheapest_to_target_node {
( $node: expr, $node_id: expr, $fee_to_target_msat: expr ) => {
if first_hops.is_some() {
- if let Some(first_hop) = first_hop_targets.get(&$node_id) {
- add_entry!(first_hop, $node_id, dummy_directional_info, $fee_to_target_msat);
+ if let Some(&(ref first_hop, ref features)) = first_hop_targets.get(&$node_id) {
+ add_entry!(first_hop, $node_id, dummy_directional_info, ChannelFeatures::with_known_relevant_init_flags(&features), $fee_to_target_msat);
}
}
- for chan_id in $node.channels.iter() {
- let chan = network.channels.get(chan_id).unwrap();
- if chan.one_to_two.src_node_id == *$node_id {
- // ie $node is one, ie next hop in A* is two, via the two_to_one channel
- if first_hops.is_none() || chan.two_to_one.src_node_id != network.our_node_id {
- if chan.two_to_one.enabled {
- add_entry!(chan_id, chan.one_to_two.src_node_id, chan.two_to_one, $fee_to_target_msat);
- }
- }
- } else {
- if first_hops.is_none() || chan.one_to_two.src_node_id != network.our_node_id {
- if chan.one_to_two.enabled {
- add_entry!(chan_id, chan.two_to_one.src_node_id, chan.one_to_two, $fee_to_target_msat);
+ if !$node.features.requires_unknown_bits() {
+ for chan_id in $node.channels.iter() {
+ let chan = network.channels.get(chan_id).unwrap();
+ if !chan.features.requires_unknown_bits() {
+ if chan.one_to_two.src_node_id == *$node_id {
+ // ie $node is one, ie next hop in A* is two, via the two_to_one channel
+ if first_hops.is_none() || chan.two_to_one.src_node_id != network.our_node_id {
+ if chan.two_to_one.enabled {
+ add_entry!(chan_id, chan.one_to_two.src_node_id, chan.two_to_one, chan.features, $fee_to_target_msat);
+ }
+ }
+ } else {
+ if first_hops.is_none() || chan.one_to_two.src_node_id != network.our_node_id {
+ if chan.one_to_two.enabled {
+ add_entry!(chan_id, chan.two_to_one.src_node_id, chan.one_to_two, chan.features, $fee_to_target_msat);
+ }
+ }
}
}
}
if first_hops.is_none() || hop.src_node_id != network.our_node_id { // first_hop overrules last_hops
if network.nodes.get(&hop.src_node_id).is_some() {
if first_hops.is_some() {
- if let Some(first_hop) = first_hop_targets.get(&hop.src_node_id) {
- add_entry!(first_hop, hop.src_node_id, dummy_directional_info, 0);
+ if let Some(&(ref first_hop, ref features)) = first_hop_targets.get(&hop.src_node_id) {
+ // Currently there are no channel-context features defined, so we are a
+ // bit lazy here. In the future, we should pull them out via our
+ // ChannelManager, but there's no reason to waste the space until we
+ // need them.
+ add_entry!(first_hop, hop.src_node_id, dummy_directional_info, ChannelFeatures::with_known_relevant_init_flags(&features), 0);
}
}
- add_entry!(hop.short_channel_id, target, hop, 0);
+ // BOLT 11 doesn't allow inclusion of features for the last hop hints, which
+ // really sucks, cause we're gonna need that eventually.
+ add_entry!(hop.short_channel_id, target, hop, ChannelFeatures::empty(), 0);
}
}
}
while let Some(RouteGraphNode { pubkey, lowest_fee_to_node, .. }) = targets.pop() {
if pubkey == network.our_node_id {
let mut res = vec!(dist.remove(&network.our_node_id).unwrap().3);
- while res.last().unwrap().pubkey != *target {
+ loop {
+ if let Some(&(_, ref features)) = first_hop_targets.get(&res.last().unwrap().pubkey) {
+ res.last_mut().unwrap().node_features = NodeFeatures::with_known_relevant_init_flags(&features);
+ } else if let Some(node) = network.nodes.get(&res.last().unwrap().pubkey) {
+ res.last_mut().unwrap().node_features = node.features.clone();
+ } else {
+ // We should be able to fill in features for everything except the last
+ // hop, if the last hop was provided via a BOLT 11 invoice (though we
+ // should be able to extend it further as BOLT 11 does have feature
+ // flags for the last hop node itself).
+ assert!(res.last().unwrap().pubkey == *target);
+ }
+ if res.last().unwrap().pubkey == *target {
+ break;
+ }
+
let new_entry = match dist.remove(&res.last().unwrap().pubkey) {
Some(hop) => hop.3,
None => return Err(LightningError{err: "Failed to find a non-fee-overflowing path to the given destination", action: ErrorAction::IgnoreError}),
use chain::chaininterface;
use ln::channelmanager;
use ln::router::{Router,NodeInfo,NetworkMap,ChannelInfo,DirectionalChannelInfo,RouteHint};
- use ln::msgs::GlobalFeatures;
+ use ln::features::{ChannelFeatures, InitFeatures, NodeFeatures};
+ use ln::msgs::{LightningError, ErrorAction};
use util::test_utils;
use util::test_utils::TestVecWriter;
use util::logger::Logger;
let zero_hash = Sha256dHash::hash(&[0; 32]);
+ macro_rules! id_to_feature_flags {
+ // Set the feature flags to the id'th odd (ie non-required) feature bit so that we can
+ // test for it later.
+ ($id: expr) => { {
+ let idx = ($id - 1) * 2 + 1;
+ if idx > 8*3 {
+ vec![1 << (idx - 8*3), 0, 0, 0]
+ } else if idx > 8*2 {
+ vec![1 << (idx - 8*2), 0, 0]
+ } else if idx > 8*1 {
+ vec![1 << (idx - 8*1), 0]
+ } else {
+ vec![1 << idx]
+ }
+ } }
+ }
+
{
let mut network = router.network_map.write().unwrap();
channels: vec!(NetworkMap::get_key(1, zero_hash.clone()), NetworkMap::get_key(3, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 100,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(1)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(1, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(1)),
one_to_two: DirectionalChannelInfo {
src_node_id: our_id.clone(),
last_update: 0,
channels: vec!(NetworkMap::get_key(2, zero_hash.clone()), NetworkMap::get_key(4, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(2)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(2, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(2)),
one_to_two: DirectionalChannelInfo {
src_node_id: our_id.clone(),
last_update: 0,
channels: vec!(NetworkMap::get_key(12, zero_hash.clone()), NetworkMap::get_key(13, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(8)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(12, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(12)),
one_to_two: DirectionalChannelInfo {
src_node_id: our_id.clone(),
last_update: 0,
NetworkMap::get_key(7, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(3)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(3, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(3)),
one_to_two: DirectionalChannelInfo {
src_node_id: node1.clone(),
last_update: 0,
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(4, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(4)),
one_to_two: DirectionalChannelInfo {
src_node_id: node2.clone(),
last_update: 0,
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(13, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(13)),
one_to_two: DirectionalChannelInfo {
src_node_id: node8.clone(),
last_update: 0,
channels: vec!(NetworkMap::get_key(5, zero_hash.clone()), NetworkMap::get_key(11, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(4)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(5, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(5)),
one_to_two: DirectionalChannelInfo {
src_node_id: node3.clone(),
last_update: 0,
channels: vec!(NetworkMap::get_key(6, zero_hash.clone()), NetworkMap::get_key(11, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(5)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(6, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(6)),
one_to_two: DirectionalChannelInfo {
src_node_id: node3.clone(),
last_update: 0,
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(11, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(11)),
one_to_two: DirectionalChannelInfo {
src_node_id: node5.clone(),
last_update: 0,
channels: vec!(NetworkMap::get_key(7, zero_hash.clone())),
lowest_inbound_channel_fee_base_msat: 0,
lowest_inbound_channel_fee_proportional_millionths: 0,
- features: GlobalFeatures::new(),
+ features: NodeFeatures::from_le_bytes(id_to_feature_flags!(6)),
last_update: 1,
rgb: [0; 3],
alias: [0; 32],
announcement_message: None,
});
network.channels.insert(NetworkMap::get_key(7, zero_hash.clone()), ChannelInfo {
- features: GlobalFeatures::new(),
+ features: ChannelFeatures::from_le_bytes(id_to_feature_flags!(7)),
one_to_two: DirectionalChannelInfo {
src_node_id: node3.clone(),
last_update: 0,
assert_eq!(route.hops[0].short_channel_id, 2);
assert_eq!(route.hops[0].fee_msat, 100);
assert_eq!(route.hops[0].cltv_expiry_delta, (4 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &id_to_feature_flags!(2));
+ assert_eq!(route.hops[0].channel_features.le_flags(), &id_to_feature_flags!(2));
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 4);
assert_eq!(route.hops[1].fee_msat, 100);
assert_eq!(route.hops[1].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(4));
+ }
+
+ { // Disable channels 4 and 12 by requiring unknown feature bits
+ let mut network = router.network_map.write().unwrap();
+ network.channels.get_mut(&NetworkMap::get_key(4, zero_hash.clone())).unwrap().features.set_require_unknown_bits();
+ network.channels.get_mut(&NetworkMap::get_key(12, zero_hash.clone())).unwrap().features.set_require_unknown_bits();
+ }
+
+ { // If all the channels require some features we don't understand, route should fail
+ if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = router.get_route(&node3, None, &Vec::new(), 100, 42) {
+ assert_eq!(err, "Failed to find a path to the given destination");
+ } else { panic!(); }
}
+ { // If we specify a channel to node8, that overrides our local channel view and that gets used
+ let our_chans = vec![channelmanager::ChannelDetails {
+ channel_id: [0; 32],
+ short_channel_id: Some(42),
+ remote_network_id: node8.clone(),
+ counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
+ channel_value_satoshis: 0,
+ user_id: 0,
+ outbound_capacity_msat: 0,
+ inbound_capacity_msat: 0,
+ is_live: true,
+ }];
+ let route = router.get_route(&node3, Some(&our_chans), &Vec::new(), 100, 42).unwrap();
+ assert_eq!(route.hops.len(), 2);
+
+ assert_eq!(route.hops[0].pubkey, node8);
+ assert_eq!(route.hops[0].short_channel_id, 42);
+ assert_eq!(route.hops[0].fee_msat, 200);
+ assert_eq!(route.hops[0].cltv_expiry_delta, (13 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &vec![0b11]); // it should also override our view of their features
+ assert_eq!(route.hops[0].channel_features.le_flags(), &Vec::new()); // No feature flags will meet the relevant-to-channel conversion
+
+ assert_eq!(route.hops[1].pubkey, node3);
+ assert_eq!(route.hops[1].short_channel_id, 13);
+ assert_eq!(route.hops[1].fee_msat, 100);
+ assert_eq!(route.hops[1].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(13));
+ }
+
+ { // Re-enable channels 4 and 12 by wiping the unknown feature bits
+ let mut network = router.network_map.write().unwrap();
+ network.channels.get_mut(&NetworkMap::get_key(4, zero_hash.clone())).unwrap().features.clear_require_unknown_bits();
+ network.channels.get_mut(&NetworkMap::get_key(12, zero_hash.clone())).unwrap().features.clear_require_unknown_bits();
+ }
+
+ { // Disable nodes 1, 2, and 8 by requiring unknown feature bits
+ let mut network = router.network_map.write().unwrap();
+ network.nodes.get_mut(&node1).unwrap().features.set_require_unknown_bits();
+ network.nodes.get_mut(&node2).unwrap().features.set_require_unknown_bits();
+ network.nodes.get_mut(&node8).unwrap().features.set_require_unknown_bits();
+ }
+
+ { // If all nodes require some features we don't understand, route should fail
+ if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = router.get_route(&node3, None, &Vec::new(), 100, 42) {
+ assert_eq!(err, "Failed to find a path to the given destination");
+ } else { panic!(); }
+ }
+
+ { // If we specify a channel to node8, that overrides our local channel view and that gets used
+ let our_chans = vec![channelmanager::ChannelDetails {
+ channel_id: [0; 32],
+ short_channel_id: Some(42),
+ remote_network_id: node8.clone(),
+ counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
+ channel_value_satoshis: 0,
+ user_id: 0,
+ outbound_capacity_msat: 0,
+ inbound_capacity_msat: 0,
+ is_live: true,
+ }];
+ let route = router.get_route(&node3, Some(&our_chans), &Vec::new(), 100, 42).unwrap();
+ assert_eq!(route.hops.len(), 2);
+
+ assert_eq!(route.hops[0].pubkey, node8);
+ assert_eq!(route.hops[0].short_channel_id, 42);
+ assert_eq!(route.hops[0].fee_msat, 200);
+ assert_eq!(route.hops[0].cltv_expiry_delta, (13 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &vec![0b11]); // it should also override our view of their features
+ assert_eq!(route.hops[0].channel_features.le_flags(), &Vec::new()); // No feature flags will meet the relevant-to-channel conversion
+
+ assert_eq!(route.hops[1].pubkey, node3);
+ assert_eq!(route.hops[1].short_channel_id, 13);
+ assert_eq!(route.hops[1].fee_msat, 100);
+ assert_eq!(route.hops[1].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(13));
+ }
+
+ { // Re-enable nodes 1, 2, and 8
+ let mut network = router.network_map.write().unwrap();
+ network.nodes.get_mut(&node1).unwrap().features.clear_require_unknown_bits();
+ network.nodes.get_mut(&node2).unwrap().features.clear_require_unknown_bits();
+ network.nodes.get_mut(&node8).unwrap().features.clear_require_unknown_bits();
+ }
+
+ // Note that we don't test disabling node 3 and failing to route to it, as we (somewhat
+ // naively) assume that the user checked the feature bits on the invoice, which override
+ // the node_announcement.
+
{ // Route to 1 via 2 and 3 because our channel to 1 is disabled
let route = router.get_route(&node1, None, &Vec::new(), 100, 42).unwrap();
assert_eq!(route.hops.len(), 3);
assert_eq!(route.hops[0].short_channel_id, 2);
assert_eq!(route.hops[0].fee_msat, 200);
assert_eq!(route.hops[0].cltv_expiry_delta, (4 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &id_to_feature_flags!(2));
+ assert_eq!(route.hops[0].channel_features.le_flags(), &id_to_feature_flags!(2));
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 4);
assert_eq!(route.hops[1].fee_msat, 100);
assert_eq!(route.hops[1].cltv_expiry_delta, (3 << 8) | 2);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(4));
assert_eq!(route.hops[2].pubkey, node1);
assert_eq!(route.hops[2].short_channel_id, 3);
assert_eq!(route.hops[2].fee_msat, 100);
assert_eq!(route.hops[2].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[2].node_features.le_flags(), &id_to_feature_flags!(1));
+ assert_eq!(route.hops[2].channel_features.le_flags(), &id_to_feature_flags!(3));
}
{ // If we specify a channel to node8, that overrides our local channel view and that gets used
channel_id: [0; 32],
short_channel_id: Some(42),
remote_network_id: node8.clone(),
+ counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
outbound_capacity_msat: 0,
assert_eq!(route.hops[0].short_channel_id, 42);
assert_eq!(route.hops[0].fee_msat, 200);
assert_eq!(route.hops[0].cltv_expiry_delta, (13 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &vec![0b11]);
+ assert_eq!(route.hops[0].channel_features.le_flags(), &Vec::new()); // No feature flags will meet the relevant-to-channel conversion
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 13);
assert_eq!(route.hops[1].fee_msat, 100);
assert_eq!(route.hops[1].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(13));
}
let mut last_hops = vec!(RouteHint {
assert_eq!(route.hops[0].short_channel_id, 2);
assert_eq!(route.hops[0].fee_msat, 100);
assert_eq!(route.hops[0].cltv_expiry_delta, (4 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &id_to_feature_flags!(2));
+ assert_eq!(route.hops[0].channel_features.le_flags(), &id_to_feature_flags!(2));
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 4);
assert_eq!(route.hops[1].fee_msat, 0);
assert_eq!(route.hops[1].cltv_expiry_delta, (6 << 8) | 1);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(4));
assert_eq!(route.hops[2].pubkey, node5);
assert_eq!(route.hops[2].short_channel_id, 6);
assert_eq!(route.hops[2].fee_msat, 0);
assert_eq!(route.hops[2].cltv_expiry_delta, (11 << 8) | 1);
+ assert_eq!(route.hops[2].node_features.le_flags(), &id_to_feature_flags!(5));
+ assert_eq!(route.hops[2].channel_features.le_flags(), &id_to_feature_flags!(6));
assert_eq!(route.hops[3].pubkey, node4);
assert_eq!(route.hops[3].short_channel_id, 11);
assert_eq!(route.hops[3].fee_msat, 0);
assert_eq!(route.hops[3].cltv_expiry_delta, (8 << 8) | 1);
+ // If we have a peer in the node map, we'll use their features here since we don't have
+ // a way of figuring out their features from the invoice:
+ assert_eq!(route.hops[3].node_features.le_flags(), &id_to_feature_flags!(4));
+ assert_eq!(route.hops[3].channel_features.le_flags(), &id_to_feature_flags!(11));
assert_eq!(route.hops[4].pubkey, node7);
assert_eq!(route.hops[4].short_channel_id, 8);
assert_eq!(route.hops[4].fee_msat, 100);
assert_eq!(route.hops[4].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[4].node_features.le_flags(), &Vec::new()); // We dont pass flags in from invoices yet
+ assert_eq!(route.hops[4].channel_features.le_flags(), &Vec::new()); // We can't learn any flags from invoices, sadly
}
{ // Simple test with outbound channel to 4 to test that last_hops and first_hops connect
channel_id: [0; 32],
short_channel_id: Some(42),
remote_network_id: node4.clone(),
+ counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
outbound_capacity_msat: 0,
assert_eq!(route.hops[0].short_channel_id, 42);
assert_eq!(route.hops[0].fee_msat, 0);
assert_eq!(route.hops[0].cltv_expiry_delta, (8 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &vec![0b11]);
+ assert_eq!(route.hops[0].channel_features.le_flags(), &Vec::new()); // No feature flags will meet the relevant-to-channel conversion
assert_eq!(route.hops[1].pubkey, node7);
assert_eq!(route.hops[1].short_channel_id, 8);
assert_eq!(route.hops[1].fee_msat, 100);
assert_eq!(route.hops[1].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[1].node_features.le_flags(), &Vec::new()); // We dont pass flags in from invoices yet
+ assert_eq!(route.hops[1].channel_features.le_flags(), &Vec::new()); // We can't learn any flags from invoices, sadly
}
last_hops[0].fee_base_msat = 1000;
assert_eq!(route.hops[0].short_channel_id, 2);
assert_eq!(route.hops[0].fee_msat, 200); // fee increased as its % of value transferred across node
assert_eq!(route.hops[0].cltv_expiry_delta, (4 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &id_to_feature_flags!(2));
+ assert_eq!(route.hops[0].channel_features.le_flags(), &id_to_feature_flags!(2));
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 4);
assert_eq!(route.hops[1].fee_msat, 100);
assert_eq!(route.hops[1].cltv_expiry_delta, (7 << 8) | 1);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(4));
assert_eq!(route.hops[2].pubkey, node6);
assert_eq!(route.hops[2].short_channel_id, 7);
assert_eq!(route.hops[2].fee_msat, 0);
assert_eq!(route.hops[2].cltv_expiry_delta, (10 << 8) | 1);
+ // If we have a peer in the node map, we'll use their features here since we don't have
+ // a way of figuring out their features from the invoice:
+ assert_eq!(route.hops[2].node_features.le_flags(), &id_to_feature_flags!(6));
+ assert_eq!(route.hops[2].channel_features.le_flags(), &id_to_feature_flags!(7));
assert_eq!(route.hops[3].pubkey, node7);
assert_eq!(route.hops[3].short_channel_id, 10);
assert_eq!(route.hops[3].fee_msat, 100);
assert_eq!(route.hops[3].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[3].node_features.le_flags(), &Vec::new()); // We dont pass flags in from invoices yet
+ assert_eq!(route.hops[3].channel_features.le_flags(), &Vec::new()); // We can't learn any flags from invoices, sadly
}
{ // ...but still use 8 for larger payments as 6 has a variable feerate
assert_eq!(route.hops[0].short_channel_id, 2);
assert_eq!(route.hops[0].fee_msat, 3000);
assert_eq!(route.hops[0].cltv_expiry_delta, (4 << 8) | 1);
+ assert_eq!(route.hops[0].node_features.le_flags(), &id_to_feature_flags!(2));
+ assert_eq!(route.hops[0].channel_features.le_flags(), &id_to_feature_flags!(2));
assert_eq!(route.hops[1].pubkey, node3);
assert_eq!(route.hops[1].short_channel_id, 4);
assert_eq!(route.hops[1].fee_msat, 0);
assert_eq!(route.hops[1].cltv_expiry_delta, (6 << 8) | 1);
+ assert_eq!(route.hops[1].node_features.le_flags(), &id_to_feature_flags!(3));
+ assert_eq!(route.hops[1].channel_features.le_flags(), &id_to_feature_flags!(4));
assert_eq!(route.hops[2].pubkey, node5);
assert_eq!(route.hops[2].short_channel_id, 6);
assert_eq!(route.hops[2].fee_msat, 0);
assert_eq!(route.hops[2].cltv_expiry_delta, (11 << 8) | 1);
+ assert_eq!(route.hops[2].node_features.le_flags(), &id_to_feature_flags!(5));
+ assert_eq!(route.hops[2].channel_features.le_flags(), &id_to_feature_flags!(6));
assert_eq!(route.hops[3].pubkey, node4);
assert_eq!(route.hops[3].short_channel_id, 11);
assert_eq!(route.hops[3].fee_msat, 1000);
assert_eq!(route.hops[3].cltv_expiry_delta, (8 << 8) | 1);
+ // If we have a peer in the node map, we'll use their features here since we don't have
+ // a way of figuring out their features from the invoice:
+ assert_eq!(route.hops[3].node_features.le_flags(), &id_to_feature_flags!(4));
+ assert_eq!(route.hops[3].channel_features.le_flags(), &id_to_feature_flags!(11));
assert_eq!(route.hops[4].pubkey, node7);
assert_eq!(route.hops[4].short_channel_id, 8);
assert_eq!(route.hops[4].fee_msat, 2000);
assert_eq!(route.hops[4].cltv_expiry_delta, 42);
+ assert_eq!(route.hops[4].node_features.le_flags(), &Vec::new()); // We dont pass flags in from invoices yet
+ assert_eq!(route.hops[4].channel_features.le_flags(), &Vec::new()); // We can't learn any flags from invoices, sadly
}
{ // Test Router serialization/deserialization