From 1aaf5fc5d01837b6c31a3f03cca5f7f811759207 Mon Sep 17 00:00:00 2001 From: Jeffrey Czyz Date: Wed, 29 Dec 2021 09:56:54 -0600 Subject: [PATCH] Effective channel capacity for router and scoring A channel's capacity may be inferred or learned and is used to make routing decisions, including as a parameter to channel scoring. Define an EffectiveCapacity for this purpose. Score::channel_penalty_msat takes the effective capacity (less in-flight HTLCs for the same payment), and never None. Thus, for hops given in an invoice, the effective capacity is now considered (near) infinite if over a private channel or based on learned information if over a public channel. If a Score implementations needs the effective capacity when updating a channel's score, i.e. in payment_path_failed or payment_path_successful, it can access the channel's EffectiveCapacity via the NetworkGraph by first looking up the channel and then specifying which direction is desired using ChannelInfo::as_directed. --- lightning-invoice/src/payment.rs | 4 +- lightning/src/routing/network_graph.rs | 160 +++++++++++- lightning/src/routing/router.rs | 324 +++++++++++++------------ lightning/src/routing/scoring.rs | 119 +++++---- 4 files changed, 377 insertions(+), 230 deletions(-) diff --git a/lightning-invoice/src/payment.rs b/lightning-invoice/src/payment.rs index f2486969..82c07199 100644 --- a/lightning-invoice/src/payment.rs +++ b/lightning-invoice/src/payment.rs @@ -90,7 +90,7 @@ //! # } //! # impl Score for FakeScorer { //! # fn channel_penalty_msat( -//! # &self, _short_channel_id: u64, _send_amt: u64, _chan_amt: Option, _source: &NodeId, _target: &NodeId +//! # &self, _short_channel_id: u64, _send_amt: u64, _chan_amt: u64, _source: &NodeId, _target: &NodeId //! # ) -> u64 { 0 } //! # fn payment_path_failed(&mut self, _path: &[&RouteHop], _short_channel_id: u64) {} //! # fn payment_path_successful(&mut self, _path: &[&RouteHop]) {} @@ -1327,7 +1327,7 @@ mod tests { impl Score for TestScorer { fn channel_penalty_msat( - &self, _short_channel_id: u64, _send_amt: u64, _chan_amt: Option, _source: &NodeId, _target: &NodeId + &self, _short_channel_id: u64, _send_amt: u64, _chan_amt: u64, _source: &NodeId, _target: &NodeId ) -> u64 { 0 } fn payment_path_failed(&mut self, actual_path: &[&RouteHop], actual_short_channel_id: u64) { diff --git a/lightning/src/routing/network_graph.rs b/lightning/src/routing/network_graph.rs index a26b549b..ee310830 100644 --- a/lightning/src/routing/network_graph.rs +++ b/lightning/src/routing/network_graph.rs @@ -593,9 +593,8 @@ where } #[derive(Clone, Debug, PartialEq)] -/// Details about one direction of a channel. Received -/// within a channel update. -pub struct DirectionalChannelInfo { +/// Details about one direction of a channel as received within a [`ChannelUpdate`]. +pub struct ChannelUpdateInfo { /// When the last update to the channel direction was issued. /// Value is opaque, as set in the announcement. pub last_update: u32, @@ -616,14 +615,14 @@ pub struct DirectionalChannelInfo { pub last_update_message: Option, } -impl fmt::Display for DirectionalChannelInfo { +impl fmt::Display for ChannelUpdateInfo { 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(()) } } -impl_writeable_tlv_based!(DirectionalChannelInfo, { +impl_writeable_tlv_based!(ChannelUpdateInfo, { (0, last_update, required), (2, enabled, required), (4, cltv_expiry_delta, required), @@ -642,11 +641,11 @@ pub struct ChannelInfo { /// Source node of the first direction of a channel pub node_one: NodeId, /// Details about the first direction of a channel - pub one_to_two: Option, + pub one_to_two: Option, /// Source node of the second direction of a channel pub node_two: NodeId, /// Details about the second direction of a channel - pub two_to_one: Option, + pub two_to_one: Option, /// The channel capacity as seen on-chain, if chain lookup is available. pub capacity_sats: Option, /// An initial announcement of the channel @@ -660,6 +659,23 @@ pub struct ChannelInfo { announcement_received_time: u64, } +impl ChannelInfo { + /// Returns a [`DirectedChannelInfo`] for the channel directed to the given `target` from a + /// returned `source`, or `None` if `target` is not one of the channel's counterparties. + pub fn as_directed_to(&self, target: &NodeId) -> Option<(DirectedChannelInfo, &NodeId)> { + let (direction, source) = { + if target == &self.node_one { + (self.two_to_one.as_ref(), &self.node_two) + } else if target == &self.node_two { + (self.one_to_two.as_ref(), &self.node_one) + } else { + return None; + } + }; + Some((DirectedChannelInfo { channel: self, direction }, source)) + } +} + 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: {:?}", @@ -679,6 +695,132 @@ impl_writeable_tlv_based!(ChannelInfo, { (12, announcement_message, required), }); +/// A wrapper around [`ChannelInfo`] representing information about the channel as directed from a +/// source node to a target node. +#[derive(Clone)] +pub struct DirectedChannelInfo<'a> { + channel: &'a ChannelInfo, + direction: Option<&'a ChannelUpdateInfo>, +} + +impl<'a> DirectedChannelInfo<'a> { + /// Returns information for the channel. + pub fn channel(&self) -> &'a ChannelInfo { self.channel } + + /// Returns information for the direction. + pub fn direction(&self) -> Option<&'a ChannelUpdateInfo> { self.direction } + + /// Returns the [`EffectiveCapacity`] of the channel in the direction. + /// + /// This is either the total capacity from the funding transaction, if known, or the + /// `htlc_maximum_msat` for the direction as advertised by the gossip network, if known, + /// whichever is smaller. + pub fn effective_capacity(&self) -> EffectiveCapacity { + let capacity_msat = self.channel.capacity_sats.map(|capacity_sats| capacity_sats * 1000); + self.direction + .and_then(|direction| direction.htlc_maximum_msat) + .map(|max_htlc_msat| { + let capacity_msat = capacity_msat.unwrap_or(u64::max_value()); + if max_htlc_msat < capacity_msat { + EffectiveCapacity::MaximumHTLC { amount_msat: max_htlc_msat } + } else { + EffectiveCapacity::Total { capacity_msat } + } + }) + .or_else(|| capacity_msat.map(|capacity_msat| + EffectiveCapacity::Total { capacity_msat })) + .unwrap_or(EffectiveCapacity::Unknown) + } + + /// Returns `Some` if [`ChannelUpdateInfo`] is available in the direction. + pub(super) fn with_update(self) -> Option> { + match self.direction { + Some(_) => Some(DirectedChannelInfoWithUpdate { inner: self }), + None => None, + } + } +} + +impl<'a> fmt::Debug for DirectedChannelInfo<'a> { + fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { + f.debug_struct("DirectedChannelInfo") + .field("channel", &self.channel) + .finish() + } +} + +/// A [`DirectedChannelInfo`] with [`ChannelUpdateInfo`] available in its direction. +#[derive(Clone)] +pub(super) struct DirectedChannelInfoWithUpdate<'a> { + inner: DirectedChannelInfo<'a>, +} + +impl<'a> DirectedChannelInfoWithUpdate<'a> { + /// Returns information for the channel. + #[inline] + pub(super) fn channel(&self) -> &'a ChannelInfo { &self.inner.channel } + + /// Returns information for the direction. + #[inline] + pub(super) fn direction(&self) -> &'a ChannelUpdateInfo { self.inner.direction.unwrap() } + + /// Returns the [`EffectiveCapacity`] of the channel in the direction. + #[inline] + pub(super) fn effective_capacity(&self) -> EffectiveCapacity { self.inner.effective_capacity() } +} + +impl<'a> fmt::Debug for DirectedChannelInfoWithUpdate<'a> { + fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { + self.inner.fmt(f) + } +} + +/// The effective capacity of a channel for routing purposes. +/// +/// While this may be smaller than the actual channel capacity, amounts greater than +/// [`Self::as_msat`] should not be routed through the channel. +pub enum EffectiveCapacity { + /// The available liquidity in the channel known from being a channel counterparty, and thus a + /// direct hop. + ExactLiquidity { + /// Either the inbound or outbound liquidity depending on the direction, denominated in + /// millisatoshi. + liquidity_msat: u64, + }, + /// The maximum HTLC amount in one direction as advertised on the gossip network. + MaximumHTLC { + /// The maximum HTLC amount denominated in millisatoshi. + amount_msat: u64, + }, + /// The total capacity of the channel as determined by the funding transaction. + Total { + /// The funding amount denominated in millisatoshi. + capacity_msat: u64, + }, + /// A capacity sufficient to route any payment, typically used for private channels provided by + /// an invoice. + Infinite, + /// A capacity that is unknown possibly because either the chain state is unavailable to know + /// the total capacity or the `htlc_maximum_msat` was not advertised on the gossip network. + Unknown, +} + +/// The presumed channel capacity denominated in millisatoshi for [`EffectiveCapacity::Unknown`] to +/// use when making routing decisions. +pub const UNKNOWN_CHANNEL_CAPACITY_MSAT: u64 = 250_000 * 1000; + +impl EffectiveCapacity { + /// Returns the effective capacity denominated in millisatoshi. + pub fn as_msat(&self) -> u64 { + match self { + EffectiveCapacity::ExactLiquidity { liquidity_msat } => *liquidity_msat, + EffectiveCapacity::MaximumHTLC { amount_msat } => *amount_msat, + EffectiveCapacity::Total { capacity_msat } => *capacity_msat, + EffectiveCapacity::Infinite => u64::max_value(), + EffectiveCapacity::Unknown => UNKNOWN_CHANNEL_CAPACITY_MSAT, + } + } +} /// Fees for routing via a given channel or a node #[derive(Eq, PartialEq, Copy, Clone, Debug, Hash)] @@ -1227,7 +1369,7 @@ impl NetworkGraph { let last_update_message = if msg.excess_data.len() <= MAX_EXCESS_BYTES_FOR_RELAY { full_msg.cloned() } else { None }; - let updated_channel_dir_info = DirectionalChannelInfo { + let updated_channel_update_info = ChannelUpdateInfo { enabled: chan_enabled, last_update: msg.timestamp, cltv_expiry_delta: msg.cltv_expiry_delta, @@ -1239,7 +1381,7 @@ impl NetworkGraph { }, last_update_message }; - $target = Some(updated_channel_dir_info); + $target = Some(updated_channel_update_info); } } diff --git a/lightning/src/routing/router.rs b/lightning/src/routing/router.rs index cf2afbbb..ad0f63f1 100644 --- a/lightning/src/routing/router.rs +++ b/lightning/src/routing/router.rs @@ -18,7 +18,7 @@ use ln::channelmanager::ChannelDetails; use ln::features::{ChannelFeatures, InvoiceFeatures, NodeFeatures}; use ln::msgs::{DecodeError, ErrorAction, LightningError, MAX_VALUE_MSAT}; use routing::scoring::Score; -use routing::network_graph::{NetworkGraph, NodeId, RoutingFees}; +use routing::network_graph::{DirectedChannelInfoWithUpdate, EffectiveCapacity, NetworkGraph, NodeId, RoutingFees}; use util::ser::{Writeable, Readable}; use util::logger::{Level, Logger}; @@ -344,11 +344,79 @@ impl cmp::PartialOrd for RouteGraphNode { } } -struct DummyDirectionalChannelInfo { - cltv_expiry_delta: u32, - htlc_minimum_msat: u64, - htlc_maximum_msat: Option, - fees: RoutingFees, +/// A wrapper around the various hop representations. +/// +/// Used to construct a [`PathBuildingHop`] and to estimate [`EffectiveCapacity`]. +#[derive(Clone, Debug)] +enum CandidateRouteHop<'a> { + /// A hop from the payer, where the outbound liquidity is known. + FirstHop { + details: &'a ChannelDetails, + }, + /// A hop found in the [`NetworkGraph`], where the channel capacity may or may not be known. + PublicHop { + info: DirectedChannelInfoWithUpdate<'a>, + short_channel_id: u64, + }, + /// A hop to the payee found in the payment invoice, though not necessarily a direct channel. + PrivateHop { + hint: &'a RouteHintHop, + } +} + +impl<'a> CandidateRouteHop<'a> { + fn short_channel_id(&self) -> u64 { + match self { + CandidateRouteHop::FirstHop { details } => details.short_channel_id.unwrap(), + CandidateRouteHop::PublicHop { short_channel_id, .. } => *short_channel_id, + CandidateRouteHop::PrivateHop { hint } => hint.short_channel_id, + } + } + + // NOTE: This may alloc memory so avoid calling it in a hot code path. + fn features(&self) -> ChannelFeatures { + match self { + CandidateRouteHop::FirstHop { details } => details.counterparty.features.to_context(), + CandidateRouteHop::PublicHop { info, .. } => info.channel().features.clone(), + CandidateRouteHop::PrivateHop { .. } => ChannelFeatures::empty(), + } + } + + fn cltv_expiry_delta(&self) -> u32 { + match self { + CandidateRouteHop::FirstHop { .. } => 0, + CandidateRouteHop::PublicHop { info, .. } => info.direction().cltv_expiry_delta as u32, + CandidateRouteHop::PrivateHop { hint } => hint.cltv_expiry_delta as u32, + } + } + + fn htlc_minimum_msat(&self) -> u64 { + match self { + CandidateRouteHop::FirstHop { .. } => 0, + CandidateRouteHop::PublicHop { info, .. } => info.direction().htlc_minimum_msat, + CandidateRouteHop::PrivateHop { hint } => hint.htlc_minimum_msat.unwrap_or(0), + } + } + + fn fees(&self) -> RoutingFees { + match self { + CandidateRouteHop::FirstHop { .. } => RoutingFees { + base_msat: 0, proportional_millionths: 0, + }, + CandidateRouteHop::PublicHop { info, .. } => info.direction().fees, + CandidateRouteHop::PrivateHop { hint } => hint.fees, + } + } + + fn effective_capacity(&self) -> EffectiveCapacity { + match self { + CandidateRouteHop::FirstHop { details } => EffectiveCapacity::ExactLiquidity { + liquidity_msat: details.outbound_capacity_msat, + }, + CandidateRouteHop::PublicHop { info, .. } => info.effective_capacity(), + CandidateRouteHop::PrivateHop { .. } => EffectiveCapacity::Infinite, + } + } } /// It's useful to keep track of the hops associated with the fees required to use them, @@ -357,21 +425,17 @@ struct DummyDirectionalChannelInfo { /// These fee values are useful to choose hops as we traverse the graph "payee-to-payer". #[derive(Clone, Debug)] struct PathBuildingHop<'a> { - // The RouteHintHop fields which will eventually be used if this hop is used in a final Route. - // Note that node_features is calculated separately after our initial graph walk. + // Note that this should be dropped in favor of loading it from CandidateRouteHop, but doing so + // is a larger refactor and will require careful performance analysis. node_id: NodeId, - short_channel_id: u64, - channel_features: &'a ChannelFeatures, + candidate: CandidateRouteHop<'a>, fee_msat: u64, - cltv_expiry_delta: u32, /// Minimal fees required to route to the source node of the current hop via any of its inbound channels. src_lowest_inbound_fees: RoutingFees, - /// Fees of the channel used in this hop. - channel_fees: RoutingFees, /// All the fees paid *after* this channel on the way to the destination next_hops_fee_msat: u64, - /// Fee paid for the use of the current channel (see channel_fees). + /// Fee paid for the use of the current channel (see candidate.fees()). /// The value will be actually deducted from the counterparty balance on the previous link. hop_use_fee_msat: u64, /// Used to compare channels when choosing the for routing. @@ -379,10 +443,6 @@ struct PathBuildingHop<'a> { /// an estimated cost of reaching this hop. /// Might get stale when fees are recomputed. Primarily for internal use. total_fee_msat: u64, - /// This is useful for update_value_and_recompute_fees to make sure - /// we don't fall below the minimum. Should not be updated manually and - /// generally should not be accessed. - htlc_minimum_msat: u64, /// A mirror of the same field in RouteGraphNode. Note that this is only used during the graph /// walk and may be invalid thereafter. path_htlc_minimum_msat: u64, @@ -461,7 +521,7 @@ impl<'a> PaymentPath<'a> { // set it too high just to maliciously take more fees by exploiting this // match htlc_minimum_msat logic. let mut cur_hop_transferred_amount_msat = total_fee_paid_msat + value_msat; - if let Some(extra_fees_msat) = cur_hop.htlc_minimum_msat.checked_sub(cur_hop_transferred_amount_msat) { + if let Some(extra_fees_msat) = cur_hop.candidate.htlc_minimum_msat().checked_sub(cur_hop_transferred_amount_msat) { // Note that there is a risk that *previous hops* (those closer to us, as we go // payee->our_node here) would exceed their htlc_maximum_msat or available balance. // @@ -489,7 +549,7 @@ impl<'a> PaymentPath<'a> { // Irrelevant for the first hop, as it doesn't have the previous hop, and the use of // this channel is free for us. if i != 0 { - if let Some(new_fee) = compute_fees(cur_hop_transferred_amount_msat, cur_hop.channel_fees) { + if let Some(new_fee) = compute_fees(cur_hop_transferred_amount_msat, cur_hop.candidate.fees()) { cur_hop.hop_use_fee_msat = new_fee; total_fee_paid_msat += new_fee; } else { @@ -648,15 +708,6 @@ where L::Target: Logger { let network_graph = network.read_only(); let network_channels = network_graph.channels(); let network_nodes = network_graph.nodes(); - let dummy_directional_info = DummyDirectionalChannelInfo { // used for first_hops routes - cltv_expiry_delta: 0, - htlc_minimum_msat: 0, - htlc_maximum_msat: None, - fees: RoutingFees { - base_msat: 0, - proportional_millionths: 0, - } - }; // Allow MPP only if we have a features set from somewhere that indicates the payee supports // it. If the payee supports it they're supposed to include it in the invoice, so that should @@ -675,24 +726,26 @@ where L::Target: Logger { // Prepare the data we'll use for payee-to-payer search by // inserting first hops suggested by the caller as targets. // Our search will then attempt to reach them while traversing from the payee node. - let mut first_hop_targets: HashMap<_, Vec<(_, ChannelFeatures, _, NodeFeatures)>> = + let mut first_hop_targets: HashMap<_, Vec<&ChannelDetails>> = HashMap::with_capacity(if first_hops.is_some() { first_hops.as_ref().unwrap().len() } else { 0 }); if let Some(hops) = first_hops { for chan in hops { - let short_channel_id = chan.short_channel_id.expect("first_hops should be filled in with usable channels, not pending ones"); + if chan.short_channel_id.is_none() { + panic!("first_hops should be filled in with usable channels, not pending ones"); + } if chan.counterparty.node_id == *our_node_pubkey { return Err(LightningError{err: "First hop cannot have our_node_pubkey as a destination.".to_owned(), action: ErrorAction::IgnoreError}); } - first_hop_targets.entry(NodeId::from_pubkey(&chan.counterparty.node_id)).or_insert(Vec::new()) - .push((short_channel_id, chan.counterparty.features.to_context(), chan.outbound_capacity_msat, chan.counterparty.features.to_context())); + first_hop_targets + .entry(NodeId::from_pubkey(&chan.counterparty.node_id)) + .or_insert(Vec::new()) + .push(chan); } if first_hop_targets.is_empty() { return Err(LightningError{err: "Cannot route when there are no outbound routes away from us".to_owned(), action: ErrorAction::IgnoreError}); } } - let empty_channel_features = ChannelFeatures::empty(); - // The main heap containing all candidate next-hops sorted by their score (max(A* fee, // htlc_minimum)). Ideally this would be a heap which allowed cheap score reduction instead of // adding duplicate entries when we find a better path to a given node. @@ -731,42 +784,24 @@ where L::Target: Logger { log_trace!(logger, "Building path from {} (payee) to {} (us/payer) for value {} msat.", payment_params.payee_pubkey, our_node_pubkey, final_value_msat); macro_rules! add_entry { - // Adds entry which goes from $src_node_id to $dest_node_id - // over the channel with id $chan_id with fees described in - // $directional_info. + // Adds entry which goes from $src_node_id to $dest_node_id over the $candidate hop. // $next_hops_fee_msat represents the fees paid for using all the channels *after* this one, // since that value has to be transferred over this channel. // Returns whether this channel caused an update to `targets`. - ( $chan_id: expr, $src_node_id: expr, $dest_node_id: expr, $directional_info: expr, $capacity_sats: expr, $chan_features: expr, $next_hops_fee_msat: expr, - $next_hops_value_contribution: expr, $next_hops_path_htlc_minimum_msat: expr, $next_hops_path_penalty_msat: expr, $next_hops_cltv_delta: expr ) => { { + ( $candidate: expr, $src_node_id: expr, $dest_node_id: expr, $next_hops_fee_msat: expr, + $next_hops_value_contribution: expr, $next_hops_path_htlc_minimum_msat: expr, + $next_hops_path_penalty_msat: expr, $next_hops_cltv_delta: expr ) => { { // We "return" whether we updated the path at the end, via this: let mut did_add_update_path_to_src_node = false; // Channels to self should not be used. This is more of belt-and-suspenders, because in // practice these cases should be caught earlier: // - for regular channels at channel announcement (TODO) // - for first and last hops early in get_route - if $src_node_id != $dest_node_id.clone() { - let available_liquidity_msat = bookkept_channels_liquidity_available_msat.entry($chan_id.clone()).or_insert_with(|| { - let mut initial_liquidity_available_msat = None; - if let Some(capacity_sats) = $capacity_sats { - initial_liquidity_available_msat = Some(capacity_sats * 1000); - } - - if let Some(htlc_maximum_msat) = $directional_info.htlc_maximum_msat { - if let Some(available_msat) = initial_liquidity_available_msat { - initial_liquidity_available_msat = Some(cmp::min(available_msat, htlc_maximum_msat)); - } else { - initial_liquidity_available_msat = Some(htlc_maximum_msat); - } - } - - match initial_liquidity_available_msat { - Some(available_msat) => available_msat, - // We assume channels with unknown balance have - // a capacity of 0.0025 BTC (or 250_000 sats). - None => 250_000 * 1000 - } - }); + if $src_node_id != $dest_node_id { + let short_channel_id = $candidate.short_channel_id(); + let available_liquidity_msat = bookkept_channels_liquidity_available_msat + .entry(short_channel_id) + .or_insert_with(|| $candidate.effective_capacity().as_msat()); // It is tricky to substract $next_hops_fee_msat from available liquidity here. // It may be misleading because we might later choose to reduce the value transferred @@ -800,11 +835,10 @@ where L::Target: Logger { // Verify the liquidity offered by this channel complies to the minimal contribution. let contributes_sufficient_value = available_value_contribution_msat >= minimal_value_contribution_msat; - // Do not consider candidates that exceed the maximum total cltv expiry limit. let max_total_cltv_expiry_delta = payment_params.max_total_cltv_expiry_delta; let hop_total_cltv_delta = ($next_hops_cltv_delta as u32) - .checked_add($directional_info.cltv_expiry_delta as u32) + .checked_add($candidate.cltv_expiry_delta()) .unwrap_or(u32::max_value()); let doesnt_exceed_cltv_delta_limit = hop_total_cltv_delta <= max_total_cltv_expiry_delta; @@ -816,7 +850,7 @@ where L::Target: Logger { None => unreachable!(), }; #[allow(unused_comparisons)] // $next_hops_path_htlc_minimum_msat is 0 in some calls so rustc complains - let over_path_minimum_msat = amount_to_transfer_over_msat >= $directional_info.htlc_minimum_msat && + let over_path_minimum_msat = amount_to_transfer_over_msat >= $candidate.htlc_minimum_msat() && amount_to_transfer_over_msat >= $next_hops_path_htlc_minimum_msat; // If HTLC minimum is larger than the amount we're going to transfer, we shouldn't @@ -831,16 +865,16 @@ where L::Target: Logger { // might violate htlc_minimum_msat on the hops which are next along the // payment path (upstream to the payee). To avoid that, we recompute // path fees knowing the final path contribution after constructing it. - let path_htlc_minimum_msat = compute_fees($next_hops_path_htlc_minimum_msat, $directional_info.fees) + let path_htlc_minimum_msat = compute_fees($next_hops_path_htlc_minimum_msat, $candidate.fees()) .and_then(|fee_msat| fee_msat.checked_add($next_hops_path_htlc_minimum_msat)) - .map(|fee_msat| cmp::max(fee_msat, $directional_info.htlc_minimum_msat)) + .map(|fee_msat| cmp::max(fee_msat, $candidate.htlc_minimum_msat())) .unwrap_or_else(|| u64::max_value()); let hm_entry = dist.entry($src_node_id); let old_entry = hm_entry.or_insert_with(|| { - // If there was previously no known way to access - // the source node (recall it goes payee-to-payer) of $chan_id, first add - // a semi-dummy record just to compute the fees to reach the source node. - // This will affect our decision on selecting $chan_id + // If there was previously no known way to access the source node + // (recall it goes payee-to-payer) of short_channel_id, first add a + // semi-dummy record just to compute the fees to reach the source node. + // This will affect our decision on selecting short_channel_id // as a way to reach the $dest_node_id. let mut fee_base_msat = u32::max_value(); let mut fee_proportional_millionths = u32::max_value(); @@ -850,19 +884,15 @@ where L::Target: Logger { } PathBuildingHop { node_id: $dest_node_id.clone(), - short_channel_id: 0, - channel_features: $chan_features, + candidate: $candidate.clone(), fee_msat: 0, - cltv_expiry_delta: 0, src_lowest_inbound_fees: RoutingFees { base_msat: fee_base_msat, proportional_millionths: fee_proportional_millionths, }, - channel_fees: $directional_info.fees, next_hops_fee_msat: u64::max_value(), hop_use_fee_msat: u64::max_value(), total_fee_msat: u64::max_value(), - htlc_minimum_msat: $directional_info.htlc_minimum_msat, path_htlc_minimum_msat, path_penalty_msat: u64::max_value(), was_processed: false, @@ -887,7 +917,7 @@ where L::Target: Logger { // Ignore hop_use_fee_msat for channel-from-us as we assume all channels-from-us // will have the same effective-fee if $src_node_id != our_node_id { - match compute_fees(amount_to_transfer_over_msat, $directional_info.fees) { + match compute_fees(amount_to_transfer_over_msat, $candidate.fees()) { // max_value means we'll always fail // the old_entry.total_fee_msat > total_fee_msat check None => total_fee_msat = u64::max_value(), @@ -917,7 +947,7 @@ where L::Target: Logger { } let path_penalty_msat = $next_hops_path_penalty_msat.checked_add( - scorer.channel_penalty_msat($chan_id.clone(), amount_to_transfer_over_msat, Some(*available_liquidity_msat), + scorer.channel_penalty_msat(short_channel_id, amount_to_transfer_over_msat, *available_liquidity_msat, &$src_node_id, &$dest_node_id)).unwrap_or_else(|| u64::max_value()); let new_graph_node = RouteGraphNode { node_id: $src_node_id, @@ -929,7 +959,7 @@ where L::Target: Logger { path_penalty_msat, }; - // Update the way of reaching $src_node_id with the given $chan_id (from $dest_node_id), + // Update the way of reaching $src_node_id with the given short_channel_id (from $dest_node_id), // if this way is cheaper than the already known // (considering the cost to "reach" this channel from the route destination, // the cost of using this channel, @@ -958,12 +988,8 @@ where L::Target: Logger { old_entry.hop_use_fee_msat = hop_use_fee_msat; old_entry.total_fee_msat = total_fee_msat; old_entry.node_id = $dest_node_id.clone(); - old_entry.short_channel_id = $chan_id.clone(); - old_entry.channel_features = $chan_features; + old_entry.candidate = $candidate.clone(); old_entry.fee_msat = 0; // This value will be later filled with hop_use_fee_msat of the following channel - old_entry.cltv_expiry_delta = $directional_info.cltv_expiry_delta as u32; - old_entry.channel_fees = $directional_info.fees; - old_entry.htlc_minimum_msat = $directional_info.htlc_minimum_msat; old_entry.path_htlc_minimum_msat = path_htlc_minimum_msat; old_entry.path_penalty_msat = path_penalty_msat; #[cfg(any(test, feature = "fuzztarget"))] @@ -1030,8 +1056,9 @@ where L::Target: Logger { if !skip_node { if let Some(first_channels) = first_hop_targets.get(&$node_id) { - for (ref first_hop, ref features, ref outbound_capacity_msat, _) in first_channels { - add_entry!(first_hop, our_node_id, $node_id, dummy_directional_info, Some(outbound_capacity_msat / 1000), features, $fee_to_target_msat, $next_hops_value_contribution, $next_hops_path_htlc_minimum_msat, $next_hops_path_penalty_msat, $next_hops_cltv_delta); + for details in first_channels { + let candidate = CandidateRouteHop::FirstHop { details }; + add_entry!(candidate, our_node_id, $node_id, $fee_to_target_msat, $next_hops_value_contribution, $next_hops_path_htlc_minimum_msat, $next_hops_path_penalty_msat, $next_hops_cltv_delta); } } @@ -1045,21 +1072,16 @@ where L::Target: Logger { for chan_id in $node.channels.iter() { let chan = network_channels.get(chan_id).unwrap(); if !chan.features.requires_unknown_bits() { - if chan.node_one == $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.node_two != our_node_id { - if let Some(two_to_one) = chan.two_to_one.as_ref() { - if two_to_one.enabled { - add_entry!(chan_id, chan.node_two, chan.node_one, two_to_one, chan.capacity_sats, &chan.features, $fee_to_target_msat, $next_hops_value_contribution, $next_hops_path_htlc_minimum_msat, $next_hops_path_penalty_msat, $next_hops_cltv_delta); - } - } - } - } else { - if first_hops.is_none() || chan.node_one != our_node_id{ - if let Some(one_to_two) = chan.one_to_two.as_ref() { - if one_to_two.enabled { - add_entry!(chan_id, chan.node_one, chan.node_two, one_to_two, chan.capacity_sats, &chan.features, $fee_to_target_msat, $next_hops_value_contribution, $next_hops_path_htlc_minimum_msat, $next_hops_path_penalty_msat, $next_hops_cltv_delta); - } + let (directed_channel, source) = + chan.as_directed_to(&$node_id).expect("inconsistent NetworkGraph"); + if first_hops.is_none() || *source != our_node_id { + if let Some(direction) = directed_channel.direction() { + if direction.enabled { + let candidate = CandidateRouteHop::PublicHop { + info: directed_channel.with_update().unwrap(), + short_channel_id: *chan_id, + }; + add_entry!(candidate, *source, $node_id, $fee_to_target_msat, $next_hops_value_contribution, $next_hops_path_htlc_minimum_msat, $next_hops_path_penalty_msat, $next_hops_cltv_delta); } } } @@ -1084,9 +1106,10 @@ where L::Target: Logger { // If first hop is a private channel and the only way to reach the payee, this is the only // place where it could be added. if let Some(first_channels) = first_hop_targets.get(&payee_node_id) { - for (ref first_hop, ref features, ref outbound_capacity_msat, _) in first_channels { - let added = add_entry!(first_hop, our_node_id, payee_node_id, dummy_directional_info, Some(outbound_capacity_msat / 1000), features, 0, path_value_msat, 0, 0u64, 0); - log_trace!(logger, "{} direct route to payee via SCID {}", if added { "Added" } else { "Skipped" }, first_hop); + for details in first_channels { + let candidate = CandidateRouteHop::FirstHop { details }; + let added = add_entry!(candidate, our_node_id, payee_node_id, 0, path_value_msat, 0, 0u64, 0); + log_trace!(logger, "{} direct route to payee via SCID {}", if added { "Added" } else { "Skipped" }, candidate.short_channel_id()); } } @@ -1128,43 +1151,27 @@ where L::Target: Logger { let mut aggregate_next_hops_cltv_delta: u32 = 0; for (idx, (hop, prev_hop_id)) in hop_iter.zip(prev_hop_iter).enumerate() { - // BOLT 11 doesn't allow inclusion of features for the last hop hints, which - // really sucks, cause we're gonna need that eventually. - let hop_htlc_minimum_msat: u64 = hop.htlc_minimum_msat.unwrap_or(0); - - let directional_info = DummyDirectionalChannelInfo { - cltv_expiry_delta: hop.cltv_expiry_delta as u32, - htlc_minimum_msat: hop_htlc_minimum_msat, - htlc_maximum_msat: hop.htlc_maximum_msat, - fees: hop.fees, - }; - - // We want a value of final_value_msat * ROUTE_CAPACITY_PROVISION_FACTOR but we - // need it to increment at each hop by the fee charged at later hops. Further, - // we need to ensure we round up when we divide to get satoshis. - let channel_cap_msat = final_value_msat - .checked_mul(ROUTE_CAPACITY_PROVISION_FACTOR).and_then(|v| v.checked_add(aggregate_next_hops_fee_msat)) - .unwrap_or(u64::max_value()); - let channel_cap_sat = match channel_cap_msat.checked_add(999) { - None => break, // We overflowed above, just ignore this route hint - Some(val) => Some(val / 1000), - }; - - let src_node_id = NodeId::from_pubkey(&hop.src_node_id); - let dest_node_id = NodeId::from_pubkey(&prev_hop_id); + let source = NodeId::from_pubkey(&hop.src_node_id); + let target = NodeId::from_pubkey(&prev_hop_id); + let candidate = network_channels + .get(&hop.short_channel_id) + .and_then(|channel| channel.as_directed_to(&target)) + .and_then(|(channel, _)| channel.with_update()) + .map(|info| CandidateRouteHop::PublicHop { + info, + short_channel_id: hop.short_channel_id, + }) + .unwrap_or_else(|| CandidateRouteHop::PrivateHop { hint: hop }); + let capacity_msat = candidate.effective_capacity().as_msat(); aggregate_next_hops_path_penalty_msat = aggregate_next_hops_path_penalty_msat - .checked_add(scorer.channel_penalty_msat(hop.short_channel_id, final_value_msat, None, &src_node_id, &dest_node_id)) + .checked_add(scorer.channel_penalty_msat(hop.short_channel_id, final_value_msat, capacity_msat, &source, &target)) .unwrap_or_else(|| u64::max_value()); aggregate_next_hops_cltv_delta = aggregate_next_hops_cltv_delta .checked_add(hop.cltv_expiry_delta as u32) .unwrap_or_else(|| u32::max_value()); - // We assume that the recipient only included route hints for routes which had - // sufficient value to route `final_value_msat`. Note that in the case of "0-value" - // invoices where the invoice does not specify value this may not be the case, but - // better to include the hints than not. - if !add_entry!(hop.short_channel_id, src_node_id, dest_node_id, directional_info, channel_cap_sat, &empty_channel_features, aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta) { + if !add_entry!(candidate, source, target, aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta) { // If this hop was not used then there is no use checking the preceding hops // in the RouteHint. We can break by just searching for a direct channel between // last checked hop and first_hop_targets @@ -1173,8 +1180,9 @@ where L::Target: Logger { // Searching for a direct channel between last checked hop and first_hop_targets if let Some(first_channels) = first_hop_targets.get(&NodeId::from_pubkey(&prev_hop_id)) { - for (ref first_hop, ref features, ref outbound_capacity_msat, _) in first_channels { - add_entry!(first_hop, our_node_id , NodeId::from_pubkey(&prev_hop_id), dummy_directional_info, Some(outbound_capacity_msat / 1000), features, aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta); + for details in first_channels { + let candidate = CandidateRouteHop::FirstHop { details }; + add_entry!(candidate, our_node_id, NodeId::from_pubkey(&prev_hop_id), aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta); } } @@ -1191,6 +1199,7 @@ where L::Target: Logger { .map_or(None, |inc| inc.checked_add(aggregate_next_hops_fee_msat)); aggregate_next_hops_fee_msat = if let Some(val) = hops_fee { val } else { break; }; + let hop_htlc_minimum_msat = candidate.htlc_minimum_msat(); let hop_htlc_minimum_msat_inc = if let Some(val) = compute_fees(aggregate_next_hops_path_htlc_minimum_msat, hop.fees) { val } else { break; }; let hops_path_htlc_minimum = aggregate_next_hops_path_htlc_minimum_msat .checked_add(hop_htlc_minimum_msat_inc); @@ -1207,8 +1216,9 @@ where L::Target: Logger { // always assumes that the third argument is a node to which we have a // path. if let Some(first_channels) = first_hop_targets.get(&NodeId::from_pubkey(&hop.src_node_id)) { - for (ref first_hop, ref features, ref outbound_capacity_msat, _) in first_channels { - add_entry!(first_hop, our_node_id , NodeId::from_pubkey(&hop.src_node_id), dummy_directional_info, Some(outbound_capacity_msat / 1000), features, aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta); + for details in first_channels { + let candidate = CandidateRouteHop::FirstHop { details }; + add_entry!(candidate, our_node_id, NodeId::from_pubkey(&hop.src_node_id), aggregate_next_hops_fee_msat, path_value_msat, aggregate_next_hops_path_htlc_minimum_msat, aggregate_next_hops_path_penalty_msat, aggregate_next_hops_cltv_delta); } } } @@ -1242,9 +1252,9 @@ where L::Target: Logger { 'path_walk: loop { let mut features_set = false; if let Some(first_channels) = first_hop_targets.get(&ordered_hops.last().unwrap().0.node_id) { - for (scid, _, _, ref features) in first_channels { - if *scid == ordered_hops.last().unwrap().0.short_channel_id { - ordered_hops.last_mut().unwrap().1 = features.clone(); + for details in first_channels { + if details.short_channel_id.unwrap() == ordered_hops.last().unwrap().0.candidate.short_channel_id() { + ordered_hops.last_mut().unwrap().1 = details.counterparty.features.to_context(); features_set = true; break; } @@ -1284,12 +1294,10 @@ where L::Target: Logger { // so that fees paid for a HTLC forwarding on the current channel are // associated with the previous channel (where they will be subtracted). ordered_hops.last_mut().unwrap().0.fee_msat = new_entry.hop_use_fee_msat; - ordered_hops.last_mut().unwrap().0.cltv_expiry_delta = new_entry.cltv_expiry_delta; ordered_hops.push((new_entry.clone(), NodeFeatures::empty())); } ordered_hops.last_mut().unwrap().0.fee_msat = value_contribution_msat; ordered_hops.last_mut().unwrap().0.hop_use_fee_msat = 0; - ordered_hops.last_mut().unwrap().0.cltv_expiry_delta = final_cltv_expiry_delta; log_trace!(logger, "Found a path back to us from the target with {} hops contributing up to {} msat: {:?}", ordered_hops.len(), value_contribution_msat, ordered_hops); @@ -1314,7 +1322,7 @@ where L::Target: Logger { // on the same liquidity in future paths. let mut prevented_redundant_path_selection = false; for (payment_hop, _) in payment_path.hops.iter() { - let channel_liquidity_available_msat = bookkept_channels_liquidity_available_msat.get_mut(&payment_hop.short_channel_id).unwrap(); + let channel_liquidity_available_msat = bookkept_channels_liquidity_available_msat.get_mut(&payment_hop.candidate.short_channel_id()).unwrap(); let mut spent_on_hop_msat = value_contribution_msat; let next_hops_fee_msat = payment_hop.next_hops_fee_msat; spent_on_hop_msat += next_hops_fee_msat; @@ -1329,7 +1337,7 @@ where L::Target: Logger { // If we weren't capped by hitting a liquidity limit on a channel in the path, // we'll probably end up picking the same path again on the next iteration. // Decrease the available liquidity of a hop in the middle of the path. - let victim_scid = payment_path.hops[(payment_path.hops.len() - 1) / 2].0.short_channel_id; + let victim_scid = payment_path.hops[(payment_path.hops.len() - 1) / 2].0.candidate.short_channel_id(); log_trace!(logger, "Disabling channel {} for future path building iterations to avoid duplicates.", victim_scid); let victim_liquidity = bookkept_channels_liquidity_available_msat.get_mut(&victim_scid).unwrap(); *victim_liquidity = 0; @@ -1460,7 +1468,7 @@ where L::Target: Logger { // Now, substract the overpaid value from the most-expensive path. // TODO: this could also be optimized by also sorting by feerate_per_sat_routed, // so that the sender pays less fees overall. And also htlc_minimum_msat. - cur_route.sort_by_key(|path| { path.hops.iter().map(|hop| hop.0.channel_fees.proportional_millionths as u64).sum::() }); + cur_route.sort_by_key(|path| { path.hops.iter().map(|hop| hop.0.candidate.fees().proportional_millionths as u64).sum::() }); let expensive_payment_path = cur_route.first_mut().unwrap(); // We already dropped all the small channels above, meaning all the // remaining channels are larger than remaining overpaid_value_msat. @@ -1478,16 +1486,22 @@ where L::Target: Logger { drawn_routes.sort_by_key(|paths| paths.iter().map(|path| path.get_total_fee_paid_msat()).sum::()); let mut selected_paths = Vec::>>::new(); for payment_path in drawn_routes.first().unwrap() { - selected_paths.push(payment_path.hops.iter().map(|(payment_hop, node_features)| { + let mut path = payment_path.hops.iter().map(|(payment_hop, node_features)| { Ok(RouteHop { pubkey: PublicKey::from_slice(payment_hop.node_id.as_slice()).map_err(|_| LightningError{err: format!("Public key {:?} is invalid", &payment_hop.node_id), action: ErrorAction::IgnoreAndLog(Level::Trace)})?, node_features: node_features.clone(), - short_channel_id: payment_hop.short_channel_id, - channel_features: payment_hop.channel_features.clone(), + short_channel_id: payment_hop.candidate.short_channel_id(), + channel_features: payment_hop.candidate.features(), fee_msat: payment_hop.fee_msat, - cltv_expiry_delta: payment_hop.cltv_expiry_delta, + cltv_expiry_delta: payment_hop.candidate.cltv_expiry_delta(), }) - }).collect()); + }).collect::>(); + // Propagate the cltv_expiry_delta one hop backwards since the delta from the current hop is + // applicable for the previous hop. + path.iter_mut().rev().fold(final_cltv_expiry_delta, |prev_cltv_expiry_delta, hop| { + core::mem::replace(&mut hop.as_mut().unwrap().cltv_expiry_delta, prev_cltv_expiry_delta) + }); + selected_paths.push(path); } if let Some(features) = &payment_params.features { @@ -2844,7 +2858,7 @@ mod tests { // 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.paths[0][3].node_features.le_flags(), &id_to_feature_flags(4)); - assert_eq!(route.paths[0][3].channel_features.le_flags(), &Vec::::new()); + assert_eq!(route.paths[0][3].channel_features.le_flags(), &id_to_feature_flags(11)); assert_eq!(route.paths[0][4].pubkey, nodes[6]); assert_eq!(route.paths[0][4].short_channel_id, 8); @@ -4691,7 +4705,7 @@ mod tests { fn write(&self, _w: &mut W) -> Result<(), ::io::Error> { unimplemented!() } } impl Score for BadChannelScorer { - fn channel_penalty_msat(&self, short_channel_id: u64, _send_amt: u64, _chan_amt: Option, _source: &NodeId, _target: &NodeId) -> u64 { + fn channel_penalty_msat(&self, short_channel_id: u64, _send_amt: u64, _capacity_msat: u64, _source: &NodeId, _target: &NodeId) -> u64 { if short_channel_id == self.short_channel_id { u64::max_value() } else { 0 } } @@ -4709,7 +4723,7 @@ mod tests { } impl Score for BadNodeScorer { - fn channel_penalty_msat(&self, _short_channel_id: u64, _send_amt: u64, _chan_amt: Option, _source: &NodeId, target: &NodeId) -> u64 { + fn channel_penalty_msat(&self, _short_channel_id: u64, _send_amt: u64, _capacity_msat: u64, _source: &NodeId, target: &NodeId) -> u64 { if *target == self.node_id { u64::max_value() } else { 0 } } @@ -4981,7 +4995,7 @@ mod benches { struct ZeroPenaltyScorer; impl Score for ZeroPenaltyScorer { fn channel_penalty_msat( - &self, _short_channel_id: u64, _send_amt: u64, _capacity_msat: Option, _source: &NodeId, _target: &NodeId + &self, _short_channel_id: u64, _send_amt: u64, _capacity_msat: u64, _source: &NodeId, _target: &NodeId ) -> u64 { 0 } fn payment_path_failed(&mut self, _path: &[&RouteHop], _short_channel_id: u64) {} fn payment_path_successful(&mut self, _path: &[&RouteHop]) {} diff --git a/lightning/src/routing/scoring.rs b/lightning/src/routing/scoring.rs index 20a8afca..6a017409 100644 --- a/lightning/src/routing/scoring.rs +++ b/lightning/src/routing/scoring.rs @@ -82,16 +82,12 @@ pub trait Score $(: $supertrait)* { /// Returns the fee in msats willing to be paid to avoid routing `send_amt_msat` through the /// given channel in the direction from `source` to `target`. /// - /// The channel's capacity (less any other MPP parts which are also being considered for use in - /// the same payment) is given by `channel_capacity_msat`. It may be guessed from various - /// sources or assumed from no data at all. - /// - /// For hints provided in the invoice, we assume the channel has sufficient capacity to accept - /// the invoice's full amount, and provide a `channel_capacity_msat` of `None`. In all other - /// cases it is set to `Some`, even if we're guessing at the channel value. - /// - /// Your code should be overflow-safe through a `channel_capacity_msat` of 21 million BTC. - fn channel_penalty_msat(&self, short_channel_id: u64, send_amt_msat: u64, channel_capacity_msat: Option, source: &NodeId, target: &NodeId) -> u64; + /// The channel's capacity (less any other MPP parts that are also being considered for use in + /// the same payment) is given by `capacity_msat`. It may be determined from various sources + /// such as a chain data, network gossip, or invoice hints. For invoice hints, a capacity near + /// [`u64::max_value`] is given to indicate sufficient capacity for the invoice's full amount. + /// Thus, implementations should be overflow-safe. + fn channel_penalty_msat(&self, short_channel_id: u64, send_amt_msat: u64, capacity_msat: u64, source: &NodeId, target: &NodeId) -> u64; /// Handles updating channel penalties after failing to route through a channel. fn payment_path_failed(&mut self, path: &[&RouteHop], short_channel_id: u64); @@ -101,8 +97,8 @@ pub trait Score $(: $supertrait)* { } impl $(+ $supertrait)*> Score for T { - fn channel_penalty_msat(&self, short_channel_id: u64, send_amt_msat: u64, channel_capacity_msat: Option, source: &NodeId, target: &NodeId) -> u64 { - self.deref().channel_penalty_msat(short_channel_id, send_amt_msat, channel_capacity_msat, source, target) + fn channel_penalty_msat(&self, short_channel_id: u64, send_amt_msat: u64, capacity_msat: u64, source: &NodeId, target: &NodeId) -> u64 { + self.deref().channel_penalty_msat(short_channel_id, send_amt_msat, capacity_msat, source, target) } fn payment_path_failed(&mut self, path: &[&RouteHop], short_channel_id: u64) { @@ -369,23 +365,19 @@ impl Default for ScoringParameters { impl Score for ScorerUsingTime { fn channel_penalty_msat( - &self, short_channel_id: u64, send_amt_msat: u64, chan_capacity_opt: Option, _source: &NodeId, _target: &NodeId + &self, short_channel_id: u64, send_amt_msat: u64, capacity_msat: u64, _source: &NodeId, _target: &NodeId ) -> u64 { let failure_penalty_msat = self.channel_failures .get(&short_channel_id) .map_or(0, |value| value.decayed_penalty_msat(self.params.failure_penalty_half_life)); let mut penalty_msat = self.params.base_penalty_msat + failure_penalty_msat; - - if let Some(chan_capacity_msat) = chan_capacity_opt { - let send_1024ths = send_amt_msat.checked_mul(1024).unwrap_or(u64::max_value()) / chan_capacity_msat; - - if send_1024ths > self.params.overuse_penalty_start_1024th as u64 { - penalty_msat = penalty_msat.checked_add( - (send_1024ths - self.params.overuse_penalty_start_1024th as u64) - .checked_mul(self.params.overuse_penalty_msat_per_1024th).unwrap_or(u64::max_value())) - .unwrap_or(u64::max_value()); - } + let send_1024ths = send_amt_msat.checked_mul(1024).unwrap_or(u64::max_value()) / capacity_msat; + if send_1024ths > self.params.overuse_penalty_start_1024th as u64 { + penalty_msat = penalty_msat.checked_add( + (send_1024ths - self.params.overuse_penalty_start_1024th as u64) + .checked_mul(self.params.overuse_penalty_msat_per_1024th).unwrap_or(u64::max_value())) + .unwrap_or(u64::max_value()); } penalty_msat @@ -622,10 +614,10 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); SinceEpoch::advance(Duration::from_secs(1)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); } #[test] @@ -639,16 +631,16 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_064); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_064); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_128); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_128); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_192); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_192); } #[test] @@ -662,25 +654,25 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); SinceEpoch::advance(Duration::from_secs(9)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); SinceEpoch::advance(Duration::from_secs(1)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); SinceEpoch::advance(Duration::from_secs(10 * 8)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_001); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_001); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); } #[test] @@ -694,18 +686,18 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); // An unchecked right shift 64 bits or more in ChannelFailure::decayed_penalty_msat would // cause an overflow. SinceEpoch::advance(Duration::from_secs(10 * 64)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); } #[test] @@ -719,19 +711,19 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_768); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_768); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_384); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_384); } #[test] @@ -745,13 +737,13 @@ mod tests { }); let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_000); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_000); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); let hop = RouteHop { pubkey: PublicKey::from_slice(target.as_slice()).unwrap(), @@ -762,10 +754,10 @@ mod tests { cltv_expiry_delta: 18, }; scorer.payment_path_successful(&[&hop]); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_128); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_128); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_064); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_064); } #[test] @@ -781,20 +773,20 @@ mod tests { let target = target_node_id(); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); scorer.payment_path_failed(&[], 43); - assert_eq!(scorer.channel_penalty_msat(43, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(43, 1, 1, &source, &target), 1_512); let mut serialized_scorer = Vec::new(); scorer.write(&mut serialized_scorer).unwrap(); let deserialized_scorer = ::read(&mut io::Cursor::new(&serialized_scorer)).unwrap(); - assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); - assert_eq!(deserialized_scorer.channel_penalty_msat(43, 1, Some(1), &source, &target), 1_512); + assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); + assert_eq!(deserialized_scorer.channel_penalty_msat(43, 1, 1, &source, &target), 1_512); } #[test] @@ -810,7 +802,7 @@ mod tests { let target = target_node_id(); scorer.payment_path_failed(&[], 42); - assert_eq!(scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_512); + assert_eq!(scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_512); let mut serialized_scorer = Vec::new(); scorer.write(&mut serialized_scorer).unwrap(); @@ -818,10 +810,10 @@ mod tests { SinceEpoch::advance(Duration::from_secs(10)); let deserialized_scorer = ::read(&mut io::Cursor::new(&serialized_scorer)).unwrap(); - assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_256); + assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_256); SinceEpoch::advance(Duration::from_secs(10)); - assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, Some(1), &source, &target), 1_128); + assert_eq!(deserialized_scorer.channel_penalty_msat(42, 1, 1, &source, &target), 1_128); } #[test] @@ -836,11 +828,10 @@ mod tests { let source = source_node_id(); let target = target_node_id(); - assert_eq!(scorer.channel_penalty_msat(42, 1_000, None, &source, &target), 0); - assert_eq!(scorer.channel_penalty_msat(42, 1_000, Some(1_024_000), &source, &target), 0); - assert_eq!(scorer.channel_penalty_msat(42, 256_999, Some(1_024_000), &source, &target), 0); - assert_eq!(scorer.channel_penalty_msat(42, 257_000, Some(1_024_000), &source, &target), 100); - assert_eq!(scorer.channel_penalty_msat(42, 258_000, Some(1_024_000), &source, &target), 200); - assert_eq!(scorer.channel_penalty_msat(42, 512_000, Some(1_024_000), &source, &target), 256 * 100); + assert_eq!(scorer.channel_penalty_msat(42, 1_000, 1_024_000, &source, &target), 0); + assert_eq!(scorer.channel_penalty_msat(42, 256_999, 1_024_000, &source, &target), 0); + assert_eq!(scorer.channel_penalty_msat(42, 257_000, 1_024_000, &source, &target), 100); + assert_eq!(scorer.channel_penalty_msat(42, 258_000, 1_024_000, &source, &target), 200); + assert_eq!(scorer.channel_penalty_msat(42, 512_000, 1_024_000, &source, &target), 256 * 100); } } -- 2.30.2