final KeysManager explicit_keys_manager;
final KeysInterface keys_interface;
final ChainMonitor chain_monitor;
- final NetGraphMsgHandler router;
+ final NetworkGraph router;
+ NetGraphMsgHandler route_handler;
final Watch chain_watch;
final HashSet<String> filter_additions;
final Option_FilterZ filter;
PeerManager peer_manager;
final HashMap<String, ChannelMonitor> monitors; // Wow I forgot just how terrible Java is - we can't put a byte array here.
byte[] node_id;
+ byte[] connected_peer_node_id = null;
final LinkedList<byte[]> broadcast_set = new LinkedList<>();
final LinkedList<Event> pending_manager_events = new LinkedList<>();
+ private final CustomMessageHandler custom_message_handler;
+ final LinkedList<byte[]> received_custom_messages = new LinkedList<>();
+ final LinkedList<byte[]> custom_messages_to_send = new LinkedList<>();
ChannelManagerConstructor constructor = null;
GcCheck obj = new GcCheck();
- private TwoTuple<OutPoint, byte[]> test_mon_roundtrip(ChannelMonitor mon) {
+ private TwoTuple_OutPointScriptZ test_mon_roundtrip(ChannelMonitor mon) {
// Because get_funding_txo() returns an OutPoint in a tuple that is a reference to an OutPoint inside the
// ChannelMonitor, its a good test to ensure that the OutPoint isn't freed (or is cloned) before the
// ChannelMonitor is. This used to be broken.
- Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ roundtrip_monitor = UtilMethods.BlockHashChannelMonitorZ_read(mon.write(), keys_interface);
+ Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ roundtrip_monitor = UtilMethods.C2Tuple_BlockHashChannelMonitorZ_read(mon.write(), keys_interface);
assert roundtrip_monitor instanceof Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK;
- TwoTuple<OutPoint, byte[]> funding_txo = ((Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK) roundtrip_monitor).res.b.get_funding_txo();
+ TwoTuple_OutPointScriptZ funding_txo = ((Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK) roundtrip_monitor).res.get_b().get_funding_txo();
System.gc(); System.runFinalization(); // Give the GC a chance to run.
return funding_txo;
}
this.seed = seed;
Persist persister = Persist.new_impl(new Persist.PersistInterface() {
@Override
- public Result_NoneChannelMonitorUpdateErrZ persist_new_channel(OutPoint id, ChannelMonitor data) {
+ public Result_NoneChannelMonitorUpdateErrZ persist_new_channel(OutPoint id, ChannelMonitor data, MonitorUpdateId update_id) {
synchronized (monitors) {
String key = Arrays.toString(id.to_channel_id());
assert monitors.put(key, data) == null;
- TwoTuple<OutPoint, byte[]> res = test_mon_roundtrip(data);
- assert Arrays.equals(res.a.get_txid(), id.get_txid());
- assert res.a.get_index() == id.get_index();
+ TwoTuple_OutPointScriptZ res = test_mon_roundtrip(data);
+ assert Arrays.equals(res.get_a().get_txid(), id.get_txid());
+ assert res.get_a().get_index() == id.get_index();
}
return Result_NoneChannelMonitorUpdateErrZ.ok();
}
@Override
- public Result_NoneChannelMonitorUpdateErrZ update_persisted_channel(OutPoint id, ChannelMonitorUpdate update, ChannelMonitor data) {
+ public Result_NoneChannelMonitorUpdateErrZ update_persisted_channel(OutPoint id, ChannelMonitorUpdate update, ChannelMonitor data, MonitorUpdateId update_id) {
synchronized (monitors) {
String key = Arrays.toString(id.to_channel_id());
assert monitors.put(key, data) != null;
- TwoTuple<OutPoint, byte[]> res = test_mon_roundtrip(data);
- assert Arrays.equals(res.a.get_txid(), id.get_txid());
- assert res.a.get_index() == id.get_index();
+ TwoTuple_OutPointScriptZ res = test_mon_roundtrip(data);
+ assert Arrays.equals(res.get_a().get_txid(), id.get_txid());
+ assert res.get_a().get_index() == id.get_index();
}
return Result_NoneChannelMonitorUpdateErrZ.ok();
}
this.keys_interface = keys.as_KeysInterface();
this.explicit_keys_manager = keys;
}
- this.router = NetGraphMsgHandler.of(new byte[32], Option_AccessZ.none(), logger);
+ this.router = NetworkGraph.of(new byte[32]);
+ this.route_handler = NetGraphMsgHandler.of(this.router, Option_AccessZ.some(Access.new_impl(new Access.AccessInterface() {
+ @Override
+ public Result_TxOutAccessErrorZ get_utxo(byte[] genesis_hash, long short_channel_id) {
+ // We don't exchange any gossip, so should never actually get called, but providing a Some(Access)
+ // is a good test of our Option<Trait> free'ing, which used to be broken and relies on a dirty hack.
+ assert false;
+ return Result_TxOutAccessErrorZ.err(AccessError.LDKAccessError_UnknownTx);
+ }
+ })), logger);
+
+ this.custom_message_handler = CustomMessageHandler.new_impl(new CustomMessageHandler.CustomMessageHandlerInterface() {
+ @Override
+ public Result_NoneLightningErrorZ handle_custom_message(Type msg, byte[] sender_node_id) {
+ synchronized (received_custom_messages) {
+ received_custom_messages.add(msg.write());
+ received_custom_messages.notifyAll();
+ }
+ return Result_NoneLightningErrorZ.ok();
+ }
+
+ @Override
+ public TwoTuple_PublicKeyTypeZ[] get_and_clear_pending_msg() {
+ byte[][] bytes;
+ synchronized (custom_messages_to_send) {
+ bytes = custom_messages_to_send.toArray(new byte[0][0]);
+ custom_messages_to_send.clear();
+ }
+ TwoTuple_PublicKeyTypeZ[] ret = new TwoTuple_PublicKeyTypeZ[bytes.length];
+ for (int i = 0; i < bytes.length; i++) {
+ final int msg_idx = i;
+ ret[i] = TwoTuple_PublicKeyTypeZ.of(connected_peer_node_id, Type.new_impl(new Type.TypeInterface() {
+ @Override public short type_id() { return 4096; }
+ @Override public String debug_str() { return "Custom Java Message"; }
+ @Override public byte[] write() { return bytes[msg_idx]; }
+ }));
+ }
+ return ret;
+ }
+ }, (message_type, buffer) -> {
+ assert message_type == 4096;
+ return Result_COption_TypeZDecodeErrorZ.ok(Option_TypeZ.some(Type.new_impl(new Type.TypeInterface() {
+ @Override public short type_id() { return 4096; }
+ @Override public String debug_str() { return "Custom Java-Decoded Message"; }
+ @Override public byte[] write() { return buffer; }
+ })));
+ });
}
private void bind_nio() {
if (!use_nio_peer_handler) return;
Peer(byte seed) {
this(null, seed);
if (use_chan_manager_constructor) {
- NetGraphMsgHandler route_handler = null;
- if (!use_ignore_handler) {
- route_handler = router;
+ if (use_ignore_handler) {
+ this.route_handler = null;
}
this.constructor = new ChannelManagerConstructor(Network.LDKNetwork_Bitcoin, UserConfig.with_default(), new byte[32], 0,
this.keys_interface, this.fee_estimator, this.chain_monitor, route_handler, this.tx_broadcaster, this.logger);
ChainParameters params = ChainParameters.of(Network.LDKNetwork_Bitcoin, BestBlock.of(new byte[32], 0));
this.chan_manager = ChannelManager.of(this.fee_estimator, chain_watch, tx_broadcaster, logger, this.keys_interface, UserConfig.with_default(), params);
byte[] random_data = keys_interface.get_secure_random_bytes();
- this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), router.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger, IgnoringMessageHandler.of().as_CustomMessageHandler());
+ this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), route_handler.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger, this.custom_message_handler);
}
this.node_id = chan_manager.get_our_node_id();
if (this.filter instanceof Option_FilterZ.Some) {
filter_nullable = ((Option_FilterZ.Some) this.filter).some;
}
+ if (use_ignore_handler) {
+ this.route_handler = null;
+ }
this.constructor = new ChannelManagerConstructor(serialized, monitors, this.keys_interface,
- this.fee_estimator, this.chain_monitor, filter_nullable, this.router, this.tx_broadcaster, this.logger);
+ this.fee_estimator, this.chain_monitor, filter_nullable, this.route_handler, this.tx_broadcaster, this.logger);
constructor.chain_sync_completed(new ChannelManagerConstructor.EventHandler() {
@Override public void handle_event(Event event) {
synchronized (pending_manager_events) {
} else {
byte[] serialized = orig.monitors.values().stream().iterator().next().write();
Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ res =
- UtilMethods.BlockHashChannelMonitorZ_read(serialized, this.keys_interface);
+ UtilMethods.C2Tuple_BlockHashChannelMonitorZ_read(serialized, this.keys_interface);
assert res instanceof Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK;
- monitors[0] = ((Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK) res).res.b;
+ monitors[0] = ((Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ.Result_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_OK) res).res.get_b();
}
byte[] serialized = orig.chan_manager.write();
Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ read_res =
- UtilMethods.BlockHashChannelManagerZ_read(serialized, this.keys_interface, this.fee_estimator, this.chain_watch, this.tx_broadcaster, this.logger, UserConfig.with_default(), monitors);
+ UtilMethods.C2Tuple_BlockHashChannelManagerZ_read(serialized, this.keys_interface, this.fee_estimator, this.chain_watch, this.tx_broadcaster, this.logger, UserConfig.with_default(), monitors);
assert read_res instanceof Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ.Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_OK;
- this.chan_manager = ((Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ.Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_OK) read_res).res.b;
- this.chain_watch.watch_channel(monitors[0].get_funding_txo().a, monitors[0]);
+ this.chan_manager = ((Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ.Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_OK) read_res).res.get_b();
+ this.chain_watch.watch_channel(monitors[0].get_funding_txo().get_a(), monitors[0]);
byte[] random_data = keys_interface.get_secure_random_bytes();
- this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), router.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger, IgnoringMessageHandler.of().as_CustomMessageHandler());
+ this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), route_handler.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger, this.custom_message_handler);
if (!break_cross_peer_refs && (use_manual_watch || use_km_wrapper)) {
// When we pass monitors[0] into chain_watch.watch_channel we create a reference from the new Peer to a
// field in the old peer, preventing freeing of the original Peer until the new Peer is freed. Thus, we
}
}
- TwoTuple<byte[], TwoTuple<Integer, TxOut>[]>[] connect_block(Block b, int height, long expected_monitor_update_len) {
+ TwoTuple_TxidCVec_C2Tuple_u32TxOutZZZ[] connect_block(Block b, int height, long expected_monitor_update_len) {
byte[] header = Arrays.copyOfRange(b.bitcoinSerialize(), 0, 80);
- TwoTuple<Long, byte[]>[] txn;
+ TwoTuple_usizeTransactionZ[] txn;
if (b.hasTransactions()) {
assert b.getTransactions().size() == 1;
- TwoTuple<Long, byte[]> txp = new TwoTuple<>((long) 0, b.getTransactions().get(0).bitcoinSerialize());
- txn = new TwoTuple[]{txp};
+ TwoTuple_usizeTransactionZ txp = TwoTuple_usizeTransactionZ.of((long) 0, b.getTransactions().get(0).bitcoinSerialize());
+ txn = new TwoTuple_usizeTransactionZ[]{txp};
} else
- txn = new TwoTuple[0];
+ txn = new TwoTuple_usizeTransactionZ[0];
if (chain_monitor != null) {
chan_manager.as_Listen().block_connected(b.bitcoinSerialize(), height);
chain_monitor.as_Listen().block_connected(b.bitcoinSerialize(), height);
synchronized (monitors) {
assert monitors.size() == 1;
for (ChannelMonitor mon : monitors.values()) {
- TwoTuple<byte[], TwoTuple<Integer, TxOut>[]>[] ret = mon.block_connected(header, txn, height, tx_broadcaster, fee_estimator, logger);
+ TwoTuple_TxidCVec_C2Tuple_u32TxOutZZZ[] ret = mon.block_connected(header, txn, height, tx_broadcaster, fee_estimator, logger);
assert ret.length == expected_monitor_update_len;
return ret;
}
}
void connect_peers(final Peer peer1, final Peer peer2) {
+ peer2.connected_peer_node_id = peer1.node_id;
+ peer1.connected_peer_node_id = peer2.node_id;
if (use_nio_peer_handler) {
try {
peer1.nio_peer_handler.connect(peer2.chan_manager.get_our_node_id(), new InetSocketAddress("127.0.0.1", peer2.nio_port), 100);
connect_peers(peer1, peer2);
- Result_NoneAPIErrorZ cc_res = peer1.chan_manager.create_channel(peer2.node_id, 100000, 1000, 42, null);
- assert cc_res instanceof Result_NoneAPIErrorZ.Result_NoneAPIErrorZ_OK;
+ Result__u832APIErrorZ cc_res = peer1.chan_manager.create_channel(peer2.node_id, 100000, 1000, 42, null);
+ assert cc_res instanceof Result__u832APIErrorZ.Result__u832APIErrorZ_OK;
// Previously, this was a SEGFAULT instead of get_funding_txo() returning null.
ChannelDetails pre_funding_chan = peer1.chan_manager.list_channels()[0];
InvoiceFeatures invoice_features = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.features();
RouteHint[] route_hints = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.route_hints();
- Result_RouteLightningErrorZ route_res = UtilMethods.get_route(peer1.chan_manager.get_our_node_id(), peer1.router.get_network_graph(), peer2.node_id, invoice_features, peer1_chans, route_hints, 10000000, 42, peer1.logger);
+ Payee payee = Payee.of(peer2.node_id, invoice_features, route_hints, Option_u64Z.none());
+ RouteParameters route_params = RouteParameters.of(payee, 10000000, 42);
+ Result_RouteLightningErrorZ route_res = UtilMethods.find_route(
+ peer1.chan_manager.get_our_node_id(), route_params, peer1.router,
+ peer1_chans, peer1.logger, Scorer.with_default().as_Score());
assert route_res instanceof Result_RouteLightningErrorZ.Result_RouteLightningErrorZ_OK;
Route route = ((Result_RouteLightningErrorZ.Result_RouteLightningErrorZ_OK) route_res).res;
+ assert route.get_paths().length == 1;
+ assert route.get_paths()[0].length == 1;
+ assert route.get_paths()[0][0].get_fee_msat() == 10000000;
- Result_NonePaymentSendFailureZ payment_res = peer1.chan_manager.send_payment(route, payment_hash, payment_secret);
- assert payment_res instanceof Result_NonePaymentSendFailureZ.Result_NonePaymentSendFailureZ_OK;
+ Result_PaymentIdPaymentSendFailureZ payment_res = peer1.chan_manager.send_payment(route, payment_hash, payment_secret);
+ assert payment_res instanceof Result_PaymentIdPaymentSendFailureZ.Result_PaymentIdPaymentSendFailureZ_OK;
RouteHop[][] hops = new RouteHop[1][1];
byte[] hop_pubkey = new byte[33];
hop_pubkey[0] = 3;
hop_pubkey[1] = 42;
hops[0][0] = RouteHop.of(hop_pubkey, NodeFeatures.known(), 42, ChannelFeatures.known(), 100, 0);
- Route r2 = Route.of(hops);
+ Route r2 = Route.of(hops, payee);
payment_res = peer1.chan_manager.send_payment(r2, payment_hash, payment_secret);
- assert payment_res instanceof Result_NonePaymentSendFailureZ.Result_NonePaymentSendFailureZ_Err;
+ assert payment_res instanceof Result_PaymentIdPaymentSendFailureZ.Result_PaymentIdPaymentSendFailureZ_Err;
if (reload_peers) {
if (use_chan_manager_constructor) {
Thread.sleep(100);
}
+ if (state.peer1.chain_monitor != null) {
+ Balance[] peer1_balances = state.peer1.chain_monitor.get_claimable_balances(state.peer1.chan_manager.list_channels());
+ assert peer1_balances.length == 0;
+ Balance[] peer2_balances = state.peer2.chain_monitor.get_claimable_balances(state.peer2.chan_manager.list_channels());
+ assert peer2_balances.length == 0;
+ }
+
ChannelDetails[] peer1_chans = state.peer1.chan_manager.list_channels();
if (nice_close) {
assert state.peer1.broadcast_set.size() == 1;
assert state.peer2.broadcast_set.size() == 1;
+ }
+
+ events = state.peer2.get_manager_events(1, state.peer1, state.peer2);
+ assert events[0] instanceof Event.ChannelClosed;
+ events = state.peer1.get_manager_events(1, state.peer1, state.peer2);
+ assert events[0] instanceof Event.ChannelClosed;
+
+ if (state.peer1.chain_monitor != null) {
+ Balance[] peer1_balances = state.peer1.chain_monitor.get_claimable_balances(state.peer1.chan_manager.list_channels());
+ assert peer1_balances.length == 1;
+ for (Balance bal : peer1_balances) {
+ assert bal instanceof Balance.ClaimableOnChannelClose;
+ long expected_tx_fee = 183;
+ assert ((Balance.ClaimableOnChannelClose) bal).claimable_amount_satoshis == 100000 - 1 - 10000 - expected_tx_fee;
+ }
+ Balance[] peer2_balances = state.peer2.chain_monitor.get_claimable_balances(state.peer2.chan_manager.list_channels());
+ assert peer2_balances.length == 1;
+ for (Balance bal : peer2_balances) {
+ assert bal instanceof Balance.ClaimableOnChannelClose;
+ assert ((Balance.ClaimableOnChannelClose) bal).claimable_amount_satoshis == 10000 + 1;
+ }
+ }
+ if (!nice_close) {
NetworkParameters bitcoinj_net = NetworkParameters.fromID(NetworkParameters.ID_MAINNET);
Transaction tx = new Transaction(bitcoinj_net, state.peer1.broadcast_set.getFirst());
Block b = new Block(bitcoinj_net, 2, state.best_blockhash, Sha256Hash.ZERO_HASH, 42, 0, 0,
Arrays.asList(new Transaction[]{tx}));
- TwoTuple<byte[], TwoTuple<Integer, TxOut>[]>[] watch_outputs = state.peer2.connect_block(b, 10, 1);
+ TwoTuple_TxidCVec_C2Tuple_u32TxOutZZZ[] watch_outputs = state.peer2.connect_block(b, 10, 1);
if (watch_outputs != null) { // We only process watch_outputs manually when we use a manually-build Watch impl
assert watch_outputs.length == 1;
- assert Arrays.equals(watch_outputs[0].a, tx.getTxId().getReversedBytes());
- assert watch_outputs[0].b.length == 2;
- assert watch_outputs[0].b[0].a == 0;
- assert watch_outputs[0].b[1].a == 1;
+ assert Arrays.equals(watch_outputs[0].get_a(), tx.getTxId().getReversedBytes());
+ assert watch_outputs[0].get_b().length == 2;
+ assert watch_outputs[0].get_b()[0].get_a() == 0;
+ assert watch_outputs[0].get_b()[1].get_a() == 1;
}
for (int i = 11; i < 21; i++) {
assert broadcastable_event.length == 1;
assert broadcastable_event[0] instanceof Event.SpendableOutputs;
if (state.peer2.explicit_keys_manager != null) {
- TxOut[] additional_outputs = new TxOut[] { new TxOut(420, new byte[] { 0x42 }) };
- Result_TransactionNoneZ tx_res = state.peer2.explicit_keys_manager.spend_spendable_outputs(((Event.SpendableOutputs) broadcastable_event[0]).outputs, additional_outputs, new byte[] {0x00}, 253);
+ TxOut[] additional_outputs = new TxOut[]{new TxOut(420, new byte[]{0x42})};
+ Result_TransactionNoneZ tx_res = state.peer2.explicit_keys_manager.spend_spendable_outputs(((Event.SpendableOutputs) broadcastable_event[0]).outputs, additional_outputs, new byte[]{0x00}, 253);
assert tx_res instanceof Result_TransactionNoneZ.Result_TransactionNoneZ_OK;
Transaction built_tx = new Transaction(bitcoinj_net, ((Result_TransactionNoneZ.Result_TransactionNoneZ_OK) tx_res).res);
assert built_tx.getOutputs().size() == 2;
}
}
+ // Test exchanging a custom message (note that ChannelManagerConstructor) always loads an IgnorimgMessageHandler
+ // so we cannot exchange custom messages with it
+ if (!use_chan_manager_constructor) {
+ byte[] custom_message_bytes = new byte[]{0x42, 0x44, 0x43, 0x00};
+ state.peer1.custom_messages_to_send.add(custom_message_bytes);
+ state.peer1.peer_manager.process_events();
+ synchronized (state.peer2.received_custom_messages) {
+ while (true) {
+ if (state.peer2.received_custom_messages.isEmpty()) {
+ state.peer2.received_custom_messages.wait();
+ continue;
+ }
+ assert state.peer2.received_custom_messages.size() == 1;
+ assert Arrays.equals(state.peer2.received_custom_messages.get(0), custom_message_bytes);
+ break;
+ }
+ }
+ }
+
if (use_nio_peer_handler) {
state.peer1.peer_manager.disconnect_by_node_id(state.peer2.chan_manager.get_our_node_id(), false);
while (state.peer1.peer_manager.get_peer_node_ids().length != 0) Thread.yield();
}
t.interrupt();
+
+ // Construct the only Option_Enum::Variant(OpaqueStruct) we have in the codebase as this used to cause double-frees:
+ byte[] serd = new byte[] {(byte)0xd9,(byte)0x77,(byte)0xcb,(byte)0x9b,(byte)0x53,(byte)0xd9,(byte)0x3a,(byte)0x6f,(byte)0xf6,(byte)0x4b,(byte)0xb5,(byte)0xf1,(byte)0xe1,(byte)0x58,(byte)0xb4,(byte)0x09,(byte)0x4b,(byte)0x66,(byte)0xe7,(byte)0x98,(byte)0xfb,(byte)0x12,(byte)0x91,(byte)0x11,(byte)0x68,(byte)0xa3,(byte)0xcc,(byte)0xdf,(byte)0x80,(byte)0xa8,(byte)0x30,(byte)0x96,(byte)0x34,(byte)0x0a,(byte)0x6a,(byte)0x95,(byte)0xda,(byte)0x0a,(byte)0xe8,(byte)0xd9,(byte)0xf7,(byte)0x76,(byte)0x52,(byte)0x8e,(byte)0xec,(byte)0xdb,(byte)0xb7,(byte)0x47,(byte)0xeb,(byte)0x6b,(byte)0x54,(byte)0x54,(byte)0x95,(byte)0xa4,(byte)0x31,(byte)0x9e,(byte)0xd5,(byte)0x37,(byte)0x8e,(byte)0x35,(byte)0xb2,(byte)0x1e,(byte)0x07,(byte)0x3a,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x19,(byte)0xd6,(byte)0x68,(byte)0x9c,(byte)0x08,(byte)0x5a,(byte)0xe1,(byte)0x65,(byte)0x83,(byte)0x1e,(byte)0x93,(byte)0x4f,(byte)0xf7,(byte)0x63,(byte)0xae,(byte)0x46,(byte)0xa2,(byte)0xa6,(byte)0xc1,(byte)0x72,(byte)0xb3,(byte)0xf1,(byte)0xb6,(byte)0x0a,(byte)0x8c,(byte)0xe2,(byte)0x6f,(byte)0x00,(byte)0x08,(byte)0x3a,(byte)0x84,(byte)0x00,(byte)0x00,(byte)0x03,(byte)0x4d,(byte)0x01,(byte)0x34,(byte)0x13,(byte)0xa7,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x90,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x0f,(byte)0x42,(byte)0x40,(byte)0x00,(byte)0x00,(byte)0x27,(byte)0x10,(byte)0x00,(byte)0x00,(byte)0x00,(byte)0x14,};
+ Result_ChannelUpdateDecodeErrorZ upd_msg = ChannelUpdate.read(serd);
+ assert upd_msg instanceof Result_ChannelUpdateDecodeErrorZ.Result_ChannelUpdateDecodeErrorZ_OK;
+ Option_NetworkUpdateZ upd = Option_NetworkUpdateZ.some(NetworkUpdate.channel_update_message(((Result_ChannelUpdateDecodeErrorZ.Result_ChannelUpdateDecodeErrorZ_OK) upd_msg).res));
}
java.util.LinkedList<WeakReference<Object>> must_free_objs = new java.util.LinkedList();
}
@Test
public void test_message_handler() throws InterruptedException {
- for (int i = 0; i < (1 << 7) - 1; i++) {
+ for (int i = 0; i < (1 << 8) - 1; i++) {
boolean nice_close = (i & (1 << 0)) != 0;
boolean use_km_wrapper = (i & (1 << 1)) != 0;
boolean use_manual_watch = (i & (1 << 2)) != 0;