Type aliases are now more robustly being exported in the C bindings
generator, which requires ensuring we don't include some type
aliases which make no sense in bindings.
On connection, if our peer supports gossip queries, and we never
send a `gossip_timestamp_filter`, our peer is supposed to never
send us gossip outside of explicit queries. Thus, we'll end up
always having stale gossip information after the first few
connections we make to peers.
The solution is to send a dummy `gossip_timestamp_filter`
immediately after connecting to peers.
Its somewhat strange to have a trait method which is named after
the intended action, rather than the action that occurred, leaving
it up to the implementor what action they want to take.
If the scoring in the routing benchmark causes us to take a
different path from the original scan, we may end up deciding that
the only path to a node has a too-high total CLTV delta, causing us
to panic in the benchmarking phase.
Here we simply check for that possibility and remove paths that
fail post-scoring.
Filter the route hints in `create_phantom_invoice` based on the
following criteria:
* Only one channel for every counterparty node per phantom
payment-receiving node in the invoice
* Always select the channel with the highest inbound capacity
* For each payment-receiving node, filter out channels with a lower
inbound capacity than the invoice amount, if any channel exists with
enough capacity to cover the invoice amount
* If any public channels exists for a payment-receiving node, push a
single RouteHintHop with the phantom route and let the sender find the
path to the payment-receiving node through the public channels.
Filter the route hints in `create_invoice_from_channelmanager` based on
the following criteria:
* Only one channel per counterparty node
* Always select the channel with the highest inbound capacity
* Filter out channels with a lower inbound capacity than the invoice
amount, if any channel exists with enough capacity to cover the invoice
amount
* If any public channel exists, the invoice route_hints should be empty,
and the sender will need to find the path to the payment-receiving node
by looking at the public channels instead
Previously, if we were offline when a funding transaction was
locked in, and then we came back online, calling
`best_block_updated` once followed by `transactions_confirmed`,
we'd not generate a funding_locked until the next
`best_block_updated`.
We address this by re-calling `best_block_updated` in
`transactions_confirmed`, similar to how `ChannelMonitor` works.
As a part of adding SCID aliases to channels, we now have to accept
otherwise-redundant funding_locked messages which serve only to
update the SCID alias. Previously, we'd failt he channel as such
an update used to be bogus.
This creates an SCID alias for all of our outbound channels, which
we send to our counterparties as a part of the `funding_locked`
message and then recognize in any HTLC forwarding instructions.
Note that we generate an SCID alias for all channels, including
already open ones, even though we currently have no way of
communicating to our peers the SCID alias for already-open
channels.
New `funding_locked` messages can include SCID aliases which our
counterparty will recognize as "ours" for the purposes of relaying
transactions to us. This avoids telling the world about our
on-chain transactions every time we want to receive a payment, and
will allow for receiving payments before the funding transaction
appears on-chain.
Here we store the new SCID aliases and use them in invoices instead
of he "standard" SCIDs.
`handle_monitor_err!()` has a number of different forms depending
on which messages and actions were outstanding when the monitor
updating first failed. Instead of matching by argument count, its
much more readable to put an explicit string in the arguments to
make it easy to scan for the called form.
Users who want to use lightning-block-sync's init module would
be reasonable in wanting to use it in a multithreaded environment,
however because it takes a list of listeners as dyn chain::Listen
without any Send or Sync bound they fail in doing so.
Here we make the type bounds on `chain::Listen` generic across
`chain::Listen + ?Sized`, which the existing bound of `&dyn
chain::Listen` satisfies. Thus, this is strictly less restrictive
and allows for the use of `&dyn chain::Listen + Send + Sync`.
To ensure no-std is honored across dependencies, add a crate depending
on lightning crates supporting no-std. This should ensure any
regressions are caught. Otherwise, cargo doesn't seem to catch some
incompatibilities (e.g., f64::log10 unavailable in core) and seemingly
across other dependencies as describe here:
https://blog.dbrgn.ch/2019/12/24/testing-for-no-std-compatibility/
This makes tests slightly more realistic by delivering
`channel_update`s to `ChannelManager`s, ensuring we have
forwarding data stored locally for all channels, including public
ones.
In 2d3a210897, we increased the
default ping timer in `lightning-background-processor` to ten
seconds from five. However, we didn't change the timer count at
which we disconnect peers if they're not responding, which we
likely should have done. We do so here, as well as update the
documentation for `PeerManager::timer_tick_occurred` to suggest
always ticking the timer every ten seconds instead of five.
