use of org.neo4j.bolt.transport.NettyServer in project neo4j by neo4j.
the class NettyServerTest method shouldGivePortConflictErrorWithPortNumberInIt.
@Test
public void shouldGivePortConflictErrorWithPortNumberInIt() throws Throwable {
// Given an occupied port
int port = 16000;
try (ServerSocketChannel ignore = ServerSocketChannel.open().bind(new InetSocketAddress("localhost", port))) {
final ListenSocketAddress address = new ListenSocketAddress("localhost", port);
// Expect
exception.expect(PortBindException.class);
exception.expectMessage("Address localhost:16000 is already in use");
// When
new NettyServer(new NamedThreadFactory("mythreads"), asList(protocolOnAddress(address))).start();
}
}
use of org.neo4j.bolt.transport.NettyServer in project neo4j by neo4j.
the class BoltKernelExtension method newInstance.
@Override
public Lifecycle newInstance(KernelContext context, Dependencies dependencies) throws Throwable {
Config config = dependencies.config();
GraphDatabaseService gdb = dependencies.db();
GraphDatabaseAPI api = (GraphDatabaseAPI) gdb;
LogService logService = dependencies.logService();
Clock clock = dependencies.clock();
Log log = logService.getInternalLog(WorkerFactory.class);
LifeSupport life = new LifeSupport();
JobScheduler scheduler = dependencies.scheduler();
InternalLoggerFactory.setDefaultFactory(new Netty4LoggerFactory(logService.getInternalLogProvider()));
Authentication authentication = authentication(dependencies.authManager(), dependencies.userManagerSupplier());
BoltFactory boltFactory = life.add(new BoltFactoryImpl(api, dependencies.usageData(), logService, dependencies.txBridge(), authentication, dependencies.sessionTracker(), config));
WorkerFactory workerFactory = createWorkerFactory(boltFactory, scheduler, dependencies, logService, clock);
List<ProtocolInitializer> connectors = config.enabledBoltConnectors().stream().map((connConfig) -> {
ListenSocketAddress listenAddress = config.get(connConfig.listen_address);
AdvertisedSocketAddress advertisedAddress = config.get(connConfig.advertised_address);
SslContext sslCtx;
boolean requireEncryption;
final BoltConnector.EncryptionLevel encryptionLevel = config.get(connConfig.encryption_level);
switch(encryptionLevel) {
case REQUIRED:
// Encrypted connections are mandatory, a self-signed certificate may be generated.
requireEncryption = true;
sslCtx = createSslContext(config, log, advertisedAddress);
break;
case OPTIONAL:
// Encrypted connections are optional, a self-signed certificate may be generated.
requireEncryption = false;
sslCtx = createSslContext(config, log, advertisedAddress);
break;
case DISABLED:
// Encryption is turned off, no self-signed certificate will be generated.
requireEncryption = false;
sslCtx = null;
break;
default:
// In the unlikely event that we happen to fall through to the default option here,
// there is a mismatch between the BoltConnector.EncryptionLevel enum and the options
// handled in this switch statement. In this case, we'll log a warning and default to
// disabling encryption, since this mirrors the functionality introduced in 3.0.
log.warn(format("Unhandled encryption level %s - assuming DISABLED.", encryptionLevel.name()));
requireEncryption = false;
sslCtx = null;
break;
}
final Map<Long, BiFunction<Channel, Boolean, BoltProtocol>> versions = newVersions(logService, workerFactory);
return new SocketTransport(listenAddress, sslCtx, requireEncryption, logService.getInternalLogProvider(), versions);
}).collect(toList());
if (connectors.size() > 0 && !config.get(GraphDatabaseSettings.disconnected)) {
life.add(new NettyServer(scheduler.threadFactory(boltNetworkIO), connectors));
log.info("Bolt Server extension loaded.");
for (ProtocolInitializer connector : connectors) {
logService.getUserLog(WorkerFactory.class).info("Bolt enabled on %s.", connector.address());
}
}
return life;
}
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