This introduces a BigSize migration that is used to expand the width
of the ChannelStatus and ChannelType fields. Three channel "types"
are added - ZeroConfBit, ScidAliasChanBit, and ScidAliasFeatureBit.
ScidAliasChanBit denotes that the scid-alias channel type was
negotiated for the channel. ScidAliasFeatureBit denotes that the
scid-alias feature bit was negotiated during the *lifetime* of the
channel. Several helper functions on the OpenChannel struct are
exposed to aid callers from different packages.
The RefreshShortChanID has been renamed to Refresh.
A new function BroadcastHeight is used to guard access to the
mutable FundingBroadcastHeight member. This prevents data races.
In this commit, we consolidate the _lease specific_ logic for the
success and timeout HTLC resolvers. We do this with the addition of a
new struct which is then composed via struct embedding with the two
existing structs. This fixes a flake in the integration tests by
ensuring the height is set up front, rather than eventually once the
height matches the lock time.
This prevents a panic where an insert is attempted on a nil map via
updateActiveHTLCs. This panic would occur if the channel arbitrator
was in a buggy state, possibly introduced by power loss or via
SIGKILL.
The main idea is that NotifyContractUpdate adds the ContractUpdate to
a map called unmerged. It is populated in Start by shallow-copying the
activeHTLCs map values (htlcSet). The htlcSets underlying maps are not
copied, and so unmerged will just contain pointers to them. This should
be fine since unmerged will not modify them. At the call-sites of
activeHTLCs, it is updated to include the unmerged sets. This happens
with a mutex and should not cause any data race, even though it is
copying the underlying map pointers. No persistence should be
necessary since on restart, activeHTLCs and unmerged will just be
populated again.
This commit changes the `NewBreachRetribution` to use the new revocation
log format, while maintaining the compatibilty to use an older
revocation log format. Unit tests have been added to make sure a breach
retribution can be created in both log formats.
This also means the watch tower needs to pass the relevant commit tx at
its backup height when creating the breach retribution during backing
up. This is achieved by recording the current remote commitment state
before advancing the remote commitment chain.
This commit was previously split into the following parts to ease
review:
- 2d746f68: replace imports
- 4008f0fd: use ecdsa.Signature
- 849e33d1: remove btcec.S256()
- b8f6ebbd: use v2 library correctly
- fa80bca9: bump go modules
This also changes the chain_watcher and breacharbiter handoff. The
new logic ensures that the channel is only marked as pending closed
when the channel arbitrator has persisted the resolutions and commit
set.
For older nodes, this bucket was never created, so we'll get an error if
we try and query it. In this commit, we catch this error like we do when
a given channel doesn't have the information (but the bucket actually
exists).
Fixes#6155
In this commit, we fix a bug that would cause newly updated nodes to be
unable to start up, if they have an older channel that was closed before
we started to store all the historical state for each channel.
The issue is that we started to write the complete state to disk, but
newer channels don't have it, so when we try to supplement the
resolvers, we run into this error.
Ultimately, we only need this new supplemented information for script
enforcement channels. Ideally we would instead check the channel type
there instead, but it doesn't appear to be available in this context as
is, without further changes.
Fixes https://github.com/lightningnetwork/lnd/issues/6001.
In order to sweep the commitment and HTLC outputs belonging to a
script-enforced leased channel, each resolver must know whether the
additional CLTV clause on the channel initiator applies to them. To do
so, we retrieve the historical channel state stored within the database
and supplement it to the resolvers to provide them with what's needed in
order to sweep the necessary outputs and resolve their respective
contracts.
This commit modifies the channel state machine to be able to derive the
proper commitment and second-level HTLC output scripts required by the
new script-enforced leased channel commitment type.
In this commit, we take an initial step towards converting the existing
breach arbiter and utxo nursery logic into contract resolvers by moving
the files as is, into the `contractcourt` pacakge.
This commit is primarily move only, though we had to massage some
interfaces and config names along the way to make things compile and the
tests run properly.
