Every exported macro needed to have all the macros used inside it:
1- to be exported as well.
2- be called from the `$crate` namespace so it works in other crates.
Some structs in `lightning::util::ser` needed to be made public as they were used inside the exported macros.
Use the macros like this:
```Rust
lightning::impl_writeable_tlv_based!(...)
```
BOLT 12 invoices may contain blinded_payinfo for each hop in a blinded
path. Each blinded_payinfo contains features, whose length must be
encoded since there may be multiple hops.
Note these features are also needed in the BOLT 4 encrypted_data_tlv
stream. But since they are a single TLV record, the length must *not* be
encoded there.
Most BOLT 12 features are used as the value of a TLV record and thus
don't use an explicit length. One exception is the features inside the
blinded payinfo subtype since the TLV record contains a list of them.
However, these features are also used in the BOLT 4 encrypted_data_tlv
TLV stream as a single record, where the length is implicit.
Implement Readable and Writeable for Features wrapped in WithoutLength
such that either serialization can be used where required.
Once ChannelManager supports payment retries, it will make more sense for its
current send_payment method to be named send_payment_with_route because
retrying should be the default. Here we get a head start on this by making the
rename in outbound_payment, but not changing the public interface yet.
This allows us to move a lot of outbound payment logic out of ChannelManager
and into the new outbound_payment module, and helps avoid growing
ChannelManager when we add retry logic to it in upcoming work.
We want to move all outbound payment-related things to this new module, to help
break up ChannelManager so future payment retries work doesn't increase the
size of ChannelManager.
This change follows the rationale of commit 62236c7 and addresses the
last remaining redundant local commitment broadcast.
There's no need to broadcast our local commitment transaction if we've
already seen a confirmed one as it'll be immediately rejected as a
duplicate/conflict.
This will also help prevent dispatching spurious events for bumping
commitment and HTLC transactions through anchor outputs since the
dispatch for said events follows the same flow as our usual commitment
broadcast.
If, after forwarding an intercepted payment to our counterparty, we
restart with a ChannelMonitor update having been persisted, but the
corresponding ChannelManager update not having been persisted,
we'll still have the intercepted HTLC in the
`pending_intercepted_htlcs` map on start (and potentially a pending
`HTLCIntercepted` event). This will cause us to allow the user to
handle the forwarded HTLC twice, potentially double-forwarding it.
This builds on 0bb87ddad7, which
provided a preemptive fix for the general relay case (though it was
not an actual issue at the time). We simply check for the HTLCs
having been forwarded on startup and remove them from the map.
Fixes#1858
If a user calls `abandon_payment`, then restarts without freshly
persisting the `ChannelManager`, the payment will still be pending
on restart. This was unclear from the docs (and the docs seemed to
imply otherwise). Because this doesn't materially impact the
usability of `abandon_payment` (users shouldn't be called
`retry_payment` on an abandoned one anyway), we simply document it.
Fixes#1804.
Define an interface for BOLT 12 `invoice_request` messages. The
underlying format consists of the original bytes and the parsed
contents.
The bytes are later needed when constructing an `invoice` message. This
is because it must mirror all the `offer` and `invoice_request` TLV
records, including unknown ones, which aren't represented in the
contents.
The contents will be used in `invoice` messages to avoid duplication.
Some fields while required in a typical user-pays-merchant flow may not
be necessary in the merchant-pays-user flow (e.g., refund, ATM).
Currently `claim_funds` and `claim_funds_internal` call
`claim_funds_from_hop` and then surface and `Event` to the user
informing them of the forwarded/claimed payment based on it's
result. In both places we assume that a claim "completed" even if
a monitor update is being done async.
Instead, here we push that event generation through a
`MonitorUpdateCompletionAction` and a call to
`handle_monitor_update_completion_action`. This will allow us to
hold the event(s) until async monitor updates complete in the
future.
When `claim_funds` has to claim multiple HTLCs as a part of a
single MPP payment, it currently does so holding the
`channel_state` lock for the entire duration of the claim loop.
Here we swap that for taking the lock once for each HTLC. This
allows us to be more flexible with locks going forward, and
ultimately isn't a huge change - if our counterparty intends to
force-close a channel, us choosing to ignore it by holding the
`channel_state` lock for the duration of the claim isn't going to
result in a commitment update, it will just result in the preimage
already being in the `ChannelMonitor`.
Currently `claim_funds` does all HTLC claims in one `channel_state`
lock, ensuring that we always make claims from channels which are
open. It can thus avoid ever having to generate a
`ChannelMonitorUpdate` containing a preimage for a closed channel,
which we only do in `claim_funds_internal` (for forwarded payments).
In the next commit we'll change the locking of
`claim_funds_from_hop` so that `claim_funds` is no longer under a
single lock but takes a lock for each claim. This allows us to be
more flexible with locks going forward, and ultimately isn't a huge
change - if our counterparty intends to force-close a channel, us
choosing to ignore it by holding the `channel_state` lock for the
duration of the claim isn't going to result in a commitment update,
it will just result in the preimage already being in the
`ChannelMonitor`.
This adds a new enum, `MonitorUpdateCompletionAction` and a method
to execute the "actions". They are intended to be done once a
(potentially-async) `ChannelMonitorUpdate` persistence completes,
however this behavior will be implemented in a future PR. For now,
this adds the relevant infrastructure which will allow us to
prepare `claim_funds` for better monitor async handling.
In the next commits we'll move to generating `PaymentClaimed`
events while handling `ChannelMonitorUpdate`s rather than directly
in line. Thus, as a prerequisite, here we move to storing the info
required to generate the `PaymentClaimed` event in a separate map.
Note that while this does introduce a new map which is written as
an even value which users cannot opt out of, the map is only filled
in when users use the asynchronous `ChannelMonitor` updates and
after a future PR. As these are still considered beta, breaking
downgrades for such users is considered acceptable in the future PR
(which will likely be one LDK version later).
If we try to send any onion error with the `UPDATE` flag in
response to a phantom receipt, we should always swap it for
something generic that doesn't require a `channel_update` in it.
Here we use `temporary_node_failure`.
Test provided by Valentine Wallace <vwallace@protonmail.com>
