1 package org.ldk.structs;
3 import org.ldk.impl.bindings;
4 import org.ldk.enums.*;
6 import java.util.Arrays;
7 import javax.annotation.Nullable;
11 * Manager which keeps track of a number of channels and sends messages to the appropriate
12 * channel, also tracking HTLC preimages and forwarding onion packets appropriately.
14 * Implements ChannelMessageHandler, handling the multi-channel parts and passing things through
15 * to individual Channels.
17 * Implements Writeable to write out all channel state to disk. Implies peer_disconnected() for
18 * all peers during write/read (though does not modify this instance, only the instance being
19 * serialized). This will result in any channels which have not yet exchanged funding_created (ie
20 * called funding_transaction_generated for outbound channels).
22 * Note that you can be a bit lazier about writing out ChannelManager than you can be with
23 * ChannelMonitors. With ChannelMonitors you MUST write each monitor update out to disk before
24 * returning from chain::Watch::watch_/update_channel, with ChannelManagers, writing updates
25 * happens out-of-band (and will prevent any other ChannelManager operations from occurring during
26 * the serialization process). If the deserialized version is out-of-date compared to the
27 * ChannelMonitors passed by reference to read(), those channels will be force-closed based on the
28 * ChannelMonitor state and no funds will be lost (mod on-chain transaction fees).
30 * Note that the deserializer is only implemented for (BlockHash, ChannelManager), which
31 * tells you the last block hash which was block_connect()ed. You MUST rescan any blocks along
32 * the \"reorg path\" (ie call block_disconnected() until you get to a common block and then call
33 * block_connected() to step towards your best block) upon deserialization before using the
36 * Note that ChannelManager is responsible for tracking liveness of its channels and generating
37 * ChannelUpdate messages informing peers that the channel is temporarily disabled. To avoid
38 * spam due to quick disconnection/reconnection, updates are not sent until the channel has been
39 * offline for a full minute. In order to track this, you must call
40 * timer_tick_occurred roughly once per minute, though it doesn't have to be perfect.
42 * Rather than using a plain ChannelManager, it is preferable to use either a SimpleArcChannelManager
43 * a SimpleRefChannelManager, for conciseness. See their documentation for more details, but
44 * essentially you should default to using a SimpleRefChannelManager, and use a
45 * SimpleArcChannelManager when you require a ChannelManager with a static lifetime, such as when
46 * you're using lightning-net-tokio.
48 @SuppressWarnings("unchecked") // We correctly assign various generic arrays
49 public class ChannelManager extends CommonBase {
50 ChannelManager(Object _dummy, long ptr) { super(ptr); }
51 @Override @SuppressWarnings("deprecation")
52 protected void finalize() throws Throwable {
54 if (ptr != 0) { bindings.ChannelManager_free(ptr); }
58 * Constructs a new ChannelManager to hold several channels and route between them.
60 * This is the main \"logic hub\" for all channel-related actions, and implements
61 * ChannelMessageHandler.
63 * Non-proportional fees are fixed according to our risk using the provided fee estimator.
65 * panics if channel_value_satoshis is >= `MAX_FUNDING_SATOSHIS`!
67 * Users need to notify the new ChannelManager when a new block is connected or
68 * disconnected using its `block_connected` and `block_disconnected` methods, starting
69 * from after `params.latest_hash`.
71 public static ChannelManager of(FeeEstimator fee_est, Watch chain_monitor, BroadcasterInterface tx_broadcaster, Logger logger, KeysInterface keys_manager, UserConfig config, ChainParameters params) {
72 long ret = bindings.ChannelManager_new(fee_est == null ? 0 : fee_est.ptr, chain_monitor == null ? 0 : chain_monitor.ptr, tx_broadcaster == null ? 0 : tx_broadcaster.ptr, logger == null ? 0 : logger.ptr, keys_manager == null ? 0 : keys_manager.ptr, config == null ? 0 : config.ptr & ~1, params == null ? 0 : params.ptr & ~1);
73 if (ret < 1024) { return null; }
74 ChannelManager ret_hu_conv = new ChannelManager(null, ret);
75 ret_hu_conv.ptrs_to.add(ret_hu_conv);
76 ret_hu_conv.ptrs_to.add(fee_est);
77 ret_hu_conv.ptrs_to.add(chain_monitor);
78 ret_hu_conv.ptrs_to.add(tx_broadcaster);
79 ret_hu_conv.ptrs_to.add(logger);
80 ret_hu_conv.ptrs_to.add(keys_manager);
81 ret_hu_conv.ptrs_to.add(config);
82 ret_hu_conv.ptrs_to.add(params);
87 * Gets the current configuration applied to all new channels, as
89 public UserConfig get_current_default_configuration() {
90 long ret = bindings.ChannelManager_get_current_default_configuration(this.ptr);
91 if (ret < 1024) { return null; }
92 UserConfig ret_hu_conv = new UserConfig(null, ret);
93 ret_hu_conv.ptrs_to.add(this);
98 * Creates a new outbound channel to the given remote node and with the given value.
100 * user_id will be provided back as user_channel_id in FundingGenerationReady events to allow
101 * tracking of which events correspond with which create_channel call. Note that the
102 * user_channel_id defaults to 0 for inbound channels, so you may wish to avoid using 0 for
103 * user_id here. user_id has no meaning inside of LDK, it is simply copied to events and
106 * If successful, will generate a SendOpenChannel message event, so you should probably poll
107 * PeerManager::process_events afterwards.
109 * Raises APIError::APIMisuseError when channel_value_satoshis > 2**24 or push_msat is
110 * greater than channel_value_satoshis * 1k or channel_value_satoshis is < 1000.
112 * Note that we do not check if you are currently connected to the given peer. If no
113 * connection is available, the outbound `open_channel` message may fail to send, resulting in
114 * the channel eventually being silently forgotten.
116 * Note that override_config (or a relevant inner pointer) may be NULL or all-0s to represent None
118 public Result_NoneAPIErrorZ create_channel(byte[] their_network_key, long channel_value_satoshis, long push_msat, long user_id, @Nullable UserConfig override_config) {
119 long ret = bindings.ChannelManager_create_channel(this.ptr, their_network_key, channel_value_satoshis, push_msat, user_id, override_config == null ? 0 : override_config.ptr & ~1);
120 if (ret < 1024) { return null; }
121 Result_NoneAPIErrorZ ret_hu_conv = Result_NoneAPIErrorZ.constr_from_ptr(ret);
122 this.ptrs_to.add(override_config);
127 * Gets the list of open channels, in random order. See ChannelDetail field documentation for
130 public ChannelDetails[] list_channels() {
131 long[] ret = bindings.ChannelManager_list_channels(this.ptr);
132 ChannelDetails[] ret_conv_16_arr = new ChannelDetails[ret.length];
133 for (int q = 0; q < ret.length; q++) {
134 long ret_conv_16 = ret[q];
135 ChannelDetails ret_conv_16_hu_conv = new ChannelDetails(null, ret_conv_16);
136 ret_conv_16_hu_conv.ptrs_to.add(this);
137 ret_conv_16_arr[q] = ret_conv_16_hu_conv;
139 return ret_conv_16_arr;
143 * Gets the list of usable channels, in random order. Useful as an argument to
144 * get_route to ensure non-announced channels are used.
146 * These are guaranteed to have their [`ChannelDetails::is_usable`] value set to true, see the
147 * documentation for [`ChannelDetails::is_usable`] for more info on exactly what the criteria
150 public ChannelDetails[] list_usable_channels() {
151 long[] ret = bindings.ChannelManager_list_usable_channels(this.ptr);
152 ChannelDetails[] ret_conv_16_arr = new ChannelDetails[ret.length];
153 for (int q = 0; q < ret.length; q++) {
154 long ret_conv_16 = ret[q];
155 ChannelDetails ret_conv_16_hu_conv = new ChannelDetails(null, ret_conv_16);
156 ret_conv_16_hu_conv.ptrs_to.add(this);
157 ret_conv_16_arr[q] = ret_conv_16_hu_conv;
159 return ret_conv_16_arr;
163 * Begins the process of closing a channel. After this call (plus some timeout), no new HTLCs
164 * will be accepted on the given channel, and after additional timeout/the closing of all
165 * pending HTLCs, the channel will be closed on chain.
167 * If we are the channel initiator, we will pay between our [`Background`] and
168 * [`ChannelConfig::force_close_avoidance_max_fee_satoshis`] plus our [`Normal`] fee
170 * If our counterparty is the channel initiator, we will require a channel closing
171 * transaction feerate of at least our [`Background`] feerate or the feerate which
172 * would appear on a force-closure transaction, whichever is lower. We will allow our
173 * counterparty to pay as much fee as they'd like, however.
175 * May generate a SendShutdown message event on success, which should be relayed.
177 * [`ChannelConfig::force_close_avoidance_max_fee_satoshis`]: crate::util::config::ChannelConfig::force_close_avoidance_max_fee_satoshis
178 * [`Background`]: crate::chain::chaininterface::ConfirmationTarget::Background
179 * [`Normal`]: crate::chain::chaininterface::ConfirmationTarget::Normal
181 public Result_NoneAPIErrorZ close_channel(byte[] channel_id) {
182 long ret = bindings.ChannelManager_close_channel(this.ptr, channel_id);
183 if (ret < 1024) { return null; }
184 Result_NoneAPIErrorZ ret_hu_conv = Result_NoneAPIErrorZ.constr_from_ptr(ret);
189 * Begins the process of closing a channel. After this call (plus some timeout), no new HTLCs
190 * will be accepted on the given channel, and after additional timeout/the closing of all
191 * pending HTLCs, the channel will be closed on chain.
193 * `target_feerate_sat_per_1000_weight` has different meanings depending on if we initiated
194 * the channel being closed or not:
195 * If we are the channel initiator, we will pay at least this feerate on the closing
196 * transaction. The upper-bound is set by
197 * [`ChannelConfig::force_close_avoidance_max_fee_satoshis`] plus our [`Normal`] fee
198 * estimate (or `target_feerate_sat_per_1000_weight`, if it is greater).
199 * If our counterparty is the channel initiator, we will refuse to accept a channel closure
200 * transaction feerate below `target_feerate_sat_per_1000_weight` (or the feerate which
201 * will appear on a force-closure transaction, whichever is lower).
203 * May generate a SendShutdown message event on success, which should be relayed.
205 * [`ChannelConfig::force_close_avoidance_max_fee_satoshis`]: crate::util::config::ChannelConfig::force_close_avoidance_max_fee_satoshis
206 * [`Background`]: crate::chain::chaininterface::ConfirmationTarget::Background
207 * [`Normal`]: crate::chain::chaininterface::ConfirmationTarget::Normal
209 public Result_NoneAPIErrorZ close_channel_with_target_feerate(byte[] channel_id, int target_feerate_sats_per_1000_weight) {
210 long ret = bindings.ChannelManager_close_channel_with_target_feerate(this.ptr, channel_id, target_feerate_sats_per_1000_weight);
211 if (ret < 1024) { return null; }
212 Result_NoneAPIErrorZ ret_hu_conv = Result_NoneAPIErrorZ.constr_from_ptr(ret);
217 * Force closes a channel, immediately broadcasting the latest local commitment transaction to
218 * the chain and rejecting new HTLCs on the given channel. Fails if channel_id is unknown to the manager.
220 public Result_NoneAPIErrorZ force_close_channel(byte[] channel_id) {
221 long ret = bindings.ChannelManager_force_close_channel(this.ptr, channel_id);
222 if (ret < 1024) { return null; }
223 Result_NoneAPIErrorZ ret_hu_conv = Result_NoneAPIErrorZ.constr_from_ptr(ret);
228 * Force close all channels, immediately broadcasting the latest local commitment transaction
229 * for each to the chain and rejecting new HTLCs on each.
231 public void force_close_all_channels() {
232 bindings.ChannelManager_force_close_all_channels(this.ptr);
236 * Sends a payment along a given route.
238 * Value parameters are provided via the last hop in route, see documentation for RouteHop
239 * fields for more info.
241 * Note that if the payment_hash already exists elsewhere (eg you're sending a duplicative
242 * payment), we don't do anything to stop you! We always try to ensure that if the provided
243 * next hop knows the preimage to payment_hash they can claim an additional amount as
244 * specified in the last hop in the route! Thus, you should probably do your own
245 * payment_preimage tracking (which you should already be doing as they represent \"proof of
246 * payment\") and prevent double-sends yourself.
248 * May generate SendHTLCs message(s) event on success, which should be relayed.
250 * Each path may have a different return value, and PaymentSendValue may return a Vec with
251 * each entry matching the corresponding-index entry in the route paths, see
252 * PaymentSendFailure for more info.
254 * In general, a path may raise:
255 * APIError::RouteError when an invalid route or forwarding parameter (cltv_delta, fee,
256 * node public key) is specified.
257 * APIError::ChannelUnavailable if the next-hop channel is not available for updates
258 * (including due to previous monitor update failure or new permanent monitor update
260 * APIError::MonitorUpdateFailed if a new monitor update failure prevented sending the
263 * Note that depending on the type of the PaymentSendFailure the HTLC may have been
264 * irrevocably committed to on our end. In such a case, do NOT retry the payment with a
265 * different route unless you intend to pay twice!
267 * payment_secret is unrelated to payment_hash (or PaymentPreimage) and exists to authenticate
268 * the sender to the recipient and prevent payment-probing (deanonymization) attacks. For
269 * newer nodes, it will be provided to you in the invoice. If you do not have one, the Route
270 * must not contain multiple paths as multi-path payments require a recipient-provided
272 * If a payment_secret *is* provided, we assume that the invoice had the payment_secret feature
273 * bit set (either as required or as available). If multiple paths are present in the Route,
274 * we assume the invoice had the basic_mpp feature set.
276 * Note that payment_secret (or a relevant inner pointer) may be NULL or all-0s to represent None
278 public Result_NonePaymentSendFailureZ send_payment(Route route, byte[] payment_hash, @Nullable byte[] payment_secret) {
279 long ret = bindings.ChannelManager_send_payment(this.ptr, route == null ? 0 : route.ptr & ~1, payment_hash, payment_secret);
280 if (ret < 1024) { return null; }
281 Result_NonePaymentSendFailureZ ret_hu_conv = Result_NonePaymentSendFailureZ.constr_from_ptr(ret);
282 this.ptrs_to.add(route);
287 * Send a spontaneous payment, which is a payment that does not require the recipient to have
288 * generated an invoice. Optionally, you may specify the preimage. If you do choose to specify
289 * the preimage, it must be a cryptographically secure random value that no intermediate node
290 * would be able to guess -- otherwise, an intermediate node may claim the payment and it will
291 * never reach the recipient.
293 * See [`send_payment`] documentation for more details on the return value of this function.
295 * Similar to regular payments, you MUST NOT reuse a `payment_preimage` value. See
296 * [`send_payment`] for more information about the risks of duplicate preimage usage.
298 * Note that `route` must have exactly one path.
300 * [`send_payment`]: Self::send_payment
302 * Note that payment_preimage (or a relevant inner pointer) may be NULL or all-0s to represent None
304 public Result_PaymentHashPaymentSendFailureZ send_spontaneous_payment(Route route, @Nullable byte[] payment_preimage) {
305 long ret = bindings.ChannelManager_send_spontaneous_payment(this.ptr, route == null ? 0 : route.ptr & ~1, payment_preimage);
306 if (ret < 1024) { return null; }
307 Result_PaymentHashPaymentSendFailureZ ret_hu_conv = Result_PaymentHashPaymentSendFailureZ.constr_from_ptr(ret);
308 this.ptrs_to.add(route);
313 * Call this upon creation of a funding transaction for the given channel.
315 * Returns an [`APIError::APIMisuseError`] if the funding_transaction spent non-SegWit outputs
316 * or if no output was found which matches the parameters in [`Event::FundingGenerationReady`].
318 * Panics if a funding transaction has already been provided for this channel.
320 * May panic if the output found in the funding transaction is duplicative with some other
321 * channel (note that this should be trivially prevented by using unique funding transaction
324 * Do NOT broadcast the funding transaction yourself. When we have safely received our
325 * counterparty's signature the funding transaction will automatically be broadcast via the
326 * [`BroadcasterInterface`] provided when this `ChannelManager` was constructed.
328 * Note that this includes RBF or similar transaction replacement strategies - lightning does
329 * not currently support replacing a funding transaction on an existing channel. Instead,
330 * create a new channel with a conflicting funding transaction.
332 * [`Event::FundingGenerationReady`]: crate::util::events::Event::FundingGenerationReady
334 public Result_NoneAPIErrorZ funding_transaction_generated(byte[] temporary_channel_id, byte[] funding_transaction) {
335 long ret = bindings.ChannelManager_funding_transaction_generated(this.ptr, temporary_channel_id, funding_transaction);
336 if (ret < 1024) { return null; }
337 Result_NoneAPIErrorZ ret_hu_conv = Result_NoneAPIErrorZ.constr_from_ptr(ret);
342 * Regenerates channel_announcements and generates a signed node_announcement from the given
343 * arguments, providing them in corresponding events via
344 * [`get_and_clear_pending_msg_events`], if at least one public channel has been confirmed
345 * on-chain. This effectively re-broadcasts all channel announcements and sends our node
346 * announcement to ensure that the lightning P2P network is aware of the channels we have and
347 * our network addresses.
349 * `rgb` is a node \"color\" and `alias` is a printable human-readable string to describe this
350 * node to humans. They carry no in-protocol meaning.
352 * `addresses` represent the set (possibly empty) of socket addresses on which this node
353 * accepts incoming connections. These will be included in the node_announcement, publicly
354 * tying these addresses together and to this node. If you wish to preserve user privacy,
355 * addresses should likely contain only Tor Onion addresses.
357 * Panics if `addresses` is absurdly large (more than 500).
359 * [`get_and_clear_pending_msg_events`]: MessageSendEventsProvider::get_and_clear_pending_msg_events
361 public void broadcast_node_announcement(byte[] rgb, byte[] alias, NetAddress[] addresses) {
362 bindings.ChannelManager_broadcast_node_announcement(this.ptr, rgb, alias, addresses != null ? Arrays.stream(addresses).mapToLong(addresses_conv_12 -> addresses_conv_12.ptr).toArray() : null);
366 * Processes HTLCs which are pending waiting on random forward delay.
368 * Should only really ever be called in response to a PendingHTLCsForwardable event.
369 * Will likely generate further events.
371 public void process_pending_htlc_forwards() {
372 bindings.ChannelManager_process_pending_htlc_forwards(this.ptr);
376 * Performs actions which should happen on startup and roughly once per minute thereafter.
378 * This currently includes:
379 * Increasing or decreasing the on-chain feerate estimates for our outbound channels,
380 * Broadcasting `ChannelUpdate` messages if we've been disconnected from our peer for more
381 * than a minute, informing the network that they should no longer attempt to route over
384 * Note that this may cause reentrancy through `chain::Watch::update_channel` calls or feerate
387 public void timer_tick_occurred() {
388 bindings.ChannelManager_timer_tick_occurred(this.ptr);
392 * Indicates that the preimage for payment_hash is unknown or the received amount is incorrect
393 * after a PaymentReceived event, failing the HTLC back to its origin and freeing resources
394 * along the path (including in our own channel on which we received it).
395 * Returns false if no payment was found to fail backwards, true if the process of failing the
396 * HTLC backwards has been started.
398 public boolean fail_htlc_backwards(byte[] payment_hash) {
399 boolean ret = bindings.ChannelManager_fail_htlc_backwards(this.ptr, payment_hash);
404 * Provides a payment preimage in response to a PaymentReceived event, returning true and
405 * generating message events for the net layer to claim the payment, if possible. Thus, you
406 * should probably kick the net layer to go send messages if this returns true!
408 * Note that if you did not set an `amount_msat` when calling [`create_inbound_payment`] or
409 * [`create_inbound_payment_for_hash`] you must check that the amount in the `PaymentReceived`
410 * event matches your expectation. If you fail to do so and call this method, you may provide
411 * the sender \"proof-of-payment\" when they did not fulfill the full expected payment.
413 * May panic if called except in response to a PaymentReceived event.
415 * [`create_inbound_payment`]: Self::create_inbound_payment
416 * [`create_inbound_payment_for_hash`]: Self::create_inbound_payment_for_hash
418 public boolean claim_funds(byte[] payment_preimage) {
419 boolean ret = bindings.ChannelManager_claim_funds(this.ptr, payment_preimage);
424 * Gets the node_id held by this ChannelManager
426 public byte[] get_our_node_id() {
427 byte[] ret = bindings.ChannelManager_get_our_node_id(this.ptr);
432 * Restores a single, given channel to normal operation after a
433 * ChannelMonitorUpdateErr::TemporaryFailure was returned from a channel monitor update
436 * All ChannelMonitor updates up to and including highest_applied_update_id must have been
437 * fully committed in every copy of the given channels' ChannelMonitors.
439 * Note that there is no effect to calling with a highest_applied_update_id other than the
440 * current latest ChannelMonitorUpdate and one call to this function after multiple
441 * ChannelMonitorUpdateErr::TemporaryFailures is fine. The highest_applied_update_id field
442 * exists largely only to prevent races between this and concurrent update_monitor calls.
444 * Thus, the anticipated use is, at a high level:
445 * 1) You register a chain::Watch with this ChannelManager,
446 * 2) it stores each update to disk, and begins updating any remote (eg watchtower) copies of
447 * said ChannelMonitors as it can, returning ChannelMonitorUpdateErr::TemporaryFailures
448 * any time it cannot do so instantly,
449 * 3) update(s) are applied to each remote copy of a ChannelMonitor,
450 * 4) once all remote copies are updated, you call this function with the update_id that
451 * completed, and once it is the latest the Channel will be re-enabled.
453 public void channel_monitor_updated(OutPoint funding_txo, long highest_applied_update_id) {
454 bindings.ChannelManager_channel_monitor_updated(this.ptr, funding_txo == null ? 0 : funding_txo.ptr & ~1, highest_applied_update_id);
455 this.ptrs_to.add(funding_txo);
459 * Gets a payment secret and payment hash for use in an invoice given to a third party wishing
462 * This differs from [`create_inbound_payment_for_hash`] only in that it generates the
463 * [`PaymentHash`] and [`PaymentPreimage`] for you, returning the first and storing the second.
465 * The [`PaymentPreimage`] will ultimately be returned to you in the [`PaymentReceived`], which
466 * will have the [`PaymentReceived::payment_preimage`] field filled in. That should then be
467 * passed directly to [`claim_funds`].
469 * See [`create_inbound_payment_for_hash`] for detailed documentation on behavior and requirements.
471 * [`claim_funds`]: Self::claim_funds
472 * [`PaymentReceived`]: events::Event::PaymentReceived
473 * [`PaymentReceived::payment_preimage`]: events::Event::PaymentReceived::payment_preimage
474 * [`create_inbound_payment_for_hash`]: Self::create_inbound_payment_for_hash
476 public TwoTuple_PaymentHashPaymentSecretZ create_inbound_payment(Option_u64Z min_value_msat, int invoice_expiry_delta_secs, long user_payment_id) {
477 long ret = bindings.ChannelManager_create_inbound_payment(this.ptr, min_value_msat.ptr, invoice_expiry_delta_secs, user_payment_id);
478 if (ret < 1024) { return null; }
479 TwoTuple_PaymentHashPaymentSecretZ ret_hu_conv = new TwoTuple_PaymentHashPaymentSecretZ(null, ret);
480 ret_hu_conv.ptrs_to.add(this);
485 * Gets a [`PaymentSecret`] for a given [`PaymentHash`], for which the payment preimage is
486 * stored external to LDK.
488 * A [`PaymentReceived`] event will only be generated if the [`PaymentSecret`] matches a
489 * payment secret fetched via this method or [`create_inbound_payment`], and which is at least
490 * the `min_value_msat` provided here, if one is provided.
492 * The [`PaymentHash`] (and corresponding [`PaymentPreimage`]) must be globally unique. This
493 * method may return an Err if another payment with the same payment_hash is still pending.
495 * `user_payment_id` will be provided back in [`PaymentPurpose::InvoicePayment::user_payment_id`] events to
496 * allow tracking of which events correspond with which calls to this and
497 * [`create_inbound_payment`]. `user_payment_id` has no meaning inside of LDK, it is simply
498 * copied to events and otherwise ignored. It may be used to correlate PaymentReceived events
499 * with invoice metadata stored elsewhere.
501 * `min_value_msat` should be set if the invoice being generated contains a value. Any payment
502 * received for the returned [`PaymentHash`] will be required to be at least `min_value_msat`
503 * before a [`PaymentReceived`] event will be generated, ensuring that we do not provide the
504 * sender \"proof-of-payment\" unless they have paid the required amount.
506 * `invoice_expiry_delta_secs` describes the number of seconds that the invoice is valid for
507 * in excess of the current time. This should roughly match the expiry time set in the invoice.
508 * After this many seconds, we will remove the inbound payment, resulting in any attempts to
509 * pay the invoice failing. The BOLT spec suggests 3,600 secs as a default validity time for
510 * invoices when no timeout is set.
512 * Note that we use block header time to time-out pending inbound payments (with some margin
513 * to compensate for the inaccuracy of block header timestamps). Thus, in practice we will
514 * accept a payment and generate a [`PaymentReceived`] event for some time after the expiry.
515 * If you need exact expiry semantics, you should enforce them upon receipt of
516 * [`PaymentReceived`].
518 * Pending inbound payments are stored in memory and in serialized versions of this
519 * [`ChannelManager`]. If potentially unbounded numbers of inbound payments may exist and
520 * space is limited, you may wish to rate-limit inbound payment creation.
522 * May panic if `invoice_expiry_delta_secs` is greater than one year.
524 * Note that invoices generated for inbound payments should have their `min_final_cltv_expiry`
525 * set to at least [`MIN_FINAL_CLTV_EXPIRY`].
527 * [`create_inbound_payment`]: Self::create_inbound_payment
528 * [`PaymentReceived`]: events::Event::PaymentReceived
529 * [`PaymentPurpose::InvoicePayment::user_payment_id`]: events::PaymentPurpose::InvoicePayment::user_payment_id
531 public Result_PaymentSecretAPIErrorZ create_inbound_payment_for_hash(byte[] payment_hash, Option_u64Z min_value_msat, int invoice_expiry_delta_secs, long user_payment_id) {
532 long ret = bindings.ChannelManager_create_inbound_payment_for_hash(this.ptr, payment_hash, min_value_msat.ptr, invoice_expiry_delta_secs, user_payment_id);
533 if (ret < 1024) { return null; }
534 Result_PaymentSecretAPIErrorZ ret_hu_conv = Result_PaymentSecretAPIErrorZ.constr_from_ptr(ret);
539 * Constructs a new MessageSendEventsProvider which calls the relevant methods on this_arg.
540 * This copies the `inner` pointer in this_arg and thus the returned MessageSendEventsProvider must be freed before this_arg is
542 public MessageSendEventsProvider as_MessageSendEventsProvider() {
543 long ret = bindings.ChannelManager_as_MessageSendEventsProvider(this.ptr);
544 if (ret < 1024) { return null; }
545 MessageSendEventsProvider ret_hu_conv = new MessageSendEventsProvider(null, ret);
546 ret_hu_conv.ptrs_to.add(this);
551 * Constructs a new EventsProvider which calls the relevant methods on this_arg.
552 * This copies the `inner` pointer in this_arg and thus the returned EventsProvider must be freed before this_arg is
554 public EventsProvider as_EventsProvider() {
555 long ret = bindings.ChannelManager_as_EventsProvider(this.ptr);
556 if (ret < 1024) { return null; }
557 EventsProvider ret_hu_conv = new EventsProvider(null, ret);
558 ret_hu_conv.ptrs_to.add(this);
563 * Constructs a new Listen which calls the relevant methods on this_arg.
564 * This copies the `inner` pointer in this_arg and thus the returned Listen must be freed before this_arg is
566 public Listen as_Listen() {
567 long ret = bindings.ChannelManager_as_Listen(this.ptr);
568 if (ret < 1024) { return null; }
569 Listen ret_hu_conv = new Listen(null, ret);
570 ret_hu_conv.ptrs_to.add(this);
575 * Constructs a new Confirm which calls the relevant methods on this_arg.
576 * This copies the `inner` pointer in this_arg and thus the returned Confirm must be freed before this_arg is
578 public Confirm as_Confirm() {
579 long ret = bindings.ChannelManager_as_Confirm(this.ptr);
580 if (ret < 1024) { return null; }
581 Confirm ret_hu_conv = new Confirm(null, ret);
582 ret_hu_conv.ptrs_to.add(this);
587 * Blocks until ChannelManager needs to be persisted or a timeout is reached. It returns a bool
588 * indicating whether persistence is necessary. Only one listener on
589 * `await_persistable_update` or `await_persistable_update_timeout` is guaranteed to be woken
591 * Note that the feature `allow_wallclock_use` must be enabled to use this function.
593 public boolean await_persistable_update_timeout(long max_wait) {
594 boolean ret = bindings.ChannelManager_await_persistable_update_timeout(this.ptr, max_wait);
599 * Blocks until ChannelManager needs to be persisted. Only one listener on
600 * `await_persistable_update` or `await_persistable_update_timeout` is guaranteed to be woken
603 public void await_persistable_update() {
604 bindings.ChannelManager_await_persistable_update(this.ptr);
608 * Gets the latest best block which was connected either via the [`chain::Listen`] or
609 * [`chain::Confirm`] interfaces.
611 public BestBlock current_best_block() {
612 long ret = bindings.ChannelManager_current_best_block(this.ptr);
613 if (ret < 1024) { return null; }
614 BestBlock ret_hu_conv = new BestBlock(null, ret);
615 ret_hu_conv.ptrs_to.add(this);
620 * Constructs a new ChannelMessageHandler which calls the relevant methods on this_arg.
621 * This copies the `inner` pointer in this_arg and thus the returned ChannelMessageHandler must be freed before this_arg is
623 public ChannelMessageHandler as_ChannelMessageHandler() {
624 long ret = bindings.ChannelManager_as_ChannelMessageHandler(this.ptr);
625 if (ret < 1024) { return null; }
626 ChannelMessageHandler ret_hu_conv = new ChannelMessageHandler(null, ret);
627 ret_hu_conv.ptrs_to.add(this);
632 * Serialize the ChannelManager object into a byte array which can be read by ChannelManager_read
634 public byte[] write() {
635 byte[] ret = bindings.ChannelManager_write(this.ptr);