We want to export some of our CLI code to re-use in other projects. But
in Golang you cannot import code from a `main` package.
So we need to move the actual code into its own package and only have
the `func main()` in the `main` package.
This lets us get rid of the mutex usage there. We also shift the algo slightly to increment by 1, then use that as the next value, which plays nicer with the atomics.
This commit introduces the `CustomRecords` type in the `lnwire` package,
designed to hold arbitrary byte slices. Each entry in this map can
associate with TLV type values that are greater than or equal to 65536.
In this commit, we rename the files as assembler.go houses the primary
interfaces/abstractions of the package. In the rest of the codebase,
this file is near uniformly called interface.go, so we rename the file
to make the repo more digestible at a scan.
In this commit, we fix a bug that would cause a global message router to
be stopped anytime a peer disconnected. The global msg router only
allows `Start` to be called once, so afterwards, no messages would
properly be routed.
With this commit, we allow the `MsgRouter` to be available in the
`ImplementationCfg`. With this, programs outside of lnd itself are able
to now hook into the message processing flow to direct handle custom
messages, and even normal wire messages.
Over time with this, we should be able to significantly reduce the size
of the peer.Brontide struct as we only need all those deps as the peer
needs to recognize and handle each incoming wire message itself.
In this commit, we add a new abstract message router. Over time, the
goal is that this message router replaces the logic we currently have in
the readHandler (the giant switch for each message).
With this new abstraction, can reduce the responsibilities of the
readHandler to *just* reading messages off the wire and handing them off
to the msg router. The readHandler no longer needs to know *where* the
messages should go, or how they should be dispatched.
This will be used in tandem with the new `protofsm` module in an
upcoming PR implementing the new rbf-coop close.
In this commit, we expand some of the existing chan sync tests to cover
taproot channels (the others already did). Along the way, we always
assert that the `PartialSig` is populated on retransmission. In
addition, we now send the new commit sig rather than the existing
in-memory one to test the new logic that re-signs the commitment.
Previously, the SQL implementation of the invoice query simply
converted the start and end timestamps to time and used them
in SQL queries to check for inclusivity. However, this logic
failed when the start and end timestamps were equal.
This commit addresses and corrects this issue.
Previously SQL invoice updater ignored the set ID hint when updating an
AMP invoice resulting in update subscriptions returning all of the AMP
state as well as all AMP HTLCs. This commit synchornizes behavior with
the KV implementation such that we now only return relevant AMP state
and HTLCs when updating an AMP invoice.
When fetching an AMP invoice we sometimes filter HTLCs to selected set
IDs, however we always kept the full AMP state which is irrelevant as it
contains state for all AMP payments. This was a side effect of
UpdateInvoice needing to serialize the whole invoice when storing after
an update but it is an unwanted "feature" as users will need to filter
to relevant set when listing an AMP payment or subsribing to an update.
In this commit, we fix an existing bug with the taproot channel type
that can cause force closes if a peer disconnects while attempting to
send the commitment signature.
Before this commit, since the `PartialSig` we send is never committed to
disk, the version read wouldn't contain the musig2 partial sig. We never
write these signatures to disk, as each time we make a new session, we
need to generate fresh nonces to avoid nonce-reuse.
Due to the above interaction, if we went to re-send a signature after a
disconnection, the `CommitSig` message we sent wouldn't actually contain
a `PartialSigWithNonce`, causing a protocol error.
This commit hooks up the banman to the gossiper:
- peers that are banned and don't have a channel with us will get
disconnected until they are unbanned.
- peers that are banned and have a channel with us won't get
disconnected, but we will ignore their channel announcements until
they are no longer banned. Note that this only disables gossip of
announcements to us and still allows us to open channels to them.
