+class TaggedHash {
+private:
+ LDKTaggedHash self;
+public:
+ TaggedHash(const TaggedHash&) = delete;
+ TaggedHash(TaggedHash&& o) : self(o.self) { memset(&o, 0, sizeof(TaggedHash)); }
+ TaggedHash(LDKTaggedHash&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTaggedHash)); }
+ operator LDKTaggedHash() && { LDKTaggedHash res = self; memset(&self, 0, sizeof(LDKTaggedHash)); return res; }
+ ~TaggedHash() { TaggedHash_free(self); }
+ TaggedHash& operator=(TaggedHash&& o) { TaggedHash_free(self); self = o.self; memset(&o, 0, sizeof(TaggedHash)); return *this; }
+ LDKTaggedHash* operator &() { return &self; }
+ LDKTaggedHash* operator ->() { return &self; }
+ const LDKTaggedHash* operator &() const { return &self; }
+ const LDKTaggedHash* operator ->() const { return &self; }
+};
+class SignError {
+private:
+ LDKSignError self;
+public:
+ SignError(const SignError&) = delete;
+ SignError(SignError&& o) : self(o.self) { memset(&o, 0, sizeof(SignError)); }
+ SignError(LDKSignError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSignError)); }
+ operator LDKSignError() && { LDKSignError res = self; memset(&self, 0, sizeof(LDKSignError)); return res; }
+ ~SignError() { SignError_free(self); }
+ SignError& operator=(SignError&& o) { SignError_free(self); self = o.self; memset(&o, 0, sizeof(SignError)); return *this; }
+ LDKSignError* operator &() { return &self; }
+ LDKSignError* operator ->() { return &self; }
+ const LDKSignError* operator &() const { return &self; }
+ const LDKSignError* operator ->() const { return &self; }
+};
+class EcdsaChannelSigner {
+private:
+ LDKEcdsaChannelSigner self;
+public:
+ EcdsaChannelSigner(const EcdsaChannelSigner&) = delete;
+ EcdsaChannelSigner(EcdsaChannelSigner&& o) : self(o.self) { memset(&o, 0, sizeof(EcdsaChannelSigner)); }
+ EcdsaChannelSigner(LDKEcdsaChannelSigner&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEcdsaChannelSigner)); }
+ operator LDKEcdsaChannelSigner() && { LDKEcdsaChannelSigner res = self; memset(&self, 0, sizeof(LDKEcdsaChannelSigner)); return res; }
+ ~EcdsaChannelSigner() { EcdsaChannelSigner_free(self); }
+ EcdsaChannelSigner& operator=(EcdsaChannelSigner&& o) { EcdsaChannelSigner_free(self); self = o.self; memset(&o, 0, sizeof(EcdsaChannelSigner)); return *this; }
+ LDKEcdsaChannelSigner* operator &() { return &self; }
+ LDKEcdsaChannelSigner* operator ->() { return &self; }
+ const LDKEcdsaChannelSigner* operator &() const { return &self; }
+ const LDKEcdsaChannelSigner* operator ->() const { return &self; }
+ /**
+ * Create a signature for a counterparty's commitment transaction and associated HTLC transactions.
+ *
+ * Note that if signing fails or is rejected, the channel will be force-closed.
+ *
+ * Policy checks should be implemented in this function, including checking the amount
+ * sent to us and checking the HTLCs.
+ *
+ * The preimages of outbound and inbound HTLCs that were fulfilled since the last commitment
+ * are provided. A validating signer should ensure that an outbound HTLC output is removed
+ * only when the matching preimage is provided and after the corresponding inbound HTLC has
+ * been removed for forwarded payments.
+ *
+ * Note that all the relevant preimages will be provided, but there may also be additional
+ * irrelevant or duplicate preimages.
+ */
+ inline LDK::CResult_C2Tuple_ECDSASignatureCVec_ECDSASignatureZZNoneZ sign_counterparty_commitment(const struct LDKCommitmentTransaction *NONNULL_PTR commitment_tx, struct LDKCVec_ThirtyTwoBytesZ inbound_htlc_preimages, struct LDKCVec_ThirtyTwoBytesZ outbound_htlc_preimages);
+ /**
+ * Creates a signature for a holder's commitment transaction.
+ *
+ * This will be called
+ * - with a non-revoked `commitment_tx`.
+ * - with the latest `commitment_tx` when we initiate a force-close.
+ *
+ * This may be called multiple times for the same transaction.
+ *
+ * An external signer implementation should check that the commitment has not been revoked.
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_holder_commitment(const struct LDKHolderCommitmentTransaction *NONNULL_PTR commitment_tx);
+ /**
+ * Create a signature for the given input in a transaction spending an HTLC transaction output
+ * or a commitment transaction `to_local` output when our counterparty broadcasts an old state.
+ *
+ * A justice transaction may claim multiple outputs at the same time if timelocks are
+ * similar, but only a signature for the input at index `input` should be signed for here.
+ * It may be called multiple times for same output(s) if a fee-bump is needed with regards
+ * to an upcoming timelock expiration.
+ *
+ * Amount is value of the output spent by this input, committed to in the BIP 143 signature.
+ *
+ * `per_commitment_key` is revocation secret which was provided by our counterparty when they
+ * revoked the state which they eventually broadcast. It's not a _holder_ secret key and does
+ * not allow the spending of any funds by itself (you need our holder `revocation_secret` to do
+ * so).
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_justice_revoked_output(struct LDKTransaction justice_tx, uintptr_t input, uint64_t amount, const uint8_t (*per_commitment_key)[32]);
+ /**
+ * Create a signature for the given input in a transaction spending a commitment transaction
+ * HTLC output when our counterparty broadcasts an old state.
+ *
+ * A justice transaction may claim multiple outputs at the same time if timelocks are
+ * similar, but only a signature for the input at index `input` should be signed for here.
+ * It may be called multiple times for same output(s) if a fee-bump is needed with regards
+ * to an upcoming timelock expiration.
+ *
+ * `amount` is the value of the output spent by this input, committed to in the BIP 143
+ * signature.
+ *
+ * `per_commitment_key` is revocation secret which was provided by our counterparty when they
+ * revoked the state which they eventually broadcast. It's not a _holder_ secret key and does
+ * not allow the spending of any funds by itself (you need our holder revocation_secret to do
+ * so).
+ *
+ * `htlc` holds HTLC elements (hash, timelock), thus changing the format of the witness script
+ * (which is committed to in the BIP 143 signatures).
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_justice_revoked_htlc(struct LDKTransaction justice_tx, uintptr_t input, uint64_t amount, const uint8_t (*per_commitment_key)[32], const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc);
+ /**
+ * Computes the signature for a commitment transaction's HTLC output used as an input within
+ * `htlc_tx`, which spends the commitment transaction at index `input`. The signature returned
+ * must be be computed using [`EcdsaSighashType::All`].
+ *
+ * Note that this may be called for HTLCs in the penultimate commitment transaction if a
+ * [`ChannelMonitor`] [replica](https://github.com/lightningdevkit/rust-lightning/blob/main/GLOSSARY.md#monitor-replicas)
+ * broadcasts it before receiving the update for the latest commitment transaction.
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`EcdsaSighashType::All`]: bitcoin::sighash::EcdsaSighashType::All
+ * [`ChannelMonitor`]: crate::chain::channelmonitor::ChannelMonitor
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_holder_htlc_transaction(struct LDKTransaction htlc_tx, uintptr_t input, const struct LDKHTLCDescriptor *NONNULL_PTR htlc_descriptor);
+ /**
+ * Create a signature for a claiming transaction for a HTLC output on a counterparty's commitment
+ * transaction, either offered or received.
+ *
+ * Such a transaction may claim multiples offered outputs at same time if we know the
+ * preimage for each when we create it, but only the input at index `input` should be
+ * signed for here. It may be called multiple times for same output(s) if a fee-bump is
+ * needed with regards to an upcoming timelock expiration.
+ *
+ * `witness_script` is either an offered or received script as defined in BOLT3 for HTLC
+ * outputs.
+ *
+ * `amount` is value of the output spent by this input, committed to in the BIP 143 signature.
+ *
+ * `per_commitment_point` is the dynamic point corresponding to the channel state
+ * detected onchain. It has been generated by our counterparty and is used to derive
+ * channel state keys, which are then included in the witness script and committed to in the
+ * BIP 143 signature.
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_counterparty_htlc_transaction(struct LDKTransaction htlc_tx, uintptr_t input, uint64_t amount, struct LDKPublicKey per_commitment_point, const struct LDKHTLCOutputInCommitment *NONNULL_PTR htlc);
+ /**
+ * Create a signature for a (proposed) closing transaction.
+ *
+ * Note that, due to rounding, there may be one "missing" satoshi, and either party may have
+ * chosen to forgo their output as dust.
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_closing_transaction(const struct LDKClosingTransaction *NONNULL_PTR closing_tx);
+ /**
+ * Computes the signature for a commitment transaction's anchor output used as an
+ * input within `anchor_tx`, which spends the commitment transaction, at index `input`.
+ *
+ * An `Err` can be returned to signal that the signer is unavailable/cannot produce a valid
+ * signature and should be retried later. Once the signer is ready to provide a signature after
+ * previously returning an `Err`, [`ChannelMonitor::signer_unblocked`] must be called on its
+ * monitor.
+ *
+ * [`ChannelMonitor::signer_unblocked`]: crate::chain::channelmonitor::ChannelMonitor::signer_unblocked
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_holder_anchor_input(struct LDKTransaction anchor_tx, uintptr_t input);
+ /**
+ * Signs a channel announcement message with our funding key proving it comes from one of the
+ * channel participants.
+ *
+ * Channel announcements also require a signature from each node's network key. Our node
+ * signature is computed through [`NodeSigner::sign_gossip_message`].
+ *
+ * Note that if this fails or is rejected, the channel will not be publicly announced and
+ * our counterparty may (though likely will not) close the channel on us for violating the
+ * protocol.
+ *
+ * [`NodeSigner::sign_gossip_message`]: crate::sign::NodeSigner::sign_gossip_message
+ */
+ inline LDK::CResult_ECDSASignatureNoneZ sign_channel_announcement_with_funding_key(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR msg);
+};
+class WriteableEcdsaChannelSigner {
+private:
+ LDKWriteableEcdsaChannelSigner self;
+public:
+ WriteableEcdsaChannelSigner(const WriteableEcdsaChannelSigner&) = delete;
+ WriteableEcdsaChannelSigner(WriteableEcdsaChannelSigner&& o) : self(o.self) { memset(&o, 0, sizeof(WriteableEcdsaChannelSigner)); }
+ WriteableEcdsaChannelSigner(LDKWriteableEcdsaChannelSigner&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKWriteableEcdsaChannelSigner)); }
+ operator LDKWriteableEcdsaChannelSigner() && { LDKWriteableEcdsaChannelSigner res = self; memset(&self, 0, sizeof(LDKWriteableEcdsaChannelSigner)); return res; }
+ ~WriteableEcdsaChannelSigner() { WriteableEcdsaChannelSigner_free(self); }
+ WriteableEcdsaChannelSigner& operator=(WriteableEcdsaChannelSigner&& o) { WriteableEcdsaChannelSigner_free(self); self = o.self; memset(&o, 0, sizeof(WriteableEcdsaChannelSigner)); return *this; }
+ LDKWriteableEcdsaChannelSigner* operator &() { return &self; }
+ LDKWriteableEcdsaChannelSigner* operator ->() { return &self; }
+ const LDKWriteableEcdsaChannelSigner* operator &() const { return &self; }
+ const LDKWriteableEcdsaChannelSigner* operator ->() const { return &self; }
+};
+class ChannelMonitorUpdate {
+private:
+ LDKChannelMonitorUpdate self;
+public:
+ ChannelMonitorUpdate(const ChannelMonitorUpdate&) = delete;
+ ChannelMonitorUpdate(ChannelMonitorUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitorUpdate)); }
+ ChannelMonitorUpdate(LDKChannelMonitorUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitorUpdate)); }
+ operator LDKChannelMonitorUpdate() && { LDKChannelMonitorUpdate res = self; memset(&self, 0, sizeof(LDKChannelMonitorUpdate)); return res; }
+ ~ChannelMonitorUpdate() { ChannelMonitorUpdate_free(self); }
+ ChannelMonitorUpdate& operator=(ChannelMonitorUpdate&& o) { ChannelMonitorUpdate_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMonitorUpdate)); return *this; }
+ LDKChannelMonitorUpdate* operator &() { return &self; }
+ LDKChannelMonitorUpdate* operator ->() { return &self; }
+ const LDKChannelMonitorUpdate* operator &() const { return &self; }
+ const LDKChannelMonitorUpdate* operator ->() const { return &self; }
+};
+class MonitorEvent {
+private:
+ LDKMonitorEvent self;
+public:
+ MonitorEvent(const MonitorEvent&) = delete;
+ MonitorEvent(MonitorEvent&& o) : self(o.self) { memset(&o, 0, sizeof(MonitorEvent)); }
+ MonitorEvent(LDKMonitorEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMonitorEvent)); }
+ operator LDKMonitorEvent() && { LDKMonitorEvent res = self; memset(&self, 0, sizeof(LDKMonitorEvent)); return res; }
+ ~MonitorEvent() { MonitorEvent_free(self); }
+ MonitorEvent& operator=(MonitorEvent&& o) { MonitorEvent_free(self); self = o.self; memset(&o, 0, sizeof(MonitorEvent)); return *this; }
+ LDKMonitorEvent* operator &() { return &self; }
+ LDKMonitorEvent* operator ->() { return &self; }
+ const LDKMonitorEvent* operator &() const { return &self; }
+ const LDKMonitorEvent* operator ->() const { return &self; }
+};
+class HTLCUpdate {
+private:
+ LDKHTLCUpdate self;
+public:
+ HTLCUpdate(const HTLCUpdate&) = delete;
+ HTLCUpdate(HTLCUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCUpdate)); }
+ HTLCUpdate(LDKHTLCUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCUpdate)); }
+ operator LDKHTLCUpdate() && { LDKHTLCUpdate res = self; memset(&self, 0, sizeof(LDKHTLCUpdate)); return res; }
+ ~HTLCUpdate() { HTLCUpdate_free(self); }
+ HTLCUpdate& operator=(HTLCUpdate&& o) { HTLCUpdate_free(self); self = o.self; memset(&o, 0, sizeof(HTLCUpdate)); return *this; }
+ LDKHTLCUpdate* operator &() { return &self; }
+ LDKHTLCUpdate* operator ->() { return &self; }
+ const LDKHTLCUpdate* operator &() const { return &self; }
+ const LDKHTLCUpdate* operator ->() const { return &self; }
+};
+class Balance {
+private:
+ LDKBalance self;
+public:
+ Balance(const Balance&) = delete;
+ Balance(Balance&& o) : self(o.self) { memset(&o, 0, sizeof(Balance)); }
+ Balance(LDKBalance&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBalance)); }
+ operator LDKBalance() && { LDKBalance res = self; memset(&self, 0, sizeof(LDKBalance)); return res; }
+ ~Balance() { Balance_free(self); }
+ Balance& operator=(Balance&& o) { Balance_free(self); self = o.self; memset(&o, 0, sizeof(Balance)); return *this; }
+ LDKBalance* operator &() { return &self; }
+ LDKBalance* operator ->() { return &self; }
+ const LDKBalance* operator &() const { return &self; }
+ const LDKBalance* operator ->() const { return &self; }
+};
+class ChannelMonitor {
+private:
+ LDKChannelMonitor self;
+public:
+ ChannelMonitor(const ChannelMonitor&) = delete;
+ ChannelMonitor(ChannelMonitor&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitor)); }
+ ChannelMonitor(LDKChannelMonitor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitor)); }
+ operator LDKChannelMonitor() && { LDKChannelMonitor res = self; memset(&self, 0, sizeof(LDKChannelMonitor)); return res; }
+ ~ChannelMonitor() { ChannelMonitor_free(self); }
+ ChannelMonitor& operator=(ChannelMonitor&& o) { ChannelMonitor_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMonitor)); return *this; }
+ LDKChannelMonitor* operator &() { return &self; }
+ LDKChannelMonitor* operator ->() { return &self; }
+ const LDKChannelMonitor* operator &() const { return &self; }
+ const LDKChannelMonitor* operator ->() const { return &self; }
+};
+class ExpandedKey {
+private:
+ LDKExpandedKey self;
+public:
+ ExpandedKey(const ExpandedKey&) = delete;
+ ExpandedKey(ExpandedKey&& o) : self(o.self) { memset(&o, 0, sizeof(ExpandedKey)); }
+ ExpandedKey(LDKExpandedKey&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKExpandedKey)); }
+ operator LDKExpandedKey() && { LDKExpandedKey res = self; memset(&self, 0, sizeof(LDKExpandedKey)); return res; }
+ ~ExpandedKey() { ExpandedKey_free(self); }
+ ExpandedKey& operator=(ExpandedKey&& o) { ExpandedKey_free(self); self = o.self; memset(&o, 0, sizeof(ExpandedKey)); return *this; }
+ LDKExpandedKey* operator &() { return &self; }
+ LDKExpandedKey* operator ->() { return &self; }
+ const LDKExpandedKey* operator &() const { return &self; }
+ const LDKExpandedKey* operator ->() const { return &self; }
+};
+class CustomMessageHandler {
+private:
+ LDKCustomMessageHandler self;
+public:
+ CustomMessageHandler(const CustomMessageHandler&) = delete;
+ CustomMessageHandler(CustomMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(CustomMessageHandler)); }
+ CustomMessageHandler(LDKCustomMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCustomMessageHandler)); }
+ operator LDKCustomMessageHandler() && { LDKCustomMessageHandler res = self; memset(&self, 0, sizeof(LDKCustomMessageHandler)); return res; }
+ ~CustomMessageHandler() { CustomMessageHandler_free(self); }
+ CustomMessageHandler& operator=(CustomMessageHandler&& o) { CustomMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(CustomMessageHandler)); return *this; }
+ LDKCustomMessageHandler* operator &() { return &self; }
+ LDKCustomMessageHandler* operator ->() { return &self; }
+ const LDKCustomMessageHandler* operator &() const { return &self; }
+ const LDKCustomMessageHandler* operator ->() const { return &self; }
+ /**
+ * Handles the given message sent from `sender_node_id`, possibly producing messages for
+ * [`CustomMessageHandler::get_and_clear_pending_msg`] to return and thus for [`PeerManager`]
+ * to send.
+ */
+ inline LDK::CResult_NoneLightningErrorZ handle_custom_message(struct LDKType msg, struct LDKPublicKey sender_node_id);
+ /**
+ * Returns the list of pending messages that were generated by the handler, clearing the list
+ * in the process. Each message is paired with the node id of the intended recipient. If no
+ * connection to the node exists, then the message is simply not sent.
+ */
+ inline LDK::CVec_C2Tuple_PublicKeyTypeZZ get_and_clear_pending_msg();
+ /**
+ * Gets the node feature flags which this handler itself supports. All available handlers are
+ * queried similarly and their feature flags are OR'd together to form the [`NodeFeatures`]
+ * which are broadcasted in our [`NodeAnnouncement`] message.
+ *
+ * [`NodeAnnouncement`]: crate::ln::msgs::NodeAnnouncement
+ */
+ inline LDK::NodeFeatures provided_node_features();
+ /**
+ * Gets the init feature flags which should be sent to the given peer. All available handlers
+ * are queried similarly and their feature flags are OR'd together to form the [`InitFeatures`]
+ * which are sent in our [`Init`] message.
+ *
+ * [`Init`]: crate::ln::msgs::Init
+ */
+ inline LDK::InitFeatures provided_init_features(struct LDKPublicKey their_node_id);
+};
+class IgnoringMessageHandler {
+private:
+ LDKIgnoringMessageHandler self;
+public:
+ IgnoringMessageHandler(const IgnoringMessageHandler&) = delete;
+ IgnoringMessageHandler(IgnoringMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(IgnoringMessageHandler)); }
+ IgnoringMessageHandler(LDKIgnoringMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKIgnoringMessageHandler)); }
+ operator LDKIgnoringMessageHandler() && { LDKIgnoringMessageHandler res = self; memset(&self, 0, sizeof(LDKIgnoringMessageHandler)); return res; }
+ ~IgnoringMessageHandler() { IgnoringMessageHandler_free(self); }
+ IgnoringMessageHandler& operator=(IgnoringMessageHandler&& o) { IgnoringMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(IgnoringMessageHandler)); return *this; }
+ LDKIgnoringMessageHandler* operator &() { return &self; }
+ LDKIgnoringMessageHandler* operator ->() { return &self; }
+ const LDKIgnoringMessageHandler* operator &() const { return &self; }
+ const LDKIgnoringMessageHandler* operator ->() const { return &self; }
+};
+class ErroringMessageHandler {
+private:
+ LDKErroringMessageHandler self;
+public:
+ ErroringMessageHandler(const ErroringMessageHandler&) = delete;
+ ErroringMessageHandler(ErroringMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(ErroringMessageHandler)); }
+ ErroringMessageHandler(LDKErroringMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErroringMessageHandler)); }
+ operator LDKErroringMessageHandler() && { LDKErroringMessageHandler res = self; memset(&self, 0, sizeof(LDKErroringMessageHandler)); return res; }
+ ~ErroringMessageHandler() { ErroringMessageHandler_free(self); }
+ ErroringMessageHandler& operator=(ErroringMessageHandler&& o) { ErroringMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(ErroringMessageHandler)); return *this; }
+ LDKErroringMessageHandler* operator &() { return &self; }
+ LDKErroringMessageHandler* operator ->() { return &self; }
+ const LDKErroringMessageHandler* operator &() const { return &self; }
+ const LDKErroringMessageHandler* operator ->() const { return &self; }
+};
+class MessageHandler {
+private:
+ LDKMessageHandler self;
+public:
+ MessageHandler(const MessageHandler&) = delete;
+ MessageHandler(MessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(MessageHandler)); }
+ MessageHandler(LDKMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageHandler)); }
+ operator LDKMessageHandler() && { LDKMessageHandler res = self; memset(&self, 0, sizeof(LDKMessageHandler)); return res; }
+ ~MessageHandler() { MessageHandler_free(self); }
+ MessageHandler& operator=(MessageHandler&& o) { MessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(MessageHandler)); return *this; }
+ LDKMessageHandler* operator &() { return &self; }
+ LDKMessageHandler* operator ->() { return &self; }
+ const LDKMessageHandler* operator &() const { return &self; }
+ const LDKMessageHandler* operator ->() const { return &self; }
+};
+class SocketDescriptor {
+private:
+ LDKSocketDescriptor self;
+public:
+ SocketDescriptor(const SocketDescriptor&) = delete;
+ SocketDescriptor(SocketDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(SocketDescriptor)); }
+ SocketDescriptor(LDKSocketDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSocketDescriptor)); }
+ operator LDKSocketDescriptor() && { LDKSocketDescriptor res = self; memset(&self, 0, sizeof(LDKSocketDescriptor)); return res; }
+ ~SocketDescriptor() { SocketDescriptor_free(self); }
+ SocketDescriptor& operator=(SocketDescriptor&& o) { SocketDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(SocketDescriptor)); return *this; }
+ LDKSocketDescriptor* operator &() { return &self; }
+ LDKSocketDescriptor* operator ->() { return &self; }
+ const LDKSocketDescriptor* operator &() const { return &self; }
+ const LDKSocketDescriptor* operator ->() const { return &self; }
+ /**
+ * Attempts to send some data from the given slice to the peer.
+ *
+ * Returns the amount of data which was sent, possibly 0 if the socket has since disconnected.
+ * Note that in the disconnected case, [`PeerManager::socket_disconnected`] must still be
+ * called and further write attempts may occur until that time.
+ *
+ * If the returned size is smaller than `data.len()`, a
+ * [`PeerManager::write_buffer_space_avail`] call must be made the next time more data can be
+ * written. Additionally, until a `send_data` event completes fully, no further
+ * [`PeerManager::read_event`] calls should be made for the same peer! Because this is to
+ * prevent denial-of-service issues, you should not read or buffer any data from the socket
+ * until then.
+ *
+ * If a [`PeerManager::read_event`] call on this descriptor had previously returned true
+ * (indicating that read events should be paused to prevent DoS in the send buffer),
+ * `resume_read` may be set indicating that read events on this descriptor should resume. A
+ * `resume_read` of false carries no meaning, and should not cause any action.
+ */
+ inline uintptr_t send_data(struct LDKu8slice data, bool resume_read);
+ /**
+ * Disconnect the socket pointed to by this SocketDescriptor.
+ *
+ * You do *not* need to call [`PeerManager::socket_disconnected`] with this socket after this
+ * call (doing so is a noop).
+ */
+ inline void disconnect_socket();
+ /** Checks if two objects are equal given this object's this_arg pointer and another object. */
+ inline bool eq(const struct LDKSocketDescriptor *NONNULL_PTR other_arg);
+ /**
+ * Calculate a succinct non-cryptographic hash for an object given its this_arg pointer.
+ * This is used, for example, for inclusion of this object in a hash map.
+ */
+ inline uint64_t hash();
+};
+class PeerDetails {
+private:
+ LDKPeerDetails self;
+public:
+ PeerDetails(const PeerDetails&) = delete;
+ PeerDetails(PeerDetails&& o) : self(o.self) { memset(&o, 0, sizeof(PeerDetails)); }
+ PeerDetails(LDKPeerDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPeerDetails)); }
+ operator LDKPeerDetails() && { LDKPeerDetails res = self; memset(&self, 0, sizeof(LDKPeerDetails)); return res; }
+ ~PeerDetails() { PeerDetails_free(self); }
+ PeerDetails& operator=(PeerDetails&& o) { PeerDetails_free(self); self = o.self; memset(&o, 0, sizeof(PeerDetails)); return *this; }
+ LDKPeerDetails* operator &() { return &self; }
+ LDKPeerDetails* operator ->() { return &self; }
+ const LDKPeerDetails* operator &() const { return &self; }
+ const LDKPeerDetails* operator ->() const { return &self; }
+};
+class PeerHandleError {
+private:
+ LDKPeerHandleError self;
+public:
+ PeerHandleError(const PeerHandleError&) = delete;
+ PeerHandleError(PeerHandleError&& o) : self(o.self) { memset(&o, 0, sizeof(PeerHandleError)); }
+ PeerHandleError(LDKPeerHandleError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPeerHandleError)); }
+ operator LDKPeerHandleError() && { LDKPeerHandleError res = self; memset(&self, 0, sizeof(LDKPeerHandleError)); return res; }
+ ~PeerHandleError() { PeerHandleError_free(self); }
+ PeerHandleError& operator=(PeerHandleError&& o) { PeerHandleError_free(self); self = o.self; memset(&o, 0, sizeof(PeerHandleError)); return *this; }
+ LDKPeerHandleError* operator &() { return &self; }
+ LDKPeerHandleError* operator ->() { return &self; }
+ const LDKPeerHandleError* operator &() const { return &self; }
+ const LDKPeerHandleError* operator ->() const { return &self; }
+};
+class PeerManager {
+private:
+ LDKPeerManager self;
+public:
+ PeerManager(const PeerManager&) = delete;
+ PeerManager(PeerManager&& o) : self(o.self) { memset(&o, 0, sizeof(PeerManager)); }
+ PeerManager(LDKPeerManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPeerManager)); }
+ operator LDKPeerManager() && { LDKPeerManager res = self; memset(&self, 0, sizeof(LDKPeerManager)); return res; }
+ ~PeerManager() { PeerManager_free(self); }
+ PeerManager& operator=(PeerManager&& o) { PeerManager_free(self); self = o.self; memset(&o, 0, sizeof(PeerManager)); return *this; }
+ LDKPeerManager* operator &() { return &self; }
+ LDKPeerManager* operator ->() { return &self; }
+ const LDKPeerManager* operator &() const { return &self; }
+ const LDKPeerManager* operator ->() const { return &self; }
+};
+class GraphSyncError {
+private:
+ LDKGraphSyncError self;
+public:
+ GraphSyncError(const GraphSyncError&) = delete;
+ GraphSyncError(GraphSyncError&& o) : self(o.self) { memset(&o, 0, sizeof(GraphSyncError)); }
+ GraphSyncError(LDKGraphSyncError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKGraphSyncError)); }
+ operator LDKGraphSyncError() && { LDKGraphSyncError res = self; memset(&self, 0, sizeof(LDKGraphSyncError)); return res; }
+ ~GraphSyncError() { GraphSyncError_free(self); }
+ GraphSyncError& operator=(GraphSyncError&& o) { GraphSyncError_free(self); self = o.self; memset(&o, 0, sizeof(GraphSyncError)); return *this; }
+ LDKGraphSyncError* operator &() { return &self; }
+ LDKGraphSyncError* operator ->() { return &self; }
+ const LDKGraphSyncError* operator &() const { return &self; }
+ const LDKGraphSyncError* operator ->() const { return &self; }
+};
+class RapidGossipSync {
+private:
+ LDKRapidGossipSync self;
+public:
+ RapidGossipSync(const RapidGossipSync&) = delete;
+ RapidGossipSync(RapidGossipSync&& o) : self(o.self) { memset(&o, 0, sizeof(RapidGossipSync)); }
+ RapidGossipSync(LDKRapidGossipSync&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRapidGossipSync)); }
+ operator LDKRapidGossipSync() && { LDKRapidGossipSync res = self; memset(&self, 0, sizeof(LDKRapidGossipSync)); return res; }
+ ~RapidGossipSync() { RapidGossipSync_free(self); }
+ RapidGossipSync& operator=(RapidGossipSync&& o) { RapidGossipSync_free(self); self = o.self; memset(&o, 0, sizeof(RapidGossipSync)); return *this; }
+ LDKRapidGossipSync* operator &() { return &self; }
+ LDKRapidGossipSync* operator ->() { return &self; }
+ const LDKRapidGossipSync* operator &() const { return &self; }
+ const LDKRapidGossipSync* operator ->() const { return &self; }
+};
+class KVStore {
+private:
+ LDKKVStore self;
+public:
+ KVStore(const KVStore&) = delete;
+ KVStore(KVStore&& o) : self(o.self) { memset(&o, 0, sizeof(KVStore)); }
+ KVStore(LDKKVStore&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKKVStore)); }
+ operator LDKKVStore() && { LDKKVStore res = self; memset(&self, 0, sizeof(LDKKVStore)); return res; }
+ ~KVStore() { KVStore_free(self); }
+ KVStore& operator=(KVStore&& o) { KVStore_free(self); self = o.self; memset(&o, 0, sizeof(KVStore)); return *this; }
+ LDKKVStore* operator &() { return &self; }
+ LDKKVStore* operator ->() { return &self; }
+ const LDKKVStore* operator &() const { return &self; }
+ const LDKKVStore* operator ->() const { return &self; }
+ /**
+ * Returns the data stored for the given `primary_namespace`, `secondary_namespace`, and
+ * `key`.
+ *
+ * Returns an [`ErrorKind::NotFound`] if the given `key` could not be found in the given
+ * `primary_namespace` and `secondary_namespace`.
+ *
+ * [`ErrorKind::NotFound`]: io::ErrorKind::NotFound
+ */
+ inline LDK::CResult_CVec_u8ZIOErrorZ read(struct LDKStr primary_namespace, struct LDKStr secondary_namespace, struct LDKStr key);
+ /**
+ * Persists the given data under the given `key`.
+ *
+ * Will create the given `primary_namespace` and `secondary_namespace` if not already present
+ * in the store.
+ */
+ inline LDK::CResult_NoneIOErrorZ write(struct LDKStr primary_namespace, struct LDKStr secondary_namespace, struct LDKStr key, struct LDKu8slice buf);
+ /**
+ * Removes any data that had previously been persisted under the given `key`.
+ *
+ * If the `lazy` flag is set to `true`, the backend implementation might choose to lazily
+ * remove the given `key` at some point in time after the method returns, e.g., as part of an
+ * eventual batch deletion of multiple keys. As a consequence, subsequent calls to
+ * [`KVStore::list`] might include the removed key until the changes are actually persisted.
+ *
+ * Note that while setting the `lazy` flag reduces the I/O burden of multiple subsequent
+ * `remove` calls, it also influences the atomicity guarantees as lazy `remove`s could
+ * potentially get lost on crash after the method returns. Therefore, this flag should only be
+ * set for `remove` operations that can be safely replayed at a later time.
+ *
+ * Returns successfully if no data will be stored for the given `primary_namespace`,
+ * `secondary_namespace`, and `key`, independently of whether it was present before its
+ * invokation or not.
+ */
+ inline LDK::CResult_NoneIOErrorZ remove(struct LDKStr primary_namespace, struct LDKStr secondary_namespace, struct LDKStr key, bool lazy);
+ /**
+ * Returns a list of keys that are stored under the given `secondary_namespace` in
+ * `primary_namespace`.
+ *
+ * Returns the keys in arbitrary order, so users requiring a particular order need to sort the
+ * returned keys. Returns an empty list if `primary_namespace` or `secondary_namespace` is unknown.
+ */
+ inline LDK::CResult_CVec_StrZIOErrorZ list(struct LDKStr primary_namespace, struct LDKStr secondary_namespace);
+};
+class Persister {
+private:
+ LDKPersister self;
+public:
+ Persister(const Persister&) = delete;
+ Persister(Persister&& o) : self(o.self) { memset(&o, 0, sizeof(Persister)); }
+ Persister(LDKPersister&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPersister)); }
+ operator LDKPersister() && { LDKPersister res = self; memset(&self, 0, sizeof(LDKPersister)); return res; }
+ ~Persister() { Persister_free(self); }
+ Persister& operator=(Persister&& o) { Persister_free(self); self = o.self; memset(&o, 0, sizeof(Persister)); return *this; }
+ LDKPersister* operator &() { return &self; }
+ LDKPersister* operator ->() { return &self; }
+ const LDKPersister* operator &() const { return &self; }
+ const LDKPersister* operator ->() const { return &self; }
+ /**
+ * Persist the given ['ChannelManager'] to disk, returning an error if persistence failed.
+ *
+ * [`ChannelManager`]: crate::ln::channelmanager::ChannelManager
+ */
+ inline LDK::CResult_NoneIOErrorZ persist_manager(const struct LDKChannelManager *NONNULL_PTR channel_manager);
+ /**
+ * Persist the given [`NetworkGraph`] to disk, returning an error if persistence failed.
+ */
+ inline LDK::CResult_NoneIOErrorZ persist_graph(const struct LDKNetworkGraph *NONNULL_PTR network_graph);
+ /**
+ * Persist the given [`WriteableScore`] to disk, returning an error if persistence failed.
+ */
+ inline LDK::CResult_NoneIOErrorZ persist_scorer(const struct LDKWriteableScore *NONNULL_PTR scorer);
+};
+class MonitorUpdatingPersister {
+private:
+ LDKMonitorUpdatingPersister self;
+public:
+ MonitorUpdatingPersister(const MonitorUpdatingPersister&) = delete;
+ MonitorUpdatingPersister(MonitorUpdatingPersister&& o) : self(o.self) { memset(&o, 0, sizeof(MonitorUpdatingPersister)); }
+ MonitorUpdatingPersister(LDKMonitorUpdatingPersister&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMonitorUpdatingPersister)); }
+ operator LDKMonitorUpdatingPersister() && { LDKMonitorUpdatingPersister res = self; memset(&self, 0, sizeof(LDKMonitorUpdatingPersister)); return res; }
+ ~MonitorUpdatingPersister() { MonitorUpdatingPersister_free(self); }
+ MonitorUpdatingPersister& operator=(MonitorUpdatingPersister&& o) { MonitorUpdatingPersister_free(self); self = o.self; memset(&o, 0, sizeof(MonitorUpdatingPersister)); return *this; }
+ LDKMonitorUpdatingPersister* operator &() { return &self; }
+ LDKMonitorUpdatingPersister* operator ->() { return &self; }
+ const LDKMonitorUpdatingPersister* operator &() const { return &self; }
+ const LDKMonitorUpdatingPersister* operator ->() const { return &self; }
+};
+class InvoiceRequestWithExplicitPayerIdBuilder {
+private:
+ LDKInvoiceRequestWithExplicitPayerIdBuilder self;
+public:
+ InvoiceRequestWithExplicitPayerIdBuilder(const InvoiceRequestWithExplicitPayerIdBuilder&) = delete;
+ InvoiceRequestWithExplicitPayerIdBuilder(InvoiceRequestWithExplicitPayerIdBuilder&& o) : self(o.self) { memset(&o, 0, sizeof(InvoiceRequestWithExplicitPayerIdBuilder)); }
+ InvoiceRequestWithExplicitPayerIdBuilder(LDKInvoiceRequestWithExplicitPayerIdBuilder&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoiceRequestWithExplicitPayerIdBuilder)); }
+ operator LDKInvoiceRequestWithExplicitPayerIdBuilder() && { LDKInvoiceRequestWithExplicitPayerIdBuilder res = self; memset(&self, 0, sizeof(LDKInvoiceRequestWithExplicitPayerIdBuilder)); return res; }
+ ~InvoiceRequestWithExplicitPayerIdBuilder() { InvoiceRequestWithExplicitPayerIdBuilder_free(self); }
+ InvoiceRequestWithExplicitPayerIdBuilder& operator=(InvoiceRequestWithExplicitPayerIdBuilder&& o) { InvoiceRequestWithExplicitPayerIdBuilder_free(self); self = o.self; memset(&o, 0, sizeof(InvoiceRequestWithExplicitPayerIdBuilder)); return *this; }
+ LDKInvoiceRequestWithExplicitPayerIdBuilder* operator &() { return &self; }
+ LDKInvoiceRequestWithExplicitPayerIdBuilder* operator ->() { return &self; }
+ const LDKInvoiceRequestWithExplicitPayerIdBuilder* operator &() const { return &self; }
+ const LDKInvoiceRequestWithExplicitPayerIdBuilder* operator ->() const { return &self; }
+};
+class InvoiceRequestWithDerivedPayerIdBuilder {
+private:
+ LDKInvoiceRequestWithDerivedPayerIdBuilder self;
+public:
+ InvoiceRequestWithDerivedPayerIdBuilder(const InvoiceRequestWithDerivedPayerIdBuilder&) = delete;
+ InvoiceRequestWithDerivedPayerIdBuilder(InvoiceRequestWithDerivedPayerIdBuilder&& o) : self(o.self) { memset(&o, 0, sizeof(InvoiceRequestWithDerivedPayerIdBuilder)); }
+ InvoiceRequestWithDerivedPayerIdBuilder(LDKInvoiceRequestWithDerivedPayerIdBuilder&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoiceRequestWithDerivedPayerIdBuilder)); }
+ operator LDKInvoiceRequestWithDerivedPayerIdBuilder() && { LDKInvoiceRequestWithDerivedPayerIdBuilder res = self; memset(&self, 0, sizeof(LDKInvoiceRequestWithDerivedPayerIdBuilder)); return res; }
+ ~InvoiceRequestWithDerivedPayerIdBuilder() { InvoiceRequestWithDerivedPayerIdBuilder_free(self); }
+ InvoiceRequestWithDerivedPayerIdBuilder& operator=(InvoiceRequestWithDerivedPayerIdBuilder&& o) { InvoiceRequestWithDerivedPayerIdBuilder_free(self); self = o.self; memset(&o, 0, sizeof(InvoiceRequestWithDerivedPayerIdBuilder)); return *this; }
+ LDKInvoiceRequestWithDerivedPayerIdBuilder* operator &() { return &self; }
+ LDKInvoiceRequestWithDerivedPayerIdBuilder* operator ->() { return &self; }
+ const LDKInvoiceRequestWithDerivedPayerIdBuilder* operator &() const { return &self; }
+ const LDKInvoiceRequestWithDerivedPayerIdBuilder* operator ->() const { return &self; }
+};
+class UnsignedInvoiceRequest {
+private:
+ LDKUnsignedInvoiceRequest self;
+public:
+ UnsignedInvoiceRequest(const UnsignedInvoiceRequest&) = delete;
+ UnsignedInvoiceRequest(UnsignedInvoiceRequest&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedInvoiceRequest)); }
+ UnsignedInvoiceRequest(LDKUnsignedInvoiceRequest&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedInvoiceRequest)); }
+ operator LDKUnsignedInvoiceRequest() && { LDKUnsignedInvoiceRequest res = self; memset(&self, 0, sizeof(LDKUnsignedInvoiceRequest)); return res; }
+ ~UnsignedInvoiceRequest() { UnsignedInvoiceRequest_free(self); }
+ UnsignedInvoiceRequest& operator=(UnsignedInvoiceRequest&& o) { UnsignedInvoiceRequest_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedInvoiceRequest)); return *this; }
+ LDKUnsignedInvoiceRequest* operator &() { return &self; }
+ LDKUnsignedInvoiceRequest* operator ->() { return &self; }
+ const LDKUnsignedInvoiceRequest* operator &() const { return &self; }
+ const LDKUnsignedInvoiceRequest* operator ->() const { return &self; }
+};
+class SignInvoiceRequestFn {
+private:
+ LDKSignInvoiceRequestFn self;
+public:
+ SignInvoiceRequestFn(const SignInvoiceRequestFn&) = delete;
+ SignInvoiceRequestFn(SignInvoiceRequestFn&& o) : self(o.self) { memset(&o, 0, sizeof(SignInvoiceRequestFn)); }
+ SignInvoiceRequestFn(LDKSignInvoiceRequestFn&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSignInvoiceRequestFn)); }
+ operator LDKSignInvoiceRequestFn() && { LDKSignInvoiceRequestFn res = self; memset(&self, 0, sizeof(LDKSignInvoiceRequestFn)); return res; }
+ ~SignInvoiceRequestFn() { SignInvoiceRequestFn_free(self); }
+ SignInvoiceRequestFn& operator=(SignInvoiceRequestFn&& o) { SignInvoiceRequestFn_free(self); self = o.self; memset(&o, 0, sizeof(SignInvoiceRequestFn)); return *this; }
+ LDKSignInvoiceRequestFn* operator &() { return &self; }
+ LDKSignInvoiceRequestFn* operator ->() { return &self; }
+ const LDKSignInvoiceRequestFn* operator &() const { return &self; }
+ const LDKSignInvoiceRequestFn* operator ->() const { return &self; }
+ /**
+ * Signs a [`TaggedHash`] computed over the merkle root of `message`'s TLV stream.
+ */
+ inline LDK::CResult_SchnorrSignatureNoneZ sign_invoice_request(const struct LDKUnsignedInvoiceRequest *NONNULL_PTR message);
+};
+class InvoiceRequest {
+private:
+ LDKInvoiceRequest self;
+public:
+ InvoiceRequest(const InvoiceRequest&) = delete;
+ InvoiceRequest(InvoiceRequest&& o) : self(o.self) { memset(&o, 0, sizeof(InvoiceRequest)); }
+ InvoiceRequest(LDKInvoiceRequest&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoiceRequest)); }
+ operator LDKInvoiceRequest() && { LDKInvoiceRequest res = self; memset(&self, 0, sizeof(LDKInvoiceRequest)); return res; }
+ ~InvoiceRequest() { InvoiceRequest_free(self); }
+ InvoiceRequest& operator=(InvoiceRequest&& o) { InvoiceRequest_free(self); self = o.self; memset(&o, 0, sizeof(InvoiceRequest)); return *this; }
+ LDKInvoiceRequest* operator &() { return &self; }
+ LDKInvoiceRequest* operator ->() { return &self; }
+ const LDKInvoiceRequest* operator &() const { return &self; }
+ const LDKInvoiceRequest* operator ->() const { return &self; }
+};
+class VerifiedInvoiceRequest {
+private:
+ LDKVerifiedInvoiceRequest self;
+public:
+ VerifiedInvoiceRequest(const VerifiedInvoiceRequest&) = delete;
+ VerifiedInvoiceRequest(VerifiedInvoiceRequest&& o) : self(o.self) { memset(&o, 0, sizeof(VerifiedInvoiceRequest)); }
+ VerifiedInvoiceRequest(LDKVerifiedInvoiceRequest&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKVerifiedInvoiceRequest)); }
+ operator LDKVerifiedInvoiceRequest() && { LDKVerifiedInvoiceRequest res = self; memset(&self, 0, sizeof(LDKVerifiedInvoiceRequest)); return res; }
+ ~VerifiedInvoiceRequest() { VerifiedInvoiceRequest_free(self); }
+ VerifiedInvoiceRequest& operator=(VerifiedInvoiceRequest&& o) { VerifiedInvoiceRequest_free(self); self = o.self; memset(&o, 0, sizeof(VerifiedInvoiceRequest)); return *this; }
+ LDKVerifiedInvoiceRequest* operator &() { return &self; }
+ LDKVerifiedInvoiceRequest* operator ->() { return &self; }
+ const LDKVerifiedInvoiceRequest* operator &() const { return &self; }
+ const LDKVerifiedInvoiceRequest* operator ->() const { return &self; }
+};
+class InvoiceRequestFields {
+private:
+ LDKInvoiceRequestFields self;
+public:
+ InvoiceRequestFields(const InvoiceRequestFields&) = delete;
+ InvoiceRequestFields(InvoiceRequestFields&& o) : self(o.self) { memset(&o, 0, sizeof(InvoiceRequestFields)); }
+ InvoiceRequestFields(LDKInvoiceRequestFields&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoiceRequestFields)); }
+ operator LDKInvoiceRequestFields() && { LDKInvoiceRequestFields res = self; memset(&self, 0, sizeof(LDKInvoiceRequestFields)); return res; }
+ ~InvoiceRequestFields() { InvoiceRequestFields_free(self); }
+ InvoiceRequestFields& operator=(InvoiceRequestFields&& o) { InvoiceRequestFields_free(self); self = o.self; memset(&o, 0, sizeof(InvoiceRequestFields)); return *this; }
+ LDKInvoiceRequestFields* operator &() { return &self; }
+ LDKInvoiceRequestFields* operator ->() { return &self; }
+ const LDKInvoiceRequestFields* operator &() const { return &self; }
+ const LDKInvoiceRequestFields* operator ->() const { return &self; }
+};
+class DecodeError {
+private:
+ LDKDecodeError self;
+public:
+ DecodeError(const DecodeError&) = delete;
+ DecodeError(DecodeError&& o) : self(o.self) { memset(&o, 0, sizeof(DecodeError)); }
+ DecodeError(LDKDecodeError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDecodeError)); }
+ operator LDKDecodeError() && { LDKDecodeError res = self; memset(&self, 0, sizeof(LDKDecodeError)); return res; }
+ ~DecodeError() { DecodeError_free(self); }
+ DecodeError& operator=(DecodeError&& o) { DecodeError_free(self); self = o.self; memset(&o, 0, sizeof(DecodeError)); return *this; }
+ LDKDecodeError* operator &() { return &self; }
+ LDKDecodeError* operator ->() { return &self; }
+ const LDKDecodeError* operator &() const { return &self; }
+ const LDKDecodeError* operator ->() const { return &self; }
+};
+class Init {
+private:
+ LDKInit self;
+public:
+ Init(const Init&) = delete;
+ Init(Init&& o) : self(o.self) { memset(&o, 0, sizeof(Init)); }
+ Init(LDKInit&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInit)); }
+ operator LDKInit() && { LDKInit res = self; memset(&self, 0, sizeof(LDKInit)); return res; }
+ ~Init() { Init_free(self); }
+ Init& operator=(Init&& o) { Init_free(self); self = o.self; memset(&o, 0, sizeof(Init)); return *this; }
+ LDKInit* operator &() { return &self; }
+ LDKInit* operator ->() { return &self; }
+ const LDKInit* operator &() const { return &self; }
+ const LDKInit* operator ->() const { return &self; }
+};
+class ErrorMessage {
+private:
+ LDKErrorMessage self;
+public:
+ ErrorMessage(const ErrorMessage&) = delete;
+ ErrorMessage(ErrorMessage&& o) : self(o.self) { memset(&o, 0, sizeof(ErrorMessage)); }
+ ErrorMessage(LDKErrorMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErrorMessage)); }
+ operator LDKErrorMessage() && { LDKErrorMessage res = self; memset(&self, 0, sizeof(LDKErrorMessage)); return res; }
+ ~ErrorMessage() { ErrorMessage_free(self); }
+ ErrorMessage& operator=(ErrorMessage&& o) { ErrorMessage_free(self); self = o.self; memset(&o, 0, sizeof(ErrorMessage)); return *this; }
+ LDKErrorMessage* operator &() { return &self; }
+ LDKErrorMessage* operator ->() { return &self; }
+ const LDKErrorMessage* operator &() const { return &self; }
+ const LDKErrorMessage* operator ->() const { return &self; }
+};
+class WarningMessage {
+private:
+ LDKWarningMessage self;
+public:
+ WarningMessage(const WarningMessage&) = delete;
+ WarningMessage(WarningMessage&& o) : self(o.self) { memset(&o, 0, sizeof(WarningMessage)); }
+ WarningMessage(LDKWarningMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKWarningMessage)); }
+ operator LDKWarningMessage() && { LDKWarningMessage res = self; memset(&self, 0, sizeof(LDKWarningMessage)); return res; }
+ ~WarningMessage() { WarningMessage_free(self); }
+ WarningMessage& operator=(WarningMessage&& o) { WarningMessage_free(self); self = o.self; memset(&o, 0, sizeof(WarningMessage)); return *this; }
+ LDKWarningMessage* operator &() { return &self; }
+ LDKWarningMessage* operator ->() { return &self; }
+ const LDKWarningMessage* operator &() const { return &self; }
+ const LDKWarningMessage* operator ->() const { return &self; }
+};
+class Ping {
+private:
+ LDKPing self;
+public:
+ Ping(const Ping&) = delete;
+ Ping(Ping&& o) : self(o.self) { memset(&o, 0, sizeof(Ping)); }
+ Ping(LDKPing&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPing)); }
+ operator LDKPing() && { LDKPing res = self; memset(&self, 0, sizeof(LDKPing)); return res; }
+ ~Ping() { Ping_free(self); }
+ Ping& operator=(Ping&& o) { Ping_free(self); self = o.self; memset(&o, 0, sizeof(Ping)); return *this; }
+ LDKPing* operator &() { return &self; }
+ LDKPing* operator ->() { return &self; }
+ const LDKPing* operator &() const { return &self; }
+ const LDKPing* operator ->() const { return &self; }
+};
+class Pong {
+private:
+ LDKPong self;
+public:
+ Pong(const Pong&) = delete;
+ Pong(Pong&& o) : self(o.self) { memset(&o, 0, sizeof(Pong)); }
+ Pong(LDKPong&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPong)); }
+ operator LDKPong() && { LDKPong res = self; memset(&self, 0, sizeof(LDKPong)); return res; }
+ ~Pong() { Pong_free(self); }
+ Pong& operator=(Pong&& o) { Pong_free(self); self = o.self; memset(&o, 0, sizeof(Pong)); return *this; }
+ LDKPong* operator &() { return &self; }
+ LDKPong* operator ->() { return &self; }
+ const LDKPong* operator &() const { return &self; }
+ const LDKPong* operator ->() const { return &self; }
+};
+class CommonOpenChannelFields {
+private:
+ LDKCommonOpenChannelFields self;
+public:
+ CommonOpenChannelFields(const CommonOpenChannelFields&) = delete;
+ CommonOpenChannelFields(CommonOpenChannelFields&& o) : self(o.self) { memset(&o, 0, sizeof(CommonOpenChannelFields)); }
+ CommonOpenChannelFields(LDKCommonOpenChannelFields&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommonOpenChannelFields)); }
+ operator LDKCommonOpenChannelFields() && { LDKCommonOpenChannelFields res = self; memset(&self, 0, sizeof(LDKCommonOpenChannelFields)); return res; }
+ ~CommonOpenChannelFields() { CommonOpenChannelFields_free(self); }
+ CommonOpenChannelFields& operator=(CommonOpenChannelFields&& o) { CommonOpenChannelFields_free(self); self = o.self; memset(&o, 0, sizeof(CommonOpenChannelFields)); return *this; }
+ LDKCommonOpenChannelFields* operator &() { return &self; }
+ LDKCommonOpenChannelFields* operator ->() { return &self; }
+ const LDKCommonOpenChannelFields* operator &() const { return &self; }
+ const LDKCommonOpenChannelFields* operator ->() const { return &self; }
+};
+class OpenChannel {
+private:
+ LDKOpenChannel self;
+public:
+ OpenChannel(const OpenChannel&) = delete;
+ OpenChannel(OpenChannel&& o) : self(o.self) { memset(&o, 0, sizeof(OpenChannel)); }
+ OpenChannel(LDKOpenChannel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOpenChannel)); }
+ operator LDKOpenChannel() && { LDKOpenChannel res = self; memset(&self, 0, sizeof(LDKOpenChannel)); return res; }
+ ~OpenChannel() { OpenChannel_free(self); }
+ OpenChannel& operator=(OpenChannel&& o) { OpenChannel_free(self); self = o.self; memset(&o, 0, sizeof(OpenChannel)); return *this; }
+ LDKOpenChannel* operator &() { return &self; }
+ LDKOpenChannel* operator ->() { return &self; }
+ const LDKOpenChannel* operator &() const { return &self; }
+ const LDKOpenChannel* operator ->() const { return &self; }
+};
+class OpenChannelV2 {
+private:
+ LDKOpenChannelV2 self;
+public:
+ OpenChannelV2(const OpenChannelV2&) = delete;
+ OpenChannelV2(OpenChannelV2&& o) : self(o.self) { memset(&o, 0, sizeof(OpenChannelV2)); }
+ OpenChannelV2(LDKOpenChannelV2&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOpenChannelV2)); }
+ operator LDKOpenChannelV2() && { LDKOpenChannelV2 res = self; memset(&self, 0, sizeof(LDKOpenChannelV2)); return res; }
+ ~OpenChannelV2() { OpenChannelV2_free(self); }
+ OpenChannelV2& operator=(OpenChannelV2&& o) { OpenChannelV2_free(self); self = o.self; memset(&o, 0, sizeof(OpenChannelV2)); return *this; }
+ LDKOpenChannelV2* operator &() { return &self; }
+ LDKOpenChannelV2* operator ->() { return &self; }
+ const LDKOpenChannelV2* operator &() const { return &self; }
+ const LDKOpenChannelV2* operator ->() const { return &self; }
+};
+class CommonAcceptChannelFields {
+private:
+ LDKCommonAcceptChannelFields self;
+public:
+ CommonAcceptChannelFields(const CommonAcceptChannelFields&) = delete;
+ CommonAcceptChannelFields(CommonAcceptChannelFields&& o) : self(o.self) { memset(&o, 0, sizeof(CommonAcceptChannelFields)); }
+ CommonAcceptChannelFields(LDKCommonAcceptChannelFields&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommonAcceptChannelFields)); }
+ operator LDKCommonAcceptChannelFields() && { LDKCommonAcceptChannelFields res = self; memset(&self, 0, sizeof(LDKCommonAcceptChannelFields)); return res; }
+ ~CommonAcceptChannelFields() { CommonAcceptChannelFields_free(self); }
+ CommonAcceptChannelFields& operator=(CommonAcceptChannelFields&& o) { CommonAcceptChannelFields_free(self); self = o.self; memset(&o, 0, sizeof(CommonAcceptChannelFields)); return *this; }
+ LDKCommonAcceptChannelFields* operator &() { return &self; }
+ LDKCommonAcceptChannelFields* operator ->() { return &self; }
+ const LDKCommonAcceptChannelFields* operator &() const { return &self; }
+ const LDKCommonAcceptChannelFields* operator ->() const { return &self; }
+};
+class AcceptChannel {
+private:
+ LDKAcceptChannel self;
+public:
+ AcceptChannel(const AcceptChannel&) = delete;
+ AcceptChannel(AcceptChannel&& o) : self(o.self) { memset(&o, 0, sizeof(AcceptChannel)); }
+ AcceptChannel(LDKAcceptChannel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAcceptChannel)); }
+ operator LDKAcceptChannel() && { LDKAcceptChannel res = self; memset(&self, 0, sizeof(LDKAcceptChannel)); return res; }
+ ~AcceptChannel() { AcceptChannel_free(self); }
+ AcceptChannel& operator=(AcceptChannel&& o) { AcceptChannel_free(self); self = o.self; memset(&o, 0, sizeof(AcceptChannel)); return *this; }
+ LDKAcceptChannel* operator &() { return &self; }
+ LDKAcceptChannel* operator ->() { return &self; }
+ const LDKAcceptChannel* operator &() const { return &self; }
+ const LDKAcceptChannel* operator ->() const { return &self; }
+};
+class AcceptChannelV2 {
+private:
+ LDKAcceptChannelV2 self;
+public:
+ AcceptChannelV2(const AcceptChannelV2&) = delete;
+ AcceptChannelV2(AcceptChannelV2&& o) : self(o.self) { memset(&o, 0, sizeof(AcceptChannelV2)); }
+ AcceptChannelV2(LDKAcceptChannelV2&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAcceptChannelV2)); }
+ operator LDKAcceptChannelV2() && { LDKAcceptChannelV2 res = self; memset(&self, 0, sizeof(LDKAcceptChannelV2)); return res; }
+ ~AcceptChannelV2() { AcceptChannelV2_free(self); }
+ AcceptChannelV2& operator=(AcceptChannelV2&& o) { AcceptChannelV2_free(self); self = o.self; memset(&o, 0, sizeof(AcceptChannelV2)); return *this; }
+ LDKAcceptChannelV2* operator &() { return &self; }
+ LDKAcceptChannelV2* operator ->() { return &self; }
+ const LDKAcceptChannelV2* operator &() const { return &self; }
+ const LDKAcceptChannelV2* operator ->() const { return &self; }
+};
+class FundingCreated {
+private:
+ LDKFundingCreated self;
+public:
+ FundingCreated(const FundingCreated&) = delete;
+ FundingCreated(FundingCreated&& o) : self(o.self) { memset(&o, 0, sizeof(FundingCreated)); }
+ FundingCreated(LDKFundingCreated&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFundingCreated)); }
+ operator LDKFundingCreated() && { LDKFundingCreated res = self; memset(&self, 0, sizeof(LDKFundingCreated)); return res; }
+ ~FundingCreated() { FundingCreated_free(self); }
+ FundingCreated& operator=(FundingCreated&& o) { FundingCreated_free(self); self = o.self; memset(&o, 0, sizeof(FundingCreated)); return *this; }
+ LDKFundingCreated* operator &() { return &self; }
+ LDKFundingCreated* operator ->() { return &self; }
+ const LDKFundingCreated* operator &() const { return &self; }
+ const LDKFundingCreated* operator ->() const { return &self; }
+};
+class FundingSigned {
+private:
+ LDKFundingSigned self;
+public:
+ FundingSigned(const FundingSigned&) = delete;
+ FundingSigned(FundingSigned&& o) : self(o.self) { memset(&o, 0, sizeof(FundingSigned)); }
+ FundingSigned(LDKFundingSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFundingSigned)); }
+ operator LDKFundingSigned() && { LDKFundingSigned res = self; memset(&self, 0, sizeof(LDKFundingSigned)); return res; }
+ ~FundingSigned() { FundingSigned_free(self); }
+ FundingSigned& operator=(FundingSigned&& o) { FundingSigned_free(self); self = o.self; memset(&o, 0, sizeof(FundingSigned)); return *this; }
+ LDKFundingSigned* operator &() { return &self; }
+ LDKFundingSigned* operator ->() { return &self; }
+ const LDKFundingSigned* operator &() const { return &self; }
+ const LDKFundingSigned* operator ->() const { return &self; }
+};
+class ChannelReady {
+private:
+ LDKChannelReady self;
+public:
+ ChannelReady(const ChannelReady&) = delete;
+ ChannelReady(ChannelReady&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelReady)); }
+ ChannelReady(LDKChannelReady&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelReady)); }
+ operator LDKChannelReady() && { LDKChannelReady res = self; memset(&self, 0, sizeof(LDKChannelReady)); return res; }
+ ~ChannelReady() { ChannelReady_free(self); }
+ ChannelReady& operator=(ChannelReady&& o) { ChannelReady_free(self); self = o.self; memset(&o, 0, sizeof(ChannelReady)); return *this; }
+ LDKChannelReady* operator &() { return &self; }
+ LDKChannelReady* operator ->() { return &self; }
+ const LDKChannelReady* operator &() const { return &self; }
+ const LDKChannelReady* operator ->() const { return &self; }
+};
+class Stfu {
+private:
+ LDKStfu self;
+public:
+ Stfu(const Stfu&) = delete;
+ Stfu(Stfu&& o) : self(o.self) { memset(&o, 0, sizeof(Stfu)); }
+ Stfu(LDKStfu&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKStfu)); }
+ operator LDKStfu() && { LDKStfu res = self; memset(&self, 0, sizeof(LDKStfu)); return res; }
+ ~Stfu() { Stfu_free(self); }
+ Stfu& operator=(Stfu&& o) { Stfu_free(self); self = o.self; memset(&o, 0, sizeof(Stfu)); return *this; }
+ LDKStfu* operator &() { return &self; }
+ LDKStfu* operator ->() { return &self; }
+ const LDKStfu* operator &() const { return &self; }
+ const LDKStfu* operator ->() const { return &self; }
+};
+class Splice {
+private:
+ LDKSplice self;
+public:
+ Splice(const Splice&) = delete;
+ Splice(Splice&& o) : self(o.self) { memset(&o, 0, sizeof(Splice)); }
+ Splice(LDKSplice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSplice)); }
+ operator LDKSplice() && { LDKSplice res = self; memset(&self, 0, sizeof(LDKSplice)); return res; }
+ ~Splice() { Splice_free(self); }
+ Splice& operator=(Splice&& o) { Splice_free(self); self = o.self; memset(&o, 0, sizeof(Splice)); return *this; }
+ LDKSplice* operator &() { return &self; }
+ LDKSplice* operator ->() { return &self; }
+ const LDKSplice* operator &() const { return &self; }
+ const LDKSplice* operator ->() const { return &self; }
+};
+class SpliceAck {
+private:
+ LDKSpliceAck self;
+public:
+ SpliceAck(const SpliceAck&) = delete;
+ SpliceAck(SpliceAck&& o) : self(o.self) { memset(&o, 0, sizeof(SpliceAck)); }
+ SpliceAck(LDKSpliceAck&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSpliceAck)); }
+ operator LDKSpliceAck() && { LDKSpliceAck res = self; memset(&self, 0, sizeof(LDKSpliceAck)); return res; }
+ ~SpliceAck() { SpliceAck_free(self); }
+ SpliceAck& operator=(SpliceAck&& o) { SpliceAck_free(self); self = o.self; memset(&o, 0, sizeof(SpliceAck)); return *this; }
+ LDKSpliceAck* operator &() { return &self; }
+ LDKSpliceAck* operator ->() { return &self; }
+ const LDKSpliceAck* operator &() const { return &self; }
+ const LDKSpliceAck* operator ->() const { return &self; }
+};
+class SpliceLocked {
+private:
+ LDKSpliceLocked self;
+public:
+ SpliceLocked(const SpliceLocked&) = delete;
+ SpliceLocked(SpliceLocked&& o) : self(o.self) { memset(&o, 0, sizeof(SpliceLocked)); }
+ SpliceLocked(LDKSpliceLocked&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSpliceLocked)); }
+ operator LDKSpliceLocked() && { LDKSpliceLocked res = self; memset(&self, 0, sizeof(LDKSpliceLocked)); return res; }
+ ~SpliceLocked() { SpliceLocked_free(self); }
+ SpliceLocked& operator=(SpliceLocked&& o) { SpliceLocked_free(self); self = o.self; memset(&o, 0, sizeof(SpliceLocked)); return *this; }
+ LDKSpliceLocked* operator &() { return &self; }
+ LDKSpliceLocked* operator ->() { return &self; }
+ const LDKSpliceLocked* operator &() const { return &self; }
+ const LDKSpliceLocked* operator ->() const { return &self; }
+};
+class TxAddInput {
+private:
+ LDKTxAddInput self;
+public:
+ TxAddInput(const TxAddInput&) = delete;
+ TxAddInput(TxAddInput&& o) : self(o.self) { memset(&o, 0, sizeof(TxAddInput)); }
+ TxAddInput(LDKTxAddInput&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxAddInput)); }
+ operator LDKTxAddInput() && { LDKTxAddInput res = self; memset(&self, 0, sizeof(LDKTxAddInput)); return res; }
+ ~TxAddInput() { TxAddInput_free(self); }
+ TxAddInput& operator=(TxAddInput&& o) { TxAddInput_free(self); self = o.self; memset(&o, 0, sizeof(TxAddInput)); return *this; }
+ LDKTxAddInput* operator &() { return &self; }
+ LDKTxAddInput* operator ->() { return &self; }
+ const LDKTxAddInput* operator &() const { return &self; }
+ const LDKTxAddInput* operator ->() const { return &self; }
+};
+class TxAddOutput {
+private:
+ LDKTxAddOutput self;
+public:
+ TxAddOutput(const TxAddOutput&) = delete;
+ TxAddOutput(TxAddOutput&& o) : self(o.self) { memset(&o, 0, sizeof(TxAddOutput)); }
+ TxAddOutput(LDKTxAddOutput&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxAddOutput)); }
+ operator LDKTxAddOutput() && { LDKTxAddOutput res = self; memset(&self, 0, sizeof(LDKTxAddOutput)); return res; }
+ ~TxAddOutput() { TxAddOutput_free(self); }
+ TxAddOutput& operator=(TxAddOutput&& o) { TxAddOutput_free(self); self = o.self; memset(&o, 0, sizeof(TxAddOutput)); return *this; }
+ LDKTxAddOutput* operator &() { return &self; }
+ LDKTxAddOutput* operator ->() { return &self; }
+ const LDKTxAddOutput* operator &() const { return &self; }
+ const LDKTxAddOutput* operator ->() const { return &self; }
+};
+class TxRemoveInput {
+private:
+ LDKTxRemoveInput self;
+public:
+ TxRemoveInput(const TxRemoveInput&) = delete;
+ TxRemoveInput(TxRemoveInput&& o) : self(o.self) { memset(&o, 0, sizeof(TxRemoveInput)); }
+ TxRemoveInput(LDKTxRemoveInput&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxRemoveInput)); }
+ operator LDKTxRemoveInput() && { LDKTxRemoveInput res = self; memset(&self, 0, sizeof(LDKTxRemoveInput)); return res; }
+ ~TxRemoveInput() { TxRemoveInput_free(self); }
+ TxRemoveInput& operator=(TxRemoveInput&& o) { TxRemoveInput_free(self); self = o.self; memset(&o, 0, sizeof(TxRemoveInput)); return *this; }
+ LDKTxRemoveInput* operator &() { return &self; }
+ LDKTxRemoveInput* operator ->() { return &self; }
+ const LDKTxRemoveInput* operator &() const { return &self; }
+ const LDKTxRemoveInput* operator ->() const { return &self; }
+};
+class TxRemoveOutput {
+private:
+ LDKTxRemoveOutput self;
+public:
+ TxRemoveOutput(const TxRemoveOutput&) = delete;
+ TxRemoveOutput(TxRemoveOutput&& o) : self(o.self) { memset(&o, 0, sizeof(TxRemoveOutput)); }
+ TxRemoveOutput(LDKTxRemoveOutput&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxRemoveOutput)); }
+ operator LDKTxRemoveOutput() && { LDKTxRemoveOutput res = self; memset(&self, 0, sizeof(LDKTxRemoveOutput)); return res; }
+ ~TxRemoveOutput() { TxRemoveOutput_free(self); }
+ TxRemoveOutput& operator=(TxRemoveOutput&& o) { TxRemoveOutput_free(self); self = o.self; memset(&o, 0, sizeof(TxRemoveOutput)); return *this; }
+ LDKTxRemoveOutput* operator &() { return &self; }
+ LDKTxRemoveOutput* operator ->() { return &self; }
+ const LDKTxRemoveOutput* operator &() const { return &self; }
+ const LDKTxRemoveOutput* operator ->() const { return &self; }
+};
+class TxComplete {
+private:
+ LDKTxComplete self;
+public:
+ TxComplete(const TxComplete&) = delete;
+ TxComplete(TxComplete&& o) : self(o.self) { memset(&o, 0, sizeof(TxComplete)); }
+ TxComplete(LDKTxComplete&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxComplete)); }
+ operator LDKTxComplete() && { LDKTxComplete res = self; memset(&self, 0, sizeof(LDKTxComplete)); return res; }
+ ~TxComplete() { TxComplete_free(self); }
+ TxComplete& operator=(TxComplete&& o) { TxComplete_free(self); self = o.self; memset(&o, 0, sizeof(TxComplete)); return *this; }
+ LDKTxComplete* operator &() { return &self; }
+ LDKTxComplete* operator ->() { return &self; }
+ const LDKTxComplete* operator &() const { return &self; }
+ const LDKTxComplete* operator ->() const { return &self; }
+};
+class TxSignatures {
+private:
+ LDKTxSignatures self;
+public:
+ TxSignatures(const TxSignatures&) = delete;
+ TxSignatures(TxSignatures&& o) : self(o.self) { memset(&o, 0, sizeof(TxSignatures)); }
+ TxSignatures(LDKTxSignatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxSignatures)); }
+ operator LDKTxSignatures() && { LDKTxSignatures res = self; memset(&self, 0, sizeof(LDKTxSignatures)); return res; }
+ ~TxSignatures() { TxSignatures_free(self); }
+ TxSignatures& operator=(TxSignatures&& o) { TxSignatures_free(self); self = o.self; memset(&o, 0, sizeof(TxSignatures)); return *this; }
+ LDKTxSignatures* operator &() { return &self; }
+ LDKTxSignatures* operator ->() { return &self; }
+ const LDKTxSignatures* operator &() const { return &self; }
+ const LDKTxSignatures* operator ->() const { return &self; }
+};
+class TxInitRbf {
+private:
+ LDKTxInitRbf self;
+public:
+ TxInitRbf(const TxInitRbf&) = delete;
+ TxInitRbf(TxInitRbf&& o) : self(o.self) { memset(&o, 0, sizeof(TxInitRbf)); }
+ TxInitRbf(LDKTxInitRbf&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxInitRbf)); }
+ operator LDKTxInitRbf() && { LDKTxInitRbf res = self; memset(&self, 0, sizeof(LDKTxInitRbf)); return res; }
+ ~TxInitRbf() { TxInitRbf_free(self); }
+ TxInitRbf& operator=(TxInitRbf&& o) { TxInitRbf_free(self); self = o.self; memset(&o, 0, sizeof(TxInitRbf)); return *this; }
+ LDKTxInitRbf* operator &() { return &self; }
+ LDKTxInitRbf* operator ->() { return &self; }
+ const LDKTxInitRbf* operator &() const { return &self; }
+ const LDKTxInitRbf* operator ->() const { return &self; }
+};
+class TxAckRbf {
+private:
+ LDKTxAckRbf self;
+public:
+ TxAckRbf(const TxAckRbf&) = delete;
+ TxAckRbf(TxAckRbf&& o) : self(o.self) { memset(&o, 0, sizeof(TxAckRbf)); }
+ TxAckRbf(LDKTxAckRbf&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxAckRbf)); }
+ operator LDKTxAckRbf() && { LDKTxAckRbf res = self; memset(&self, 0, sizeof(LDKTxAckRbf)); return res; }
+ ~TxAckRbf() { TxAckRbf_free(self); }
+ TxAckRbf& operator=(TxAckRbf&& o) { TxAckRbf_free(self); self = o.self; memset(&o, 0, sizeof(TxAckRbf)); return *this; }
+ LDKTxAckRbf* operator &() { return &self; }
+ LDKTxAckRbf* operator ->() { return &self; }
+ const LDKTxAckRbf* operator &() const { return &self; }
+ const LDKTxAckRbf* operator ->() const { return &self; }
+};
+class TxAbort {
+private:
+ LDKTxAbort self;
+public:
+ TxAbort(const TxAbort&) = delete;
+ TxAbort(TxAbort&& o) : self(o.self) { memset(&o, 0, sizeof(TxAbort)); }
+ TxAbort(LDKTxAbort&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxAbort)); }
+ operator LDKTxAbort() && { LDKTxAbort res = self; memset(&self, 0, sizeof(LDKTxAbort)); return res; }
+ ~TxAbort() { TxAbort_free(self); }
+ TxAbort& operator=(TxAbort&& o) { TxAbort_free(self); self = o.self; memset(&o, 0, sizeof(TxAbort)); return *this; }
+ LDKTxAbort* operator &() { return &self; }
+ LDKTxAbort* operator ->() { return &self; }
+ const LDKTxAbort* operator &() const { return &self; }
+ const LDKTxAbort* operator ->() const { return &self; }
+};
+class Shutdown {
+private:
+ LDKShutdown self;
+public:
+ Shutdown(const Shutdown&) = delete;
+ Shutdown(Shutdown&& o) : self(o.self) { memset(&o, 0, sizeof(Shutdown)); }
+ Shutdown(LDKShutdown&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKShutdown)); }
+ operator LDKShutdown() && { LDKShutdown res = self; memset(&self, 0, sizeof(LDKShutdown)); return res; }
+ ~Shutdown() { Shutdown_free(self); }
+ Shutdown& operator=(Shutdown&& o) { Shutdown_free(self); self = o.self; memset(&o, 0, sizeof(Shutdown)); return *this; }
+ LDKShutdown* operator &() { return &self; }
+ LDKShutdown* operator ->() { return &self; }
+ const LDKShutdown* operator &() const { return &self; }
+ const LDKShutdown* operator ->() const { return &self; }
+};
+class ClosingSignedFeeRange {
+private:
+ LDKClosingSignedFeeRange self;
+public:
+ ClosingSignedFeeRange(const ClosingSignedFeeRange&) = delete;
+ ClosingSignedFeeRange(ClosingSignedFeeRange&& o) : self(o.self) { memset(&o, 0, sizeof(ClosingSignedFeeRange)); }
+ ClosingSignedFeeRange(LDKClosingSignedFeeRange&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClosingSignedFeeRange)); }
+ operator LDKClosingSignedFeeRange() && { LDKClosingSignedFeeRange res = self; memset(&self, 0, sizeof(LDKClosingSignedFeeRange)); return res; }
+ ~ClosingSignedFeeRange() { ClosingSignedFeeRange_free(self); }
+ ClosingSignedFeeRange& operator=(ClosingSignedFeeRange&& o) { ClosingSignedFeeRange_free(self); self = o.self; memset(&o, 0, sizeof(ClosingSignedFeeRange)); return *this; }
+ LDKClosingSignedFeeRange* operator &() { return &self; }
+ LDKClosingSignedFeeRange* operator ->() { return &self; }
+ const LDKClosingSignedFeeRange* operator &() const { return &self; }
+ const LDKClosingSignedFeeRange* operator ->() const { return &self; }
+};
+class ClosingSigned {
+private:
+ LDKClosingSigned self;
+public:
+ ClosingSigned(const ClosingSigned&) = delete;
+ ClosingSigned(ClosingSigned&& o) : self(o.self) { memset(&o, 0, sizeof(ClosingSigned)); }
+ ClosingSigned(LDKClosingSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClosingSigned)); }
+ operator LDKClosingSigned() && { LDKClosingSigned res = self; memset(&self, 0, sizeof(LDKClosingSigned)); return res; }
+ ~ClosingSigned() { ClosingSigned_free(self); }
+ ClosingSigned& operator=(ClosingSigned&& o) { ClosingSigned_free(self); self = o.self; memset(&o, 0, sizeof(ClosingSigned)); return *this; }
+ LDKClosingSigned* operator &() { return &self; }
+ LDKClosingSigned* operator ->() { return &self; }
+ const LDKClosingSigned* operator &() const { return &self; }
+ const LDKClosingSigned* operator ->() const { return &self; }
+};
+class UpdateAddHTLC {
+private:
+ LDKUpdateAddHTLC self;
+public:
+ UpdateAddHTLC(const UpdateAddHTLC&) = delete;
+ UpdateAddHTLC(UpdateAddHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateAddHTLC)); }
+ UpdateAddHTLC(LDKUpdateAddHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateAddHTLC)); }
+ operator LDKUpdateAddHTLC() && { LDKUpdateAddHTLC res = self; memset(&self, 0, sizeof(LDKUpdateAddHTLC)); return res; }
+ ~UpdateAddHTLC() { UpdateAddHTLC_free(self); }
+ UpdateAddHTLC& operator=(UpdateAddHTLC&& o) { UpdateAddHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateAddHTLC)); return *this; }
+ LDKUpdateAddHTLC* operator &() { return &self; }
+ LDKUpdateAddHTLC* operator ->() { return &self; }
+ const LDKUpdateAddHTLC* operator &() const { return &self; }
+ const LDKUpdateAddHTLC* operator ->() const { return &self; }
+};
+class OnionMessage {
+private:
+ LDKOnionMessage self;
+public:
+ OnionMessage(const OnionMessage&) = delete;
+ OnionMessage(OnionMessage&& o) : self(o.self) { memset(&o, 0, sizeof(OnionMessage)); }
+ OnionMessage(LDKOnionMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOnionMessage)); }
+ operator LDKOnionMessage() && { LDKOnionMessage res = self; memset(&self, 0, sizeof(LDKOnionMessage)); return res; }
+ ~OnionMessage() { OnionMessage_free(self); }
+ OnionMessage& operator=(OnionMessage&& o) { OnionMessage_free(self); self = o.self; memset(&o, 0, sizeof(OnionMessage)); return *this; }
+ LDKOnionMessage* operator &() { return &self; }
+ LDKOnionMessage* operator ->() { return &self; }
+ const LDKOnionMessage* operator &() const { return &self; }
+ const LDKOnionMessage* operator ->() const { return &self; }
+};
+class UpdateFulfillHTLC {
+private:
+ LDKUpdateFulfillHTLC self;
+public:
+ UpdateFulfillHTLC(const UpdateFulfillHTLC&) = delete;
+ UpdateFulfillHTLC(UpdateFulfillHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFulfillHTLC)); }
+ UpdateFulfillHTLC(LDKUpdateFulfillHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFulfillHTLC)); }
+ operator LDKUpdateFulfillHTLC() && { LDKUpdateFulfillHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFulfillHTLC)); return res; }
+ ~UpdateFulfillHTLC() { UpdateFulfillHTLC_free(self); }
+ UpdateFulfillHTLC& operator=(UpdateFulfillHTLC&& o) { UpdateFulfillHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFulfillHTLC)); return *this; }
+ LDKUpdateFulfillHTLC* operator &() { return &self; }
+ LDKUpdateFulfillHTLC* operator ->() { return &self; }
+ const LDKUpdateFulfillHTLC* operator &() const { return &self; }
+ const LDKUpdateFulfillHTLC* operator ->() const { return &self; }
+};
+class UpdateFailHTLC {
+private:
+ LDKUpdateFailHTLC self;
+public:
+ UpdateFailHTLC(const UpdateFailHTLC&) = delete;
+ UpdateFailHTLC(UpdateFailHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFailHTLC)); }
+ UpdateFailHTLC(LDKUpdateFailHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFailHTLC)); }
+ operator LDKUpdateFailHTLC() && { LDKUpdateFailHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFailHTLC)); return res; }
+ ~UpdateFailHTLC() { UpdateFailHTLC_free(self); }
+ UpdateFailHTLC& operator=(UpdateFailHTLC&& o) { UpdateFailHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFailHTLC)); return *this; }
+ LDKUpdateFailHTLC* operator &() { return &self; }
+ LDKUpdateFailHTLC* operator ->() { return &self; }
+ const LDKUpdateFailHTLC* operator &() const { return &self; }
+ const LDKUpdateFailHTLC* operator ->() const { return &self; }
+};
+class UpdateFailMalformedHTLC {
+private:
+ LDKUpdateFailMalformedHTLC self;
+public:
+ UpdateFailMalformedHTLC(const UpdateFailMalformedHTLC&) = delete;
+ UpdateFailMalformedHTLC(UpdateFailMalformedHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFailMalformedHTLC)); }
+ UpdateFailMalformedHTLC(LDKUpdateFailMalformedHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFailMalformedHTLC)); }
+ operator LDKUpdateFailMalformedHTLC() && { LDKUpdateFailMalformedHTLC res = self; memset(&self, 0, sizeof(LDKUpdateFailMalformedHTLC)); return res; }
+ ~UpdateFailMalformedHTLC() { UpdateFailMalformedHTLC_free(self); }
+ UpdateFailMalformedHTLC& operator=(UpdateFailMalformedHTLC&& o) { UpdateFailMalformedHTLC_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFailMalformedHTLC)); return *this; }
+ LDKUpdateFailMalformedHTLC* operator &() { return &self; }
+ LDKUpdateFailMalformedHTLC* operator ->() { return &self; }
+ const LDKUpdateFailMalformedHTLC* operator &() const { return &self; }
+ const LDKUpdateFailMalformedHTLC* operator ->() const { return &self; }
+};
+class CommitmentSigned {
+private:
+ LDKCommitmentSigned self;
+public:
+ CommitmentSigned(const CommitmentSigned&) = delete;
+ CommitmentSigned(CommitmentSigned&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentSigned)); }
+ CommitmentSigned(LDKCommitmentSigned&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentSigned)); }
+ operator LDKCommitmentSigned() && { LDKCommitmentSigned res = self; memset(&self, 0, sizeof(LDKCommitmentSigned)); return res; }
+ ~CommitmentSigned() { CommitmentSigned_free(self); }
+ CommitmentSigned& operator=(CommitmentSigned&& o) { CommitmentSigned_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentSigned)); return *this; }
+ LDKCommitmentSigned* operator &() { return &self; }
+ LDKCommitmentSigned* operator ->() { return &self; }
+ const LDKCommitmentSigned* operator &() const { return &self; }
+ const LDKCommitmentSigned* operator ->() const { return &self; }
+};
+class RevokeAndACK {
+private:
+ LDKRevokeAndACK self;
+public:
+ RevokeAndACK(const RevokeAndACK&) = delete;
+ RevokeAndACK(RevokeAndACK&& o) : self(o.self) { memset(&o, 0, sizeof(RevokeAndACK)); }
+ RevokeAndACK(LDKRevokeAndACK&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRevokeAndACK)); }
+ operator LDKRevokeAndACK() && { LDKRevokeAndACK res = self; memset(&self, 0, sizeof(LDKRevokeAndACK)); return res; }
+ ~RevokeAndACK() { RevokeAndACK_free(self); }
+ RevokeAndACK& operator=(RevokeAndACK&& o) { RevokeAndACK_free(self); self = o.self; memset(&o, 0, sizeof(RevokeAndACK)); return *this; }
+ LDKRevokeAndACK* operator &() { return &self; }
+ LDKRevokeAndACK* operator ->() { return &self; }
+ const LDKRevokeAndACK* operator &() const { return &self; }
+ const LDKRevokeAndACK* operator ->() const { return &self; }
+};
+class UpdateFee {
+private:
+ LDKUpdateFee self;
+public:
+ UpdateFee(const UpdateFee&) = delete;
+ UpdateFee(UpdateFee&& o) : self(o.self) { memset(&o, 0, sizeof(UpdateFee)); }
+ UpdateFee(LDKUpdateFee&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUpdateFee)); }
+ operator LDKUpdateFee() && { LDKUpdateFee res = self; memset(&self, 0, sizeof(LDKUpdateFee)); return res; }
+ ~UpdateFee() { UpdateFee_free(self); }
+ UpdateFee& operator=(UpdateFee&& o) { UpdateFee_free(self); self = o.self; memset(&o, 0, sizeof(UpdateFee)); return *this; }
+ LDKUpdateFee* operator &() { return &self; }
+ LDKUpdateFee* operator ->() { return &self; }
+ const LDKUpdateFee* operator &() const { return &self; }
+ const LDKUpdateFee* operator ->() const { return &self; }
+};
+class ChannelReestablish {
+private:
+ LDKChannelReestablish self;
+public:
+ ChannelReestablish(const ChannelReestablish&) = delete;
+ ChannelReestablish(ChannelReestablish&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelReestablish)); }
+ ChannelReestablish(LDKChannelReestablish&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelReestablish)); }
+ operator LDKChannelReestablish() && { LDKChannelReestablish res = self; memset(&self, 0, sizeof(LDKChannelReestablish)); return res; }
+ ~ChannelReestablish() { ChannelReestablish_free(self); }
+ ChannelReestablish& operator=(ChannelReestablish&& o) { ChannelReestablish_free(self); self = o.self; memset(&o, 0, sizeof(ChannelReestablish)); return *this; }
+ LDKChannelReestablish* operator &() { return &self; }
+ LDKChannelReestablish* operator ->() { return &self; }
+ const LDKChannelReestablish* operator &() const { return &self; }
+ const LDKChannelReestablish* operator ->() const { return &self; }
+};
+class AnnouncementSignatures {
+private:
+ LDKAnnouncementSignatures self;
+public:
+ AnnouncementSignatures(const AnnouncementSignatures&) = delete;
+ AnnouncementSignatures(AnnouncementSignatures&& o) : self(o.self) { memset(&o, 0, sizeof(AnnouncementSignatures)); }
+ AnnouncementSignatures(LDKAnnouncementSignatures&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAnnouncementSignatures)); }
+ operator LDKAnnouncementSignatures() && { LDKAnnouncementSignatures res = self; memset(&self, 0, sizeof(LDKAnnouncementSignatures)); return res; }
+ ~AnnouncementSignatures() { AnnouncementSignatures_free(self); }
+ AnnouncementSignatures& operator=(AnnouncementSignatures&& o) { AnnouncementSignatures_free(self); self = o.self; memset(&o, 0, sizeof(AnnouncementSignatures)); return *this; }
+ LDKAnnouncementSignatures* operator &() { return &self; }
+ LDKAnnouncementSignatures* operator ->() { return &self; }
+ const LDKAnnouncementSignatures* operator &() const { return &self; }
+ const LDKAnnouncementSignatures* operator ->() const { return &self; }
+};
+class SocketAddress {
+private:
+ LDKSocketAddress self;
+public:
+ SocketAddress(const SocketAddress&) = delete;
+ SocketAddress(SocketAddress&& o) : self(o.self) { memset(&o, 0, sizeof(SocketAddress)); }
+ SocketAddress(LDKSocketAddress&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSocketAddress)); }
+ operator LDKSocketAddress() && { LDKSocketAddress res = self; memset(&self, 0, sizeof(LDKSocketAddress)); return res; }
+ ~SocketAddress() { SocketAddress_free(self); }
+ SocketAddress& operator=(SocketAddress&& o) { SocketAddress_free(self); self = o.self; memset(&o, 0, sizeof(SocketAddress)); return *this; }
+ LDKSocketAddress* operator &() { return &self; }
+ LDKSocketAddress* operator ->() { return &self; }
+ const LDKSocketAddress* operator &() const { return &self; }
+ const LDKSocketAddress* operator ->() const { return &self; }
+};
+class SocketAddressParseError {
+private:
+ LDKSocketAddressParseError self;
+public:
+ SocketAddressParseError(const SocketAddressParseError&) = delete;
+ SocketAddressParseError(SocketAddressParseError&& o) : self(o.self) { memset(&o, 0, sizeof(SocketAddressParseError)); }
+ SocketAddressParseError(LDKSocketAddressParseError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSocketAddressParseError)); }
+ operator LDKSocketAddressParseError() && { LDKSocketAddressParseError res = self; memset(&self, 0, sizeof(LDKSocketAddressParseError)); return res; }
+ SocketAddressParseError& operator=(SocketAddressParseError&& o) { self = o.self; memset(&o, 0, sizeof(SocketAddressParseError)); return *this; }
+ LDKSocketAddressParseError* operator &() { return &self; }
+ LDKSocketAddressParseError* operator ->() { return &self; }
+ const LDKSocketAddressParseError* operator &() const { return &self; }
+ const LDKSocketAddressParseError* operator ->() const { return &self; }
+};
+class UnsignedGossipMessage {
+private:
+ LDKUnsignedGossipMessage self;
+public:
+ UnsignedGossipMessage(const UnsignedGossipMessage&) = delete;
+ UnsignedGossipMessage(UnsignedGossipMessage&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedGossipMessage)); }
+ UnsignedGossipMessage(LDKUnsignedGossipMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedGossipMessage)); }
+ operator LDKUnsignedGossipMessage() && { LDKUnsignedGossipMessage res = self; memset(&self, 0, sizeof(LDKUnsignedGossipMessage)); return res; }
+ ~UnsignedGossipMessage() { UnsignedGossipMessage_free(self); }
+ UnsignedGossipMessage& operator=(UnsignedGossipMessage&& o) { UnsignedGossipMessage_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedGossipMessage)); return *this; }
+ LDKUnsignedGossipMessage* operator &() { return &self; }
+ LDKUnsignedGossipMessage* operator ->() { return &self; }
+ const LDKUnsignedGossipMessage* operator &() const { return &self; }
+ const LDKUnsignedGossipMessage* operator ->() const { return &self; }
+};
+class UnsignedNodeAnnouncement {
+private:
+ LDKUnsignedNodeAnnouncement self;
+public:
+ UnsignedNodeAnnouncement(const UnsignedNodeAnnouncement&) = delete;
+ UnsignedNodeAnnouncement(UnsignedNodeAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedNodeAnnouncement)); }
+ UnsignedNodeAnnouncement(LDKUnsignedNodeAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedNodeAnnouncement)); }
+ operator LDKUnsignedNodeAnnouncement() && { LDKUnsignedNodeAnnouncement res = self; memset(&self, 0, sizeof(LDKUnsignedNodeAnnouncement)); return res; }
+ ~UnsignedNodeAnnouncement() { UnsignedNodeAnnouncement_free(self); }
+ UnsignedNodeAnnouncement& operator=(UnsignedNodeAnnouncement&& o) { UnsignedNodeAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedNodeAnnouncement)); return *this; }
+ LDKUnsignedNodeAnnouncement* operator &() { return &self; }
+ LDKUnsignedNodeAnnouncement* operator ->() { return &self; }
+ const LDKUnsignedNodeAnnouncement* operator &() const { return &self; }
+ const LDKUnsignedNodeAnnouncement* operator ->() const { return &self; }
+};
+class NodeAnnouncement {
+private:
+ LDKNodeAnnouncement self;
+public:
+ NodeAnnouncement(const NodeAnnouncement&) = delete;
+ NodeAnnouncement(NodeAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(NodeAnnouncement)); }
+ NodeAnnouncement(LDKNodeAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeAnnouncement)); }
+ operator LDKNodeAnnouncement() && { LDKNodeAnnouncement res = self; memset(&self, 0, sizeof(LDKNodeAnnouncement)); return res; }
+ ~NodeAnnouncement() { NodeAnnouncement_free(self); }
+ NodeAnnouncement& operator=(NodeAnnouncement&& o) { NodeAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(NodeAnnouncement)); return *this; }
+ LDKNodeAnnouncement* operator &() { return &self; }
+ LDKNodeAnnouncement* operator ->() { return &self; }
+ const LDKNodeAnnouncement* operator &() const { return &self; }
+ const LDKNodeAnnouncement* operator ->() const { return &self; }
+};
+class UnsignedChannelAnnouncement {
+private:
+ LDKUnsignedChannelAnnouncement self;
+public:
+ UnsignedChannelAnnouncement(const UnsignedChannelAnnouncement&) = delete;
+ UnsignedChannelAnnouncement(UnsignedChannelAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedChannelAnnouncement)); }
+ UnsignedChannelAnnouncement(LDKUnsignedChannelAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedChannelAnnouncement)); }
+ operator LDKUnsignedChannelAnnouncement() && { LDKUnsignedChannelAnnouncement res = self; memset(&self, 0, sizeof(LDKUnsignedChannelAnnouncement)); return res; }
+ ~UnsignedChannelAnnouncement() { UnsignedChannelAnnouncement_free(self); }
+ UnsignedChannelAnnouncement& operator=(UnsignedChannelAnnouncement&& o) { UnsignedChannelAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedChannelAnnouncement)); return *this; }
+ LDKUnsignedChannelAnnouncement* operator &() { return &self; }
+ LDKUnsignedChannelAnnouncement* operator ->() { return &self; }
+ const LDKUnsignedChannelAnnouncement* operator &() const { return &self; }
+ const LDKUnsignedChannelAnnouncement* operator ->() const { return &self; }
+};
+class ChannelAnnouncement {
+private:
+ LDKChannelAnnouncement self;
+public:
+ ChannelAnnouncement(const ChannelAnnouncement&) = delete;
+ ChannelAnnouncement(ChannelAnnouncement&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelAnnouncement)); }
+ ChannelAnnouncement(LDKChannelAnnouncement&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelAnnouncement)); }
+ operator LDKChannelAnnouncement() && { LDKChannelAnnouncement res = self; memset(&self, 0, sizeof(LDKChannelAnnouncement)); return res; }
+ ~ChannelAnnouncement() { ChannelAnnouncement_free(self); }
+ ChannelAnnouncement& operator=(ChannelAnnouncement&& o) { ChannelAnnouncement_free(self); self = o.self; memset(&o, 0, sizeof(ChannelAnnouncement)); return *this; }
+ LDKChannelAnnouncement* operator &() { return &self; }
+ LDKChannelAnnouncement* operator ->() { return &self; }
+ const LDKChannelAnnouncement* operator &() const { return &self; }
+ const LDKChannelAnnouncement* operator ->() const { return &self; }
+};
+class UnsignedChannelUpdate {
+private:
+ LDKUnsignedChannelUpdate self;
+public:
+ UnsignedChannelUpdate(const UnsignedChannelUpdate&) = delete;
+ UnsignedChannelUpdate(UnsignedChannelUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(UnsignedChannelUpdate)); }
+ UnsignedChannelUpdate(LDKUnsignedChannelUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUnsignedChannelUpdate)); }
+ operator LDKUnsignedChannelUpdate() && { LDKUnsignedChannelUpdate res = self; memset(&self, 0, sizeof(LDKUnsignedChannelUpdate)); return res; }
+ ~UnsignedChannelUpdate() { UnsignedChannelUpdate_free(self); }
+ UnsignedChannelUpdate& operator=(UnsignedChannelUpdate&& o) { UnsignedChannelUpdate_free(self); self = o.self; memset(&o, 0, sizeof(UnsignedChannelUpdate)); return *this; }
+ LDKUnsignedChannelUpdate* operator &() { return &self; }
+ LDKUnsignedChannelUpdate* operator ->() { return &self; }
+ const LDKUnsignedChannelUpdate* operator &() const { return &self; }
+ const LDKUnsignedChannelUpdate* operator ->() const { return &self; }
+};
+class ChannelUpdate {
+private:
+ LDKChannelUpdate self;
+public:
+ ChannelUpdate(const ChannelUpdate&) = delete;
+ ChannelUpdate(ChannelUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelUpdate)); }
+ ChannelUpdate(LDKChannelUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelUpdate)); }
+ operator LDKChannelUpdate() && { LDKChannelUpdate res = self; memset(&self, 0, sizeof(LDKChannelUpdate)); return res; }
+ ~ChannelUpdate() { ChannelUpdate_free(self); }
+ ChannelUpdate& operator=(ChannelUpdate&& o) { ChannelUpdate_free(self); self = o.self; memset(&o, 0, sizeof(ChannelUpdate)); return *this; }
+ LDKChannelUpdate* operator &() { return &self; }
+ LDKChannelUpdate* operator ->() { return &self; }
+ const LDKChannelUpdate* operator &() const { return &self; }
+ const LDKChannelUpdate* operator ->() const { return &self; }
+};
+class QueryChannelRange {
+private:
+ LDKQueryChannelRange self;
+public:
+ QueryChannelRange(const QueryChannelRange&) = delete;
+ QueryChannelRange(QueryChannelRange&& o) : self(o.self) { memset(&o, 0, sizeof(QueryChannelRange)); }
+ QueryChannelRange(LDKQueryChannelRange&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKQueryChannelRange)); }
+ operator LDKQueryChannelRange() && { LDKQueryChannelRange res = self; memset(&self, 0, sizeof(LDKQueryChannelRange)); return res; }
+ ~QueryChannelRange() { QueryChannelRange_free(self); }
+ QueryChannelRange& operator=(QueryChannelRange&& o) { QueryChannelRange_free(self); self = o.self; memset(&o, 0, sizeof(QueryChannelRange)); return *this; }
+ LDKQueryChannelRange* operator &() { return &self; }
+ LDKQueryChannelRange* operator ->() { return &self; }
+ const LDKQueryChannelRange* operator &() const { return &self; }
+ const LDKQueryChannelRange* operator ->() const { return &self; }
+};
+class ReplyChannelRange {
+private:
+ LDKReplyChannelRange self;
+public:
+ ReplyChannelRange(const ReplyChannelRange&) = delete;
+ ReplyChannelRange(ReplyChannelRange&& o) : self(o.self) { memset(&o, 0, sizeof(ReplyChannelRange)); }
+ ReplyChannelRange(LDKReplyChannelRange&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKReplyChannelRange)); }
+ operator LDKReplyChannelRange() && { LDKReplyChannelRange res = self; memset(&self, 0, sizeof(LDKReplyChannelRange)); return res; }
+ ~ReplyChannelRange() { ReplyChannelRange_free(self); }
+ ReplyChannelRange& operator=(ReplyChannelRange&& o) { ReplyChannelRange_free(self); self = o.self; memset(&o, 0, sizeof(ReplyChannelRange)); return *this; }
+ LDKReplyChannelRange* operator &() { return &self; }
+ LDKReplyChannelRange* operator ->() { return &self; }
+ const LDKReplyChannelRange* operator &() const { return &self; }
+ const LDKReplyChannelRange* operator ->() const { return &self; }
+};
+class QueryShortChannelIds {
+private:
+ LDKQueryShortChannelIds self;
+public:
+ QueryShortChannelIds(const QueryShortChannelIds&) = delete;
+ QueryShortChannelIds(QueryShortChannelIds&& o) : self(o.self) { memset(&o, 0, sizeof(QueryShortChannelIds)); }
+ QueryShortChannelIds(LDKQueryShortChannelIds&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKQueryShortChannelIds)); }
+ operator LDKQueryShortChannelIds() && { LDKQueryShortChannelIds res = self; memset(&self, 0, sizeof(LDKQueryShortChannelIds)); return res; }
+ ~QueryShortChannelIds() { QueryShortChannelIds_free(self); }
+ QueryShortChannelIds& operator=(QueryShortChannelIds&& o) { QueryShortChannelIds_free(self); self = o.self; memset(&o, 0, sizeof(QueryShortChannelIds)); return *this; }
+ LDKQueryShortChannelIds* operator &() { return &self; }
+ LDKQueryShortChannelIds* operator ->() { return &self; }
+ const LDKQueryShortChannelIds* operator &() const { return &self; }
+ const LDKQueryShortChannelIds* operator ->() const { return &self; }
+};
+class ReplyShortChannelIdsEnd {
+private:
+ LDKReplyShortChannelIdsEnd self;
+public:
+ ReplyShortChannelIdsEnd(const ReplyShortChannelIdsEnd&) = delete;
+ ReplyShortChannelIdsEnd(ReplyShortChannelIdsEnd&& o) : self(o.self) { memset(&o, 0, sizeof(ReplyShortChannelIdsEnd)); }
+ ReplyShortChannelIdsEnd(LDKReplyShortChannelIdsEnd&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKReplyShortChannelIdsEnd)); }
+ operator LDKReplyShortChannelIdsEnd() && { LDKReplyShortChannelIdsEnd res = self; memset(&self, 0, sizeof(LDKReplyShortChannelIdsEnd)); return res; }
+ ~ReplyShortChannelIdsEnd() { ReplyShortChannelIdsEnd_free(self); }
+ ReplyShortChannelIdsEnd& operator=(ReplyShortChannelIdsEnd&& o) { ReplyShortChannelIdsEnd_free(self); self = o.self; memset(&o, 0, sizeof(ReplyShortChannelIdsEnd)); return *this; }
+ LDKReplyShortChannelIdsEnd* operator &() { return &self; }
+ LDKReplyShortChannelIdsEnd* operator ->() { return &self; }
+ const LDKReplyShortChannelIdsEnd* operator &() const { return &self; }
+ const LDKReplyShortChannelIdsEnd* operator ->() const { return &self; }
+};
+class GossipTimestampFilter {
+private:
+ LDKGossipTimestampFilter self;
+public:
+ GossipTimestampFilter(const GossipTimestampFilter&) = delete;
+ GossipTimestampFilter(GossipTimestampFilter&& o) : self(o.self) { memset(&o, 0, sizeof(GossipTimestampFilter)); }
+ GossipTimestampFilter(LDKGossipTimestampFilter&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKGossipTimestampFilter)); }
+ operator LDKGossipTimestampFilter() && { LDKGossipTimestampFilter res = self; memset(&self, 0, sizeof(LDKGossipTimestampFilter)); return res; }
+ ~GossipTimestampFilter() { GossipTimestampFilter_free(self); }
+ GossipTimestampFilter& operator=(GossipTimestampFilter&& o) { GossipTimestampFilter_free(self); self = o.self; memset(&o, 0, sizeof(GossipTimestampFilter)); return *this; }
+ LDKGossipTimestampFilter* operator &() { return &self; }
+ LDKGossipTimestampFilter* operator ->() { return &self; }
+ const LDKGossipTimestampFilter* operator &() const { return &self; }
+ const LDKGossipTimestampFilter* operator ->() const { return &self; }
+};
+class ErrorAction {
+private:
+ LDKErrorAction self;
+public:
+ ErrorAction(const ErrorAction&) = delete;
+ ErrorAction(ErrorAction&& o) : self(o.self) { memset(&o, 0, sizeof(ErrorAction)); }
+ ErrorAction(LDKErrorAction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKErrorAction)); }
+ operator LDKErrorAction() && { LDKErrorAction res = self; memset(&self, 0, sizeof(LDKErrorAction)); return res; }
+ ~ErrorAction() { ErrorAction_free(self); }
+ ErrorAction& operator=(ErrorAction&& o) { ErrorAction_free(self); self = o.self; memset(&o, 0, sizeof(ErrorAction)); return *this; }
+ LDKErrorAction* operator &() { return &self; }
+ LDKErrorAction* operator ->() { return &self; }
+ const LDKErrorAction* operator &() const { return &self; }
+ const LDKErrorAction* operator ->() const { return &self; }
+};
+class LightningError {
+private:
+ LDKLightningError self;
+public:
+ LightningError(const LightningError&) = delete;
+ LightningError(LightningError&& o) : self(o.self) { memset(&o, 0, sizeof(LightningError)); }
+ LightningError(LDKLightningError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLightningError)); }
+ operator LDKLightningError() && { LDKLightningError res = self; memset(&self, 0, sizeof(LDKLightningError)); return res; }
+ ~LightningError() { LightningError_free(self); }
+ LightningError& operator=(LightningError&& o) { LightningError_free(self); self = o.self; memset(&o, 0, sizeof(LightningError)); return *this; }
+ LDKLightningError* operator &() { return &self; }
+ LDKLightningError* operator ->() { return &self; }
+ const LDKLightningError* operator &() const { return &self; }
+ const LDKLightningError* operator ->() const { return &self; }
+};
+class CommitmentUpdate {
+private:
+ LDKCommitmentUpdate self;
+public:
+ CommitmentUpdate(const CommitmentUpdate&) = delete;
+ CommitmentUpdate(CommitmentUpdate&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentUpdate)); }
+ CommitmentUpdate(LDKCommitmentUpdate&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentUpdate)); }
+ operator LDKCommitmentUpdate() && { LDKCommitmentUpdate res = self; memset(&self, 0, sizeof(LDKCommitmentUpdate)); return res; }
+ ~CommitmentUpdate() { CommitmentUpdate_free(self); }
+ CommitmentUpdate& operator=(CommitmentUpdate&& o) { CommitmentUpdate_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentUpdate)); return *this; }
+ LDKCommitmentUpdate* operator &() { return &self; }
+ LDKCommitmentUpdate* operator ->() { return &self; }
+ const LDKCommitmentUpdate* operator &() const { return &self; }
+ const LDKCommitmentUpdate* operator ->() const { return &self; }
+};
+class ChannelMessageHandler {
+private:
+ LDKChannelMessageHandler self;
+public:
+ ChannelMessageHandler(const ChannelMessageHandler&) = delete;
+ ChannelMessageHandler(ChannelMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMessageHandler)); }
+ ChannelMessageHandler(LDKChannelMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMessageHandler)); }
+ operator LDKChannelMessageHandler() && { LDKChannelMessageHandler res = self; memset(&self, 0, sizeof(LDKChannelMessageHandler)); return res; }
+ ~ChannelMessageHandler() { ChannelMessageHandler_free(self); }
+ ChannelMessageHandler& operator=(ChannelMessageHandler&& o) { ChannelMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(ChannelMessageHandler)); return *this; }
+ LDKChannelMessageHandler* operator &() { return &self; }
+ LDKChannelMessageHandler* operator ->() { return &self; }
+ const LDKChannelMessageHandler* operator &() const { return &self; }
+ const LDKChannelMessageHandler* operator ->() const { return &self; }
+ /**
+ * Handle an incoming `open_channel` message from the given peer.
+ */
+ inline void handle_open_channel(struct LDKPublicKey their_node_id, const struct LDKOpenChannel *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `open_channel2` message from the given peer.
+ */
+ inline void handle_open_channel_v2(struct LDKPublicKey their_node_id, const struct LDKOpenChannelV2 *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `accept_channel` message from the given peer.
+ */
+ inline void handle_accept_channel(struct LDKPublicKey their_node_id, const struct LDKAcceptChannel *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `accept_channel2` message from the given peer.
+ */
+ inline void handle_accept_channel_v2(struct LDKPublicKey their_node_id, const struct LDKAcceptChannelV2 *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `funding_created` message from the given peer.
+ */
+ inline void handle_funding_created(struct LDKPublicKey their_node_id, const struct LDKFundingCreated *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `funding_signed` message from the given peer.
+ */
+ inline void handle_funding_signed(struct LDKPublicKey their_node_id, const struct LDKFundingSigned *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `channel_ready` message from the given peer.
+ */
+ inline void handle_channel_ready(struct LDKPublicKey their_node_id, const struct LDKChannelReady *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `shutdown` message from the given peer.
+ */
+ inline void handle_shutdown(struct LDKPublicKey their_node_id, const struct LDKShutdown *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `closing_signed` message from the given peer.
+ */
+ inline void handle_closing_signed(struct LDKPublicKey their_node_id, const struct LDKClosingSigned *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `stfu` message from the given peer.
+ */
+ inline void handle_stfu(struct LDKPublicKey their_node_id, const struct LDKStfu *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_add_input message` from the given peer.
+ */
+ inline void handle_tx_add_input(struct LDKPublicKey their_node_id, const struct LDKTxAddInput *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_add_output` message from the given peer.
+ */
+ inline void handle_tx_add_output(struct LDKPublicKey their_node_id, const struct LDKTxAddOutput *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_remove_input` message from the given peer.
+ */
+ inline void handle_tx_remove_input(struct LDKPublicKey their_node_id, const struct LDKTxRemoveInput *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_remove_output` message from the given peer.
+ */
+ inline void handle_tx_remove_output(struct LDKPublicKey their_node_id, const struct LDKTxRemoveOutput *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_complete message` from the given peer.
+ */
+ inline void handle_tx_complete(struct LDKPublicKey their_node_id, const struct LDKTxComplete *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_signatures` message from the given peer.
+ */
+ inline void handle_tx_signatures(struct LDKPublicKey their_node_id, const struct LDKTxSignatures *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_init_rbf` message from the given peer.
+ */
+ inline void handle_tx_init_rbf(struct LDKPublicKey their_node_id, const struct LDKTxInitRbf *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_ack_rbf` message from the given peer.
+ */
+ inline void handle_tx_ack_rbf(struct LDKPublicKey their_node_id, const struct LDKTxAckRbf *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `tx_abort message` from the given peer.
+ */
+ inline void handle_tx_abort(struct LDKPublicKey their_node_id, const struct LDKTxAbort *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `update_add_htlc` message from the given peer.
+ */
+ inline void handle_update_add_htlc(struct LDKPublicKey their_node_id, const struct LDKUpdateAddHTLC *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `update_fulfill_htlc` message from the given peer.
+ */
+ inline void handle_update_fulfill_htlc(struct LDKPublicKey their_node_id, const struct LDKUpdateFulfillHTLC *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `update_fail_htlc` message from the given peer.
+ */
+ inline void handle_update_fail_htlc(struct LDKPublicKey their_node_id, const struct LDKUpdateFailHTLC *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `update_fail_malformed_htlc` message from the given peer.
+ */
+ inline void handle_update_fail_malformed_htlc(struct LDKPublicKey their_node_id, const struct LDKUpdateFailMalformedHTLC *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `commitment_signed` message from the given peer.
+ */
+ inline void handle_commitment_signed(struct LDKPublicKey their_node_id, const struct LDKCommitmentSigned *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `revoke_and_ack` message from the given peer.
+ */
+ inline void handle_revoke_and_ack(struct LDKPublicKey their_node_id, const struct LDKRevokeAndACK *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `update_fee` message from the given peer.
+ */
+ inline void handle_update_fee(struct LDKPublicKey their_node_id, const struct LDKUpdateFee *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `announcement_signatures` message from the given peer.
+ */
+ inline void handle_announcement_signatures(struct LDKPublicKey their_node_id, const struct LDKAnnouncementSignatures *NONNULL_PTR msg);
+ /**
+ * Indicates a connection to the peer failed/an existing connection was lost.
+ */
+ inline void peer_disconnected(struct LDKPublicKey their_node_id);
+ /**
+ * Handle a peer reconnecting, possibly generating `channel_reestablish` message(s).
+ *
+ * May return an `Err(())` if the features the peer supports are not sufficient to communicate
+ * with us. Implementors should be somewhat conservative about doing so, however, as other
+ * message handlers may still wish to communicate with this peer.
+ */
+ inline LDK::CResult_NoneNoneZ peer_connected(struct LDKPublicKey their_node_id, const struct LDKInit *NONNULL_PTR msg, bool inbound);
+ /**
+ * Handle an incoming `channel_reestablish` message from the given peer.
+ */
+ inline void handle_channel_reestablish(struct LDKPublicKey their_node_id, const struct LDKChannelReestablish *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `channel_update` message from the given peer.
+ */
+ inline void handle_channel_update(struct LDKPublicKey their_node_id, const struct LDKChannelUpdate *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `error` message from the given peer.
+ */
+ inline void handle_error(struct LDKPublicKey their_node_id, const struct LDKErrorMessage *NONNULL_PTR msg);
+ /**
+ * Gets the node feature flags which this handler itself supports. All available handlers are
+ * queried similarly and their feature flags are OR'd together to form the [`NodeFeatures`]
+ * which are broadcasted in our [`NodeAnnouncement`] message.
+ */
+ inline LDK::NodeFeatures provided_node_features();
+ /**
+ * Gets the init feature flags which should be sent to the given peer. All available handlers
+ * are queried similarly and their feature flags are OR'd together to form the [`InitFeatures`]
+ * which are sent in our [`Init`] message.
+ *
+ * Note that this method is called before [`Self::peer_connected`].
+ */
+ inline LDK::InitFeatures provided_init_features(struct LDKPublicKey their_node_id);
+ /**
+ * Gets the chain hashes for this `ChannelMessageHandler` indicating which chains it supports.
+ *
+ * If it's `None`, then no particular network chain hash compatibility will be enforced when
+ * connecting to peers.
+ */
+ inline LDK::COption_CVec_ThirtyTwoBytesZZ get_chain_hashes();
+};
+class RoutingMessageHandler {
+private:
+ LDKRoutingMessageHandler self;
+public:
+ RoutingMessageHandler(const RoutingMessageHandler&) = delete;
+ RoutingMessageHandler(RoutingMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(RoutingMessageHandler)); }
+ RoutingMessageHandler(LDKRoutingMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRoutingMessageHandler)); }
+ operator LDKRoutingMessageHandler() && { LDKRoutingMessageHandler res = self; memset(&self, 0, sizeof(LDKRoutingMessageHandler)); return res; }
+ ~RoutingMessageHandler() { RoutingMessageHandler_free(self); }
+ RoutingMessageHandler& operator=(RoutingMessageHandler&& o) { RoutingMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(RoutingMessageHandler)); return *this; }
+ LDKRoutingMessageHandler* operator &() { return &self; }
+ LDKRoutingMessageHandler* operator ->() { return &self; }
+ const LDKRoutingMessageHandler* operator &() const { return &self; }
+ const LDKRoutingMessageHandler* operator ->() const { return &self; }
+ /**
+ * Handle an incoming `node_announcement` message, returning `true` if it should be forwarded on,
+ * `false` or returning an `Err` otherwise.
+ */
+ inline LDK::CResult_boolLightningErrorZ handle_node_announcement(const struct LDKNodeAnnouncement *NONNULL_PTR msg);
+ /**
+ * Handle a `channel_announcement` message, returning `true` if it should be forwarded on, `false`
+ * or returning an `Err` otherwise.
+ */
+ inline LDK::CResult_boolLightningErrorZ handle_channel_announcement(const struct LDKChannelAnnouncement *NONNULL_PTR msg);
+ /**
+ * Handle an incoming `channel_update` message, returning true if it should be forwarded on,
+ * `false` or returning an `Err` otherwise.
+ */
+ inline LDK::CResult_boolLightningErrorZ handle_channel_update(const struct LDKChannelUpdate *NONNULL_PTR msg);
+ /**
+ * Gets channel announcements and updates required to dump our routing table to a remote node,
+ * starting at the `short_channel_id` indicated by `starting_point` and including announcements
+ * for a single channel.
+ */
+ inline LDK::COption_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ get_next_channel_announcement(uint64_t starting_point);
+ /**
+ * Gets a node announcement required to dump our routing table to a remote node, starting at
+ * the node *after* the provided pubkey and including up to one announcement immediately
+ * higher (as defined by `<PublicKey as Ord>::cmp`) than `starting_point`.
+ * If `None` is provided for `starting_point`, we start at the first node.
+ *
+ * Note that starting_point (or a relevant inner pointer) may be NULL or all-0s to represent None
+ * Note that the return value (or a relevant inner pointer) may be NULL or all-0s to represent None
+ */
+ inline LDK::NodeAnnouncement get_next_node_announcement(struct LDKNodeId starting_point);
+ /**
+ * Called when a connection is established with a peer. This can be used to
+ * perform routing table synchronization using a strategy defined by the
+ * implementor.
+ *
+ * May return an `Err(())` if the features the peer supports are not sufficient to communicate
+ * with us. Implementors should be somewhat conservative about doing so, however, as other
+ * message handlers may still wish to communicate with this peer.
+ */
+ inline LDK::CResult_NoneNoneZ peer_connected(struct LDKPublicKey their_node_id, const struct LDKInit *NONNULL_PTR init, bool inbound);
+ /**
+ * Handles the reply of a query we initiated to learn about channels
+ * for a given range of blocks. We can expect to receive one or more
+ * replies to a single query.
+ */
+ inline LDK::CResult_NoneLightningErrorZ handle_reply_channel_range(struct LDKPublicKey their_node_id, struct LDKReplyChannelRange msg);
+ /**
+ * Handles the reply of a query we initiated asking for routing gossip
+ * messages for a list of channels. We should receive this message when
+ * a node has completed its best effort to send us the pertaining routing
+ * gossip messages.
+ */
+ inline LDK::CResult_NoneLightningErrorZ handle_reply_short_channel_ids_end(struct LDKPublicKey their_node_id, struct LDKReplyShortChannelIdsEnd msg);
+ /**
+ * Handles when a peer asks us to send a list of `short_channel_id`s
+ * for the requested range of blocks.
+ */
+ inline LDK::CResult_NoneLightningErrorZ handle_query_channel_range(struct LDKPublicKey their_node_id, struct LDKQueryChannelRange msg);
+ /**
+ * Handles when a peer asks us to send routing gossip messages for a
+ * list of `short_channel_id`s.
+ */
+ inline LDK::CResult_NoneLightningErrorZ handle_query_short_channel_ids(struct LDKPublicKey their_node_id, struct LDKQueryShortChannelIds msg);
+ /**
+ * Indicates that there are a large number of [`ChannelAnnouncement`] (or other) messages
+ * pending some async action. While there is no guarantee of the rate of future messages, the
+ * caller should seek to reduce the rate of new gossip messages handled, especially
+ * [`ChannelAnnouncement`]s.
+ */
+ inline bool processing_queue_high();
+ /**
+ * Gets the node feature flags which this handler itself supports. All available handlers are
+ * queried similarly and their feature flags are OR'd together to form the [`NodeFeatures`]
+ * which are broadcasted in our [`NodeAnnouncement`] message.
+ */
+ inline LDK::NodeFeatures provided_node_features();
+ /**
+ * Gets the init feature flags which should be sent to the given peer. All available handlers
+ * are queried similarly and their feature flags are OR'd together to form the [`InitFeatures`]
+ * which are sent in our [`Init`] message.
+ *
+ * Note that this method is called before [`Self::peer_connected`].
+ */
+ inline LDK::InitFeatures provided_init_features(struct LDKPublicKey their_node_id);
+};
+class OnionMessageHandler {
+private:
+ LDKOnionMessageHandler self;
+public:
+ OnionMessageHandler(const OnionMessageHandler&) = delete;
+ OnionMessageHandler(OnionMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(OnionMessageHandler)); }
+ OnionMessageHandler(LDKOnionMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOnionMessageHandler)); }
+ operator LDKOnionMessageHandler() && { LDKOnionMessageHandler res = self; memset(&self, 0, sizeof(LDKOnionMessageHandler)); return res; }
+ ~OnionMessageHandler() { OnionMessageHandler_free(self); }
+ OnionMessageHandler& operator=(OnionMessageHandler&& o) { OnionMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(OnionMessageHandler)); return *this; }
+ LDKOnionMessageHandler* operator &() { return &self; }
+ LDKOnionMessageHandler* operator ->() { return &self; }
+ const LDKOnionMessageHandler* operator &() const { return &self; }
+ const LDKOnionMessageHandler* operator ->() const { return &self; }
+ /**
+ * Because much of the lightning network does not yet support forwarding onion messages, we
+ * may need to directly connect to a node which will forward a message for us. In such a case,
+ * this method will return the set of nodes which need connection by node_id and the
+ * corresponding socket addresses where they may accept incoming connections.
+ *
+ * Thus, this method should be polled regularly to detect messages await such a direct
+ * connection.
+ */
+ inline LDK::CVec_C2Tuple_PublicKeyCVec_SocketAddressZZZ get_and_clear_connections_needed();
+ /**
+ * Handle an incoming `onion_message` message from the given peer.
+ */
+ inline void handle_onion_message(struct LDKPublicKey peer_node_id, const struct LDKOnionMessage *NONNULL_PTR msg);
+ /**
+ * Returns the next pending onion message for the peer with the given node id.
+ *
+ * Note that the return value (or a relevant inner pointer) may be NULL or all-0s to represent None
+ */
+ inline LDK::OnionMessage next_onion_message_for_peer(struct LDKPublicKey peer_node_id);
+ /**
+ * Called when a connection is established with a peer. Can be used to track which peers
+ * advertise onion message support and are online.
+ *
+ * May return an `Err(())` if the features the peer supports are not sufficient to communicate
+ * with us. Implementors should be somewhat conservative about doing so, however, as other
+ * message handlers may still wish to communicate with this peer.
+ */
+ inline LDK::CResult_NoneNoneZ peer_connected(struct LDKPublicKey their_node_id, const struct LDKInit *NONNULL_PTR init, bool inbound);
+ /**
+ * Indicates a connection to the peer failed/an existing connection was lost. Allows handlers to
+ * drop and refuse to forward onion messages to this peer.
+ */
+ inline void peer_disconnected(struct LDKPublicKey their_node_id);
+ /**
+ * Performs actions that should happen roughly every ten seconds after startup. Allows handlers
+ * to drop any buffered onion messages intended for prospective peers.
+ */
+ inline void timer_tick_occurred();
+ /**
+ * Gets the node feature flags which this handler itself supports. All available handlers are
+ * queried similarly and their feature flags are OR'd together to form the [`NodeFeatures`]
+ * which are broadcasted in our [`NodeAnnouncement`] message.
+ */
+ inline LDK::NodeFeatures provided_node_features();
+ /**
+ * Gets the init feature flags which should be sent to the given peer. All available handlers
+ * are queried similarly and their feature flags are OR'd together to form the [`InitFeatures`]
+ * which are sent in our [`Init`] message.
+ *
+ * Note that this method is called before [`Self::peer_connected`].
+ */
+ inline LDK::InitFeatures provided_init_features(struct LDKPublicKey their_node_id);
+};
+class FinalOnionHopData {
+private:
+ LDKFinalOnionHopData self;
+public:
+ FinalOnionHopData(const FinalOnionHopData&) = delete;
+ FinalOnionHopData(FinalOnionHopData&& o) : self(o.self) { memset(&o, 0, sizeof(FinalOnionHopData)); }
+ FinalOnionHopData(LDKFinalOnionHopData&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFinalOnionHopData)); }
+ operator LDKFinalOnionHopData() && { LDKFinalOnionHopData res = self; memset(&self, 0, sizeof(LDKFinalOnionHopData)); return res; }
+ ~FinalOnionHopData() { FinalOnionHopData_free(self); }
+ FinalOnionHopData& operator=(FinalOnionHopData&& o) { FinalOnionHopData_free(self); self = o.self; memset(&o, 0, sizeof(FinalOnionHopData)); return *this; }
+ LDKFinalOnionHopData* operator &() { return &self; }
+ LDKFinalOnionHopData* operator ->() { return &self; }
+ const LDKFinalOnionHopData* operator &() const { return &self; }
+ const LDKFinalOnionHopData* operator ->() const { return &self; }
+};
+class OnionPacket {
+private:
+ LDKOnionPacket self;
+public:
+ OnionPacket(const OnionPacket&) = delete;
+ OnionPacket(OnionPacket&& o) : self(o.self) { memset(&o, 0, sizeof(OnionPacket)); }
+ OnionPacket(LDKOnionPacket&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOnionPacket)); }
+ operator LDKOnionPacket() && { LDKOnionPacket res = self; memset(&self, 0, sizeof(LDKOnionPacket)); return res; }
+ ~OnionPacket() { OnionPacket_free(self); }
+ OnionPacket& operator=(OnionPacket&& o) { OnionPacket_free(self); self = o.self; memset(&o, 0, sizeof(OnionPacket)); return *this; }
+ LDKOnionPacket* operator &() { return &self; }
+ LDKOnionPacket* operator ->() { return &self; }
+ const LDKOnionPacket* operator &() const { return &self; }
+ const LDKOnionPacket* operator ->() const { return &self; }
+};
+class TrampolineOnionPacket {
+private:
+ LDKTrampolineOnionPacket self;
+public:
+ TrampolineOnionPacket(const TrampolineOnionPacket&) = delete;
+ TrampolineOnionPacket(TrampolineOnionPacket&& o) : self(o.self) { memset(&o, 0, sizeof(TrampolineOnionPacket)); }
+ TrampolineOnionPacket(LDKTrampolineOnionPacket&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTrampolineOnionPacket)); }
+ operator LDKTrampolineOnionPacket() && { LDKTrampolineOnionPacket res = self; memset(&self, 0, sizeof(LDKTrampolineOnionPacket)); return res; }
+ ~TrampolineOnionPacket() { TrampolineOnionPacket_free(self); }
+ TrampolineOnionPacket& operator=(TrampolineOnionPacket&& o) { TrampolineOnionPacket_free(self); self = o.self; memset(&o, 0, sizeof(TrampolineOnionPacket)); return *this; }
+ LDKTrampolineOnionPacket* operator &() { return &self; }
+ LDKTrampolineOnionPacket* operator ->() { return &self; }
+ const LDKTrampolineOnionPacket* operator &() const { return &self; }
+ const LDKTrampolineOnionPacket* operator ->() const { return &self; }
+};
+class Level {
+private:
+ LDKLevel self;
+public:
+ Level(const Level&) = delete;
+ Level(Level&& o) : self(o.self) { memset(&o, 0, sizeof(Level)); }
+ Level(LDKLevel&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLevel)); }
+ operator LDKLevel() && { LDKLevel res = self; memset(&self, 0, sizeof(LDKLevel)); return res; }
+ Level& operator=(Level&& o) { self = o.self; memset(&o, 0, sizeof(Level)); return *this; }
+ LDKLevel* operator &() { return &self; }
+ LDKLevel* operator ->() { return &self; }
+ const LDKLevel* operator &() const { return &self; }
+ const LDKLevel* operator ->() const { return &self; }
+};
+class Record {
+private:
+ LDKRecord self;
+public:
+ Record(const Record&) = delete;
+ Record(Record&& o) : self(o.self) { memset(&o, 0, sizeof(Record)); }
+ Record(LDKRecord&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRecord)); }
+ operator LDKRecord() && { LDKRecord res = self; memset(&self, 0, sizeof(LDKRecord)); return res; }
+ ~Record() { Record_free(self); }
+ Record& operator=(Record&& o) { Record_free(self); self = o.self; memset(&o, 0, sizeof(Record)); return *this; }
+ LDKRecord* operator &() { return &self; }
+ LDKRecord* operator ->() { return &self; }
+ const LDKRecord* operator &() const { return &self; }
+ const LDKRecord* operator ->() const { return &self; }
+};
+class Logger {
+private:
+ LDKLogger self;
+public:
+ Logger(const Logger&) = delete;
+ Logger(Logger&& o) : self(o.self) { memset(&o, 0, sizeof(Logger)); }
+ Logger(LDKLogger&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLogger)); }
+ operator LDKLogger() && { LDKLogger res = self; memset(&self, 0, sizeof(LDKLogger)); return res; }
+ ~Logger() { Logger_free(self); }
+ Logger& operator=(Logger&& o) { Logger_free(self); self = o.self; memset(&o, 0, sizeof(Logger)); return *this; }
+ LDKLogger* operator &() { return &self; }
+ LDKLogger* operator ->() { return &self; }
+ const LDKLogger* operator &() const { return &self; }
+ const LDKLogger* operator ->() const { return &self; }
+ /**
+ * Logs the [`Record`].
+ */
+ inline void log(struct LDKRecord record);
+};
+class InboundHTLCStateDetails {
+private:
+ LDKInboundHTLCStateDetails self;
+public:
+ InboundHTLCStateDetails(const InboundHTLCStateDetails&) = delete;
+ InboundHTLCStateDetails(InboundHTLCStateDetails&& o) : self(o.self) { memset(&o, 0, sizeof(InboundHTLCStateDetails)); }
+ InboundHTLCStateDetails(LDKInboundHTLCStateDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInboundHTLCStateDetails)); }
+ operator LDKInboundHTLCStateDetails() && { LDKInboundHTLCStateDetails res = self; memset(&self, 0, sizeof(LDKInboundHTLCStateDetails)); return res; }
+ InboundHTLCStateDetails& operator=(InboundHTLCStateDetails&& o) { self = o.self; memset(&o, 0, sizeof(InboundHTLCStateDetails)); return *this; }
+ LDKInboundHTLCStateDetails* operator &() { return &self; }
+ LDKInboundHTLCStateDetails* operator ->() { return &self; }
+ const LDKInboundHTLCStateDetails* operator &() const { return &self; }
+ const LDKInboundHTLCStateDetails* operator ->() const { return &self; }
+};
+class InboundHTLCDetails {
+private:
+ LDKInboundHTLCDetails self;
+public:
+ InboundHTLCDetails(const InboundHTLCDetails&) = delete;
+ InboundHTLCDetails(InboundHTLCDetails&& o) : self(o.self) { memset(&o, 0, sizeof(InboundHTLCDetails)); }
+ InboundHTLCDetails(LDKInboundHTLCDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInboundHTLCDetails)); }
+ operator LDKInboundHTLCDetails() && { LDKInboundHTLCDetails res = self; memset(&self, 0, sizeof(LDKInboundHTLCDetails)); return res; }
+ ~InboundHTLCDetails() { InboundHTLCDetails_free(self); }
+ InboundHTLCDetails& operator=(InboundHTLCDetails&& o) { InboundHTLCDetails_free(self); self = o.self; memset(&o, 0, sizeof(InboundHTLCDetails)); return *this; }
+ LDKInboundHTLCDetails* operator &() { return &self; }
+ LDKInboundHTLCDetails* operator ->() { return &self; }
+ const LDKInboundHTLCDetails* operator &() const { return &self; }
+ const LDKInboundHTLCDetails* operator ->() const { return &self; }
+};
+class OutboundHTLCStateDetails {
+private:
+ LDKOutboundHTLCStateDetails self;
+public:
+ OutboundHTLCStateDetails(const OutboundHTLCStateDetails&) = delete;
+ OutboundHTLCStateDetails(OutboundHTLCStateDetails&& o) : self(o.self) { memset(&o, 0, sizeof(OutboundHTLCStateDetails)); }
+ OutboundHTLCStateDetails(LDKOutboundHTLCStateDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOutboundHTLCStateDetails)); }
+ operator LDKOutboundHTLCStateDetails() && { LDKOutboundHTLCStateDetails res = self; memset(&self, 0, sizeof(LDKOutboundHTLCStateDetails)); return res; }
+ OutboundHTLCStateDetails& operator=(OutboundHTLCStateDetails&& o) { self = o.self; memset(&o, 0, sizeof(OutboundHTLCStateDetails)); return *this; }
+ LDKOutboundHTLCStateDetails* operator &() { return &self; }
+ LDKOutboundHTLCStateDetails* operator ->() { return &self; }
+ const LDKOutboundHTLCStateDetails* operator &() const { return &self; }
+ const LDKOutboundHTLCStateDetails* operator ->() const { return &self; }
+};
+class OutboundHTLCDetails {
+private:
+ LDKOutboundHTLCDetails self;
+public:
+ OutboundHTLCDetails(const OutboundHTLCDetails&) = delete;
+ OutboundHTLCDetails(OutboundHTLCDetails&& o) : self(o.self) { memset(&o, 0, sizeof(OutboundHTLCDetails)); }
+ OutboundHTLCDetails(LDKOutboundHTLCDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOutboundHTLCDetails)); }
+ operator LDKOutboundHTLCDetails() && { LDKOutboundHTLCDetails res = self; memset(&self, 0, sizeof(LDKOutboundHTLCDetails)); return res; }
+ ~OutboundHTLCDetails() { OutboundHTLCDetails_free(self); }
+ OutboundHTLCDetails& operator=(OutboundHTLCDetails&& o) { OutboundHTLCDetails_free(self); self = o.self; memset(&o, 0, sizeof(OutboundHTLCDetails)); return *this; }
+ LDKOutboundHTLCDetails* operator &() { return &self; }
+ LDKOutboundHTLCDetails* operator ->() { return &self; }
+ const LDKOutboundHTLCDetails* operator &() const { return &self; }
+ const LDKOutboundHTLCDetails* operator ->() const { return &self; }
+};
+class CounterpartyForwardingInfo {
+private:
+ LDKCounterpartyForwardingInfo self;
+public:
+ CounterpartyForwardingInfo(const CounterpartyForwardingInfo&) = delete;
+ CounterpartyForwardingInfo(CounterpartyForwardingInfo&& o) : self(o.self) { memset(&o, 0, sizeof(CounterpartyForwardingInfo)); }
+ CounterpartyForwardingInfo(LDKCounterpartyForwardingInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCounterpartyForwardingInfo)); }
+ operator LDKCounterpartyForwardingInfo() && { LDKCounterpartyForwardingInfo res = self; memset(&self, 0, sizeof(LDKCounterpartyForwardingInfo)); return res; }
+ ~CounterpartyForwardingInfo() { CounterpartyForwardingInfo_free(self); }
+ CounterpartyForwardingInfo& operator=(CounterpartyForwardingInfo&& o) { CounterpartyForwardingInfo_free(self); self = o.self; memset(&o, 0, sizeof(CounterpartyForwardingInfo)); return *this; }
+ LDKCounterpartyForwardingInfo* operator &() { return &self; }
+ LDKCounterpartyForwardingInfo* operator ->() { return &self; }
+ const LDKCounterpartyForwardingInfo* operator &() const { return &self; }
+ const LDKCounterpartyForwardingInfo* operator ->() const { return &self; }
+};
+class ChannelCounterparty {
+private:
+ LDKChannelCounterparty self;
+public:
+ ChannelCounterparty(const ChannelCounterparty&) = delete;
+ ChannelCounterparty(ChannelCounterparty&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelCounterparty)); }
+ ChannelCounterparty(LDKChannelCounterparty&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelCounterparty)); }
+ operator LDKChannelCounterparty() && { LDKChannelCounterparty res = self; memset(&self, 0, sizeof(LDKChannelCounterparty)); return res; }
+ ~ChannelCounterparty() { ChannelCounterparty_free(self); }
+ ChannelCounterparty& operator=(ChannelCounterparty&& o) { ChannelCounterparty_free(self); self = o.self; memset(&o, 0, sizeof(ChannelCounterparty)); return *this; }
+ LDKChannelCounterparty* operator &() { return &self; }
+ LDKChannelCounterparty* operator ->() { return &self; }
+ const LDKChannelCounterparty* operator &() const { return &self; }
+ const LDKChannelCounterparty* operator ->() const { return &self; }
+};
+class ChannelDetails {
+private:
+ LDKChannelDetails self;
+public:
+ ChannelDetails(const ChannelDetails&) = delete;
+ ChannelDetails(ChannelDetails&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelDetails)); }
+ ChannelDetails(LDKChannelDetails&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelDetails)); }
+ operator LDKChannelDetails() && { LDKChannelDetails res = self; memset(&self, 0, sizeof(LDKChannelDetails)); return res; }
+ ~ChannelDetails() { ChannelDetails_free(self); }
+ ChannelDetails& operator=(ChannelDetails&& o) { ChannelDetails_free(self); self = o.self; memset(&o, 0, sizeof(ChannelDetails)); return *this; }
+ LDKChannelDetails* operator &() { return &self; }
+ LDKChannelDetails* operator ->() { return &self; }
+ const LDKChannelDetails* operator &() const { return &self; }
+ const LDKChannelDetails* operator ->() const { return &self; }
+};
+class ChannelShutdownState {
+private:
+ LDKChannelShutdownState self;
+public:
+ ChannelShutdownState(const ChannelShutdownState&) = delete;
+ ChannelShutdownState(ChannelShutdownState&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelShutdownState)); }
+ ChannelShutdownState(LDKChannelShutdownState&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelShutdownState)); }
+ operator LDKChannelShutdownState() && { LDKChannelShutdownState res = self; memset(&self, 0, sizeof(LDKChannelShutdownState)); return res; }
+ ChannelShutdownState& operator=(ChannelShutdownState&& o) { self = o.self; memset(&o, 0, sizeof(ChannelShutdownState)); return *this; }
+ LDKChannelShutdownState* operator &() { return &self; }
+ LDKChannelShutdownState* operator ->() { return &self; }
+ const LDKChannelShutdownState* operator &() const { return &self; }
+ const LDKChannelShutdownState* operator ->() const { return &self; }
+};
+class FutureCallback {
+private:
+ LDKFutureCallback self;
+public:
+ FutureCallback(const FutureCallback&) = delete;
+ FutureCallback(FutureCallback&& o) : self(o.self) { memset(&o, 0, sizeof(FutureCallback)); }
+ FutureCallback(LDKFutureCallback&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFutureCallback)); }
+ operator LDKFutureCallback() && { LDKFutureCallback res = self; memset(&self, 0, sizeof(LDKFutureCallback)); return res; }
+ ~FutureCallback() { FutureCallback_free(self); }
+ FutureCallback& operator=(FutureCallback&& o) { FutureCallback_free(self); self = o.self; memset(&o, 0, sizeof(FutureCallback)); return *this; }
+ LDKFutureCallback* operator &() { return &self; }
+ LDKFutureCallback* operator ->() { return &self; }
+ const LDKFutureCallback* operator &() const { return &self; }
+ const LDKFutureCallback* operator ->() const { return &self; }
+ /**
+ * The method which is called.
+ */
+ inline void call();
+};
+class Future {
+private:
+ LDKFuture self;
+public:
+ Future(const Future&) = delete;
+ Future(Future&& o) : self(o.self) { memset(&o, 0, sizeof(Future)); }
+ Future(LDKFuture&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFuture)); }
+ operator LDKFuture() && { LDKFuture res = self; memset(&self, 0, sizeof(LDKFuture)); return res; }
+ ~Future() { Future_free(self); }
+ Future& operator=(Future&& o) { Future_free(self); self = o.self; memset(&o, 0, sizeof(Future)); return *this; }
+ LDKFuture* operator &() { return &self; }
+ LDKFuture* operator ->() { return &self; }
+ const LDKFuture* operator &() const { return &self; }
+ const LDKFuture* operator ->() const { return &self; }
+};
+class Sleeper {
+private:
+ LDKSleeper self;
+public:
+ Sleeper(const Sleeper&) = delete;
+ Sleeper(Sleeper&& o) : self(o.self) { memset(&o, 0, sizeof(Sleeper)); }
+ Sleeper(LDKSleeper&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSleeper)); }
+ operator LDKSleeper() && { LDKSleeper res = self; memset(&self, 0, sizeof(LDKSleeper)); return res; }
+ ~Sleeper() { Sleeper_free(self); }
+ Sleeper& operator=(Sleeper&& o) { Sleeper_free(self); self = o.self; memset(&o, 0, sizeof(Sleeper)); return *this; }
+ LDKSleeper* operator &() { return &self; }
+ LDKSleeper* operator ->() { return &self; }
+ const LDKSleeper* operator &() const { return &self; }
+ const LDKSleeper* operator ->() const { return &self; }
+};
+class OffersMessageHandler {
+private:
+ LDKOffersMessageHandler self;
+public:
+ OffersMessageHandler(const OffersMessageHandler&) = delete;
+ OffersMessageHandler(OffersMessageHandler&& o) : self(o.self) { memset(&o, 0, sizeof(OffersMessageHandler)); }
+ OffersMessageHandler(LDKOffersMessageHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOffersMessageHandler)); }
+ operator LDKOffersMessageHandler() && { LDKOffersMessageHandler res = self; memset(&self, 0, sizeof(LDKOffersMessageHandler)); return res; }
+ ~OffersMessageHandler() { OffersMessageHandler_free(self); }
+ OffersMessageHandler& operator=(OffersMessageHandler&& o) { OffersMessageHandler_free(self); self = o.self; memset(&o, 0, sizeof(OffersMessageHandler)); return *this; }
+ LDKOffersMessageHandler* operator &() { return &self; }
+ LDKOffersMessageHandler* operator ->() { return &self; }
+ const LDKOffersMessageHandler* operator &() const { return &self; }
+ const LDKOffersMessageHandler* operator ->() const { return &self; }
+ /**
+ * Handles the given message by either responding with an [`Bolt12Invoice`], sending a payment,
+ * or replying with an error.
+ *
+ * The returned [`OffersMessage`], if any, is enqueued to be sent by [`OnionMessenger`].
+ *
+ * [`OnionMessenger`]: crate::onion_message::messenger::OnionMessenger
+ */
+ inline LDK::COption_OffersMessageZ handle_message(struct LDKOffersMessage message);
+ /**
+ * Releases any [`OffersMessage`]s that need to be sent.
+ *
+ * Typically, this is used for messages initiating a payment flow rather than in response to
+ * another message. The latter should use the return value of [`Self::handle_message`].
+ */
+ inline LDK::CVec_C3Tuple_OffersMessageDestinationBlindedPathZZ release_pending_messages();
+};
+class OffersMessage {
+private:
+ LDKOffersMessage self;
+public:
+ OffersMessage(const OffersMessage&) = delete;
+ OffersMessage(OffersMessage&& o) : self(o.self) { memset(&o, 0, sizeof(OffersMessage)); }
+ OffersMessage(LDKOffersMessage&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOffersMessage)); }
+ operator LDKOffersMessage() && { LDKOffersMessage res = self; memset(&self, 0, sizeof(LDKOffersMessage)); return res; }
+ ~OffersMessage() { OffersMessage_free(self); }
+ OffersMessage& operator=(OffersMessage&& o) { OffersMessage_free(self); self = o.self; memset(&o, 0, sizeof(OffersMessage)); return *this; }
+ LDKOffersMessage* operator &() { return &self; }
+ LDKOffersMessage* operator ->() { return &self; }
+ const LDKOffersMessage* operator &() const { return &self; }
+ const LDKOffersMessage* operator ->() const { return &self; }
+};
+class HTLCClaim {
+private:
+ LDKHTLCClaim self;
+public:
+ HTLCClaim(const HTLCClaim&) = delete;
+ HTLCClaim(HTLCClaim&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCClaim)); }
+ HTLCClaim(LDKHTLCClaim&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCClaim)); }
+ operator LDKHTLCClaim() && { LDKHTLCClaim res = self; memset(&self, 0, sizeof(LDKHTLCClaim)); return res; }
+ HTLCClaim& operator=(HTLCClaim&& o) { self = o.self; memset(&o, 0, sizeof(HTLCClaim)); return *this; }
+ LDKHTLCClaim* operator &() { return &self; }
+ LDKHTLCClaim* operator ->() { return &self; }
+ const LDKHTLCClaim* operator &() const { return &self; }
+ const LDKHTLCClaim* operator ->() const { return &self; }
+};
+class CounterpartyCommitmentSecrets {
+private:
+ LDKCounterpartyCommitmentSecrets self;
+public:
+ CounterpartyCommitmentSecrets(const CounterpartyCommitmentSecrets&) = delete;
+ CounterpartyCommitmentSecrets(CounterpartyCommitmentSecrets&& o) : self(o.self) { memset(&o, 0, sizeof(CounterpartyCommitmentSecrets)); }
+ CounterpartyCommitmentSecrets(LDKCounterpartyCommitmentSecrets&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCounterpartyCommitmentSecrets)); }
+ operator LDKCounterpartyCommitmentSecrets() && { LDKCounterpartyCommitmentSecrets res = self; memset(&self, 0, sizeof(LDKCounterpartyCommitmentSecrets)); return res; }
+ ~CounterpartyCommitmentSecrets() { CounterpartyCommitmentSecrets_free(self); }
+ CounterpartyCommitmentSecrets& operator=(CounterpartyCommitmentSecrets&& o) { CounterpartyCommitmentSecrets_free(self); self = o.self; memset(&o, 0, sizeof(CounterpartyCommitmentSecrets)); return *this; }
+ LDKCounterpartyCommitmentSecrets* operator &() { return &self; }
+ LDKCounterpartyCommitmentSecrets* operator ->() { return &self; }
+ const LDKCounterpartyCommitmentSecrets* operator &() const { return &self; }
+ const LDKCounterpartyCommitmentSecrets* operator ->() const { return &self; }
+};
+class TxCreationKeys {
+private:
+ LDKTxCreationKeys self;
+public:
+ TxCreationKeys(const TxCreationKeys&) = delete;
+ TxCreationKeys(TxCreationKeys&& o) : self(o.self) { memset(&o, 0, sizeof(TxCreationKeys)); }
+ TxCreationKeys(LDKTxCreationKeys&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTxCreationKeys)); }
+ operator LDKTxCreationKeys() && { LDKTxCreationKeys res = self; memset(&self, 0, sizeof(LDKTxCreationKeys)); return res; }
+ ~TxCreationKeys() { TxCreationKeys_free(self); }
+ TxCreationKeys& operator=(TxCreationKeys&& o) { TxCreationKeys_free(self); self = o.self; memset(&o, 0, sizeof(TxCreationKeys)); return *this; }
+ LDKTxCreationKeys* operator &() { return &self; }
+ LDKTxCreationKeys* operator ->() { return &self; }
+ const LDKTxCreationKeys* operator &() const { return &self; }
+ const LDKTxCreationKeys* operator ->() const { return &self; }
+};
+class ChannelPublicKeys {
+private:
+ LDKChannelPublicKeys self;
+public:
+ ChannelPublicKeys(const ChannelPublicKeys&) = delete;
+ ChannelPublicKeys(ChannelPublicKeys&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelPublicKeys)); }
+ ChannelPublicKeys(LDKChannelPublicKeys&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelPublicKeys)); }
+ operator LDKChannelPublicKeys() && { LDKChannelPublicKeys res = self; memset(&self, 0, sizeof(LDKChannelPublicKeys)); return res; }
+ ~ChannelPublicKeys() { ChannelPublicKeys_free(self); }
+ ChannelPublicKeys& operator=(ChannelPublicKeys&& o) { ChannelPublicKeys_free(self); self = o.self; memset(&o, 0, sizeof(ChannelPublicKeys)); return *this; }
+ LDKChannelPublicKeys* operator &() { return &self; }
+ LDKChannelPublicKeys* operator ->() { return &self; }
+ const LDKChannelPublicKeys* operator &() const { return &self; }
+ const LDKChannelPublicKeys* operator ->() const { return &self; }
+};
+class HTLCOutputInCommitment {
+private:
+ LDKHTLCOutputInCommitment self;
+public:
+ HTLCOutputInCommitment(const HTLCOutputInCommitment&) = delete;
+ HTLCOutputInCommitment(HTLCOutputInCommitment&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCOutputInCommitment)); }
+ HTLCOutputInCommitment(LDKHTLCOutputInCommitment&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCOutputInCommitment)); }
+ operator LDKHTLCOutputInCommitment() && { LDKHTLCOutputInCommitment res = self; memset(&self, 0, sizeof(LDKHTLCOutputInCommitment)); return res; }
+ ~HTLCOutputInCommitment() { HTLCOutputInCommitment_free(self); }
+ HTLCOutputInCommitment& operator=(HTLCOutputInCommitment&& o) { HTLCOutputInCommitment_free(self); self = o.self; memset(&o, 0, sizeof(HTLCOutputInCommitment)); return *this; }
+ LDKHTLCOutputInCommitment* operator &() { return &self; }
+ LDKHTLCOutputInCommitment* operator ->() { return &self; }
+ const LDKHTLCOutputInCommitment* operator &() const { return &self; }
+ const LDKHTLCOutputInCommitment* operator ->() const { return &self; }
+};
+class ChannelTransactionParameters {
+private:
+ LDKChannelTransactionParameters self;
+public:
+ ChannelTransactionParameters(const ChannelTransactionParameters&) = delete;
+ ChannelTransactionParameters(ChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelTransactionParameters)); }
+ ChannelTransactionParameters(LDKChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelTransactionParameters)); }
+ operator LDKChannelTransactionParameters() && { LDKChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKChannelTransactionParameters)); return res; }
+ ~ChannelTransactionParameters() { ChannelTransactionParameters_free(self); }
+ ChannelTransactionParameters& operator=(ChannelTransactionParameters&& o) { ChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(ChannelTransactionParameters)); return *this; }
+ LDKChannelTransactionParameters* operator &() { return &self; }
+ LDKChannelTransactionParameters* operator ->() { return &self; }
+ const LDKChannelTransactionParameters* operator &() const { return &self; }
+ const LDKChannelTransactionParameters* operator ->() const { return &self; }
+};
+class CounterpartyChannelTransactionParameters {
+private:
+ LDKCounterpartyChannelTransactionParameters self;
+public:
+ CounterpartyChannelTransactionParameters(const CounterpartyChannelTransactionParameters&) = delete;
+ CounterpartyChannelTransactionParameters(CounterpartyChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(CounterpartyChannelTransactionParameters)); }
+ CounterpartyChannelTransactionParameters(LDKCounterpartyChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCounterpartyChannelTransactionParameters)); }
+ operator LDKCounterpartyChannelTransactionParameters() && { LDKCounterpartyChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKCounterpartyChannelTransactionParameters)); return res; }
+ ~CounterpartyChannelTransactionParameters() { CounterpartyChannelTransactionParameters_free(self); }
+ CounterpartyChannelTransactionParameters& operator=(CounterpartyChannelTransactionParameters&& o) { CounterpartyChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(CounterpartyChannelTransactionParameters)); return *this; }
+ LDKCounterpartyChannelTransactionParameters* operator &() { return &self; }
+ LDKCounterpartyChannelTransactionParameters* operator ->() { return &self; }
+ const LDKCounterpartyChannelTransactionParameters* operator &() const { return &self; }
+ const LDKCounterpartyChannelTransactionParameters* operator ->() const { return &self; }
+};
+class DirectedChannelTransactionParameters {
+private:
+ LDKDirectedChannelTransactionParameters self;
+public:
+ DirectedChannelTransactionParameters(const DirectedChannelTransactionParameters&) = delete;
+ DirectedChannelTransactionParameters(DirectedChannelTransactionParameters&& o) : self(o.self) { memset(&o, 0, sizeof(DirectedChannelTransactionParameters)); }
+ DirectedChannelTransactionParameters(LDKDirectedChannelTransactionParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDirectedChannelTransactionParameters)); }
+ operator LDKDirectedChannelTransactionParameters() && { LDKDirectedChannelTransactionParameters res = self; memset(&self, 0, sizeof(LDKDirectedChannelTransactionParameters)); return res; }
+ ~DirectedChannelTransactionParameters() { DirectedChannelTransactionParameters_free(self); }
+ DirectedChannelTransactionParameters& operator=(DirectedChannelTransactionParameters&& o) { DirectedChannelTransactionParameters_free(self); self = o.self; memset(&o, 0, sizeof(DirectedChannelTransactionParameters)); return *this; }
+ LDKDirectedChannelTransactionParameters* operator &() { return &self; }
+ LDKDirectedChannelTransactionParameters* operator ->() { return &self; }
+ const LDKDirectedChannelTransactionParameters* operator &() const { return &self; }
+ const LDKDirectedChannelTransactionParameters* operator ->() const { return &self; }
+};
+class HolderCommitmentTransaction {
+private:
+ LDKHolderCommitmentTransaction self;
+public:
+ HolderCommitmentTransaction(const HolderCommitmentTransaction&) = delete;
+ HolderCommitmentTransaction(HolderCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(HolderCommitmentTransaction)); }
+ HolderCommitmentTransaction(LDKHolderCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHolderCommitmentTransaction)); }
+ operator LDKHolderCommitmentTransaction() && { LDKHolderCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKHolderCommitmentTransaction)); return res; }
+ ~HolderCommitmentTransaction() { HolderCommitmentTransaction_free(self); }
+ HolderCommitmentTransaction& operator=(HolderCommitmentTransaction&& o) { HolderCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(HolderCommitmentTransaction)); return *this; }
+ LDKHolderCommitmentTransaction* operator &() { return &self; }
+ LDKHolderCommitmentTransaction* operator ->() { return &self; }
+ const LDKHolderCommitmentTransaction* operator &() const { return &self; }
+ const LDKHolderCommitmentTransaction* operator ->() const { return &self; }
+};
+class BuiltCommitmentTransaction {
+private:
+ LDKBuiltCommitmentTransaction self;
+public:
+ BuiltCommitmentTransaction(const BuiltCommitmentTransaction&) = delete;
+ BuiltCommitmentTransaction(BuiltCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(BuiltCommitmentTransaction)); }
+ BuiltCommitmentTransaction(LDKBuiltCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBuiltCommitmentTransaction)); }
+ operator LDKBuiltCommitmentTransaction() && { LDKBuiltCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKBuiltCommitmentTransaction)); return res; }
+ ~BuiltCommitmentTransaction() { BuiltCommitmentTransaction_free(self); }
+ BuiltCommitmentTransaction& operator=(BuiltCommitmentTransaction&& o) { BuiltCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(BuiltCommitmentTransaction)); return *this; }
+ LDKBuiltCommitmentTransaction* operator &() { return &self; }
+ LDKBuiltCommitmentTransaction* operator ->() { return &self; }
+ const LDKBuiltCommitmentTransaction* operator &() const { return &self; }
+ const LDKBuiltCommitmentTransaction* operator ->() const { return &self; }
+};
+class ClosingTransaction {
+private:
+ LDKClosingTransaction self;
+public:
+ ClosingTransaction(const ClosingTransaction&) = delete;
+ ClosingTransaction(ClosingTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(ClosingTransaction)); }
+ ClosingTransaction(LDKClosingTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClosingTransaction)); }
+ operator LDKClosingTransaction() && { LDKClosingTransaction res = self; memset(&self, 0, sizeof(LDKClosingTransaction)); return res; }
+ ~ClosingTransaction() { ClosingTransaction_free(self); }
+ ClosingTransaction& operator=(ClosingTransaction&& o) { ClosingTransaction_free(self); self = o.self; memset(&o, 0, sizeof(ClosingTransaction)); return *this; }
+ LDKClosingTransaction* operator &() { return &self; }
+ LDKClosingTransaction* operator ->() { return &self; }
+ const LDKClosingTransaction* operator &() const { return &self; }
+ const LDKClosingTransaction* operator ->() const { return &self; }
+};
+class TrustedClosingTransaction {
+private:
+ LDKTrustedClosingTransaction self;
+public:
+ TrustedClosingTransaction(const TrustedClosingTransaction&) = delete;
+ TrustedClosingTransaction(TrustedClosingTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(TrustedClosingTransaction)); }
+ TrustedClosingTransaction(LDKTrustedClosingTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTrustedClosingTransaction)); }
+ operator LDKTrustedClosingTransaction() && { LDKTrustedClosingTransaction res = self; memset(&self, 0, sizeof(LDKTrustedClosingTransaction)); return res; }
+ ~TrustedClosingTransaction() { TrustedClosingTransaction_free(self); }
+ TrustedClosingTransaction& operator=(TrustedClosingTransaction&& o) { TrustedClosingTransaction_free(self); self = o.self; memset(&o, 0, sizeof(TrustedClosingTransaction)); return *this; }
+ LDKTrustedClosingTransaction* operator &() { return &self; }
+ LDKTrustedClosingTransaction* operator ->() { return &self; }
+ const LDKTrustedClosingTransaction* operator &() const { return &self; }
+ const LDKTrustedClosingTransaction* operator ->() const { return &self; }
+};
+class CommitmentTransaction {
+private:
+ LDKCommitmentTransaction self;
+public:
+ CommitmentTransaction(const CommitmentTransaction&) = delete;
+ CommitmentTransaction(CommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(CommitmentTransaction)); }
+ CommitmentTransaction(LDKCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCommitmentTransaction)); }
+ operator LDKCommitmentTransaction() && { LDKCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKCommitmentTransaction)); return res; }
+ ~CommitmentTransaction() { CommitmentTransaction_free(self); }
+ CommitmentTransaction& operator=(CommitmentTransaction&& o) { CommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(CommitmentTransaction)); return *this; }
+ LDKCommitmentTransaction* operator &() { return &self; }
+ LDKCommitmentTransaction* operator ->() { return &self; }
+ const LDKCommitmentTransaction* operator &() const { return &self; }
+ const LDKCommitmentTransaction* operator ->() const { return &self; }
+};
+class TrustedCommitmentTransaction {
+private:
+ LDKTrustedCommitmentTransaction self;
+public:
+ TrustedCommitmentTransaction(const TrustedCommitmentTransaction&) = delete;
+ TrustedCommitmentTransaction(TrustedCommitmentTransaction&& o) : self(o.self) { memset(&o, 0, sizeof(TrustedCommitmentTransaction)); }
+ TrustedCommitmentTransaction(LDKTrustedCommitmentTransaction&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKTrustedCommitmentTransaction)); }
+ operator LDKTrustedCommitmentTransaction() && { LDKTrustedCommitmentTransaction res = self; memset(&self, 0, sizeof(LDKTrustedCommitmentTransaction)); return res; }
+ ~TrustedCommitmentTransaction() { TrustedCommitmentTransaction_free(self); }
+ TrustedCommitmentTransaction& operator=(TrustedCommitmentTransaction&& o) { TrustedCommitmentTransaction_free(self); self = o.self; memset(&o, 0, sizeof(TrustedCommitmentTransaction)); return *this; }
+ LDKTrustedCommitmentTransaction* operator &() { return &self; }
+ LDKTrustedCommitmentTransaction* operator ->() { return &self; }
+ const LDKTrustedCommitmentTransaction* operator &() const { return &self; }
+ const LDKTrustedCommitmentTransaction* operator ->() const { return &self; }
+};
+class ShutdownScript {
+private:
+ LDKShutdownScript self;
+public:
+ ShutdownScript(const ShutdownScript&) = delete;
+ ShutdownScript(ShutdownScript&& o) : self(o.self) { memset(&o, 0, sizeof(ShutdownScript)); }
+ ShutdownScript(LDKShutdownScript&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKShutdownScript)); }
+ operator LDKShutdownScript() && { LDKShutdownScript res = self; memset(&self, 0, sizeof(LDKShutdownScript)); return res; }
+ ~ShutdownScript() { ShutdownScript_free(self); }
+ ShutdownScript& operator=(ShutdownScript&& o) { ShutdownScript_free(self); self = o.self; memset(&o, 0, sizeof(ShutdownScript)); return *this; }
+ LDKShutdownScript* operator &() { return &self; }
+ LDKShutdownScript* operator ->() { return &self; }
+ const LDKShutdownScript* operator &() const { return &self; }
+ const LDKShutdownScript* operator ->() const { return &self; }
+};
+class InvalidShutdownScript {
+private:
+ LDKInvalidShutdownScript self;
+public:
+ InvalidShutdownScript(const InvalidShutdownScript&) = delete;
+ InvalidShutdownScript(InvalidShutdownScript&& o) : self(o.self) { memset(&o, 0, sizeof(InvalidShutdownScript)); }
+ InvalidShutdownScript(LDKInvalidShutdownScript&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvalidShutdownScript)); }
+ operator LDKInvalidShutdownScript() && { LDKInvalidShutdownScript res = self; memset(&self, 0, sizeof(LDKInvalidShutdownScript)); return res; }
+ ~InvalidShutdownScript() { InvalidShutdownScript_free(self); }
+ InvalidShutdownScript& operator=(InvalidShutdownScript&& o) { InvalidShutdownScript_free(self); self = o.self; memset(&o, 0, sizeof(InvalidShutdownScript)); return *this; }
+ LDKInvalidShutdownScript* operator &() { return &self; }
+ LDKInvalidShutdownScript* operator ->() { return &self; }
+ const LDKInvalidShutdownScript* operator &() const { return &self; }
+ const LDKInvalidShutdownScript* operator ->() const { return &self; }
+};
+class Bolt12ParseError {
+private:
+ LDKBolt12ParseError self;
+public:
+ Bolt12ParseError(const Bolt12ParseError&) = delete;
+ Bolt12ParseError(Bolt12ParseError&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt12ParseError)); }
+ Bolt12ParseError(LDKBolt12ParseError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt12ParseError)); }
+ operator LDKBolt12ParseError() && { LDKBolt12ParseError res = self; memset(&self, 0, sizeof(LDKBolt12ParseError)); return res; }
+ ~Bolt12ParseError() { Bolt12ParseError_free(self); }
+ Bolt12ParseError& operator=(Bolt12ParseError&& o) { Bolt12ParseError_free(self); self = o.self; memset(&o, 0, sizeof(Bolt12ParseError)); return *this; }
+ LDKBolt12ParseError* operator &() { return &self; }
+ LDKBolt12ParseError* operator ->() { return &self; }
+ const LDKBolt12ParseError* operator &() const { return &self; }
+ const LDKBolt12ParseError* operator ->() const { return &self; }
+};
+class Bolt12SemanticError {
+private:
+ LDKBolt12SemanticError self;
+public:
+ Bolt12SemanticError(const Bolt12SemanticError&) = delete;
+ Bolt12SemanticError(Bolt12SemanticError&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt12SemanticError)); }
+ Bolt12SemanticError(LDKBolt12SemanticError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt12SemanticError)); }
+ operator LDKBolt12SemanticError() && { LDKBolt12SemanticError res = self; memset(&self, 0, sizeof(LDKBolt12SemanticError)); return res; }
+ Bolt12SemanticError& operator=(Bolt12SemanticError&& o) { self = o.self; memset(&o, 0, sizeof(Bolt12SemanticError)); return *this; }
+ LDKBolt12SemanticError* operator &() { return &self; }
+ LDKBolt12SemanticError* operator ->() { return &self; }
+ const LDKBolt12SemanticError* operator &() const { return &self; }
+ const LDKBolt12SemanticError* operator ->() const { return &self; }
+};
+class BroadcasterInterface {
+private:
+ LDKBroadcasterInterface self;
+public:
+ BroadcasterInterface(const BroadcasterInterface&) = delete;
+ BroadcasterInterface(BroadcasterInterface&& o) : self(o.self) { memset(&o, 0, sizeof(BroadcasterInterface)); }
+ BroadcasterInterface(LDKBroadcasterInterface&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBroadcasterInterface)); }
+ operator LDKBroadcasterInterface() && { LDKBroadcasterInterface res = self; memset(&self, 0, sizeof(LDKBroadcasterInterface)); return res; }
+ ~BroadcasterInterface() { BroadcasterInterface_free(self); }
+ BroadcasterInterface& operator=(BroadcasterInterface&& o) { BroadcasterInterface_free(self); self = o.self; memset(&o, 0, sizeof(BroadcasterInterface)); return *this; }
+ LDKBroadcasterInterface* operator &() { return &self; }
+ LDKBroadcasterInterface* operator ->() { return &self; }
+ const LDKBroadcasterInterface* operator &() const { return &self; }
+ const LDKBroadcasterInterface* operator ->() const { return &self; }
+ /**
+ * Sends a list of transactions out to (hopefully) be mined.
+ * This only needs to handle the actual broadcasting of transactions, LDK will automatically
+ * rebroadcast transactions that haven't made it into a block.
+ *
+ * In some cases LDK may attempt to broadcast a transaction which double-spends another
+ * and this isn't a bug and can be safely ignored.
+ *
+ * If more than one transaction is given, these transactions should be considered to be a
+ * package and broadcast together. Some of the transactions may or may not depend on each other,
+ * be sure to manage both cases correctly.
+ *
+ * Bitcoin transaction packages are defined in BIP 331 and here:
+ * <https://github.com/bitcoin/bitcoin/blob/master/doc/policy/packages.md>
+ */
+ inline void broadcast_transactions(struct LDKCVec_TransactionZ txs);
+};
+class ConfirmationTarget {
+private:
+ LDKConfirmationTarget self;
+public:
+ ConfirmationTarget(const ConfirmationTarget&) = delete;
+ ConfirmationTarget(ConfirmationTarget&& o) : self(o.self) { memset(&o, 0, sizeof(ConfirmationTarget)); }
+ ConfirmationTarget(LDKConfirmationTarget&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKConfirmationTarget)); }
+ operator LDKConfirmationTarget() && { LDKConfirmationTarget res = self; memset(&self, 0, sizeof(LDKConfirmationTarget)); return res; }
+ ConfirmationTarget& operator=(ConfirmationTarget&& o) { self = o.self; memset(&o, 0, sizeof(ConfirmationTarget)); return *this; }
+ LDKConfirmationTarget* operator &() { return &self; }
+ LDKConfirmationTarget* operator ->() { return &self; }
+ const LDKConfirmationTarget* operator &() const { return &self; }
+ const LDKConfirmationTarget* operator ->() const { return &self; }
+};
+class FeeEstimator {
+private:
+ LDKFeeEstimator self;
+public:
+ FeeEstimator(const FeeEstimator&) = delete;
+ FeeEstimator(FeeEstimator&& o) : self(o.self) { memset(&o, 0, sizeof(FeeEstimator)); }
+ FeeEstimator(LDKFeeEstimator&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFeeEstimator)); }
+ operator LDKFeeEstimator() && { LDKFeeEstimator res = self; memset(&self, 0, sizeof(LDKFeeEstimator)); return res; }
+ ~FeeEstimator() { FeeEstimator_free(self); }
+ FeeEstimator& operator=(FeeEstimator&& o) { FeeEstimator_free(self); self = o.self; memset(&o, 0, sizeof(FeeEstimator)); return *this; }
+ LDKFeeEstimator* operator &() { return &self; }
+ LDKFeeEstimator* operator ->() { return &self; }
+ const LDKFeeEstimator* operator &() const { return &self; }
+ const LDKFeeEstimator* operator ->() const { return &self; }
+ /**
+ * Gets estimated satoshis of fee required per 1000 Weight-Units.
+ *
+ * LDK will wrap this method and ensure that the value returned is no smaller than 253
+ * (ie 1 satoshi-per-byte rounded up to ensure later round-downs don't put us below 1 satoshi-per-byte).
+ *
+ * The following unit conversions can be used to convert to sats/KW:
+ * * satoshis-per-byte * 250
+ * * satoshis-per-kbyte / 4
+ */
+ inline uint32_t get_est_sat_per_1000_weight(enum LDKConfirmationTarget confirmation_target);
+};
+class Packet {
+private:
+ LDKPacket self;
+public:
+ Packet(const Packet&) = delete;
+ Packet(Packet&& o) : self(o.self) { memset(&o, 0, sizeof(Packet)); }
+ Packet(LDKPacket&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPacket)); }
+ operator LDKPacket() && { LDKPacket res = self; memset(&self, 0, sizeof(LDKPacket)); return res; }
+ ~Packet() { Packet_free(self); }
+ Packet& operator=(Packet&& o) { Packet_free(self); self = o.self; memset(&o, 0, sizeof(Packet)); return *this; }
+ LDKPacket* operator &() { return &self; }
+ LDKPacket* operator ->() { return &self; }
+ const LDKPacket* operator &() const { return &self; }
+ const LDKPacket* operator ->() const { return &self; }
+};
+class ParsedOnionMessageContents {
+private:
+ LDKParsedOnionMessageContents self;
+public:
+ ParsedOnionMessageContents(const ParsedOnionMessageContents&) = delete;
+ ParsedOnionMessageContents(ParsedOnionMessageContents&& o) : self(o.self) { memset(&o, 0, sizeof(ParsedOnionMessageContents)); }
+ ParsedOnionMessageContents(LDKParsedOnionMessageContents&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKParsedOnionMessageContents)); }
+ operator LDKParsedOnionMessageContents() && { LDKParsedOnionMessageContents res = self; memset(&self, 0, sizeof(LDKParsedOnionMessageContents)); return res; }
+ ~ParsedOnionMessageContents() { ParsedOnionMessageContents_free(self); }
+ ParsedOnionMessageContents& operator=(ParsedOnionMessageContents&& o) { ParsedOnionMessageContents_free(self); self = o.self; memset(&o, 0, sizeof(ParsedOnionMessageContents)); return *this; }
+ LDKParsedOnionMessageContents* operator &() { return &self; }
+ LDKParsedOnionMessageContents* operator ->() { return &self; }
+ const LDKParsedOnionMessageContents* operator &() const { return &self; }
+ const LDKParsedOnionMessageContents* operator ->() const { return &self; }
+};
+class OnionMessageContents {
+private:
+ LDKOnionMessageContents self;
+public:
+ OnionMessageContents(const OnionMessageContents&) = delete;
+ OnionMessageContents(OnionMessageContents&& o) : self(o.self) { memset(&o, 0, sizeof(OnionMessageContents)); }
+ OnionMessageContents(LDKOnionMessageContents&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOnionMessageContents)); }
+ operator LDKOnionMessageContents() && { LDKOnionMessageContents res = self; memset(&self, 0, sizeof(LDKOnionMessageContents)); return res; }
+ ~OnionMessageContents() { OnionMessageContents_free(self); }
+ OnionMessageContents& operator=(OnionMessageContents&& o) { OnionMessageContents_free(self); self = o.self; memset(&o, 0, sizeof(OnionMessageContents)); return *this; }
+ LDKOnionMessageContents* operator &() { return &self; }
+ LDKOnionMessageContents* operator ->() { return &self; }
+ const LDKOnionMessageContents* operator &() const { return &self; }
+ const LDKOnionMessageContents* operator ->() const { return &self; }
+ /**
+ * Returns the TLV type identifying the message contents. MUST be >= 64.
+ */
+ inline uint64_t tlv_type();
+ /**
+ * Return a human-readable "debug" string describing this object
+ */
+ inline LDK::Str debug_str();
+};
+class PaymentPurpose {
+private:
+ LDKPaymentPurpose self;
+public:
+ PaymentPurpose(const PaymentPurpose&) = delete;
+ PaymentPurpose(PaymentPurpose&& o) : self(o.self) { memset(&o, 0, sizeof(PaymentPurpose)); }
+ PaymentPurpose(LDKPaymentPurpose&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPaymentPurpose)); }
+ operator LDKPaymentPurpose() && { LDKPaymentPurpose res = self; memset(&self, 0, sizeof(LDKPaymentPurpose)); return res; }
+ ~PaymentPurpose() { PaymentPurpose_free(self); }
+ PaymentPurpose& operator=(PaymentPurpose&& o) { PaymentPurpose_free(self); self = o.self; memset(&o, 0, sizeof(PaymentPurpose)); return *this; }
+ LDKPaymentPurpose* operator &() { return &self; }
+ LDKPaymentPurpose* operator ->() { return &self; }
+ const LDKPaymentPurpose* operator &() const { return &self; }
+ const LDKPaymentPurpose* operator ->() const { return &self; }
+};
+class ClaimedHTLC {
+private:
+ LDKClaimedHTLC self;
+public:
+ ClaimedHTLC(const ClaimedHTLC&) = delete;
+ ClaimedHTLC(ClaimedHTLC&& o) : self(o.self) { memset(&o, 0, sizeof(ClaimedHTLC)); }
+ ClaimedHTLC(LDKClaimedHTLC&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClaimedHTLC)); }
+ operator LDKClaimedHTLC() && { LDKClaimedHTLC res = self; memset(&self, 0, sizeof(LDKClaimedHTLC)); return res; }
+ ~ClaimedHTLC() { ClaimedHTLC_free(self); }
+ ClaimedHTLC& operator=(ClaimedHTLC&& o) { ClaimedHTLC_free(self); self = o.self; memset(&o, 0, sizeof(ClaimedHTLC)); return *this; }
+ LDKClaimedHTLC* operator &() { return &self; }
+ LDKClaimedHTLC* operator ->() { return &self; }
+ const LDKClaimedHTLC* operator &() const { return &self; }
+ const LDKClaimedHTLC* operator ->() const { return &self; }
+};
+class PathFailure {
+private:
+ LDKPathFailure self;
+public:
+ PathFailure(const PathFailure&) = delete;
+ PathFailure(PathFailure&& o) : self(o.self) { memset(&o, 0, sizeof(PathFailure)); }
+ PathFailure(LDKPathFailure&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPathFailure)); }
+ operator LDKPathFailure() && { LDKPathFailure res = self; memset(&self, 0, sizeof(LDKPathFailure)); return res; }
+ ~PathFailure() { PathFailure_free(self); }
+ PathFailure& operator=(PathFailure&& o) { PathFailure_free(self); self = o.self; memset(&o, 0, sizeof(PathFailure)); return *this; }
+ LDKPathFailure* operator &() { return &self; }
+ LDKPathFailure* operator ->() { return &self; }
+ const LDKPathFailure* operator &() const { return &self; }
+ const LDKPathFailure* operator ->() const { return &self; }
+};
+class ClosureReason {
+private:
+ LDKClosureReason self;
+public:
+ ClosureReason(const ClosureReason&) = delete;
+ ClosureReason(ClosureReason&& o) : self(o.self) { memset(&o, 0, sizeof(ClosureReason)); }
+ ClosureReason(LDKClosureReason&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKClosureReason)); }
+ operator LDKClosureReason() && { LDKClosureReason res = self; memset(&self, 0, sizeof(LDKClosureReason)); return res; }
+ ~ClosureReason() { ClosureReason_free(self); }
+ ClosureReason& operator=(ClosureReason&& o) { ClosureReason_free(self); self = o.self; memset(&o, 0, sizeof(ClosureReason)); return *this; }
+ LDKClosureReason* operator &() { return &self; }
+ LDKClosureReason* operator ->() { return &self; }
+ const LDKClosureReason* operator &() const { return &self; }
+ const LDKClosureReason* operator ->() const { return &self; }
+};
+class HTLCDestination {
+private:
+ LDKHTLCDestination self;
+public:
+ HTLCDestination(const HTLCDestination&) = delete;
+ HTLCDestination(HTLCDestination&& o) : self(o.self) { memset(&o, 0, sizeof(HTLCDestination)); }
+ HTLCDestination(LDKHTLCDestination&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKHTLCDestination)); }
+ operator LDKHTLCDestination() && { LDKHTLCDestination res = self; memset(&self, 0, sizeof(LDKHTLCDestination)); return res; }
+ ~HTLCDestination() { HTLCDestination_free(self); }
+ HTLCDestination& operator=(HTLCDestination&& o) { HTLCDestination_free(self); self = o.self; memset(&o, 0, sizeof(HTLCDestination)); return *this; }
+ LDKHTLCDestination* operator &() { return &self; }
+ LDKHTLCDestination* operator ->() { return &self; }
+ const LDKHTLCDestination* operator &() const { return &self; }
+ const LDKHTLCDestination* operator ->() const { return &self; }
+};
+class PaymentFailureReason {
+private:
+ LDKPaymentFailureReason self;
+public:
+ PaymentFailureReason(const PaymentFailureReason&) = delete;
+ PaymentFailureReason(PaymentFailureReason&& o) : self(o.self) { memset(&o, 0, sizeof(PaymentFailureReason)); }
+ PaymentFailureReason(LDKPaymentFailureReason&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPaymentFailureReason)); }
+ operator LDKPaymentFailureReason() && { LDKPaymentFailureReason res = self; memset(&self, 0, sizeof(LDKPaymentFailureReason)); return res; }
+ PaymentFailureReason& operator=(PaymentFailureReason&& o) { self = o.self; memset(&o, 0, sizeof(PaymentFailureReason)); return *this; }
+ LDKPaymentFailureReason* operator &() { return &self; }
+ LDKPaymentFailureReason* operator ->() { return &self; }
+ const LDKPaymentFailureReason* operator &() const { return &self; }
+ const LDKPaymentFailureReason* operator ->() const { return &self; }
+};
+class Event {
+private:
+ LDKEvent self;
+public:
+ Event(const Event&) = delete;
+ Event(Event&& o) : self(o.self) { memset(&o, 0, sizeof(Event)); }
+ Event(LDKEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEvent)); }
+ operator LDKEvent() && { LDKEvent res = self; memset(&self, 0, sizeof(LDKEvent)); return res; }
+ ~Event() { Event_free(self); }
+ Event& operator=(Event&& o) { Event_free(self); self = o.self; memset(&o, 0, sizeof(Event)); return *this; }
+ LDKEvent* operator &() { return &self; }
+ LDKEvent* operator ->() { return &self; }
+ const LDKEvent* operator &() const { return &self; }
+ const LDKEvent* operator ->() const { return &self; }
+};
+class MessageSendEvent {
+private:
+ LDKMessageSendEvent self;
+public:
+ MessageSendEvent(const MessageSendEvent&) = delete;
+ MessageSendEvent(MessageSendEvent&& o) : self(o.self) { memset(&o, 0, sizeof(MessageSendEvent)); }
+ MessageSendEvent(LDKMessageSendEvent&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageSendEvent)); }
+ operator LDKMessageSendEvent() && { LDKMessageSendEvent res = self; memset(&self, 0, sizeof(LDKMessageSendEvent)); return res; }
+ ~MessageSendEvent() { MessageSendEvent_free(self); }
+ MessageSendEvent& operator=(MessageSendEvent&& o) { MessageSendEvent_free(self); self = o.self; memset(&o, 0, sizeof(MessageSendEvent)); return *this; }
+ LDKMessageSendEvent* operator &() { return &self; }
+ LDKMessageSendEvent* operator ->() { return &self; }
+ const LDKMessageSendEvent* operator &() const { return &self; }
+ const LDKMessageSendEvent* operator ->() const { return &self; }
+};
+class MessageSendEventsProvider {
+private:
+ LDKMessageSendEventsProvider self;
+public:
+ MessageSendEventsProvider(const MessageSendEventsProvider&) = delete;
+ MessageSendEventsProvider(MessageSendEventsProvider&& o) : self(o.self) { memset(&o, 0, sizeof(MessageSendEventsProvider)); }
+ MessageSendEventsProvider(LDKMessageSendEventsProvider&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMessageSendEventsProvider)); }
+ operator LDKMessageSendEventsProvider() && { LDKMessageSendEventsProvider res = self; memset(&self, 0, sizeof(LDKMessageSendEventsProvider)); return res; }
+ ~MessageSendEventsProvider() { MessageSendEventsProvider_free(self); }
+ MessageSendEventsProvider& operator=(MessageSendEventsProvider&& o) { MessageSendEventsProvider_free(self); self = o.self; memset(&o, 0, sizeof(MessageSendEventsProvider)); return *this; }
+ LDKMessageSendEventsProvider* operator &() { return &self; }
+ LDKMessageSendEventsProvider* operator ->() { return &self; }
+ const LDKMessageSendEventsProvider* operator &() const { return &self; }
+ const LDKMessageSendEventsProvider* operator ->() const { return &self; }
+ /**
+ * Gets the list of pending events which were generated by previous actions, clearing the list
+ * in the process.
+ */
+ inline LDK::CVec_MessageSendEventZ get_and_clear_pending_msg_events();
+};
+class EventsProvider {
+private:
+ LDKEventsProvider self;
+public:
+ EventsProvider(const EventsProvider&) = delete;
+ EventsProvider(EventsProvider&& o) : self(o.self) { memset(&o, 0, sizeof(EventsProvider)); }
+ EventsProvider(LDKEventsProvider&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEventsProvider)); }
+ operator LDKEventsProvider() && { LDKEventsProvider res = self; memset(&self, 0, sizeof(LDKEventsProvider)); return res; }
+ ~EventsProvider() { EventsProvider_free(self); }
+ EventsProvider& operator=(EventsProvider&& o) { EventsProvider_free(self); self = o.self; memset(&o, 0, sizeof(EventsProvider)); return *this; }
+ LDKEventsProvider* operator &() { return &self; }
+ LDKEventsProvider* operator ->() { return &self; }
+ const LDKEventsProvider* operator &() const { return &self; }
+ const LDKEventsProvider* operator ->() const { return &self; }
+ /**
+ * Processes any events generated since the last call using the given event handler.
+ *
+ * See the trait-level documentation for requirements.
+ */
+ inline void process_pending_events(struct LDKEventHandler handler);
+};
+class EventHandler {
+private:
+ LDKEventHandler self;
+public:
+ EventHandler(const EventHandler&) = delete;
+ EventHandler(EventHandler&& o) : self(o.self) { memset(&o, 0, sizeof(EventHandler)); }
+ EventHandler(LDKEventHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEventHandler)); }
+ operator LDKEventHandler() && { LDKEventHandler res = self; memset(&self, 0, sizeof(LDKEventHandler)); return res; }
+ ~EventHandler() { EventHandler_free(self); }
+ EventHandler& operator=(EventHandler&& o) { EventHandler_free(self); self = o.self; memset(&o, 0, sizeof(EventHandler)); return *this; }
+ LDKEventHandler* operator &() { return &self; }
+ LDKEventHandler* operator ->() { return &self; }
+ const LDKEventHandler* operator &() const { return &self; }
+ const LDKEventHandler* operator ->() const { return &self; }
+ /**
+ * Handles the given [`Event`].
+ *
+ * See [`EventsProvider`] for details that must be considered when implementing this method.
+ */
+ inline void handle_event(struct LDKEvent event);
+};
+class ElectrumSyncClient {
+private:
+ LDKElectrumSyncClient self;
+public:
+ ElectrumSyncClient(const ElectrumSyncClient&) = delete;
+ ElectrumSyncClient(ElectrumSyncClient&& o) : self(o.self) { memset(&o, 0, sizeof(ElectrumSyncClient)); }
+ ElectrumSyncClient(LDKElectrumSyncClient&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKElectrumSyncClient)); }
+ operator LDKElectrumSyncClient() && { LDKElectrumSyncClient res = self; memset(&self, 0, sizeof(LDKElectrumSyncClient)); return res; }
+ ~ElectrumSyncClient() { ElectrumSyncClient_free(self); }
+ ElectrumSyncClient& operator=(ElectrumSyncClient&& o) { ElectrumSyncClient_free(self); self = o.self; memset(&o, 0, sizeof(ElectrumSyncClient)); return *this; }
+ LDKElectrumSyncClient* operator &() { return &self; }
+ LDKElectrumSyncClient* operator ->() { return &self; }
+ const LDKElectrumSyncClient* operator &() const { return &self; }
+ const LDKElectrumSyncClient* operator ->() const { return &self; }
+};
+class EsploraSyncClient {
+private:
+ LDKEsploraSyncClient self;
+public:
+ EsploraSyncClient(const EsploraSyncClient&) = delete;
+ EsploraSyncClient(EsploraSyncClient&& o) : self(o.self) { memset(&o, 0, sizeof(EsploraSyncClient)); }
+ EsploraSyncClient(LDKEsploraSyncClient&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKEsploraSyncClient)); }
+ operator LDKEsploraSyncClient() && { LDKEsploraSyncClient res = self; memset(&self, 0, sizeof(LDKEsploraSyncClient)); return res; }
+ ~EsploraSyncClient() { EsploraSyncClient_free(self); }
+ EsploraSyncClient& operator=(EsploraSyncClient&& o) { EsploraSyncClient_free(self); self = o.self; memset(&o, 0, sizeof(EsploraSyncClient)); return *this; }
+ LDKEsploraSyncClient* operator &() { return &self; }
+ LDKEsploraSyncClient* operator ->() { return &self; }
+ const LDKEsploraSyncClient* operator &() const { return &self; }
+ const LDKEsploraSyncClient* operator ->() const { return &self; }
+};
+class Bolt11ParseError {
+private:
+ LDKBolt11ParseError self;
+public:
+ Bolt11ParseError(const Bolt11ParseError&) = delete;
+ Bolt11ParseError(Bolt11ParseError&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt11ParseError)); }
+ Bolt11ParseError(LDKBolt11ParseError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt11ParseError)); }
+ operator LDKBolt11ParseError() && { LDKBolt11ParseError res = self; memset(&self, 0, sizeof(LDKBolt11ParseError)); return res; }
+ ~Bolt11ParseError() { Bolt11ParseError_free(self); }
+ Bolt11ParseError& operator=(Bolt11ParseError&& o) { Bolt11ParseError_free(self); self = o.self; memset(&o, 0, sizeof(Bolt11ParseError)); return *this; }
+ LDKBolt11ParseError* operator &() { return &self; }
+ LDKBolt11ParseError* operator ->() { return &self; }
+ const LDKBolt11ParseError* operator &() const { return &self; }
+ const LDKBolt11ParseError* operator ->() const { return &self; }
+};
+class ParseOrSemanticError {
+private:
+ LDKParseOrSemanticError self;
+public:
+ ParseOrSemanticError(const ParseOrSemanticError&) = delete;
+ ParseOrSemanticError(ParseOrSemanticError&& o) : self(o.self) { memset(&o, 0, sizeof(ParseOrSemanticError)); }
+ ParseOrSemanticError(LDKParseOrSemanticError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKParseOrSemanticError)); }
+ operator LDKParseOrSemanticError() && { LDKParseOrSemanticError res = self; memset(&self, 0, sizeof(LDKParseOrSemanticError)); return res; }
+ ~ParseOrSemanticError() { ParseOrSemanticError_free(self); }
+ ParseOrSemanticError& operator=(ParseOrSemanticError&& o) { ParseOrSemanticError_free(self); self = o.self; memset(&o, 0, sizeof(ParseOrSemanticError)); return *this; }
+ LDKParseOrSemanticError* operator &() { return &self; }
+ LDKParseOrSemanticError* operator ->() { return &self; }
+ const LDKParseOrSemanticError* operator &() const { return &self; }
+ const LDKParseOrSemanticError* operator ->() const { return &self; }
+};
+class Bolt11Invoice {
+private:
+ LDKBolt11Invoice self;
+public:
+ Bolt11Invoice(const Bolt11Invoice&) = delete;
+ Bolt11Invoice(Bolt11Invoice&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt11Invoice)); }
+ Bolt11Invoice(LDKBolt11Invoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt11Invoice)); }
+ operator LDKBolt11Invoice() && { LDKBolt11Invoice res = self; memset(&self, 0, sizeof(LDKBolt11Invoice)); return res; }
+ ~Bolt11Invoice() { Bolt11Invoice_free(self); }
+ Bolt11Invoice& operator=(Bolt11Invoice&& o) { Bolt11Invoice_free(self); self = o.self; memset(&o, 0, sizeof(Bolt11Invoice)); return *this; }
+ LDKBolt11Invoice* operator &() { return &self; }
+ LDKBolt11Invoice* operator ->() { return &self; }
+ const LDKBolt11Invoice* operator &() const { return &self; }
+ const LDKBolt11Invoice* operator ->() const { return &self; }
+};
+class SignedRawBolt11Invoice {
+private:
+ LDKSignedRawBolt11Invoice self;
+public:
+ SignedRawBolt11Invoice(const SignedRawBolt11Invoice&) = delete;
+ SignedRawBolt11Invoice(SignedRawBolt11Invoice&& o) : self(o.self) { memset(&o, 0, sizeof(SignedRawBolt11Invoice)); }
+ SignedRawBolt11Invoice(LDKSignedRawBolt11Invoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSignedRawBolt11Invoice)); }
+ operator LDKSignedRawBolt11Invoice() && { LDKSignedRawBolt11Invoice res = self; memset(&self, 0, sizeof(LDKSignedRawBolt11Invoice)); return res; }
+ ~SignedRawBolt11Invoice() { SignedRawBolt11Invoice_free(self); }
+ SignedRawBolt11Invoice& operator=(SignedRawBolt11Invoice&& o) { SignedRawBolt11Invoice_free(self); self = o.self; memset(&o, 0, sizeof(SignedRawBolt11Invoice)); return *this; }
+ LDKSignedRawBolt11Invoice* operator &() { return &self; }
+ LDKSignedRawBolt11Invoice* operator ->() { return &self; }
+ const LDKSignedRawBolt11Invoice* operator &() const { return &self; }
+ const LDKSignedRawBolt11Invoice* operator ->() const { return &self; }
+};
+class RawBolt11Invoice {
+private:
+ LDKRawBolt11Invoice self;
+public:
+ RawBolt11Invoice(const RawBolt11Invoice&) = delete;
+ RawBolt11Invoice(RawBolt11Invoice&& o) : self(o.self) { memset(&o, 0, sizeof(RawBolt11Invoice)); }
+ RawBolt11Invoice(LDKRawBolt11Invoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRawBolt11Invoice)); }
+ operator LDKRawBolt11Invoice() && { LDKRawBolt11Invoice res = self; memset(&self, 0, sizeof(LDKRawBolt11Invoice)); return res; }
+ ~RawBolt11Invoice() { RawBolt11Invoice_free(self); }
+ RawBolt11Invoice& operator=(RawBolt11Invoice&& o) { RawBolt11Invoice_free(self); self = o.self; memset(&o, 0, sizeof(RawBolt11Invoice)); return *this; }
+ LDKRawBolt11Invoice* operator &() { return &self; }
+ LDKRawBolt11Invoice* operator ->() { return &self; }
+ const LDKRawBolt11Invoice* operator &() const { return &self; }
+ const LDKRawBolt11Invoice* operator ->() const { return &self; }
+};
+class RawDataPart {
+private:
+ LDKRawDataPart self;
+public:
+ RawDataPart(const RawDataPart&) = delete;
+ RawDataPart(RawDataPart&& o) : self(o.self) { memset(&o, 0, sizeof(RawDataPart)); }
+ RawDataPart(LDKRawDataPart&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRawDataPart)); }
+ operator LDKRawDataPart() && { LDKRawDataPart res = self; memset(&self, 0, sizeof(LDKRawDataPart)); return res; }
+ ~RawDataPart() { RawDataPart_free(self); }
+ RawDataPart& operator=(RawDataPart&& o) { RawDataPart_free(self); self = o.self; memset(&o, 0, sizeof(RawDataPart)); return *this; }
+ LDKRawDataPart* operator &() { return &self; }
+ LDKRawDataPart* operator ->() { return &self; }
+ const LDKRawDataPart* operator &() const { return &self; }
+ const LDKRawDataPart* operator ->() const { return &self; }
+};
+class PositiveTimestamp {
+private:
+ LDKPositiveTimestamp self;
+public:
+ PositiveTimestamp(const PositiveTimestamp&) = delete;
+ PositiveTimestamp(PositiveTimestamp&& o) : self(o.self) { memset(&o, 0, sizeof(PositiveTimestamp)); }
+ PositiveTimestamp(LDKPositiveTimestamp&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPositiveTimestamp)); }
+ operator LDKPositiveTimestamp() && { LDKPositiveTimestamp res = self; memset(&self, 0, sizeof(LDKPositiveTimestamp)); return res; }
+ ~PositiveTimestamp() { PositiveTimestamp_free(self); }
+ PositiveTimestamp& operator=(PositiveTimestamp&& o) { PositiveTimestamp_free(self); self = o.self; memset(&o, 0, sizeof(PositiveTimestamp)); return *this; }
+ LDKPositiveTimestamp* operator &() { return &self; }
+ LDKPositiveTimestamp* operator ->() { return &self; }
+ const LDKPositiveTimestamp* operator &() const { return &self; }
+ const LDKPositiveTimestamp* operator ->() const { return &self; }
+};
+class SiPrefix {
+private:
+ LDKSiPrefix self;
+public:
+ SiPrefix(const SiPrefix&) = delete;
+ SiPrefix(SiPrefix&& o) : self(o.self) { memset(&o, 0, sizeof(SiPrefix)); }
+ SiPrefix(LDKSiPrefix&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSiPrefix)); }
+ operator LDKSiPrefix() && { LDKSiPrefix res = self; memset(&self, 0, sizeof(LDKSiPrefix)); return res; }
+ SiPrefix& operator=(SiPrefix&& o) { self = o.self; memset(&o, 0, sizeof(SiPrefix)); return *this; }
+ LDKSiPrefix* operator &() { return &self; }
+ LDKSiPrefix* operator ->() { return &self; }
+ const LDKSiPrefix* operator &() const { return &self; }
+ const LDKSiPrefix* operator ->() const { return &self; }
+};
+class Currency {
+private:
+ LDKCurrency self;
+public:
+ Currency(const Currency&) = delete;
+ Currency(Currency&& o) : self(o.self) { memset(&o, 0, sizeof(Currency)); }
+ Currency(LDKCurrency&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCurrency)); }
+ operator LDKCurrency() && { LDKCurrency res = self; memset(&self, 0, sizeof(LDKCurrency)); return res; }
+ Currency& operator=(Currency&& o) { self = o.self; memset(&o, 0, sizeof(Currency)); return *this; }
+ LDKCurrency* operator &() { return &self; }
+ LDKCurrency* operator ->() { return &self; }
+ const LDKCurrency* operator &() const { return &self; }
+ const LDKCurrency* operator ->() const { return &self; }
+};
+class Sha256 {
+private:
+ LDKSha256 self;
+public:
+ Sha256(const Sha256&) = delete;
+ Sha256(Sha256&& o) : self(o.self) { memset(&o, 0, sizeof(Sha256)); }
+ Sha256(LDKSha256&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSha256)); }
+ operator LDKSha256() && { LDKSha256 res = self; memset(&self, 0, sizeof(LDKSha256)); return res; }
+ ~Sha256() { Sha256_free(self); }
+ Sha256& operator=(Sha256&& o) { Sha256_free(self); self = o.self; memset(&o, 0, sizeof(Sha256)); return *this; }
+ LDKSha256* operator &() { return &self; }
+ LDKSha256* operator ->() { return &self; }
+ const LDKSha256* operator &() const { return &self; }
+ const LDKSha256* operator ->() const { return &self; }
+};
+class Description {
+private:
+ LDKDescription self;
+public:
+ Description(const Description&) = delete;
+ Description(Description&& o) : self(o.self) { memset(&o, 0, sizeof(Description)); }
+ Description(LDKDescription&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDescription)); }
+ operator LDKDescription() && { LDKDescription res = self; memset(&self, 0, sizeof(LDKDescription)); return res; }
+ ~Description() { Description_free(self); }
+ Description& operator=(Description&& o) { Description_free(self); self = o.self; memset(&o, 0, sizeof(Description)); return *this; }
+ LDKDescription* operator &() { return &self; }
+ LDKDescription* operator ->() { return &self; }
+ const LDKDescription* operator &() const { return &self; }
+ const LDKDescription* operator ->() const { return &self; }
+};
+class PayeePubKey {
+private:
+ LDKPayeePubKey self;
+public:
+ PayeePubKey(const PayeePubKey&) = delete;
+ PayeePubKey(PayeePubKey&& o) : self(o.self) { memset(&o, 0, sizeof(PayeePubKey)); }
+ PayeePubKey(LDKPayeePubKey&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPayeePubKey)); }
+ operator LDKPayeePubKey() && { LDKPayeePubKey res = self; memset(&self, 0, sizeof(LDKPayeePubKey)); return res; }
+ ~PayeePubKey() { PayeePubKey_free(self); }
+ PayeePubKey& operator=(PayeePubKey&& o) { PayeePubKey_free(self); self = o.self; memset(&o, 0, sizeof(PayeePubKey)); return *this; }
+ LDKPayeePubKey* operator &() { return &self; }
+ LDKPayeePubKey* operator ->() { return &self; }
+ const LDKPayeePubKey* operator &() const { return &self; }
+ const LDKPayeePubKey* operator ->() const { return &self; }
+};
+class ExpiryTime {
+private:
+ LDKExpiryTime self;
+public:
+ ExpiryTime(const ExpiryTime&) = delete;
+ ExpiryTime(ExpiryTime&& o) : self(o.self) { memset(&o, 0, sizeof(ExpiryTime)); }
+ ExpiryTime(LDKExpiryTime&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKExpiryTime)); }
+ operator LDKExpiryTime() && { LDKExpiryTime res = self; memset(&self, 0, sizeof(LDKExpiryTime)); return res; }
+ ~ExpiryTime() { ExpiryTime_free(self); }
+ ExpiryTime& operator=(ExpiryTime&& o) { ExpiryTime_free(self); self = o.self; memset(&o, 0, sizeof(ExpiryTime)); return *this; }
+ LDKExpiryTime* operator &() { return &self; }
+ LDKExpiryTime* operator ->() { return &self; }
+ const LDKExpiryTime* operator &() const { return &self; }
+ const LDKExpiryTime* operator ->() const { return &self; }
+};
+class MinFinalCltvExpiryDelta {
+private:
+ LDKMinFinalCltvExpiryDelta self;
+public:
+ MinFinalCltvExpiryDelta(const MinFinalCltvExpiryDelta&) = delete;
+ MinFinalCltvExpiryDelta(MinFinalCltvExpiryDelta&& o) : self(o.self) { memset(&o, 0, sizeof(MinFinalCltvExpiryDelta)); }
+ MinFinalCltvExpiryDelta(LDKMinFinalCltvExpiryDelta&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMinFinalCltvExpiryDelta)); }
+ operator LDKMinFinalCltvExpiryDelta() && { LDKMinFinalCltvExpiryDelta res = self; memset(&self, 0, sizeof(LDKMinFinalCltvExpiryDelta)); return res; }
+ ~MinFinalCltvExpiryDelta() { MinFinalCltvExpiryDelta_free(self); }
+ MinFinalCltvExpiryDelta& operator=(MinFinalCltvExpiryDelta&& o) { MinFinalCltvExpiryDelta_free(self); self = o.self; memset(&o, 0, sizeof(MinFinalCltvExpiryDelta)); return *this; }
+ LDKMinFinalCltvExpiryDelta* operator &() { return &self; }
+ LDKMinFinalCltvExpiryDelta* operator ->() { return &self; }
+ const LDKMinFinalCltvExpiryDelta* operator &() const { return &self; }
+ const LDKMinFinalCltvExpiryDelta* operator ->() const { return &self; }
+};
+class Fallback {
+private:
+ LDKFallback self;
+public:
+ Fallback(const Fallback&) = delete;
+ Fallback(Fallback&& o) : self(o.self) { memset(&o, 0, sizeof(Fallback)); }
+ Fallback(LDKFallback&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFallback)); }
+ operator LDKFallback() && { LDKFallback res = self; memset(&self, 0, sizeof(LDKFallback)); return res; }
+ ~Fallback() { Fallback_free(self); }
+ Fallback& operator=(Fallback&& o) { Fallback_free(self); self = o.self; memset(&o, 0, sizeof(Fallback)); return *this; }
+ LDKFallback* operator &() { return &self; }
+ LDKFallback* operator ->() { return &self; }
+ const LDKFallback* operator &() const { return &self; }
+ const LDKFallback* operator ->() const { return &self; }
+};
+class Bolt11InvoiceSignature {
+private:
+ LDKBolt11InvoiceSignature self;
+public:
+ Bolt11InvoiceSignature(const Bolt11InvoiceSignature&) = delete;
+ Bolt11InvoiceSignature(Bolt11InvoiceSignature&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt11InvoiceSignature)); }
+ Bolt11InvoiceSignature(LDKBolt11InvoiceSignature&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt11InvoiceSignature)); }
+ operator LDKBolt11InvoiceSignature() && { LDKBolt11InvoiceSignature res = self; memset(&self, 0, sizeof(LDKBolt11InvoiceSignature)); return res; }
+ ~Bolt11InvoiceSignature() { Bolt11InvoiceSignature_free(self); }
+ Bolt11InvoiceSignature& operator=(Bolt11InvoiceSignature&& o) { Bolt11InvoiceSignature_free(self); self = o.self; memset(&o, 0, sizeof(Bolt11InvoiceSignature)); return *this; }
+ LDKBolt11InvoiceSignature* operator &() { return &self; }
+ LDKBolt11InvoiceSignature* operator ->() { return &self; }
+ const LDKBolt11InvoiceSignature* operator &() const { return &self; }
+ const LDKBolt11InvoiceSignature* operator ->() const { return &self; }
+};
+class PrivateRoute {
+private:
+ LDKPrivateRoute self;
+public:
+ PrivateRoute(const PrivateRoute&) = delete;
+ PrivateRoute(PrivateRoute&& o) : self(o.self) { memset(&o, 0, sizeof(PrivateRoute)); }
+ PrivateRoute(LDKPrivateRoute&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPrivateRoute)); }
+ operator LDKPrivateRoute() && { LDKPrivateRoute res = self; memset(&self, 0, sizeof(LDKPrivateRoute)); return res; }
+ ~PrivateRoute() { PrivateRoute_free(self); }
+ PrivateRoute& operator=(PrivateRoute&& o) { PrivateRoute_free(self); self = o.self; memset(&o, 0, sizeof(PrivateRoute)); return *this; }
+ LDKPrivateRoute* operator &() { return &self; }
+ LDKPrivateRoute* operator ->() { return &self; }
+ const LDKPrivateRoute* operator &() const { return &self; }
+ const LDKPrivateRoute* operator ->() const { return &self; }
+};
+class CreationError {
+private:
+ LDKCreationError self;
+public:
+ CreationError(const CreationError&) = delete;
+ CreationError(CreationError&& o) : self(o.self) { memset(&o, 0, sizeof(CreationError)); }
+ CreationError(LDKCreationError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKCreationError)); }
+ operator LDKCreationError() && { LDKCreationError res = self; memset(&self, 0, sizeof(LDKCreationError)); return res; }
+ CreationError& operator=(CreationError&& o) { self = o.self; memset(&o, 0, sizeof(CreationError)); return *this; }
+ LDKCreationError* operator &() { return &self; }
+ LDKCreationError* operator ->() { return &self; }
+ const LDKCreationError* operator &() const { return &self; }
+ const LDKCreationError* operator ->() const { return &self; }
+};
+class Bolt11SemanticError {
+private:
+ LDKBolt11SemanticError self;
+public:
+ Bolt11SemanticError(const Bolt11SemanticError&) = delete;
+ Bolt11SemanticError(Bolt11SemanticError&& o) : self(o.self) { memset(&o, 0, sizeof(Bolt11SemanticError)); }
+ Bolt11SemanticError(LDKBolt11SemanticError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBolt11SemanticError)); }
+ operator LDKBolt11SemanticError() && { LDKBolt11SemanticError res = self; memset(&self, 0, sizeof(LDKBolt11SemanticError)); return res; }
+ Bolt11SemanticError& operator=(Bolt11SemanticError&& o) { self = o.self; memset(&o, 0, sizeof(Bolt11SemanticError)); return *this; }
+ LDKBolt11SemanticError* operator &() { return &self; }
+ LDKBolt11SemanticError* operator ->() { return &self; }
+ const LDKBolt11SemanticError* operator &() const { return &self; }
+ const LDKBolt11SemanticError* operator ->() const { return &self; }
+};
+class SignOrCreationError {
+private:
+ LDKSignOrCreationError self;
+public:
+ SignOrCreationError(const SignOrCreationError&) = delete;
+ SignOrCreationError(SignOrCreationError&& o) : self(o.self) { memset(&o, 0, sizeof(SignOrCreationError)); }
+ SignOrCreationError(LDKSignOrCreationError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSignOrCreationError)); }
+ operator LDKSignOrCreationError() && { LDKSignOrCreationError res = self; memset(&self, 0, sizeof(LDKSignOrCreationError)); return res; }
+ ~SignOrCreationError() { SignOrCreationError_free(self); }
+ SignOrCreationError& operator=(SignOrCreationError&& o) { SignOrCreationError_free(self); self = o.self; memset(&o, 0, sizeof(SignOrCreationError)); return *this; }
+ LDKSignOrCreationError* operator &() { return &self; }
+ LDKSignOrCreationError* operator ->() { return &self; }
+ const LDKSignOrCreationError* operator &() const { return &self; }
+ const LDKSignOrCreationError* operator ->() const { return &self; }
+};
+class OutPoint {
+private:
+ LDKOutPoint self;
+public:
+ OutPoint(const OutPoint&) = delete;
+ OutPoint(OutPoint&& o) : self(o.self) { memset(&o, 0, sizeof(OutPoint)); }
+ OutPoint(LDKOutPoint&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKOutPoint)); }
+ operator LDKOutPoint() && { LDKOutPoint res = self; memset(&self, 0, sizeof(LDKOutPoint)); return res; }