When we're reading a `NetworkGraph`, we know how many
nodes/channels we are reading, there's no reason not to
pre-allocate the `IndexedMap`'s inner `HashMap` and `Vec`, which we
do here.
This seems to reduce on-startup heap fragmentation with glibc by
something like 100MiB.
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.
Adds a `get_signer` method to the context so that a test can get ahold of the
channel signer. Adds a `set_available` method on the `TestChannelSigner` to
allow a test to enable and disable the signer: when disabled some of the
signer's methods will return `Err` which will typically activate the error
handling case. Adds a `set_channel_signer_available` function on the test
`Node` class to make it easy to enable and disable a specific signer.
Adds a new `async_signer_tests` module:
* Check for asynchronous handling of `funding_created` and `funding_signed`.
* Check that we correctly resume processing after awaiting an asynchronous
signature for a `commitment_signed` event.
* Verify correct handling during peer disconnect.
* Verify correct handling for inbound zero-conf.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending which required the signature later,
rather than force-closing the channel (which probably won't even
work if the signer is missing).
This commit adds retrying of inbound funding_created signing
failures, regenerating the `FundingSigned` message, attempting to
re-sign, and sending it to our peers if we succeed.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending which required the signature later,
rather than force-closing the channel (which probably won't even
work if the signer is missing).
This commit adds retrying of outbound funding_created signing
failures, regenerating the `FundingCreated` message, attempting to
re-sign, and sending it to our peers if we succeed.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending which required the signature later,
rather than force-closing the channel (which probably won't even
work if the signer is missing).
This commit adds initial retrying of failures, specifically
regenerating commitment updates, attempting to re-sign the
`CommitmentSigned` message, and sending it to our peers if we
succed.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending which required the signature later,
rather than force-closing the channel (which probably won't even
work if the signer is missing).
Here we add initial handling of sign_counterparty_commitment
failing during inbound channel funding, setting a flag in
`ChannelContext` which indicates we should retry sending the
`funding_signed` later. We don't yet add any ability to do that
retry.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending which required the signature later,
rather than force-closing the channel (which probably won't even
work if the signer is missing).
Here we add initial handling of sign_counterparty_commitment
failing during outbound channel funding, setting a new flag in
`ChannelContext` which indicates we should retry sending the
`funding_created` later. We don't yet add any ability to do that
retry.
If sign_counterparty_commitment fails (i.e. because the signer is
temporarily disconnected), this really indicates that we should
retry the message sending later, rather than force-closing the
channel (which probably won't even work if the signer is missing).
Here we add initial handling of sign_counterparty_commitment
failing during normal channel operation, setting a new flag in
`ChannelContext` which indicates we should retry sending the
commitment update later. We don't yet add any ability to do that
retry.
Revert fuzz test removal in 6dc42235ba.
The test originally checked that OnionMessenger would fail for one-hop
blinded paths. The commit added support for such paths, but changing the
checks was not sufficient since the node was not connected to the
introduction node of the reply path. This is required in order to work
with the trivial TestMessageRouter. Fix this by explicitly connecting
the nodes.
Some editors like vim slow to a crawl when scrolling over long strings
when syntax highlighting is turned on. Limit the length in fuzz strings
to avoid this.
Additional BOLT 12 tests specific to Offer were added, which will live
in the offer module. Thus, it makes sense to move the bech32 tests to
the parse module.
Bindings aren't currently able to handle a struct with a generic
which is actually exposed - we map all structs concretely to a
single type, whereas having fluctuating types on a struct requires
mapping the inner field to a trait first.
Since this isn't super practical, we make `PendingOnionMessage` a
tuple in bindings, rather than a struct.
Because the bindings changes now require further changes to our
type definitions, avoiding building the `Simple*` type aliases
entirely makes the patchset there simpler.
In 26c1639ab6 we switched to using
`Default::default()` to initialize `()` for scoring parameters in
tests. A number of `()`s slipped back in recently, which we replace
here.
`sign_holder_commitment_and_htlcs` never really made sense. Unlike
`sign_counterparty_commitment`, the signatures for holder HTLC
transactions may be required much later than the commitment
transaction's. While it was nice for us to only reach the signer once to
obtain all holder signatures, it's not really ideal anymore as we want
our signatures to be random and not reused.
We no longer return all holder HTLC signatures and instead defer to
obtaining them via `EcdsaChannelSigner::sign_holder_htlc_transaction`.
