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.
Prior to this, we returned PaymentSendFailure from auto retry send payment
methods. This implied that we might return a PartialFailure from them, which
has never been the case. So it makes sense to rework the errors to be a better
fit for the methods.
We're taking error handling in a totally different direction now to make it
more asynchronous, see send_payment_internal for more information.
Long ago, we used the `no_connection_possible` to signal that a
peer has some unknown feature set or some other condition prevents
us from ever connecting to the given peer. In that case we'd
automatically force-close all channels with the given peer. This
was somewhat surprising to users so we removed the automatic
force-close, leaving the flag serving no LDK-internal purpose.
Distilling the concept of "can we connect to this peer again in the
future" to a simple flag turns out to be ripe with edge cases, so
users actually using the flag to force-close channels would likely
cause surprising behavior.
Thus, there's really not a lot of reason to keep the flag,
especially given its untested and likely to be broken in subtle
ways anyway.
`PaymentParams` is all about the parameters for a payment, i.e. the
parameters which are static across all the paths of a paymet.
`RouteParameters` is about the information specific to a given
`Route` (i.e. a set of paths, among multiple potential sets of
paths for a payment). The CLTV delta thus doesn't belong in
`RouterParameters` but instead in `PaymentParameters`.
Worse, because `RouteParameters` is built from the information in
the last hops of a `Route`, when we deliberately inflate the CLTV
delta in path-finding, retries of the payment will have the final
CLTV delta double-inflated as it inflates starting from the final
CLTV delta used in the last attempt.
By moving the CLTV delta to `PaymentParameters` we avoid this
issue, leaving only the sought amount in the `RouteParameters`.
Adds two new payment `Method`s for identifying payments with custom
`min_final_cltv_expiry_delta` as payments with LDK or user payment
hashes.
The `min_final_cltv_expiry_delta` value is packed into the first 2
bytes of the expiry timestamp in the payment secret metadata.
All utility functions for invoice construction will now also accept an
Option<>al `min_final_cltv_expiry_delta` which is useful for things like
swaps etc. The `min_final_cltv_expiry_delta` will default back to
`MIN_FINAL_CLTV_EXPIRY_DELTA` if `None` is provided.
This matches the spec and helps avoid any confusion around
naming. We're also then consistent with `cltv_expiry` in an HTLC being
the actual block height value for the CLTV and not a delta.
As of HEAD the `ChannelManager` is parametrized by a `Router`, while
`InvoicePayer` also owns a `Router`. In order to allow for a single
object being reused, we make the `InvoicePayer` side `Deref`.
This is purely a refactor that does not change the InitFeatures
advertised by a ChannelManager. This allows users to configure which
features should be advertised based on the values of `UserConfig`. While
there aren't any existing features currently leveraging this behavior,
it will be used by the upcoming anchors_zero_fee_htlc_tx feature.
The UserConfig dependency on provided_init_features caused most
callsites of the main test methods responsible for opening channels to
be updated. This commit foregos that completely by no longer requiring
the InitFeatures of each side to be provided to these methods. The
methods already require a reference to each node's ChannelManager to
open the channel, so we use that same reference to obtain their
InitFeatures. A way to override such features was required for some
tests, so a new `override_init_features` config option now exists on
the test harness.
`ScorerAccountingForInFlightHtlcs` generally stores a `Score`
reference generated by calling `LockableScore::lock`, which
actually returns an arbitrary `Score`. Given `Score` is implemented
directly on lock types, it makes sense to simply hold a fully owned
`Score` in `ScorerAccountingForInFlightHtlcs` rather than a mutable
reference to one.
In c70bd1f, we implemented tracking HTLCs by adding path information
for pending HTLCs to `InvoicePayer`’s `payment_cache` when receiving
specific events.
Since we can now track inflight HTLCs entirely within ChannelManager,
there is no longer a need for this to exist.
We introduce a new sealed trait BaseEventHandler that has a blanket
implementation for any T. Since the trait cannot be implemented outside
of the crate, this allow us to expose specific implementations of
InvoicePayer that allow for synchronous and asynchronous event handling.
When a user attempts to send a payment but it fails due to
idempotency key violation, they need to know that this was the
reason as they need to handle the error programmatically
differently from other errors.
Here we simply add a new `PaymentSendFailure` enum variant for
`DuplicatePayment` to allow for that.
It was pointed out that its quite confusing that
`AllFailedRetrySafe` does not allow you to call `retry_payment`,
though the documentation on it does specify this. Instead, we
simply rename it to `AllFailedResendSafe` to indicate that the
action that is safe to take is *resending*, not *retrying*.
