if (ptr != 0) { bindings.ChannelManagerReadArgs_free(ptr); }
}
+ /**
+ * A cryptographically secure source of entropy.
+ */
+ public EntropySource get_entropy_source() {
+ long ret = bindings.ChannelManagerReadArgs_get_entropy_source(this.ptr);
+ Reference.reachabilityFence(this);
+ if (ret >= 0 && ret <= 4096) { return null; }
+ EntropySource ret_hu_conv = new EntropySource(null, ret);
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(this); };
+ return ret_hu_conv;
+ }
+
+ /**
+ * A cryptographically secure source of entropy.
+ */
+ public void set_entropy_source(org.ldk.structs.EntropySource val) {
+ bindings.ChannelManagerReadArgs_set_entropy_source(this.ptr, val == null ? 0 : val.ptr);
+ Reference.reachabilityFence(this);
+ Reference.reachabilityFence(val);
+ if (this != null) { this.ptrs_to.add(val); };
+ }
+
+ /**
+ * A signer that is able to perform node-scoped cryptographic operations.
+ */
+ public NodeSigner get_node_signer() {
+ long ret = bindings.ChannelManagerReadArgs_get_node_signer(this.ptr);
+ Reference.reachabilityFence(this);
+ if (ret >= 0 && ret <= 4096) { return null; }
+ NodeSigner ret_hu_conv = new NodeSigner(null, ret);
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(this); };
+ return ret_hu_conv;
+ }
+
+ /**
+ * A signer that is able to perform node-scoped cryptographic operations.
+ */
+ public void set_node_signer(org.ldk.structs.NodeSigner val) {
+ bindings.ChannelManagerReadArgs_set_node_signer(this.ptr, val == null ? 0 : val.ptr);
+ Reference.reachabilityFence(this);
+ Reference.reachabilityFence(val);
+ if (this != null) { this.ptrs_to.add(val); };
+ }
+
/**
* The keys provider which will give us relevant keys. Some keys will be loaded during
* deserialization and KeysInterface::read_chan_signer will be used to read per-Channel
* signing data.
*/
- public KeysInterface get_keys_manager() {
- long ret = bindings.ChannelManagerReadArgs_get_keys_manager(this.ptr);
+ public SignerProvider get_signer_provider() {
+ long ret = bindings.ChannelManagerReadArgs_get_signer_provider(this.ptr);
Reference.reachabilityFence(this);
if (ret >= 0 && ret <= 4096) { return null; }
- KeysInterface ret_hu_conv = new KeysInterface(null, ret);
+ SignerProvider ret_hu_conv = new SignerProvider(null, ret);
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(this); };
return ret_hu_conv;
}
* deserialization and KeysInterface::read_chan_signer will be used to read per-Channel
* signing data.
*/
- public void set_keys_manager(org.ldk.structs.KeysInterface val) {
- bindings.ChannelManagerReadArgs_set_keys_manager(this.ptr, val == null ? 0 : val.ptr);
+ public void set_signer_provider(org.ldk.structs.SignerProvider val) {
+ bindings.ChannelManagerReadArgs_set_signer_provider(this.ptr, val == null ? 0 : val.ptr);
Reference.reachabilityFence(this);
Reference.reachabilityFence(val);
if (this != null) { this.ptrs_to.add(val); };
if (this != null) { this.ptrs_to.add(val); };
}
+ /**
+ * The router which will be used in the ChannelManager in the future for finding routes
+ * on-the-fly for trampoline payments. Absent in private nodes that don't support forwarding.
+ *
+ * No calls to the router will be made during deserialization.
+ */
+ public Router get_router() {
+ long ret = bindings.ChannelManagerReadArgs_get_router(this.ptr);
+ Reference.reachabilityFence(this);
+ if (ret >= 0 && ret <= 4096) { return null; }
+ Router ret_hu_conv = new Router(null, ret);
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(this); };
+ return ret_hu_conv;
+ }
+
+ /**
+ * The router which will be used in the ChannelManager in the future for finding routes
+ * on-the-fly for trampoline payments. Absent in private nodes that don't support forwarding.
+ *
+ * No calls to the router will be made during deserialization.
+ */
+ public void set_router(org.ldk.structs.Router val) {
+ bindings.ChannelManagerReadArgs_set_router(this.ptr, val == null ? 0 : val.ptr);
+ Reference.reachabilityFence(this);
+ Reference.reachabilityFence(val);
+ if (this != null) { this.ptrs_to.add(val); };
+ }
+
/**
* The Logger for use in the ChannelManager and which may be used to log information during
* deserialization.
* HashMap for you. This is primarily useful for C bindings where it is not practical to
* populate a HashMap directly from C.
*/
- public static ChannelManagerReadArgs of(org.ldk.structs.KeysInterface keys_manager, org.ldk.structs.FeeEstimator fee_estimator, org.ldk.structs.Watch chain_monitor, org.ldk.structs.BroadcasterInterface tx_broadcaster, org.ldk.structs.Logger logger, org.ldk.structs.UserConfig default_config, ChannelMonitor[] channel_monitors) {
- long ret = bindings.ChannelManagerReadArgs_new(keys_manager == null ? 0 : keys_manager.ptr, fee_estimator == null ? 0 : fee_estimator.ptr, chain_monitor == null ? 0 : chain_monitor.ptr, tx_broadcaster == null ? 0 : tx_broadcaster.ptr, logger == null ? 0 : logger.ptr, default_config == null ? 0 : default_config.ptr, channel_monitors != null ? Arrays.stream(channel_monitors).mapToLong(channel_monitors_conv_16 -> channel_monitors_conv_16 == null ? 0 : channel_monitors_conv_16.ptr).toArray() : null);
- Reference.reachabilityFence(keys_manager);
+ public static ChannelManagerReadArgs of(org.ldk.structs.EntropySource entropy_source, org.ldk.structs.NodeSigner node_signer, org.ldk.structs.SignerProvider signer_provider, org.ldk.structs.FeeEstimator fee_estimator, org.ldk.structs.Watch chain_monitor, org.ldk.structs.BroadcasterInterface tx_broadcaster, org.ldk.structs.Router router, org.ldk.structs.Logger logger, org.ldk.structs.UserConfig default_config, ChannelMonitor[] channel_monitors) {
+ long ret = bindings.ChannelManagerReadArgs_new(entropy_source == null ? 0 : entropy_source.ptr, node_signer == null ? 0 : node_signer.ptr, signer_provider == null ? 0 : signer_provider.ptr, fee_estimator == null ? 0 : fee_estimator.ptr, chain_monitor == null ? 0 : chain_monitor.ptr, tx_broadcaster == null ? 0 : tx_broadcaster.ptr, router == null ? 0 : router.ptr, logger == null ? 0 : logger.ptr, default_config == null ? 0 : default_config.ptr, channel_monitors != null ? Arrays.stream(channel_monitors).mapToLong(channel_monitors_conv_16 -> channel_monitors_conv_16 == null ? 0 : channel_monitors_conv_16.ptr).toArray() : null);
+ Reference.reachabilityFence(entropy_source);
+ Reference.reachabilityFence(node_signer);
+ Reference.reachabilityFence(signer_provider);
Reference.reachabilityFence(fee_estimator);
Reference.reachabilityFence(chain_monitor);
Reference.reachabilityFence(tx_broadcaster);
+ Reference.reachabilityFence(router);
Reference.reachabilityFence(logger);
Reference.reachabilityFence(default_config);
Reference.reachabilityFence(channel_monitors);
if (ret >= 0 && ret <= 4096) { return null; }
org.ldk.structs.ChannelManagerReadArgs ret_hu_conv = null; if (ret < 0 || ret > 4096) { ret_hu_conv = new org.ldk.structs.ChannelManagerReadArgs(null, ret); }
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(ret_hu_conv); };
- if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(keys_manager); };
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(entropy_source); };
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(node_signer); };
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(signer_provider); };
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(fee_estimator); };
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(chain_monitor); };
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(tx_broadcaster); };
+ if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(router); };
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(logger); };
if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(default_config); };
for (ChannelMonitor channel_monitors_conv_16: channel_monitors) { if (ret_hu_conv != null) { ret_hu_conv.ptrs_to.add(channel_monitors_conv_16); }; };