+ StaticPaymentOutputDescriptor(const StaticPaymentOutputDescriptor&) = delete;
+ StaticPaymentOutputDescriptor(StaticPaymentOutputDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(StaticPaymentOutputDescriptor)); }
+ StaticPaymentOutputDescriptor(LDKStaticPaymentOutputDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKStaticPaymentOutputDescriptor)); }
+ operator LDKStaticPaymentOutputDescriptor() && { LDKStaticPaymentOutputDescriptor res = self; memset(&self, 0, sizeof(LDKStaticPaymentOutputDescriptor)); return res; }
+ ~StaticPaymentOutputDescriptor() { StaticPaymentOutputDescriptor_free(self); }
+ StaticPaymentOutputDescriptor& operator=(StaticPaymentOutputDescriptor&& o) { StaticPaymentOutputDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(StaticPaymentOutputDescriptor)); return *this; }
+ LDKStaticPaymentOutputDescriptor* operator &() { return &self; }
+ LDKStaticPaymentOutputDescriptor* operator ->() { return &self; }
+ const LDKStaticPaymentOutputDescriptor* operator &() const { return &self; }
+ const LDKStaticPaymentOutputDescriptor* operator ->() const { return &self; }
+};
+class SpendableOutputDescriptor {
+private:
+ LDKSpendableOutputDescriptor self;
+public:
+ SpendableOutputDescriptor(const SpendableOutputDescriptor&) = delete;
+ SpendableOutputDescriptor(SpendableOutputDescriptor&& o) : self(o.self) { memset(&o, 0, sizeof(SpendableOutputDescriptor)); }
+ SpendableOutputDescriptor(LDKSpendableOutputDescriptor&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSpendableOutputDescriptor)); }
+ operator LDKSpendableOutputDescriptor() && { LDKSpendableOutputDescriptor res = self; memset(&self, 0, sizeof(LDKSpendableOutputDescriptor)); return res; }
+ ~SpendableOutputDescriptor() { SpendableOutputDescriptor_free(self); }
+ SpendableOutputDescriptor& operator=(SpendableOutputDescriptor&& o) { SpendableOutputDescriptor_free(self); self = o.self; memset(&o, 0, sizeof(SpendableOutputDescriptor)); return *this; }
+ LDKSpendableOutputDescriptor* operator &() { return &self; }
+ LDKSpendableOutputDescriptor* operator ->() { return &self; }
+ const LDKSpendableOutputDescriptor* operator &() const { return &self; }
+ const LDKSpendableOutputDescriptor* operator ->() const { return &self; }
+};
+class BaseSign {
+private:
+ LDKBaseSign self;
+public:
+ BaseSign(const BaseSign&) = delete;
+ BaseSign(BaseSign&& o) : self(o.self) { memset(&o, 0, sizeof(BaseSign)); }
+ BaseSign(LDKBaseSign&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKBaseSign)); }
+ operator LDKBaseSign() && { LDKBaseSign res = self; memset(&self, 0, sizeof(LDKBaseSign)); return res; }
+ ~BaseSign() { BaseSign_free(self); }
+ BaseSign& operator=(BaseSign&& o) { BaseSign_free(self); self = o.self; memset(&o, 0, sizeof(BaseSign)); return *this; }
+ LDKBaseSign* operator &() { return &self; }
+ LDKBaseSign* operator ->() { return &self; }
+ const LDKBaseSign* operator &() const { return &self; }
+ const LDKBaseSign* operator ->() const { return &self; }
+ /**
+ * Gets the per-commitment point for a specific commitment number
+ *
+ * Note that the commitment number starts at (1 << 48) - 1 and counts backwards.
+ */
+ inline LDKPublicKey get_per_commitment_point(uint64_t idx);
+ /**
+ * Gets the commitment secret for a specific commitment number as part of the revocation process
+ *
+ * An external signer implementation should error here if the commitment was already signed
+ * and should refuse to sign it in the future.
+ *
+ * May be called more than once for the same index.
+ *
+ * Note that the commitment number starts at (1 << 48) - 1 and counts backwards.
+ */
+ inline LDKThirtyTwoBytes release_commitment_secret(uint64_t idx);
+ /**
+ * Gets an arbitrary identifier describing the set of keys which are provided back to you in
+ * some SpendableOutputDescriptor types. This should be sufficient to identify this
+ * Sign object uniquely and lookup or re-derive its keys.
+ */
+ inline LDKThirtyTwoBytes channel_keys_id();
+ /**
+ * 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.
+ */
+ inline LDK::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_counterparty_commitment(const struct LDKCommitmentTransaction *NONNULL_PTR commitment_tx);
+ /**
+ * Create a signatures for a holder's commitment transaction and its claiming HTLC transactions.
+ * This will only ever be called with a non-revoked commitment_tx. This will be called with the
+ * latest commitment_tx when we initiate a force-close.
+ * This will be called with the previous latest, just to get claiming HTLC signatures, if we are
+ * reacting to a ChannelMonitor replica that decided to broadcast before it had been updated to
+ * the latest.
+ * This may be called multiple times for the same transaction.
+ *
+ * An external signer implementation should check that the commitment has not been revoked.
+ *
+ * May return Err if key derivation fails. Callers, such as ChannelMonitor, will panic in such a case.
+ */
+ inline LDK::CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_holder_commitment_and_htlcs(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).
+ */
+ inline LDK::CResult_SignatureNoneZ 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 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).
+ */
+ inline LDK::CResult_SignatureNoneZ 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);
+ /**
+ * 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 a 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.
+ */
+ inline LDK::CResult_SignatureNoneZ 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_SignatureNoneZ sign_closing_transaction(struct LDKTransaction closing_tx);
+ /**
+ * Signs a channel announcement message with our funding key, proving it comes from one
+ * of the channel participants.
+ *
+ * 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.
+ */
+ inline LDK::CResult_SignatureNoneZ sign_channel_announcement(const struct LDKUnsignedChannelAnnouncement *NONNULL_PTR msg);
+ /**
+ * Set the counterparty static channel data, including basepoints,
+ * counterparty_selected/holder_selected_contest_delay and funding outpoint.
+ * This is done as soon as the funding outpoint is known. Since these are static channel data,
+ * they MUST NOT be allowed to change to different values once set.
+ *
+ * channel_parameters.is_populated() MUST be true.
+ *
+ * We bind holder_selected_contest_delay late here for API convenience.
+ *
+ * Will be called before any signatures are applied.
+ */
+ inline void ready_channel(const struct LDKChannelTransactionParameters *NONNULL_PTR channel_parameters);
+};
+class Sign {
+private:
+ LDKSign self;
+public:
+ Sign(const Sign&) = delete;
+ Sign(Sign&& o) : self(o.self) { memset(&o, 0, sizeof(Sign)); }
+ Sign(LDKSign&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSign)); }
+ operator LDKSign() && { LDKSign res = self; memset(&self, 0, sizeof(LDKSign)); return res; }
+ ~Sign() { Sign_free(self); }
+ Sign& operator=(Sign&& o) { Sign_free(self); self = o.self; memset(&o, 0, sizeof(Sign)); return *this; }
+ LDKSign* operator &() { return &self; }
+ LDKSign* operator ->() { return &self; }
+ const LDKSign* operator &() const { return &self; }
+ const LDKSign* operator ->() const { return &self; }
+};
+class KeysInterface {
+private:
+ LDKKeysInterface self;
+public:
+ KeysInterface(const KeysInterface&) = delete;
+ KeysInterface(KeysInterface&& o) : self(o.self) { memset(&o, 0, sizeof(KeysInterface)); }
+ KeysInterface(LDKKeysInterface&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKKeysInterface)); }
+ operator LDKKeysInterface() && { LDKKeysInterface res = self; memset(&self, 0, sizeof(LDKKeysInterface)); return res; }
+ ~KeysInterface() { KeysInterface_free(self); }
+ KeysInterface& operator=(KeysInterface&& o) { KeysInterface_free(self); self = o.self; memset(&o, 0, sizeof(KeysInterface)); return *this; }
+ LDKKeysInterface* operator &() { return &self; }
+ LDKKeysInterface* operator ->() { return &self; }
+ const LDKKeysInterface* operator &() const { return &self; }
+ const LDKKeysInterface* operator ->() const { return &self; }
+ /**
+ * Get node secret key (aka node_id or network_key).
+ *
+ * This method must return the same value each time it is called.
+ */
+ inline LDKSecretKey get_node_secret();
+ /**
+ * Get a script pubkey which we send funds to when claiming on-chain contestable outputs.
+ *
+ * This method should return a different value each time it is called, to avoid linking
+ * on-chain funds across channels as controlled to the same user.
+ */
+ inline LDK::CVec_u8Z get_destination_script();
+ /**
+ * Get a public key which we will send funds to (in the form of a P2WPKH output) when closing
+ * a channel.
+ *
+ * This method should return a different value each time it is called, to avoid linking
+ * on-chain funds across channels as controlled to the same user.
+ */
+ inline LDKPublicKey get_shutdown_pubkey();
+ /**
+ * Get a new set of Sign for per-channel secrets. These MUST be unique even if you
+ * restarted with some stale data!
+ *
+ * This method must return a different value each time it is called.
+ */
+ inline LDK::Sign get_channel_signer(bool inbound, uint64_t channel_value_satoshis);
+ /**
+ * Gets a unique, cryptographically-secure, random 32 byte value. This is used for encrypting
+ * onion packets and for temporary channel IDs. There is no requirement that these be
+ * persisted anywhere, though they must be unique across restarts.
+ *
+ * This method must return a different value each time it is called.
+ */
+ inline LDKThirtyTwoBytes get_secure_random_bytes();
+ /**
+ * Reads a `Signer` for this `KeysInterface` from the given input stream.
+ * This is only called during deserialization of other objects which contain
+ * `Sign`-implementing objects (ie `ChannelMonitor`s and `ChannelManager`s).
+ * The bytes are exactly those which `<Self::Signer as Writeable>::write()` writes, and
+ * contain no versioning scheme. You may wish to include your own version prefix and ensure
+ * you've read all of the provided bytes to ensure no corruption occurred.
+ */
+ inline LDK::CResult_SignDecodeErrorZ read_chan_signer(struct LDKu8slice reader);
+ /**
+ * Sign an invoice's preimage (note that this is the preimage of the invoice, not the HTLC's
+ * preimage). By parameterizing by the preimage instead of the hash, we allow implementors of
+ * this trait to parse the invoice and make sure they're signing what they expect, rather than
+ * blindly signing the hash.
+ */
+ inline LDK::CResult_RecoverableSignatureNoneZ sign_invoice(struct LDKCVec_u8Z invoice_preimage);
+};
+class InMemorySigner {
+private:
+ LDKInMemorySigner self;
+public:
+ InMemorySigner(const InMemorySigner&) = delete;
+ InMemorySigner(InMemorySigner&& o) : self(o.self) { memset(&o, 0, sizeof(InMemorySigner)); }
+ InMemorySigner(LDKInMemorySigner&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInMemorySigner)); }
+ operator LDKInMemorySigner() && { LDKInMemorySigner res = self; memset(&self, 0, sizeof(LDKInMemorySigner)); return res; }
+ ~InMemorySigner() { InMemorySigner_free(self); }
+ InMemorySigner& operator=(InMemorySigner&& o) { InMemorySigner_free(self); self = o.self; memset(&o, 0, sizeof(InMemorySigner)); return *this; }
+ LDKInMemorySigner* operator &() { return &self; }
+ LDKInMemorySigner* operator ->() { return &self; }
+ const LDKInMemorySigner* operator &() const { return &self; }
+ const LDKInMemorySigner* operator ->() const { return &self; }
+};
+class KeysManager {
+private:
+ LDKKeysManager self;
+public:
+ KeysManager(const KeysManager&) = delete;
+ KeysManager(KeysManager&& o) : self(o.self) { memset(&o, 0, sizeof(KeysManager)); }
+ KeysManager(LDKKeysManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKKeysManager)); }
+ operator LDKKeysManager() && { LDKKeysManager res = self; memset(&self, 0, sizeof(LDKKeysManager)); return res; }
+ ~KeysManager() { KeysManager_free(self); }
+ KeysManager& operator=(KeysManager&& o) { KeysManager_free(self); self = o.self; memset(&o, 0, sizeof(KeysManager)); return *this; }
+ LDKKeysManager* operator &() { return &self; }
+ LDKKeysManager* operator ->() { return &self; }
+ const LDKKeysManager* operator &() const { return &self; }
+ const LDKKeysManager* operator ->() const { return &self; }
+};
+class FilesystemPersister {
+private:
+ LDKFilesystemPersister self;
+public:
+ FilesystemPersister(const FilesystemPersister&) = delete;
+ FilesystemPersister(FilesystemPersister&& o) : self(o.self) { memset(&o, 0, sizeof(FilesystemPersister)); }
+ FilesystemPersister(LDKFilesystemPersister&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKFilesystemPersister)); }
+ operator LDKFilesystemPersister() && { LDKFilesystemPersister res = self; memset(&self, 0, sizeof(LDKFilesystemPersister)); return res; }
+ ~FilesystemPersister() { FilesystemPersister_free(self); }
+ FilesystemPersister& operator=(FilesystemPersister&& o) { FilesystemPersister_free(self); self = o.self; memset(&o, 0, sizeof(FilesystemPersister)); return *this; }
+ LDKFilesystemPersister* operator &() { return &self; }
+ LDKFilesystemPersister* operator ->() { return &self; }
+ const LDKFilesystemPersister* operator &() const { return &self; }
+ const LDKFilesystemPersister* operator ->() const { return &self; }
+};
+class ChannelManager {
+private:
+ LDKChannelManager self;
+public:
+ ChannelManager(const ChannelManager&) = delete;
+ ChannelManager(ChannelManager&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelManager)); }
+ ChannelManager(LDKChannelManager&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelManager)); }
+ operator LDKChannelManager() && { LDKChannelManager res = self; memset(&self, 0, sizeof(LDKChannelManager)); return res; }
+ ~ChannelManager() { ChannelManager_free(self); }
+ ChannelManager& operator=(ChannelManager&& o) { ChannelManager_free(self); self = o.self; memset(&o, 0, sizeof(ChannelManager)); return *this; }
+ LDKChannelManager* operator &() { return &self; }
+ LDKChannelManager* operator ->() { return &self; }
+ const LDKChannelManager* operator &() const { return &self; }
+ const LDKChannelManager* operator ->() const { return &self; }
+};
+class ChainParameters {
+private:
+ LDKChainParameters self;
+public:
+ ChainParameters(const ChainParameters&) = delete;
+ ChainParameters(ChainParameters&& o) : self(o.self) { memset(&o, 0, sizeof(ChainParameters)); }
+ ChainParameters(LDKChainParameters&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChainParameters)); }
+ operator LDKChainParameters() && { LDKChainParameters res = self; memset(&self, 0, sizeof(LDKChainParameters)); return res; }
+ ~ChainParameters() { ChainParameters_free(self); }
+ ChainParameters& operator=(ChainParameters&& o) { ChainParameters_free(self); self = o.self; memset(&o, 0, sizeof(ChainParameters)); return *this; }
+ LDKChainParameters* operator &() { return &self; }
+ LDKChainParameters* operator ->() { return &self; }
+ const LDKChainParameters* operator &() const { return &self; }
+ const LDKChainParameters* 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 PaymentSendFailure {
+private:
+ LDKPaymentSendFailure self;
+public:
+ PaymentSendFailure(const PaymentSendFailure&) = delete;
+ PaymentSendFailure(PaymentSendFailure&& o) : self(o.self) { memset(&o, 0, sizeof(PaymentSendFailure)); }
+ PaymentSendFailure(LDKPaymentSendFailure&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPaymentSendFailure)); }
+ operator LDKPaymentSendFailure() && { LDKPaymentSendFailure res = self; memset(&self, 0, sizeof(LDKPaymentSendFailure)); return res; }
+ ~PaymentSendFailure() { PaymentSendFailure_free(self); }
+ PaymentSendFailure& operator=(PaymentSendFailure&& o) { PaymentSendFailure_free(self); self = o.self; memset(&o, 0, sizeof(PaymentSendFailure)); return *this; }
+ LDKPaymentSendFailure* operator &() { return &self; }
+ LDKPaymentSendFailure* operator ->() { return &self; }
+ const LDKPaymentSendFailure* operator &() const { return &self; }
+ const LDKPaymentSendFailure* operator ->() const { return &self; }
+};
+class ChannelManagerReadArgs {
+private:
+ LDKChannelManagerReadArgs self;
+public:
+ ChannelManagerReadArgs(const ChannelManagerReadArgs&) = delete;
+ ChannelManagerReadArgs(ChannelManagerReadArgs&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelManagerReadArgs)); }
+ ChannelManagerReadArgs(LDKChannelManagerReadArgs&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelManagerReadArgs)); }
+ operator LDKChannelManagerReadArgs() && { LDKChannelManagerReadArgs res = self; memset(&self, 0, sizeof(LDKChannelManagerReadArgs)); return res; }
+ ~ChannelManagerReadArgs() { ChannelManagerReadArgs_free(self); }
+ ChannelManagerReadArgs& operator=(ChannelManagerReadArgs&& o) { ChannelManagerReadArgs_free(self); self = o.self; memset(&o, 0, sizeof(ChannelManagerReadArgs)); return *this; }
+ LDKChannelManagerReadArgs* operator &() { return &self; }
+ LDKChannelManagerReadArgs* operator ->() { return &self; }
+ const LDKChannelManagerReadArgs* operator &() const { return &self; }
+ const LDKChannelManagerReadArgs* operator ->() const { return &self; }
+};
+class ChannelHandshakeConfig {
+private:
+ LDKChannelHandshakeConfig self;
+public:
+ ChannelHandshakeConfig(const ChannelHandshakeConfig&) = delete;
+ ChannelHandshakeConfig(ChannelHandshakeConfig&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelHandshakeConfig)); }
+ ChannelHandshakeConfig(LDKChannelHandshakeConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelHandshakeConfig)); }
+ operator LDKChannelHandshakeConfig() && { LDKChannelHandshakeConfig res = self; memset(&self, 0, sizeof(LDKChannelHandshakeConfig)); return res; }
+ ~ChannelHandshakeConfig() { ChannelHandshakeConfig_free(self); }
+ ChannelHandshakeConfig& operator=(ChannelHandshakeConfig&& o) { ChannelHandshakeConfig_free(self); self = o.self; memset(&o, 0, sizeof(ChannelHandshakeConfig)); return *this; }
+ LDKChannelHandshakeConfig* operator &() { return &self; }
+ LDKChannelHandshakeConfig* operator ->() { return &self; }
+ const LDKChannelHandshakeConfig* operator &() const { return &self; }
+ const LDKChannelHandshakeConfig* operator ->() const { return &self; }
+};
+class ChannelHandshakeLimits {
+private:
+ LDKChannelHandshakeLimits self;
+public:
+ ChannelHandshakeLimits(const ChannelHandshakeLimits&) = delete;
+ ChannelHandshakeLimits(ChannelHandshakeLimits&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelHandshakeLimits)); }
+ ChannelHandshakeLimits(LDKChannelHandshakeLimits&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelHandshakeLimits)); }
+ operator LDKChannelHandshakeLimits() && { LDKChannelHandshakeLimits res = self; memset(&self, 0, sizeof(LDKChannelHandshakeLimits)); return res; }
+ ~ChannelHandshakeLimits() { ChannelHandshakeLimits_free(self); }
+ ChannelHandshakeLimits& operator=(ChannelHandshakeLimits&& o) { ChannelHandshakeLimits_free(self); self = o.self; memset(&o, 0, sizeof(ChannelHandshakeLimits)); return *this; }
+ LDKChannelHandshakeLimits* operator &() { return &self; }
+ LDKChannelHandshakeLimits* operator ->() { return &self; }
+ const LDKChannelHandshakeLimits* operator &() const { return &self; }
+ const LDKChannelHandshakeLimits* operator ->() const { return &self; }
+};
+class ChannelConfig {
+private:
+ LDKChannelConfig self;
+public:
+ ChannelConfig(const ChannelConfig&) = delete;
+ ChannelConfig(ChannelConfig&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelConfig)); }
+ ChannelConfig(LDKChannelConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelConfig)); }
+ operator LDKChannelConfig() && { LDKChannelConfig res = self; memset(&self, 0, sizeof(LDKChannelConfig)); return res; }
+ ~ChannelConfig() { ChannelConfig_free(self); }
+ ChannelConfig& operator=(ChannelConfig&& o) { ChannelConfig_free(self); self = o.self; memset(&o, 0, sizeof(ChannelConfig)); return *this; }
+ LDKChannelConfig* operator &() { return &self; }
+ LDKChannelConfig* operator ->() { return &self; }
+ const LDKChannelConfig* operator &() const { return &self; }
+ const LDKChannelConfig* operator ->() const { return &self; }
+};
+class UserConfig {
+private:
+ LDKUserConfig self;
+public:
+ UserConfig(const UserConfig&) = delete;
+ UserConfig(UserConfig&& o) : self(o.self) { memset(&o, 0, sizeof(UserConfig)); }
+ UserConfig(LDKUserConfig&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKUserConfig)); }
+ operator LDKUserConfig() && { LDKUserConfig res = self; memset(&self, 0, sizeof(LDKUserConfig)); return res; }
+ ~UserConfig() { UserConfig_free(self); }
+ UserConfig& operator=(UserConfig&& o) { UserConfig_free(self); self = o.self; memset(&o, 0, sizeof(UserConfig)); return *this; }
+ LDKUserConfig* operator &() { return &self; }
+ LDKUserConfig* operator ->() { return &self; }
+ const LDKUserConfig* operator &() const { return &self; }
+ const LDKUserConfig* operator ->() const { return &self; }
+};
+class APIError {
+private:
+ LDKAPIError self;
+public:
+ APIError(const APIError&) = delete;
+ APIError(APIError&& o) : self(o.self) { memset(&o, 0, sizeof(APIError)); }
+ APIError(LDKAPIError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKAPIError)); }
+ operator LDKAPIError() && { LDKAPIError res = self; memset(&self, 0, sizeof(LDKAPIError)); return res; }
+ ~APIError() { APIError_free(self); }
+ APIError& operator=(APIError&& o) { APIError_free(self); self = o.self; memset(&o, 0, sizeof(APIError)); return *this; }
+ LDKAPIError* operator &() { return &self; }
+ LDKAPIError* operator ->() { return &self; }
+ const LDKAPIError* operator &() const { return &self; }
+ const LDKAPIError* 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; }
+ ~OutPoint() { OutPoint_free(self); }
+ OutPoint& operator=(OutPoint&& o) { OutPoint_free(self); self = o.self; memset(&o, 0, sizeof(OutPoint)); return *this; }
+ LDKOutPoint* operator &() { return &self; }
+ LDKOutPoint* operator ->() { return &self; }
+ const LDKOutPoint* operator &() const { return &self; }
+ const LDKOutPoint* operator ->() const { return &self; }
+};
+class Invoice {
+private:
+ LDKInvoice self;
+public:
+ Invoice(const Invoice&) = delete;
+ Invoice(Invoice&& o) : self(o.self) { memset(&o, 0, sizeof(Invoice)); }
+ Invoice(LDKInvoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoice)); }
+ operator LDKInvoice() && { LDKInvoice res = self; memset(&self, 0, sizeof(LDKInvoice)); return res; }
+ ~Invoice() { Invoice_free(self); }
+ Invoice& operator=(Invoice&& o) { Invoice_free(self); self = o.self; memset(&o, 0, sizeof(Invoice)); return *this; }
+ LDKInvoice* operator &() { return &self; }
+ LDKInvoice* operator ->() { return &self; }
+ const LDKInvoice* operator &() const { return &self; }
+ const LDKInvoice* operator ->() const { return &self; }
+};
+class SignedRawInvoice {
+private:
+ LDKSignedRawInvoice self;
+public:
+ SignedRawInvoice(const SignedRawInvoice&) = delete;
+ SignedRawInvoice(SignedRawInvoice&& o) : self(o.self) { memset(&o, 0, sizeof(SignedRawInvoice)); }
+ SignedRawInvoice(LDKSignedRawInvoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSignedRawInvoice)); }
+ operator LDKSignedRawInvoice() && { LDKSignedRawInvoice res = self; memset(&self, 0, sizeof(LDKSignedRawInvoice)); return res; }
+ ~SignedRawInvoice() { SignedRawInvoice_free(self); }
+ SignedRawInvoice& operator=(SignedRawInvoice&& o) { SignedRawInvoice_free(self); self = o.self; memset(&o, 0, sizeof(SignedRawInvoice)); return *this; }
+ LDKSignedRawInvoice* operator &() { return &self; }
+ LDKSignedRawInvoice* operator ->() { return &self; }
+ const LDKSignedRawInvoice* operator &() const { return &self; }
+ const LDKSignedRawInvoice* operator ->() const { return &self; }
+};
+class RawInvoice {
+private:
+ LDKRawInvoice self;
+public:
+ RawInvoice(const RawInvoice&) = delete;
+ RawInvoice(RawInvoice&& o) : self(o.self) { memset(&o, 0, sizeof(RawInvoice)); }
+ RawInvoice(LDKRawInvoice&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRawInvoice)); }
+ operator LDKRawInvoice() && { LDKRawInvoice res = self; memset(&self, 0, sizeof(LDKRawInvoice)); return res; }
+ ~RawInvoice() { RawInvoice_free(self); }
+ RawInvoice& operator=(RawInvoice&& o) { RawInvoice_free(self); self = o.self; memset(&o, 0, sizeof(RawInvoice)); return *this; }
+ LDKRawInvoice* operator &() { return &self; }
+ LDKRawInvoice* operator ->() { return &self; }
+ const LDKRawInvoice* operator &() const { return &self; }
+ const LDKRawInvoice* 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 MinFinalCltvExpiry {
+private:
+ LDKMinFinalCltvExpiry self;
+public:
+ MinFinalCltvExpiry(const MinFinalCltvExpiry&) = delete;
+ MinFinalCltvExpiry(MinFinalCltvExpiry&& o) : self(o.self) { memset(&o, 0, sizeof(MinFinalCltvExpiry)); }
+ MinFinalCltvExpiry(LDKMinFinalCltvExpiry&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMinFinalCltvExpiry)); }
+ operator LDKMinFinalCltvExpiry() && { LDKMinFinalCltvExpiry res = self; memset(&self, 0, sizeof(LDKMinFinalCltvExpiry)); return res; }
+ ~MinFinalCltvExpiry() { MinFinalCltvExpiry_free(self); }
+ MinFinalCltvExpiry& operator=(MinFinalCltvExpiry&& o) { MinFinalCltvExpiry_free(self); self = o.self; memset(&o, 0, sizeof(MinFinalCltvExpiry)); return *this; }
+ LDKMinFinalCltvExpiry* operator &() { return &self; }
+ LDKMinFinalCltvExpiry* operator ->() { return &self; }
+ const LDKMinFinalCltvExpiry* operator &() const { return &self; }
+ const LDKMinFinalCltvExpiry* 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 InvoiceSignature {
+private:
+ LDKInvoiceSignature self;
+public:
+ InvoiceSignature(const InvoiceSignature&) = delete;
+ InvoiceSignature(InvoiceSignature&& o) : self(o.self) { memset(&o, 0, sizeof(InvoiceSignature)); }
+ InvoiceSignature(LDKInvoiceSignature&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKInvoiceSignature)); }
+ operator LDKInvoiceSignature() && { LDKInvoiceSignature res = self; memset(&self, 0, sizeof(LDKInvoiceSignature)); return res; }
+ ~InvoiceSignature() { InvoiceSignature_free(self); }
+ InvoiceSignature& operator=(InvoiceSignature&& o) { InvoiceSignature_free(self); self = o.self; memset(&o, 0, sizeof(InvoiceSignature)); return *this; }
+ LDKInvoiceSignature* operator &() { return &self; }
+ LDKInvoiceSignature* operator ->() { return &self; }
+ const LDKInvoiceSignature* operator &() const { return &self; }
+ const LDKInvoiceSignature* 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 SemanticError {
+private:
+ LDKSemanticError self;
+public:
+ SemanticError(const SemanticError&) = delete;
+ SemanticError(SemanticError&& o) : self(o.self) { memset(&o, 0, sizeof(SemanticError)); }
+ SemanticError(LDKSemanticError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKSemanticError)); }
+ operator LDKSemanticError() && { LDKSemanticError res = self; memset(&self, 0, sizeof(LDKSemanticError)); return res; }
+ SemanticError& operator=(SemanticError&& o) { self = o.self; memset(&o, 0, sizeof(SemanticError)); return *this; }
+ LDKSemanticError* operator &() { return &self; }
+ LDKSemanticError* operator ->() { return &self; }
+ const LDKSemanticError* operator &() const { return &self; }
+ const LDKSemanticError* 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 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 ChannelMonitorUpdateErr {
+private:
+ LDKChannelMonitorUpdateErr self;
+public:
+ ChannelMonitorUpdateErr(const ChannelMonitorUpdateErr&) = delete;
+ ChannelMonitorUpdateErr(ChannelMonitorUpdateErr&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelMonitorUpdateErr)); }
+ ChannelMonitorUpdateErr(LDKChannelMonitorUpdateErr&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelMonitorUpdateErr)); }
+ operator LDKChannelMonitorUpdateErr() && { LDKChannelMonitorUpdateErr res = self; memset(&self, 0, sizeof(LDKChannelMonitorUpdateErr)); return res; }
+ ChannelMonitorUpdateErr& operator=(ChannelMonitorUpdateErr&& o) { self = o.self; memset(&o, 0, sizeof(ChannelMonitorUpdateErr)); return *this; }
+ LDKChannelMonitorUpdateErr* operator &() { return &self; }
+ LDKChannelMonitorUpdateErr* operator ->() { return &self; }
+ const LDKChannelMonitorUpdateErr* operator &() const { return &self; }
+ const LDKChannelMonitorUpdateErr* operator ->() const { return &self; }
+};
+class MonitorUpdateError {
+private:
+ LDKMonitorUpdateError self;
+public:
+ MonitorUpdateError(const MonitorUpdateError&) = delete;
+ MonitorUpdateError(MonitorUpdateError&& o) : self(o.self) { memset(&o, 0, sizeof(MonitorUpdateError)); }
+ MonitorUpdateError(LDKMonitorUpdateError&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKMonitorUpdateError)); }
+ operator LDKMonitorUpdateError() && { LDKMonitorUpdateError res = self; memset(&self, 0, sizeof(LDKMonitorUpdateError)); return res; }
+ ~MonitorUpdateError() { MonitorUpdateError_free(self); }
+ MonitorUpdateError& operator=(MonitorUpdateError&& o) { MonitorUpdateError_free(self); self = o.self; memset(&o, 0, sizeof(MonitorUpdateError)); return *this; }
+ LDKMonitorUpdateError* operator &() { return &self; }
+ LDKMonitorUpdateError* operator ->() { return &self; }
+ const LDKMonitorUpdateError* operator &() const { return &self; }
+ const LDKMonitorUpdateError* 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 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 Persist {
+private:
+ LDKPersist self;
+public:
+ Persist(const Persist&) = delete;
+ Persist(Persist&& o) : self(o.self) { memset(&o, 0, sizeof(Persist)); }
+ Persist(LDKPersist&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKPersist)); }
+ operator LDKPersist() && { LDKPersist res = self; memset(&self, 0, sizeof(LDKPersist)); return res; }
+ ~Persist() { Persist_free(self); }
+ Persist& operator=(Persist&& o) { Persist_free(self); self = o.self; memset(&o, 0, sizeof(Persist)); return *this; }
+ LDKPersist* operator &() { return &self; }
+ LDKPersist* operator ->() { return &self; }
+ const LDKPersist* operator &() const { return &self; }
+ const LDKPersist* operator ->() const { return &self; }
+ /**
+ * Persist a new channel's data. The data can be stored any way you want, but
+ * the identifier provided by Rust-Lightning is the channel's outpoint (and
+ * it is up to you to maintain a correct mapping between the outpoint and the
+ * stored channel data). Note that you **must** persist every new monitor to
+ * disk. See the `Persist` trait documentation for more details.
+ *
+ * See [`ChannelMonitor::write`] for writing out a `ChannelMonitor`,
+ * and [`ChannelMonitorUpdateErr`] for requirements when returning errors.
+ */
+ inline LDK::CResult_NoneChannelMonitorUpdateErrZ persist_new_channel(struct LDKOutPoint id, const struct LDKChannelMonitor *NONNULL_PTR data);
+ /**
+ * Update one channel's data. The provided `ChannelMonitor` has already
+ * applied the given update.
+ *
+ * Note that on every update, you **must** persist either the
+ * `ChannelMonitorUpdate` or the updated monitor itself to disk/backups. See
+ * the `Persist` trait documentation for more details.
+ *
+ * If an implementer chooses to persist the updates only, they need to make
+ * sure that all the updates are applied to the `ChannelMonitors` *before*
+ * the set of channel monitors is given to the `ChannelManager`
+ * deserialization routine. See [`ChannelMonitor::update_monitor`] for
+ * applying a monitor update to a monitor. If full `ChannelMonitors` are
+ * persisted, then there is no need to persist individual updates.
+ *
+ * Note that there could be a performance tradeoff between persisting complete
+ * channel monitors on every update vs. persisting only updates and applying
+ * them in batches. The size of each monitor grows `O(number of state updates)`
+ * whereas updates are small and `O(1)`.
+ *
+ * See [`ChannelMonitor::write`] for writing out a `ChannelMonitor`,
+ * [`ChannelMonitorUpdate::write`] for writing out an update, and
+ * [`ChannelMonitorUpdateErr`] for requirements when returning errors.
+ */
+ inline LDK::CResult_NoneChannelMonitorUpdateErrZ update_persisted_channel(struct LDKOutPoint id, const struct LDKChannelMonitorUpdate *NONNULL_PTR update, const struct LDKChannelMonitor *NONNULL_PTR data);
+};
+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 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 NetworkGraph {
+private:
+ LDKNetworkGraph self;
+public:
+ NetworkGraph(const NetworkGraph&) = delete;
+ NetworkGraph(NetworkGraph&& o) : self(o.self) { memset(&o, 0, sizeof(NetworkGraph)); }
+ NetworkGraph(LDKNetworkGraph&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNetworkGraph)); }
+ operator LDKNetworkGraph() && { LDKNetworkGraph res = self; memset(&self, 0, sizeof(LDKNetworkGraph)); return res; }
+ ~NetworkGraph() { NetworkGraph_free(self); }
+ NetworkGraph& operator=(NetworkGraph&& o) { NetworkGraph_free(self); self = o.self; memset(&o, 0, sizeof(NetworkGraph)); return *this; }
+ LDKNetworkGraph* operator &() { return &self; }
+ LDKNetworkGraph* operator ->() { return &self; }
+ const LDKNetworkGraph* operator &() const { return &self; }
+ const LDKNetworkGraph* operator ->() const { return &self; }
+};
+class LockedNetworkGraph {
+private:
+ LDKLockedNetworkGraph self;
+public:
+ LockedNetworkGraph(const LockedNetworkGraph&) = delete;
+ LockedNetworkGraph(LockedNetworkGraph&& o) : self(o.self) { memset(&o, 0, sizeof(LockedNetworkGraph)); }
+ LockedNetworkGraph(LDKLockedNetworkGraph&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKLockedNetworkGraph)); }
+ operator LDKLockedNetworkGraph() && { LDKLockedNetworkGraph res = self; memset(&self, 0, sizeof(LDKLockedNetworkGraph)); return res; }
+ ~LockedNetworkGraph() { LockedNetworkGraph_free(self); }
+ LockedNetworkGraph& operator=(LockedNetworkGraph&& o) { LockedNetworkGraph_free(self); self = o.self; memset(&o, 0, sizeof(LockedNetworkGraph)); return *this; }
+ LDKLockedNetworkGraph* operator &() { return &self; }
+ LDKLockedNetworkGraph* operator ->() { return &self; }
+ const LDKLockedNetworkGraph* operator &() const { return &self; }
+ const LDKLockedNetworkGraph* operator ->() const { return &self; }
+};
+class NetGraphMsgHandler {
+private:
+ LDKNetGraphMsgHandler self;
+public:
+ NetGraphMsgHandler(const NetGraphMsgHandler&) = delete;
+ NetGraphMsgHandler(NetGraphMsgHandler&& o) : self(o.self) { memset(&o, 0, sizeof(NetGraphMsgHandler)); }
+ NetGraphMsgHandler(LDKNetGraphMsgHandler&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNetGraphMsgHandler)); }
+ operator LDKNetGraphMsgHandler() && { LDKNetGraphMsgHandler res = self; memset(&self, 0, sizeof(LDKNetGraphMsgHandler)); return res; }
+ ~NetGraphMsgHandler() { NetGraphMsgHandler_free(self); }
+ NetGraphMsgHandler& operator=(NetGraphMsgHandler&& o) { NetGraphMsgHandler_free(self); self = o.self; memset(&o, 0, sizeof(NetGraphMsgHandler)); return *this; }
+ LDKNetGraphMsgHandler* operator &() { return &self; }
+ LDKNetGraphMsgHandler* operator ->() { return &self; }
+ const LDKNetGraphMsgHandler* operator &() const { return &self; }
+ const LDKNetGraphMsgHandler* operator ->() const { return &self; }
+};
+class DirectionalChannelInfo {
+private:
+ LDKDirectionalChannelInfo self;
+public:
+ DirectionalChannelInfo(const DirectionalChannelInfo&) = delete;
+ DirectionalChannelInfo(DirectionalChannelInfo&& o) : self(o.self) { memset(&o, 0, sizeof(DirectionalChannelInfo)); }
+ DirectionalChannelInfo(LDKDirectionalChannelInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKDirectionalChannelInfo)); }
+ operator LDKDirectionalChannelInfo() && { LDKDirectionalChannelInfo res = self; memset(&self, 0, sizeof(LDKDirectionalChannelInfo)); return res; }
+ ~DirectionalChannelInfo() { DirectionalChannelInfo_free(self); }
+ DirectionalChannelInfo& operator=(DirectionalChannelInfo&& o) { DirectionalChannelInfo_free(self); self = o.self; memset(&o, 0, sizeof(DirectionalChannelInfo)); return *this; }
+ LDKDirectionalChannelInfo* operator &() { return &self; }
+ LDKDirectionalChannelInfo* operator ->() { return &self; }
+ const LDKDirectionalChannelInfo* operator &() const { return &self; }
+ const LDKDirectionalChannelInfo* operator ->() const { return &self; }
+};
+class ChannelInfo {
+private:
+ LDKChannelInfo self;
+public:
+ ChannelInfo(const ChannelInfo&) = delete;
+ ChannelInfo(ChannelInfo&& o) : self(o.self) { memset(&o, 0, sizeof(ChannelInfo)); }
+ ChannelInfo(LDKChannelInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKChannelInfo)); }
+ operator LDKChannelInfo() && { LDKChannelInfo res = self; memset(&self, 0, sizeof(LDKChannelInfo)); return res; }
+ ~ChannelInfo() { ChannelInfo_free(self); }
+ ChannelInfo& operator=(ChannelInfo&& o) { ChannelInfo_free(self); self = o.self; memset(&o, 0, sizeof(ChannelInfo)); return *this; }
+ LDKChannelInfo* operator &() { return &self; }
+ LDKChannelInfo* operator ->() { return &self; }
+ const LDKChannelInfo* operator &() const { return &self; }
+ const LDKChannelInfo* operator ->() const { return &self; }
+};
+class RoutingFees {
+private:
+ LDKRoutingFees self;
+public:
+ RoutingFees(const RoutingFees&) = delete;
+ RoutingFees(RoutingFees&& o) : self(o.self) { memset(&o, 0, sizeof(RoutingFees)); }
+ RoutingFees(LDKRoutingFees&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKRoutingFees)); }
+ operator LDKRoutingFees() && { LDKRoutingFees res = self; memset(&self, 0, sizeof(LDKRoutingFees)); return res; }
+ ~RoutingFees() { RoutingFees_free(self); }
+ RoutingFees& operator=(RoutingFees&& o) { RoutingFees_free(self); self = o.self; memset(&o, 0, sizeof(RoutingFees)); return *this; }
+ LDKRoutingFees* operator &() { return &self; }
+ LDKRoutingFees* operator ->() { return &self; }
+ const LDKRoutingFees* operator &() const { return &self; }
+ const LDKRoutingFees* operator ->() const { return &self; }
+};
+class NodeAnnouncementInfo {
+private:
+ LDKNodeAnnouncementInfo self;
+public:
+ NodeAnnouncementInfo(const NodeAnnouncementInfo&) = delete;
+ NodeAnnouncementInfo(NodeAnnouncementInfo&& o) : self(o.self) { memset(&o, 0, sizeof(NodeAnnouncementInfo)); }
+ NodeAnnouncementInfo(LDKNodeAnnouncementInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeAnnouncementInfo)); }
+ operator LDKNodeAnnouncementInfo() && { LDKNodeAnnouncementInfo res = self; memset(&self, 0, sizeof(LDKNodeAnnouncementInfo)); return res; }
+ ~NodeAnnouncementInfo() { NodeAnnouncementInfo_free(self); }
+ NodeAnnouncementInfo& operator=(NodeAnnouncementInfo&& o) { NodeAnnouncementInfo_free(self); self = o.self; memset(&o, 0, sizeof(NodeAnnouncementInfo)); return *this; }
+ LDKNodeAnnouncementInfo* operator &() { return &self; }
+ LDKNodeAnnouncementInfo* operator ->() { return &self; }
+ const LDKNodeAnnouncementInfo* operator &() const { return &self; }
+ const LDKNodeAnnouncementInfo* operator ->() const { return &self; }
+};
+class NodeInfo {
+private:
+ LDKNodeInfo self;
+public:
+ NodeInfo(const NodeInfo&) = delete;
+ NodeInfo(NodeInfo&& o) : self(o.self) { memset(&o, 0, sizeof(NodeInfo)); }
+ NodeInfo(LDKNodeInfo&& m_self) : self(m_self) { memset(&m_self, 0, sizeof(LDKNodeInfo)); }
+ operator LDKNodeInfo() && { LDKNodeInfo res = self; memset(&self, 0, sizeof(LDKNodeInfo)); return res; }
+ ~NodeInfo() { NodeInfo_free(self); }
+ NodeInfo& operator=(NodeInfo&& o) { NodeInfo_free(self); self = o.self; memset(&o, 0, sizeof(NodeInfo)); return *this; }
+ LDKNodeInfo* operator &() { return &self; }
+ LDKNodeInfo* operator ->() { return &self; }
+ const LDKNodeInfo* operator &() const { return &self; }
+ const LDKNodeInfo* 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: