Define an Electrum-friendly interface for ChannelMonitor where txids of
relevant transactions can be obtained. For any of these transactions
that are re-orged out of the chain, users must call
transaction_unconfirmed.
There is a possible race condition when both the latest block hash and
height are needed. Combine these in one struct and place them behind a
single lock.
When using Electrum, transactions are individually unconfirmed during a
reorg rather than by block. Store the txid of the transaction creating
the on-chain event so that it can be used to determine which events need
to be removed when a transaction is unconfirmed.
Rather than mapping height to a vector of events, use a single vector
for all events. This allows for easily processing events by either
height or transaction. The latter will be used for an interface suitable
for Electrum.
Instead of relying on the user to ensure the funding transaction is
correct (and panicing when it is confirmed), we should check it is
correct when it is generated. By taking the full funding transaciton
from the user on generation, we can also handle broadcasting for
them instead of doing so via an event.
When we force-close a channel, for whatever reason, it is nice to
send an error message to our peer. This allows them to closes the
channel on their end instead of trying to send through it and
failing. Further, it may induce them to broadcast their commitment
transaction, possibly getting that confirmed and saving us on fees.
This commit adds a few more cases where we should have been sending
error messages but weren't. It also includes an almost-global
replace in tests of the second argument in
`check_closed_broadcast!()` from false to true (indicating an error
message is expected). There are only a few exceptions, notably
those where the closure is the result of our counterparty having
sent *us* an error message.
Electrum clients primarily operate in a world where they query (and
subscribe to notifications for) transactions by script_pubkeys.
They may never learn very much about the actual blockchain and
orient their events around individual transactions, not the
blockchain.
This makes our ChannelManager interface somewhat more amenable to
such a client by splitting `block_connected` into
`transactions_confirmed` and `update_best_block`. The first handles
checking the funding transaction and storing its height/confirmation
block, whereas the second handles funding_locked and reorg logic.
Sadly, this interface is somewhat easy to misuse - notifying the
channel of the funding transaction being reorganized out of the
chain is complicated when the only notification received is that
a new block is connected at a given height. This will be addressed
in a future commit.
Previously, we expected every block to be connected in-order,
allowing us to track confirmations by simply incrementing a counter
for each new block connected. In anticipation of moving to a
update-height model in the next commit, this moves to tracking
confirmations by simply storing the height at which the funding
transaction was confirmed.
This commit also corrects our "funding was reorganized out of the
best chain" heuristic, instead of a flat 6 blocks, it uses half the
confirmation count required as the point at which we force-close.
Even still, for low confirmation counts (eg 1 block), an ill-timed
reorg may still cause spurious force-closes, though that behavior
is not new in this commit.
While its not necessarily a common operation on a running node,
`get_our_node_id()` is used incredibly heavily in tests, and there
is no reason to not eat the extra ~64 bytes to just cache it.
chain::Filter::register_output may return an in-block dependent
transaction that spends the output. Test the scenario where the txdata
given to ChainMonitor::block_connected includes a commitment transaction
whose HTLC output is spent in the same block but not included in txdata.
Instead, it is returned by chain::Filter::register_output when given the
commitment transaction's HTLC output. This is a common scenario for
Electrum clients, which provided filtered txdata.
This expands the assertions on block ordering to apply to
`#[cfg(test)]` builds in addition to normal builds, requiring that
unit and functional tests have syntactically-valid (ie the previous
block hash pointer and the heights match the blocks) blockchains.
This requires a reasonably nontrivial diff in the functional tests
however it is mostly straightforward changes.
Many functional tests rely on being able to call block_connected
arbitrarily, jumping back in time to confirm a transaction at a
specific height. Instead, this takes us one step towards having a
well-formed blockchain in the functional tests.
We also take this opportunity to reduce the number of blocks
connected during tests, requiring a number of constant tweaks in
various functional tests.
Co-authored-by: Valentine Wallace <vwallace@protonmail.com>
Co-authored-by: Matt Corallo <git@bluematt.me>
Sadly the connected-in-order tests have to be skipped in our normal
test suite as many tests violate it. Luckily we can still enforce
it in the tests which run in other crates.
Co-authored-by: Matt Corallo <git@bluematt.me>
Co-authored-by: Jeffrey Czyz <jkczyz@gmail.com>
We allow users to configure the to_self_delay, which is analogous to
the cltv_expiry_delta in terms of its security context, so we should
allow users to specify both.
We similarly bound it on the lower end, but reduce that bound
somewhat now that it is configurable.
Useful for constructing route hints for private channels in invoices.
Co-authored-by: Valentine Wallace <vwallace@protonmail.com>
Co-authored-by: Antoine Riard <ariard@student.42.fr>
This will be used to expose forwarding info for route hints in the next commit.
Co-authored-by: Valentine Wallace <vwallace@protonmail.com>
Co-authored-by: Antoine Riard <ariard@student.42.fr>
