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/*
 * Copyright 2014 The gRPC Authors
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package io.grpc.internal;

import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import static com.google.common.util.concurrent.MoreExecutors.directExecutor;
import static io.grpc.Contexts.statusFromCancelled;
import static io.grpc.Status.DEADLINE_EXCEEDED;
import static io.grpc.internal.GrpcUtil.MESSAGE_ENCODING_KEY;
import static io.grpc.internal.GrpcUtil.TIMEOUT_KEY;
import static java.util.concurrent.TimeUnit.NANOSECONDS;

import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.MoreObjects;
import com.google.common.base.Preconditions;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.common.util.concurrent.SettableFuture;
import io.grpc.Attributes;
import io.grpc.BinaryLog;
import io.grpc.CompressorRegistry;
import io.grpc.Context;
import io.grpc.Deadline;
import io.grpc.Decompressor;
import io.grpc.DecompressorRegistry;
import io.grpc.HandlerRegistry;
import io.grpc.InternalChannelz;
import io.grpc.InternalChannelz.ServerStats;
import io.grpc.InternalChannelz.SocketStats;
import io.grpc.InternalInstrumented;
import io.grpc.InternalLogId;
import io.grpc.InternalServerInterceptors;
import io.grpc.Metadata;
import io.grpc.ServerCall;
import io.grpc.ServerCallExecutorSupplier;
import io.grpc.ServerCallHandler;
import io.grpc.ServerInterceptor;
import io.grpc.ServerMethodDefinition;
import io.grpc.ServerServiceDefinition;
import io.grpc.ServerTransportFilter;
import io.grpc.Status;
import io.perfmark.Link;
import io.perfmark.PerfMark;
import io.perfmark.Tag;
import java.io.IOException;
import java.io.InputStream;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.Executor;
import java.util.concurrent.Future;
import java.util.concurrent.FutureTask;
import java.util.concurrent.TimeUnit;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.annotation.concurrent.GuardedBy;

/**
 * Default implementation of {@link io.grpc.Server}, for creation by transports.
 *
 * 

Expected usage (by a theoretical TCP transport): *

public class TcpTransportServerFactory {
 *   public static Server newServer(Executor executor, HandlerRegistry registry,
 *       String configuration) {
 *     return new ServerImpl(executor, registry, new TcpTransportServer(configuration));
 *   }
 * }
* *

Starting the server starts the underlying transport for servicing requests. Stopping the * server stops servicing new requests and waits for all connections to terminate. */ public final class ServerImpl extends io.grpc.Server implements InternalInstrumented { private static final Logger log = Logger.getLogger(ServerImpl.class.getName()); private static final ServerStreamListener NOOP_LISTENER = new NoopListener(); private final InternalLogId logId; private final ObjectPool executorPool; /** Executor for application processing. Safe to read after {@link #start()}. */ private Executor executor; private final HandlerRegistry registry; private final HandlerRegistry fallbackRegistry; private final List transportFilters; // This is iterated on a per-call basis. Use an array instead of a Collection to avoid iterator // creations. private final ServerInterceptor[] interceptors; private final long handshakeTimeoutMillis; @GuardedBy("lock") private boolean started; @GuardedBy("lock") private boolean shutdown; /** non-{@code null} if immediate shutdown has been requested. */ @GuardedBy("lock") private Status shutdownNowStatus; /** {@code true} if ServerListenerImpl.serverShutdown() was called. */ @GuardedBy("lock") private boolean serverShutdownCallbackInvoked; @GuardedBy("lock") private boolean terminated; /** Service encapsulating something similar to an accept() socket. */ private final InternalServer transportServer; private final Object lock = new Object(); @GuardedBy("lock") private boolean transportServersTerminated; /** {@code transportServer} and services encapsulating something similar to a TCP connection. */ @GuardedBy("lock") private final Set transports = new HashSet<>(); private final Context rootContext; private final DecompressorRegistry decompressorRegistry; private final CompressorRegistry compressorRegistry; private final BinaryLog binlog; private final InternalChannelz channelz; private final CallTracer serverCallTracer; private final Deadline.Ticker ticker; private final ServerCallExecutorSupplier executorSupplier; /** * Construct a server. * * @param builder builder with configuration for server * @param transportServer transport servers that will create new incoming transports * @param rootContext context that callbacks for new RPCs should be derived from */ ServerImpl( ServerImplBuilder builder, InternalServer transportServer, Context rootContext) { this.executorPool = Preconditions.checkNotNull(builder.executorPool, "executorPool"); this.registry = Preconditions.checkNotNull(builder.registryBuilder.build(), "registryBuilder"); this.fallbackRegistry = Preconditions.checkNotNull(builder.fallbackRegistry, "fallbackRegistry"); this.transportServer = Preconditions.checkNotNull(transportServer, "transportServer"); this.logId = InternalLogId.allocate("Server", String.valueOf(getListenSocketsIgnoringLifecycle())); // Fork from the passed in context so that it does not propagate cancellation, it only // inherits values. this.rootContext = Preconditions.checkNotNull(rootContext, "rootContext").fork(); this.decompressorRegistry = builder.decompressorRegistry; this.compressorRegistry = builder.compressorRegistry; this.transportFilters = Collections.unmodifiableList( new ArrayList<>(builder.transportFilters)); this.interceptors = builder.interceptors.toArray(new ServerInterceptor[builder.interceptors.size()]); this.handshakeTimeoutMillis = builder.handshakeTimeoutMillis; this.binlog = builder.binlog; this.channelz = builder.channelz; this.serverCallTracer = builder.callTracerFactory.create(); this.ticker = checkNotNull(builder.ticker, "ticker"); channelz.addServer(this); this.executorSupplier = builder.executorSupplier; } /** * Bind and start the server. * * @return {@code this} object * @throws IllegalStateException if already started * @throws IOException if unable to bind */ @Override public ServerImpl start() throws IOException { synchronized (lock) { checkState(!started, "Already started"); checkState(!shutdown, "Shutting down"); // Start and wait for any ports to actually be bound. ServerListenerImpl listener = new ServerListenerImpl(); transportServer.start(listener); executor = Preconditions.checkNotNull(executorPool.getObject(), "executor"); started = true; return this; } } @Override public int getPort() { synchronized (lock) { checkState(started, "Not started"); checkState(!terminated, "Already terminated"); for (SocketAddress addr: transportServer.getListenSocketAddresses()) { if (addr instanceof InetSocketAddress) { return ((InetSocketAddress) addr).getPort(); } } return -1; } } @Override public List getListenSockets() { synchronized (lock) { checkState(started, "Not started"); checkState(!terminated, "Already terminated"); return getListenSocketsIgnoringLifecycle(); } } private List getListenSocketsIgnoringLifecycle() { synchronized (lock) { return Collections.unmodifiableList(transportServer.getListenSocketAddresses()); } } @Override public List getServices() { List fallbackServices = fallbackRegistry.getServices(); if (fallbackServices.isEmpty()) { return registry.getServices(); } else { List registryServices = registry.getServices(); int servicesCount = registryServices.size() + fallbackServices.size(); List services = new ArrayList<>(servicesCount); services.addAll(registryServices); services.addAll(fallbackServices); return Collections.unmodifiableList(services); } } @Override public List getImmutableServices() { return registry.getServices(); } @Override public List getMutableServices() { return Collections.unmodifiableList(fallbackRegistry.getServices()); } /** * Initiates an orderly shutdown in which preexisting calls continue but new calls are rejected. */ @Override public ServerImpl shutdown() { boolean shutdownTransportServers; synchronized (lock) { if (shutdown) { return this; } shutdown = true; shutdownTransportServers = started; if (!shutdownTransportServers) { transportServersTerminated = true; checkForTermination(); } } if (shutdownTransportServers) { transportServer.shutdown(); } return this; } @Override public ServerImpl shutdownNow() { shutdown(); Collection transportsCopy; Status nowStatus = Status.UNAVAILABLE.withDescription("Server shutdownNow invoked"); boolean savedServerShutdownCallbackInvoked; synchronized (lock) { // Short-circuiting not strictly necessary, but prevents transports from needing to handle // multiple shutdownNow invocations if shutdownNow is called multiple times. if (shutdownNowStatus != null) { return this; } shutdownNowStatus = nowStatus; transportsCopy = new ArrayList<>(transports); savedServerShutdownCallbackInvoked = serverShutdownCallbackInvoked; } // Short-circuiting not strictly necessary, but prevents transports from needing to handle // multiple shutdownNow invocations, between here and the serverShutdown callback. if (savedServerShutdownCallbackInvoked) { // Have to call shutdownNow, because serverShutdown callback only called shutdown, not // shutdownNow for (ServerTransport transport : transportsCopy) { transport.shutdownNow(nowStatus); } } return this; } @Override public boolean isShutdown() { synchronized (lock) { return shutdown; } } @Override public boolean awaitTermination(long timeout, TimeUnit unit) throws InterruptedException { synchronized (lock) { long timeoutNanos = unit.toNanos(timeout); long endTimeNanos = System.nanoTime() + timeoutNanos; while (!terminated && (timeoutNanos = endTimeNanos - System.nanoTime()) > 0) { NANOSECONDS.timedWait(lock, timeoutNanos); } return terminated; } } @Override public void awaitTermination() throws InterruptedException { synchronized (lock) { while (!terminated) { lock.wait(); } } } @Override public boolean isTerminated() { synchronized (lock) { return terminated; } } /** * Remove transport service from accounting collection and notify of complete shutdown if * necessary. * * @param transport service to remove */ private void transportClosed(ServerTransport transport) { synchronized (lock) { if (!transports.remove(transport)) { throw new AssertionError("Transport already removed"); } channelz.removeServerSocket(ServerImpl.this, transport); checkForTermination(); } } /** Notify of complete shutdown if necessary. */ private void checkForTermination() { synchronized (lock) { if (shutdown && transports.isEmpty() && transportServersTerminated) { if (terminated) { throw new AssertionError("Server already terminated"); } terminated = true; channelz.removeServer(this); if (executor != null) { executor = executorPool.returnObject(executor); } lock.notifyAll(); } } } private final class ServerListenerImpl implements ServerListener { @Override public ServerTransportListener transportCreated(ServerTransport transport) { synchronized (lock) { transports.add(transport); } ServerTransportListenerImpl stli = new ServerTransportListenerImpl(transport); stli.init(); return stli; } @Override public void serverShutdown() { ArrayList copiedTransports; Status shutdownNowStatusCopy; synchronized (lock) { if (serverShutdownCallbackInvoked) { return; } // transports collection can be modified during shutdown(), even if we hold the lock, due // to reentrancy. copiedTransports = new ArrayList<>(transports); shutdownNowStatusCopy = shutdownNowStatus; serverShutdownCallbackInvoked = true; } for (ServerTransport transport : copiedTransports) { if (shutdownNowStatusCopy == null) { transport.shutdown(); } else { transport.shutdownNow(shutdownNowStatusCopy); } } synchronized (lock) { transportServersTerminated = true; checkForTermination(); } } } private final class ServerTransportListenerImpl implements ServerTransportListener { private final ServerTransport transport; private Future handshakeTimeoutFuture; private Attributes attributes; ServerTransportListenerImpl(ServerTransport transport) { this.transport = transport; } public void init() { class TransportShutdownNow implements Runnable { @Override public void run() { transport.shutdownNow(Status.CANCELLED.withDescription("Handshake timeout exceeded")); } } if (handshakeTimeoutMillis != Long.MAX_VALUE) { handshakeTimeoutFuture = transport.getScheduledExecutorService() .schedule(new TransportShutdownNow(), handshakeTimeoutMillis, TimeUnit.MILLISECONDS); } else { // Noop, to avoid triggering Thread creation in InProcessServer handshakeTimeoutFuture = new FutureTask(new Runnable() { @Override public void run() {} }, null); } channelz.addServerSocket(ServerImpl.this, transport); } @Override public Attributes transportReady(Attributes attributes) { handshakeTimeoutFuture.cancel(false); handshakeTimeoutFuture = null; for (ServerTransportFilter filter : transportFilters) { attributes = Preconditions.checkNotNull(filter.transportReady(attributes), "Filter %s returned null", filter); } this.attributes = attributes; return attributes; } @Override public void transportTerminated() { if (handshakeTimeoutFuture != null) { handshakeTimeoutFuture.cancel(false); handshakeTimeoutFuture = null; } for (ServerTransportFilter filter : transportFilters) { filter.transportTerminated(attributes); } transportClosed(transport); } @Override public void streamCreated(ServerStream stream, String methodName, Metadata headers) { Tag tag = PerfMark.createTag(methodName, stream.streamId()); PerfMark.startTask("ServerTransportListener.streamCreated", tag); try { streamCreatedInternal(stream, methodName, headers, tag); } finally { PerfMark.stopTask("ServerTransportListener.streamCreated", tag); } } private void streamCreatedInternal( final ServerStream stream, final String methodName, final Metadata headers, final Tag tag) { final Executor wrappedExecutor; // This is a performance optimization that avoids the synchronization and queuing overhead // that comes with SerializingExecutor. if (executorSupplier != null || executor != directExecutor()) { wrappedExecutor = new SerializingExecutor(executor); } else { wrappedExecutor = new SerializeReentrantCallsDirectExecutor(); stream.optimizeForDirectExecutor(); } if (headers.containsKey(MESSAGE_ENCODING_KEY)) { String encoding = headers.get(MESSAGE_ENCODING_KEY); Decompressor decompressor = decompressorRegistry.lookupDecompressor(encoding); if (decompressor == null) { stream.setListener(NOOP_LISTENER); stream.close( Status.UNIMPLEMENTED.withDescription( String.format("Can't find decompressor for %s", encoding)), new Metadata()); return; } stream.setDecompressor(decompressor); } final StatsTraceContext statsTraceCtx = Preconditions.checkNotNull( stream.statsTraceContext(), "statsTraceCtx not present from stream"); final Context.CancellableContext context = createContext(headers, statsTraceCtx); final Link link = PerfMark.linkOut(); final JumpToApplicationThreadServerStreamListener jumpListener = new JumpToApplicationThreadServerStreamListener( wrappedExecutor, executor, stream, context, tag); stream.setListener(jumpListener); final SettableFuture> future = SettableFuture.create(); // Run in serializing executor so jumpListener.setListener() is called before any callbacks // are delivered, including any errors. MethodLookup() and HandleServerCall() are proactively // queued before any callbacks are queued at serializing executor. // MethodLookup() runs on the default executor. // When executorSupplier is enabled, MethodLookup() may set/change the executor in the // SerializingExecutor before it finishes running. // Then HandleServerCall() and callbacks would switch to the executorSupplier executor. // Otherwise, they all run on the default executor. final class MethodLookup extends ContextRunnable { MethodLookup() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerTransportListener$MethodLookup.startCall", tag); PerfMark.linkIn(link); try { runInternal(); } finally { PerfMark.stopTask("ServerTransportListener$MethodLookup.startCall", tag); } } private void runInternal() { ServerMethodDefinition wrapMethod; ServerCallParameters callParams; try { ServerMethodDefinition method = registry.lookupMethod(methodName); if (method == null) { method = fallbackRegistry.lookupMethod(methodName, stream.getAuthority()); } if (method == null) { Status status = Status.UNIMPLEMENTED.withDescription( "Method not found: " + methodName); // TODO(zhangkun83): this error may be recorded by the tracer, and if it's kept in // memory as a map whose key is the method name, this would allow a misbehaving // client to blow up the server in-memory stats storage by sending large number of // distinct unimplemented method // names. (https://github.com/grpc/grpc-java/issues/2285) jumpListener.setListener(NOOP_LISTENER); stream.close(status, new Metadata()); context.cancel(null); future.cancel(false); return; } wrapMethod = wrapMethod(stream, method, statsTraceCtx); callParams = maySwitchExecutor(wrapMethod, stream, headers, context, tag); future.set(callParams); } catch (Throwable t) { jumpListener.setListener(NOOP_LISTENER); stream.close(Status.fromThrowable(t), new Metadata()); context.cancel(null); future.cancel(false); throw t; } } private ServerCallParameters maySwitchExecutor( final ServerMethodDefinition methodDef, final ServerStream stream, final Metadata headers, final Context.CancellableContext context, final Tag tag) { final ServerCallImpl call = new ServerCallImpl<>( stream, methodDef.getMethodDescriptor(), headers, context, decompressorRegistry, compressorRegistry, serverCallTracer, tag); if (executorSupplier != null) { Executor switchingExecutor = executorSupplier.getExecutor(call, headers); if (switchingExecutor != null) { ((SerializingExecutor)wrappedExecutor).setExecutor(switchingExecutor); } } return new ServerCallParameters<>(call, methodDef.getServerCallHandler()); } } final class HandleServerCall extends ContextRunnable { HandleServerCall() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerTransportListener$HandleServerCall.startCall", tag); PerfMark.linkIn(link); try { runInternal(); } finally { PerfMark.stopTask("ServerTransportListener$HandleServerCall.startCall", tag); } } private void runInternal() { ServerStreamListener listener = NOOP_LISTENER; if (future.isCancelled()) { return; } try { listener = startWrappedCall(methodName, Futures.getDone(future), headers); } catch (Throwable ex) { stream.close(Status.fromThrowable(ex), new Metadata()); context.cancel(null); throw new IllegalStateException(ex); } finally { jumpListener.setListener(listener); } // An extremely short deadline may expire before stream.setListener(jumpListener). // This causes NPE as in issue: https://github.com/grpc/grpc-java/issues/6300 // Delay of setting cancellationListener to context will fix the issue. final class ServerStreamCancellationListener implements Context.CancellationListener { @Override public void cancelled(Context context) { Status status = statusFromCancelled(context); if (DEADLINE_EXCEEDED.getCode().equals(status.getCode())) { // This should rarely get run, since the client will likely cancel the stream // before the timeout is reached. stream.cancel(status); } } } context.addListener(new ServerStreamCancellationListener(), directExecutor()); } } wrappedExecutor.execute(new MethodLookup()); wrappedExecutor.execute(new HandleServerCall()); } private Context.CancellableContext createContext( Metadata headers, StatsTraceContext statsTraceCtx) { Long timeoutNanos = headers.get(TIMEOUT_KEY); Context baseContext = statsTraceCtx .serverFilterContext(rootContext) .withValue(io.grpc.InternalServer.SERVER_CONTEXT_KEY, ServerImpl.this); if (timeoutNanos == null) { return baseContext.withCancellation(); } Context.CancellableContext context = baseContext.withDeadline( Deadline.after(timeoutNanos, NANOSECONDS, ticker), transport.getScheduledExecutorService()); return context; } /** Never returns {@code null}. */ private ServerMethodDefinition wrapMethod(ServerStream stream, ServerMethodDefinition methodDef, StatsTraceContext statsTraceCtx) { // TODO(ejona86): should we update fullMethodName to have the canonical path of the method? statsTraceCtx.serverCallStarted( new ServerCallInfoImpl<>( methodDef.getMethodDescriptor(), // notify with original method descriptor stream.getAttributes(), stream.getAuthority())); ServerCallHandler handler = methodDef.getServerCallHandler(); for (ServerInterceptor interceptor : interceptors) { handler = InternalServerInterceptors.interceptCallHandlerCreate(interceptor, handler); } ServerMethodDefinition interceptedDef = methodDef.withServerCallHandler(handler); ServerMethodDefinition wMethodDef = binlog == null ? interceptedDef : binlog.wrapMethodDefinition(interceptedDef); return wMethodDef; } private final class ServerCallParameters { ServerCallImpl call; ServerCallHandler callHandler; public ServerCallParameters(ServerCallImpl call, ServerCallHandler callHandler) { this.call = call; this.callHandler = callHandler; } } private ServerStreamListener startWrappedCall( String fullMethodName, ServerCallParameters params, Metadata headers) { ServerCall.Listener callListener = params.callHandler.startCall(params.call, headers); if (callListener == null) { throw new NullPointerException( "startCall() returned a null listener for method " + fullMethodName); } return params.call.newServerStreamListener(callListener); } } @Override public InternalLogId getLogId() { return logId; } @Override public ListenableFuture getStats() { ServerStats.Builder builder = new ServerStats.Builder(); List> stats = transportServer.getListenSocketStatsList(); if (stats != null ) { builder.addListenSockets(stats); } serverCallTracer.updateBuilder(builder); SettableFuture ret = SettableFuture.create(); ret.set(builder.build()); return ret; } @Override public String toString() { return MoreObjects.toStringHelper(this) .add("logId", logId.getId()) .add("transportServer", transportServer) .toString(); } private static final class NoopListener implements ServerStreamListener { @Override public void messagesAvailable(MessageProducer producer) { InputStream message; while ((message = producer.next()) != null) { try { message.close(); } catch (IOException e) { // Close any remaining messages while ((message = producer.next()) != null) { try { message.close(); } catch (IOException ioException) { // just log additional exceptions as we are already going to throw log.log(Level.WARNING, "Exception closing stream", ioException); } } throw new RuntimeException(e); } } } @Override public void halfClosed() {} @Override public void closed(Status status) {} @Override public void onReady() {} } /** * Dispatches callbacks onto an application-provided executor and correctly propagates * exceptions. */ @VisibleForTesting static final class JumpToApplicationThreadServerStreamListener implements ServerStreamListener { private final Executor callExecutor; private final Executor cancelExecutor; private final Context.CancellableContext context; private final ServerStream stream; private final Tag tag; // Only accessed from callExecutor. private ServerStreamListener listener; public JumpToApplicationThreadServerStreamListener(Executor executor, Executor cancelExecutor, ServerStream stream, Context.CancellableContext context, Tag tag) { this.callExecutor = executor; this.cancelExecutor = cancelExecutor; this.stream = stream; this.context = context; this.tag = tag; } /** * This call MUST be serialized on callExecutor to avoid races. */ private ServerStreamListener getListener() { if (listener == null) { throw new IllegalStateException("listener unset"); } return listener; } @VisibleForTesting void setListener(ServerStreamListener listener) { Preconditions.checkNotNull(listener, "listener must not be null"); Preconditions.checkState(this.listener == null, "Listener already set"); this.listener = listener; } /** * Like {@link ServerCall#close(Status, Metadata)}, but thread-safe for internal use. */ private void internalClose(Throwable t) { // TODO(ejona86): this is not thread-safe :) stream.close(Status.UNKNOWN.withCause(t), new Metadata()); } @Override public void messagesAvailable(final MessageProducer producer) { PerfMark.startTask("ServerStreamListener.messagesAvailable", tag); final Link link = PerfMark.linkOut(); final class MessagesAvailable extends ContextRunnable { MessagesAvailable() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerCallListener(app).messagesAvailable", tag); PerfMark.linkIn(link); try { getListener().messagesAvailable(producer); } catch (Throwable t) { internalClose(t); throw t; } finally { PerfMark.stopTask("ServerCallListener(app).messagesAvailable", tag); } } } try { callExecutor.execute(new MessagesAvailable()); } finally { PerfMark.stopTask("ServerStreamListener.messagesAvailable", tag); } } @Override public void halfClosed() { PerfMark.startTask("ServerStreamListener.halfClosed", tag); final Link link = PerfMark.linkOut(); final class HalfClosed extends ContextRunnable { HalfClosed() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerCallListener(app).halfClosed", tag); PerfMark.linkIn(link); try { getListener().halfClosed(); } catch (Throwable t) { internalClose(t); throw t; } finally { PerfMark.stopTask("ServerCallListener(app).halfClosed", tag); } } } try { callExecutor.execute(new HalfClosed()); } finally { PerfMark.stopTask("ServerStreamListener.halfClosed", tag); } } @Override public void closed(final Status status) { PerfMark.startTask("ServerStreamListener.closed", tag); try { closedInternal(status); } finally { PerfMark.stopTask("ServerStreamListener.closed", tag); } } private void closedInternal(final Status status) { // For cancellations, promptly inform any users of the context that their work should be // aborted. Otherwise, we can wait until pending work is done. if (!status.isOk()) { // The callExecutor might be busy doing user work. To avoid waiting, use an executor that // is not serializing. cancelExecutor.execute(new ContextCloser(context, status.getCause())); } final Link link = PerfMark.linkOut(); final class Closed extends ContextRunnable { Closed() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerCallListener(app).closed", tag); PerfMark.linkIn(link); try { getListener().closed(status); } finally { PerfMark.stopTask("ServerCallListener(app).closed", tag); } } } callExecutor.execute(new Closed()); } @Override public void onReady() { PerfMark.startTask("ServerStreamListener.onReady", tag); final Link link = PerfMark.linkOut(); final class OnReady extends ContextRunnable { OnReady() { super(context); } @Override public void runInContext() { PerfMark.startTask("ServerCallListener(app).onReady", tag); PerfMark.linkIn(link); try { getListener().onReady(); } catch (Throwable t) { internalClose(t); throw t; } finally { PerfMark.stopTask("ServerCallListener(app).onReady", tag); } } } try { callExecutor.execute(new OnReady()); } finally { PerfMark.stopTask("ServerStreamListener.onReady", tag); } } } @VisibleForTesting static final class ContextCloser implements Runnable { private final Context.CancellableContext context; private final Throwable cause; ContextCloser(Context.CancellableContext context, Throwable cause) { this.context = context; this.cause = cause; } @Override public void run() { context.cancel(cause); } } }





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