KeyManager::new() took a bitcoin::Network parameter which needs to
be passed to the BIP 32 Extended Key constructor, but because we
never write out the BIP 32 serialization, it isn't used. Instead,
we just pass a dummy value into `ExtendedPrivKey`, dropping the
unused argument to KeysManager::new().
Both SpendableOutputDescriptor::DynamicOutputP2WSH and
SpendableOutputDescriptor::StaticOutputCounterpartyPayment are
relevant only in the context of a given channel, making them
candidates for being passed into helper functions in
`InMemoryChannelKeys`. This moves them into their own structs so
that they can later be used standalone.
Instead of `key_derivation_params` being a rather strange type, we
call it `channel_keys_id` and give it a generic 32 byte array. This
should be much clearer for users and also more flexible.
The only API change outside of additional derives is to change
the inner field in `DecodeError::Io()` to an `std::io::ErrorKind`
instead of an `std::io::Error`. While `std::io::Error` obviously
makes more sense in context, it doesn't support Clone, and the
inner error largely doesn't have a lot of value on its own.
We want to make sure that we don't sign revoked transactions.
Given that ChannelKeys are not singletons and revocation enforcement is stateful,
we need to store the revocation state in KeysInterface.
Signing the commitment transaction is almost always followed by signing the attached HTLC transactions, so fold the signing operations into a single method.
This drops any direct calls to a generic `ChannelKeys::read()` and
replaces it with the new `KeysInterface::read_chan_signer()`. Still,
under the hood all of our own `KeysInterface::read_chan_signer()`
implementations simply call out to a `Readable::read()` implemention.
This adds a new method to the general cross-channel `KeysInterface`
which requires it to handle the deserialization of per-channel
signer objects. This allows the deserialization of per-channel
signers to have more context available, which, in the case of the
C bindings, includes the actual KeysInterface information itself.
There's no reason to have ChannelMonitor::write_for_disk instead of
just using the Writeable trait anymore. Previously, it was used to
differentiate with `write_for_watchtower`, but support for
watchtower-mode ChannelMonitors was never completed and the partial
bits were removed long ago.
This has the nice benefit of hitting the custom Writeable codepaths
in C bindings instead of trying to hit trait-generics paths.
CommitmentTransaction maintains the per-commitment transaction fields needed to construct the associated bitcoin transactions (commitment, HTLC). It replaces passing around of Bitcoin transactions. The ChannelKeys API is modified accordingly.
By regenerating the transaction when implementing a validating external signer, this allows a higher level of assurance that all relevant aspects of the transactions were checked for policy violations.
ChannelTransactionParameters replaces passing around of individual per-channel fields that are needed to construct Bitcoin transactions.
Eliminate ChannelStaticData in favor of ChannelTransactionParameters.
Use counterparty txid instead of tx in channelmonitor update.
This method was used to set the initial_routing_sync flag when sending
an outbound Init message to a peer. Since we are now relying on
gossip_queries instead of initial_routing_sync, synchronization can be
fully encapsulate into RoutingMessageHandler via sync_routing_table.
This commit removes should_request_full_sync from the trait
RoutingMessageHandler. The implementation is still used in
NetGraphMsgHandler and has been converted into a private method instead
of a trait function.
This commit modifies sync_routing_table in RoutingMessageHandler to
accept a reference to the Init message received by the peer. This allows
the method to use the Peer's features to drive the operations of the
gossip_queries routing table sync.
This change modifies gossip_queries methods in RoutingMessageHandler to
move the message instead of passing a reference. This allows the message
handler to be more efficient by not requiring a full copy of SCIDs
passed in messages.
This commit simplifies the sync process for routing gossip messages. When
a sync is initiated, the process is handled statelessly by immediately
issuing SCID queries as channel range replies are received. This greatly
simplifies the state machine at the cost of fully validating and
conforming to the current spec.
Defines message handlers for gossip_queries messages in the RoutingMessageHandler
trait. The MessageSendEventsProvider supertrait is added to RoutingMessageHandler
so that the implementor can use SendMessageEvents to send messages to a
peer at the appropriate time.
The trait methods are stubbed in NetGraphMsgHandler which implements
RoutingMessageHandler and return a "not implemented" error.
This change enables initiating gossip queries with a peer using the
SendMessageEvent enum. Specifically we add an event for sending
query_channel_range to discover the existance of channels and an event
for sending query_short_channel_ids to request routing gossip messages
for a set of channels. These events are handled inside the process_events
method of PeerManager which sends the serialized message to the peer.
If a persister returns a temporary failure, the channel monitor should be able
to be put on ice and then revived later. If a persister returns a permanent
failure, the channel should be force closed.
- The ChainMonitor should:
Whenever a new channel is added or updated, these updates
should be conveyed to the persister and persisted to disk.
Even if the update errors while it's being applied, the
updated monitor still needs to be persisted.
Given the chain::Watch interface is defined in terms of ChannelMonitor
and ChannelMonitorUpdateErr, move channelmonitor.rs from the ln module
to the chain module.
Outputs to watch are tracked by ChannelMonitor as of
73dce207dd. Instead of determining new
outputs to watch independently using ChainWatchedUtil, do so by
comparing against outputs already tracked. Thus, ChainWatchedUtil and
WatchEvent are no longer needed.
WatchEventProvider served as a means for replacing ChainWatchInterface.
However, it requires users to explicitly fetch WatchEvents, even if not
interested in them. Replace WatchEventProvider by chain::Filter, which
is an optional member of ChainMonitor. If set, interesting transactions
and output spends are registered such that blocks containing them can be
retrieved from a chain source in an efficient manner.
This is useful when the chain source is not a full node. For Electrum,
it allows for pre-filtered blocks. For BIP157/158, it serves as a means
to match against compact filters.
ChainMonitor's template Key parameter was meant to allow supporting
both local monitoring, where Key=OutPoint, and watchtowers, where Key=
(PublicKey, u32). Use OutPoint directly since the watchtower case will
not be supported this way.
ManyChannelMonitor was renamed chain::Watch in the previous commit. Use
a more concise name for an implementation that monitors the chain for
channel activity. Future work will parameterize the struct to allow for
different varieties of persistence. Thus, users usually will be able to
use ChainMonitor directly rather than implementing a chain::Watch that
wraps it.
Rename ManyChannelMonitor to chain::Watch and move to chain/mod.rs,
where chain-related interfaces live. Update the documentation for
clarity and to conform to rustdoc formatting.
ChainWatchInterface was intended as an interface for watching rather
than accessing the chain. Remove get_chain_utxo and add chain::Access
trait for this behavior. Wrap it with an Option in NetGraphMsgHandler in
order to simplify the error interface.
Use of ChainWatchInterface was replaced with WatchEvent in the previous
commit. Remove it from the parameterization of SimpleManyChannelMonitor
since it is no longer needed.
ChainListeners should be independent of each other, but in practice this
is not the case because ChainWatchInterface introduces a dependency
between them. Push ChainWatchInterface down into the ChainListener
implementations where needed. Update ChainListener's block_connected
method to take a slice of the form &[(usize, &Transaction)] where each
transaction is paired with its position within the block.
We'd previously largely not turned on derive(Debug) on any of our
structs, but not for good reason. Especially for Events objects,
Debug can be a very useful for users to quickly print what they
received from us without having to write out a large match.
Comment meaning of holder/counterparty
Diverse chan_utils cleanups
Cleanups post-cbindings merge
Fix misusage of holder_selected_contest_delay instead of counterparty
_selected_contest_delay in HolderCommitmentTransaction
Fix old payment_point comment
