Matt Corallo [Sun, 10 Sep 2023 17:14:32 +0000 (17:14 +0000)]
Drop the `ChannelMonitorUpdateStatus::PermanentFailure` variant
When a `ChannelMonitorUpdate` fails to apply, it generally means
we cannot reach our storage backend. This, in general, is a
critical issue, but is often only a transient issue.
Sadly, users see the failure variant and return it on any I/O
error, resulting in channel force-closures due to transient issues.
Users don't generally expect force-closes in most cases, and
luckily with async `ChannelMonitorUpdate`s supported we don't take
any risk by "delaying" the `ChannelMonitorUpdate` indefinitely.
Thus, here we drop the `PermanentFailure` variant entirely, making
all failures instead be "the update is in progress, but won't ever
complete", which is equivalent if we do not close the channel
automatically.
Matt Corallo [Sun, 10 Sep 2023 22:11:56 +0000 (22:11 +0000)]
Rewrite failure payment retry tests to avoid perm-fail storage
Two tests in the payment tests currently rely on failing to persist
ChannelMonitorUpdates as their method of failing payments before
they even get out the door.
In the coming commits we'll drop the persist failure error codes,
so here rewrite these tests to rely on trying to send more than is
available in a channel.
Elias Rohrer [Mon, 11 Sep 2023 11:50:10 +0000 (13:50 +0200)]
Probe up to second-to-last hop if last was provided by route hint
If the last hop was provided by route hint we assume it's not an announced channel.
If furthermore only a single route hint is provided we refrain from probing through
all the way to the end and instead probe up to the second-to-last channel.
Optimally we'd do this not based on above mentioned assumption but
rather by checking inclusion in our network graph. However, we don't
have access to our graph in `ChannelManager`.
Elias Rohrer [Mon, 28 Aug 2023 13:03:04 +0000 (15:03 +0200)]
Add preflight probing capabilities
We add a `ChannelManager::send_preflight_probes` method that can be used
to send pre-flight probes given some [`RouteParameters`]. Additionally,
we add convenience methods in for spontaneous probes and send pre-flight
probes for a given invoice.
As pre-flight probes might take up some of the available liquidity, we
here introduce that channels whose available liquidity is less than the
required amount times
`UserConfig::preflight_probing_liquidity_limit_multiplier` won't be used
to send pre-flight probes.
This commit is a more or less a carbon copy of the pre-flight
probing code recently added to LDK Node.
Elias Rohrer [Tue, 12 Sep 2023 13:51:37 +0000 (15:51 +0200)]
Include `maybe_announced` field in `RouteHop`
When sending preflight probes, we want to exclude last hops that are
possibly announced. To this end, we here include a new field in
`RouteHop` that will be `true` when we either def. know the hop to be
announced, or, if there exist public channels between the hop's
counterparties that this hop might refer to (i.e., be an alias for).
Matt Corallo [Fri, 15 Sep 2023 23:52:40 +0000 (23:52 +0000)]
Correct syn pinning on cargo 1.48
Sadly the pinning introduced in 050f5a90297678f2cad36feee9a1db2367e
was brittle in the face of any further syn updates, and has already
broken.
Here we fix it by looking up the actual version of syn to pin.
Note that this dependency is somewhat nonsense as its actually only
a `criterion` dependency, pulled in even though we haven't set the
bench flag (as we aren't yet using `resolver = 2`).
Matt Corallo [Fri, 15 Sep 2023 19:17:34 +0000 (19:17 +0000)]
Avoid unnecessarily cloning unsigned Transaction when broadcasting
Our `Trusted*` wrappers in `chan_utils` expose additional inner
fields by reference. However, because they were not explicitly
marked as returning a reference with the wrapped struct's
lifetimes, rustc was considering them to return a reference with
the wrapper struct's lifetime.
Matt Corallo [Thu, 7 Sep 2023 22:34:30 +0000 (22:34 +0000)]
Move to a constant for "bucket one" in the scoring buckets
Scoring buckets are stored as fixed point ints, with a 5-bit
fractional part (i.e. a value of 1.0 is stored as "32"). Now that
we also have 32 buckets, this leads to the codebase having many
references to 32 which could reasonably be confused for each other.
Thus, we add a constant here for the value 1.0 in our fixed-point
scheme.
Matt Corallo [Tue, 6 Jun 2023 04:08:32 +0000 (04:08 +0000)]
Decay `historical_estimated_channel_liquidity_*` result to `None`
`historical_estimated_channel_liquidity_probabilities` previously
decayed to `Some(([0; 8], [0; 8]))`. This was thought to be useful
in that it allowed identification of cases where data was previously
available but is now decayed away vs cases where data was never
available. However, with the introduction of
`historical_estimated_payment_success_probability` (which uses the
existing scoring routines so will decay to `None`) this is
unnecessarily confusing.
Given data which has decayed to zero will also not be used anyway,
there's little reason to keep the old behavior, and we now decay to
`None`.
We also take this opportunity to split the overloaded
`get_decayed_buckets`, removing uneccessary code during scoring.
Matt Corallo [Sat, 19 Aug 2023 18:43:45 +0000 (18:43 +0000)]
Special-case the 0th minimum bucket in historical scoring
Points in the 0th minimum bucket either indicate we sent a payment
which is < 1/16,384th of the channel's capacity or, more likely,
we failed to send a payment. In either case, averaging the success
probability across the full range of upper-bounds doesn't make a
whole lot of sense - if we've never managed to send a "real"
payment over a channel, we should be considering it quite poor.
To address this, we special-case the 0th minimum bucket and only
look at the largest-offset max bucket when calculating the success
probability.
Matt Corallo [Sun, 16 Apr 2023 04:03:08 +0000 (04:03 +0000)]
Track "steady-state" channel balances in history buckets not live
The lower-bound of the scoring history buckets generally never get
used - if we try to send a payment and it fails, we don't learn
a new lower-bound for the liquidity of a channel, and if we
successfully send a payment we only learn a lower-bound that
applied *before* we sent the payment, not after it completed.
If we assume channels have some "steady-state" liquidity, then
tracking our liquidity estimates *after* a payment doesn't really
make sense - we're not super likely to make a second payment across
the same channel immediately (or, if we are, we can use our
un-decayed liquidity estimates for that). By the time we do go to
use the same channel again, we'd assume that its back at its
"steady-state" and the impacts of our payment have been lost.
To combat both of these effects, here we "subtract" the impact of
any just-successful payments from our liquidity estimates prior to
updating the historical buckets.
Matt Corallo [Fri, 8 Sep 2023 17:48:50 +0000 (17:48 +0000)]
Move the historical bucket tracker to 32 unequal sized buckets
Currently we store our historical estimates of channel liquidity in
eight evenly-sized buckets, each representing a full octile of the
channel's total capacity. This lacks precision, especially at the
edges of channels where liquidity is expected to lie.
To mitigate this, we'd originally checked if a payment lies within
a bucket by comparing it to a sliding scale of 64ths of the
channel's capacity. This allowed us to assign penalties to payments
that fall within any more than the bottom 64th or lower than the
top 64th of a channel.
However, this still lacks material precision - on a 1 BTC channel
we could only consider failures for HTLCs above 1.5 million sats.
With today's lightning usage often including 1-100 sat payments in
tips, this is a rather significant lack of precision.
Here we rip out the existing buckets and replace them with 32
*unequal* sized buckets. This allows us to focus our precision at
the edges of a channel (where the liquidity is likely to lie, and
where precision helps the most).
We set the size of the edge buckets to 1/16,384th of the channel,
with the size increasing exponentially until it approaches the
inner buckets. For backwards compatibility, the buckets divide
evenly into octets, allowing us to convert the existing buckets
into the new ones cleanly.
This allows us to consider HTLCs down to 6,000 sats for 1 BTC
channels. In order to avoid failing to penalize channels which have
always failed, we drop the sliding scale for comparisons and simply
check if the payment is above the minimum bucket we're analyzing and
below *or in* the maximum one. This generates somewhat more
pessimistic scores, but fixes the lower bound where we suddenly
assign a 0% failure probability.
While this does represent a regression in routing performance, in
some cases the impact of not having to examine as many nodes
dominates, leading to a performance increase.
On a Xeon E3-1220 v5, the `large_mpp_routes` benchmark shows a 15%
performance increase, while the more stable benchmarks show an 8%
and 15% performance regression.
Matt Corallo [Thu, 14 Sep 2023 21:49:14 +0000 (21:49 +0000)]
Pin memchr in our release dependency list due to `core2` using it
We're working with rust-bitcoin to remove the `core2` dependency
at https://github.com/rust-bitcoin/rust-bitcoin/pull/2066 but until
that lands and we can upgrade rust-bitcoin we're stuck with it. In
the mean time, we should still pass our MSRV tests.
Matt Corallo [Thu, 14 Sep 2023 21:47:07 +0000 (21:47 +0000)]
Drop `test_esplora_connects_to_public_server`
`blockstream.info` is currently down, causing our CI to fail. This
shouldn't really be a thing, so we drop the blockstream.info-based
test here.
More generally, I'm not really a fan of having tests which run
(outside of CI) and call out to external servers - a developer
working on LDK shouldn't have to have internet access to run our
test suite and shouldn't be registering their presence with a third
party to run our tests.
Elias Rohrer [Mon, 28 Aug 2023 11:57:29 +0000 (13:57 +0200)]
Set `payment_secret` when sending probes
Previously, we'd leave the payment secret field empty while sending
probes, which resulted in having them rejected
with `(PERM|invalid_onion_payload)` by Eclair nodes.
In order to mitigate the issue, we just set a random payment secret.
Elias Rohrer [Tue, 12 Sep 2023 11:37:57 +0000 (13:37 +0200)]
Cleanup `ChannelId` re-export
`ChannelId` was weirdly listed in the re-export section of the docs and
reachable via multiple paths. Here we opt to make the `channel_id`
module private and leave only the `ChannelId` struct itself exposed.
Matt Corallo [Mon, 28 Aug 2023 01:25:36 +0000 (01:25 +0000)]
Restrict `ChannelManager` persist in fuzzing to when we're told to
In the `chanmon_consistency` fuzz, we currently "persist" the
`ChannelManager` on each loop iteration. With the new logic in the
past few commits to reduce the frequency of `ChannelManager`
persistences, this behavior now leaves a gap in our test coverage -
missing persistence notifications.
In order to cath (common-case) persistence misses, we update the
`chanmon_consistency` fuzzer to no longer persist the
`ChannelManager` unless the waker was woken and signaled to
persist, possibly reloading with a previous `ChannelManager` if we
were not signaled.
Matt Corallo [Mon, 28 Aug 2023 01:35:16 +0000 (01:35 +0000)]
Remove largely useless checks in chanmon_consistency fuzzer
When reloading nodes A or C, the chanmon_consistency fuzzer
currently calls `get_and_clear_pending_msg_events` on the node,
potentially causing additional `ChannelMonitor` or `ChannelManager`
updates, just to check that no unexpected messages are generated.
There's not much reason to do so, the fuzzer could always swap for
a different command to call the same method, and the additional
checking requires some weird monitor persistence introspection.
Here we simplify the fuzzer by simply removing this logic.
Matt Corallo [Thu, 24 Aug 2023 20:02:08 +0000 (20:02 +0000)]
Skip persistence in the usual case handling channel_reestablish
When we handle an inbound `channel_reestablish` from our peers it
generally doesn't change any state and thus doesn't need a
`ChannelManager` persistence. Here we avoid said persistence where
possible.
Matt Corallo [Thu, 24 Aug 2023 19:57:45 +0000 (19:57 +0000)]
Always persist the `ChannelManager` on a failed ChannelUpdate
If we receive a `ChannelUpdate` message which was invalid, it can
cause us to force-close the channel, which should result in a
`ChannelManager` persistence, though its not critical to do so.
Matt Corallo [Sun, 10 Sep 2023 23:10:03 +0000 (23:10 +0000)]
Avoid persisting `ChannelManager` in response to peer connection
When a peer connects and we send some `channel_reestablish`
messages or create a `per_peer_state` entry there's really no
reason to need to persist the `ChannelManager`. None of the
possible actions we take immediately result in a change to the
persisted contents of a `ChannelManager`, only the peer's later
`channel_reestablish` message does.
Matt Corallo [Thu, 24 Aug 2023 19:36:58 +0000 (19:36 +0000)]
Move a handful of channel messages to notify-without-persist
Many channel related messages don't actually change the channel
state in a way that changes the persisted channel. For example,
an `update_add_htlc` or `update_fail_htlc` message simply adds the
change to a queue, changing the channel state when we receive a
`commitment_signed` message.
In these cases there's really no reason to wake the background
processor at all - there's no response message and there's no state
update. However, note that if we close the channel we should
persist the `ChannelManager`. If we send an error message without
closing the channel, we should wake the background processor
without persisting.
Here we move to the appropriate `NotifyOption` on some of the
simpler channel message handlers.
Matt Corallo [Thu, 24 Aug 2023 18:37:18 +0000 (18:37 +0000)]
Update `channelmanager::NotifyOption` to indicate persist or event
As we now signal events-available from persistence-needed
separately, the `NotifyOption` enum should include a separate
variant for events-but-no-persistence, which we add here.
Matt Corallo [Fri, 8 Sep 2023 20:26:29 +0000 (20:26 +0000)]
Separate ChannelManager needing persistence from having events
Currently, when a ChannelManager generates a notification for the
background processor, any pending events are handled and the
ChannelManager is always re-persisted.
Many channel related messages don't actually change the channel
state in a way that changes the persisted channel. For example,
an `update_add_htlc` or `update_fail_htlc` message simply adds the
change to a queue, changing the channel state when we receive a
`commitment_signed` message.
In these cases we shouldn't be re-persisting the ChannelManager as
it hasn't changed (persisted) state at all. In anticipation of
doing so in the next few commits, here we make the public API
handle the two concepts (somewhat) separately. The notification
still goes out via a single waker, however whether or not to
persist is now handled via a separate atomic bool.
Matt Corallo [Mon, 11 Sep 2023 03:38:14 +0000 (03:38 +0000)]
Make it harder to forget to call CM::process_background_events
Prior to any actions which may generate a `ChannelMonitorUpdate`,
and in general after startup,
`ChannelManager::process_background_events` must be called. This is
mostly accomplished by doing so on taking the
`total_consistency_lock` via the `PersistenceNotifierGuard`. In
order to skip this call in block connection logic, the
`PersistenceNotifierGuard::optionally_notify` constructor did not
call the `process_background_events` method.
However, this is very easy to misuse - `optionally_notify` does not
convey to the reader that they need to call
`process_background_events` at all.
Here we fix this by adding a separate
`optionally_notify_skipping_background_events` method, making the
requirements much clearer to callers.
Matt Corallo [Wed, 5 Jul 2023 16:15:59 +0000 (16:15 +0000)]
Test monitor update completion actions on pre-startup completion
This adds a test for monitor update actions being completed on
startup if a monitor update completed "while we were shut down"
(or, really, the manager didn't get persisted after the update
completed).
Matt Corallo [Mon, 21 Aug 2023 18:44:22 +0000 (18:44 +0000)]
Update tests to test re-claiming of forwarded HTLCs on startup
Because some of these tests require connecting blocks without
calling `get_and_clear_pending_msg_events`, we need to split up
the block connection utilities to only optionally call
sanity-checks.
`expect_payment_forwarded` takes a bool to indicate that the
inbound channel on which we received a forwarded payment has been
closed, but then ignores it in favor of looking at the fee in the
event. While this is generally correct, in cases where we process
an event after a channel was closed, which was generated before a
channel closed this is incorrect.
Instead, we examine the bool we already passed and use that.
Matt Corallo [Thu, 7 Sep 2023 02:22:52 +0000 (02:22 +0000)]
Block the mon update removing a preimage until upstream mon writes
When we forward a payment and receive an `update_fulfill_htlc`
message from the downstream channel, we immediately claim the HTLC
on the upstream channel, before even doing a `commitment_signed`
dance on the downstream channel. This implies that our
`ChannelMonitorUpdate`s "go out" in the right order - first we
ensure we'll get our money by writing the preimage down, then we
write the update that resolves giving money on the downstream node.
This is safe as long as `ChannelMonitorUpdate`s complete in the
order in which they are generated, but of course looking forward we
want to support asynchronous updates, which may complete in any
order.
Thus, here, we enforce the correct ordering by blocking the
downstream `ChannelMonitorUpdate` until the upstream one completes.
Like the `PaymentSent` event handling we do so only for the
`revoke_and_ack` `ChannelMonitorUpdate`, ensuring the
preimage-containing upstream update has a full RTT to complete
before we actually manage to slow anything down.
Matt Corallo [Thu, 31 Aug 2023 19:06:34 +0000 (19:06 +0000)]
Clean up test handling of resending responding commitment_signed
When we need to rebroadcast a `commitment_signed` on reconnect in
response to a previous update (ie not one which contains any
updates) we previously hacked in support for it by passing a `-1`
for the number of expected update_add_htlcs. This is a mess, and
with the introduction of `ReconnectArgs` we can now clean it up
easily with a new bool.
Matt Corallo [Mon, 11 Sep 2023 03:10:36 +0000 (03:10 +0000)]
Make PersistenceNotifierGuard::optionally_notify take a ChanMan ref
Long ago, for reasons lost to the ages, the
`PersistenceNotifierGuard::optionally_notify` constructor didn't
take a `ChannelManager` reference, but rather explicit references
to the fields of it that it needs.
This is cumbersome and useless, so we fix it here.
Matt Corallo [Thu, 24 Aug 2023 18:34:55 +0000 (18:34 +0000)]
Rename `ChannelManager` update future methods for new API
In the next commit, we separate `ChannelManager`'s concept of
waking a listener to both be persisted and to allow the user to
handle events. Here we rename the future-fetching method in
anticipation of this split.
Verify channel-monitor processes blocks with skipped best_block
This can happen due to races b/w client's call to block_connect
and adding newly created channel-monitor to chain-monitor using
watch_channel in funding_created.
Duncan Dean [Wed, 26 Jul 2023 09:20:08 +0000 (11:20 +0200)]
Introduce `ChannelPhase` enum
We introduce the `ChannelPhase` enum which will contain the different
channel structs wrapped by each of its variants so that we can place
these within a single `channel_by_id` map in `peer_state` in the
following commits. This will reduce the number of map lookup operations
we need to do in `ChannelManager`'s various methods. It will also make
certain channel counting logic easier to reason about with less risk of
forgetting to modify logic when new channels structs are introduced for
V2 channel establishment.
Replace a constant three retry attempts for BOLT 12 invoice payments
with a retry strategy specified when creating a pending outbound
payment. This is configured by users in a later commit when constructing
an InvoiceRequest or a Refund.
An upcoming commit requires serializing Retry, so use a type with a
fixed byte length. Otherwise, using eight bytes to serialize a usize
would fail to read on 32-bit machines.
Add a send_payment_for_bolt12_invoice method to OutboundPayments for
initiating payment of a BOLT 12 invoice. This will be called from an
OffersMessageHandler, after which any retries are handled using the
Retryable logic.
Consolidate the creation and insertion of onion_session_privs to the
PendingOutboundPayment::Retryable arm. In an upcoming commit, this
method will be reused for an initial BOLT 12 invoice payment. However,
onion_session_privs are created using a different helper.