聊聊flink的RpcService

本文主要研究一下flink的RpcService

RpcService

flink-release-1.7.2/flink-runtime/src/main/java/org/apache/flink/runtime/rpc/RpcService.java

public interface RpcService {

	String getAddress();

	int getPort();

	 CompletableFuture connect(
		String address,
		Class clazz);

	> CompletableFuture connect(
		String address,
		F fencingToken,
		Class clazz);

	 RpcServer startServer(C rpcEndpoint);

	 RpcServer fenceRpcServer(RpcServer rpcServer, F fencingToken);

	void stopServer(RpcServer selfGateway);

	CompletableFuture stopService();

	CompletableFuture getTerminationFuture();

	Executor getExecutor();

	ScheduledExecutor getScheduledExecutor();

	ScheduledFuture scheduleRunnable(Runnable runnable, long delay, TimeUnit unit);

	void execute(Runnable runnable);

	 CompletableFuture execute(Callable callable);
}
复制代码
  • RpcService用于连接到一个远程的rpc server,或者启动一个rpc server来转发远程调用到rpcEndpoint;它提供了connect、startServer、fenceRpcServer、stopServer、stopService、getTerminationFuture、scheduleRunnable、execute等方法

AkkaRpcService

flink-release-1.7.2/flink-runtime/src/main/java/org/apache/flink/runtime/rpc/akka/AkkaRpcService.java

@ThreadSafe
public class AkkaRpcService implements RpcService {

	private static final Logger LOG = LoggerFactory.getLogger(AkkaRpcService.class);

	static final int VERSION = 1;

	static final String MAXIMUM_FRAME_SIZE_PATH = "akka.remote.netty.tcp.maximum-frame-size";

	private final Object lock = new Object();

	private final ActorSystem actorSystem;
	private final Time timeout;

	@GuardedBy("lock")
	private final Map actors = new HashMap<>(4);

	private final long maximumFramesize;

	private final String address;
	private final int port;

	private final ScheduledExecutor internalScheduledExecutor;

	private final CompletableFuture terminationFuture;

	private volatile boolean stopped;

	public AkkaRpcService(final ActorSystem actorSystem, final Time timeout) {
		this.actorSystem = checkNotNull(actorSystem, "actor system");
		this.timeout = checkNotNull(timeout, "timeout");

		if (actorSystem.settings().config().hasPath(MAXIMUM_FRAME_SIZE_PATH)) {
			maximumFramesize = actorSystem.settings().config().getBytes(MAXIMUM_FRAME_SIZE_PATH);
		} else {
			// only local communication
			maximumFramesize = Long.MAX_VALUE;
		}

		Address actorSystemAddress = AkkaUtils.getAddress(actorSystem);

		if (actorSystemAddress.host().isDefined()) {
			address = actorSystemAddress.host().get();
		} else {
			address = "";
		}

		if (actorSystemAddress.port().isDefined()) {
			port = (Integer) actorSystemAddress.port().get();
		} else {
			port = -1;
		}

		internalScheduledExecutor = new ActorSystemScheduledExecutorAdapter(actorSystem);

		terminationFuture = new CompletableFuture<>();

		stopped = false;
	}

	public ActorSystem getActorSystem() {
		return actorSystem;
	}

	protected int getVersion() {
		return VERSION;
	}

	@Override
	public String getAddress() {
		return address;
	}

	@Override
	public int getPort() {
		return port;
	}

	// this method does not mutate state and is thus thread-safe
	@Override
	public  CompletableFuture connect(
			final String address,
			final Class clazz) {

		return connectInternal(
			address,
			clazz,
			(ActorRef actorRef) -> {
				Tuple2 addressHostname = extractAddressHostname(actorRef);

				return new AkkaInvocationHandler(
					addressHostname.f0,
					addressHostname.f1,
					actorRef,
					timeout,
					maximumFramesize,
					null);
			});
	}

	// this method does not mutate state and is thus thread-safe
	@Override
	public > CompletableFuture connect(String address, F fencingToken, Class clazz) {
		return connectInternal(
			address,
			clazz,
			(ActorRef actorRef) -> {
				Tuple2 addressHostname = extractAddressHostname(actorRef);

				return new FencedAkkaInvocationHandler<>(
					addressHostname.f0,
					addressHostname.f1,
					actorRef,
					timeout,
					maximumFramesize,
					null,
					() -> fencingToken);
			});
	}

	@Override
	public  RpcServer startServer(C rpcEndpoint) {
		checkNotNull(rpcEndpoint, "rpc endpoint");

		CompletableFuture terminationFuture = new CompletableFuture<>();
		final Props akkaRpcActorProps;

		if (rpcEndpoint instanceof FencedRpcEndpoint) {
			akkaRpcActorProps = Props.create(FencedAkkaRpcActor.class, rpcEndpoint, terminationFuture, getVersion());
		} else {
			akkaRpcActorProps = Props.create(AkkaRpcActor.class, rpcEndpoint, terminationFuture, getVersion());
		}

		ActorRef actorRef;

		synchronized (lock) {
			checkState(!stopped, "RpcService is stopped");
			actorRef = actorSystem.actorOf(akkaRpcActorProps, rpcEndpoint.getEndpointId());
			actors.put(actorRef, rpcEndpoint);
		}

		LOG.info("Starting RPC endpoint for {} at {} .", rpcEndpoint.getClass().getName(), actorRef.path());

		final String akkaAddress = AkkaUtils.getAkkaURL(actorSystem, actorRef);
		final String hostname;
		Option host = actorRef.path().address().host();
		if (host.isEmpty()) {
			hostname = "localhost";
		} else {
			hostname = host.get();
		}

		Set> implementedRpcGateways = new HashSet<>(RpcUtils.extractImplementedRpcGateways(rpcEndpoint.getClass()));

		implementedRpcGateways.add(RpcServer.class);
		implementedRpcGateways.add(AkkaBasedEndpoint.class);

		final InvocationHandler akkaInvocationHandler;

		if (rpcEndpoint instanceof FencedRpcEndpoint) {
			// a FencedRpcEndpoint needs a FencedAkkaInvocationHandler
			akkaInvocationHandler = new FencedAkkaInvocationHandler<>(
				akkaAddress,
				hostname,
				actorRef,
				timeout,
				maximumFramesize,
				terminationFuture,
				((FencedRpcEndpoint) rpcEndpoint)::getFencingToken);

			implementedRpcGateways.add(FencedMainThreadExecutable.class);
		} else {
			akkaInvocationHandler = new AkkaInvocationHandler(
				akkaAddress,
				hostname,
				actorRef,
				timeout,
				maximumFramesize,
				terminationFuture);
		}

		// Rather than using the System ClassLoader directly, we derive the ClassLoader
		// from this class . That works better in cases where Flink runs embedded and all Flink
		// code is loaded dynamically (for example from an OSGI bundle) through a custom ClassLoader
		ClassLoader classLoader = getClass().getClassLoader();

		@SuppressWarnings("unchecked")
		RpcServer server = (RpcServer) Proxy.newProxyInstance(
			classLoader,
			implementedRpcGateways.toArray(new Class[implementedRpcGateways.size()]),
			akkaInvocationHandler);

		return server;
	}

	@Override
	public  RpcServer fenceRpcServer(RpcServer rpcServer, F fencingToken) {
		if (rpcServer instanceof AkkaBasedEndpoint) {

			InvocationHandler fencedInvocationHandler = new FencedAkkaInvocationHandler<>(
				rpcServer.getAddress(),
				rpcServer.getHostname(),
				((AkkaBasedEndpoint) rpcServer).getActorRef(),
				timeout,
				maximumFramesize,
				null,
				() -> fencingToken);

			// Rather than using the System ClassLoader directly, we derive the ClassLoader
			// from this class . That works better in cases where Flink runs embedded and all Flink
			// code is loaded dynamically (for example from an OSGI bundle) through a custom ClassLoader
			ClassLoader classLoader = getClass().getClassLoader();

			return (RpcServer) Proxy.newProxyInstance(
				classLoader,
				new Class[]{RpcServer.class, AkkaBasedEndpoint.class},
				fencedInvocationHandler);
		} else {
			throw new RuntimeException("The given RpcServer must implement the AkkaGateway in order to fence it.");
		}
	}

	@Override
	public void stopServer(RpcServer selfGateway) {
		if (selfGateway instanceof AkkaBasedEndpoint) {
			final AkkaBasedEndpoint akkaClient = (AkkaBasedEndpoint) selfGateway;
			final RpcEndpoint rpcEndpoint;

			synchronized (lock) {
				if (stopped) {
					return;
				} else {
					rpcEndpoint = actors.remove(akkaClient.getActorRef());
				}
			}

			if (rpcEndpoint != null) {
				akkaClient.getActorRef().tell(PoisonPill.getInstance(), ActorRef.noSender());
			} else {
				LOG.debug("RPC endpoint {} already stopped or from different RPC service", selfGateway.getAddress());
			}
		}
	}

	@Override
	public CompletableFuture stopService() {
		synchronized (lock) {
			if (stopped) {
				return terminationFuture;
			}

			stopped = true;
		}

		LOG.info("Stopping Akka RPC service.");

		final CompletableFuture actorSystemTerminationFuture = FutureUtils.toJava(actorSystem.terminate());

		actorSystemTerminationFuture.whenComplete(
			(Terminated ignored, Throwable throwable) -> {
				synchronized (lock) {
					actors.clear();
				}

				if (throwable != null) {
					terminationFuture.completeExceptionally(throwable);
				} else {
					terminationFuture.complete(null);
				}

				LOG.info("Stopped Akka RPC service.");
			});

		return terminationFuture;
	}

	@Override
	public CompletableFuture getTerminationFuture() {
		return terminationFuture;
	}

	@Override
	public Executor getExecutor() {
		return actorSystem.dispatcher();
	}

	@Override
	public ScheduledExecutor getScheduledExecutor() {
		return internalScheduledExecutor;
	}

	@Override
	public ScheduledFuture scheduleRunnable(Runnable runnable, long delay, TimeUnit unit) {
		checkNotNull(runnable, "runnable");
		checkNotNull(unit, "unit");
		checkArgument(delay >= 0L, "delay must be zero or larger");

		return internalScheduledExecutor.schedule(runnable, delay, unit);
	}

	@Override
	public void execute(Runnable runnable) {
		actorSystem.dispatcher().execute(runnable);
	}

	@Override
	public  CompletableFuture execute(Callable callable) {
		Future scalaFuture = Futures.future(callable, actorSystem.dispatcher());

		return FutureUtils.toJava(scalaFuture);
	}

	private  CompletableFuture connectInternal(
			final String address,
			final Class clazz,
			Function invocationHandlerFactory) {
		checkState(!stopped, "RpcService is stopped");

		LOG.debug("Try to connect to remote RPC endpoint with address {}. Returning a {} gateway.",
			address, clazz.getName());

		final ActorSelection actorSel = actorSystem.actorSelection(address);

		final Future identify = Patterns
			.ask(actorSel, new Identify(42), timeout.toMilliseconds())
			.mapTo(ClassTag$.MODULE$.apply(ActorIdentity.class));

		final CompletableFuture identifyFuture = FutureUtils.toJava(identify);

		final CompletableFuture actorRefFuture = identifyFuture.thenApply(
			(ActorIdentity actorIdentity) -> {
				if (actorIdentity.getRef() == null) {
					throw new CompletionException(new RpcConnectionException("Could not connect to rpc endpoint under address " + address + '.'));
				} else {
					return actorIdentity.getRef();
				}
			});

		final CompletableFuture handshakeFuture = actorRefFuture.thenCompose(
			(ActorRef actorRef) -> FutureUtils.toJava(
				Patterns
					.ask(actorRef, new RemoteHandshakeMessage(clazz, getVersion()), timeout.toMilliseconds())
					.mapTo(ClassTag$.MODULE$.apply(HandshakeSuccessMessage.class))));

		return actorRefFuture.thenCombineAsync(
			handshakeFuture,
			(ActorRef actorRef, HandshakeSuccessMessage ignored) -> {
				InvocationHandler invocationHandler = invocationHandlerFactory.apply(actorRef);

				// Rather than using the System ClassLoader directly, we derive the ClassLoader
				// from this class . That works better in cases where Flink runs embedded and all Flink
				// code is loaded dynamically (for example from an OSGI bundle) through a custom ClassLoader
				ClassLoader classLoader = getClass().getClassLoader();

				@SuppressWarnings("unchecked")
				C proxy = (C) Proxy.newProxyInstance(
					classLoader,
					new Class[]{clazz},
					invocationHandler);

				return proxy;
			},
			actorSystem.dispatcher());
	}

	//......
}
复制代码
  • AkkaRpcService实现了RpcService接口,其构造器要求传入actorSystem及timeout参数;connect方法会创建一个AkkaInvocationHandler或者FencedAkkaInvocationHandler,然后调用connectInternal方法使用akka进行连接
  • startServer方法会利用actorSystem创建ActorRef,然后创建AkkaInvocationHandler或者FencedAkkaInvocationHandler,最后使用Proxy.newProxyInstance创建RpcServer;stopServer方法会使用PoisonPill来终止actor;stopService用于终止当前的RpcService,它会执行actorSystem.terminate()
  • fenceRpcServer方法用于根据指定的fencingToken重新使用代理创建新的RpcServer;execute方法使用的是actorSystem.dispatcher()来调度执行;scheduleRunnable方法则使用的是ActorSystemScheduledExecutorAdapter来进行调度

小结

  • RpcService用于连接到一个远程的rpc server,或者启动一个rpc server来转发远程调用到rpcEndpoint;它提供了connect、startServer、fenceRpcServer、stopServer、stopService、getTerminationFuture、scheduleRunnable、execute等方法
  • AkkaRpcService实现了RpcService接口,它的connect方法会创建一个AkkaInvocationHandler或者FencedAkkaInvocationHandler,然后调用connectInternal方法使用akka进行连接
  • AkkaRpcService的startServer方法会利用actorSystem创建ActorRef,然后创建AkkaInvocationHandler或者FencedAkkaInvocationHandler,最后使用Proxy.newProxyInstance创建RpcServer;stopServer方法会使用PoisonPill来终止actor;stopService用于终止当前的RpcService,它会执行actorSystem.terminate()

doc

  • RpcService

转载于:https://juejin.im/post/5c871c1ae51d45192c4a7609

你可能感兴趣的:(大数据,runtime,网络)