use of org.apache.beam.vendor.grpc.v1p43p2.io.netty.channel.epoll.EpollEventLoopGroup in project activemq-artemis by apache.
the class NettyConnector method start.
@Override
public synchronized void start() {
if (channelClazz != null) {
return;
}
if (remotingThreads == -1) {
// Default to number of cores * 3
remotingThreads = Runtime.getRuntime().availableProcessors() * 3;
}
String connectorType;
if (useEpoll && Epoll.isAvailable()) {
if (useGlobalWorkerPool) {
group = SharedEventLoopGroup.getInstance((threadFactory -> new EpollEventLoopGroup(remotingThreads, threadFactory)));
} else {
group = new EpollEventLoopGroup(remotingThreads);
}
connectorType = EPOLL_CONNECTOR_TYPE;
channelClazz = EpollSocketChannel.class;
logger.debug("Connector " + this + " using native epoll");
} else if (useKQueue && KQueue.isAvailable()) {
if (useGlobalWorkerPool) {
group = SharedEventLoopGroup.getInstance((threadFactory -> new KQueueEventLoopGroup(remotingThreads, threadFactory)));
} else {
group = new KQueueEventLoopGroup(remotingThreads);
}
connectorType = KQUEUE_CONNECTOR_TYPE;
channelClazz = KQueueSocketChannel.class;
logger.debug("Connector " + this + " using native kqueue");
} else {
if (useGlobalWorkerPool) {
channelClazz = NioSocketChannel.class;
group = SharedEventLoopGroup.getInstance((threadFactory -> new NioEventLoopGroup(remotingThreads, threadFactory)));
} else {
channelClazz = NioSocketChannel.class;
group = new NioEventLoopGroup(remotingThreads);
}
connectorType = NIO_CONNECTOR_TYPE;
channelClazz = NioSocketChannel.class;
logger.debug("Connector + " + this + " using nio");
}
// if we are a servlet wrap the socketChannelFactory
bootstrap = new Bootstrap();
bootstrap.channel(channelClazz);
bootstrap.group(group);
bootstrap.option(ChannelOption.TCP_NODELAY, tcpNoDelay);
if (connectTimeoutMillis != -1) {
bootstrap.option(ChannelOption.CONNECT_TIMEOUT_MILLIS, connectTimeoutMillis);
}
if (tcpReceiveBufferSize != -1) {
bootstrap.option(ChannelOption.SO_RCVBUF, tcpReceiveBufferSize);
}
if (tcpSendBufferSize != -1) {
bootstrap.option(ChannelOption.SO_SNDBUF, tcpSendBufferSize);
}
final int writeBufferLowWaterMark = this.writeBufferLowWaterMark != -1 ? this.writeBufferLowWaterMark : WriteBufferWaterMark.DEFAULT.low();
final int writeBufferHighWaterMark = this.writeBufferHighWaterMark != -1 ? this.writeBufferHighWaterMark : WriteBufferWaterMark.DEFAULT.high();
final WriteBufferWaterMark writeBufferWaterMark = new WriteBufferWaterMark(writeBufferLowWaterMark, writeBufferHighWaterMark);
bootstrap.option(ChannelOption.WRITE_BUFFER_WATER_MARK, writeBufferWaterMark);
bootstrap.option(ChannelOption.SO_KEEPALIVE, true);
bootstrap.option(ChannelOption.SO_REUSEADDR, true);
channelGroup = new DefaultChannelGroup("activemq-connector", GlobalEventExecutor.INSTANCE);
final String realKeyStorePath;
final String realKeyStoreProvider;
final String realKeyStorePassword;
final String realTrustStorePath;
final String realTrustStoreProvider;
final String realTrustStorePassword;
if (sslEnabled) {
// HORNETQ-680 - override the server-side config if client-side system properties are set
realKeyStorePath = Stream.of(System.getProperty(JAVAX_KEYSTORE_PATH_PROP_NAME), System.getProperty(ACTIVEMQ_KEYSTORE_PATH_PROP_NAME), keyStorePath).map(v -> useDefaultSslContext ? keyStorePath : v).filter(Objects::nonNull).findFirst().orElse(null);
realKeyStorePassword = Stream.of(System.getProperty(JAVAX_KEYSTORE_PASSWORD_PROP_NAME), System.getProperty(ACTIVEMQ_KEYSTORE_PASSWORD_PROP_NAME), keyStorePassword).map(v -> useDefaultSslContext ? keyStorePassword : v).filter(Objects::nonNull).findFirst().orElse(null);
realKeyStoreProvider = Stream.of(System.getProperty(ACTIVEMQ_KEYSTORE_PROVIDER_PROP_NAME), keyStoreProvider).map(v -> useDefaultSslContext ? keyStoreProvider : v).filter(Objects::nonNull).findFirst().orElse(null);
realTrustStorePath = Stream.of(System.getProperty(JAVAX_TRUSTSTORE_PATH_PROP_NAME), System.getProperty(ACTIVEMQ_TRUSTSTORE_PATH_PROP_NAME), trustStorePath).map(v -> useDefaultSslContext ? trustStorePath : v).filter(Objects::nonNull).findFirst().orElse(null);
realTrustStorePassword = Stream.of(System.getProperty(JAVAX_TRUSTSTORE_PASSWORD_PROP_NAME), System.getProperty(ACTIVEMQ_TRUSTSTORE_PASSWORD_PROP_NAME), trustStorePassword).map(v -> useDefaultSslContext ? trustStorePassword : v).filter(Objects::nonNull).findFirst().orElse(null);
realTrustStoreProvider = Stream.of(System.getProperty(ACTIVEMQ_TRUSTSTORE_PROVIDER_PROP_NAME), trustStoreProvider).map(v -> useDefaultSslContext ? trustStoreProvider : v).filter(Objects::nonNull).findFirst().orElse(null);
} else {
realKeyStorePath = null;
realKeyStoreProvider = null;
realKeyStorePassword = null;
realTrustStorePath = null;
realTrustStoreProvider = null;
realTrustStorePassword = null;
}
bootstrap.handler(new ChannelInitializer<Channel>() {
@Override
public void initChannel(Channel channel) throws Exception {
final ChannelPipeline pipeline = channel.pipeline();
if (sslEnabled && !useServlet) {
SSLEngine engine;
if (sslProvider.equals(TransportConstants.OPENSSL_PROVIDER)) {
engine = loadOpenSslEngine(channel.alloc(), realKeyStoreProvider, realKeyStorePath, realKeyStorePassword, realTrustStoreProvider, realTrustStorePath, realTrustStorePassword);
} else {
engine = loadJdkSslEngine(useDefaultSslContext, realKeyStoreProvider, realKeyStorePath, realKeyStorePassword, realTrustStoreProvider, realTrustStorePath, realTrustStorePassword);
}
engine.setUseClientMode(true);
engine.setWantClientAuth(true);
// setting the enabled cipher suites resets the enabled protocols so we need
// to save the enabled protocols so that after the customer cipher suite is enabled
// we can reset the enabled protocols if a customer protocol isn't specified
String[] originalProtocols = engine.getEnabledProtocols();
if (enabledCipherSuites != null) {
try {
engine.setEnabledCipherSuites(SSLSupport.parseCommaSeparatedListIntoArray(enabledCipherSuites));
} catch (IllegalArgumentException e) {
ActiveMQClientLogger.LOGGER.invalidCipherSuite(SSLSupport.parseArrayIntoCommandSeparatedList(engine.getSupportedCipherSuites()));
throw e;
}
}
if (enabledProtocols != null) {
try {
engine.setEnabledProtocols(SSLSupport.parseCommaSeparatedListIntoArray(enabledProtocols));
} catch (IllegalArgumentException e) {
ActiveMQClientLogger.LOGGER.invalidProtocol(SSLSupport.parseArrayIntoCommandSeparatedList(engine.getSupportedProtocols()));
throw e;
}
} else {
engine.setEnabledProtocols(originalProtocols);
}
if (verifyHost) {
SSLParameters sslParameters = engine.getSSLParameters();
sslParameters.setEndpointIdentificationAlgorithm("HTTPS");
engine.setSSLParameters(sslParameters);
}
SslHandler handler = new SslHandler(engine);
pipeline.addLast("ssl", handler);
}
if (httpEnabled) {
pipeline.addLast(new HttpRequestEncoder());
pipeline.addLast(new HttpResponseDecoder());
pipeline.addLast(new HttpObjectAggregator(Integer.MAX_VALUE));
pipeline.addLast(new HttpHandler());
}
if (httpUpgradeEnabled) {
// prepare to handle a HTTP 101 response to upgrade the protocol.
final HttpClientCodec httpClientCodec = new HttpClientCodec();
pipeline.addLast(httpClientCodec);
pipeline.addLast("http-upgrade", new HttpUpgradeHandler(pipeline, httpClientCodec));
}
protocolManager.addChannelHandlers(pipeline);
pipeline.addLast(new ActiveMQClientChannelHandler(channelGroup, handler, new Listener()));
}
});
if (batchDelay > 0) {
flusher = new BatchFlusher();
batchFlusherFuture = scheduledThreadPool.scheduleWithFixedDelay(flusher, batchDelay, batchDelay, TimeUnit.MILLISECONDS);
}
ActiveMQClientLogger.LOGGER.startedNettyConnector(connectorType, TransportConstants.NETTY_VERSION, host, port);
}
use of org.apache.beam.vendor.grpc.v1p43p2.io.netty.channel.epoll.EpollEventLoopGroup in project activemq-artemis by apache.
the class NettyAcceptor method start.
@Override
public synchronized void start() throws Exception {
if (channelClazz != null) {
// Already started
return;
}
String acceptorType;
if (useInvm) {
acceptorType = INVM_ACCEPTOR_TYPE;
channelClazz = LocalServerChannel.class;
eventLoopGroup = new DefaultEventLoopGroup();
} else {
if (remotingThreads == -1) {
// Default to number of cores * 3
remotingThreads = Runtime.getRuntime().availableProcessors() * 3;
}
if (useEpoll && Epoll.isAvailable()) {
channelClazz = EpollServerSocketChannel.class;
eventLoopGroup = new EpollEventLoopGroup(remotingThreads, AccessController.doPrivileged(new PrivilegedAction<ActiveMQThreadFactory>() {
@Override
public ActiveMQThreadFactory run() {
return new ActiveMQThreadFactory("activemq-netty-threads", true, ClientSessionFactoryImpl.class.getClassLoader());
}
}));
acceptorType = EPOLL_ACCEPTOR_TYPE;
logger.debug("Acceptor using native epoll");
} else if (useKQueue && KQueue.isAvailable()) {
channelClazz = KQueueServerSocketChannel.class;
eventLoopGroup = new KQueueEventLoopGroup(remotingThreads, AccessController.doPrivileged(new PrivilegedAction<ActiveMQThreadFactory>() {
@Override
public ActiveMQThreadFactory run() {
return new ActiveMQThreadFactory("activemq-netty-threads", true, ClientSessionFactoryImpl.class.getClassLoader());
}
}));
acceptorType = KQUEUE_ACCEPTOR_TYPE;
logger.debug("Acceptor using native kqueue");
} else {
channelClazz = NioServerSocketChannel.class;
eventLoopGroup = new NioEventLoopGroup(remotingThreads, AccessController.doPrivileged(new PrivilegedAction<ActiveMQThreadFactory>() {
@Override
public ActiveMQThreadFactory run() {
return new ActiveMQThreadFactory("activemq-netty-threads", true, ClientSessionFactoryImpl.class.getClassLoader());
}
}));
acceptorType = NIO_ACCEPTOR_TYPE;
logger.debug("Acceptor using nio");
}
}
bootstrap = new ServerBootstrap();
bootstrap.group(eventLoopGroup);
bootstrap.channel(channelClazz);
ChannelInitializer<Channel> factory = new ChannelInitializer<Channel>() {
@Override
public void initChannel(Channel channel) throws Exception {
ChannelPipeline pipeline = channel.pipeline();
if (sslEnabled) {
pipeline.addLast("ssl", getSslHandler(channel.alloc()));
pipeline.addLast("sslHandshakeExceptionHandler", new SslHandshakeExceptionHandler());
}
pipeline.addLast(protocolHandler.getProtocolDecoder());
}
};
bootstrap.childHandler(factory);
// Bind
bootstrap.childOption(ChannelOption.TCP_NODELAY, tcpNoDelay);
if (tcpReceiveBufferSize != -1) {
bootstrap.childOption(ChannelOption.SO_RCVBUF, tcpReceiveBufferSize);
}
if (tcpSendBufferSize != -1) {
bootstrap.childOption(ChannelOption.SO_SNDBUF, tcpSendBufferSize);
}
final int writeBufferLowWaterMark = this.writeBufferLowWaterMark != -1 ? this.writeBufferLowWaterMark : WriteBufferWaterMark.DEFAULT.low();
final int writeBufferHighWaterMark = this.writeBufferHighWaterMark != -1 ? this.writeBufferHighWaterMark : WriteBufferWaterMark.DEFAULT.high();
final WriteBufferWaterMark writeBufferWaterMark = new WriteBufferWaterMark(writeBufferLowWaterMark, writeBufferHighWaterMark);
bootstrap.childOption(ChannelOption.WRITE_BUFFER_WATER_MARK, writeBufferWaterMark);
if (backlog != -1) {
bootstrap.option(ChannelOption.SO_BACKLOG, backlog);
}
bootstrap.option(ChannelOption.SO_REUSEADDR, true);
bootstrap.childOption(ChannelOption.SO_REUSEADDR, true);
bootstrap.childOption(ChannelOption.SO_KEEPALIVE, true);
channelGroup = new DefaultChannelGroup("activemq-accepted-channels", GlobalEventExecutor.INSTANCE);
serverChannelGroup = new DefaultChannelGroup("activemq-acceptor-channels", GlobalEventExecutor.INSTANCE);
if (httpUpgradeEnabled) {
// the channel will be bound by the Web container and hand over after the HTTP Upgrade
// handshake is successful
} else {
startServerChannels();
paused = false;
if (notificationService != null) {
TypedProperties props = new TypedProperties();
props.putSimpleStringProperty(new SimpleString("factory"), new SimpleString(NettyAcceptorFactory.class.getName()));
props.putSimpleStringProperty(new SimpleString("host"), new SimpleString(host));
props.putIntProperty(new SimpleString("port"), port);
Notification notification = new Notification(null, CoreNotificationType.ACCEPTOR_STARTED, props);
notificationService.sendNotification(notification);
}
ActiveMQServerLogger.LOGGER.startedAcceptor(acceptorType, host, port, protocolsString);
}
if (batchDelay > 0) {
flusher = new BatchFlusher();
batchFlusherFuture = scheduledThreadPool.scheduleWithFixedDelay(flusher, batchDelay, batchDelay, TimeUnit.MILLISECONDS);
}
}
use of org.apache.beam.vendor.grpc.v1p43p2.io.netty.channel.epoll.EpollEventLoopGroup in project cassandra by apache.
the class NativeTransportService method initialize.
/**
* Creates netty thread pools and event loops.
*/
@VisibleForTesting
synchronized void initialize() {
if (initialized)
return;
if (useEpoll()) {
workerGroup = new EpollEventLoopGroup();
logger.info("Netty using native Epoll event loop");
} else {
workerGroup = new NioEventLoopGroup();
logger.info("Netty using Java NIO event loop");
}
int nativePort = DatabaseDescriptor.getNativeTransportPort();
int nativePortSSL = DatabaseDescriptor.getNativeTransportPortSSL();
InetAddress nativeAddr = DatabaseDescriptor.getRpcAddress();
org.apache.cassandra.transport.Server.Builder builder = new org.apache.cassandra.transport.Server.Builder().withEventLoopGroup(workerGroup).withHost(nativeAddr);
EncryptionOptions.TlsEncryptionPolicy encryptionPolicy = DatabaseDescriptor.getNativeProtocolEncryptionOptions().tlsEncryptionPolicy();
Server regularPortServer;
Server tlsPortServer = null;
// regular port, and encryption / optionally encrypted connections on the ssl port.
if (nativePort != nativePortSSL) {
regularPortServer = builder.withTlsEncryptionPolicy(EncryptionOptions.TlsEncryptionPolicy.UNENCRYPTED).withPort(nativePort).build();
switch(encryptionPolicy) {
// FALLTHRU - encryption is optional on the regular port, but encrypted on the tls port.
case OPTIONAL:
case ENCRYPTED:
tlsPortServer = builder.withTlsEncryptionPolicy(encryptionPolicy).withPort(nativePortSSL).build();
break;
case // Should have been caught by DatabaseDescriptor.applySimpleConfig
UNENCRYPTED:
throw new IllegalStateException("Encryption must be enabled in client_encryption_options for native_transport_port_ssl");
default:
throw new IllegalStateException("Unrecognized TLS encryption policy: " + encryptionPolicy);
}
} else // Otherwise, if only the regular port is supplied, listen as the encryption policy specifies
{
regularPortServer = builder.withTlsEncryptionPolicy(encryptionPolicy).withPort(nativePort).build();
}
if (tlsPortServer == null) {
servers = Collections.singleton(regularPortServer);
} else {
servers = Collections.unmodifiableList(Arrays.asList(regularPortServer, tlsPortServer));
}
ClientMetrics.instance.init(servers);
initialized = true;
}
use of org.apache.beam.vendor.grpc.v1p43p2.io.netty.channel.epoll.EpollEventLoopGroup in project flink by apache.
the class NettyClient method initEpollBootstrap.
private void initEpollBootstrap() {
// Add the server port number to the name in order to distinguish
// multiple clients running on the same host.
String name = NettyConfig.CLIENT_THREAD_GROUP_NAME + " (" + config.getServerPort() + ")";
EpollEventLoopGroup epollGroup = new EpollEventLoopGroup(config.getClientNumThreads(), NettyServer.getNamedThreadFactory(name));
bootstrap.group(epollGroup).channel(EpollSocketChannel.class);
}
use of org.apache.beam.vendor.grpc.v1p43p2.io.netty.channel.epoll.EpollEventLoopGroup in project netty-socketio by mrniko.
the class SocketIOServer method initGroups.
protected void initGroups() {
if (configCopy.isUseLinuxNativeEpoll()) {
bossGroup = new EpollEventLoopGroup(configCopy.getBossThreads());
workerGroup = new EpollEventLoopGroup(configCopy.getWorkerThreads());
} else {
bossGroup = new NioEventLoopGroup(configCopy.getBossThreads());
workerGroup = new NioEventLoopGroup(configCopy.getWorkerThreads());
}
}
Aggregations