This change follows the rationale of commit 62236c7 and addresses the
last remaining redundant local commitment broadcast.
There's no need to broadcast our local commitment transaction if we've
already seen a confirmed one as it'll be immediately rejected as a
duplicate/conflict.
This will also help prevent dispatching spurious events for bumping
commitment and HTLC transactions through anchor outputs since the
dispatch for said events follows the same flow as our usual commitment
broadcast.
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`.
When a `chain::Watch` `ChannelMonitor` update method is called, the
user has three options:
(a) persist the monitor update immediately and return success,
(b) fail to persist the monitor update immediately and return
failure,
(c) return a flag indicating the monitor update is in progress and
will complete in the future.
(c) is rather harmless, and in some deployments should be expected
to be the return value for all monitor update calls, but currently
requires returning `Err(ChannelMonitorUpdateErr::TemporaryFailure)`
which isn't very descriptive and sounds scarier than it is.
Instead, here, we change the return type used to be a single enum
(rather than a Result) and rename `TemporaryFailure`
`UpdateInProgress`.
When our counterparty is the payment destination and we receive
an `HTLCFailReason::Reason` in `fail_htlc_backwards_internal` we
currently always set `rejected_by_dest` in the `PaymentPathFailed`
event, implying the HTLC should *not* be retried.
There are a number of cases where we use `HTLCFailReason::Reason`,
but most should reasonably be treated as retryable even if our
counterparty was the destination (i.e. `!rejected_by_dest`):
* If an HTLC times out on-chain, this doesn't imply that the
payment is no longer retryable, though the peer may well be
offline so retrying may not be very useful,
* If a commitment transaction "containing" a dust HTLC is
confirmed on-chain, this definitely does not imply the payment
is no longer retryable
* If the channel we intended to relay over was closed (or
force-closed) we should retry over another path,
* If the channel we intended to relay over did not have enough
capacity we should retry over another path,
* If we received a update_fail_malformed_htlc message from our
peer, we likely should *not* retry, however this should be
exceedingly rare, and appears to nearly never appear in practice
Thus, this commit simply disables the behavior here, opting to
treat all `HTLCFailReason::Reason` errors as retryable.
Note that prior to 93e645daf4 this
change would not have made sense as it would have resulted in us
retrying the payment over the same channel in some cases, however
we now "blame" our own channel and will avoid it when routing for
the same payment.
The test intended to disconnect a transaction previously connected
but didn't disconnect enough blocks to do so, leading to it
confirming two conflicting transactions.
In the next few commits this will become an assertion failure.
In the next commit we add lockorder testing based on the line each
mutex was created on rather than the particular mutex instance.
This causes some additional test failure because of lockorder
inversions for the same mutex across different tests, which is
fixed here.
As the map values are no longer only `channel_id`s, but also a
`counterparty_node_id`s, the map is renamed to better correspond to
whats actually stored in the map.
Previously, while processing a confirmed revoked counterparty
commitment transaction, we'd populate `OnchainEvent`s for live
HTLCs with a `txid` source of the txid of the latest counterparty
commitment transactions, not the confirmed revoked one. This meant
that, if the user is using `transaction_unconfirmed` to notify us
of reorg information, we'd end up not removing the entry if the
revoked commitment transaction was reorg'd out. This would
ultimately cause us to spuriously resolve the HTLC(s) as the chain
advanced, even though we were doing so based on a now-reorged-out
transaction.
Luckily the fix is simple - set the correct txid in the
`OnchainEventEntry`. We also take this opportunity to update
logging in a few places with the txid of the transaction causing an
event.
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.
Currently, if a channel's funding is locked in and then later
reorg'd back to half of the channel's minimum-depth we will
immediately force-close the channel. However, this can happen at
the fork-point while processing a reorg, and generally reorgs do
not reduce the block height at all, making this a rather useless
endeavor.
Ideally we'd never auto-force-close channels at all due to a reorg,
instead simply marking it as inactive until the funding
transaction is re-confirmed (or allowing the user to attempt to
force-close or force-closing once we're confident we have
completed reorg processing if we're at risk of losing funds
already received in the channel).
Sadly, we currently do not support changing a channel's SCID and
updating our SCID maps, so we cannot yet remove the automated
force-close logic. Still, there is no reason to do it until a
funding transaction has been removed from the chain.
This implements that change - only force-closeing once a channel's
funding transaction has been reorg'd out (still potentially at a
reorg's fork point). This continues to imply a 1-confirmation
channel will always be force-closed after a reorg of the funding
transaction, and will imply a similar behavior with 0-conf
channels.
This creates an SCID alias for all of our outbound channels, which
we send to our counterparties as a part of the `funding_locked`
message and then recognize in any HTLC forwarding instructions.
Note that we generate an SCID alias for all channels, including
already open ones, even though we currently have no way of
communicating to our peers the SCID alias for already-open
channels.
... by calling it both before and after every chain event in
testing and fuzzing.
This requires fixing some blockchain inconsistencies in
`do_test_onchain_htlc_reorg`, `do_retry_with_no_persist`, and
`do_test_dup_htlc_onchain_fails_on_reload` where we'd connect
conflicting transactions in the same chain.
Exposing a `RwLock<HashMap<>>` directly was always a bit strange,
and in upcoming changes we'd like to change the internal
datastructure in `ChainMonitor`.
Further, the use of `RwLock` and `HashMap` meant we weren't able
to expose the ChannelMonitors themselves to users in bindings,
leaving a bindings/rust API gap.
Thus, we take this opportunity go expose ChannelMonitors directly
via a wrapper, hiding the internals of `ChainMonitor` behind
getters. We also update tests to use the new API.
When we detect a channel `is_shutdown()` or call on it
`force_shutdown()`, we notify the user with a Event::ChannelClosed
informing about the id and closure reason.
MessageSendEvent::PaymentFailureNetworkUpdate served as a hack to pass
an HTLCFailChannelUpdate from ChannelManager to NetGraphMsgHandler via
PeerManager. Instead, remove the event entirely and move the contained
data (renamed NetworkUpdate) to Event::PaymentFailed to be processed by
an event handler.
It is useful for accounting and informational reasons for users to
be informed when a payment has been successfully forwarded. Thus,
when an HTLC which represents a forwarded leg is claimed, we
generate a new `PaymentForwarded` event.
This requires some additional plumbing to return HTLC values from
`OnchainEvent`s. Further, when we have to go on-chain to claim the
inbound side of the payment, we do not inform the user of the fee
reward, as we cannot calculate it until we see what is confirmed
on-chain.
Substantial code structure rewrites by:
Valentine Wallace <vwallace@protonmail.com>
If we first see a local commitment transaction, and then a reorg
causes the confirmed channel close transaction to instead be a
remote commitment transaction, we would fail a spurious `if else`
check, resulting in us not generating the correct `SpendableOutput`
event for the to_remote output now confirmed on chain.
This resolves the incorrect logic and adds a regression test.
This stores transaction templates temporarily until their locktime
is reached, avoiding broadcasting (or RBF bumping) transactions
prior to their locktime. For those broadcasting transactions
(potentially indirectly) via Bitcoin Core RPC, this ensures no
automated rebroadcast of transactions on the client side is
required to get transactions confirmed.
Like the payment_secret parameter, this paramter has been the source
of much confusion, so we just drop it.
Users should prefer to do this check when registering the payment
secret instead of at claim-time.
