import * as rawldk from "../bindings.mjs";
import * as ldk from "../index.mjs";
-const tests = [];
+const tests: Array<Function> = [];
+
+function assert(val: boolean) {
+ if (!val) throw new Error("Assertion failed");
+}
+function array_eq(a: Uint8Array, b: Uint8Array): boolean {
+ return a.length == b.length && a.every((v, idx) => v == b[idx]);
+}
tests.push(async () => {
const result = rawldk.CResult_boolLightningErrorZ_ok(true);
- console.assert(rawldk.CResult_boolLightningErrorZ_is_ok(result));
- console.assert(rawldk.CResult_boolLightningErrorZ_get_ok(result));
- rawldk.CResult_boolLightningErrorZ_free(result);
- console.assert(rawldk.CResult_boolLightningErrorZ_ok(false) == result); // malloc doesn't need to guarantee this, but currently does
- console.assert(rawldk.CResult_boolLightningErrorZ_is_ok(result));
- console.assert(!rawldk.CResult_boolLightningErrorZ_get_ok(result));
+ assert(rawldk.CResult_boolLightningErrorZ_is_ok(result));
+ assert(rawldk.CResult_boolLightningErrorZ_get_ok(result));
rawldk.CResult_boolLightningErrorZ_free(result);
+ const second_res = rawldk.CResult_boolLightningErrorZ_ok(false);
+ assert(rawldk.CResult_boolLightningErrorZ_is_ok(second_res));
+ assert(!rawldk.CResult_boolLightningErrorZ_get_ok(second_res));
+ rawldk.CResult_boolLightningErrorZ_free(second_res);
- /*var pk_arr = [];
- for (var i = 0; i < 33; i++) { pk_arr[i] = 42; }
- const pk_bytes = encodeUint8Array(pk_arr);
- const pk_res = wasm.TS_CResult_PublicKeyErrorZ_ok(pk_bytes);
- console.assert(wasm.TS_CResult_PublicKeyErrorZ_is_ok(pk_res));
- const pk_res_bytes = wasm.TS_LDKCResult_PublicKeyErrorZ_get_ok(pk_res);
- wasm.TS_CResult_PublicKeyErrorZ_free(pk_res);*/
return true;
});
return true;
});
-export async function run_tests(wasm_path) {
- await rawldk.initializeWasm(wasm_path);
+tests.push(async () => {
+ const outpoint = ldk.OutPoint.constructor_new(new Uint8Array(32), 4);
+ const read_outpoint = ldk.OutPoint.constructor_read(outpoint.write());
+ if (!(read_outpoint instanceof ldk.Result_OutPointDecodeErrorZ_OK)) return false;
+ if (!read_outpoint.res.eq(outpoint)) return false;
+ if (read_outpoint.res.hash() != outpoint.hash()) return false;
+ const chan_id = read_outpoint.res.to_channel_id();
+ if (chan_id.length != 32) return false;
+ if (chan_id[31] != 4) return false;
+ return true;
+});
+
+var seed_counter = 0;
+class Node {
+ node_id: Uint8Array;
+ constructor(public chan_man: ldk.ChannelManager, public tx_broadcasted: Promise<Uint8Array>,
+ public logger: ldk.Logger, public keys_manager: ldk.KeysManager,
+ public net_graph: ldk.NetworkGraph
+ ) {
+ this.node_id = chan_man.get_our_node_id();
+ }
+}
+function get_chanman(): Node {
+ const fee_est = ldk.FeeEstimator.new_impl({
+ get_est_sat_per_1000_weight(_confirmation_target: ldk.ConfirmationTarget): number {
+ return 253;
+ }
+ } as ldk.FeeEstimatorInterface);
+ var tx_broadcaster: ldk.BroadcasterInterface;
+ const tx_broadcasted: Promise<Uint8Array> = new Promise((resolve, _reject) => {
+ tx_broadcaster = ldk.BroadcasterInterface.new_impl({
+ broadcast_transactions(txn: Uint8Array[]): void {
+ for (const tx of txn) {
+ console.log("Tx Broadcast: " + tx); resolve(tx);
+ }
+ }
+ } as ldk.BroadcasterInterfaceInterface);
+ });
+ const logger = ldk.Logger.new_impl({
+ log(record: ldk.Record): void {
+ console.log(record.get_module_path() + ": " + record.get_args());
+ }
+ } as ldk.LoggerInterface);
+
+ const persister = ldk.Persist.new_impl({
+ persist_new_channel(_channel_id: ldk.OutPoint, _data: ldk.ChannelMonitor, _update_id: ldk.MonitorUpdateId): ldk.ChannelMonitorUpdateStatus {
+ return ldk.ChannelMonitorUpdateStatus.LDKChannelMonitorUpdateStatus_Completed;
+ },
+ update_persisted_channel(_channel_id: ldk.OutPoint, _update: ldk.ChannelMonitorUpdate, _data: ldk.ChannelMonitor, _update_id: ldk.MonitorUpdateId): ldk.ChannelMonitorUpdateStatus {
+ return ldk.ChannelMonitorUpdateStatus.LDKChannelMonitorUpdateStatus_Completed;
+ }
+ } as ldk.PersistInterface);
+
+ const chain_monitor = ldk.ChainMonitor.constructor_new(ldk.Option_FilterZ.constructor_none(), tx_broadcaster!, logger, fee_est, persister);
+ const chain_watch: ldk.Watch = chain_monitor.as_Watch();
+
+ const seed = new Uint8Array(32);
+ seed.fill(seed_counter);
+ seed_counter++;
+ const keys_manager = ldk.KeysManager.constructor_new(seed, BigInt(42), 42);
+
+ const net_graph = ldk.NetworkGraph.constructor_new(ldk.Network.LDKNetwork_Testnet, logger);
+ const scorer = ldk.ProbabilisticScorer.constructor_new(ldk.ProbabilisticScoringDecayParameters.constructor_default(), net_graph, logger);
+ const lockable_score = ldk.MultiThreadedLockableScore.constructor_new(scorer.as_Score());
+ const router = ldk.DefaultRouter.constructor_new(net_graph, logger, keys_manager.as_EntropySource(), lockable_score.as_LockableScore(), ldk.ProbabilisticScoringFeeParameters.constructor_default());
+
+ const config = ldk.UserConfig.constructor_default();
+ const params = ldk.ChainParameters.constructor_new(ldk.Network.LDKNetwork_Testnet, ldk.BestBlock.constructor_from_network(ldk.Network.LDKNetwork_Testnet));
+ const chan_man = ldk.ChannelManager.constructor_new(fee_est, chain_watch, tx_broadcaster!, router.as_Router(),
+ logger, keys_manager.as_EntropySource(), keys_manager.as_NodeSigner(), keys_manager.as_SignerProvider(),
+ config, params, 42);
+ return new Node(chan_man, tx_broadcasted, logger, keys_manager, net_graph);
+}
+
+function exchange_messages(a: ldk.ChannelManager, b: ldk.ChannelManager) {
+ var found_msgs = true;
+ while (found_msgs) {
+ const as_msgs = a.as_MessageSendEventsProvider().get_and_clear_pending_msg_events();
+ const bs_msgs = b.as_MessageSendEventsProvider().get_and_clear_pending_msg_events();
+ found_msgs = as_msgs.length != 0 || bs_msgs.length != 0;
+ for (var i = 0; i < 2; i++) {
+ var to: ldk.ChannelManager; var from: ldk.ChannelManager; var msgs: ldk.MessageSendEvent[];
+ if (i == 0) { from = a; to = b; msgs = as_msgs; } else { from = b; to = a; msgs = bs_msgs; }
+ for (var j = 0; j < msgs.length; j++) {
+ const msg = msgs[j];
+ if (msg instanceof ldk.MessageSendEvent_SendOpenChannel) {
+ if (!array_eq(msg.node_id, to.get_our_node_id())) return false;
+ to.as_ChannelMessageHandler().handle_open_channel(from.get_our_node_id(), msg.msg);
+ } else if (msg instanceof ldk.MessageSendEvent_SendAcceptChannel) {
+ if (!array_eq(msg.node_id, to.get_our_node_id())) return false;
+ to.as_ChannelMessageHandler().handle_accept_channel(from.get_our_node_id(), msg.msg);
+ } else if (msg instanceof ldk.MessageSendEvent_SendFundingCreated) {
+ if (!array_eq(msg.node_id, to.get_our_node_id())) return false;
+ to.as_ChannelMessageHandler().handle_funding_created(from.get_our_node_id(), msg.msg);
+ } else if (msg instanceof ldk.MessageSendEvent_SendFundingSigned) {
+ if (!array_eq(msg.node_id, to.get_our_node_id())) return false;
+ to.as_ChannelMessageHandler().handle_funding_signed(from.get_our_node_id(), msg.msg);
+ } else {
+ return false;
+ }
+ }
+ }
+ }
+ return true;
+}
+
+function assign_u64(arr: Uint8Array, offset: number, value: bigint) {
+ arr[offset + 0] = Number((value >> BigInt(8 * 0)) & BigInt(0xff));
+ arr[offset + 1] = Number((value >> BigInt(8 * 1)) & BigInt(0xff));
+ arr[offset + 2] = Number((value >> BigInt(8 * 2)) & BigInt(0xff));
+ arr[offset + 3] = Number((value >> BigInt(8 * 3)) & BigInt(0xff));
+ arr[offset + 4] = Number((value >> BigInt(8 * 4)) & BigInt(0xff));
+ arr[offset + 5] = Number((value >> BigInt(8 * 5)) & BigInt(0xff));
+ arr[offset + 6] = Number((value >> BigInt(8 * 6)) & BigInt(0xff));
+ arr[offset + 7] = Number((value >> BigInt(8 * 7)) & BigInt(0xff));
+}
+
+function get_event(chan_man: ldk.ChannelManager): ldk.Event {
+ const events: Array<ldk.Event> = [];
+ const event_handler = ldk.EventHandler.new_impl({
+ handle_event(event: ldk.Event): void {
+ events.push(event);
+ }
+ } as ldk.EventHandlerInterface);
+
+ chan_man.as_EventsProvider().process_pending_events(event_handler);
+ assert(events.length == 1);
+ return events[0]!;
+}
+
+tests.push(async () => {
+ const a = get_chanman();
+ const b = get_chanman();
+
+ const features = a.chan_man.as_ChannelMessageHandler().provided_init_features(b.chan_man.get_our_node_id());
+
+ a.chan_man.as_ChannelMessageHandler().peer_connected(b.chan_man.get_our_node_id(), ldk.Init.constructor_new(features, ldk.Option_CVec_ThirtyTwoBytesZZ.constructor_none(), ldk.Option_SocketAddressZ.constructor_none()), false);
+ b.chan_man.as_ChannelMessageHandler().peer_connected(a.chan_man.get_our_node_id(), ldk.Init.constructor_new(features, ldk.Option_CVec_ThirtyTwoBytesZZ.constructor_none(), ldk.Option_SocketAddressZ.constructor_none()), true);
+
+ const chan_create_err = a.chan_man.create_channel(b.chan_man.get_our_node_id(), BigInt(0), BigInt(400), BigInt(0), ldk.Option_ThirtyTwoBytesZ.constructor_none(), null);
+ if (chan_create_err.is_ok()) return false;
+ if (!(chan_create_err instanceof ldk.Result_ThirtyTwoBytesAPIErrorZ_Err)) return false;
+ if (!(chan_create_err.err instanceof ldk.APIError_APIMisuseError)) return false;
+ if (chan_create_err.err.err != "Channel value must be at least 1000 satoshis. It was 0") return false;
+
+ const chan_create_res = a.chan_man.create_channel(b.chan_man.get_our_node_id(), BigInt(1000000), BigInt(400), BigInt(0), ldk.Option_ThirtyTwoBytesZ.constructor_none(), null);
+ if (!chan_create_res.is_ok()) return false;
+
+ if (!exchange_messages(a.chan_man, b.chan_man)) return false;
+
+ const event = get_event(a.chan_man) as ldk.Event_FundingGenerationReady;
+
+ // (very) manually create a funding transaction
+ const witness_pos = event.output_script.length + 58;
+ const funding_tx = new Uint8Array(witness_pos + 7);
+ funding_tx[0] = 2; // 4-byte tx version 2
+ funding_tx[4] = 0; funding_tx[5] = 1; // segwit magic bytes
+ funding_tx[6] = 1; // 1-byte input count 1
+ // 36 bytes previous outpoint all-0s
+ funding_tx[43] = 0; // 1-byte input script length 0
+ funding_tx[44] = 0xff; funding_tx[45] = 0xff; funding_tx[46] = 0xff; funding_tx[47] = 0xff; // 4-byte nSequence
+ funding_tx[48] = 1; // one output
+ assign_u64(funding_tx, 49, event.channel_value_satoshis);
+ funding_tx[57] = event.output_script.length; // 1-byte output script length
+ funding_tx.set(event.output_script, 58);
+ funding_tx[witness_pos] = 1; funding_tx[witness_pos + 1] = 1; funding_tx[witness_pos + 2] = 0xff; // one witness element of size 1 with contents 0xff
+ funding_tx[witness_pos + 3] = 0; funding_tx[witness_pos + 4] = 0; funding_tx[witness_pos + 5] = 0; funding_tx[witness_pos + 6] = 0; // lock time 0
+
+ const funding_res = a.chan_man.funding_transaction_generated(event.temporary_channel_id, event.counterparty_node_id, funding_tx);
+ if (!(funding_res instanceof ldk.Result_NoneAPIErrorZ_OK)) return false;
+
+ if (!exchange_messages(a.chan_man, b.chan_man)) return false;
+
+ const tx_broadcasted: Uint8Array = (await a.tx_broadcasted);
+ if (!array_eq(tx_broadcasted, funding_tx)) return false;
+
+ return true;
+});
+
+tests.push(async () => {
+ const a = get_chanman();
+ const b = get_chanman();
+
+ const ignorer = ldk.IgnoringMessageHandler.constructor_new();
+ const pm_a = ldk.PeerManager.constructor_new(a.chan_man.as_ChannelMessageHandler(), ignorer.as_RoutingMessageHandler(),
+ ignorer.as_OnionMessageHandler(), ignorer.as_CustomMessageHandler(),
+ 0xdeadbeef, a.keys_manager.as_EntropySource().get_secure_random_bytes(), a.logger, a.keys_manager.as_NodeSigner());
+ const pm_b = ldk.PeerManager.constructor_new(b.chan_man.as_ChannelMessageHandler(), ignorer.as_RoutingMessageHandler(),
+ ignorer.as_OnionMessageHandler(), ignorer.as_CustomMessageHandler(),
+ 0xdeadbeef, b.keys_manager.as_EntropySource().get_secure_random_bytes(), b.logger, b.keys_manager.as_NodeSigner());
+
+ var sock_b: ldk.SocketDescriptor;
+ const sock_a = ldk.SocketDescriptor.new_impl({
+ send_data(data: Uint8Array, resume_read: boolean): number {
+ assert(pm_b.read_event(sock_b, data) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+ assert(resume_read);
+ return data.length;
+ },
+ disconnect_socket(): void {
+ assert(false);
+ },
+ eq(other: ldk.SocketDescriptor): boolean {
+ return other.hash() == this.hash();
+ },
+ hash(): bigint {
+ return BigInt(1);
+ }
+ } as ldk.SocketDescriptorInterface);
+ sock_b = ldk.SocketDescriptor.new_impl({
+ send_data(data: Uint8Array, resume_read: boolean): number {
+ assert(pm_a.read_event(sock_a, data) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+ assert(resume_read);
+ return data.length;
+ },
+ disconnect_socket(): void {
+ assert(false);
+ },
+ eq(other: ldk.SocketDescriptor): boolean {
+ return other.hash() == this.hash();
+ },
+ hash(): bigint {
+ return BigInt(2);
+ }
+ } as ldk.SocketDescriptorInterface);
+
+ const update_fut = a.chan_man.get_event_or_persistence_needed_future();
+ var update_done = false;
+ update_fut.register_callback_fn(ldk.FutureCallback.new_impl({
+ call(): void { update_done = true; }
+ }));
+ if (update_done) return false;
+
+ const v4_netaddr = ldk.SocketAddress.constructor_tcp_ip_v4(Uint8Array.from([42,0,42,1]), 9735);
+ assert(pm_b.new_inbound_connection(sock_b, ldk.Option_SocketAddressZ.constructor_some(v4_netaddr)) instanceof ldk.Result_NonePeerHandleErrorZ_OK);
+ const init_bytes = pm_a.new_outbound_connection(b.node_id, sock_a, ldk.Option_SocketAddressZ.constructor_none());
+ if (!(init_bytes instanceof ldk.Result_CVec_u8ZPeerHandleErrorZ_OK)) return false;
+ assert(pm_b.read_event(sock_b, init_bytes.res) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+
+ assert(pm_a.get_peer_node_ids().length == 0);
+ assert(pm_b.get_peer_node_ids().length == 0);
+
+ pm_b.process_events();
+ pm_a.process_events();
+ pm_b.process_events();
+
+ assert(pm_a.get_peer_node_ids().length == 1);
+ assert(pm_b.get_peer_node_ids().length == 1);
+
+ const chan_create_res = a.chan_man.create_channel(b.node_id, BigInt(1000000), BigInt(400), BigInt(0), ldk.Option_ThirtyTwoBytesZ.constructor_none(), ldk.UserConfig.constructor_default());
+ if (!chan_create_res.is_ok()) return false;
+ if (!update_done) return false;
+
+ pm_a.process_events();
+ pm_b.process_events();
+
+ const event = get_event(a.chan_man);
+ if (!(event instanceof ldk.Event_FundingGenerationReady)) return false;
+
+ return true;
+});
+
+tests.push(async () => {
+ // Test passing onion messages through a custom trait implementation.
+ const a = get_chanman();
+ const b = get_chanman();
+
+ const ignorer = ldk.IgnoringMessageHandler.constructor_new();
+
+ var a_handled_msg = false;
+ const om_handler_a = ldk.CustomOnionMessageHandler.new_impl({
+ read_custom_message(message_type: bigint, buffer: Uint8Array): ldk.Result_COption_OnionMessageContentsZDecodeErrorZ {
+ assert(message_type == 4343n);
+ assert(buffer.length == 44);
+ for (var i = 0; i < 44; i++) assert(buffer[i] == 67);
+ return ldk.Result_COption_OnionMessageContentsZDecodeErrorZ.constructor_ok(ldk.Option_OnionMessageContentsZ.constructor_some(ldk.OnionMessageContents.new_impl({
+ tlv_type(): bigint { return 9998n; },
+ write(): Uint8Array { throw new Error(); },
+ debug_str(): string { return "Message Contents"; }
+ } as ldk.OnionMessageContentsInterface)));
+ },
+ handle_custom_message(msg: ldk.OnionMessageContents) {
+ assert(msg.tlv_type() == 9998n);
+ a_handled_msg = true;
+ },
+ release_pending_custom_messages(): ldk.ThreeTuple_OnionMessageContentsDestinationBlindedPathZ[] {
+ return [];
+ },
+ } as ldk.CustomOnionMessageHandlerInterface);
+
+ const a_msg_router = ldk.DefaultMessageRouter
+ .constructor_new(a.net_graph, a.keys_manager.as_EntropySource()).as_MessageRouter();
+ const underlying_om_a = ldk.OnionMessenger.constructor_new(
+ a.keys_manager.as_EntropySource(), a.keys_manager.as_NodeSigner(), a.logger,
+ a_msg_router, ignorer.as_OffersMessageHandler(), om_handler_a);
+ const om_a = ldk.OnionMessageHandler.new_impl({
+ handle_onion_message(peer_node_id: Uint8Array, msg: ldk.OnionMessage) {
+ underlying_om_a.as_OnionMessageHandler().handle_onion_message(peer_node_id, msg);
+ },
+ peer_connected(their_node_id: Uint8Array, init: ldk.Init, inbound: boolean): ldk.Result_NoneNoneZ {
+ return underlying_om_a.as_OnionMessageHandler().peer_connected(their_node_id, init, inbound)
+ },
+ peer_disconnected(their_node_id: Uint8Array) {
+ underlying_om_a.as_OnionMessageHandler().peer_disconnected(their_node_id);
+ },
+ provided_node_features(): ldk.NodeFeatures {
+ return underlying_om_a.as_OnionMessageHandler().provided_node_features();
+ },
+ provided_init_features(their_node_id: Uint8Array): ldk.InitFeatures {
+ return underlying_om_a.as_OnionMessageHandler().provided_init_features(their_node_id);
+ },
+ next_onion_message_for_peer(peer_node_id: Uint8Array): ldk.OnionMessage {
+ return underlying_om_a.as_OnionMessageHandler().next_onion_message_for_peer(peer_node_id);
+ },
+ } as ldk.OnionMessageHandlerInterface);
+
+ var b_handled_msg = false;
+ const om_handler_b = ldk.CustomOnionMessageHandler.new_impl({
+ read_custom_message(message_type: bigint, buffer: Uint8Array): ldk.Result_COption_OnionMessageContentsZDecodeErrorZ {
+ assert(message_type == 4242n);
+ assert(buffer.length == 43);
+ for (var i = 0; i < 43; i++) assert(buffer[i] == 66);
+ return ldk.Result_COption_OnionMessageContentsZDecodeErrorZ.constructor_ok(ldk.Option_OnionMessageContentsZ.constructor_some(ldk.OnionMessageContents.new_impl({
+ tlv_type(): bigint { return 9999n; },
+ write(): Uint8Array { throw new Error(); },
+ debug_str(): string { return "Message Contents"; }
+ } as ldk.OnionMessageContentsInterface)));
+ },
+ handle_custom_message(msg: ldk.OnionMessageContents) {
+ assert(msg.tlv_type() == 9999n);
+ b_handled_msg = true;
+ },
+ release_pending_custom_messages(): ldk.ThreeTuple_OnionMessageContentsDestinationBlindedPathZ[] {
+ return [];
+ }
+ } as ldk.CustomOnionMessageHandlerInterface);
+ const msg_router_b = ldk.DefaultMessageRouter
+ .constructor_new(b.net_graph, b.keys_manager.as_EntropySource()).as_MessageRouter();
+ const om_b = ldk.OnionMessenger.constructor_new(b.keys_manager.as_EntropySource(), b.keys_manager.as_NodeSigner(),
+ b.logger, msg_router_b, ignorer.as_OffersMessageHandler(), om_handler_b);
+
+ const pm_a = ldk.PeerManager.constructor_new(a.chan_man.as_ChannelMessageHandler(), ignorer.as_RoutingMessageHandler(),
+ om_a, ignorer.as_CustomMessageHandler(), 0xdeadbeef,
+ a.keys_manager.as_EntropySource().get_secure_random_bytes(), a.logger, a.keys_manager.as_NodeSigner());
+ const pm_b = ldk.PeerManager.constructor_new(b.chan_man.as_ChannelMessageHandler(), ignorer.as_RoutingMessageHandler(),
+ om_b.as_OnionMessageHandler(), ignorer.as_CustomMessageHandler(), 0xdeadbeef,
+ b.keys_manager.as_EntropySource().get_secure_random_bytes(), b.logger, b.keys_manager.as_NodeSigner());
+
+ var sock_b: ldk.SocketDescriptor;
+ const sock_a = ldk.SocketDescriptor.new_impl({
+ send_data(data: Uint8Array, resume_read: boolean): number {
+ assert(pm_b.read_event(sock_b, data) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+ assert(resume_read);
+ return data.length;
+ },
+ disconnect_socket(): void {
+ assert(false);
+ },
+ eq(other: ldk.SocketDescriptor): boolean {
+ return other.hash() == this.hash();
+ },
+ hash(): bigint {
+ return BigInt(1);
+ }
+ } as ldk.SocketDescriptorInterface);
+ sock_b = ldk.SocketDescriptor.new_impl({
+ send_data(data: Uint8Array, resume_read: boolean): number {
+ assert(pm_a.read_event(sock_a, data) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+ assert(resume_read);
+ return data.length;
+ },
+ disconnect_socket(): void {
+ assert(false);
+ },
+ eq(other: ldk.SocketDescriptor): boolean {
+ return other.hash() == this.hash();
+ },
+ hash(): bigint {
+ return BigInt(2);
+ }
+ } as ldk.SocketDescriptorInterface);
+
+ const v4_netaddr = ldk.SocketAddress.constructor_tcp_ip_v4(Uint8Array.from([42,0,42,1]), 9735);
+ assert(pm_b.new_inbound_connection(sock_b, ldk.Option_SocketAddressZ.constructor_some(v4_netaddr)) instanceof ldk.Result_NonePeerHandleErrorZ_OK);
+ const init_bytes = pm_a.new_outbound_connection(b.node_id, sock_a, ldk.Option_SocketAddressZ.constructor_none());
+ if (!(init_bytes instanceof ldk.Result_CVec_u8ZPeerHandleErrorZ_OK)) return false;
+ assert(pm_b.read_event(sock_b, init_bytes.res) instanceof ldk.Result_boolPeerHandleErrorZ_OK);
+
+ assert(pm_a.get_peer_node_ids().length == 0);
+ assert(pm_b.get_peer_node_ids().length == 0);
+
+ pm_b.process_events();
+ pm_a.process_events();
+ pm_b.process_events();
+
+ assert(pm_a.get_peer_node_ids().length == 1);
+ assert(pm_b.get_peer_node_ids().length == 1);
+
+ underlying_om_a.send_onion_message(
+ ldk.OnionMessageContents.new_impl({
+ tlv_type(): bigint { return 4242n; },
+ write(): Uint8Array {
+ const ret = new Uint8Array(43);
+ for (var i = 0; i < 43; i++) ret[i] = 66;
+ return ret;
+ },
+ debug_str(): string { return "Onion Message A Contents"; }
+ } as ldk.OnionMessageContentsInterface), ldk.Destination.constructor_node(b.node_id), null);
+ pm_a.process_events();
+ assert(b_handled_msg);
+
+ om_b.send_onion_message(
+ ldk.OnionMessageContents.new_impl({
+ tlv_type(): bigint { return 4343n; },
+ write(): Uint8Array {
+ const ret = new Uint8Array(44);
+ for (var i = 0; i < 44; i++) ret[i] = 67;
+ return ret;
+ },
+ debug_str(): string { return "Onion Message A Contents"; }
+ } as ldk.OnionMessageContentsInterface), ldk.Destination.constructor_node(a.node_id), null);
+ pm_b.process_events();
+ assert(a_handled_msg);
+
+ return true;
+});
+
+tests.push(async () => {
+ // Test that we can do basic locking of a NetworkGraph
+ const logger = ldk.Logger.new_impl({
+ log(record: ldk.Record): void {
+ if (record.get_level() != ldk.Level.LDKLevel_Gossip)
+ console.log(record.get_module_path() + ": " + record.get_args());
+ }
+ } as ldk.LoggerInterface);
+ const network_graph = ldk.NetworkGraph.constructor_new(ldk.Network.LDKNetwork_Testnet, logger);
+ const graph_lock_1 = network_graph.read_only();
+ graph_lock_1.free();
+ const graph_lock_2 = network_graph.read_only();
+ graph_lock_2.free();
+
+ return true;
+});
+async function run_tests(check_leaks: boolean) {
var test_runs = [];
for (const test of tests) {
test_runs.push(test());
console.log("test results: " + results);
const result = results.every((v) => { return v === true });
console.log("all tests passed: " + result);
- return result;
+ if (result !== true || !check_leaks) { return result; }
+
+ const allocs_finished = new Promise((resolve, _reject) => {
+ var loop_count = 0;
+ const interval_id = setInterval(() => {
+ const alloc_count = rawldk.getRemainingAllocationCount();
+ if (loop_count % 20 == 0)
+ console.log("Remaining LDK allocation count: " + alloc_count);
+
+ // chromium with --js-flags="--expose-gc" exposes a `window.gc()` which we call if we can
+ // @ts-ignore window.gc is considered a type error in TS
+ if (typeof window !== "undefined" && typeof window.gc !== "undefined") window.gc();
+
+ // Note that there are currently 9 leaks in the above tests. At least some are known - look for XXX in bindings.c
+ if (alloc_count <= 10) { clearInterval(interval_id); rawldk.debugPrintRemainingAllocs(); resolve(true); }
+ loop_count += 1;
+ if (loop_count > 30*2) { clearInterval(interval_id); rawldk.debugPrintRemainingAllocs(); resolve(false); }
+ }, 500);
+ });
+ return allocs_finished;
+}
+
+export async function run_tests_web(wasm_path: string, check_leaks: boolean = true) {
+ await ldk.initializeWasmWebFetch(wasm_path);
+ return await run_tests(check_leaks);
+}
+
+export async function run_tests_node(wasm_file: Uint8Array, check_leaks: boolean = true) {
+ await ldk.initializeWasmFromBinary(wasm_file);
+ return await run_tests(check_leaks);
}