/** Stop the Server */
public void stop() {
try {
handler.destroy();
final ChannelGroupFuture future = ALL_CHANNELS.close();
future.awaitUninterruptibly();
bootstrap.getFactory().releaseExternalResources();
ALL_CHANNELS.clear();
} finally {
started.set(false);
}
}
public static void closeChannels(ChannelGroup allChannels) {
if (allChannels.size() > 0) {
// TODO : allow an option here to control if we need to drain connections and wait instead of
// killing them all
try {
log.info("Closing %s open client connections", allChannels.size());
if (!allChannels.close().await(5, TimeUnit.SECONDS)) {
log.warn("Failed to close all open client connections");
}
} catch (InterruptedException e) {
log.warn("Interrupted while closing client connections");
Thread.currentThread().interrupt();
}
}
}
/** close all channels, and release resources */
public synchronized void close() {
if (allChannels != null) {
allChannels.close().awaitUninterruptibly();
factory.releaseExternalResources();
allChannels = null;
}
}
public void stop() {
log.info("Shutting down proxy");
if (stopped.get()) {
log.info("Already stopped");
return;
}
stopped.set(true);
log.info("Closing all channels...");
// See http://static.netty.io/3.5/guide/#start.12
final ChannelGroupFuture future = allChannels.close();
future.awaitUninterruptibly(10 * 1000);
if (!future.isCompleteSuccess()) {
final Iterator<ChannelFuture> iter = future.iterator();
while (iter.hasNext()) {
final ChannelFuture cf = iter.next();
if (!cf.isSuccess()) {
log.warn("Cause of failure for {} is {}", cf.getChannel(), cf.getCause());
}
}
}
log.info("Stopping timer");
timer.stop();
serverChannelFactory.releaseExternalResources();
clientChannelFactory.releaseExternalResources();
log.info("Done shutting down proxy");
}
private void actualClose(final Context closeContext, final Handler<Void> done) {
if (id != null) {
vertx.sharedNetServers().remove(id);
}
for (DefaultNetSocket sock : socketMap.values()) {
sock.internalClose();
}
// We need to reset it since sock.internalClose() above can call into the close handlers of
// sockets on the same thread
// which can cause context id for the thread to change!
Context.setContext(closeContext);
ChannelGroupFuture fut = serverChannelGroup.close();
if (done != null) {
fut.addListener(
new ChannelGroupFutureListener() {
public void operationComplete(ChannelGroupFuture channelGroupFuture) throws Exception {
executeCloseDone(closeContext, done);
}
});
}
}
/** Shuts the AirReceiver down gracefully */
public static void onShutdown() {
/* Close channels */
final ChannelGroupFuture allChannelsClosed = s_allChannels.close();
/* Stop all mDNS responders */
synchronized (s_jmDNSInstances) {
for (final JmDNS jmDNS : s_jmDNSInstances) {
try {
jmDNS.unregisterAllServices();
s_logger.info("Unregistered all services on " + jmDNS.getInterface());
} catch (final IOException e) {
s_logger.info("Failed to unregister some services");
}
}
}
/* Wait for all channels to finish closing */
allChannelsClosed.awaitUninterruptibly();
/* Stop the ExecutorService */
ExecutorService.shutdown();
/* Release the OrderedMemoryAwareThreadPoolExecutor */
ChannelExecutionHandler.releaseExternalResources();
}
/** Stops this server. */
public void shutdown() {
// This is so we don't run this twice (/stop and actual shutdown)
if (isShuttingDown) return;
isShuttingDown = true;
logger.info("The server is shutting down...");
monitor.interrupt();
// Stop scheduler and disable plugins
scheduler.stop();
pluginManager.clearPlugins();
// Kick (and save) all players
for (Player player : getOnlinePlayers()) {
player.kickPlayer("Server shutting down.");
}
// Save worlds
for (World world : getWorlds()) {
unloadWorld(world, true);
}
storeQueue.end();
// Gracefully stop Netty
group.close();
bootstrap.getFactory().releaseExternalResources();
// And finally kill the console
consoleManager.stop();
}
/** Start listening sockets */
@LogMessageDoc(
level = "INFO",
message = "Listening for internal floodlight RPC on {port}",
explanation = "The internal RPC service is ready for connections")
protected void startServer(ChannelPipelineFactory pipelineFactory) {
final ServerBootstrap bootstrap =
new ServerBootstrap(new NioServerSocketChannelFactory(bossExecutor, workerExecutor));
bootstrap.setOption("reuseAddr", true);
bootstrap.setOption("child.keepAlive", true);
bootstrap.setOption("child.tcpNoDelay", true);
bootstrap.setOption("child.sendBufferSize", SEND_BUFFER_SIZE);
bootstrap.setOption("child.receiveBufferSize", SEND_BUFFER_SIZE);
bootstrap.setPipelineFactory(pipelineFactory);
serverBootstrap = bootstrap;
int port = syncManager.getClusterConfig().getNode().getPort();
InetSocketAddress sa;
String listenAddress = syncManager.getClusterConfig().getListenAddress();
if (listenAddress != null) sa = new InetSocketAddress(listenAddress, port);
else sa = new InetSocketAddress(port);
cg.add(bootstrap.bind(sa));
logger.info("Listening for internal floodlight RPC on {}", sa);
}
/** Stop the RPC service */
@LogMessageDocs({
@LogMessageDoc(
level = "WARN",
message = "Failed to cleanly shut down RPC server",
explanation = "Could not close all open sockets cleanly"),
@LogMessageDoc(
level = "WARN",
message = "Interrupted while shutting down RPC server",
explanation = "Could not close all open sockets cleanly")
})
public void shutdown() {
shutDown = true;
try {
if (!cg.close().await(5, TimeUnit.SECONDS)) {
logger.warn("Failed to cleanly shut down RPC server");
return;
}
if (clientBootstrap != null) clientBootstrap.releaseExternalResources();
clientBootstrap = null;
if (serverBootstrap != null) serverBootstrap.releaseExternalResources();
serverBootstrap = null;
if (pipelineFactory != null) pipelineFactory.releaseExternalResources();
pipelineFactory = null;
if (bossExecutor != null) bossExecutor.shutdown();
bossExecutor = null;
if (workerExecutor != null) workerExecutor.shutdown();
workerExecutor = null;
} catch (InterruptedException e) {
logger.warn("Interrupted while shutting down RPC server");
}
logger.debug("Internal floodlight RPC shut down");
}
/** Stop the network manager, closing all connections and cleaning up all resources. */
public void stop() {
started.set(false);
logger.info("Network manager stopping!");
ChannelGroupFuture future = allChannels.close();
future.awaitUninterruptibly();
channelFactory.releaseExternalResources();
}
public void stop() {
log.info("Shutting down proxy");
final ChannelGroupFuture future = allChannels.close();
future.awaitUninterruptibly(6 * 1000);
serverBootstrap.releaseExternalResources();
log.info("Done shutting down proxy");
}
@Override
public void channelOpen(ChannelHandlerContext ctx, ChannelStateEvent e) throws Exception {
// as seen in http://www.jboss.org/netty/community.html#nabble-td2423020
super.channelOpen(ctx, e);
if (group != null) {
group.add(ctx.getChannel());
}
}
/** Start the server */
public void start() {
final Channel serverChannel = bootstrap.bind(localSocket);
ALL_CHANNELS.add(serverChannel);
started.set(true);
if (bootstrapFlashPolicy != null) {
bootstrapFlashPolicy.bind(localPolicySocket);
}
}
@Override
public void dispose() {
try {
openChannels.close().awaitUninterruptibly();
} finally {
channelFactory.releaseExternalResources();
}
LOG.info("web server stopped");
}
public void start(final boolean localOnly, final boolean anyAddress) {
log.info("Starting proxy on port: " + this.port);
this.stopped.set(false);
final HttpServerPipelineFactory factory =
new HttpServerPipelineFactory(
authenticationManager,
this.allChannels,
this.chainProxyManager,
this.ksm,
new DefaultRelayPipelineFactoryFactory(
chainProxyManager,
this.responseFilters,
this.requestFilter,
this.allChannels,
timer),
timer,
this.clientChannelFactory,
this.cacheManager);
serverBootstrap.setPipelineFactory(factory);
// Binding only to localhost can significantly improve the security of
// the proxy.
InetSocketAddress isa;
if (localOnly) {
isa = new InetSocketAddress("127.0.0.1", port);
} else if (anyAddress) {
isa = new InetSocketAddress(port);
} else {
try {
isa = new InetSocketAddress(NetworkUtils.getLocalHost(), port);
} catch (final UnknownHostException e) {
log.error("Could not get local host?", e);
isa = new InetSocketAddress(port);
}
}
final Channel channel = serverBootstrap.bind(isa);
allChannels.add(channel);
Runtime.getRuntime()
.addShutdownHook(
new Thread(
new Runnable() {
public void run() {
stop();
}
}));
/*
final ServerBootstrap sslBootstrap = new ServerBootstrap(
new NioServerSocketChannelFactory(
newServerThreadPool(),
newServerThreadPool()));
sslBootstrap.setPipelineFactory(new HttpsServerPipelineFactory());
sslBootstrap.bind(new InetSocketAddress("127.0.0.1", 8443));
*/
}
/**
* Shutdown this client and close all open connections. The client should be discarded after
* calling shutdown.
*/
public void shutdown() {
for (Channel c : channels) {
ChannelPipeline pipeline = c.getPipeline();
RedisAsyncConnection<?, ?> connection = pipeline.get(RedisAsyncConnection.class);
connection.close();
}
ChannelGroupFuture future = channels.close();
future.awaitUninterruptibly();
bootstrap.releaseExternalResources();
}
@Override
public void channelClosed(ChannelHandlerContext ctx, ChannelStateEvent e) throws Exception {
super.channelClosed(ctx, e);
if (!ctx.getChannel().isOpen()) {
tryToFinishOffChannel(ctx.getChannel());
}
channelGroup.remove(e.getChannel());
}
@Override
public void sendLoadMetrics(Map<Integer, Double> taskToLoad) {
try {
MessageBatch mb = new MessageBatch(1);
mb.add(new TaskMessage(-1, _ser.serialize(Arrays.asList((Object) taskToLoad))));
allChannels.write(mb);
} catch (IOException e) {
throw new RuntimeException(e);
}
}
public void stop() {
try {
myScheduler.shutdown();
myBuildsExecutor.shutdown();
final ChannelGroupFuture closeFuture = myAllOpenChannels.close();
closeFuture.awaitUninterruptibly();
} finally {
myChannelFactory.releaseExternalResources();
}
}
public void start(int listenPort) {
final ServerBootstrap bootstrap = new ServerBootstrap(myChannelFactory);
bootstrap.setPipelineFactory(myPipelineFactory);
bootstrap.setOption("child.tcpNoDelay", true);
bootstrap.setOption("child.keepAlive", true);
final Channel serverChannel = bootstrap.bind(new InetSocketAddress(listenPort));
myAllOpenChannels.add(serverChannel);
startActivityMonitor();
}
public void close() throws IOException {
ChannelGroupFuture f = group.close().awaitUninterruptibly();
if (!f.isCompleteSuccess()) {
for (ChannelFuture future : f) {
if (!future.isSuccess()) {
throw new IOException(future.getCause());
}
}
}
bootstrap.releaseExternalResources();
}
/** Start the network manager. */
public void start() throws Exception {
if (!started.compareAndSet(false, true)) {
throw new IllegalStateException("You already started the server!");
}
logger.info("Network manager starting!");
bootstrap = serverBootstrapProvider.get();
channelFactory = channelFactoryProvider.get();
allChannels.add(bootstrap.bind(serverAddress));
}
// IDEA-91436 idea <121 binds to 127.0.0.1, but >=121 must be available not only from localhost
// but if we bind only to any local port (0.0.0.0), instance of idea <121 can bind to our ports
// and any request to us will be intercepted
// so, we bind to 127.0.0.1 and 0.0.0.0
private int bind(int firstPort, int portsCount, boolean tryAnyPort, ServerBootstrap bootstrap) {
InetAddress localAddress;
try {
localAddress = InetAddress.getByName("127.0.0.1");
} catch (UnknownHostException e) {
LOG.error(e);
return -1;
}
for (int i = 0; i < portsCount; i++) {
int port = firstPort + i;
try {
openChannels.add(bootstrap.bind(new InetSocketAddress(localAddress, port)));
return port;
} catch (ChannelException e) {
if (!openChannels.isEmpty()) {
openChannels.close();
openChannels.clear();
}
if (portsCount == 1) {
throw e;
} else if (!tryAnyPort && i == (portsCount - 1)) {
LOG.error(e);
}
}
}
if (tryAnyPort) {
LOG.info("We cannot bind to our default range, so, try to bind to any free port");
try {
Channel channel = bootstrap.bind(new InetSocketAddress(localAddress, 0));
openChannels.add(channel);
return ((InetSocketAddress) channel.getLocalAddress()).getPort();
} catch (ChannelException e) {
LOG.error(e);
}
}
return -1;
}
@SuppressWarnings("rawtypes")
Server(Map storm_conf, int port) {
this.storm_conf = storm_conf;
this.port = port;
_ser = new KryoValuesSerializer(storm_conf);
// Configure the server.
int buffer_size = Utils.getInt(storm_conf.get(Config.STORM_MESSAGING_NETTY_BUFFER_SIZE));
int backlog = Utils.getInt(storm_conf.get(Config.STORM_MESSAGING_NETTY_SOCKET_BACKLOG), 500);
int maxWorkers =
Utils.getInt(storm_conf.get(Config.STORM_MESSAGING_NETTY_SERVER_WORKER_THREADS));
ThreadFactory bossFactory = new NettyRenameThreadFactory(netty_name() + "-boss");
ThreadFactory workerFactory = new NettyRenameThreadFactory(netty_name() + "-worker");
if (maxWorkers > 0) {
factory =
new NioServerSocketChannelFactory(
Executors.newCachedThreadPool(bossFactory),
Executors.newCachedThreadPool(workerFactory),
maxWorkers);
} else {
factory =
new NioServerSocketChannelFactory(
Executors.newCachedThreadPool(bossFactory),
Executors.newCachedThreadPool(workerFactory));
}
LOG.info(
"Create Netty Server "
+ netty_name()
+ ", buffer_size: "
+ buffer_size
+ ", maxWorkers: "
+ maxWorkers);
bootstrap = new ServerBootstrap(factory);
bootstrap.setOption("child.tcpNoDelay", true);
bootstrap.setOption("child.receiveBufferSize", buffer_size);
bootstrap.setOption("child.keepAlive", true);
bootstrap.setOption("backlog", backlog);
// Set up the pipeline factory.
bootstrap.setPipelineFactory(new StormServerPipelineFactory(this));
// Bind and start to accept incoming connections.
Channel channel = bootstrap.bind(new InetSocketAddress(port));
allChannels.add(channel);
}
/**
* The last call in the building of a RestExpress server, bind() causes Netty to bind to the
* listening address and process incoming messages.
*
* @return Channel
*/
public Channel bind(int port) {
setPort(port);
// Configure the server.
if (getIoThreadCount() == 0) {
bootstrap = Bootstraps.createServerNioBootstrap();
} else {
bootstrap = Bootstraps.createServerNioBootstrap(getIoThreadCount());
}
// Set up the event pipeline factory.
DefaultRequestHandler requestHandler =
new DefaultRequestHandler(createRouteResolver(), createResponseProcessorResolver());
// Add MessageObservers to the request handler here, if desired...
requestHandler.addMessageObserver(messageObservers.toArray(new MessageObserver[0]));
requestHandler.setExceptionMap(exceptionMap);
// Add pre/post processors to the request handler here...
addPreprocessors(requestHandler);
addPostprocessors(requestHandler);
addFinallyProcessors(requestHandler);
PipelineBuilder pf =
new PipelineBuilder()
.addRequestHandler(requestHandler)
.setMaxContentLength(serverSettings.getMaxContentSize());
if (getExecutorThreadCount() > 0) {
ExecutionHandler executionHandler =
new ExecutionHandler(
new OrderedMemoryAwareThreadPoolExecutor(getExecutorThreadCount(), 0, 0));
pf.setExecutionHandler(executionHandler);
}
bootstrap.setPipelineFactory(pf);
setBootstrapOptions();
// Bind and start to accept incoming connections.
if (shouldUseSystemOut()) {
System.out.println("Starting " + getName() + " Server on port " + port);
}
Channel channel = bootstrap.bind(new InetSocketAddress(port));
allChannels.add(channel);
bindPlugins();
return channel;
}
@Override
public void start(final boolean localOnly, final boolean anyAddress) {
final int port = getPort();
log.debug("Starting proxy on port: " + port);
final HttpServerPipelineFactory factory =
new StatsTrackingHttpServerPipelineFactory(
authenticationManager,
this.allChannels,
this.chainProxyManager,
new StatsTrackingDefaultRelayPipelineFactoryFactory(
chainProxyManager,
this.responseFilters,
this.requestFilter,
this.allChannels,
this.timer),
this.clientChannelFactory,
this.timer,
this.handshakeHandlerFactory);
serverBootstrap.setPipelineFactory(factory);
// Binding only to localhost can significantly improve the security of
// the proxy.
InetSocketAddress isa;
if (localOnly) {
isa = new InetSocketAddress("127.0.0.1", port);
} else if (anyAddress) {
isa = new InetSocketAddress(port);
} else {
try {
isa = new InetSocketAddress(NetworkUtils.getLocalHost(), port);
} catch (final UnknownHostException e) {
log.error("Could not get local host?", e);
isa = new InetSocketAddress(port);
}
}
final Channel channel = serverBootstrap.bind(isa);
allChannels.add(channel);
Runtime.getRuntime()
.addShutdownHook(
new Thread(
new Runnable() {
@Override
public void run() {
stop();
}
}));
log.debug("Started " + this);
}
@Override
public synchronized void stop() {
try {
accepted.close().awaitUninterruptibly(10, TimeUnit.SECONDS);
ServerBootstrap bootstrap = new ServerBootstrap(selector);
bootstrap.releaseExternalResources();
pipelineFact.destroy();
localFS.close();
} catch (Throwable t) {
LOG.error(t);
} finally {
super.stop();
}
}
@Override
public void stop() throws Throwable {
// Close all open connections
shuttingDown = true;
targetCallExecutor.shutdown();
targetCallExecutor.awaitTermination(10, TimeUnit.SECONDS);
unfinishedTransactionExecutor.shutdown();
unfinishedTransactionExecutor.awaitTermination(10, TimeUnit.SECONDS);
silentChannelExecutor.shutdown();
silentChannelExecutor.awaitTermination(10, TimeUnit.SECONDS);
channelGroup.close().awaitUninterruptibly();
bootstrap.releaseExternalResources();
}
public void stop() {
try {
for (ChannelFutureListener listener : closingListeners) {
try {
listener.operationComplete(null);
} catch (Exception e) {
LOG.error(e);
}
}
} finally {
try {
openChannels.close().awaitUninterruptibly();
} finally {
channelFactory.releaseExternalResources();
}
}
}
// TODO change AbstractService to throw InterruptedException
@Override
public synchronized void start() {
Configuration conf = getConfig();
ServerBootstrap bootstrap = new ServerBootstrap(selector);
try {
pipelineFact = new HttpPipelineFactory(conf);
} catch (Exception ex) {
throw new RuntimeException(ex);
}
bootstrap.setPipelineFactory(pipelineFact);
port = conf.getInt(ConfVars.PULLSERVER_PORT.varname, ConfVars.PULLSERVER_PORT.defaultIntVal);
Channel ch = bootstrap.bind(new InetSocketAddress(port));
accepted.add(ch);
port = ((InetSocketAddress) ch.getLocalAddress()).getPort();
conf.set(ConfVars.PULLSERVER_PORT.varname, Integer.toString(port));
pipelineFact.PullServer.setPort(port);
LOG.info(getName() + " listening on port " + port);
super.start();
sslFileBufferSize =
conf.getInt(SUFFLE_SSL_FILE_BUFFER_SIZE_KEY, DEFAULT_SUFFLE_SSL_FILE_BUFFER_SIZE);
}
