This PR aims to create a "stateless" scorer. Instead of passing
in fee params at construction-time, we want to parametrize the
scorer with an associated "parameter" type, which is then
passed to the router function itself, and allows passing
different parameters per route-finding call.
Minor changes in preparation for supporting route blinding in
PaymentParameters. In the next commit, we'll be moving more
unblinded-payee-specific fields from the top level parameters into the clear
enum variant.
PaymentParameters already includes this value.
This set us up to better support route blinding, since there is no known
final_cltv_delta when paying to a blinded route.
Previously, we were requiring any `UPDATE` onion errors to include
a `channel_update`, as the spec mandates[1]. If we see an onion
error which is missing one we treat it as a misbehaving node that
isn't behaving according to the spec and simply remove the node.
Sadly, it appears at least some versions of CLN are such nodes, and
opt to not include `channel_update` at all if they're returning a
`temporary_channel_failure`. This causes us to completely remove
CLN nodes from our graph after they fail to forward our HTLC.
While CLN is violating the spec here, there's not a lot of reason
to not allow it, so we go ahead and do so here, treating it simply
as any other failure by letting the scorer handle it.
[1] The spec says `Please note that the channel_update field is
mandatory in messages whose failure_code includes the UPDATE flag`
however doesn't repeat it in the requirements section so its not
crazy that someone missed it when implementing.
This is largely motivated by some follow-up work for anchors that will
introduce an event handler for `BumpTransaction` events, which we can
now include in this new top-level `events` module.
...replacing it with an acessor `addresses()`.
Besides removing a redundant data structure already present on inner
`NodeAnnouncement`, this change makes it possible to discover new address types
upon deserialization thanks to `UnsignedNodeAnnouncement`'s implementation.
Since a node may announce that the htlc_maximum_msat of a channel is
zero, adding one to the denominator in the bucket formulas will prevent
the panic from ever happening. While the routing algorithm may never
select such a channel to score, this precaution may still be useful in
case the algorithm changes or if the scorer is used with a different
routing algorithm.
ProbabilisticScorer takes a ChannelUsage when computing a penalty for a
channel. The formula for calculating the liquidity penalty reduces the
maximum capacity by the amount of in-flight HTLCs (available capacity)
and adds one to prevent division by zero.
However, since the available capacity is passed to
DirectedChannelLiquidity as the capacity, other penalty formulas may use
the available (i.e., reduced) capacity inadvertently. In practice, this
has two ramifications for the historical liquidity penalty computation:
1. The bucket formula doesn't have a consistent denominator for a given
channel.
2. The bucket formula may divide by zero when the in-flight HTLC amount
equals or exceeds the effective capacity.
Fixing this involves only using the available capacity when appropriate.
Taking two instances of the same mutex may be totally fine, but it
requires a total lockorder that we cannot (trivially) check. Thus,
its generally unsafe to do if we can avoid it.
To discourage doing this, here we default to panicing on such locks
in our lockorder tests, with a separate lock function added that is
clearly labeled "unsafe" to allow doing so when we can guarantee a
total lockorder.
This requires adapting a number of sites to the new API, including
fixing a bug this turned up in `ChannelMonitor`'s `PartialEq` where
no lockorder was guaranteed.
Our existing lockorder tests assume that a read lock on a thread
that is already holding the same read lock is totally fine. This
isn't at all true. The `std` `RwLock` behavior is
platform-dependent - on most platforms readers can starve writers
as readers will never block for a pending writer. However, on
platforms where this is not the case, one thread trying to take a
write lock may deadlock with another thread that both already has,
and is attempting to take again, a read lock.
Worse, our in-tree `FairRwLock` exhibits this behavior explicitly
on all platforms to avoid the starvation issue.
Thus, we shouldn't have any special handling for allowing recursive
read locks, so we simply remove it here.
fbc08477e8 purported to "move" the
`final_cltv_expiry_delta` field to `PaymentParamters` from
`RouteParameters`. However, for naive backwards-compatibility
reasons it left the existing on in place and only added a new,
redundant field in `PaymentParameters`.
It turns out there's really no reason for this - if we take a more
critical eye towards backwards compatibility we can figure out the
correct value in every `PaymentParameters` while deserializing.
We do this here - making `PaymentParameters` a `ReadableArgs`
taking a "default" `cltv_expiry_delta` when it goes to read. This
allows existing `RouteParameters` objects to pass the read
`final_cltv_expiry_delta` field in to be used if the new field
wasn't present.
When we read a `Route` (or a list of `RouteHop`s), we should never
have zero paths or zero `RouteHop`s in a path. As such, its fine to
simply reject these at deserialization-time. Technically this could
lead to something which we can generate not round-trip'ing
serialization, but that seems okay here.
