As it was previously omitted, we clarify here starting from which version users can expect the `user_channel_id` to be randomized for inbound channels.
LND nodes have very broken fee estimators, causing them to suggest
feerates that don't even meet a current mempool minimum feerate
when fees go up over the course of hours. This can cause us to
reject their feerate estimates as they're not high enough, even
though their new feerate is higher than what we had already (which
is the feerate we'll use to broadcast a closing transaction). This
implies we force-close the channel and broadcast something with a
feerate lower than our counterparty was offering.
Here we simply accept such feerates as they are better than what we
had. We really should also close the channel, but only after we
get their signature on the new feerate. That should happen by
checking channel feerates every time we see a new block so is
orthogonal to this code.
Ultimately the fix is anchor outputs plus package-based relay in
Bitcoin Core, however we're still quite some ways from that, so
worth needlessly closing channels for now.
When we mark a future as complete, if the user is using the
`std::future::Future` impl to get notified, we shouldn't just
assume we have completed the `Future` when we call the `Waker`. A
`Future` may have been `drop`'d at that point (or may not be
`poll`'d again) even though we wake the `Waker`.
Because we now have a `callbacks_made` flag, we can fix this rather
trivially, simply not setting the flag until the `Future` is
`poll`'d `Complete`.
When we return from one of the wait functions in `Notifier`, we
should also ensure that the next `Future` doesn't start in the
`complete` state, as we have already notified the user, as far as
we're concerned.
This is technically a regression from the previous commit, but as
it is a logically separate change it is in its own commit.
If a `Notifier` gets `notify()`ed and the a `Future` is fetched,
even though the `Future` is marked completed from the start and
the user may pass callbacks which are called, we'll never wipe the
needs-notify bit in the `Notifier`.
The solution is to keep track of the `FutureState` in the returned
`Future` even though its `complete` from the start, adding a new
flag in the `FutureState` which indicates callbacks have been made
and checking that flag when waiting or returning a second `Future`.
We increase the `user_channel_id` type from `u64` to `u128`. In order to
maintain backwards compatibility, we have to de-/serialize it as two
separate `u64`s in `Event` as well as in the `Channel` itself.
Previously, all inbound channels defaulted to a `user_channel_id` of 0,
which didn't allow for them being discerned on that basis. Here, we
simply randomize the identifier to fix this and enable the use of
`user_channel_id` as a true identifier for channels (assuming an equally
reasonable value is chosen for outbound channels and given upon
`create_channel()`).
After the first persistence-required `Future` wakeup, we'll always
complete additional futures instantly as we don't clear the
"need wake" bit. Instead, we need to just assume that if a future
was generated (and not immediately drop'd) that its sufficient to
notify the user.
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*.
Previously, `Confirm::get_relevant_txids()` only returned a list of
transactions that have to be monitored for reorganization out of the
chain. This interface however required double bookkeeping: while we
internally keep track of the best block, height, etc, it would also
require the user to keep track which transaction was previously
confirmed in which block and to take actions based on any change, e.g,
to reconfirm them when the block would be reorged-out and the
transactions had been reconfirmed in another block.
Here, we track the confirmation block hash internally and return it via
`Confirm::get_relevant_txids()` to the user, which alleviates the
requirement for double bookkeeping: the user can now simply check
whether the given transaction is still confirmed and in the given block,
and take action if not.
We also split `update_claims_view`: Previously it was one, now it's two
methods: `update_claims_view_from_matched_txn` and
`update_claims_view_from_requests`.
Used in upcoming commit(s) when we generate the PaymentIntercepted event for
intercepted payments.
Co-authored-by: John Cantrell <johncantrell97@gmail.com>
Co-authored-by: Valentine Wallace <vwallace@protonmail.com>
In upcoming commit(s), we'll want to store intercepted HTLC forwards in
ChannelManager before the user signals that they should be forwarded. It
wouldn't make sense to store a HTLCForwardInfo as-is because the FailHTLC
variant doesn't make sense, so we refactor out the ::AddHTLC contents into its
own struct for storage.
Co-authored-by: John Cantrell <johncantrell97@gmail.com>
Co-authored-by: Valentine Wallace <vwallace@protonmail.com>
Add a builder for creating offers given a required description and
node_id. Other settings are optional and duplicative settings will
override previous settings for non-Vec fields.
BOLT 12's offer message is encoded as a TLV stream (i.e., a sequence of
TLV records). impl_writeable_tlv_based can't be used because it writes
the overall length of the struct, whereas TLV streams only include the
length of each TLV record. Add a `tlv_stream` macro for defining structs
used in encoding.
TLV records containing a single variable-length type should not encode
the types length in the value since it is redundant. Add a wrapper type
that can be used within a TLV stream to support the correct behavior
during serialization and de-serialization.
When serializing variable-length types as part of a TLV stream, the
length does not need to be serialized as it is already encoded in TLV
records. Add a WithoutLength wrapper for this encoding. Replace
VecReadWrapper and VecWriteWrapper with this single type to avoid
redundant encoders.
Define an interface for BOLT 12 `offer` messages. The underlying format
consists of the original bytes and the parsed contents.
The bytes are later needed when constructing an `invoice_request`
message. This is because it must mirror all the `offer` TLV records,
including unknown ones, which aren't represented in the contents.
The contents will be used in `invoice_request` messages to avoid
duplication. Some fields while required in a typical user-pays-merchant
flow may not be necessary in the merchant-pays-user flow (i.e., refund).
Strings defined by third parties may contain control characters. Provide
a wrapper such that these are replaced when displayed. Useful in node
aliases and offer fields.
The offer message in BOLT 12 contains a features TLV record. Add a
corresponding OfferFeatures type where the length is not included in the
serialization as it would be redundant with the record length.
Otherwise, define the features to be the same as InvoiceFeatures.
Refactor `process_pending_htlc_forwards` to ensure that both branches
that fails `pending_forwards` are placed next to eachother for improved
readability.
