using org.ldk.impl; using org.ldk.enums; using org.ldk.util; using System; namespace org { namespace ldk { namespace structs { /** * Details of a channel, as returned by [`ChannelManager::list_channels`] and [`ChannelManager::list_usable_channels`] */ public class ChannelDetails : CommonBase { internal ChannelDetails(object _dummy, long ptr) : base(ptr) { } ~ChannelDetails() { if (ptr != 0) { bindings.ChannelDetails_free(ptr); } } /** * The channel's ID (prior to funding transaction generation, this is a random 32 bytes, * thereafter this is the txid of the funding transaction xor the funding transaction output). * Note that this means this value is *not* persistent - it can change once during the * lifetime of the channel. */ public byte[] get_channel_id() { long ret = bindings.ChannelDetails_get_channel_id(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } byte[] ret_conv = InternalUtils.decodeUint8Array(ret); return ret_conv; } /** * The channel's ID (prior to funding transaction generation, this is a random 32 bytes, * thereafter this is the txid of the funding transaction xor the funding transaction output). * Note that this means this value is *not* persistent - it can change once during the * lifetime of the channel. */ public void set_channel_id(byte[] val) { bindings.ChannelDetails_set_channel_id(this.ptr, InternalUtils.encodeUint8Array(InternalUtils.check_arr_len(val, 32))); GC.KeepAlive(this); GC.KeepAlive(val); } /** * Parameters which apply to our counterparty. See individual fields for more information. */ public ChannelCounterparty get_counterparty() { long ret = bindings.ChannelDetails_get_counterparty(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.ChannelCounterparty ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelCounterparty(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * Parameters which apply to our counterparty. See individual fields for more information. */ public void set_counterparty(org.ldk.structs.ChannelCounterparty val) { bindings.ChannelDetails_set_counterparty(this.ptr, val == null ? 0 : val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The Channel's funding transaction output, if we've negotiated the funding transaction with * our counterparty already. * * Note that, if this has been set, `channel_id` will be equivalent to * `funding_txo.unwrap().to_channel_id()`. * * Note that the return value (or a relevant inner pointer) may be NULL or all-0s to represent None */ public OutPoint get_funding_txo() { long ret = bindings.ChannelDetails_get_funding_txo(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.OutPoint ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.OutPoint(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The Channel's funding transaction output, if we've negotiated the funding transaction with * our counterparty already. * * Note that, if this has been set, `channel_id` will be equivalent to * `funding_txo.unwrap().to_channel_id()`. * * Note that val (or a relevant inner pointer) may be NULL or all-0s to represent None */ public void set_funding_txo(org.ldk.structs.OutPoint val) { bindings.ChannelDetails_set_funding_txo(this.ptr, val == null ? 0 : val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The features which this channel operates with. See individual features for more info. * * `None` until negotiation completes and the channel type is finalized. * * Note that the return value (or a relevant inner pointer) may be NULL or all-0s to represent None */ public ChannelTypeFeatures get_channel_type() { long ret = bindings.ChannelDetails_get_channel_type(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.ChannelTypeFeatures ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelTypeFeatures(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The features which this channel operates with. See individual features for more info. * * `None` until negotiation completes and the channel type is finalized. * * Note that val (or a relevant inner pointer) may be NULL or all-0s to represent None */ public void set_channel_type(org.ldk.structs.ChannelTypeFeatures val) { bindings.ChannelDetails_set_channel_type(this.ptr, val == null ? 0 : val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The position of the funding transaction in the chain. None if the funding transaction has * not yet been confirmed and the channel fully opened. * * Note that if [`inbound_scid_alias`] is set, it must be used for invoices and inbound * payments instead of this. See [`get_inbound_payment_scid`]. * * For channels with [`confirmations_required`] set to `Some(0)`, [`outbound_scid_alias`] may * be used in place of this in outbound routes. See [`get_outbound_payment_scid`]. * * [`inbound_scid_alias`]: Self::inbound_scid_alias * [`outbound_scid_alias`]: Self::outbound_scid_alias * [`get_inbound_payment_scid`]: Self::get_inbound_payment_scid * [`get_outbound_payment_scid`]: Self::get_outbound_payment_scid * [`confirmations_required`]: Self::confirmations_required */ public Option_u64Z get_short_channel_id() { long ret = bindings.ChannelDetails_get_short_channel_id(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The position of the funding transaction in the chain. None if the funding transaction has * not yet been confirmed and the channel fully opened. * * Note that if [`inbound_scid_alias`] is set, it must be used for invoices and inbound * payments instead of this. See [`get_inbound_payment_scid`]. * * For channels with [`confirmations_required`] set to `Some(0)`, [`outbound_scid_alias`] may * be used in place of this in outbound routes. See [`get_outbound_payment_scid`]. * * [`inbound_scid_alias`]: Self::inbound_scid_alias * [`outbound_scid_alias`]: Self::outbound_scid_alias * [`get_inbound_payment_scid`]: Self::get_inbound_payment_scid * [`get_outbound_payment_scid`]: Self::get_outbound_payment_scid * [`confirmations_required`]: Self::confirmations_required */ public void set_short_channel_id(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_short_channel_id(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * An optional [`short_channel_id`] alias for this channel, randomly generated by us and * usable in place of [`short_channel_id`] to reference the channel in outbound routes when * the channel has not yet been confirmed (as long as [`confirmations_required`] is * `Some(0)`). * * This will be `None` as long as the channel is not available for routing outbound payments. * * [`short_channel_id`]: Self::short_channel_id * [`confirmations_required`]: Self::confirmations_required */ public Option_u64Z get_outbound_scid_alias() { long ret = bindings.ChannelDetails_get_outbound_scid_alias(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * An optional [`short_channel_id`] alias for this channel, randomly generated by us and * usable in place of [`short_channel_id`] to reference the channel in outbound routes when * the channel has not yet been confirmed (as long as [`confirmations_required`] is * `Some(0)`). * * This will be `None` as long as the channel is not available for routing outbound payments. * * [`short_channel_id`]: Self::short_channel_id * [`confirmations_required`]: Self::confirmations_required */ public void set_outbound_scid_alias(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_outbound_scid_alias(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * An optional [`short_channel_id`] alias for this channel, randomly generated by our * counterparty and usable in place of [`short_channel_id`] in invoice route hints. Our * counterparty will recognize the alias provided here in place of the [`short_channel_id`] * when they see a payment to be routed to us. * * Our counterparty may choose to rotate this value at any time, though will always recognize * previous values for inbound payment forwarding. * * [`short_channel_id`]: Self::short_channel_id */ public Option_u64Z get_inbound_scid_alias() { long ret = bindings.ChannelDetails_get_inbound_scid_alias(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * An optional [`short_channel_id`] alias for this channel, randomly generated by our * counterparty and usable in place of [`short_channel_id`] in invoice route hints. Our * counterparty will recognize the alias provided here in place of the [`short_channel_id`] * when they see a payment to be routed to us. * * Our counterparty may choose to rotate this value at any time, though will always recognize * previous values for inbound payment forwarding. * * [`short_channel_id`]: Self::short_channel_id */ public void set_inbound_scid_alias(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_inbound_scid_alias(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The value, in satoshis, of this channel as appears in the funding output */ public long get_channel_value_satoshis() { long ret = bindings.ChannelDetails_get_channel_value_satoshis(this.ptr); GC.KeepAlive(this); return ret; } /** * The value, in satoshis, of this channel as appears in the funding output */ public void set_channel_value_satoshis(long val) { bindings.ChannelDetails_set_channel_value_satoshis(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The value, in satoshis, that must always be held in the channel for us. This value ensures * that if we broadcast a revoked state, our counterparty can punish us by claiming at least * this value on chain. * * This value is not included in [`outbound_capacity_msat`] as it can never be spent. * * This value will be `None` for outbound channels until the counterparty accepts the channel. * * [`outbound_capacity_msat`]: ChannelDetails::outbound_capacity_msat */ public Option_u64Z get_unspendable_punishment_reserve() { long ret = bindings.ChannelDetails_get_unspendable_punishment_reserve(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The value, in satoshis, that must always be held in the channel for us. This value ensures * that if we broadcast a revoked state, our counterparty can punish us by claiming at least * this value on chain. * * This value is not included in [`outbound_capacity_msat`] as it can never be spent. * * This value will be `None` for outbound channels until the counterparty accepts the channel. * * [`outbound_capacity_msat`]: ChannelDetails::outbound_capacity_msat */ public void set_unspendable_punishment_reserve(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_unspendable_punishment_reserve(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The `user_channel_id` value passed in to [`ChannelManager::create_channel`] for outbound * channels, or to [`ChannelManager::accept_inbound_channel`] for inbound channels if * [`UserConfig::manually_accept_inbound_channels`] config flag is set to true. Otherwise * `user_channel_id` will be randomized for an inbound channel. This may be zero for objects * serialized with LDK versions prior to 0.0.113. * * [`ChannelManager::create_channel`]: crate::ln::channelmanager::ChannelManager::create_channel * [`ChannelManager::accept_inbound_channel`]: crate::ln::channelmanager::ChannelManager::accept_inbound_channel * [`UserConfig::manually_accept_inbound_channels`]: crate::util::config::UserConfig::manually_accept_inbound_channels */ public UInt128 get_user_channel_id() { long ret = bindings.ChannelDetails_get_user_channel_id(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.util.UInt128 ret_conv = new org.ldk.util.UInt128(ret); return ret_conv; } /** * The `user_channel_id` value passed in to [`ChannelManager::create_channel`] for outbound * channels, or to [`ChannelManager::accept_inbound_channel`] for inbound channels if * [`UserConfig::manually_accept_inbound_channels`] config flag is set to true. Otherwise * `user_channel_id` will be randomized for an inbound channel. This may be zero for objects * serialized with LDK versions prior to 0.0.113. * * [`ChannelManager::create_channel`]: crate::ln::channelmanager::ChannelManager::create_channel * [`ChannelManager::accept_inbound_channel`]: crate::ln::channelmanager::ChannelManager::accept_inbound_channel * [`UserConfig::manually_accept_inbound_channels`]: crate::util::config::UserConfig::manually_accept_inbound_channels */ public void set_user_channel_id(org.ldk.util.UInt128 val) { bindings.ChannelDetails_set_user_channel_id(this.ptr, InternalUtils.encodeUint8Array(val.getLEBytes())); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The currently negotiated fee rate denominated in satoshi per 1000 weight units, * which is applied to commitment and HTLC transactions. * * This value will be `None` for objects serialized with LDK versions prior to 0.0.115. */ public Option_u32Z get_feerate_sat_per_1000_weight() { long ret = bindings.ChannelDetails_get_feerate_sat_per_1000_weight(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u32Z ret_hu_conv = org.ldk.structs.Option_u32Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The currently negotiated fee rate denominated in satoshi per 1000 weight units, * which is applied to commitment and HTLC transactions. * * This value will be `None` for objects serialized with LDK versions prior to 0.0.115. */ public void set_feerate_sat_per_1000_weight(org.ldk.structs.Option_u32Z val) { bindings.ChannelDetails_set_feerate_sat_per_1000_weight(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * Our total balance. This is the amount we would get if we close the channel. * This value is not exact. Due to various in-flight changes and feerate changes, exactly this * amount is not likely to be recoverable on close. * * This does not include any pending HTLCs which are not yet fully resolved (and, thus, whose * balance is not available for inclusion in new outbound HTLCs). This further does not include * any pending outgoing HTLCs which are awaiting some other resolution to be sent. * This does not consider any on-chain fees. * * See also [`ChannelDetails::outbound_capacity_msat`] */ public long get_balance_msat() { long ret = bindings.ChannelDetails_get_balance_msat(this.ptr); GC.KeepAlive(this); return ret; } /** * Our total balance. This is the amount we would get if we close the channel. * This value is not exact. Due to various in-flight changes and feerate changes, exactly this * amount is not likely to be recoverable on close. * * This does not include any pending HTLCs which are not yet fully resolved (and, thus, whose * balance is not available for inclusion in new outbound HTLCs). This further does not include * any pending outgoing HTLCs which are awaiting some other resolution to be sent. * This does not consider any on-chain fees. * * See also [`ChannelDetails::outbound_capacity_msat`] */ public void set_balance_msat(long val) { bindings.ChannelDetails_set_balance_msat(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The available outbound capacity for sending HTLCs to the remote peer. This does not include * any pending HTLCs which are not yet fully resolved (and, thus, whose balance is not * available for inclusion in new outbound HTLCs). This further does not include any pending * outgoing HTLCs which are awaiting some other resolution to be sent. * * See also [`ChannelDetails::balance_msat`] * * This value is not exact. Due to various in-flight changes, feerate changes, and our * conflict-avoidance policy, exactly this amount is not likely to be spendable. However, we * should be able to spend nearly this amount. */ public long get_outbound_capacity_msat() { long ret = bindings.ChannelDetails_get_outbound_capacity_msat(this.ptr); GC.KeepAlive(this); return ret; } /** * The available outbound capacity for sending HTLCs to the remote peer. This does not include * any pending HTLCs which are not yet fully resolved (and, thus, whose balance is not * available for inclusion in new outbound HTLCs). This further does not include any pending * outgoing HTLCs which are awaiting some other resolution to be sent. * * See also [`ChannelDetails::balance_msat`] * * This value is not exact. Due to various in-flight changes, feerate changes, and our * conflict-avoidance policy, exactly this amount is not likely to be spendable. However, we * should be able to spend nearly this amount. */ public void set_outbound_capacity_msat(long val) { bindings.ChannelDetails_set_outbound_capacity_msat(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The available outbound capacity for sending a single HTLC to the remote peer. This is * similar to [`ChannelDetails::outbound_capacity_msat`] but it may be further restricted by * the current state and per-HTLC limit(s). This is intended for use when routing, allowing us * to use a limit as close as possible to the HTLC limit we can currently send. * * See also [`ChannelDetails::next_outbound_htlc_minimum_msat`], * [`ChannelDetails::balance_msat`], and [`ChannelDetails::outbound_capacity_msat`]. */ public long get_next_outbound_htlc_limit_msat() { long ret = bindings.ChannelDetails_get_next_outbound_htlc_limit_msat(this.ptr); GC.KeepAlive(this); return ret; } /** * The available outbound capacity for sending a single HTLC to the remote peer. This is * similar to [`ChannelDetails::outbound_capacity_msat`] but it may be further restricted by * the current state and per-HTLC limit(s). This is intended for use when routing, allowing us * to use a limit as close as possible to the HTLC limit we can currently send. * * See also [`ChannelDetails::next_outbound_htlc_minimum_msat`], * [`ChannelDetails::balance_msat`], and [`ChannelDetails::outbound_capacity_msat`]. */ public void set_next_outbound_htlc_limit_msat(long val) { bindings.ChannelDetails_set_next_outbound_htlc_limit_msat(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The minimum value for sending a single HTLC to the remote peer. This is the equivalent of * [`ChannelDetails::next_outbound_htlc_limit_msat`] but represents a lower-bound, rather than * an upper-bound. This is intended for use when routing, allowing us to ensure we pick a * route which is valid. */ public long get_next_outbound_htlc_minimum_msat() { long ret = bindings.ChannelDetails_get_next_outbound_htlc_minimum_msat(this.ptr); GC.KeepAlive(this); return ret; } /** * The minimum value for sending a single HTLC to the remote peer. This is the equivalent of * [`ChannelDetails::next_outbound_htlc_limit_msat`] but represents a lower-bound, rather than * an upper-bound. This is intended for use when routing, allowing us to ensure we pick a * route which is valid. */ public void set_next_outbound_htlc_minimum_msat(long val) { bindings.ChannelDetails_set_next_outbound_htlc_minimum_msat(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The available inbound capacity for the remote peer to send HTLCs to us. This does not * include any pending HTLCs which are not yet fully resolved (and, thus, whose balance is not * available for inclusion in new inbound HTLCs). * Note that there are some corner cases not fully handled here, so the actual available * inbound capacity may be slightly higher than this. * * This value is not exact. Due to various in-flight changes, feerate changes, and our * counterparty's conflict-avoidance policy, exactly this amount is not likely to be spendable. * However, our counterparty should be able to spend nearly this amount. */ public long get_inbound_capacity_msat() { long ret = bindings.ChannelDetails_get_inbound_capacity_msat(this.ptr); GC.KeepAlive(this); return ret; } /** * The available inbound capacity for the remote peer to send HTLCs to us. This does not * include any pending HTLCs which are not yet fully resolved (and, thus, whose balance is not * available for inclusion in new inbound HTLCs). * Note that there are some corner cases not fully handled here, so the actual available * inbound capacity may be slightly higher than this. * * This value is not exact. Due to various in-flight changes, feerate changes, and our * counterparty's conflict-avoidance policy, exactly this amount is not likely to be spendable. * However, our counterparty should be able to spend nearly this amount. */ public void set_inbound_capacity_msat(long val) { bindings.ChannelDetails_set_inbound_capacity_msat(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The number of required confirmations on the funding transaction before the funding will be * considered \"locked\". This number is selected by the channel fundee (i.e. us if * [`is_outbound`] is *not* set), and can be selected for inbound channels with * [`ChannelHandshakeConfig::minimum_depth`] or limited for outbound channels with * [`ChannelHandshakeLimits::max_minimum_depth`]. * * This value will be `None` for outbound channels until the counterparty accepts the channel. * * [`is_outbound`]: ChannelDetails::is_outbound * [`ChannelHandshakeConfig::minimum_depth`]: crate::util::config::ChannelHandshakeConfig::minimum_depth * [`ChannelHandshakeLimits::max_minimum_depth`]: crate::util::config::ChannelHandshakeLimits::max_minimum_depth */ public Option_u32Z get_confirmations_required() { long ret = bindings.ChannelDetails_get_confirmations_required(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u32Z ret_hu_conv = org.ldk.structs.Option_u32Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The number of required confirmations on the funding transaction before the funding will be * considered \"locked\". This number is selected by the channel fundee (i.e. us if * [`is_outbound`] is *not* set), and can be selected for inbound channels with * [`ChannelHandshakeConfig::minimum_depth`] or limited for outbound channels with * [`ChannelHandshakeLimits::max_minimum_depth`]. * * This value will be `None` for outbound channels until the counterparty accepts the channel. * * [`is_outbound`]: ChannelDetails::is_outbound * [`ChannelHandshakeConfig::minimum_depth`]: crate::util::config::ChannelHandshakeConfig::minimum_depth * [`ChannelHandshakeLimits::max_minimum_depth`]: crate::util::config::ChannelHandshakeLimits::max_minimum_depth */ public void set_confirmations_required(org.ldk.structs.Option_u32Z val) { bindings.ChannelDetails_set_confirmations_required(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The current number of confirmations on the funding transaction. * * This value will be `None` for objects serialized with LDK versions prior to 0.0.113. */ public Option_u32Z get_confirmations() { long ret = bindings.ChannelDetails_get_confirmations(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u32Z ret_hu_conv = org.ldk.structs.Option_u32Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The current number of confirmations on the funding transaction. * * This value will be `None` for objects serialized with LDK versions prior to 0.0.113. */ public void set_confirmations(org.ldk.structs.Option_u32Z val) { bindings.ChannelDetails_set_confirmations(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The number of blocks (after our commitment transaction confirms) that we will need to wait * until we can claim our funds after we force-close the channel. During this time our * counterparty is allowed to punish us if we broadcasted a stale state. If our counterparty * force-closes the channel and broadcasts a commitment transaction we do not have to wait any * time to claim our non-HTLC-encumbered funds. * * This value will be `None` for outbound channels until the counterparty accepts the channel. */ public Option_u16Z get_force_close_spend_delay() { long ret = bindings.ChannelDetails_get_force_close_spend_delay(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u16Z ret_hu_conv = org.ldk.structs.Option_u16Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The number of blocks (after our commitment transaction confirms) that we will need to wait * until we can claim our funds after we force-close the channel. During this time our * counterparty is allowed to punish us if we broadcasted a stale state. If our counterparty * force-closes the channel and broadcasts a commitment transaction we do not have to wait any * time to claim our non-HTLC-encumbered funds. * * This value will be `None` for outbound channels until the counterparty accepts the channel. */ public void set_force_close_spend_delay(org.ldk.structs.Option_u16Z val) { bindings.ChannelDetails_set_force_close_spend_delay(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * True if the channel was initiated (and thus funded) by us. */ public bool get_is_outbound() { bool ret = bindings.ChannelDetails_get_is_outbound(this.ptr); GC.KeepAlive(this); return ret; } /** * True if the channel was initiated (and thus funded) by us. */ public void set_is_outbound(bool val) { bindings.ChannelDetails_set_is_outbound(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * True if the channel is confirmed, channel_ready messages have been exchanged, and the * channel is not currently being shut down. `channel_ready` message exchange implies the * required confirmation count has been reached (and we were connected to the peer at some * point after the funding transaction received enough confirmations). The required * confirmation count is provided in [`confirmations_required`]. * * [`confirmations_required`]: ChannelDetails::confirmations_required */ public bool get_is_channel_ready() { bool ret = bindings.ChannelDetails_get_is_channel_ready(this.ptr); GC.KeepAlive(this); return ret; } /** * True if the channel is confirmed, channel_ready messages have been exchanged, and the * channel is not currently being shut down. `channel_ready` message exchange implies the * required confirmation count has been reached (and we were connected to the peer at some * point after the funding transaction received enough confirmations). The required * confirmation count is provided in [`confirmations_required`]. * * [`confirmations_required`]: ChannelDetails::confirmations_required */ public void set_is_channel_ready(bool val) { bindings.ChannelDetails_set_is_channel_ready(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The stage of the channel's shutdown. * `None` for `ChannelDetails` serialized on LDK versions prior to 0.0.116. * * Returns a copy of the field. */ public Option_ChannelShutdownStateZ get_channel_shutdown_state() { long ret = bindings.ChannelDetails_get_channel_shutdown_state(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_ChannelShutdownStateZ ret_hu_conv = org.ldk.structs.Option_ChannelShutdownStateZ.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The stage of the channel's shutdown. * `None` for `ChannelDetails` serialized on LDK versions prior to 0.0.116. */ public void set_channel_shutdown_state(org.ldk.structs.Option_ChannelShutdownStateZ val) { bindings.ChannelDetails_set_channel_shutdown_state(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * True if the channel is (a) confirmed and channel_ready messages have been exchanged, (b) * the peer is connected, and (c) the channel is not currently negotiating a shutdown. * * This is a strict superset of `is_channel_ready`. */ public bool get_is_usable() { bool ret = bindings.ChannelDetails_get_is_usable(this.ptr); GC.KeepAlive(this); return ret; } /** * True if the channel is (a) confirmed and channel_ready messages have been exchanged, (b) * the peer is connected, and (c) the channel is not currently negotiating a shutdown. * * This is a strict superset of `is_channel_ready`. */ public void set_is_usable(bool val) { bindings.ChannelDetails_set_is_usable(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * True if this channel is (or will be) publicly-announced. */ public bool get_is_public() { bool ret = bindings.ChannelDetails_get_is_public(this.ptr); GC.KeepAlive(this); return ret; } /** * True if this channel is (or will be) publicly-announced. */ public void set_is_public(bool val) { bindings.ChannelDetails_set_is_public(this.ptr, val); GC.KeepAlive(this); GC.KeepAlive(val); } /** * The smallest value HTLC (in msat) we will accept, for this channel. This field * is only `None` for `ChannelDetails` objects serialized prior to LDK 0.0.107 */ public Option_u64Z get_inbound_htlc_minimum_msat() { long ret = bindings.ChannelDetails_get_inbound_htlc_minimum_msat(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The smallest value HTLC (in msat) we will accept, for this channel. This field * is only `None` for `ChannelDetails` objects serialized prior to LDK 0.0.107 */ public void set_inbound_htlc_minimum_msat(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_inbound_htlc_minimum_msat(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * The largest value HTLC (in msat) we currently will accept, for this channel. */ public Option_u64Z get_inbound_htlc_maximum_msat() { long ret = bindings.ChannelDetails_get_inbound_htlc_maximum_msat(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * The largest value HTLC (in msat) we currently will accept, for this channel. */ public void set_inbound_htlc_maximum_msat(org.ldk.structs.Option_u64Z val) { bindings.ChannelDetails_set_inbound_htlc_maximum_msat(this.ptr, val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * Set of configurable parameters that affect channel operation. * * This field is only `None` for `ChannelDetails` objects serialized prior to LDK 0.0.109. * * Note that the return value (or a relevant inner pointer) may be NULL or all-0s to represent None */ public ChannelConfig get_config() { long ret = bindings.ChannelDetails_get_config(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.ChannelConfig ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelConfig(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * Set of configurable parameters that affect channel operation. * * This field is only `None` for `ChannelDetails` objects serialized prior to LDK 0.0.109. * * Note that val (or a relevant inner pointer) may be NULL or all-0s to represent None */ public void set_config(org.ldk.structs.ChannelConfig val) { bindings.ChannelDetails_set_config(this.ptr, val == null ? 0 : val.ptr); GC.KeepAlive(this); GC.KeepAlive(val); if (this != null) { this.ptrs_to.AddLast(val); }; } /** * Constructs a new ChannelDetails given each field * * Note that funding_txo_arg (or a relevant inner pointer) may be NULL or all-0s to represent None * Note that channel_type_arg (or a relevant inner pointer) may be NULL or all-0s to represent None * Note that config_arg (or a relevant inner pointer) may be NULL or all-0s to represent None */ public static ChannelDetails of(byte[] channel_id_arg, org.ldk.structs.ChannelCounterparty counterparty_arg, org.ldk.structs.OutPoint funding_txo_arg, org.ldk.structs.ChannelTypeFeatures channel_type_arg, org.ldk.structs.Option_u64Z short_channel_id_arg, org.ldk.structs.Option_u64Z outbound_scid_alias_arg, org.ldk.structs.Option_u64Z inbound_scid_alias_arg, long channel_value_satoshis_arg, org.ldk.structs.Option_u64Z unspendable_punishment_reserve_arg, org.ldk.util.UInt128 user_channel_id_arg, org.ldk.structs.Option_u32Z feerate_sat_per_1000_weight_arg, long balance_msat_arg, long outbound_capacity_msat_arg, long next_outbound_htlc_limit_msat_arg, long next_outbound_htlc_minimum_msat_arg, long inbound_capacity_msat_arg, org.ldk.structs.Option_u32Z confirmations_required_arg, org.ldk.structs.Option_u32Z confirmations_arg, org.ldk.structs.Option_u16Z force_close_spend_delay_arg, bool is_outbound_arg, bool is_channel_ready_arg, org.ldk.structs.Option_ChannelShutdownStateZ channel_shutdown_state_arg, bool is_usable_arg, bool is_public_arg, org.ldk.structs.Option_u64Z inbound_htlc_minimum_msat_arg, org.ldk.structs.Option_u64Z inbound_htlc_maximum_msat_arg, org.ldk.structs.ChannelConfig config_arg) { long ret = bindings.ChannelDetails_new(InternalUtils.encodeUint8Array(InternalUtils.check_arr_len(channel_id_arg, 32)), counterparty_arg == null ? 0 : counterparty_arg.ptr, funding_txo_arg == null ? 0 : funding_txo_arg.ptr, channel_type_arg == null ? 0 : channel_type_arg.ptr, short_channel_id_arg.ptr, outbound_scid_alias_arg.ptr, inbound_scid_alias_arg.ptr, channel_value_satoshis_arg, unspendable_punishment_reserve_arg.ptr, InternalUtils.encodeUint8Array(user_channel_id_arg.getLEBytes()), feerate_sat_per_1000_weight_arg.ptr, balance_msat_arg, outbound_capacity_msat_arg, next_outbound_htlc_limit_msat_arg, next_outbound_htlc_minimum_msat_arg, inbound_capacity_msat_arg, confirmations_required_arg.ptr, confirmations_arg.ptr, force_close_spend_delay_arg.ptr, is_outbound_arg, is_channel_ready_arg, channel_shutdown_state_arg.ptr, is_usable_arg, is_public_arg, inbound_htlc_minimum_msat_arg.ptr, inbound_htlc_maximum_msat_arg.ptr, config_arg == null ? 0 : config_arg.ptr); GC.KeepAlive(channel_id_arg); GC.KeepAlive(counterparty_arg); GC.KeepAlive(funding_txo_arg); GC.KeepAlive(channel_type_arg); GC.KeepAlive(short_channel_id_arg); GC.KeepAlive(outbound_scid_alias_arg); GC.KeepAlive(inbound_scid_alias_arg); GC.KeepAlive(channel_value_satoshis_arg); GC.KeepAlive(unspendable_punishment_reserve_arg); GC.KeepAlive(user_channel_id_arg); GC.KeepAlive(feerate_sat_per_1000_weight_arg); GC.KeepAlive(balance_msat_arg); GC.KeepAlive(outbound_capacity_msat_arg); GC.KeepAlive(next_outbound_htlc_limit_msat_arg); GC.KeepAlive(next_outbound_htlc_minimum_msat_arg); GC.KeepAlive(inbound_capacity_msat_arg); GC.KeepAlive(confirmations_required_arg); GC.KeepAlive(confirmations_arg); GC.KeepAlive(force_close_spend_delay_arg); GC.KeepAlive(is_outbound_arg); GC.KeepAlive(is_channel_ready_arg); GC.KeepAlive(channel_shutdown_state_arg); GC.KeepAlive(is_usable_arg); GC.KeepAlive(is_public_arg); GC.KeepAlive(inbound_htlc_minimum_msat_arg); GC.KeepAlive(inbound_htlc_maximum_msat_arg); GC.KeepAlive(config_arg); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.ChannelDetails ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelDetails(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(ret_hu_conv); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(counterparty_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(funding_txo_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(channel_type_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(short_channel_id_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(outbound_scid_alias_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(inbound_scid_alias_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(unspendable_punishment_reserve_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(feerate_sat_per_1000_weight_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(confirmations_required_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(confirmations_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(force_close_spend_delay_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(channel_shutdown_state_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(inbound_htlc_minimum_msat_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(inbound_htlc_maximum_msat_arg); }; if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(config_arg); }; return ret_hu_conv; } internal long clone_ptr() { long ret = bindings.ChannelDetails_clone_ptr(this.ptr); GC.KeepAlive(this); return ret; } /** * Creates a copy of the ChannelDetails */ public ChannelDetails clone() { long ret = bindings.ChannelDetails_clone(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.ChannelDetails ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelDetails(null, ret); } if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * Gets the current SCID which should be used to identify this channel for inbound payments. * This should be used for providing invoice hints or in any other context where our * counterparty will forward a payment to us. * * This is either the [`ChannelDetails::inbound_scid_alias`], if set, or the * [`ChannelDetails::short_channel_id`]. See those for more information. */ public Option_u64Z get_inbound_payment_scid() { long ret = bindings.ChannelDetails_get_inbound_payment_scid(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * Gets the current SCID which should be used to identify this channel for outbound payments. * This should be used in [`Route`]s to describe the first hop or in other contexts where * we're sending or forwarding a payment outbound over this channel. * * This is either the [`ChannelDetails::short_channel_id`], if set, or the * [`ChannelDetails::outbound_scid_alias`]. See those for more information. */ public Option_u64Z get_outbound_payment_scid() { long ret = bindings.ChannelDetails_get_outbound_payment_scid(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } org.ldk.structs.Option_u64Z ret_hu_conv = org.ldk.structs.Option_u64Z.constr_from_ptr(ret); if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.AddLast(this); }; return ret_hu_conv; } /** * Serialize the ChannelDetails object into a byte array which can be read by ChannelDetails_read */ public byte[] write() { long ret = bindings.ChannelDetails_write(this.ptr); GC.KeepAlive(this); if (ret >= 0 && ret <= 4096) { return null; } byte[] ret_conv = InternalUtils.decodeUint8Array(ret); return ret_conv; } /** * Read a ChannelDetails from a byte array, created by ChannelDetails_write */ public static Result_ChannelDetailsDecodeErrorZ read(byte[] ser) { long ret = bindings.ChannelDetails_read(InternalUtils.encodeUint8Array(ser)); GC.KeepAlive(ser); if (ret >= 0 && ret <= 4096) { return null; } Result_ChannelDetailsDecodeErrorZ ret_hu_conv = Result_ChannelDetailsDecodeErrorZ.constr_from_ptr(ret); return ret_hu_conv; } } } } }