+// This file is Copyright its original authors, visible in version control
+// history.
+//
+// This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
+// or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
+// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
+// You may not use this file except in accordance with one or both of these
+// licenses.
+
//! The top-level network map tracking logic lives here.
use bitcoin::secp256k1::key::PublicKey;
use chain::chaininterface::{ChainError, ChainWatchInterface};
use ln::features::{ChannelFeatures, NodeFeatures};
-use ln::msgs::{DecodeError,ErrorAction,LightningError,RoutingMessageHandler,NetAddress};
+use ln::msgs::{DecodeError, ErrorAction, LightningError, RoutingMessageHandler, NetAddress, OptionalField, MAX_VALUE_MSAT};
use ln::msgs;
use util::ser::{Writeable, Readable, Writer};
use util::logger::Logger;
-use std::cmp;
-use std::sync::{RwLock,Arc};
+use std::{cmp, fmt};
+use std::sync::RwLock;
use std::sync::atomic::{AtomicUsize, Ordering};
use std::collections::BTreeMap;
use std::collections::btree_map::Entry as BtreeEntry;
-use std;
-
-/// Receives network updates from peers to track view of the network.
-pub struct NetGraphMsgHandler {
+use std::ops::Deref;
+use bitcoin::hashes::hex::ToHex;
+
+/// Receives and validates network updates from peers,
+/// stores authentic and relevant data as a network graph.
+/// This network graph is then used for routing payments.
+/// Provides interface to help with initial routing sync by
+/// serving historical announcements.
+pub struct NetGraphMsgHandler<C: Deref, L: Deref> where C::Target: ChainWatchInterface, L::Target: Logger {
secp_ctx: Secp256k1<secp256k1::VerifyOnly>,
/// Representation of the payment channel network
pub network_graph: RwLock<NetworkGraph>,
- chain_monitor: Arc<ChainWatchInterface>,
+ chain_monitor: C,
full_syncs_requested: AtomicUsize,
- logger: Arc<Logger>,
+ logger: L,
}
-impl NetGraphMsgHandler {
+impl<C: Deref, L: Deref> NetGraphMsgHandler<C, L> where C::Target: ChainWatchInterface, L::Target: Logger {
/// Creates a new tracker of the actual state of the network of channels and nodes,
- /// assuming fresh Network Graph
- pub fn new(chain_monitor: Arc<ChainWatchInterface>, logger: Arc<Logger>) -> Self {
+ /// assuming a fresh network graph.
+ /// Chain monitor is used to make sure announced channels exist on-chain,
+ /// channel data is correct, and that the announcement is signed with
+ /// channel owners' keys.
+ pub fn new(chain_monitor: C, logger: L) -> Self {
NetGraphMsgHandler {
secp_ctx: Secp256k1::verification_only(),
network_graph: RwLock::new(NetworkGraph {
}),
full_syncs_requested: AtomicUsize::new(0),
chain_monitor,
- logger: logger.clone(),
+ logger,
}
}
/// Creates a new tracker of the actual state of the network of channels and nodes,
/// assuming an existing Network Graph.
- pub fn from_net_graph(chain_monitor: Arc<ChainWatchInterface>, logger: Arc<Logger>, network_graph: RwLock<NetworkGraph>) -> Self {
+ pub fn from_net_graph(chain_monitor: C, logger: L, network_graph: NetworkGraph) -> Self {
NetGraphMsgHandler {
secp_ctx: Secp256k1::verification_only(),
- network_graph: network_graph,
+ network_graph: RwLock::new(network_graph),
full_syncs_requested: AtomicUsize::new(0),
chain_monitor,
- logger: logger.clone(),
- }
- }
-
- /// Get network addresses by node id
- pub fn get_addresses(&self, pubkey: &PublicKey) -> Option<Vec<NetAddress>> {
- let network = self.network_graph.read().unwrap();
- if let Some(node) = network.get_nodes().get(pubkey) {
- if let Some(node_info) = node.announcement_info.as_ref() {
- return Some(node_info.addresses.clone())
- }
+ logger,
}
- None
- }
-
- /// Dumps the entire network view of this NetGraphMsgHandler to the logger provided in the constructor at
- /// level Trace
- pub fn trace_state(&self) {
- log_trace!(self, "{}", self.network_graph.read().unwrap());
}
}
( $secp_ctx: expr, $msg: expr, $sig: expr, $pubkey: expr ) => {
match $secp_ctx.verify($msg, $sig, $pubkey) {
Ok(_) => {},
- Err(_) => return Err(LightningError{err: "Invalid signature from remote node", action: ErrorAction::IgnoreError}),
+ Err(_) => return Err(LightningError{err: "Invalid signature from remote node".to_owned(), action: ErrorAction::IgnoreError}),
}
};
}
-impl RoutingMessageHandler for NetGraphMsgHandler {
+impl<C: Deref + Sync + Send, L: Deref + Sync + Send> RoutingMessageHandler for NetGraphMsgHandler<C, L> where C::Target: ChainWatchInterface, L::Target: Logger {
fn handle_node_announcement(&self, msg: &msgs::NodeAnnouncement) -> Result<bool, LightningError> {
self.network_graph.write().unwrap().update_node_from_announcement(msg, Some(&self.secp_ctx))
}
fn handle_channel_announcement(&self, msg: &msgs::ChannelAnnouncement) -> Result<bool, LightningError> {
if msg.contents.node_id_1 == msg.contents.node_id_2 || msg.contents.bitcoin_key_1 == msg.contents.bitcoin_key_2 {
- return Err(LightningError{err: "Channel announcement node had a channel with itself", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: "Channel announcement node had a channel with itself".to_owned(), action: ErrorAction::IgnoreError});
}
- let checked_utxo = match self.chain_monitor.get_chain_utxo(msg.contents.chain_hash, msg.contents.short_channel_id) {
- Ok((script_pubkey, _value)) => {
+ let utxo_value = 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)
.push_slice(&msg.contents.bitcoin_key_1.serialize())
.push_slice(&msg.contents.bitcoin_key_2.serialize())
.push_opcode(opcodes::all::OP_PUSHNUM_2)
.push_opcode(opcodes::all::OP_CHECKMULTISIG).into_script().to_v0_p2wsh();
if script_pubkey != expected_script {
- return Err(LightningError{err: "Channel announcement keys didn't match on-chain script", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: format!("Channel announcement key ({}) didn't match on-chain script ({})", script_pubkey.to_hex(), expected_script.to_hex()), action: ErrorAction::IgnoreError});
}
//TODO: Check if value is worth storing, use it to inform routing, and compare it
//to the new HTLC max field in channel_update
- true
+ Some(value)
},
Err(ChainError::NotSupported) => {
// Tentatively accept, potentially exposing us to DoS attacks
- false
+ None
},
Err(ChainError::NotWatched) => {
- return Err(LightningError{err: "Channel announced on an unknown chain", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: format!("Channel announced on an unknown chain ({})", msg.contents.chain_hash.encode().to_hex()), action: ErrorAction::IgnoreError});
},
Err(ChainError::UnknownTx) => {
- return Err(LightningError{err: "Channel announced without corresponding UTXO entry", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: "Channel announced without corresponding UTXO entry".to_owned(), action: ErrorAction::IgnoreError});
},
};
- let result = self.network_graph.write().unwrap().update_channel_from_announcement(msg, checked_utxo, Some(&self.secp_ctx));
- log_trace!(self, "Added channel_announcement for {}{}", msg.contents.short_channel_id, if !msg.contents.excess_data.is_empty() { " with excess uninterpreted data!" } else { "" });
+ let result = self.network_graph.write().unwrap().update_channel_from_announcement(msg, utxo_value, Some(&self.secp_ctx));
+ log_trace!(self.logger, "Added channel_announcement for {}{}", msg.contents.short_channel_id, if !msg.contents.excess_data.is_empty() { " with excess uninterpreted data!" } else { "" });
result
}
&msgs::HTLCFailChannelUpdate::ChannelUpdateMessage { ref msg } => {
let _ = self.network_graph.write().unwrap().update_channel(msg, Some(&self.secp_ctx));
},
- &msgs::HTLCFailChannelUpdate::ChannelClosed { ref short_channel_id, ref is_permanent } => {
- self.network_graph.write().unwrap().close_channel_from_update(short_channel_id, &is_permanent);
+ &msgs::HTLCFailChannelUpdate::ChannelClosed { short_channel_id, is_permanent } => {
+ self.network_graph.write().unwrap().close_channel_from_update(short_channel_id, is_permanent);
},
- &msgs::HTLCFailChannelUpdate::NodeFailure { ref node_id, ref is_permanent } => {
- self.network_graph.write().unwrap().fail_node(node_id, &is_permanent);
+ &msgs::HTLCFailChannelUpdate::NodeFailure { ref node_id, is_permanent } => {
+ self.network_graph.write().unwrap().fail_node(node_id, is_permanent);
},
}
}
}
#[derive(PartialEq, Debug)]
-/// Details regarding one direction of a channel
+/// Details about one direction of a channel. Received
+/// within a channel update.
pub struct DirectionalChannelInfo {
- /// When the last update to the channel direction was issued
+ /// When the last update to the channel direction was issued.
+ /// Value is opaque, as set in the announcement.
pub last_update: u32,
- /// Whether the channel can be currently used for payments
+ /// Whether the channel can be currently used for payments (in this one direction).
pub enabled: bool,
- /// The difference in CLTV values between the source and the destination node of the channel
+ /// The difference in CLTV values that you must have when routing through this channel.
pub cltv_expiry_delta: u16,
/// The minimum value, which must be relayed to the next hop via the channel
pub htlc_minimum_msat: u64,
+ /// The maximum value which may be relayed to the next hop via the channel.
+ pub htlc_maximum_msat: Option<u64>,
/// Fees charged when the channel is used for routing
pub fees: RoutingFees,
/// Most recent update for the channel received from the network
+ /// Mostly redundant with the data we store in fields explicitly.
+ /// Everything else is useful only for sending out for initial routing sync.
+ /// Not stored if contains excess data to prevent DoS.
pub last_update_message: Option<msgs::ChannelUpdate>,
}
-impl std::fmt::Display for DirectionalChannelInfo {
- fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
+impl fmt::Display for DirectionalChannelInfo {
+ fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "last_update {}, enabled {}, cltv_expiry_delta {}, htlc_minimum_msat {}, fees {:?}", self.last_update, self.enabled, self.cltv_expiry_delta, self.htlc_minimum_msat, self.fees)?;
Ok(())
}
enabled,
cltv_expiry_delta,
htlc_minimum_msat,
+ htlc_maximum_msat,
fees,
last_update_message
});
#[derive(PartialEq)]
-/// Details regarding a channel (both directions)
+/// Details about a channel (both directions).
+/// Received within a channel announcement.
pub struct ChannelInfo {
/// Protocol features of a channel communicated during its announcement
pub features: ChannelFeatures,
pub node_two: PublicKey,
/// Details about the second direction of a channel
pub two_to_one: Option<DirectionalChannelInfo>,
+ /// The channel capacity as seen on-chain, if chain lookup is available.
+ pub capacity_sats: Option<u64>,
/// An initial announcement of the channel
- //this is cached here so we can send out it later if required by initial routing sync
- //keep an eye on this to see if the extra memory is a problem
+ /// Mostly redundant with the data we store in fields explicitly.
+ /// Everything else is useful only for sending out for initial routing sync.
+ /// Not stored if contains excess data to prevent DoS.
pub announcement_message: Option<msgs::ChannelAnnouncement>,
}
-impl std::fmt::Display for ChannelInfo {
- fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
+impl fmt::Display for ChannelInfo {
+ fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "features: {}, node_one: {}, one_to_two: {:?}, node_two: {}, two_to_one: {:?}",
log_bytes!(self.features.encode()), log_pubkey!(self.node_one), self.one_to_two, log_pubkey!(self.node_two), self.two_to_one)?;
Ok(())
one_to_two,
node_two,
two_to_one,
+ capacity_sats,
announcement_message
});
/// Fees for routing via a given channel or a node
#[derive(Eq, PartialEq, Copy, Clone, Debug)]
pub struct RoutingFees {
- /// Flat routing fee
+ /// Flat routing fee in satoshis
pub base_msat: u32,
- /// Liquidity-based routing fee
+ /// Liquidity-based routing fee in millionths of a routed amount.
+ /// In other words, 10000 is 1%.
pub proportional_millionths: u32,
}
/// Information received in the latest node_announcement from this node.
pub struct NodeAnnouncementInfo {
/// Protocol features the node announced support for
- pub features: NodeFeatures,
- /// When the last known update to the node state was issued
- pub last_update: u32,
+ pub features: NodeFeatures,
+ /// When the last known update to the node state was issued.
+ /// Value is opaque, as set in the announcement.
+ pub last_update: u32,
/// Color assigned to the node
pub rgb: [u8; 3],
- /// Moniker assigned to the node
+ /// Moniker assigned to the node.
+ /// May be invalid or malicious (eg control chars),
+ /// should not be exposed to the user.
pub alias: [u8; 32],
/// Internet-level addresses via which one can connect to the node
pub addresses: Vec<NetAddress>,
/// An initial announcement of the node
- // this is cached here so we can send out it later if required by initial routing sync
- // keep an eye on this to see if the extra memory is a problem
+ /// Mostly redundant with the data we store in fields explicitly.
+ /// Everything else is useful only for sending out for initial routing sync.
+ /// Not stored if contains excess data to prevent DoS.
pub announcement_message: Option<msgs::NodeAnnouncement>
}
}
#[derive(PartialEq)]
-/// Details regarding a node in the network
+/// Details about a node in the network, known from the network announcement.
pub struct NodeInfo {
/// All valid channels a node has announced
pub channels: Vec<u64>,
- /// Lowest fees enabling routing via any of the known channels to a node
+ /// Lowest fees enabling routing via any of the enabled, known channels to a node.
+ /// The two fields (flat and proportional fee) are independent,
+ /// meaning they don't have to refer to the same channel.
pub lowest_inbound_channel_fees: Option<RoutingFees>,
- /// More information about a node from node_announcement
- /// Optional because we may have a NodeInfo entry before having received the announcement
+ /// More information about a node from node_announcement.
+ /// Optional because we store a Node entry after learning about it from
+ /// a channel announcement, but before receiving a node announcement.
pub announcement_info: Option<NodeAnnouncementInfo>
}
-impl std::fmt::Display for NodeInfo {
- fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
+impl fmt::Display for NodeInfo {
+ fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "lowest_inbound_channel_fees: {:?}, channels: {:?}, announcement_info: {:?}",
self.lowest_inbound_channel_fees, &self.channels[..], self.announcement_info)?;
Ok(())
}
}
-impl std::fmt::Display for NetworkGraph {
- fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
+impl fmt::Display for NetworkGraph {
+ fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "Network map\n[Channels]\n")?;
for (key, val) in self.channels.iter() {
write!(f, " {}: {}\n", key, val)?;
}
impl NetworkGraph {
- /// Returns all known valid channels
+ /// Returns all known valid channels' short ids along with announced channel info.
pub fn get_channels<'a>(&'a self) -> &'a BTreeMap<u64, ChannelInfo> { &self.channels }
- /// Returns all known nodes
+ /// Returns all known nodes' public keys along with announced node info.
pub fn get_nodes<'a>(&'a self) -> &'a BTreeMap<PublicKey, NodeInfo> { &self.nodes }
+ /// Get network addresses by node id.
+ /// Returns None if the requested node is completely unknown,
+ /// or if node announcement for the node was never received.
+ pub fn get_addresses<'a>(&'a self, pubkey: &PublicKey) -> Option<&'a Vec<NetAddress>> {
+ if let Some(node) = self.nodes.get(pubkey) {
+ if let Some(node_info) = node.announcement_info.as_ref() {
+ return Some(&node_info.addresses)
+ }
+ }
+ None
+ }
+
+ /// Creates a new, empty, network graph.
+ pub fn new() -> NetworkGraph {
+ Self {
+ channels: BTreeMap::new(),
+ nodes: BTreeMap::new(),
+ }
+ }
+
/// For an already known node (from channel announcements), update its stored properties from a given node announcement
/// Announcement signatures are checked here only if Secp256k1 object is provided.
fn update_node_from_announcement(&mut self, msg: &msgs::NodeAnnouncement, secp_ctx: Option<&Secp256k1<secp256k1::VerifyOnly>>) -> Result<bool, LightningError> {
}
match self.nodes.get_mut(&msg.contents.node_id) {
- None => Err(LightningError{err: "No existing channels for node_announcement", action: ErrorAction::IgnoreError}),
+ None => Err(LightningError{err: "No existing channels for node_announcement".to_owned(), action: ErrorAction::IgnoreError}),
Some(node) => {
if let Some(node_info) = node.announcement_info.as_ref() {
if node_info.last_update >= msg.contents.timestamp {
- return Err(LightningError{err: "Update older than last processed update", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: "Update older than last processed update".to_owned(), action: ErrorAction::IgnoreError});
}
}
}
}
- /// For a new or already known (from previous announcement) channel, store or update channel info,
- /// after making sure it corresponds to a real transaction on-chain.
+ /// For a new or already known (from previous announcement) channel, store or update channel info.
/// Also store nodes (if not stored yet) the channel is between, and make node aware of this channel.
+ /// Checking utxo on-chain is useful if we receive an update for already known channel id,
+ /// which is probably result of a reorg. In that case, we update channel info only if the
+ /// utxo was checked, otherwise stick to the existing update, to prevent DoS risks.
/// Announcement signatures are checked here only if Secp256k1 object is provided.
- fn update_channel_from_announcement(&mut self, msg: &msgs::ChannelAnnouncement, checked_utxo: bool, secp_ctx: Option<&Secp256k1<secp256k1::VerifyOnly>>) -> Result<bool, LightningError> {
+ fn update_channel_from_announcement(&mut self, msg: &msgs::ChannelAnnouncement, utxo_value: Option<u64>, secp_ctx: Option<&Secp256k1<secp256k1::VerifyOnly>>) -> Result<bool, LightningError> {
if let Some(sig_verifier) = secp_ctx {
let msg_hash = hash_to_message!(&Sha256dHash::hash(&msg.contents.encode()[..])[..]);
secp_verify_sig!(sig_verifier, &msg_hash, &msg.node_signature_1, &msg.contents.node_id_1);
one_to_two: None,
node_two: msg.contents.node_id_2.clone(),
two_to_one: None,
+ capacity_sats: utxo_value,
announcement_message: if should_relay { Some(msg.clone()) } else { None },
};
//TODO: because asking the blockchain if short_channel_id is valid is only optional
//in the blockchain API, we need to handle it smartly here, though it's unclear
//exactly how...
- if checked_utxo {
+ if utxo_value.is_some() {
// Either our UTXO provider is busted, there was a reorg, or the UTXO provider
// only sometimes returns results. In any case remove the previous entry. Note
// that the spec expects us to "blacklist" the node_ids involved, but we can't
Self::remove_channel_in_nodes(&mut self.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})
+ return Err(LightningError{err: "Already have knowledge of channel".to_owned(), action: ErrorAction::IgnoreError})
}
},
BtreeEntry::Vacant(entry) => {
/// If permanent, removes a channel from the local storage.
/// May cause the removal of nodes too, if this was their last channel.
/// If not permanent, makes channels unavailable for routing.
- pub fn close_channel_from_update(&mut self, short_channel_id: &u64, is_permanent: &bool) {
- if *is_permanent {
- if let Some(chan) = self.channels.remove(short_channel_id) {
- Self::remove_channel_in_nodes(&mut self.nodes, &chan, *short_channel_id);
+ pub fn close_channel_from_update(&mut self, short_channel_id: u64, is_permanent: bool) {
+ if is_permanent {
+ if let Some(chan) = self.channels.remove(&short_channel_id) {
+ Self::remove_channel_in_nodes(&mut self.nodes, &chan, short_channel_id);
}
} else {
if let Some(chan) = self.channels.get_mut(&short_channel_id) {
}
}
- fn fail_node(&mut self, _node_id: &PublicKey, is_permanent: &bool) {
- if *is_permanent {
+ fn fail_node(&mut self, _node_id: &PublicKey, is_permanent: bool) {
+ if is_permanent {
// TODO: Wholly remove the node
} else {
// TODO: downgrade the node
}
}
- /// For an already known (from announcement) channel, update info regarding one of the directions of a channel.
+ /// For an already known (from announcement) channel, update info about one of the directions of a channel.
/// Announcement signatures are checked here only if Secp256k1 object is provided.
fn update_channel(&mut self, msg: &msgs::ChannelUpdate, secp_ctx: Option<&Secp256k1<secp256k1::VerifyOnly>>) -> Result<bool, LightningError> {
let dest_node_id;
let chan_was_enabled;
match self.channels.get_mut(&msg.contents.short_channel_id) {
- None => return Err(LightningError{err: "Couldn't find channel for update", action: ErrorAction::IgnoreError}),
+ None => return Err(LightningError{err: "Couldn't find channel for update".to_owned(), action: ErrorAction::IgnoreError}),
Some(channel) => {
+ if let OptionalField::Present(htlc_maximum_msat) = msg.contents.htlc_maximum_msat {
+ if htlc_maximum_msat > MAX_VALUE_MSAT {
+ return Err(LightningError{err: "htlc_maximum_msat is larger than maximum possible msats".to_owned(), action: ErrorAction::IgnoreError});
+ }
+
+ if let Some(capacity_sats) = channel.capacity_sats {
+ // It's possible channel capacity is available now, although it wasn't available at announcement (so the field is None).
+ // Don't query UTXO set here to reduce DoS risks.
+ if htlc_maximum_msat > capacity_sats * 1000 {
+ return Err(LightningError{err: "htlc_maximum_msat is larger than channel capacity".to_owned(), action: ErrorAction::IgnoreError});
+ }
+ }
+ }
macro_rules! maybe_update_channel_info {
( $target: expr, $src_node: expr) => {
if let Some(existing_chan_info) = $target.as_ref() {
if existing_chan_info.last_update >= msg.contents.timestamp {
- return Err(LightningError{err: "Update older than last processed update", action: ErrorAction::IgnoreError});
+ return Err(LightningError{err: "Update older than last processed update".to_owned(), action: ErrorAction::IgnoreError});
}
chan_was_enabled = existing_chan_info.enabled;
} else {
last_update: msg.contents.timestamp,
cltv_expiry_delta: msg.contents.cltv_expiry_delta,
htlc_minimum_msat: msg.contents.htlc_minimum_msat,
+ htlc_maximum_msat: if let OptionalField::Present(max_value) = msg.contents.htlc_maximum_msat { Some(max_value) } else { None },
fees: RoutingFees {
base_msat: msg.contents.fee_base_msat,
proportional_millionths: msg.contents.fee_proportional_millionths,
proportional_millionths
});
} else if chan_was_enabled {
- let mut lowest_inbound_channel_fee_base_msat = u32::max_value();
- let mut lowest_inbound_channel_fee_proportional_millionths = u32::max_value();
-
- {
- let node = self.nodes.get(&dest_node_id).unwrap();
-
- for chan_id in node.channels.iter() {
- let chan = self.channels.get(chan_id).unwrap();
- // Since direction was enabled, the channel indeed had directional info
- let chan_info;
- if chan.node_one == dest_node_id {
- chan_info = chan.two_to_one.as_ref().unwrap();
- } else {
- chan_info = chan.one_to_two.as_ref().unwrap();
+ let node = self.nodes.get_mut(&dest_node_id).unwrap();
+ let mut lowest_inbound_channel_fees = None;
+
+ for chan_id in node.channels.iter() {
+ let chan = self.channels.get(chan_id).unwrap();
+ let chan_info_opt;
+ if chan.node_one == dest_node_id {
+ chan_info_opt = chan.two_to_one.as_ref();
+ } else {
+ chan_info_opt = chan.one_to_two.as_ref();
+ }
+ if let Some(chan_info) = chan_info_opt {
+ if chan_info.enabled {
+ let fees = lowest_inbound_channel_fees.get_or_insert(RoutingFees {
+ base_msat: u32::max_value(), proportional_millionths: u32::max_value() });
+ fees.base_msat = cmp::min(fees.base_msat, chan_info.fees.base_msat);
+ fees.proportional_millionths = cmp::min(fees.proportional_millionths, chan_info.fees.proportional_millionths);
}
- lowest_inbound_channel_fee_base_msat = cmp::min(lowest_inbound_channel_fee_base_msat, chan_info.fees.base_msat);
- lowest_inbound_channel_fee_proportional_millionths = cmp::min(lowest_inbound_channel_fee_proportional_millionths, chan_info.fees.proportional_millionths);
}
}
- //TODO: satisfy the borrow-checker without a double-map-lookup :(
- let mut_node = self.nodes.get_mut(&dest_node_id).unwrap();
- if mut_node.channels.len() > 0 {
- mut_node.lowest_inbound_channel_fees = Some(RoutingFees {
- base_msat: lowest_inbound_channel_fee_base_msat,
- proportional_millionths: lowest_inbound_channel_fee_proportional_millionths
- });
- }
+ node.lowest_inbound_channel_fees = lowest_inbound_channel_fees;
}
Ok(msg.contents.excess_data.is_empty())
use chain::chaininterface;
use ln::features::{ChannelFeatures, NodeFeatures};
use routing::network_graph::{NetGraphMsgHandler, NetworkGraph};
- use ln::msgs::{RoutingMessageHandler, UnsignedNodeAnnouncement, NodeAnnouncement,
- UnsignedChannelAnnouncement, ChannelAnnouncement, UnsignedChannelUpdate, ChannelUpdate, HTLCFailChannelUpdate};
+ use ln::msgs::{OptionalField, RoutingMessageHandler, UnsignedNodeAnnouncement, NodeAnnouncement,
+ UnsignedChannelAnnouncement, ChannelAnnouncement, UnsignedChannelUpdate, ChannelUpdate, HTLCFailChannelUpdate,
+ MAX_VALUE_MSAT};
use util::test_utils;
use util::logger::Logger;
use util::ser::{Readable, Writeable};
use std::sync::Arc;
- fn create_net_graph_msg_handler() -> (Secp256k1<All>, NetGraphMsgHandler) {
+ fn create_net_graph_msg_handler() -> (Secp256k1<All>, NetGraphMsgHandler<Arc<chaininterface::ChainWatchInterfaceUtil>, Arc<test_utils::TestLogger>>) {
let secp_ctx = Secp256k1::new();
- let logger: Arc<Logger> = Arc::new(test_utils::TestLogger::new());
- let chain_monitor = Arc::new(chaininterface::ChainWatchInterfaceUtil::new(Network::Testnet, Arc::clone(&logger)));
+ let logger = Arc::new(test_utils::TestLogger::new());
+ let chain_monitor = Arc::new(chaininterface::ChainWatchInterfaceUtil::new(Network::Testnet));
let net_graph_msg_handler = NetGraphMsgHandler::new(chain_monitor, Arc::clone(&logger));
(secp_ctx, net_graph_msg_handler)
}
// Announce a channel to add a corresponding node.
let unsigned_announcement = UnsignedChannelAnnouncement {
features: ChannelFeatures::known(),
- chain_hash: genesis_block(Network::Testnet).header.bitcoin_hash(),
+ chain_hash: genesis_block(Network::Testnet).header.bitcoin_hash(),
short_channel_id: 0,
node_id_1,
node_id_2,
#[test]
fn handling_channel_update() {
- let (secp_ctx, net_graph_msg_handler) = create_net_graph_msg_handler();
+ let secp_ctx = Secp256k1::new();
+ let logger: Arc<Logger> = Arc::new(test_utils::TestLogger::new());
+ let chain_monitor = Arc::new(test_utils::TestChainWatcher::new());
+ let net_graph_msg_handler = NetGraphMsgHandler::new(chain_monitor.clone(), Arc::clone(&logger));
+
let node_1_privkey = &SecretKey::from_slice(&[42; 32]).unwrap();
let node_2_privkey = &SecretKey::from_slice(&[41; 32]).unwrap();
let node_id_1 = PublicKey::from_secret_key(&secp_ctx, node_1_privkey);
let zero_hash = Sha256dHash::hash(&[0; 32]);
let short_channel_id = 0;
let chain_hash = genesis_block(Network::Testnet).header.bitcoin_hash();
+ let amount_sats = 1000_000;
+
{
// Announce a channel we will update
+ let good_script = Builder::new().push_opcode(opcodes::all::OP_PUSHNUM_2)
+ .push_slice(&PublicKey::from_secret_key(&secp_ctx, node_1_btckey).serialize())
+ .push_slice(&PublicKey::from_secret_key(&secp_ctx, node_2_btckey).serialize())
+ .push_opcode(opcodes::all::OP_PUSHNUM_2)
+ .push_opcode(opcodes::all::OP_CHECKMULTISIG).into_script().to_v0_p2wsh();
+ *chain_monitor.utxo_ret.lock().unwrap() = Ok((good_script.clone(), amount_sats));
let unsigned_announcement = UnsignedChannelAnnouncement {
features: ChannelFeatures::empty(),
chain_hash,
flags: 0,
cltv_expiry_delta: 144,
htlc_minimum_msat: 1000000,
+ htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 10000,
fee_proportional_millionths: 20,
excess_data: Vec::new()
Ok(res) => assert!(!res),
_ => panic!()
};
+ unsigned_channel_update.timestamp += 10;
unsigned_channel_update.short_channel_id += 1;
let msghash = hash_to_message!(&Sha256dHash::hash(&unsigned_channel_update.encode()[..])[..]);
};
unsigned_channel_update.short_channel_id = short_channel_id;
+ unsigned_channel_update.htlc_maximum_msat = OptionalField::Present(MAX_VALUE_MSAT + 1);
+ let msghash = hash_to_message!(&Sha256dHash::hash(&unsigned_channel_update.encode()[..])[..]);
+ let valid_channel_update = ChannelUpdate {
+ signature: secp_ctx.sign(&msghash, node_1_privkey),
+ contents: unsigned_channel_update.clone()
+ };
+
+ match net_graph_msg_handler.handle_channel_update(&valid_channel_update) {
+ Ok(_) => panic!(),
+ Err(e) => assert_eq!(e.err, "htlc_maximum_msat is larger than maximum possible msats")
+ };
+ unsigned_channel_update.htlc_maximum_msat = OptionalField::Absent;
+
+ unsigned_channel_update.htlc_maximum_msat = OptionalField::Present(amount_sats * 1000 + 1);
+ let msghash = hash_to_message!(&Sha256dHash::hash(&unsigned_channel_update.encode()[..])[..]);
+ let valid_channel_update = ChannelUpdate {
+ signature: secp_ctx.sign(&msghash, node_1_privkey),
+ contents: unsigned_channel_update.clone()
+ };
+
+ match net_graph_msg_handler.handle_channel_update(&valid_channel_update) {
+ Ok(_) => panic!(),
+ Err(e) => assert_eq!(e.err, "htlc_maximum_msat is larger than channel capacity")
+ };
+ unsigned_channel_update.htlc_maximum_msat = OptionalField::Absent;
// Even though previous update was not relayed further, we still accepted it,
// so we now won't accept update before the previous one.
flags: 0,
cltv_expiry_delta: 144,
htlc_minimum_msat: 1000000,
+ htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 10000,
fee_proportional_millionths: 20,
excess_data: Vec::new()
flags: 0,
cltv_expiry_delta: 144,
htlc_minimum_msat: 1000000,
+ htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 10000,
fee_proportional_millionths: 20,
excess_data: Vec::new()
flags: 0,
cltv_expiry_delta: 144,
htlc_minimum_msat: 1000000,
+ htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 10000,
fee_proportional_millionths: 20,
excess_data: [1; 3].to_vec()