973636bd2a introduced a new `HashMap`
in the `TestLogger` but then did lookups by iterating the entire
map. This fixes that, and also takes this opportunity to stop
allocating new `String`s for the module to store each log entry in
the `TestLogger`
By default, LDK will generate the initial temporary channel ID for you.
However, in certain cases, it's desirable to have a temporary channel ID
specified by the caller in case of any pre-negotiation that needs to
happen between peers prior to the channel open message. For example, LND
has a `FundingShim` API that allows for advanced funding flows based on
the temporary channel ID of the channel.
This patch adds support for optionally specifying the temporary channel
ID of the channel through the `create_channel` API.
In 6b0d94a302 we switched most tests
to `Default::default()` for scoring parameters passed to
route-fetching. Here we do the same for the scoring parameters when
passed to score-updating.
`UtxoLookup` doesn't strictly need to be referenced from the
`PeerManager`, and in fact the new `GossipVerifier` in
`lightning-block-sync` requires itself to be owned by the
`PeerManager` (for circular type reasons).
This allows us to use `lightning-block-sync`'s `GossipVerifier`
with `SimpleArcPeerManager` in ldk-sample.
When sending preflight probes, we want to exclude last hops that are
possibly announced. To this end, we here include a new field in
`RouteHop` that will be `true` when we either def. know the hop to be
announced, or, if there exist public channels between the hop's
counterparties that this hop might refer to (i.e., be an alias for).
Currently, when a ChannelManager generates a notification for the
background processor, any pending events are handled and the
ChannelManager is always re-persisted.
Many channel related messages don't actually change the channel
state in a way that changes the persisted channel. For example,
an `update_add_htlc` or `update_fail_htlc` message simply adds the
change to a queue, changing the channel state when we receive a
`commitment_signed` message.
In these cases we shouldn't be re-persisting the ChannelManager as
it hasn't changed (persisted) state at all. In anticipation of
doing so in the next few commits, here we make the public API
handle the two concepts (somewhat) separately. The notification
still goes out via a single waker, however whether or not to
persist is now handled via a separate atomic bool.
In the next commit, we separate `ChannelManager`'s concept of
waking a listener to both be persisted and to allow the user to
handle events. Here we rename the future-fetching method in
anticipation of this split.
Firstly, we switch our BP over to use `FilesystemStore`, which also gives us test
coverage and ensures the compatibility.
Then, we remove the superseded `KVStorePersister` trait and
the `FilesystemPersister` code.
- Split Score from LockableScore to ScoreLookUp to handle read
operations and ScoreUpdate to handle write operations
- Change all struct that implemented Score to implement ScoreLookUp
and/or ScoreUpdate
- Change Mutex's to RwLocks to allow multiple data readers
- Change LockableScore to Deref in ScorerAccountingForInFlightHtlcs
as we only need to read
- Add ScoreLookUp and ScoreUpdate docs
- Remove reference(&'a) and Sized from Score in ScorerAccountingForInFlightHtlcs
as Score implements Deref
- Split MultiThreadedScoreLock into MultiThreadedScoreLockWrite and MultiThreadedScoreLockRead.
After splitting LockableScore, we split MultiThreadedScoreLock following
the same way, splitting a single score into two srtucts, one for read and
other for write.
MultiThreadedScoreLock is used in c_bindings.
While this is generally uneccessary as users set the `no-std` or
`std` features on the `lightning` crate directly, having this
allows `lightning-background-processor` to be built by itself
without extra dep lines. Specifically, the bindings are moving to
using the `-Z avoid-dev-deps` option, which now causes
`lightning-background-processor` to fail to build directly.
This ensures freshly initialized nodes can proceed to create unexpired
invoices without a call to `best_block_updated`, since an invoice's
expiration delta is applied to `highest_seen_timestamp`.
Add a trait for finding routes for onion messages and parameterize
OnionMessenger with it. This allows OnionMessenger to reply to messages
that it handles via one of its handlers (e.g., OffersMessageHandler).
If the `networks` field is present in a received `Init` message, then
we need to make sure our genesis chain hash matches one of those, otherwise
we should disconnect the peer.
We now also always send our genesis chain hash in `Init` messages to
our peers.
This was a fairly old introduction to the spec to allow nodes to indicate
to their peers what chains they are interested in (i.e. will open channels
and gossip for).
We don't do any of the handling of this message in this commit and leave
that to the very next commit, so the behaviour is effectively the same
(ignore networks preference).
This PR aims to create a "stateless" scorer. Instead of passing
in fee params at construction-time, we want to parametrize the
scorer with an associated "parameter" type, which is then
passed to the router function itself, and allows passing
different parameters per route-finding call.
`rust-bitcoin v0.30.0` introduces concrete variants for data members of
block `Header`s. To avoid having to update these across every use, we
introduce new helpers to create dummy blocks and headers, such that the
update process is a bit more straight-forward.
A while back, in tests, we added a `AChannelManager` trait, which
is implemented for all `ChannelManager`s, and can be used as a
bound when we need a `ChannelManager`, rather than having to
duplicate all the bounds of `ChannelManager` everywhere.
Here we do the same thing for `PeerManager`, but make it public and
use it to clean up `lightning-net-tokio` and
`lightning-background-processor`.
We should likely do the same for `AChannelManager`, but that's left
as a followup.
`PeerManager` takes a `MessageHandler` struct which contains all
the known message handlers for it to pass messages to. It then,
separately, takes a `CustomMessageHandler`. This makes no sense, we
should simply include the `CustomMessageHandler` in the
`MessageHandler` struct for consistency.
Currently `BackgroundProcessor` tests create persister directories in the
current working directory and rely on cleaning up in a `Drop` implementation.
Unfortunately, it seems that in the async tests that nodes are not
`drop()`ed for some reason and so the directories created by those
tests remain behind in the current working directory.
This commit at least ensures that these test directories are created in
a temporary location for the OS using `temp_dir()`. It doesn't aim to
solve the lack of cleanup in the async tests.
Partial fix for #2224 but I believe it's enough to resolve it as these
temp directories that do remain will be purged by the OS at some stage
and are overwritten by subsequent tests if there is a conflict.
