-/// Simple trait indicating ability to track a set of ChannelMonitors and multiplex events between
-/// them. Generally should be implemented by keeping a local SimpleManyChannelMonitor and passing
-/// events to it, while also taking any add/update_monitor events and passing them to some remote
-/// server(s).
-///
-/// In general, you must always have at least one local copy in memory, which must never fail to
-/// update (as it is responsible for broadcasting the latest state in case the channel is closed),
-/// and then persist it to various on-disk locations. If, for some reason, the in-memory copy fails
-/// to update (eg out-of-memory or some other condition), you must immediately shut down without
-/// taking any further action such as writing the current state to disk. This should likely be
-/// accomplished via panic!() or abort().
-///
-/// Note that any updates to a channel's monitor *must* be applied to each instance of the
-/// channel's monitor everywhere (including remote watchtowers) *before* this function returns. If
-/// an update occurs and a remote watchtower is left with old state, it may broadcast transactions
-/// which we have revoked, allowing our counterparty to claim all funds in the channel!
-///
-/// User needs to notify implementors of ManyChannelMonitor when a new block is connected or
-/// disconnected using their `block_connected` and `block_disconnected` methods. However, rather
-/// than calling these methods directly, the user should register implementors as listeners to the
-/// BlockNotifier and call the BlockNotifier's `block_(dis)connected` methods, which will notify
-/// all registered listeners in one go.
-pub trait ManyChannelMonitor<ChanSigner: ChannelKeys>: Send + Sync {
- /// Adds a monitor for the given `funding_txo`.
- ///
- /// Implementer must also ensure that the funding_txo txid *and* outpoint are registered with
- /// any relevant ChainWatchInterfaces such that the provided monitor receives block_connected
- /// callbacks with the funding transaction, or any spends of it.
- ///
- /// Further, the implementer must also ensure that each output returned in
- /// monitor.get_outputs_to_watch() is registered to ensure that the provided monitor learns about
- /// any spends of any of the outputs.
- ///
- /// Any spends of outputs which should have been registered which aren't passed to
- /// ChannelMonitors via block_connected may result in FUNDS LOSS.
- fn add_monitor(&self, funding_txo: OutPoint, monitor: ChannelMonitor<ChanSigner>) -> Result<(), ChannelMonitorUpdateErr>;
-
- /// Updates a monitor for the given `funding_txo`.
- ///
- /// Implementer must also ensure that the funding_txo txid *and* outpoint are registered with
- /// any relevant ChainWatchInterfaces such that the provided monitor receives block_connected
- /// callbacks with the funding transaction, or any spends of it.
- ///
- /// Further, the implementer must also ensure that each output returned in
- /// monitor.get_watch_outputs() is registered to ensure that the provided monitor learns about
- /// any spends of any of the outputs.
- ///
- /// Any spends of outputs which should have been registered which aren't passed to
- /// ChannelMonitors via block_connected may result in FUNDS LOSS.
- fn update_monitor(&self, funding_txo: OutPoint, monitor: ChannelMonitorUpdate) -> Result<(), ChannelMonitorUpdateErr>;
-
- /// Used by ChannelManager to get list of HTLC resolved onchain and which needed to be updated
- /// with success or failure.
- ///
- /// You should probably just call through to
- /// ChannelMonitor::get_and_clear_pending_htlcs_updated() for each ChannelMonitor and return
- /// the full list.
- fn get_and_clear_pending_htlcs_updated(&self) -> Vec<HTLCUpdate>;
-}
-
-/// A simple implementation of a ManyChannelMonitor and ChainListener. Can be used to create a
-/// watchtower or watch our own channels.