A single PaymentSent event is generated when a payment is fulfilled.
This is occurs when the preimage is revealed on the first claimed HTLC.
For subsequent HTLCs, the event is not generated.
In order to score channels involved with a successful payments, the
scorer must be notified of each successful path involved in the payment.
Add a PaymentPathSuccessful event for this purpose. Generate it whenever
a part is removed from a pending outbound payment. This avoids duplicate
events when reconnecting to a peer.
When a payment path fails, it may be retried. Typically, this means
re-computing the route after updating the NetworkGraph and channel
scores in order to avoid the failing hop. The last hop in
PaymentPathFailed's path field contains the pubkey, amount, and CLTV
values needed to pass to get_route. However, it does not contain the
payee's features and route hints from the invoice.
Include the entire set of parameters in PaymentPathRetry and add it to
the PaymentPathFailed event. Add a get_retry_route wrapper around
get_route that takes PaymentPathRetry. This allows an EventHandler to
retry failed payment paths using the payee's route hints and features.
The interface for get_route will change to take a scorer. Using
get_route_and_payment_hash whenever possible allows for keeping the
scorer inside get_route_and_payment_hash rather than at every call site.
Replace get_route with get_route_and_payment_hash wherever possible.
Additionally, update get_route_and_payment_hash to use the known invoice
features and the sending node's logger.
MessageSendEvent::PaymentFailureNetworkUpdate served as a hack to pass
an HTLCFailChannelUpdate from ChannelManager to NetGraphMsgHandler via
PeerManager. Instead, remove the event entirely and move the contained
data (renamed NetworkUpdate) to Event::PaymentFailed to be processed by
an event handler.
Now that NetworkGraph uses interior mutability, the RwLock used around
it in NetGraphMsgHandler is no longer needed. This allows for shared
ownership without a lock.
Currently the base fee we apply is always the expected cost to
claim an HTLC on-chain in case of closure. This results in
significantly higher than market rate fees [1], and doesn't really
match the actual forwarding trust model anyway - as long as
channel counterparties are honest, our HTLCs shouldn't end up
on-chain no matter what the HTLC sender/recipient do.
While some users may wish to use a feerate that implies they will
not lose funds even if they go to chain (assuming no flood-and-loot
style attacks), they should do so by calculating fees themselves;
since they're already charging well above market-rate,
over-estimating some won't have a large impact.
Worse, we current re-calculate fees at forward-time, not based on
the fee we set in the channel_update. This means that the fees
others expect to pay us (and which they calculate their route based
on), is not what we actually want to charge, and that any attempt
to forward through us is inherently race-y.
This commit adds a configuration knob to set the base fee
explicitly, defaulting to 1 sat, which appears to be market-rate
today.
[1] Note that due to an msat-vs-sat bug we currently actually
charge 1000x *less* than the calculated cost.
Like the payment_secret parameter, this paramter has been the source
of much confusion, so we just drop it.
Users should prefer to do this check when registering the payment
secret instead of at claim-time.
Our current PaymentReceived API is incredibly easy to mis-use -
the "obvious" way to implement a client is to always call
`ChannelManager::claim_funds` in response to a `PaymentReceived`
event. However, users are *required* to check the payment secret
and value against the expected values before claiming in order to
avoid a number of potentially funds-losing attacks.
Instead, if we rely on payment secrets being pre-registered with
the ChannelManager before we receive HTLCs for a payment we can
simply check the payment secrets and never generate
`PaymentReceived` events if they do not match. Further, when the
user knows the value to expect in advance, we can have them
register it as well, allowing us to check it for them.
Other implementations already require payment secrets for inbound
payments, so this shouldn't materially lose compatibility.
This prepares us for requiring payment_secrets for all received
payments, by demonstrating test changes work even prior to the new
requirement.
In order to avoid needing to pipe payment secrets through to
additional places in the claim logic and then removing that
infrastructure once payment secrets are required, we use the new
payment secret storage in ChannelManager to look up the payment
secret for any given pament hash in claim and fail-back functions.
This part of the diff is reverted in the next commit.
In order to reduce code movement in the next commit, this commit
simply tweaks get_payment_preimage_hash!() and related functions in
functional tests to return a payment secret. Further, we ensure
that we always call get_payment_preimage_hash!() with the node
which will ultimately receive the payment.
This expands the assertions on block ordering to apply to
`#[cfg(test)]` builds in addition to normal builds, requiring that
unit and functional tests have syntactically-valid (ie the previous
block hash pointer and the heights match the blocks) blockchains.
This requires a reasonably nontrivial diff in the functional tests
however it is mostly straightforward changes.
We currently only use it to override the graph-specific features
returned in the route, though we should also use it to enable or
disable MPP.
Note that tests which relied on MPP behavior have had all of their
get_route calls upgraded to provide the MPP flag.
Given the chain::Watch interface is defined in terms of ChannelMonitor
and ChannelMonitorUpdateErr, move channelmonitor.rs from the ln module
to the chain module.
Replace direct uses of BlockNotifier in functional tests with utility
functions. This is in preparation for signaling watch events back via a
refactoring of ManyChannelMonitor and ChainWatchInterface. Those events
will be processed by connect_block.
ChainListeners should be independent of each other, but in practice this
is not the case because ChainWatchInterface introduces a dependency
between them. Push ChainWatchInterface down into the ChainListener
implementations where needed. Update ChainListener's block_connected
method to take a slice of the form &[(usize, &Transaction)] where each
transaction is paired with its position within the block.
* Channel::get_counterparty_htlc_minimum_msat() returned
holder_htlc_minimum_msat, which was obviously incorrect.
* ChannelManager::get_channel_update set htlc_minimum_msat to
Channel::get_holder_htlc_minimum_msat(), but the spec explicitly
states we "MUST set htlc_minimum_msat to the minimum HTLC value
(in millisatoshi) that the channel peer will accept." This makes
sense because the reason we're rejecting the HTLC is because our
counterparty's HTLC minimum value is too small for us to send to
them, our own HTLC minimum value plays no role. Further, our
router already expects this - looking at the same directional
channel info as it does fees.
Finally, we add a test in the existing onion router test cases
which fails if either of the above is incorrect (the second issue
discovered in the process of writing the test).
They all have a specific structure, so having them in the mess that
is functional_tests isn't really conducive to readability. More
importantly, functional_tests is so big it slows down compilation,
so even dropping a few hundred lines is a win.
