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rust-lightning/lightning/src/routing/router.rs

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Relicense as dual Apache-2.0 + MIT This changes the LICENSE file and adds license headers to most files to relicense under dual Apache-2.0 and MIT. This is helpful in that we retain the patent grant issued under Apache-2.0-licensed work, avoiding some sticky patent issues, while still allowing users who are more comfortable with the simpler MIT license to use that. See https://github.com/rust-bitcoin/rust-lightning/issues/659 for relicensing statements from code authors.
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// 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.
Add module and all-pub-things docs and deny missing docs
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//! The top-level routing/network map tracking logic lives here.
Make docs look nicer by adding explicit spacing
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//!
Improve routing-related documentation
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//! You probably want to create a NetGraphMsgHandler and use that as your RoutingMessageHandler and then
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//! interrogate it to get routes for your own payments.
BDR: Linearizing secp256k1 deps
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use bitcoin::secp256k1::key::PublicKey;
initial checkin
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Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
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use ln::channelmanager::ChannelDetails;
Move features into a separate module out of msgs.
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use ln::features::{ChannelFeatures, NodeFeatures};
Use constant for max msats
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use ln::msgs::{DecodeError, ErrorAction, LightningError, MAX_VALUE_MSAT};
Take &NetworkGraph as input in get_route, not a NetGraphMsgHandler This was just an oversight when route calculation was split up into parts - it makes no sense for get_route to require that we have a full route message handler, only a network graph (which can always be accessed from a NetGraphMsgHandler anyway).
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use routing::network_graph::{NetworkGraph, RoutingFees};
Split routing from getting network messages
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use util::ser::{Writeable, Readable};
ChannelManager+Router++ Logger Arc --> Deref This caused a bunch of cascading changes, including passing loggers down to Channels in function calls rather than having each Channel have a pointer to the ChannelManager's Logger (which was a circular reference). Other structs that the Channel had passed its Logger to also had their loggers removed. Other newly unused Loggers were also removed, especially when keeping them would've caused a bunch of extra test changes to be necessary, e.g. with the ChainWatchInterfaceUtil's Logger.
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use util::logger::Logger;
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use std::cmp;
Implement finding paths for MPP
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use std::collections::{HashMap, BinaryHeap};
ChannelManager+Router++ Logger Arc --> Deref This caused a bunch of cascading changes, including passing loggers down to Channels in function calls rather than having each Channel have a pointer to the ChannelManager's Logger (which was a circular reference). Other structs that the Channel had passed its Logger to also had their loggers removed. Other newly unused Loggers were also removed, especially when keeping them would've caused a bunch of extra test changes to be necessary, e.g. with the ChainWatchInterfaceUtil's Logger.
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use std::ops::Deref;
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/// A hop in a route
Track HTLCSource in ChannelMonitor Insert it in current_local_signed_tx, prev_local_signed_tx, remote_claimable_outpoints. For so get it provided by Channel calls to provide_latest_{local,remote}_tx
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#[derive(Clone, PartialEq)]
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pub struct RouteHop {
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/// The node_id of the node at this hop.
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pub pubkey: PublicKey,
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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/// 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,
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/// The channel that should be used from the previous hop to reach this node.
pub short_channel_id: u64,
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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/// The channel_announcement features of the channel that should be used from the previous hop
/// to reach this node.
pub channel_features: ChannelFeatures,
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/// The fee taken on this hop (for paying for the use of the *next* channel in the path).
/// For the last hop, this should be the full value of the payment.
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pub fee_msat: u64,
/// The CLTV delta added for this hop. For the last hop, this should be the full CLTV value
Half-ass some CLTV fixes for real channel creation
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/// expected at the destination, in excess of the current block height.
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pub cltv_expiry_delta: u32,
}
Expand the Route object to include multiple paths. Rather big diff, but its all mechanical and doesn't introduce any new features.
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impl Writeable for Vec<RouteHop> {
impl Readable/Writable for Route
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fn write<W: ::util::ser::Writer>(&self, writer: &mut W) -> Result<(), ::std::io::Error> {
Expand the Route object to include multiple paths. Rather big diff, but its all mechanical and doesn't introduce any new features.
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(self.len() as u8).write(writer)?;
for hop in self.iter() {
impl Readable/Writable for Route
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hop.pubkey.write(writer)?;
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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hop.node_features.write(writer)?;
impl Readable/Writable for Route
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hop.short_channel_id.write(writer)?;
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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hop.channel_features.write(writer)?;
impl Readable/Writable for Route
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hop.fee_msat.write(writer)?;
hop.cltv_expiry_delta.write(writer)?;
}
Ok(())
}
}
Expand the Route object to include multiple paths. Rather big diff, but its all mechanical and doesn't introduce any new features.
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impl Readable for Vec<RouteHop> {
fn read<R: ::std::io::Read>(reader: &mut R) -> Result<Vec<RouteHop>, DecodeError> {
impl Readable/Writable for Route
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let hops_count: u8 = Readable::read(reader)?;
let mut hops = Vec::with_capacity(hops_count as usize);
for _ in 0..hops_count {
hops.push(RouteHop {
pubkey: Readable::read(reader)?,
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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node_features: Readable::read(reader)?,
impl Readable/Writable for Route
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short_channel_id: Readable::read(reader)?,
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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channel_features: Readable::read(reader)?,
impl Readable/Writable for Route
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fee_msat: Readable::read(reader)?,
cltv_expiry_delta: Readable::read(reader)?,
});
}
Expand the Route object to include multiple paths. Rather big diff, but its all mechanical and doesn't introduce any new features.
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Ok(hops)
}
}
/// A route directs a payment from the sender (us) to the recipient. If the recipient supports MPP,
/// it can take multiple paths. Each path is composed of one or more hops through the network.
#[derive(Clone, PartialEq)]
pub struct Route {
/// The list of routes taken for a single (potentially-)multi-part payment. The pubkey of the
/// last RouteHop in each path must be the same.
/// Each entry represents a list of hops, NOT INCLUDING our own, where the last hop is the
/// destination. Thus, this must always be at least length one. While the maximum length of any
/// given path is variable, keeping the length of any path to less than 20 should currently
/// ensure it is viable.
pub paths: Vec<Vec<RouteHop>>,
}
impl Writeable for Route {
fn write<W: ::util::ser::Writer>(&self, writer: &mut W) -> Result<(), ::std::io::Error> {
(self.paths.len() as u64).write(writer)?;
for hops in self.paths.iter() {
hops.write(writer)?;
}
Ok(())
}
}
impl Readable for Route {
fn read<R: ::std::io::Read>(reader: &mut R) -> Result<Route, DecodeError> {
let path_count: u64 = Readable::read(reader)?;
let mut paths = Vec::with_capacity(cmp::min(path_count, 128) as usize);
for _ in 0..path_count {
paths.push(Readable::read(reader)?);
}
Ok(Route { paths })
impl Readable/Writable for Route
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}
}
initial checkin
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/// A channel descriptor which provides a last-hop route to get_route
derive(Clone) for several pub simple data structs. There is no reason not to and Clone can be useful especially in the bindings context.
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#[derive(Clone)]
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pub struct RouteHint {
Add module and all-pub-things docs and deny missing docs
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/// The node_id of the non-target end of the route
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pub src_node_id: PublicKey,
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/// The short_channel_id of this channel
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pub short_channel_id: u64,
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/// The fees which must be paid to use this channel
pub fees: RoutingFees,
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/// The difference in CLTV values between this node and the next node.
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pub cltv_expiry_delta: u16,
Add module and all-pub-things docs and deny missing docs
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/// The minimum value, in msat, which must be relayed to the next hop.
Store available routing amounts per channel to use it in routing decisions
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pub htlc_minimum_msat: Option<u64>,
/// The maximum value in msat available for routing with a single HTLC.
pub htlc_maximum_msat: Option<u64>,
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}
#[derive(Eq, PartialEq)]
struct RouteGraphNode {
pubkey: PublicKey,
lowest_fee_to_peer_through_node: u64,
Correct lowest_inbound_proportional_fee deduction in route finding Found cause fuzzer was able to crash us if we don't
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lowest_fee_to_node: u64,
Implement finding paths for MPP
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// The maximum value a yet-to-be-constructed payment path might flow through this node.
// This value is upper-bounded by us by:
// - how much is needed for a path being constructed
// - how much value can channels following this node (up to the destination) can contribute,
// considering their capacity and fees
value_contribution_msat: u64
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}
impl cmp::Ord for RouteGraphNode {
fn cmp(&self, other: &RouteGraphNode) -> cmp::Ordering {
other.lowest_fee_to_peer_through_node.cmp(&self.lowest_fee_to_peer_through_node)
.then_with(|| other.pubkey.serialize().cmp(&self.pubkey.serialize()))
}
}
impl cmp::PartialOrd for RouteGraphNode {
fn partial_cmp(&self, other: &RouteGraphNode) -> Option<cmp::Ordering> {
Some(self.cmp(other))
}
}
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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struct DummyDirectionalChannelInfo {
cltv_expiry_delta: u32,
htlc_minimum_msat: u64,
Store available routing amounts per channel to use it in routing decisions
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htlc_maximum_msat: Option<u64>,
Split routing from getting network messages
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fees: RoutingFees,
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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}
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/// It's useful to keep track of the hops associated with the fees required to use them,
/// so that we can choose cheaper paths (as per Dijkstra's algorithm).
/// Fee values should be updated only in the context of the whole path, see update_value_and_recompute_fees.
/// These fee values are useful to choose hops as we traverse the graph "payee-to-payer".
#[derive(Clone)]
struct PathBuildingHop {
/// Hop-specific details unrelated to the path during the routing phase,
/// but rather relevant to the LN graph.
route_hop: RouteHop,
/// 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).
/// 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.
/// Includes paying for the use of a hop and the following hops, as well as
/// an estimated cost of reaching this hop.
/// Might get stale when fees are recomputed. Primarily for internal use.
total_fee_msat: u64,
}
// Instantiated with a list of hops with correct data in them collected during path finding,
// an instance of this struct should be further modified only via given methods.
#[derive(Clone)]
struct PaymentPath {
hops: Vec<PathBuildingHop>,
}
impl PaymentPath {
// TODO: Add a value_msat field to PaymentPath and use it instead of this function.
fn get_value_msat(&self) -> u64 {
self.hops.last().unwrap().route_hop.fee_msat
}
fn get_total_fee_paid_msat(&self) -> u64 {
if self.hops.len() < 1 {
return 0;
}
let mut result = 0;
// Can't use next_hops_fee_msat because it gets outdated.
for (i, hop) in self.hops.iter().enumerate() {
if i != self.hops.len() - 1 {
result += hop.route_hop.fee_msat;
}
}
return result;
}
// If an amount transferred by the path is updated, the fees should be adjusted.
// Any other way to change fees may result in an inconsistency.
// The caller should make sure values don't fall below htlc_minimum_msat of the used channels.
fn update_value_and_recompute_fees(&mut self, value_msat: u64) {
let mut total_fee_paid_msat = 0 as u64;
for i in (1..self.hops.len()).rev() {
let cur_hop_amount_msat = total_fee_paid_msat + value_msat;
let mut cur_hop = self.hops.get_mut(i).unwrap();
cur_hop.next_hops_fee_msat = total_fee_paid_msat;
if let Some(new_fee) = compute_fees(cur_hop_amount_msat, cur_hop.channel_fees) {
cur_hop.hop_use_fee_msat = new_fee;
total_fee_paid_msat += new_fee;
} else {
// It should not be possible because this function is called only to reduce the
// value. In that case, compute_fee was already called with the same fees for
// larger amount and there was no overflow.
unreachable!();
}
}
// Propagate updated fees for the use of the channels to one hop back,
// where they will be actually paid (fee_msat).
// For the last hop it will represent the value being transferred over this path.
for i in 0..self.hops.len() - 1 {
let next_hop_use_fee_msat = self.hops.get(i + 1).unwrap().hop_use_fee_msat;
self.hops.get_mut(i).unwrap().route_hop.fee_msat = next_hop_use_fee_msat;
}
self.hops.last_mut().unwrap().route_hop.fee_msat = value_msat;
self.hops.last_mut().unwrap().hop_use_fee_msat = 0;
}
}
fn compute_fees(amount_msat: u64, channel_fees: RoutingFees) -> Option<u64> {
let proportional_fee_millions =
amount_msat.checked_mul(channel_fees.proportional_millionths as u64);
if let Some(new_fee) = proportional_fee_millions.and_then(|part| {
(channel_fees.base_msat as u64).checked_add(part / 1_000_000) }) {
Some(new_fee)
} else {
// This function may be (indirectly) called without any verification,
// with channel_fees provided by a caller. We should handle it gracefully.
None
}
}
add two methods for the issue #56 peer_handler::get_peer_node_ids() get connected peers' node_id router::get_addresses() to get network addresses by node_id
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Implement finding paths for MPP
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/// Gets a route from us (payer) to the given target node (payee).
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///
/// Extra routing hops between known nodes and the target will be used if they are included in
/// last_hops.
///
/// If some channels aren't announced, it may be useful to fill in a first_hops with the
/// results from a local ChannelManager::list_usable_channels() call. If it is filled in, our
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/// view of our local channels (from net_graph_msg_handler) will be ignored, and only those
/// in first_hops will be used.
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///
/// Panics if first_hops contains channels without short_channel_ids
/// (ChannelManager::list_usable_channels will never include such channels).
///
/// The fees on channels from us to next-hops are ignored (as they are assumed to all be
Implement finding paths for MPP
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/// equal), however the enabled/disabled bit on such channels as well as the
/// htlc_minimum_msat/htlc_maximum_msat *are* checked as they may change based on the receiving node.
pub fn get_route<L: Deref>(our_node_id: &PublicKey, network: &NetworkGraph, payee: &PublicKey, first_hops: Option<&[&ChannelDetails]>,
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
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last_hops: &[&RouteHint], final_value_msat: u64, final_cltv: u32, logger: L) -> Result<Route, LightningError> where L::Target: Logger {
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// TODO: Obviously *only* using total fee cost sucks. We should consider weighting by
// uptime/success in using a node in the past.
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if *payee == *our_node_id {
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
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return Err(LightningError{err: "Cannot generate a route to ourselves".to_owned(), action: ErrorAction::IgnoreError});
initial checkin
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}
Use constant for max msats
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if final_value_msat > MAX_VALUE_MSAT {
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
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return Err(LightningError{err: "Cannot generate a route of more value than all existing satoshis".to_owned(), action: ErrorAction::IgnoreError});
Util-func channel removal (fixing a bug in HTLC failure updates)
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}
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if final_value_msat == 0 {
return Err(LightningError{err: "Cannot send a payment of 0 msat".to_owned(), action: ErrorAction::IgnoreError});
}
for last_hop in last_hops {
if last_hop.src_node_id == *payee {
return Err(LightningError{err: "Last hop cannot have a payee as a source.".to_owned(), action: ErrorAction::IgnoreError});
}
}
// The general routing idea is the following:
// 1. Fill first/last hops communicated by the caller.
// 2. Attempt to construct a path from payer to payee for transferring
// any ~sufficient (described later) value.
// If succeed, remember which channels were used and how much liquidity they have available,
// so that future paths don't rely on the same liquidity.
// 3. Prooceed to the next step if:
// - we hit the recommended target value;
// - OR if we could not construct a new path. Any next attempt will fail too.
// Otherwise, repeat step 2.
// 4. See if we managed to collect paths which aggregately are able to transfer target value
// (not recommended value). If yes, proceed. If not, fail routing.
// 5. Randomly combine paths into routes having enough to fulfill the payment. (TODO: knapsack)
// 6. Of all the found paths, select only those with the lowest total fee.
// 7. The last path in every selected route is likely to be more than we need.
// Reduce its value-to-transfer and recompute fees.
// 8. Choose the best route by the lowest total fee.
// As for the actual search algorithm,
// we do a payee-to-payer Dijkstra's sorting by each node's distance from the payee
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// plus the minimum per-HTLC fee to get from it to another node (aka "shitty A*").
// TODO: There are a few tweaks we could do, including possibly pre-calculating more stuff
// to use as the A* heuristic beyond just the cost to get one node further than the current
// one.
initial checkin
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let dummy_directional_info = DummyDirectionalChannelInfo { // used for first_hops routes
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
Store available routing amounts per channel to use it in routing decisions
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htlc_maximum_msat: None,
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fees: RoutingFees {
base_msat: 0,
proportional_millionths: 0,
Err from get_route if the requested value is more than 21m BTC This fixes a potential overflow panic.
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}
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};
Err from get_route if the requested value is more than 21m BTC This fixes a potential overflow panic.
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let mut targets = BinaryHeap::new(); //TODO: Do we care about switching to eg Fibbonaci heap?
let mut dist = HashMap::with_capacity(network.get_nodes().len());
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// When arranging a route, we select multiple paths so that we can make a multi-path payment.
// Don't stop searching for paths when we think they're
// sufficient to transfer a given value aggregately.
// Search for higher value, so that we collect many more paths,
// and then select the best combination among them.
const ROUTE_CAPACITY_PROVISION_FACTOR: u64 = 3;
let recommended_value_msat = final_value_msat * ROUTE_CAPACITY_PROVISION_FACTOR as u64;
// Step (1).
// 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.
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let mut first_hop_targets = 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");
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if chan.remote_network_id == *payee {
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return Ok(Route {
paths: vec![vec![RouteHop {
pubkey: chan.remote_network_id,
node_features: chan.counterparty_features.to_context(),
short_channel_id,
channel_features: chan.counterparty_features.to_context(),
fee_msat: final_value_msat,
cltv_expiry_delta: final_cltv,
}]],
});
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} else if chan.remote_network_id == *our_node_id {
return Err(LightningError{err: "First hop cannot have our_node_id as a destination.".to_owned(), action: ErrorAction::IgnoreError});
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}
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first_hop_targets.insert(chan.remote_network_id, (short_channel_id, chan.counterparty_features.clone(), chan.outbound_capacity_msat));
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}
if first_hop_targets.is_empty() {
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
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return Err(LightningError{err: "Cannot route when there are no outbound routes away from us".to_owned(), action: ErrorAction::IgnoreError});
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}
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}
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// We don't want multiple paths (as per MPP) share liquidity of the same channels.
// This map allows paths to be aware of the channel use by other paths in the same call.
// This would help to make a better path finding decisions and not "overbook" channels.
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// It is unaware of the directions (except for `outbound_capacity_msat` in `first_hops`).
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let mut bookkeeped_channels_liquidity_available_msat = HashMap::new();
// Keeping track of how much value we already collected across other paths. Helps to decide:
// - how much a new path should be transferring (upper bound);
// - whether a channel should be disregarded because
// it's available liquidity is too small comparing to how much more we need to collect;
// - when we want to stop looking for new paths.
let mut already_collected_value_msat = 0;
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macro_rules! add_entry {
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// Adds entry which goes from $src_node_id to $dest_node_id
// over the channel with id $chan_id with fees described in
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// $directional_info.
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// $next_hops_fee_msat represents the fees paid for using all the channel *after* this one,
// since that value has to be transferred over this channel.
( $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 ) => {
// 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 != $dest_node_id.clone() {
let available_liquidity_msat = bookkeeped_channels_liquidity_available_msat.entry($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);
}
Store available routing amounts per channel to use it in routing decisions
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if let Some(htlc_maximum_msat) = $directional_info.htlc_maximum_msat {
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if let Some(available_msat) = initial_liquidity_available_msat {
initial_liquidity_available_msat = Some(cmp::min(available_msat, htlc_maximum_msat));
Store available routing amounts per channel to use it in routing decisions
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} else {
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initial_liquidity_available_msat = Some(htlc_maximum_msat);
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}
}
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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
}
});
// It is tricky to substract $next_hops_fee_msat from available liquidity here.
// It may be misleading because we might later choose to reduce the value transferred
// over these channels, and the channel which was insufficient might become sufficient.
// Worst case: we drop a good channel here because it can't cover the high following
// fees caused by one expensive channel, but then this channel could have been used
// if the amount being transferred over this path is lower.
// We do this for now, but this is a subject for removal.
if let Some(available_value_contribution_msat) = available_liquidity_msat.checked_sub($next_hops_fee_msat) {
// Routing Fragmentation Mitigation heuristic:
//
// Routing fragmentation across many payment paths increases the overall routing
// fees as you have irreducible routing fees per-link used (`fee_base_msat`).
// Taking too many smaller paths also increases the chance of payment failure.
// Thus to avoid this effect, we require from our collected links to provide
// at least a minimal contribution to the recommended value yet-to-be-fulfilled.
//
// This requirement is currently 5% of the remaining-to-be-collected value.
// This means as we successfully advance in our collection,
// the absolute liquidity contribution is lowered,
// thus increasing the number of potential channels to be selected.
// Derive the minimal liquidity contribution with a ratio of 20 (5%, rounded up).
let minimal_value_contribution_msat: u64 = (recommended_value_msat - already_collected_value_msat + 19) / 20;
// Verify the liquidity offered by this channel complies to the minimal contribution.
let contributes_sufficient_value = available_value_contribution_msat >= minimal_value_contribution_msat;
let value_contribution_msat = cmp::min(available_value_contribution_msat, $next_hops_value_contribution);
// Includes paying fees for the use of the following channels.
let amount_to_transfer_over_msat: u64 = match value_contribution_msat.checked_add($next_hops_fee_msat) {
Some(result) => result,
// Can't overflow due to how the values were computed right above.
None => unreachable!(),
};
// If HTLC minimum is larger than the whole value we're going to transfer, we shouldn't bother
// even considering this channel, because it won't be useful.
// TODO: Explore simply adding fee to hit htlc_minimum_msat
// This is separate from checking amount_to_transfer_over_msat, which also should be
// lower-bounded by htlc_minimum_msat. Since we're choosing it as maximum possible,
// this channel should just be skipped if it's not sufficient.
// amount_to_transfer_over_msat can be both larger and smaller than final_value_msat,
// so this can't be derived.
let final_value_satisfies_htlc_minimum_msat = final_value_msat >= $directional_info.htlc_minimum_msat;
if final_value_satisfies_htlc_minimum_msat &&
contributes_sufficient_value && amount_to_transfer_over_msat >= $directional_info.htlc_minimum_msat {
let hm_entry = dist.entry(&$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
// as a way to reach the $dest_node_id.
let mut fee_base_msat = u32::max_value();
let mut fee_proportional_millionths = u32::max_value();
if let Some(Some(fees)) = network.get_nodes().get(&$src_node_id).map(|node| node.lowest_inbound_channel_fees) {
fee_base_msat = fees.base_msat;
fee_proportional_millionths = fees.proportional_millionths;
}
PathBuildingHop {
route_hop: 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,
},
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(),
}
});
let mut hop_use_fee_msat = 0;
let mut total_fee_msat = $next_hops_fee_msat;
// 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) {
// max_value means we'll always fail
// the old_entry.total_fee_msat > total_fee_msat check
None => total_fee_msat = u64::max_value(),
Some(fee_msat) => {
hop_use_fee_msat = fee_msat;
total_fee_msat += hop_use_fee_msat;
if let Some(prev_hop_fee_msat) = compute_fees(total_fee_msat + amount_to_transfer_over_msat,
old_entry.src_lowest_inbound_fees) {
if let Some(incremented_total_fee_msat) = total_fee_msat.checked_add(prev_hop_fee_msat) {
total_fee_msat = incremented_total_fee_msat;
}
else {
// max_value means we'll always fail
// the old_entry.total_fee_msat > total_fee_msat check
total_fee_msat = u64::max_value();
}
} else {
// max_value means we'll always fail
// the old_entry.total_fee_msat > total_fee_msat check
total_fee_msat = u64::max_value();
}
}
}
[router] Fix + test routing via next/last-hop hints only We had code in the router to support sending a payment via a single hop across channels exclusively provided by the next-/last-hop hints. However, in updating the fuzzer, I noted that this case not only didn't work, but paniced in some cases. Here, we both fix the panic, as well as write a new test which ensures we don't break support for such routing in the future.
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}
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let new_graph_node = RouteGraphNode {
pubkey: $src_node_id,
lowest_fee_to_peer_through_node: total_fee_msat,
lowest_fee_to_node: $next_hops_fee_msat as u64 + hop_use_fee_msat,
value_contribution_msat: value_contribution_msat,
};
// Update the way of reaching $src_node_id with the given $chan_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,
// and the cost of routing to the source node of this channel).
if old_entry.total_fee_msat > total_fee_msat {
targets.push(new_graph_node);
old_entry.next_hops_fee_msat = $next_hops_fee_msat;
old_entry.hop_use_fee_msat = hop_use_fee_msat;
old_entry.total_fee_msat = total_fee_msat;
old_entry.route_hop = RouteHop {
Catch fee overflow panic in get_route
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pubkey: $dest_node_id.clone(),
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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node_features: NodeFeatures::empty(),
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short_channel_id: $chan_id.clone(),
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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channel_features: $chan_features.clone(),
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fee_msat: 0, // This value will be later filled with hop_use_fee_msat of the following channel
cltv_expiry_delta: $directional_info.cltv_expiry_delta as u32,
};
old_entry.channel_fees = $directional_info.fees;
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}
}
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}
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}
};
}
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// Find ways (channels with destination) to reach a given node and store them
// in the corresponding data structures (routing graph etc).
// $fee_to_target_msat represents how much it costs to reach to this node from the payee,
// meaning how much will be paid in fees after this node (to the best of our knowledge).
// This data can later be helpful to optimize routing (pay lower fees).
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macro_rules! add_entries_to_cheapest_to_target_node {
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( $node: expr, $node_id: expr, $fee_to_target_msat: expr, $next_hops_value_contribution: expr ) => {
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if first_hops.is_some() {
Use outbound_capacity_msat from first_hops for routing
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if let Some(&(ref first_hop, ref features, ref outbound_capacity_msat)) = first_hop_targets.get(&$node_id) {
add_entry!(first_hop, *our_node_id, $node_id, dummy_directional_info, Some(outbound_capacity_msat / 1000), features.to_context(), $fee_to_target_msat, $next_hops_value_contribution);
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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}
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}
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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Move node announcement fields into a separate struct
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let features;
if let Some(node_info) = $node.announcement_info.as_ref() {
features = node_info.features.clone();
} else {
features = NodeFeatures::empty();
}
if !features.requires_unknown_bits() {
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for chan_id in $node.channels.iter() {
let chan = network.get_channels().get(chan_id).unwrap();
if !chan.features.requires_unknown_bits() {
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if chan.node_one == *$node_id {
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// ie $node is one, ie next hop in A* is two, via the two_to_one channel
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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 {
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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);
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}
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
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}
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}
} else {
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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 {
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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);
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}
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
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}
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}
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}
}
}
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}
};
}
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let mut payment_paths = Vec::<PaymentPath>::new();
// TODO: diversify by nodes (so that all paths aren't doomed if one node is offline).
'paths_collection: loop {
// For every new path, start from scratch, except
// bookkeeped_channels_liquidity_available_msat, which will improve
// the further iterations of path finding. Also don't erase first_hop_targets.
targets.clear();
dist.clear();
// Add the payee as a target, so that the payee-to-payer
// search algorithm knows what to start with.
match network.get_nodes().get(payee) {
// The payee is not in our network graph, so nothing to add here.
// There is still a chance of reaching them via last_hops though,
// so don't yet fail the payment here.
// If not, targets.pop() will not even let us enter the loop in step 2.
None => {},
Some(node) => {
add_entries_to_cheapest_to_target_node!(node, payee, 0, recommended_value_msat);
},
}
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// Step (1).
// If a caller provided us with last hops, add them to routing targets. Since this happens
// earlier than general path finding, they will be somewhat prioritized, although currently
// it matters only if the fees are exactly the same.
for hop in last_hops.iter() {
let have_hop_src_in_graph =
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if let Some(&(ref first_hop, ref features, ref outbound_capacity_msat)) = first_hop_targets.get(&hop.src_node_id) {
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// If this hop connects to a node with which we have a direct channel, ignore
// the network graph and add both the hop and our direct channel to
// the candidate set.
//
// 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.
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add_entry!(first_hop, *our_node_id , hop.src_node_id, dummy_directional_info, Some(outbound_capacity_msat / 1000), features.to_context(), 0, recommended_value_msat);
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true
} else {
// In any other case, only add the hop if the source is in the regular network
// graph:
network.get_nodes().get(&hop.src_node_id).is_some()
};
if have_hop_src_in_graph {
// BOLT 11 doesn't allow inclusion of features for the last hop hints, which
// really sucks, cause we're gonna need that eventually.
let last_hop_htlc_minimum_msat: u64 = match hop.htlc_minimum_msat {
Some(htlc_minimum_msat) => htlc_minimum_msat,
None => 0
};
let directional_info = DummyDirectionalChannelInfo {
cltv_expiry_delta: hop.cltv_expiry_delta as u32,
htlc_minimum_msat: last_hop_htlc_minimum_msat,
htlc_maximum_msat: hop.htlc_maximum_msat,
fees: hop.fees,
};
add_entry!(hop.short_channel_id, hop.src_node_id, payee, directional_info, None::<u64>, ChannelFeatures::empty(), 0, recommended_value_msat);
}
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}
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// At this point, targets are filled with the data from first and
// last hops communicated by the caller, and the payment receiver.
let mut found_new_path = false;
// Step (2).
// If this loop terminates due the exhaustion of targets, two situations are possible:
// - not enough outgoing liquidity:
// 0 < already_collected_value_msat < final_value_msat
// - enough outgoing liquidity:
// final_value_msat <= already_collected_value_msat < recommended_value_msat
// Both these cases (and other cases except reaching recommended_value_msat) mean that
// paths_collection will be stopped because found_new_path==false.
// This is not necessarily a routing failure.
'path_construction: while let Some(RouteGraphNode { pubkey, lowest_fee_to_node, value_contribution_msat, .. }) = targets.pop() {
// Since we're going payee-to-payer, hitting our node as a target means we should stop
// traversing the graph and arrange the path out of what we found.
if pubkey == *our_node_id {
let mut new_entry = dist.remove(&our_node_id).unwrap();
let mut ordered_hops = vec!(new_entry.clone());
'path_walk: loop {
Use outbound_capacity_msat from first_hops for routing
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if let Some(&(_, ref features, _)) = first_hop_targets.get(&ordered_hops.last().unwrap().route_hop.pubkey) {
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ordered_hops.last_mut().unwrap().route_hop.node_features = features.to_context();
} else if let Some(node) = network.get_nodes().get(&ordered_hops.last().unwrap().route_hop.pubkey) {
if let Some(node_info) = node.announcement_info.as_ref() {
ordered_hops.last_mut().unwrap().route_hop.node_features = node_info.features.clone();
} else {
ordered_hops.last_mut().unwrap().route_hop.node_features = NodeFeatures::empty();
}
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} else {
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// 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!(ordered_hops.last().unwrap().route_hop.pubkey == *payee);
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}
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// Means we succesfully traversed from the payer to the payee, now
// save this path for the payment route. Also, update the liquidity
// remaining on the used hops, so that we take them into account
// while looking for more paths.
if ordered_hops.last().unwrap().route_hop.pubkey == *payee {
break 'path_walk;
}
new_entry = match dist.remove(&ordered_hops.last().unwrap().route_hop.pubkey) {
Some(payment_hop) => payment_hop,
// We can't arrive at None because, if we ever add an entry to targets,
// we also fill in the entry in dist (see add_entry!).
None => unreachable!(),
};
// We "propagate" the fees one hop backward (topologically) here,
// 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().route_hop.fee_msat = new_entry.hop_use_fee_msat;
ordered_hops.last_mut().unwrap().route_hop.cltv_expiry_delta = new_entry.route_hop.cltv_expiry_delta;
ordered_hops.push(new_entry.clone());
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}
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ordered_hops.last_mut().unwrap().route_hop.fee_msat = value_contribution_msat;
ordered_hops.last_mut().unwrap().hop_use_fee_msat = 0;
ordered_hops.last_mut().unwrap().route_hop.cltv_expiry_delta = final_cltv;
let payment_path = PaymentPath {hops: ordered_hops};
// Since a path allows to transfer as much value as
// the smallest channel it has ("bottleneck"), we should recompute
// the fees so sender HTLC don't overpay fees when traversing
// larger channels than the bottleneck. This may happen because
// when we were selecting those channels we were not aware how much value
// this path will transfer, and the relative fee for them
// might have been computed considering a larger value.
// Remember that we used these channels so that we don't rely
// on the same liquidity in future paths.
for (i, payment_hop) in payment_path.hops.iter().enumerate() {
let channel_liquidity_available_msat = bookkeeped_channels_liquidity_available_msat.get_mut(&payment_hop.route_hop.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;
if *channel_liquidity_available_msat < spent_on_hop_msat {
// This should not happen because we do recompute fees right before,
// trying to avoid cases when a hop is not usable due to the fee situation.
break 'path_construction;
}
*channel_liquidity_available_msat -= spent_on_hop_msat;
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}
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// Track the total amount all our collected paths allow to send so that we:
// - know when to stop looking for more paths
// - know which of the hops are useless considering how much more sats we need
// (contributes_sufficient_value)
already_collected_value_msat += value_contribution_msat;
payment_paths.push(payment_path);
found_new_path = true;
break 'path_construction;
}
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// Otherwise, since the current target node is not us,
// keep "unrolling" the payment graph from payee to payer by
// finding a way to reach the current target from the payer side.
match network.get_nodes().get(&pubkey) {
None => {},
Some(node) => {
add_entries_to_cheapest_to_target_node!(node, &pubkey, lowest_fee_to_node, value_contribution_msat);
},
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}
}
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// Step (3).
// Stop either when recommended value is reached,
// or if during last iteration no new path was found.
// In the latter case, making another path finding attempt could not help,
// because we deterministically terminate the search due to low liquidity.
if already_collected_value_msat >= recommended_value_msat || !found_new_path {
break 'paths_collection;
}
}
// Step (4).
if payment_paths.len() == 0 {
return Err(LightningError{err: "Failed to find a path to the given destination".to_owned(), action: ErrorAction::IgnoreError});
}
if already_collected_value_msat < final_value_msat {
return Err(LightningError{err: "Failed to find a sufficient route to the given destination".to_owned(), action: ErrorAction::IgnoreError});
}
// Sort by total fees and take the best paths.
payment_paths.sort_by_key(|path| path.get_total_fee_paid_msat());
if payment_paths.len() > 50 {
payment_paths.truncate(50);
}
// Draw multiple sufficient routes by randomly combining the selected paths.
let mut drawn_routes = Vec::new();
for i in 0..payment_paths.len() {
let mut cur_route = Vec::<PaymentPath>::new();
let mut aggregate_route_value_msat = 0;
// Step (5).
// TODO: real random shuffle
// Currently just starts with i_th and goes up to i-1_th in a looped way.
let cur_payment_paths = [&payment_paths[i..], &payment_paths[..i]].concat();
// Step (6).
for payment_path in cur_payment_paths {
cur_route.push(payment_path.clone());
aggregate_route_value_msat += payment_path.get_value_msat();
if aggregate_route_value_msat > final_value_msat {
// Last path likely overpaid. Substract it from the most expensive
// (in terms of proportional fee) path in this route and recompute fees.
// This might be not the most economically efficient way, but fewer paths
// also makes routing more reliable.
let mut overpaid_value_msat = aggregate_route_value_msat - final_value_msat;
// First, drop some expensive low-value paths entirely if possible.
// Sort by value so that we drop many really-low values first, since
// fewer paths is better: the payment is less likely to fail.
// TODO: this could also be optimized by also sorting by feerate_per_sat_routed,
// so that the sender pays less fees overall.
cur_route.sort_by_key(|path| path.get_value_msat());
// We should make sure that at least 1 path left.
let mut paths_left = cur_route.len();
cur_route.retain(|path| {
if paths_left == 1 {
return true
}
let mut keep = true;
let path_value_msat = path.get_value_msat();
if path_value_msat <= overpaid_value_msat {
keep = false;
overpaid_value_msat -= path_value_msat;
paths_left -= 1;
}
keep
});
if overpaid_value_msat == 0 {
break;
}
assert!(cur_route.len() > 0);
// Step (7).
// Now, substract the overpaid value from the most-expensive path.
cur_route.sort_by_key(|path| { path.hops.iter().map(|hop| hop.channel_fees.proportional_millionths as u64).sum::<u64>() });
let expensive_payment_path = cur_route.last_mut().unwrap();
let expensive_path_new_value_msat = expensive_payment_path.get_value_msat() - overpaid_value_msat;
// TODO: make sure expensive_path_new_value_msat doesn't cause to fall behind htlc_minimum_msat.
expensive_payment_path.update_value_and_recompute_fees(expensive_path_new_value_msat);
break;
}
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}
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drawn_routes.push(cur_route);
}
// Step (8).
// Select the best route by lowest total fee.
drawn_routes.sort_by_key(|paths| paths.iter().map(|path| path.get_total_fee_paid_msat()).sum::<u64>());
let mut selected_paths = Vec::<Vec::<RouteHop>>::new();
for payment_path in drawn_routes.first().unwrap() {
selected_paths.push(payment_path.hops.iter().map(|payment_hop| payment_hop.route_hop.clone()).collect());
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}
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let route = Route { paths: selected_paths };
log_trace!(logger, "Got route: {}", log_route!(route));
return Ok(route);
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}
#[cfg(test)]
mod tests {
Take &NetworkGraph as input in get_route, not a NetGraphMsgHandler This was just an oversight when route calculation was split up into parts - it makes no sense for get_route to require that we have a full route message handler, only a network graph (which can always be accessed from a NetGraphMsgHandler anyway).
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use routing::router::{get_route, RouteHint, RoutingFees};
[router] Fix + test routing via next/last-hop hints only We had code in the router to support sending a payment via a single hop across channels exclusively provided by the next-/last-hop hints. However, in updating the fuzzer, I noted that this case not only didn't work, but paniced in some cases. Here, we both fix the panic, as well as write a new test which ensures we don't break support for such routing in the future.
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use routing::network_graph::{NetworkGraph, NetGraphMsgHandler};
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
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use ln::features::{ChannelFeatures, InitFeatures, NodeFeatures};
Add htlc_maximum_msat field
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use ln::msgs::{ErrorAction, LightningError, OptionalField, UnsignedChannelAnnouncement, ChannelAnnouncement, RoutingMessageHandler,
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NodeAnnouncement, UnsignedNodeAnnouncement, ChannelUpdate, UnsignedChannelUpdate};
use ln::channelmanager;
Logging interface Implement error, warn, info, debug and trace macros, internally calling an instance of Logger, and passing it to every main structures Build-time or client-side filtering. Issue #54
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use util::test_utils;
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use util::ser::Writeable;
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Bitcoin deps refactoring (BDR): Linearizing bitcoin_hash deps
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use bitcoin::hashes::sha256d::Hash as Sha256dHash;
use bitcoin::hashes::Hash;
Implement get_chain_utxo and ChainError in ChainWatchInterface to Router check on channel_announcement Needed for BOLT 7
2018-08-30 01:40:18 +00:00
use bitcoin::network::constants::Network;
Add tests for handling node announcements
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use bitcoin::blockdata::constants::genesis_block;
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use bitcoin::blockdata::script::Builder;
use bitcoin::blockdata::opcodes;
use bitcoin::blockdata::transaction::TxOut;
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replace use of bitcoin::utils::misc::hex_bytes with hex::decode as requested in #84 discussion https://github.com/rust-bitcoin/rust-lightning/pull/84#discussion_r205508845
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use hex;
BDR: Linearizing secp256k1 deps
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use bitcoin::secp256k1::key::{PublicKey,SecretKey};
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use bitcoin::secp256k1::{Secp256k1, All};
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Logging interface Implement error, warn, info, debug and trace macros, internally calling an instance of Logger, and passing it to every main structures Build-time or client-side filtering. Issue #54
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use std::sync::Arc;
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// Using the same keys for LN and BTC ids
Replace ChainWatchInterface in NetGraphMsgHandler ChainWatchInterface was intended as an interface for watching rather than accessing the chain. Remove get_chain_utxo and add chain::Access trait for this behavior. Wrap it with an Option in NetGraphMsgHandler in order to simplify the error interface.
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fn add_channel(net_graph_msg_handler: &NetGraphMsgHandler<Arc<test_utils::TestChainSource>, Arc<test_utils::TestLogger>>, secp_ctx: &Secp256k1<All>, node_1_privkey: &SecretKey,
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node_2_privkey: &SecretKey, features: ChannelFeatures, short_channel_id: u64) {
let node_id_1 = PublicKey::from_secret_key(&secp_ctx, node_1_privkey);
let node_id_2 = PublicKey::from_secret_key(&secp_ctx, node_2_privkey);
let unsigned_announcement = UnsignedChannelAnnouncement {
features,
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chain_hash: genesis_block(Network::Testnet).header.block_hash(),
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short_channel_id,
node_id_1,
node_id_2,
bitcoin_key_1: node_id_1,
bitcoin_key_2: node_id_2,
excess_data: Vec::new(),
};
let msghash = hash_to_message!(&Sha256dHash::hash(&unsigned_announcement.encode()[..])[..]);
let valid_announcement = ChannelAnnouncement {
node_signature_1: secp_ctx.sign(&msghash, node_1_privkey),
node_signature_2: secp_ctx.sign(&msghash, node_2_privkey),
bitcoin_signature_1: secp_ctx.sign(&msghash, node_1_privkey),
bitcoin_signature_2: secp_ctx.sign(&msghash, node_2_privkey),
contents: unsigned_announcement.clone(),
};
match net_graph_msg_handler.handle_channel_announcement(&valid_announcement) {
Ok(res) => assert!(res),
_ => panic!()
};
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}
Replace ChainWatchInterface in NetGraphMsgHandler ChainWatchInterface was intended as an interface for watching rather than accessing the chain. Remove get_chain_utxo and add chain::Access trait for this behavior. Wrap it with an Option in NetGraphMsgHandler in order to simplify the error interface.
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fn update_channel(net_graph_msg_handler: &NetGraphMsgHandler<Arc<test_utils::TestChainSource>, Arc<test_utils::TestLogger>>, secp_ctx: &Secp256k1<All>, node_privkey: &SecretKey, update: UnsignedChannelUpdate) {
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let msghash = hash_to_message!(&Sha256dHash::hash(&update.encode()[..])[..]);
let valid_channel_update = ChannelUpdate {
signature: secp_ctx.sign(&msghash, node_privkey),
contents: update.clone()
};
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match net_graph_msg_handler.handle_channel_update(&valid_channel_update) {
Ok(res) => assert!(res),
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Err(_) => panic!()
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};
}
Replace ChainWatchInterface in NetGraphMsgHandler ChainWatchInterface was intended as an interface for watching rather than accessing the chain. Remove get_chain_utxo and add chain::Access trait for this behavior. Wrap it with an Option in NetGraphMsgHandler in order to simplify the error interface.
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fn add_or_update_node(net_graph_msg_handler: &NetGraphMsgHandler<Arc<test_utils::TestChainSource>, Arc<test_utils::TestLogger>>, secp_ctx: &Secp256k1<All>, node_privkey: &SecretKey,
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features: NodeFeatures, timestamp: u32) {
let node_id = PublicKey::from_secret_key(&secp_ctx, node_privkey);
let unsigned_announcement = UnsignedNodeAnnouncement {
features,
timestamp,
node_id,
rgb: [0; 3],
alias: [0; 32],
addresses: Vec::new(),
excess_address_data: Vec::new(),
excess_data: Vec::new(),
};
let msghash = hash_to_message!(&Sha256dHash::hash(&unsigned_announcement.encode()[..])[..]);
let valid_announcement = NodeAnnouncement {
signature: secp_ctx.sign(&msghash, node_privkey),
contents: unsigned_announcement.clone()
};
match net_graph_msg_handler.handle_node_announcement(&valid_announcement) {
Ok(_) => (),
Err(_) => panic!()
};
}
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
fn get_nodes(secp_ctx: &Secp256k1<All>) -> (SecretKey, PublicKey, Vec<SecretKey>, Vec<PublicKey>) {
let privkeys: Vec<SecretKey> = (2..10).map(|i| {
SecretKey::from_slice(&hex::decode(format!("{:02}", i).repeat(32)).unwrap()[..]).unwrap()
}).collect();
let pubkeys = privkeys.iter().map(|secret| PublicKey::from_secret_key(&secp_ctx, secret)).collect();
let our_privkey = SecretKey::from_slice(&hex::decode("01".repeat(32)).unwrap()[..]).unwrap();
let our_id = PublicKey::from_secret_key(&secp_ctx, &our_privkey);
(our_privkey, our_id, privkeys, pubkeys)
}
fn id_to_feature_flags(id: u8) -> Vec<u8> {
// Set the feature flags to the id'th odd (ie non-required) feature bit so that we can
// test for it later.
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]
}
}
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fn build_graph() -> (Secp256k1<All>, NetGraphMsgHandler<std::sync::Arc<test_utils::TestChainSource>, std::sync::Arc<crate::util::test_utils::TestLogger>>, std::sync::Arc<test_utils::TestChainSource>, std::sync::Arc<test_utils::TestLogger>) {
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let secp_ctx = Secp256k1::new();
ChannelManager+Router++ Logger Arc --> Deref This caused a bunch of cascading changes, including passing loggers down to Channels in function calls rather than having each Channel have a pointer to the ChannelManager's Logger (which was a circular reference). Other structs that the Channel had passed its Logger to also had their loggers removed. Other newly unused Loggers were also removed, especially when keeping them would've caused a bunch of extra test changes to be necessary, e.g. with the ChainWatchInterfaceUtil's Logger.
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let logger = Arc::new(test_utils::TestLogger::new());
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let chain_monitor = Arc::new(test_utils::TestChainSource::new(Network::Testnet));
Add genesis block hash to NetworkGraph This changes adds the genesis block hash as a BlockHash to the NetworkGraph struct. Making the NetworkGraph aware allows the message handler to validate the chain_hash for received messages. This change also adds the hash value to the Writeable and Readable methods.
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let net_graph_msg_handler = NetGraphMsgHandler::new(genesis_block(Network::Testnet).header.block_hash(), None, Arc::clone(&logger));
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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// Build network from our_id to node7:
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//
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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// -1(1)2- node0 -1(3)2-
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// / \
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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// our_id -1(12)2- node7 -1(13)2--- node2
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
2018-07-23 13:10:18 -04:00
// \ /
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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// -1(2)2- node1 -1(4)2-
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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//
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan1 1-to-2: disabled
// chan1 2-to-1: enabled, 0 fee
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan2 1-to-2: enabled, ignored fee
// chan2 2-to-1: enabled, 0 fee
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan3 1-to-2: enabled, 0 fee
// chan3 2-to-1: enabled, 100 msat fee
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan4 1-to-2: enabled, 100% fee
// chan4 2-to-1: enabled, 0 fee
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan12 1-to-2: enabled, ignored fee
// chan12 2-to-1: enabled, 0 fee
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//
Add arg to get_route to specify our local channels explicitly (and a new getter in ChannelManager to get the thing to pass in)
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// chan13 1-to-2: enabled, 200% fee
// chan13 2-to-1: enabled, 0 fee
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//
//
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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// -1(5)2- node3 -1(8)2--
initial checkin
2017-12-25 01:05:27 -05:00
// | 2 |
// | (11) |
// / 1 \
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
// node2--1(6)2- node4 -1(9)2--- node6 (not in global route map)
initial checkin
2017-12-25 01:05:27 -05:00
// \ /
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
// -1(7)2- node5 -1(10)2-
initial checkin
2017-12-25 01:05:27 -05:00
//
// chan5 1-to-2: enabled, 100 msat fee
// chan5 2-to-1: enabled, 0 fee
//
// chan6 1-to-2: enabled, 0 fee
// chan6 2-to-1: enabled, 0 fee
//
// chan7 1-to-2: enabled, 100% fee
// chan7 2-to-1: enabled, 0 fee
//
// chan8 1-to-2: enabled, variable fee (0 then 1000 msat)
// chan8 2-to-1: enabled, 0 fee
//
// chan9 1-to-2: enabled, 1001 msat fee
// chan9 2-to-1: enabled, 0 fee
//
// chan10 1-to-2: enabled, 0 fee
// chan10 2-to-1: enabled, 0 fee
//
// chan11 1-to-2: enabled, 0 fee
// chan11 2-to-1: enabled, 0 fee
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
let (our_privkey, _, privkeys, _) = get_nodes(&secp_ctx);
Pass node features through to RouteHops This exposes the latest Init-context features in the ChannelDetails passed to the Router during route calculation, which combines those with the Node-context features tracked from node_announcements to provide the latest Node-context features in RouteHop structs. Fields are also added for Channel-context features, though those are only partially used since no such features are defined today anyway. These will be useful when determining whether to use new TLV-formatted onion hop datas when generating onions for peers.
2019-12-28 01:10:14 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, &privkeys[0], ChannelFeatures::from_le_bytes(id_to_feature_flags(1)), 1);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 1,
timestamp: 1,
flags: 1,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
initial checkin
2017-12-25 01:05:27 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[0], NodeFeatures::from_le_bytes(id_to_feature_flags(1)), 0);
add_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, &privkeys[1], ChannelFeatures::from_le_bytes(id_to_feature_flags(2)), 2);
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 2,
timestamp: 1,
flags: 0,
cltv_expiry_delta: u16::max_value(),
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: u32::max_value(),
fee_proportional_millionths: u32::max_value(),
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 2,
timestamp: 1,
flags: 1,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
initial checkin
2017-12-25 01:05:27 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[1], NodeFeatures::from_le_bytes(id_to_feature_flags(2)), 0);
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, &privkeys[7], ChannelFeatures::from_le_bytes(id_to_feature_flags(12)), 12);
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 12,
timestamp: 1,
flags: 0,
cltv_expiry_delta: u16::max_value(),
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: u32::max_value(),
fee_proportional_millionths: u32::max_value(),
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 12,
timestamp: 1,
flags: 1,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[7], NodeFeatures::from_le_bytes(id_to_feature_flags(8)), 0);
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], &privkeys[2], ChannelFeatures::from_le_bytes(id_to_feature_flags(3)), 3);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 3,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (3 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 3,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (3 << 8) | 2,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 100,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], &privkeys[2], ChannelFeatures::from_le_bytes(id_to_feature_flags(4)), 4);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 4,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (4 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 1000000,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 4,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (4 << 8) | 2,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], &privkeys[2], ChannelFeatures::from_le_bytes(id_to_feature_flags(13)), 13);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 13,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (13 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 2000000,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 13,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (13 << 8) | 2,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[2], NodeFeatures::from_le_bytes(id_to_feature_flags(3)), 0);
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], &privkeys[4], ChannelFeatures::from_le_bytes(id_to_feature_flags(6)), 6);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 6,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (6 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 6,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (6 << 8) | 2,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
excess_data: Vec::new(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], &privkeys[3], ChannelFeatures::from_le_bytes(id_to_feature_flags(11)), 11);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 11,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (11 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[3], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 11,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (11 << 8) | 2,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[4], NodeFeatures::from_le_bytes(id_to_feature_flags(5)), 0);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[3], NodeFeatures::from_le_bytes(id_to_feature_flags(4)), 0);
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], &privkeys[5], ChannelFeatures::from_le_bytes(id_to_feature_flags(7)), 7);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
Update to latest upstream rust-bitcoin
2020-08-25 17:12:00 -04:00
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
short_channel_id: 7,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (7 << 8) | 1,
htlc_minimum_msat: 0,
Add htlc_maximum_msat field
2020-06-28 14:43:10 +03:00
htlc_maximum_msat: OptionalField::Absent,
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
fee_base_msat: 0,
fee_proportional_millionths: 1000000,
excess_data: Vec::new()
});
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[5], UnsignedChannelUpdate {
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chain_hash: genesis_block(Network::Testnet).header.block_hash(),
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short_channel_id: 7,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (7 << 8) | 2,
htlc_minimum_msat: 0,
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htlc_maximum_msat: OptionalField::Absent,
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fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[5], NodeFeatures::from_le_bytes(id_to_feature_flags(6)), 0);
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(secp_ctx, net_graph_msg_handler, chain_monitor, logger)
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}
#[test]
fn simple_route_test() {
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let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
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let (_, our_id, _, nodes) = get_nodes(&secp_ctx);
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// Simple route to 2 via 1
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 0, 42, Arc::clone(&logger)) {
assert_eq!(err, "Cannot send a payment of 0 msat");
} else { panic!(); }
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let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
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assert_eq!(route.paths[0].len(), 2);
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assert_eq!(route.paths[0][0].pubkey, nodes[1]);
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assert_eq!(route.paths[0][0].short_channel_id, 2);
assert_eq!(route.paths[0][0].fee_msat, 100);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (4 << 8) | 1);
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assert_eq!(route.paths[0][0].node_features.le_flags(), &id_to_feature_flags(2));
assert_eq!(route.paths[0][0].channel_features.le_flags(), &id_to_feature_flags(2));
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assert_eq!(route.paths[0][1].pubkey, nodes[2]);
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assert_eq!(route.paths[0][1].short_channel_id, 4);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
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assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(4));
}
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#[test]
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fn invalid_first_hop_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (_, our_id, _, nodes) = get_nodes(&secp_ctx);
// Simple route to 2 via 1
let our_chans = vec![channelmanager::ChannelDetails {
channel_id: [0; 32],
short_channel_id: Some(2),
remote_network_id: our_id,
counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 100000,
user_id: 0,
outbound_capacity_msat: 100000,
inbound_capacity_msat: 100000,
is_live: true,
}];
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 100, 42, Arc::clone(&logger)) {
assert_eq!(err, "First hop cannot have our_node_id as a destination.");
} else { panic!(); }
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths[0].len(), 2);
}
#[test]
fn htlc_minimum_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
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let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
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// Simple route to 2 via 1
// Should fail if htlc_minimum can't be reached
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 50_000,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Make 0 fee.
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update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
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chain_hash: genesis_block(Network::Testnet).header.block_hash(),
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short_channel_id: 4,
timestamp: 2,
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flags: 0,
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cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
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htlc_maximum_msat: OptionalField::Absent,
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fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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// Disable other paths
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update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
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chain_hash: genesis_block(Network::Testnet).header.block_hash(),
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short_channel_id: 12,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
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htlc_maximum_msat: OptionalField::Absent,
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fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 6,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 7,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 49_999, 42, Arc::clone(&logger)) {
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assert_eq!(err, "Failed to find a path to the given destination");
} else { panic!(); }
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// A payment above the minimum should pass
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 50_000, 42, Arc::clone(&logger)).unwrap();
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assert_eq!(route.paths[0].len(), 2);
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// This was a check against final_value_msat.
// Now let's check against amount_to_transfer_over_msat.
// Set minimal HTLC of 200_000_000 msat.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 3,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 200_000_000,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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// Second hop only allows to forward 199_999_999 at most, thus not allowing the first hop to
// be used.
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 4,
timestamp: 3,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(199_999_999),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
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// Not possible to send 199_999_999, because the minimum on channel=2 is 200_000_000.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 199_999_999, 42, Arc::clone(&logger)) {
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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assert_eq!(err, "Failed to find a path to the given destination");
} else { panic!(); }
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// Lift the restriction on the first hop.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 4,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// A payment above the minimum should pass
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 199_999_999, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths[0].len(), 2);
}
#[test]
fn disable_channels_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// // Disable channels 4 and 12 by flags=2
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 4,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 2, // to disable
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// If all the channels require some features we don't understand, route should fail
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 100, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a path to the given destination");
} else { panic!(); }
// If we specify a channel to node7, 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: nodes[7].clone(),
counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
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outbound_capacity_msat: 250_000_000,
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inbound_capacity_msat: 0,
is_live: true,
}];
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths[0].len(), 2);
assert_eq!(route.paths[0][0].pubkey, nodes[7]);
assert_eq!(route.paths[0][0].short_channel_id, 42);
assert_eq!(route.paths[0][0].fee_msat, 200);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (13 << 8) | 1);
assert_eq!(route.paths[0][0].node_features.le_flags(), &vec![0b11]); // it should also override our view of their features
assert_eq!(route.paths[0][0].channel_features.le_flags(), &Vec::<u8>::new()); // No feature flags will meet the relevant-to-channel conversion
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
assert_eq!(route.paths[0][1].short_channel_id, 13);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(13));
}
#[test]
fn disable_node_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (_, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// Disable nodes 1, 2, and 8 by requiring unknown feature bits
let mut unknown_features = NodeFeatures::known();
unknown_features.set_required_unknown_bits();
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[0], unknown_features.clone(), 1);
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[1], unknown_features.clone(), 1);
add_or_update_node(&net_graph_msg_handler, &secp_ctx, &privkeys[7], unknown_features.clone(), 1);
// If all nodes require some features we don't understand, route should fail
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 100, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a path to the given destination");
} else { panic!(); }
// If we specify a channel to node7, 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: nodes[7].clone(),
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counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
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outbound_capacity_msat: 250_000_000,
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inbound_capacity_msat: 0,
is_live: true,
}];
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
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let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
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assert_eq!(route.paths[0].len(), 2);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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assert_eq!(route.paths[0][0].pubkey, nodes[7]);
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assert_eq!(route.paths[0][0].short_channel_id, 42);
assert_eq!(route.paths[0][0].fee_msat, 200);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (13 << 8) | 1);
assert_eq!(route.paths[0][0].node_features.le_flags(), &vec![0b11]); // it should also override our view of their features
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
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assert_eq!(route.paths[0][0].channel_features.le_flags(), &Vec::<u8>::new()); // No feature flags will meet the relevant-to-channel conversion
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Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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assert_eq!(route.paths[0][1].pubkey, nodes[2]);
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assert_eq!(route.paths[0][1].short_channel_id, 13);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(13));
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
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// 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.
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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}
#[test]
fn our_chans_test() {
Implement finding paths for MPP
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let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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let (_, our_id, _, nodes) = get_nodes(&secp_ctx);
Relay/store channel/node announces w/ unknown req'd feature bits This change was made in the flat features BOLT PR, as if a channel requires some unknown feature bits we should still rumor it, we just shouldn't route through it.
2019-12-24 13:08:33 -05:00
Split routing from getting network messages
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// Route to 1 via 2 and 3 because our channel to 1 is disabled
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[0], None, &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
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assert_eq!(route.paths[0].len(), 3);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[1]);
Split routing from getting network messages
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assert_eq!(route.paths[0][0].short_channel_id, 2);
assert_eq!(route.paths[0][0].fee_msat, 200);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (4 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].node_features.le_flags(), &id_to_feature_flags(2));
assert_eq!(route.paths[0][0].channel_features.le_flags(), &id_to_feature_flags(2));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
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assert_eq!(route.paths[0][1].short_channel_id, 4);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, (3 << 8) | 2);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(4));
Split routing from getting network messages
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Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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assert_eq!(route.paths[0][2].pubkey, nodes[0]);
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assert_eq!(route.paths[0][2].short_channel_id, 3);
assert_eq!(route.paths[0][2].fee_msat, 100);
assert_eq!(route.paths[0][2].cltv_expiry_delta, 42);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].node_features.le_flags(), &id_to_feature_flags(1));
assert_eq!(route.paths[0][2].channel_features.le_flags(), &id_to_feature_flags(3));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
// If we specify a channel to node7, that overrides our local channel view and that gets used
Split routing from getting network messages
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let our_chans = vec![channelmanager::ChannelDetails {
channel_id: [0; 32],
short_channel_id: Some(42),
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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remote_network_id: nodes[7].clone(),
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counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
Use outbound_capacity_msat from first_hops for routing
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outbound_capacity_msat: 250_000_000,
Split routing from getting network messages
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inbound_capacity_msat: 0,
is_live: true,
}];
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
2020-07-23 16:10:29 -04:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 100, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
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assert_eq!(route.paths[0].len(), 2);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[7]);
Split routing from getting network messages
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assert_eq!(route.paths[0][0].short_channel_id, 42);
assert_eq!(route.paths[0][0].fee_msat, 200);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (13 << 8) | 1);
assert_eq!(route.paths[0][0].node_features.le_flags(), &vec![0b11]);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
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assert_eq!(route.paths[0][0].channel_features.le_flags(), &Vec::<u8>::new()); // No feature flags will meet the relevant-to-channel conversion
Split routing from getting network messages
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Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
Split routing from getting network messages
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assert_eq!(route.paths[0][1].short_channel_id, 13);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(13));
}
Split routing from getting network messages
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Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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fn last_hops(nodes: &Vec<PublicKey>) -> Vec<RouteHint> {
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let zero_fees = RoutingFees {
base_msat: 0,
proportional_millionths: 0,
};
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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vec!(RouteHint {
src_node_id: nodes[3].clone(),
short_channel_id: 8,
fees: zero_fees,
cltv_expiry_delta: (8 << 8) | 1,
Store available routing amounts per channel to use it in routing decisions
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htlc_minimum_msat: None,
htlc_maximum_msat: None,
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
}, RouteHint {
src_node_id: nodes[4].clone(),
short_channel_id: 9,
fees: RoutingFees {
base_msat: 1001,
proportional_millionths: 0,
},
cltv_expiry_delta: (9 << 8) | 1,
Store available routing amounts per channel to use it in routing decisions
2020-12-23 09:45:45 +02:00
htlc_minimum_msat: None,
htlc_maximum_msat: None,
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
}, RouteHint {
src_node_id: nodes[5].clone(),
short_channel_id: 10,
fees: zero_fees,
cltv_expiry_delta: (10 << 8) | 1,
Store available routing amounts per channel to use it in routing decisions
2020-12-23 09:45:45 +02:00
htlc_minimum_msat: None,
htlc_maximum_msat: None,
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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})
}
#[test]
fn last_hops_test() {
Implement finding paths for MPP
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let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
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let (_, our_id, _, nodes) = get_nodes(&secp_ctx);
initial checkin
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Split routing from getting network messages
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// Simple test across 2, 3, 5, and 4 via a last_hop channel
Implement finding paths for MPP
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// First check that lst hop can't have its source as the payee.
let invalid_last_hop = RouteHint {
src_node_id: nodes[6],
short_channel_id: 8,
fees: RoutingFees {
base_msat: 1000,
proportional_millionths: 0,
},
cltv_expiry_delta: (8 << 8) | 1,
htlc_minimum_msat: None,
htlc_maximum_msat: None,
};
let mut invalid_last_hops = last_hops(&nodes);
invalid_last_hops.push(invalid_last_hop);
{
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[6], None, &invalid_last_hops.iter().collect::<Vec<_>>(), 100, 42, Arc::clone(&logger)) {
assert_eq!(err, "Last hop cannot have a payee as a source.");
} else { panic!(); }
}
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
2020-07-23 16:10:29 -04:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[6], None, &last_hops(&nodes).iter().collect::<Vec<_>>(), 100, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
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assert_eq!(route.paths[0].len(), 5);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[1]);
Split routing from getting network messages
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assert_eq!(route.paths[0][0].short_channel_id, 2);
assert_eq!(route.paths[0][0].fee_msat, 100);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (4 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].node_features.le_flags(), &id_to_feature_flags(2));
assert_eq!(route.paths[0][0].channel_features.le_flags(), &id_to_feature_flags(2));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
Split routing from getting network messages
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assert_eq!(route.paths[0][1].short_channel_id, 4);
assert_eq!(route.paths[0][1].fee_msat, 0);
assert_eq!(route.paths[0][1].cltv_expiry_delta, (6 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(4));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].pubkey, nodes[4]);
Split routing from getting network messages
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assert_eq!(route.paths[0][2].short_channel_id, 6);
assert_eq!(route.paths[0][2].fee_msat, 0);
assert_eq!(route.paths[0][2].cltv_expiry_delta, (11 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].node_features.le_flags(), &id_to_feature_flags(5));
assert_eq!(route.paths[0][2].channel_features.le_flags(), &id_to_feature_flags(6));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][3].pubkey, nodes[3]);
Split routing from getting network messages
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assert_eq!(route.paths[0][3].short_channel_id, 11);
assert_eq!(route.paths[0][3].fee_msat, 0);
assert_eq!(route.paths[0][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:
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
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(), &id_to_feature_flags(11));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][4].pubkey, nodes[6]);
Split routing from getting network messages
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assert_eq!(route.paths[0][4].short_channel_id, 8);
assert_eq!(route.paths[0][4].fee_msat, 100);
assert_eq!(route.paths[0][4].cltv_expiry_delta, 42);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
2020-07-13 13:16:32 +09:00
assert_eq!(route.paths[0][4].node_features.le_flags(), &Vec::<u8>::new()); // We dont pass flags in from invoices yet
assert_eq!(route.paths[0][4].channel_features.le_flags(), &Vec::<u8>::new()); // We can't learn any flags from invoices, sadly
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
}
#[test]
fn our_chans_last_hop_connect_test() {
Implement finding paths for MPP
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let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
let (_, our_id, _, nodes) = get_nodes(&secp_ctx);
Split routing from getting network messages
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// Simple test with outbound channel to 4 to test that last_hops and first_hops connect
let our_chans = vec![channelmanager::ChannelDetails {
channel_id: [0; 32],
short_channel_id: Some(42),
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
remote_network_id: nodes[3].clone(),
Split routing from getting network messages
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counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
Use outbound_capacity_msat from first_hops for routing
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outbound_capacity_msat: 250_000_000,
Split routing from getting network messages
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inbound_capacity_msat: 0,
is_live: true,
}];
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
let mut last_hops = last_hops(&nodes);
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
2020-07-23 16:10:29 -04:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[6], Some(&our_chans.iter().collect::<Vec<_>>()), &last_hops.iter().collect::<Vec<_>>(), 100, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0].len(), 2);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[3]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][0].short_channel_id, 42);
assert_eq!(route.paths[0][0].fee_msat, 0);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (8 << 8) | 1);
assert_eq!(route.paths[0][0].node_features.le_flags(), &vec![0b11]);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
2020-07-13 13:16:32 +09:00
assert_eq!(route.paths[0][0].channel_features.le_flags(), &Vec::<u8>::new()); // No feature flags will meet the relevant-to-channel conversion
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[6]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][1].short_channel_id, 8);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
2020-07-13 13:16:32 +09:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &Vec::<u8>::new()); // We dont pass flags in from invoices yet
assert_eq!(route.paths[0][1].channel_features.le_flags(), &Vec::<u8>::new()); // We can't learn any flags from invoices, sadly
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
last_hops[0].fees.base_msat = 1000;
// Revert to via 6 as the fee on 8 goes up
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
2020-07-23 16:10:29 -04:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[6], None, &last_hops.iter().collect::<Vec<_>>(), 100, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0].len(), 4);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[1]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][0].short_channel_id, 2);
assert_eq!(route.paths[0][0].fee_msat, 200); // fee increased as its % of value transferred across node
assert_eq!(route.paths[0][0].cltv_expiry_delta, (4 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].node_features.le_flags(), &id_to_feature_flags(2));
assert_eq!(route.paths[0][0].channel_features.le_flags(), &id_to_feature_flags(2));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][1].short_channel_id, 4);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, (7 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(4));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].pubkey, nodes[5]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][2].short_channel_id, 7);
assert_eq!(route.paths[0][2].fee_msat, 0);
assert_eq!(route.paths[0][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:
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].node_features.le_flags(), &id_to_feature_flags(6));
assert_eq!(route.paths[0][2].channel_features.le_flags(), &id_to_feature_flags(7));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][3].pubkey, nodes[6]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][3].short_channel_id, 10);
assert_eq!(route.paths[0][3].fee_msat, 100);
assert_eq!(route.paths[0][3].cltv_expiry_delta, 42);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
2020-07-13 13:16:32 +09:00
assert_eq!(route.paths[0][3].node_features.le_flags(), &Vec::<u8>::new()); // We dont pass flags in from invoices yet
assert_eq!(route.paths[0][3].channel_features.le_flags(), &Vec::<u8>::new()); // We can't learn any flags from invoices, sadly
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
// ...but still use 8 for larger payments as 6 has a variable feerate
Use slices to references not slices of concrete objects in pub API Because the C bindings maps objects into new structs which contain only a pointer to the underlying (immovable) Rust type, it cannot create a list of Rust types which are contiguous in memory. Thus, in order to allow C clients to call certain Rust functions, we have to use &[&Type] not &[Type]. This commit fixes this issue for the get_route function.
2020-07-23 16:10:29 -04:00
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[6], None, &last_hops.iter().collect::<Vec<_>>(), 2000, 42, Arc::clone(&logger)).unwrap();
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0].len(), 5);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].pubkey, nodes[1]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][0].short_channel_id, 2);
assert_eq!(route.paths[0][0].fee_msat, 3000);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (4 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][0].node_features.le_flags(), &id_to_feature_flags(2));
assert_eq!(route.paths[0][0].channel_features.le_flags(), &id_to_feature_flags(2));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].pubkey, nodes[2]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][1].short_channel_id, 4);
assert_eq!(route.paths[0][1].fee_msat, 0);
assert_eq!(route.paths[0][1].cltv_expiry_delta, (6 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][1].node_features.le_flags(), &id_to_feature_flags(3));
assert_eq!(route.paths[0][1].channel_features.le_flags(), &id_to_feature_flags(4));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].pubkey, nodes[4]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][2].short_channel_id, 6);
assert_eq!(route.paths[0][2].fee_msat, 0);
assert_eq!(route.paths[0][2].cltv_expiry_delta, (11 << 8) | 1);
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][2].node_features.le_flags(), &id_to_feature_flags(5));
assert_eq!(route.paths[0][2].channel_features.le_flags(), &id_to_feature_flags(6));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][3].pubkey, nodes[3]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][3].short_channel_id, 11);
assert_eq!(route.paths[0][3].fee_msat, 1000);
assert_eq!(route.paths[0][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:
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
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(), &id_to_feature_flags(11));
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
Refactor route tests * Splits up the monolithic test into smaller unit tests * Factors out helpers for graph setup * Changes `id_to_feature_flags` to be a function, there was no reason why it had to be a macro * Activates a previously commented-out test that checks for the failure case in `disable_node_test`
2020-08-24 23:06:07 +02:00
assert_eq!(route.paths[0][4].pubkey, nodes[6]);
Split routing from getting network messages
2020-05-02 15:05:04 -04:00
assert_eq!(route.paths[0][4].short_channel_id, 8);
assert_eq!(route.paths[0][4].fee_msat, 2000);
assert_eq!(route.paths[0][4].cltv_expiry_delta, 42);
Improve error message. ... for ChannelError and APIMisuseError Before this commit, When rl returns error, we don't know The actual parameter which caused the error. By returning parameterised `String` instead of predefined `&'static str`, We can give a caller improved error message. TestLogger now has two additional methods 1. `assert_log_contains` which checks the logged messsage has how many entry which includes the specified string as a substring. 2. `aasert_log_regex` mostly the same with `assert_log_contains` but it is more flexible that caller specifies regex which has to be satisfied instead of just a substring. For regex, tests now includes `regex` as dev-dependency.
2020-07-13 13:16:32 +09:00
assert_eq!(route.paths[0][4].node_features.le_flags(), &Vec::<u8>::new()); // We dont pass flags in from invoices yet
assert_eq!(route.paths[0][4].channel_features.le_flags(), &Vec::<u8>::new()); // We can't learn any flags from invoices, sadly
Add tests for getting node announcements
2020-04-06 19:28:17 -04:00
}
[router] Fix + test routing via next/last-hop hints only We had code in the router to support sending a payment via a single hop across channels exclusively provided by the next-/last-hop hints. However, in updating the fuzzer, I noted that this case not only didn't work, but paniced in some cases. Here, we both fix the panic, as well as write a new test which ensures we don't break support for such routing in the future.
2020-11-12 18:57:02 -05:00
#[test]
fn unannounced_path_test() {
// We should be able to send a payment to a destination without any help of a routing graph
// if we have a channel with a common counterparty that appears in the first and last hop
// hints.
let source_node_id = PublicKey::from_secret_key(&Secp256k1::new(), &SecretKey::from_slice(&hex::decode(format!("{:02}", 41).repeat(32)).unwrap()[..]).unwrap());
let middle_node_id = PublicKey::from_secret_key(&Secp256k1::new(), &SecretKey::from_slice(&hex::decode(format!("{:02}", 42).repeat(32)).unwrap()[..]).unwrap());
let target_node_id = PublicKey::from_secret_key(&Secp256k1::new(), &SecretKey::from_slice(&hex::decode(format!("{:02}", 43).repeat(32)).unwrap()[..]).unwrap());
// If we specify a channel to a middle hop, that overrides our local channel view and that gets used
let last_hops = vec![RouteHint {
src_node_id: middle_node_id,
short_channel_id: 8,
fees: RoutingFees {
base_msat: 1000,
proportional_millionths: 0,
},
cltv_expiry_delta: (8 << 8) | 1,
Store available routing amounts per channel to use it in routing decisions
2020-12-23 09:45:45 +02:00
htlc_minimum_msat: None,
htlc_maximum_msat: None,
[router] Fix + test routing via next/last-hop hints only We had code in the router to support sending a payment via a single hop across channels exclusively provided by the next-/last-hop hints. However, in updating the fuzzer, I noted that this case not only didn't work, but paniced in some cases. Here, we both fix the panic, as well as write a new test which ensures we don't break support for such routing in the future.
2020-11-12 18:57:02 -05:00
}];
let our_chans = vec![channelmanager::ChannelDetails {
channel_id: [0; 32],
short_channel_id: Some(42),
remote_network_id: middle_node_id,
counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 100000,
user_id: 0,
outbound_capacity_msat: 100000,
inbound_capacity_msat: 100000,
is_live: true,
}];
Add genesis block hash to NetworkGraph This changes adds the genesis block hash as a BlockHash to the NetworkGraph struct. Making the NetworkGraph aware allows the message handler to validate the chain_hash for received messages. This change also adds the hash value to the Writeable and Readable methods.
2020-11-29 15:20:35 -05:00
let route = get_route(&source_node_id, &NetworkGraph::new(genesis_block(Network::Testnet).header.block_hash()), &target_node_id, Some(&our_chans.iter().collect::<Vec<_>>()), &last_hops.iter().collect::<Vec<_>>(), 100, 42, Arc::new(test_utils::TestLogger::new())).unwrap();
[router] Fix + test routing via next/last-hop hints only We had code in the router to support sending a payment via a single hop across channels exclusively provided by the next-/last-hop hints. However, in updating the fuzzer, I noted that this case not only didn't work, but paniced in some cases. Here, we both fix the panic, as well as write a new test which ensures we don't break support for such routing in the future.
2020-11-12 18:57:02 -05:00
assert_eq!(route.paths[0].len(), 2);
assert_eq!(route.paths[0][0].pubkey, middle_node_id);
assert_eq!(route.paths[0][0].short_channel_id, 42);
assert_eq!(route.paths[0][0].fee_msat, 1000);
assert_eq!(route.paths[0][0].cltv_expiry_delta, (8 << 8) | 1);
assert_eq!(route.paths[0][0].node_features.le_flags(), &[0b11]);
assert_eq!(route.paths[0][0].channel_features.le_flags(), &[0; 0]); // We can't learn any flags from invoices, sadly
assert_eq!(route.paths[0][1].pubkey, target_node_id);
assert_eq!(route.paths[0][1].short_channel_id, 8);
assert_eq!(route.paths[0][1].fee_msat, 100);
assert_eq!(route.paths[0][1].cltv_expiry_delta, 42);
assert_eq!(route.paths[0][1].node_features.le_flags(), &[0; 0]); // We dont pass flags in from invoices yet
assert_eq!(route.paths[0][1].channel_features.le_flags(), &[0; 0]); // We can't learn any flags from invoices, sadly
}
Implement finding paths for MPP
2020-08-10 13:50:29 +03:00
#[test]
fn available_amount_while_routing_test() {
// Tests whether we choose the correct available channel amount while routing.
let (secp_ctx, mut net_graph_msg_handler, chain_monitor, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// We will use a simple single-path route from
// our node to node2 via node0: channels {1, 3}.
// First disable all other paths.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Make the first channel (#1) very permissive,
// and we will be testing all limits on the second channel.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(1_000_000_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// First, let's see if routing works if we have absolutely no idea about the available amount.
// In this case, it should be set to 250_000 sats.
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 250_000_001, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route an exact amount we have should be fine.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 250_000_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let path = route.paths.last().unwrap();
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
assert_eq!(path.last().unwrap().fee_msat, 250_000_000);
}
Use outbound_capacity_msat from first_hops for routing
2020-12-20 16:19:25 +02:00
// Check that setting outbound_capacity_msat in first_hops limits the channels.
// Disable channel #1 and use another first hop.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 3,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(1_000_000_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Now, limit the first_hop by the outbound_capacity_msat of 200_000 sats.
let our_chans = vec![channelmanager::ChannelDetails {
channel_id: [0; 32],
short_channel_id: Some(42),
remote_network_id: nodes[0].clone(),
counterparty_features: InitFeatures::from_le_bytes(vec![0b11]),
channel_value_satoshis: 0,
user_id: 0,
outbound_capacity_msat: 200_000_000,
inbound_capacity_msat: 0,
is_live: true,
}];
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 200_000_001, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route an exact amount we have should be fine.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], Some(&our_chans.iter().collect::<Vec<_>>()), &Vec::new(), 200_000_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let path = route.paths.last().unwrap();
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
assert_eq!(path.last().unwrap().fee_msat, 200_000_000);
}
// Enable channel #1 back.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 4,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(1_000_000_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
Implement finding paths for MPP
2020-08-10 13:50:29 +03:00
// Now let's see if routing works if we know only htlc_maximum_msat.
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 3,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(15_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 15_001, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route an exact amount we have should be fine.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 15_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let path = route.paths.last().unwrap();
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
assert_eq!(path.last().unwrap().fee_msat, 15_000);
}
// Now let's see if routing works if we know only capacity from the UTXO.
// We can't change UTXO capacity on the fly, so we'll disable
// the existing channel and add another one with the capacity we need.
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 4,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
let good_script = Builder::new().push_opcode(opcodes::all::OP_PUSHNUM_2)
.push_slice(&PublicKey::from_secret_key(&secp_ctx, &privkeys[0]).serialize())
.push_slice(&PublicKey::from_secret_key(&secp_ctx, &privkeys[2]).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(TxOut { value: 15, script_pubkey: good_script.clone() });
net_graph_msg_handler.add_chain_access(Some(chain_monitor));
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], &privkeys[2], ChannelFeatures::from_le_bytes(id_to_feature_flags(3)), 333);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 333,
timestamp: 1,
flags: 0,
cltv_expiry_delta: (3 << 8) | 1,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 333,
timestamp: 1,
flags: 1,
cltv_expiry_delta: (3 << 8) | 2,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 100,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 15_001, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route an exact amount we have should be fine.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 15_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let path = route.paths.last().unwrap();
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
assert_eq!(path.last().unwrap().fee_msat, 15_000);
}
// Now let's see if routing chooses htlc_maximum_msat over UTXO capacity.
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 333,
timestamp: 6,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(10_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 10_001, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route an exact amount we have should be fine.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 10_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let path = route.paths.last().unwrap();
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
assert_eq!(path.last().unwrap().fee_msat, 10_000);
}
}
#[test]
fn available_liquidity_last_hop_test() {
// Check that available liquidity properly limits the path even when only
// one of the latter hops is limited.
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// Path via {node7, node2, node4} is channels {12, 13, 6, 11}.
// {12, 13, 11} have the capacities of 100, {6} has a capacity of 50.
// Total capacity: 50 sats.
// Disable other potential paths.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 7,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Limit capacities
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 6,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(50_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 11,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 60_000, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route 49 sats (just a bit below the capacity).
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 49_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 4);
assert_eq!(path.last().unwrap().pubkey, nodes[3]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 49_000);
}
{
// Attempt to route an exact amount is also fine
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 50_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 4);
assert_eq!(path.last().unwrap().pubkey, nodes[3]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 50_000);
}
}
#[test]
fn ignore_fee_first_hop_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// Path via node0 is channels {1, 3}. Limit them to 100 and 50 sats (total limit 50).
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 1_000_000,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(50_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 50_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 1);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 50_000);
}
}
#[test]
fn simple_mpp_route_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// We need a route consisting of 3 paths:
// From our node to node2 via node0, node7, node1 (three paths one hop each).
// To achieve this, the amount being transferred should be around
// the total capacity of these 3 paths.
// First, we set limits on these (previously unlimited) channels.
// Their aggregate capacity will be 50 + 60 + 180 = 290 sats.
// Path via node0 is channels {1, 3}. Limit them to 100 and 50 sats (total limit 50).
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(50_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via node7 is channels {12, 13}. Limit them to 60 and 60 sats
// (total limit 60).
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(60_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(60_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via node1 is channels {2, 4}. Limit them to 200 and 180 sats
// (total capacity 180 sats).
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 4,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(180_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 300_000, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route 250 sats (just a bit below the capacity).
// Our algorithm should provide us with these 3 paths.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 250_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 3);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 250_000);
}
{
// Attempt to route an exact amount is also fine
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 290_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 3);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 290_000);
}
}
#[test]
fn long_mpp_route_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// We need a route consisting of 3 paths:
// From our node to node3 via {node0, node2}, {node7, node2, node4} and {node7, node2}.
// Note that these paths overlap (channels 5, 12, 13).
// We will route 300 sats.
// Each path will have 100 sats capacity, those channels which
// are used twice will have 200 sats capacity.
// Disable other potential paths.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 7,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node0, node2} is channels {1, 3, 5}.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Capacity of 200 sats because this channel will be used by 3rd path as well.
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], &privkeys[3], ChannelFeatures::from_le_bytes(id_to_feature_flags(5)), 5);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 5,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node7, node2, node4} is channels {12, 13, 6, 11}.
// Add 100 sats to the capacities of {12, 13}, because these channels
// are also used for 3rd path. 100 sats for the rest. Total capacity: 100 sats.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 6,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 11,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node7, node2} is channels {12, 13, 5}.
// We already limited them to 200 sats (they are used twice for 100 sats).
// Nothing to do here.
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 350_000, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route 300 sats (exact amount we can route).
// Our algorithm should provide us with these 3 paths, 100 sats each.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 300_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 3);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.last().unwrap().pubkey, nodes[3]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 300_000);
}
}
#[test]
fn mpp_cheaper_route_test() {
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// This test checks that if we have two cheaper paths and one more expensive path,
// so that liquidity-wise any 2 of 3 combination is sufficient,
// two cheaper paths will be taken.
// These paths have equal available liquidity.
// We need a combination of 3 paths:
// From our node to node3 via {node0, node2}, {node7, node2, node4} and {node7, node2}.
// Note that these paths overlap (channels 5, 12, 13).
// Each path will have 100 sats capacity, those channels which
// are used twice will have 200 sats capacity.
// Disable other potential paths.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 7,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node0, node2} is channels {1, 3, 5}.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Capacity of 200 sats because this channel will be used by 3rd path as well.
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], &privkeys[3], ChannelFeatures::from_le_bytes(id_to_feature_flags(5)), 5);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 5,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node7, node2, node4} is channels {12, 13, 6, 11}.
// Add 100 sats to the capacities of {12, 13}, because these channels
// are also used for 3rd path. 100 sats for the rest. Total capacity: 100 sats.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(200_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 6,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 1_000,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 11,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node7, node2} is channels {12, 13, 5}.
// We already limited them to 200 sats (they are used twice for 100 sats).
// Nothing to do here.
{
// Now, attempt to route 180 sats.
// Our algorithm should provide us with these 2 paths.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 180_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 2);
let mut total_value_transferred_msat = 0;
let mut total_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.last().unwrap().pubkey, nodes[3]);
total_value_transferred_msat += path.last().unwrap().fee_msat;
for hop in path {
total_paid_msat += hop.fee_msat;
}
}
// If we paid fee, this would be higher.
assert_eq!(total_value_transferred_msat, 180_000);
let total_fees_paid = total_paid_msat - total_value_transferred_msat;
assert_eq!(total_fees_paid, 0);
}
}
#[test]
fn fees_on_mpp_route_test() {
// This test makes sure that MPP algorithm properly takes into account
// fees charged on the channels, by making the fees impactful:
// if the fee is not properly accounted for, the behavior is different.
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// We need a route consisting of 2 paths:
// From our node to node3 via {node0, node2} and {node7, node2, node4}.
// We will route 200 sats, Each path will have 100 sats capacity.
// This test is not particularly stable: e.g.,
// there's a way to route via {node0, node2, node4}.
// It works while pathfinding is deterministic, but can be broken otherwise.
// It's fine to ignore this concern for now.
// Disable other potential paths.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 7,
timestamp: 2,
flags: 2,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node0, node2} is channels {1, 3, 5}.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
add_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], &privkeys[3], ChannelFeatures::from_le_bytes(id_to_feature_flags(5)), 5);
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 5,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via {node7, node2, node4} is channels {12, 13, 6, 11}.
// All channels should be 100 sats capacity. But for the fee experiment,
// we'll add absolute fee of 150 sats paid for the use channel 6 (paid to node2 on channel 13).
// Since channel 12 allows to deliver only 250 sats to channel 13, channel 13 can transfer only
// 100 sats (and pay 150 sats in fees for the use of channel 6),
// so no matter how large are other channels,
// the whole path will be limited by 100 sats with just these 2 conditions:
// - channel 12 capacity is 250 sats
// - fee for channel 6 is 150 sats
// Let's test this by enforcing these 2 conditions and removing other limits.
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(250_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[2], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 6,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 150_000,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[4], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 11,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Absent,
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 210_000, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route 200 sats (exact amount we can route).
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[3], None, &Vec::new(), 200_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 2);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.last().unwrap().pubkey, nodes[3]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 200_000);
}
}
#[test]
fn drop_lowest_channel_mpp_route_test() {
// This test checks that low-capacity channel is dropped when after
// path finding we realize that we found more capacity than we need.
let (secp_ctx, net_graph_msg_handler, _, logger) = build_graph();
let (our_privkey, our_id, privkeys, nodes) = get_nodes(&secp_ctx);
// We need a route consisting of 3 paths:
// From our node to node2 via node0, node7, node1 (three paths one hop each).
// The first and the second paths should be sufficient, but the third should be
// cheaper, so that we select it but drop later.
// First, we set limits on these (previously unlimited) channels.
// Their aggregate capacity will be 50 + 60 + 20 = 130 sats.
// Path via node0 is channels {1, 3}. Limit them to 100 and 50 sats (total limit 50);
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 1,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(100_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[0], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 3,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(50_000),
fee_base_msat: 100,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via node7 is channels {12, 13}. Limit them to 60 and 60 sats (total limit 60);
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 12,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(60_000),
fee_base_msat: 100,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[7], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 13,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(60_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
// Path via node1 is channels {2, 4}. Limit them to 20 and 20 sats (total capacity 20 sats).
update_channel(&net_graph_msg_handler, &secp_ctx, &our_privkey, UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 2,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(20_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
update_channel(&net_graph_msg_handler, &secp_ctx, &privkeys[1], UnsignedChannelUpdate {
chain_hash: genesis_block(Network::Testnet).header.block_hash(),
short_channel_id: 4,
timestamp: 2,
flags: 0,
cltv_expiry_delta: 0,
htlc_minimum_msat: 0,
htlc_maximum_msat: OptionalField::Present(20_000),
fee_base_msat: 0,
fee_proportional_millionths: 0,
excess_data: Vec::new()
});
{
// Attempt to route more than available results in a failure.
if let Err(LightningError{err, action: ErrorAction::IgnoreError}) = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 150_000, 42, Arc::clone(&logger)) {
assert_eq!(err, "Failed to find a sufficient route to the given destination");
} else { panic!(); }
}
{
// Now, attempt to route 125 sats (just a bit below the capacity of 3 channels).
// Our algorithm should provide us with these 3 paths.
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 125_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 3);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 125_000);
}
{
// Attempt to route without the last small cheap channel
let route = get_route(&our_id, &net_graph_msg_handler.network_graph.read().unwrap(), &nodes[2], None, &Vec::new(), 90_000, 42, Arc::clone(&logger)).unwrap();
assert_eq!(route.paths.len(), 2);
let mut total_amount_paid_msat = 0;
for path in &route.paths {
assert_eq!(path.len(), 2);
assert_eq!(path.last().unwrap().pubkey, nodes[2]);
total_amount_paid_msat += path.last().unwrap().fee_msat;
}
assert_eq!(total_amount_paid_msat, 90_000);
}
}
initial checkin
2017-12-25 01:05:27 -05:00
}
Reference in a new issue Copy permalink