import org.junit.jupiter.api.Test;
import org.ldk.batteries.ChannelManagerConstructor;
import org.ldk.batteries.NioPeerHandler;
-import org.ldk.enums.LDKCurrency;
-import org.ldk.enums.LDKNetwork;
-import org.ldk.impl.bindings;
+import org.ldk.enums.Currency;
+import org.ldk.enums.Network;
import org.ldk.structs.*;
import org.ldk.util.TwoTuple;
private final boolean break_cross_peer_refs;
private final boolean use_nio_peer_handler;
private final boolean use_filter;
+ private final boolean use_ignore_handler;
private final boolean use_chan_manager_constructor;
- HumanObjectPeerTestInstance(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean use_nio_peer_handler, boolean use_filter, boolean use_chan_manager_constructor) {
+ HumanObjectPeerTestInstance(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean use_nio_peer_handler, boolean use_filter, boolean use_ignore_handler, boolean use_chan_manager_constructor) {
this.nice_close = nice_close;
this.use_km_wrapper = use_km_wrapper;
this.use_manual_watch = use_manual_watch;
this.break_cross_peer_refs = break_cross_peer_refs;
this.use_nio_peer_handler = use_nio_peer_handler;
this.use_filter = use_filter;
+ this.use_ignore_handler = use_ignore_handler;
this.use_chan_manager_constructor = use_chan_manager_constructor;
}
return KeysInterface.new_impl(new KeysInterface.KeysInterfaceInterface() {
@Override public byte[] get_node_secret() { return underlying_if.get_node_secret(); }
@Override public byte[] get_destination_script() { return underlying_if.get_destination_script(); }
- @Override public byte[] get_shutdown_pubkey() { return underlying_if.get_shutdown_pubkey(); }
+ @Override public ShutdownScript get_shutdown_scriptpubkey() { return underlying_if.get_shutdown_scriptpubkey(); }
@Override
public Sign get_channel_signer(boolean inbound, long channel_value_satoshis) {
Sign underlying_ck = underlying_if.get_channel_signer(inbound, channel_value_satoshis);
- // TODO: Expose the underlying signer from a Sign
- /*BaseSign.BaseSignInterface si = new BaseSign.BaseSignInterface() {
+ BaseSign underlying_base = underlying_ck.get_base_sign();
+ BaseSign.BaseSignInterface bsi = new BaseSign.BaseSignInterface() {
@Override
public byte[] get_per_commitment_point(long idx) {
- return underlying_ck.get_per_commitment_point(idx);
+ return underlying_base.get_per_commitment_point(idx);
}
@Override
public byte[] release_commitment_secret(long idx) {
- return underlying_ck.release_commitment_secret(idx);
+ return underlying_base.release_commitment_secret(idx);
}
@Override
@Override
public Result_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_counterparty_commitment(CommitmentTransaction commitment_tx) {
- return underlying_ck.sign_counterparty_commitment(commitment_tx);
+ return underlying_base.sign_counterparty_commitment(commitment_tx);
}
@Override
public Result_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_holder_commitment_and_htlcs(HolderCommitmentTransaction holder_commitment_tx) {
- return underlying_ck.sign_holder_commitment_and_htlcs(holder_commitment_tx);
+ return underlying_base.sign_holder_commitment_and_htlcs(holder_commitment_tx);
}
@Override
- public Result_SignatureNoneZ sign_justice_transaction(byte[] justice_tx, long input, long amount, byte[] per_commitment_key, HTLCOutputInCommitment htlc) {
- return underlying_ck.sign_justice_transaction(justice_tx, input, amount, per_commitment_key, htlc);
+ public Result_SignatureNoneZ sign_justice_revoked_output(byte[] justice_tx, long input, long amount, byte[] per_commitment_key) {
+ return underlying_base.sign_justice_revoked_output(justice_tx, input, amount, per_commitment_key);
+ }
+
+ @Override
+ public Result_SignatureNoneZ sign_justice_revoked_htlc(byte[] justice_tx, long input, long amount, byte[] per_commitment_key, HTLCOutputInCommitment htlc) {
+ return underlying_base.sign_justice_revoked_htlc(justice_tx, input, amount, per_commitment_key, htlc);
}
@Override
public Result_SignatureNoneZ sign_counterparty_htlc_transaction(byte[] htlc_tx, long input, long amount, byte[] per_commitment_point, HTLCOutputInCommitment htlc) {
- return underlying_ck.sign_counterparty_htlc_transaction(htlc_tx, input, amount, per_commitment_point, htlc);
+ return underlying_base.sign_counterparty_htlc_transaction(htlc_tx, input, amount, per_commitment_point, htlc);
}
@Override
public Result_SignatureNoneZ sign_closing_transaction(byte[] closing_tx) {
- return underlying_ck.sign_closing_transaction(closing_tx);
+ return underlying_base.sign_closing_transaction(closing_tx);
}
@Override
public Result_SignatureNoneZ sign_channel_announcement(UnsignedChannelAnnouncement msg) {
- return underlying_ck.sign_channel_announcement(msg);
+ return underlying_base.sign_channel_announcement(msg);
}
@Override
public void ready_channel(ChannelTransactionParameters params) {
- underlying_ck.ready_channel(params);
+ underlying_base.ready_channel(params);
}
-
+ };
+ Sign.SignInterface si = new Sign.SignInterface() {
@Override
public byte[] write() {
return underlying_ck.write();
}
- };*/
- //Sign resp = Sign.new_impl(si, underlying_ck.get_pubkeys());
- //must_free_objs.add(new WeakReference<>(si));
- //must_free_objs.add(new WeakReference<>(resp));
+ };
+ Sign resp = Sign.new_impl(si, bsi, underlying_base.get_pubkeys());
+ must_free_objs.add(new WeakReference<>(si));
+ must_free_objs.add(new WeakReference<>(bsi));
+ must_free_objs.add(new WeakReference<>(resp));
+ must_free_objs.add(new WeakReference<>(underlying_base));
must_free_objs.add(new WeakReference<>(underlying_ck));
- //return resp;
- return underlying_ck;
+ return resp;
}
@Override
logger = Logger.new_impl((String arg) -> System.out.println(seed + ": " + arg));
fee_estimator = FeeEstimator.new_impl((confirmation_target -> 253));
tx_broadcaster = BroadcasterInterface.new_impl(tx -> {
- broadcast_set.add(tx);
+ synchronized (broadcast_set) {
+ broadcast_set.add(tx);
+ broadcast_set.notifyAll();
+ }
});
monitors = new HashMap<>();
this.seed = seed;
}
private void bind_nio() {
if (!use_nio_peer_handler) return;
- try { this.nio_peer_handler = new NioPeerHandler(peer_manager); } catch (IOException e) { assert false; }
+ if (use_chan_manager_constructor) {
+ this.nio_peer_handler = this.constructor.nio_peer_handler;
+ } else {
+ try { this.nio_peer_handler = new NioPeerHandler(peer_manager); } catch (IOException e) { assert false; }
+ }
for (short i = 10_000; true; i++) {
try {
nio_peer_handler.bind_listener(new InetSocketAddress("127.0.0.1", i));
Peer(byte seed) {
this(null, seed);
if (use_chan_manager_constructor) {
- try {
- this.constructor = new ChannelManagerConstructor(LDKNetwork.LDKNetwork_Bitcoin, UserConfig.with_default(), new byte[32], 0,
- this.keys_interface, this.fee_estimator, this.chain_monitor, this.tx_broadcaster, this.logger);
- constructor.chain_sync_completed(new ChannelManagerConstructor.ChannelManagerPersister() {
- @Override public void handle_events(Event[] events) {
- synchronized (pending_manager_events) {
- pending_manager_events.addAll(Arrays.asList(events));
- pending_manager_events.notifyAll();
- }
- }
- @Override public void persist_manager(byte[] channel_manager_bytes) { }
- });
- this.chan_manager = constructor.channel_manager;
- must_free_objs.add(new WeakReference<>(this.chan_manager));
- } catch (ChannelManagerConstructor.InvalidSerializedDataException e) {
- assert false;
+ NetGraphMsgHandler route_handler = null;
+ if (!use_ignore_handler) {
+ route_handler = router;
}
+ 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);
+ constructor.chain_sync_completed(new ChannelManagerConstructor.ChannelManagerPersister() {
+ @Override public void handle_event(Event event) {
+ synchronized (pending_manager_events) {
+ pending_manager_events.add(event);
+ pending_manager_events.notifyAll();
+ }
+ }
+ @Override public void persist_manager(byte[] channel_manager_bytes) { assert channel_manager_bytes.length > 1; }
+ });
+ this.chan_manager = constructor.channel_manager;
+ this.peer_manager = constructor.peer_manager;
+ must_free_objs.add(new WeakReference<>(this.chan_manager));
} else {
- this.chan_manager = ChannelManager.of(this.fee_estimator, chain_watch, tx_broadcaster, logger, this.keys_interface, UserConfig.with_default(), LDKNetwork.LDKNetwork_Bitcoin, BestBlock.of(new byte[32], 0));
+ 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);
}
this.node_id = chan_manager.get_our_node_id();
-
- byte[] random_data = new byte[32];
- for (byte i = 0; i < 32; i++) {
- random_data[i] = (byte) ((i ^ seed) ^ 0xf0);
- }
- this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), router.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger);
bind_nio();
System.gc();
}
- byte[] hexStringToByteArray(String s) {
- int len = s.length();
- byte[] data = new byte[len / 2];
- for (int i = 0; i < len; i += 2) {
- data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4)
- + Character.digit(s.charAt(i+1), 16));
- }
- return data;
- }
-
-
Object ptr_to;
Peer(Peer orig) {
this(null, orig.seed);
byte[] serialized = orig.chan_manager.write();
try {
this.constructor = new ChannelManagerConstructor(serialized, monitors, this.keys_interface,
- this.fee_estimator, this.chain_monitor, this.filter, this.tx_broadcaster, this.logger);
+ this.fee_estimator, this.chain_monitor, this.filter, this.router, this.tx_broadcaster, this.logger);
constructor.chain_sync_completed(new ChannelManagerConstructor.ChannelManagerPersister() {
- @Override public void handle_events(Event[] events) {
+ @Override public void handle_event(Event event) {
synchronized (pending_manager_events) {
- pending_manager_events.addAll(Arrays.asList(events));
+ pending_manager_events.add(event);
pending_manager_events.notifyAll();
}
}
- @Override public void persist_manager(byte[] channel_manager_bytes) { }
+ @Override public void persist_manager(byte[] channel_manager_bytes) { assert channel_manager_bytes.length > 1; }
});
this.chan_manager = constructor.channel_manager;
+ this.peer_manager = constructor.peer_manager;
must_free_objs.add(new WeakReference<>(this.chan_manager));
// If we are using a ChannelManagerConstructor, we may have pending events waiting on the old peer
// which have been removed from the ChannelManager but which we still need to handle.
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]);
+ 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);
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
}
}
this.node_id = chan_manager.get_our_node_id();
+ bind_nio();
if (cross_reload_ref_pollution) {
// This really, really needs to be handled at the bindings layer, but its rather complicated -
// the ChannelSigner.
this.ptr_to = orig.chan_manager;
}
-
- byte[] random_data = new byte[32];
- for (byte i = 0; i < 32; i++) {
- random_data[i] = (byte) ((i ^ seed) ^ 0xf0);
- }
- this.peer_manager = PeerManager.of(chan_manager.as_ChannelMessageHandler(), router.as_RoutingMessageHandler(), keys_interface.get_node_secret(), random_data, logger);
- bind_nio();
}
TwoTuple<byte[], TwoTuple<Integer, TxOut>[]>[] connect_block(Block b, int height, long expected_monitor_update_len) {
if (use_chan_manager_constructor) {
while (true) {
synchronized (this.pending_manager_events) {
- if (expected_len != 0 && this.pending_manager_events.size() != expected_len) {
+ if (expected_len != 0 && this.pending_manager_events.size() == expected_len) {
break;
}
}
- try { Thread.sleep(500); } catch (InterruptedException e) { assert false; }
- break;
+ if (expected_len == 0) {
+ try { Thread.sleep(500); } catch (InterruptedException e) { assert false; }
+ break;
+ } else {
+ Thread.yield();
+ }
}
synchronized (this.pending_manager_events) {
Event[] res = this.pending_manager_events.toArray(new Event[0]);
return res;
}
} else if (chain_monitor != null) {
- return chain_monitor.as_EventsProvider().get_and_clear_pending_events();
+ ArrayList<Event> l = new ArrayList<Event>();
+ chain_monitor.as_EventsProvider().process_pending_events(EventHandler.new_impl(l::add));
+ assert l.size() == expected_len;
+ return l.toArray(new Event[0]);
} else {
synchronized (monitors) {
assert monitors.size() == 1;
}
}
- Event[] get_manager_events(int expected_len) {
+ Event[] get_manager_events(int expected_len, Peer peer1, Peer peer2) {
+ assert expected_len != 0;
+ if (!use_nio_peer_handler) {
+ maybe_exchange_peer_messages(peer1, peer2);
+ }
Event[] res = new Event[0];
if (use_chan_manager_constructor) {
while (res.length < expected_len) {
}
}
} else {
- res = this.chan_manager.as_EventsProvider().get_and_clear_pending_events();
+ ArrayList<Event> l = new ArrayList<Event>();
+ while (l.size() < expected_len) {
+ Thread.yield();
+ if (use_nio_peer_handler) {
+ peer1.nio_peer_handler.check_events();
+ peer2.nio_peer_handler.check_events();
+ }
+ chan_manager.as_EventsProvider().process_pending_events(EventHandler.new_impl(l::add));
+ assert l.size() == expected_len || l.size() == 0; // We don't handle partial results
+ }
+ return l.toArray(new Event[0]);
}
assert res.length == expected_len;
return res;
}
-
- Route get_route(byte[] dest_node, ChannelDetails[] our_chans) {
- try (LockedNetworkGraph netgraph = this.router.read_locked_graph()) {
- NetworkGraph graph = netgraph.graph();
- long res = bindings.get_route(this.node_id, graph._test_only_get_ptr(), dest_node, 0L, new long[]{our_chans[0]._test_only_get_ptr()},
- new long[0], 1000000, 42, this.logger._test_only_get_ptr());
- assert bindings.LDKCResult_RouteLightningErrorZ_result_ok(res);
- byte[] serialized_route = bindings.Route_write(bindings.LDKCResult_RouteLightningErrorZ_get_ok(res));
- must_free_objs.add(new WeakReference<>(serialized_route));
- Result_RouteDecodeErrorZ copy = Route.read(serialized_route);
- assert copy instanceof Result_RouteDecodeErrorZ.Result_RouteDecodeErrorZ_OK;
- bindings.CResult_RouteLightningErrorZ_free(res);
- return ((Result_RouteDecodeErrorZ.Result_RouteDecodeErrorZ_OK) copy).res;
- }
- }
}
static class DescriptorHolder { SocketDescriptor val; }
}
}
});
- void wait_events_processed(Peer peer1, Peer peer2) {
- if (use_nio_peer_handler) {
- peer1.nio_peer_handler.check_events();
- peer2.nio_peer_handler.check_events();
- try { Thread.sleep(400); } catch (InterruptedException e) { assert false; }
- } else {
+
+ void maybe_exchange_peer_messages(Peer peer1, Peer peer2) {
+ if (!use_nio_peer_handler) {
synchronized (runqueue) {
ran = false;
}
try { runqueue.wait(); } catch (InterruptedException e) { assert false; }
}
}
+ } else if (!use_chan_manager_constructor) {
+ peer1.nio_peer_handler.check_events();
+ peer2.nio_peer_handler.check_events();
}
}
void do_read_event(PeerManager pm, SocketDescriptor descriptor, byte[] data) {
try {
peer1.nio_peer_handler.connect(peer2.chan_manager.get_our_node_id(), new InetSocketAddress("127.0.0.1", peer2.nio_port), 100);
} catch (IOException e) { assert false; }
+ while (peer1.peer_manager.get_peer_node_ids().length == 0 || peer2.peer_manager.get_peer_node_ids().length == 0) {
+ Thread.yield();
+ }
} else {
DescriptorHolder descriptor1 = new DescriptorHolder();
DescriptorHolder descriptor1ref = descriptor1;
Result_NonePeerHandleErrorZ inbound_conn_res = peer2.peer_manager.new_inbound_connection(descriptor2);
assert inbound_conn_res instanceof Result_NonePeerHandleErrorZ.Result_NonePeerHandleErrorZ_OK;
do_read_event(peer2.peer_manager, descriptor2, ((Result_CVec_u8ZPeerHandleErrorZ.Result_CVec_u8ZPeerHandleErrorZ_OK) conn_res).res);
+
+ maybe_exchange_peer_messages(peer1, peer2);
}
}
Peer peer2 = new Peer((byte) 2);
connect_peers(peer1, peer2);
- wait_events_processed(peer1, peer2);
- Result_NoneAPIErrorZ cc_res = peer1.chan_manager.create_channel(peer2.node_id, 10000, 1000, 42, null);
+ 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;
- wait_events_processed(peer1, peer2);
- Event[] events = peer1.get_manager_events(1);
+ // Previously, this was a SEGFAULT instead of get_funding_txo() returning null.
+ ChannelDetails pre_funding_chan = peer1.chan_manager.list_channels()[0];
+ assert pre_funding_chan.get_funding_txo() == null;
+
+ Event[] events = peer1.get_manager_events(1, peer1, peer2);
assert events[0] instanceof Event.FundingGenerationReady;
- assert ((Event.FundingGenerationReady) events[0]).channel_value_satoshis == 10000;
+ assert ((Event.FundingGenerationReady) events[0]).channel_value_satoshis == 100000;
assert ((Event.FundingGenerationReady) events[0]).user_channel_id == 42;
byte[] funding_spk = ((Event.FundingGenerationReady) events[0]).output_script;
assert funding_spk.length == 34 && funding_spk[0] == 0 && funding_spk[1] == 32; // P2WSH
funding.addInput(new TransactionInput(bitcoinj_net, funding, new byte[0]));
funding.getInputs().get(0).setWitness(new TransactionWitness(2)); // Make sure we don't complain about lack of witness
funding.getInput(0).getWitness().setPush(0, new byte[]{0x1});
- funding.addOutput(Coin.SATOSHI.multiply(10000), new Script(funding_spk));
+ funding.addOutput(Coin.SATOSHI.multiply(100000), new Script(funding_spk));
Result_NoneAPIErrorZ funding_res = peer1.chan_manager.funding_transaction_generated(chan_id, funding.bitcoinSerialize());
assert funding_res instanceof Result_NoneAPIErrorZ.Result_NoneAPIErrorZ_OK;
- wait_events_processed(peer1, peer2);
+
+ maybe_exchange_peer_messages(peer1, peer2);
+ synchronized (peer1.broadcast_set) {
+ while (peer1.broadcast_set.size() != 1) {
+ peer1.broadcast_set.wait();
+ }
+ }
assert peer1.broadcast_set.size() == 1;
assert Arrays.equals(peer1.broadcast_set.get(0), funding.bitcoinSerialize());
peer1.connect_block(b, height, 0);
peer2.connect_block(b, height, 0);
}
- wait_events_processed(peer1, peer2);
+
+ maybe_exchange_peer_messages(peer1, peer2);
+ while (peer1.chan_manager.list_usable_channels().length != 1 || peer2.chan_manager.list_usable_channels().length != 1)
peer1.chan_manager.list_channels();
ChannelDetails[] peer1_chans = peer1.chan_manager.list_usable_channels();
ChannelDetails[] peer2_chans = peer2.chan_manager.list_usable_channels();
assert peer1_chans.length == 1;
assert peer2_chans.length == 1;
- assert peer1_chans[0].get_channel_value_satoshis() == 10000;
+ assert peer1_chans[0].get_channel_value_satoshis() == 100000;
assert peer1_chans[0].get_is_usable();
Option_u64Z short_chan_id = peer1_chans[0].get_short_channel_id();
assert short_chan_id instanceof Option_u64Z.Some;
assert Arrays.equals(peer1_chans[0].get_channel_id(), funding.getTxId().getReversedBytes());
assert Arrays.equals(peer2_chans[0].get_channel_id(), funding.getTxId().getReversedBytes());
- Result_InvoiceSignOrCreationErrorZ invoice = UtilMethods.invoice_from_channelmanager(peer2.chan_manager, peer2.keys_interface, LDKCurrency.LDKCurrency_Bitcoin, Option_u64Z.none(), "Invoice Description");
+ Result_InvoiceSignOrCreationErrorZ invoice = UtilMethods.create_invoice_from_channelmanager(peer2.chan_manager, peer2.keys_interface, Currency.LDKCurrency_Bitcoin, Option_u64Z.none(), "Invoice Description");
assert invoice instanceof Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK;
System.out.println("Got invoice: " + ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.to_str());
+
Result_InvoiceNoneZ parsed_invoice = Invoice.from_str(((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.to_str());
assert parsed_invoice instanceof Result_InvoiceNoneZ.Result_InvoiceNoneZ_OK;
assert Arrays.equals(((Result_InvoiceNoneZ.Result_InvoiceNoneZ_OK) parsed_invoice).res.payment_hash(), ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.payment_hash());
assert description_string.equals("Invoice Description");
byte[] payment_hash = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.payment_hash();
byte[] payment_secret = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.payment_secret();
+ byte[] dest_node_id = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.recover_payee_pub_key();
+ assert Arrays.equals(dest_node_id, peer2.node_id);
+ InvoiceFeatures invoice_features = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.features();
+ RouteHint[] route_hints = ((Result_InvoiceSignOrCreationErrorZ.Result_InvoiceSignOrCreationErrorZ_OK) invoice).res.route_hints();
+
+ Route route;
+ try (LockedNetworkGraph netgraph = peer1.router.read_locked_graph()) {
+ NetworkGraph graph = netgraph.graph();
+ Result_RouteLightningErrorZ route_res = UtilMethods.get_route(peer1.chan_manager.get_our_node_id(), graph, peer2.node_id, invoice_features, peer1_chans, route_hints, 10000000, 42, peer1.logger);
+ assert route_res instanceof Result_RouteLightningErrorZ.Result_RouteLightningErrorZ_OK;
+ route = ((Result_RouteLightningErrorZ.Result_RouteLightningErrorZ_OK) route_res).res;
+ }
- Route route = peer1.get_route(peer2.node_id, peer1_chans);
Result_NonePaymentSendFailureZ payment_res = peer1.chan_manager.send_payment(route, payment_hash, payment_secret);
assert payment_res instanceof Result_NonePaymentSendFailureZ.Result_NonePaymentSendFailureZ_OK;
- wait_events_processed(peer1, peer2);
RouteHop[][] hops = new RouteHop[1][1];
byte[] hop_pubkey = new byte[33];
payment_res = peer1.chan_manager.send_payment(r2, payment_hash, payment_secret);
assert payment_res instanceof Result_NonePaymentSendFailureZ.Result_NonePaymentSendFailureZ_Err;
- if (!use_chan_manager_constructor) {
- peer1.get_monitor_events(0);
- peer2.get_monitor_events(0);
- } else {
- // The events are combined across manager + monitors but peer1 still has no events
- }
-
if (reload_peers) {
- if (use_nio_peer_handler) {
- peer1.nio_peer_handler.interrupt();
- peer2.nio_peer_handler.interrupt();
- }
if (use_chan_manager_constructor) {
peer1.constructor.interrupt();
peer2.constructor.interrupt();
+ } else if (use_nio_peer_handler) {
+ peer1.nio_peer_handler.interrupt();
+ peer2.nio_peer_handler.interrupt();
}
WeakReference<Peer> op1 = new WeakReference<Peer>(peer1);
peer1 = new Peer(peer1);
this.best_blockhash = best_blockhash;
}
}
- void do_test_message_handler_b(TestState state) {
+ void do_test_message_handler_b(TestState state) throws InterruptedException {
GcCheck obj = new GcCheck();
if (state.ref_block != null) {
// Ensure the original peers get freed before we move on. Note that we have to be in a different function
}
connect_peers(state.peer1, state.peer2);
}
- wait_events_processed(state.peer1, state.peer2);
- Event[] events = state.peer2.get_manager_events(1);
+ Event[] events = state.peer2.get_manager_events(1, state.peer1, state.peer2);
assert events[0] instanceof Event.PendingHTLCsForwardable;
state.peer2.chan_manager.process_pending_htlc_forwards();
- events = state.peer2.get_manager_events(1);
+ events = state.peer2.get_manager_events(1, state.peer1, state.peer2);
assert events[0] instanceof Event.PaymentReceived;
- byte[] payment_preimage = ((Event.PaymentReceived)events[0]).payment_preimage;
+ assert ((Event.PaymentReceived)events[0]).purpose instanceof PaymentPurpose.InvoicePayment;
+ byte[] payment_preimage = ((PaymentPurpose.InvoicePayment)((Event.PaymentReceived)events[0]).purpose).payment_preimage;
assert !Arrays.equals(payment_preimage, new byte[32]);
state.peer2.chan_manager.claim_funds(payment_preimage);
- wait_events_processed(state.peer1, state.peer2);
- events = state.peer1.get_manager_events(1);
+ events = state.peer1.get_manager_events(1, state.peer1, state.peer2);
assert events[0] instanceof Event.PaymentSent;
assert Arrays.equals(((Event.PaymentSent) events[0]).payment_preimage, payment_preimage);
- wait_events_processed(state.peer1, state.peer2);
+
+ if (use_nio_peer_handler) {
+ // We receive PaymentSent immediately upon receipt of the payment preimage, but we expect to not have an
+ // HTLC transaction to broadcast below, which requires a bit more time to fully complete the
+ // commitment-transaction-update dance between both peers.
+ Thread.sleep(100);
+ }
ChannelDetails[] peer1_chans = state.peer1.chan_manager.list_channels();
if (nice_close) {
Result_NoneAPIErrorZ close_res = state.peer1.chan_manager.close_channel(peer1_chans[0].get_channel_id());
assert close_res instanceof Result_NoneAPIErrorZ.Result_NoneAPIErrorZ_OK;
- wait_events_processed(state.peer1, state.peer2);
+ maybe_exchange_peer_messages(state.peer1, state.peer2);
+ synchronized (state.peer1.broadcast_set) {
+ while (state.peer1.broadcast_set.size() != 1) state.peer1.broadcast_set.wait();
+ }
+ synchronized (state.peer2.broadcast_set) {
+ while (state.peer2.broadcast_set.size() != 1) state.peer2.broadcast_set.wait();
+ }
assert state.peer1.broadcast_set.size() == 1;
assert state.peer2.broadcast_set.size() == 1;
} else {
state.peer1.chan_manager.force_close_all_channels();
- wait_events_processed(state.peer1, state.peer2);
+ maybe_exchange_peer_messages(state.peer1, state.peer2);
+ synchronized (state.peer1.broadcast_set) {
+ while (state.peer1.broadcast_set.size() != 1) state.peer1.broadcast_set.wait();
+ }
+ synchronized (state.peer2.broadcast_set) {
+ while (state.peer2.broadcast_set.size() != 1) state.peer2.broadcast_set.wait();
+ }
assert state.peer1.broadcast_set.size() == 1;
assert state.peer2.broadcast_set.size() == 1;
assert broadcastable_event.length == 1;
assert broadcastable_event[0] instanceof Event.SpendableOutputs;
if (state.peer2.explicit_keys_manager != null) {
- Result_TransactionNoneZ tx_res = state.peer2.explicit_keys_manager.spend_spendable_outputs(((Event.SpendableOutputs) broadcastable_event[0]).outputs, new TxOut[0], 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() == 1;
- assert Arrays.equals(built_tx.getOutput(0).getScriptBytes(), new byte[]{0x00});
+ assert built_tx.getOutputs().size() == 2;
+ assert Arrays.equals(built_tx.getOutput(1).getScriptBytes(), new byte[]{0x00});
+ assert Arrays.equals(built_tx.getOutput(0).getScriptBytes(), new byte[]{0x42});
+ assert built_tx.getOutput(0).getValue().value == 420;
}
}
if (use_nio_peer_handler) {
state.peer1.peer_manager.disconnect_by_node_id(state.peer2.chan_manager.get_our_node_id(), false);
- wait_events_processed(state.peer1, state.peer2);
- assert state.peer1.peer_manager.get_peer_node_ids().length == 0;
- assert state.peer2.peer_manager.get_peer_node_ids().length == 0;
+ while (state.peer1.peer_manager.get_peer_node_ids().length != 0) Thread.yield();
+ while (state.peer2.peer_manager.get_peer_node_ids().length != 0) Thread.yield();
state.peer1.nio_peer_handler.interrupt();
state.peer2.nio_peer_handler.interrupt();
}
state.peer1.constructor.interrupt();
state.peer2.constructor.interrupt();
}
+
+ t.interrupt();
}
java.util.LinkedList<WeakReference<Object>> must_free_objs = new java.util.LinkedList();
}
}
public class HumanObjectPeerTest {
- HumanObjectPeerTestInstance do_test_run(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean nio_peer_handler, boolean use_chan_manager_constructor) throws InterruptedException {
- HumanObjectPeerTestInstance instance = new HumanObjectPeerTestInstance(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_peer_refs, nio_peer_handler, !nio_peer_handler, use_chan_manager_constructor);
+ HumanObjectPeerTestInstance do_test_run(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean nio_peer_handler, boolean use_ignoring_routing_handler, boolean use_chan_manager_constructor) throws InterruptedException {
+ HumanObjectPeerTestInstance instance = new HumanObjectPeerTestInstance(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_peer_refs, nio_peer_handler, !nio_peer_handler, use_ignoring_routing_handler, use_chan_manager_constructor);
HumanObjectPeerTestInstance.TestState state = instance.do_test_message_handler();
instance.do_test_message_handler_b(state);
return instance;
}
- void do_test(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean nio_peer_handler, boolean use_chan_manager_constructor) throws InterruptedException {
- HumanObjectPeerTestInstance instance = do_test_run(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_peer_refs, nio_peer_handler, use_chan_manager_constructor);
+ void do_test(boolean nice_close, boolean use_km_wrapper, boolean use_manual_watch, boolean reload_peers, boolean break_cross_peer_refs, boolean nio_peer_handler, boolean use_ignoring_routing_handler, boolean use_chan_manager_constructor) throws InterruptedException {
+ HumanObjectPeerTestInstance instance = do_test_run(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_peer_refs, nio_peer_handler, use_ignoring_routing_handler, use_chan_manager_constructor);
while (instance.gc_count != instance.gc_exp_count) {
System.gc();
System.runFinalization();
boolean reload_peers = (i & (1 << 3)) != 0;
boolean break_cross_refs = (i & (1 << 4)) != 0;
boolean nio_peer_handler = (i & (1 << 5)) != 0;
- boolean use_chan_manager_constructor = (i & (1 << 6)) != 0;
+ boolean use_ignoring_routing_handler = (i & (1 << 6)) != 0;
+ boolean use_chan_manager_constructor = (i & (1 << 7)) != 0;
if (break_cross_refs && !reload_peers) {
// There are no cross refs to break without reloading peers.
continue;
}
- if (use_chan_manager_constructor && use_manual_watch) {
- // ChannelManagerConstructor requires a ChainMonitor as the Watch
+ if (use_chan_manager_constructor && (use_manual_watch || !nio_peer_handler)) {
+ // ChannelManagerConstructor requires a ChainMonitor as the Watch and creates a NioPeerHandler for us.
+ continue;
+ }
+ if (!use_chan_manager_constructor && use_ignoring_routing_handler) {
+ // We rely on the ChannelManagerConstructor to convert null into an IgnoringMessageHandler, so don't
+ // try to run with an IgnoringMessageHandler unless we're also using a ChannelManagerConstructor.
continue;
}
System.err.println("Running test with flags " + i);
- do_test(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_refs, nio_peer_handler, use_chan_manager_constructor);
+ do_test(nice_close, use_km_wrapper, use_manual_watch, reload_peers, break_cross_refs, nio_peer_handler, use_ignoring_routing_handler, use_chan_manager_constructor);
+ }
+ }
+
+ // This is used in the test jar to test the built jar is runnable
+ public static void main(String[] args) {
+ try {
+ new HumanObjectPeerTest().test_message_handler();
+ } catch (Exception e) {
+ System.err.println("Caught exception:");
+ System.err.println(e);
+ System.exit(1);
}
}
}