Several fields used in tracking on-chain HTLC outputs were
named `input_idx` despite referring to the output index in the
commitment transaction. Here they are all renamed
`commitment_tx_output_idx` for clarity.
For direct channels, the channel liquidity is known with certainty. Use
this knowledge in ProbabilisticScorer by either penalizing with the
per-hop penalty or u64::max_value depending on the amount.
Scorers could benefit from having the channel's EffectiveCapacity rather
than a u64 msat value. For instance, ProbabilisticScorer can give a more
accurate penalty when given the ExactLiquidity variant. Pass a struct
wrapping the effective capacity, the proposed amount, and any in-flight
HTLC value.
For route hints, the aggregate next hops path penalty and CLTV delta
should be computed after considering each hop rather than before.
Otherwise, these aggregate values will include values from the current
hop, too.
When scoring route hints, the amount passed to the scorer should include
any fees needed for subsequent hops. This worked correctly for single-
hop hints since there are no further hops, but not for multi-hint hops
(except the final one).
Using EffectiveCapacity in scoring gives more accurate success
probabilities when the maximum HTLC value is less than the channel
capacity. Change EffectiveCapacity to prefer the channel's capacity
over its maximum HTLC limit, but still use the latter for route finding.
In fc77c57c3c we stopped using the
`FInalOnionHopData` in `OnionPayload::Invoice` directly and intend
to remove it eventually. However, in the next few commits we need
access to the payment secret when claimaing a payment, as we create
a new `PaymentPurpose` during the claim process for a new event.
In order to get access to a `PaymentPurpose` without having access
to the `FinalOnionHopData` we here change the storage of
`claimable_htlcs` to store a single `PaymentPurpose` explicitly
with each set of claimable HTLCs.
In fc77c57c3c we stopped using the
`FinalOnionHopData` in `OnionPayload::Invoice` directly and renamed
it `_legacy_hop_data` with the intent of removing it in a few
versions. However, we continue to check that it was included in the
serialized data, meaning we would not be able to remove it without
breaking ability to serialize full `ChannelManager`s.
This fixes that by making the `_legacy_hop_data` an `Option` which
we will happily handle just fine if its `None`.
We have a bunch of fancy infrastructure to ensure we can connect
blocks using all our different connection interfaces, but we only
bother to use it in a few select tests.
This expands our use of `ConnectStyle` to most of our tests by
simply randomizing the style in each test. This makes our tests
non-deterministic, but we print the connection style at start so
that it's easy to reproduce a failure deterministically.
In the next commit we'll randomize the `ConnectStyle` used in each
test. However, some tests are slightly too prescriptive, which we
address here in a few places.
This update also includes a minor refactor. The return type of
`pending_monitor_events` has been changed to a `Vec` tuple with the
`OutPoint` type. This associates a `Vec` of `MonitorEvent`s with a
funding outpoint.
We've also renamed `source/sink_channel_id` to `prev/next_channel_id` in
the favour of clarity.
As the `counterparty_node_id` is now required to be passed back to the
`ChannelManager` to accept or reject an inbound channel request, the
documentation is updated to reflect that.
Instead of including a `Secp256k1` context per
`PeerChannelEncryptor`, which is relatively expensive memory-wise
and nontrivial CPU-wise to construct, we should keep one for all
peers and simply reuse it.
This is relatively trivial so we do so in this commit.
Since its trivial to do so, we also take this opportunity to
randomize the new PeerManager context.
