protocols/p4runtime/ctl/src/main/java/org/onosproject/p4runtime/ctl/P4RuntimeClientImpl.java - onos - Gitiles

 /*
  * Copyright 2017-present Open Networking Laboratory
  *
  * 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 org.onosproject.p4runtime.ctl;

 import com.google.common.collect.ImmutableMap;
 import com.google.protobuf.ByteString;
 import io.grpc.Context;
 import io.grpc.ManagedChannel;
 import io.grpc.Status;
 import io.grpc.StatusRuntimeException;
 import io.grpc.stub.StreamObserver;
 import org.onlab.osgi.DefaultServiceDirectory;
 import org.onosproject.net.DeviceId;
 import org.onosproject.net.pi.model.PiPipeconf;
 import org.onosproject.net.pi.runtime.PiPacketOperation;
 import org.onosproject.net.pi.runtime.PiPipeconfService;
 import org.onosproject.net.pi.runtime.PiTableEntry;
 import org.onosproject.net.pi.runtime.PiTableId;
 import org.onosproject.p4runtime.api.P4RuntimeClient;
 import org.onosproject.p4runtime.api.P4RuntimeEvent;
 import org.slf4j.Logger;
 import p4.P4RuntimeGrpc;
 import p4.P4RuntimeOuterClass.Entity;
 import p4.P4RuntimeOuterClass.ForwardingPipelineConfig;
 import p4.P4RuntimeOuterClass.MasterArbitrationUpdate;
 import p4.P4RuntimeOuterClass.PacketIn;
 import p4.P4RuntimeOuterClass.ReadRequest;
 import p4.P4RuntimeOuterClass.ReadResponse;
 import p4.P4RuntimeOuterClass.SetForwardingPipelineConfigRequest;
 import p4.P4RuntimeOuterClass.StreamMessageRequest;
 import p4.P4RuntimeOuterClass.StreamMessageResponse;
 import p4.P4RuntimeOuterClass.TableEntry;
 import p4.P4RuntimeOuterClass.Uint128;
 import p4.P4RuntimeOuterClass.Update;
 import p4.P4RuntimeOuterClass.WriteRequest;
 import p4.config.P4InfoOuterClass.P4Info;
 import p4.tmp.P4Config;

 import java.io.IOException;
 import java.io.InputStream;
 import java.util.Collection;
 import java.util.Collections;
 import java.util.Iterator;
 import java.util.List;
 import java.util.Map;
 import java.util.concurrent.CompletableFuture;
 import java.util.concurrent.Executor;
 import java.util.concurrent.ExecutorService;
 import java.util.concurrent.Executors;
 import java.util.concurrent.TimeUnit;
 import java.util.concurrent.locks.Lock;
 import java.util.concurrent.locks.ReentrantLock;
 import java.util.function.Supplier;
 import java.util.stream.Collectors;
 import java.util.stream.StreamSupport;

 import static org.onlab.util.Tools.groupedThreads;
 import static org.onosproject.net.pi.model.PiPipeconf.ExtensionType;
 import static org.slf4j.LoggerFactory.getLogger;
 import static p4.P4RuntimeOuterClass.Entity.EntityCase.TABLE_ENTRY;
 import static p4.P4RuntimeOuterClass.PacketOut;
 import static p4.P4RuntimeOuterClass.SetForwardingPipelineConfigRequest.Action.VERIFY_AND_COMMIT;

 /**
  * Implementation of a P4Runtime client.
  */
 public final class P4RuntimeClientImpl implements P4RuntimeClient {

     private static final int DEADLINE_SECONDS = 15;

     // FIXME: use static election ID, since mastership arbitration is not yet support on BMv2 or Tofino.
     private static final int ELECTION_ID = 1;

     private static final Map<WriteOperationType, Update.Type> UPDATE_TYPES = ImmutableMap.of(
             WriteOperationType.UNSPECIFIED, Update.Type.UNSPECIFIED,
             WriteOperationType.INSERT, Update.Type.INSERT,
             WriteOperationType.MODIFY, Update.Type.MODIFY,
             WriteOperationType.DELETE, Update.Type.DELETE
     );

     private final Logger log = getLogger(getClass());

     private final DeviceId deviceId;
     private final int p4DeviceId;
     private final P4RuntimeControllerImpl controller;
     private final P4RuntimeGrpc.P4RuntimeBlockingStub blockingStub;
     private final Context.CancellableContext cancellableContext;
     private final ExecutorService executorService;
     private final Executor contextExecutor;
     private final Lock writeLock = new ReentrantLock();
     private final StreamObserver<StreamMessageRequest> streamRequestObserver;


     P4RuntimeClientImpl(DeviceId deviceId, int p4DeviceId, ManagedChannel channel, P4RuntimeControllerImpl controller) {
         this.deviceId = deviceId;
         this.p4DeviceId = p4DeviceId;
         this.controller = controller;
         this.cancellableContext = Context.current().withCancellation();
         this.executorService = Executors.newFixedThreadPool(15, groupedThreads(
                 "onos/p4runtime-client-" + deviceId.toString(),
                 deviceId.toString() + "-%d"));
         this.contextExecutor = this.cancellableContext.fixedContextExecutor(executorService);
         this.blockingStub = P4RuntimeGrpc.newBlockingStub(channel)
                 .withDeadlineAfter(DEADLINE_SECONDS, TimeUnit.SECONDS);
         P4RuntimeGrpc.P4RuntimeStub asyncStub = P4RuntimeGrpc.newStub(channel);
         this.streamRequestObserver = asyncStub.streamChannel(new StreamChannelResponseObserver());
     }

     /**
      * Executes the given task (supplier) in the gRPC context executor of this client, such that if the context is
      * cancelled (e.g. client shutdown) the RPC is automatically cancelled.
      * <p>
      * Important: Tasks submitted in parallel by different threads are forced executed sequentially.
      * <p>
      */
     private <U> CompletableFuture<U> supplyInContext(Supplier<U> supplier) {
         return CompletableFuture.supplyAsync(() -> {
             // TODO: explore a more relaxed locking strategy.
             writeLock.lock();
             try {
                 return supplier.get();
             } catch (Throwable ex) {
                 log.error("Exception in P4Runtime client of {}", deviceId, ex);
                 throw ex;
             } finally {
                 writeLock.unlock();
             }
         }, contextExecutor);
     }

     @Override
     public CompletableFuture<Boolean> initStreamChannel() {
         return supplyInContext(this::doInitStreamChannel);
     }

     @Override
     public CompletableFuture<Boolean> setPipelineConfig(PiPipeconf pipeconf, ExtensionType targetConfigExtType) {
         return supplyInContext(() -> doSetPipelineConfig(pipeconf, targetConfigExtType));
     }

     @Override
     public CompletableFuture<Boolean> writeTableEntries(Collection<PiTableEntry> piTableEntries,
                                                         WriteOperationType opType, PiPipeconf pipeconf) {
         return supplyInContext(() -> doWriteTableEntries(piTableEntries, opType, pipeconf));
     }

     @Override
     public CompletableFuture<Collection<PiTableEntry>> dumpTable(PiTableId piTableId, PiPipeconf pipeconf) {
         return supplyInContext(() -> doDumpTable(piTableId, pipeconf));
     }

     @Override
     public CompletableFuture<Boolean> packetOut(PiPacketOperation packet, PiPipeconf pipeconf) {
         return supplyInContext(() -> doPacketOut(packet, pipeconf));
     }

     /* Blocking method implementations below */

     private boolean doInitStreamChannel() {
         // To listen for packets and other events, we need to start the RPC.
         // Here we do it by sending a master arbitration update.
         log.info("initializing stream chanel on {}...", deviceId);
         if (!doArbitrationUpdate()) {
             log.warn("Unable to initialize stream channel for {}", deviceId);
             return false;
         } else {
             return true;
         }
     }

     private boolean doArbitrationUpdate() {
         log.info("Sending arbitration update to {}...", deviceId);
         StreamMessageRequest requestMsg = StreamMessageRequest.newBuilder()
                 .setArbitration(MasterArbitrationUpdate.newBuilder()
                                         .setDeviceId(p4DeviceId)
                                         .build())
                 .build();
         try {
             streamRequestObserver.onNext(requestMsg);
             return true;
         } catch (StatusRuntimeException e) {
             log.warn("Arbitration update failed for {}: {}", deviceId, e);
             return false;
         }
     }

     private boolean doSetPipelineConfig(PiPipeconf pipeconf, ExtensionType targetConfigExtType) {

         log.info("Setting pipeline config for {} to {} using {}...", deviceId, pipeconf.id(), targetConfigExtType);

         P4Info p4Info = PipeconfHelper.getP4Info(pipeconf);
         if (p4Info == null) {
             // Problem logged by PipeconfHelper.
             return false;
         }

         if (!pipeconf.extension(targetConfigExtType).isPresent()) {
             log.warn("Missing extension {} in pipeconf {}", targetConfigExtType, pipeconf.id());
             return false;
         }

         InputStream targetConfig = pipeconf.extension(targetConfigExtType).get();
         P4Config.P4DeviceConfig p4DeviceConfigMsg;
         try {
             p4DeviceConfigMsg = P4Config.P4DeviceConfig
                     .newBuilder()
                     .setExtras(P4Config.P4DeviceConfig.Extras.getDefaultInstance())
                     .setReassign(true)
                     .setDeviceData(ByteString.readFrom(targetConfig))
                     .build();
         } catch (IOException ex) {
             log.warn("Unable to load target-specific config for {}: {}", deviceId, ex.getMessage());
             return false;
         }

         SetForwardingPipelineConfigRequest request = SetForwardingPipelineConfigRequest
                 .newBuilder()
                 .setAction(VERIFY_AND_COMMIT)
                 .addConfigs(ForwardingPipelineConfig
                                     .newBuilder()
                                     .setDeviceId(p4DeviceId)
                                     .setP4Info(p4Info)
                                     .setP4DeviceConfig(p4DeviceConfigMsg.toByteString())
                                     .build())
                 .build();

         try {
             this.blockingStub.setForwardingPipelineConfig(request);

         } catch (StatusRuntimeException ex) {
             log.warn("Unable to set pipeline config for {}: {}", deviceId, ex.getMessage());
             return false;
         }

         return true;
     }

     private boolean doWriteTableEntries(Collection<PiTableEntry> piTableEntries, WriteOperationType opType,
                                         PiPipeconf pipeconf) {

         WriteRequest.Builder writeRequestBuilder = WriteRequest.newBuilder();

         Collection<Update> updateMsgs = TableEntryEncoder.encode(piTableEntries, pipeconf)
                 .stream()
                 .map(tableEntryMsg ->
                              Update.newBuilder()
                                      .setEntity(Entity.newBuilder()
                                                         .setTableEntry(tableEntryMsg)
                                                         .build())
                                      .setType(UPDATE_TYPES.get(opType))
                                      .build())
                 .collect(Collectors.toList());

         if (updateMsgs.size() == 0) {
             return true;
         }

         writeRequestBuilder
                 .setDeviceId(p4DeviceId)
                 .setElectionId(Uint128.newBuilder()
                                        .setHigh(0)
                                        .setLow(ELECTION_ID)
                                        .build())
                 .addAllUpdates(updateMsgs)
                 .build();

         try {
             blockingStub.write(writeRequestBuilder.build());
             return true;
         } catch (StatusRuntimeException e) {
             log.warn("Unable to write table entries ({}): {}", opType, e.getMessage());
             return false;
         }
     }

     private Collection<PiTableEntry> doDumpTable(PiTableId piTableId, PiPipeconf pipeconf) {

         log.info("Dumping table {} from {} (pipeconf {})...", piTableId, deviceId, pipeconf.id());

         P4InfoBrowser browser = PipeconfHelper.getP4InfoBrowser(pipeconf);
         int tableId;
         try {
             tableId = browser.tables().getByName(piTableId.id()).getPreamble().getId();
         } catch (P4InfoBrowser.NotFoundException e) {
             log.warn("Unable to dump table: {}", e.getMessage());
             return Collections.emptyList();
         }

         ReadRequest requestMsg = ReadRequest.newBuilder()
                 .setDeviceId(p4DeviceId)
                 .addEntities(Entity.newBuilder()
                                      .setTableEntry(TableEntry.newBuilder()
                                                             .setTableId(tableId)
                                                             .build())
                                      .build())
                 .build();

         Iterator<ReadResponse> responses;
         try {
             responses = blockingStub.read(requestMsg);
         } catch (StatusRuntimeException e) {
             log.warn("Unable to dump table: {}", e.getMessage());
             return Collections.emptyList();
         }

         Iterable<ReadResponse> responseIterable = () -> responses;
         List<TableEntry> tableEntryMsgs = StreamSupport
                 .stream(responseIterable.spliterator(), false)
                 .map(ReadResponse::getEntitiesList)
                 .flatMap(List::stream)
                 .filter(entity -> entity.getEntityCase() == TABLE_ENTRY)
                 .map(Entity::getTableEntry)
                 .collect(Collectors.toList());

         log.info("Retrieved {} entries from table {} on {}...", tableEntryMsgs.size(), piTableId, deviceId);

         return TableEntryEncoder.decode(tableEntryMsgs, pipeconf);
     }

     private boolean doPacketOut(PiPacketOperation packet, PiPipeconf pipeconf) {
         try {
             //encode the PiPacketOperation into a PacketOut
             PacketOut packetOut = PacketIOCodec.encodePacketOut(packet, pipeconf);

             //Build the request
             StreamMessageRequest packetOutRequest = StreamMessageRequest
                     .newBuilder().setPacket(packetOut).build();

             //Send the request
             streamRequestObserver.onNext(packetOutRequest);

         } catch (P4InfoBrowser.NotFoundException e) {
             log.error("Cant find expected metadata in p4Info file. {}", e.getMessage());
             log.debug("Exception", e);
             return false;
         }
         return true;
     }

     private void doPacketIn(PacketIn packetInMsg) {

         // Retrieve the pipeconf for this client's device.
         PiPipeconfService pipeconfService = DefaultServiceDirectory.getService(PiPipeconfService.class);
         if (pipeconfService == null) {
             throw new IllegalStateException("PiPipeconfService is null. Can't handle packet in.");
         }
         final PiPipeconf pipeconf;
         if (pipeconfService.ofDevice(deviceId).isPresent() &&
                 pipeconfService.getPipeconf(pipeconfService.ofDevice(deviceId).get()).isPresent()) {
             pipeconf = pipeconfService.getPipeconf(pipeconfService.ofDevice(deviceId).get()).get();
         } else {
             log.warn("Unable to get pipeconf of {}. Can't handle packet in", deviceId);
             return;
         }
         // Decode packet message and post event.
         P4RuntimeEvent event = new DefaultPacketInEvent(deviceId, PacketIOCodec.decodePacketIn(packetInMsg, pipeconf));
         log.debug("Received packet in: {}", event);
         controller.postEvent(event);
     }

     private void doArbitrationUpdateFromDevice(MasterArbitrationUpdate arbitrationMsg) {

         log.warn("Received arbitration update from {} (NOT IMPLEMENTED YET): {}", deviceId, arbitrationMsg);
     }

     /**
      * Returns the internal P4 device ID associated with this client.
      *
      * @return P4 device ID
      */
     public int p4DeviceId() {
         return p4DeviceId;
     }

     /**
      * For testing purpose only. TODO: remove before release.
      *
      * @return blocking stub
      */
     public P4RuntimeGrpc.P4RuntimeBlockingStub blockingStub() {
         return this.blockingStub;
     }


     @Override
     public void shutdown() {

         log.info("Shutting down client for {}...", deviceId);

         writeLock.lock();
         try {
             if (streamRequestObserver != null) {
                 streamRequestObserver.onCompleted();
                 cancellableContext.cancel(new InterruptedException("Requested client shutdown"));
             }

             this.executorService.shutdown();
             try {
                 executorService.awaitTermination(5, TimeUnit.SECONDS);
             } catch (InterruptedException e) {
                 log.warn("Executor service didn't shutdown in time.");
             }
         } finally {
             writeLock.unlock();
         }
     }

     /**
      * Handles messages received from the device on the stream channel.
      */
     private class StreamChannelResponseObserver implements StreamObserver<StreamMessageResponse> {

         @Override
         public void onNext(StreamMessageResponse message) {
             executorService.submit(() -> doNext(message));
         }

         private void doNext(StreamMessageResponse message) {
             try {
                 log.info("Received message on stream channel from {}: {}", deviceId, message.getUpdateCase());
                 switch (message.getUpdateCase()) {
                     case PACKET:
                         // Packet-in
                         doPacketIn(message.getPacket());
                         return;
                     case ARBITRATION:
                         doArbitrationUpdateFromDevice(message.getArbitration());
                         return;
                     default:
                         log.warn("Unrecognized stream message from {}: {}", deviceId, message.getUpdateCase());
                 }
             } catch (Throwable ex) {
                 log.error("Exception while processing stream channel message from {}", deviceId, ex);
             }
         }

         @Override
         public void onError(Throwable throwable) {
             log.warn("Error on stream channel for {}: {}", deviceId, Status.fromThrowable(throwable));
             // FIXME: we might want to recreate the channel.
             // In general, we want to be robust against any transient error and, if the channel is open, make sure the
             // stream channel is always on.
         }

         @Override
         public void onCompleted() {
             log.warn("Stream channel for {} has completed", deviceId);
             // FIXME: same concern as before.
         }
     }
 }
	/*
	* Copyright 2017-present Open Networking Laboratory
	*
	* 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 org.onosproject.p4runtime.ctl;

	import com.google.common.collect.ImmutableMap;
	import com.google.protobuf.ByteString;
	import io.grpc.Context;
	import io.grpc.ManagedChannel;
	import io.grpc.Status;
	import io.grpc.StatusRuntimeException;
	import io.grpc.stub.StreamObserver;
	import org.onlab.osgi.DefaultServiceDirectory;
	import org.onosproject.net.DeviceId;
	import org.onosproject.net.pi.model.PiPipeconf;
	import org.onosproject.net.pi.runtime.PiPacketOperation;
	import org.onosproject.net.pi.runtime.PiPipeconfService;
	import org.onosproject.net.pi.runtime.PiTableEntry;
	import org.onosproject.net.pi.runtime.PiTableId;
	import org.onosproject.p4runtime.api.P4RuntimeClient;
	import org.onosproject.p4runtime.api.P4RuntimeEvent;
	import org.slf4j.Logger;
	import p4.P4RuntimeGrpc;
	import p4.P4RuntimeOuterClass.Entity;
	import p4.P4RuntimeOuterClass.ForwardingPipelineConfig;
	import p4.P4RuntimeOuterClass.MasterArbitrationUpdate;
	import p4.P4RuntimeOuterClass.PacketIn;
	import p4.P4RuntimeOuterClass.ReadRequest;
	import p4.P4RuntimeOuterClass.ReadResponse;
	import p4.P4RuntimeOuterClass.SetForwardingPipelineConfigRequest;
	import p4.P4RuntimeOuterClass.StreamMessageRequest;
	import p4.P4RuntimeOuterClass.StreamMessageResponse;
	import p4.P4RuntimeOuterClass.TableEntry;
	import p4.P4RuntimeOuterClass.Uint128;
	import p4.P4RuntimeOuterClass.Update;
	import p4.P4RuntimeOuterClass.WriteRequest;
	import p4.config.P4InfoOuterClass.P4Info;
	import p4.tmp.P4Config;

	import java.io.IOException;
	import java.io.InputStream;
	import java.util.Collection;
	import java.util.Collections;
	import java.util.Iterator;
	import java.util.List;
	import java.util.Map;
	import java.util.concurrent.CompletableFuture;
	import java.util.concurrent.Executor;
	import java.util.concurrent.ExecutorService;
	import java.util.concurrent.Executors;
	import java.util.concurrent.TimeUnit;
	import java.util.concurrent.locks.Lock;
	import java.util.concurrent.locks.ReentrantLock;
	import java.util.function.Supplier;
	import java.util.stream.Collectors;
	import java.util.stream.StreamSupport;

	import static org.onlab.util.Tools.groupedThreads;
	import static org.onosproject.net.pi.model.PiPipeconf.ExtensionType;
	import static org.slf4j.LoggerFactory.getLogger;
	import static p4.P4RuntimeOuterClass.Entity.EntityCase.TABLE_ENTRY;
	import static p4.P4RuntimeOuterClass.PacketOut;
	import static p4.P4RuntimeOuterClass.SetForwardingPipelineConfigRequest.Action.VERIFY_AND_COMMIT;

	/**
	* Implementation of a P4Runtime client.
	*/
	public final class P4RuntimeClientImpl implements P4RuntimeClient {

	private static final int DEADLINE_SECONDS = 15;

	// FIXME: use static election ID, since mastership arbitration is not yet support on BMv2 or Tofino.
	private static final int ELECTION_ID = 1;

	private static final Map<WriteOperationType, Update.Type> UPDATE_TYPES = ImmutableMap.of(
	WriteOperationType.UNSPECIFIED, Update.Type.UNSPECIFIED,
	WriteOperationType.INSERT, Update.Type.INSERT,
	WriteOperationType.MODIFY, Update.Type.MODIFY,
	WriteOperationType.DELETE, Update.Type.DELETE
	);

	private final Logger log = getLogger(getClass());

	private final DeviceId deviceId;
	private final int p4DeviceId;
	private final P4RuntimeControllerImpl controller;
	private final P4RuntimeGrpc.P4RuntimeBlockingStub blockingStub;
	private final Context.CancellableContext cancellableContext;
	private final ExecutorService executorService;
	private final Executor contextExecutor;
	private final Lock writeLock = new ReentrantLock();
	private final StreamObserver<StreamMessageRequest> streamRequestObserver;


	P4RuntimeClientImpl(DeviceId deviceId, int p4DeviceId, ManagedChannel channel, P4RuntimeControllerImpl controller) {
	this.deviceId = deviceId;
	this.p4DeviceId = p4DeviceId;
	this.controller = controller;
	this.cancellableContext = Context.current().withCancellation();
	this.executorService = Executors.newFixedThreadPool(15, groupedThreads(
	"onos/p4runtime-client-" + deviceId.toString(),
	deviceId.toString() + "-%d"));
	this.contextExecutor = this.cancellableContext.fixedContextExecutor(executorService);
	this.blockingStub = P4RuntimeGrpc.newBlockingStub(channel)
	.withDeadlineAfter(DEADLINE_SECONDS, TimeUnit.SECONDS);
	P4RuntimeGrpc.P4RuntimeStub asyncStub = P4RuntimeGrpc.newStub(channel);
	this.streamRequestObserver = asyncStub.streamChannel(new StreamChannelResponseObserver());
	}

	/**
	* Executes the given task (supplier) in the gRPC context executor of this client, such that if the context is
	* cancelled (e.g. client shutdown) the RPC is automatically cancelled.
	* <p>
	* Important: Tasks submitted in parallel by different threads are forced executed sequentially.
	* <p>
	*/
	private <U> CompletableFuture<U> supplyInContext(Supplier<U> supplier) {
	return CompletableFuture.supplyAsync(() -> {
	// TODO: explore a more relaxed locking strategy.
	writeLock.lock();
	try {
	return supplier.get();
	} catch (Throwable ex) {
	log.error("Exception in P4Runtime client of {}", deviceId, ex);
	throw ex;
	} finally {
	writeLock.unlock();
	}
	}, contextExecutor);
	}

	@Override
	public CompletableFuture<Boolean> initStreamChannel() {
	return supplyInContext(this::doInitStreamChannel);
	}

	@Override
	public CompletableFuture<Boolean> setPipelineConfig(PiPipeconf pipeconf, ExtensionType targetConfigExtType) {
	return supplyInContext(() -> doSetPipelineConfig(pipeconf, targetConfigExtType));
	}

	@Override
	public CompletableFuture<Boolean> writeTableEntries(Collection<PiTableEntry> piTableEntries,
	WriteOperationType opType, PiPipeconf pipeconf) {
	return supplyInContext(() -> doWriteTableEntries(piTableEntries, opType, pipeconf));
	}

	@Override
	public CompletableFuture<Collection<PiTableEntry>> dumpTable(PiTableId piTableId, PiPipeconf pipeconf) {
	return supplyInContext(() -> doDumpTable(piTableId, pipeconf));
	}

	@Override
	public CompletableFuture<Boolean> packetOut(PiPacketOperation packet, PiPipeconf pipeconf) {
	return supplyInContext(() -> doPacketOut(packet, pipeconf));
	}

	/* Blocking method implementations below */

	private boolean doInitStreamChannel() {
	// To listen for packets and other events, we need to start the RPC.
	// Here we do it by sending a master arbitration update.
	log.info("initializing stream chanel on {}...", deviceId);
	if (!doArbitrationUpdate()) {
	log.warn("Unable to initialize stream channel for {}", deviceId);
	return false;
	} else {
	return true;
	}
	}

	private boolean doArbitrationUpdate() {
	log.info("Sending arbitration update to {}...", deviceId);
	StreamMessageRequest requestMsg = StreamMessageRequest.newBuilder()
	.setArbitration(MasterArbitrationUpdate.newBuilder()
	.setDeviceId(p4DeviceId)
	.build())
	.build();
	try {
	streamRequestObserver.onNext(requestMsg);
	return true;
	} catch (StatusRuntimeException e) {
	log.warn("Arbitration update failed for {}: {}", deviceId, e);
	return false;
	}
	}

	private boolean doSetPipelineConfig(PiPipeconf pipeconf, ExtensionType targetConfigExtType) {

	log.info("Setting pipeline config for {} to {} using {}...", deviceId, pipeconf.id(), targetConfigExtType);

	P4Info p4Info = PipeconfHelper.getP4Info(pipeconf);
	if (p4Info == null) {
	// Problem logged by PipeconfHelper.
	return false;
	}

	if (!pipeconf.extension(targetConfigExtType).isPresent()) {
	log.warn("Missing extension {} in pipeconf {}", targetConfigExtType, pipeconf.id());
	return false;
	}

	InputStream targetConfig = pipeconf.extension(targetConfigExtType).get();
	P4Config.P4DeviceConfig p4DeviceConfigMsg;
	try {
	p4DeviceConfigMsg = P4Config.P4DeviceConfig
	.newBuilder()
	.setExtras(P4Config.P4DeviceConfig.Extras.getDefaultInstance())
	.setReassign(true)
	.setDeviceData(ByteString.readFrom(targetConfig))
	.build();
	} catch (IOException ex) {
	log.warn("Unable to load target-specific config for {}: {}", deviceId, ex.getMessage());
	return false;
	}

	SetForwardingPipelineConfigRequest request = SetForwardingPipelineConfigRequest
	.newBuilder()
	.setAction(VERIFY_AND_COMMIT)
	.addConfigs(ForwardingPipelineConfig
	.newBuilder()
	.setDeviceId(p4DeviceId)
	.setP4Info(p4Info)
	.setP4DeviceConfig(p4DeviceConfigMsg.toByteString())
	.build())
	.build();

	try {
	this.blockingStub.setForwardingPipelineConfig(request);

	} catch (StatusRuntimeException ex) {
	log.warn("Unable to set pipeline config for {}: {}", deviceId, ex.getMessage());
	return false;
	}

	return true;
	}

	private boolean doWriteTableEntries(Collection<PiTableEntry> piTableEntries, WriteOperationType opType,
	PiPipeconf pipeconf) {

	WriteRequest.Builder writeRequestBuilder = WriteRequest.newBuilder();

	Collection<Update> updateMsgs = TableEntryEncoder.encode(piTableEntries, pipeconf)
	.stream()
	.map(tableEntryMsg ->
	Update.newBuilder()
	.setEntity(Entity.newBuilder()
	.setTableEntry(tableEntryMsg)
	.build())
	.setType(UPDATE_TYPES.get(opType))
	.build())
	.collect(Collectors.toList());

	if (updateMsgs.size() == 0) {
	return true;
	}

	writeRequestBuilder
	.setDeviceId(p4DeviceId)
	.setElectionId(Uint128.newBuilder()
	.setHigh(0)
	.setLow(ELECTION_ID)
	.build())
	.addAllUpdates(updateMsgs)
	.build();

	try {
	blockingStub.write(writeRequestBuilder.build());
	return true;
	} catch (StatusRuntimeException e) {
	log.warn("Unable to write table entries ({}): {}", opType, e.getMessage());
	return false;
	}
	}

	private Collection<PiTableEntry> doDumpTable(PiTableId piTableId, PiPipeconf pipeconf) {

	log.info("Dumping table {} from {} (pipeconf {})...", piTableId, deviceId, pipeconf.id());

	P4InfoBrowser browser = PipeconfHelper.getP4InfoBrowser(pipeconf);
	int tableId;
	try {
	tableId = browser.tables().getByName(piTableId.id()).getPreamble().getId();
	} catch (P4InfoBrowser.NotFoundException e) {
	log.warn("Unable to dump table: {}", e.getMessage());
	return Collections.emptyList();
	}

	ReadRequest requestMsg = ReadRequest.newBuilder()
	.setDeviceId(p4DeviceId)
	.addEntities(Entity.newBuilder()
	.setTableEntry(TableEntry.newBuilder()
	.setTableId(tableId)
	.build())
	.build())
	.build();

	Iterator<ReadResponse> responses;
	try {
	responses = blockingStub.read(requestMsg);
	} catch (StatusRuntimeException e) {
	log.warn("Unable to dump table: {}", e.getMessage());
	return Collections.emptyList();
	}

	Iterable<ReadResponse> responseIterable = () -> responses;
	List<TableEntry> tableEntryMsgs = StreamSupport
	.stream(responseIterable.spliterator(), false)
	.map(ReadResponse::getEntitiesList)
	.flatMap(List::stream)
	.filter(entity -> entity.getEntityCase() == TABLE_ENTRY)
	.map(Entity::getTableEntry)
	.collect(Collectors.toList());

	log.info("Retrieved {} entries from table {} on {}...", tableEntryMsgs.size(), piTableId, deviceId);

	return TableEntryEncoder.decode(tableEntryMsgs, pipeconf);
	}

	private boolean doPacketOut(PiPacketOperation packet, PiPipeconf pipeconf) {
	try {
	//encode the PiPacketOperation into a PacketOut
	PacketOut packetOut = PacketIOCodec.encodePacketOut(packet, pipeconf);

	//Build the request
	StreamMessageRequest packetOutRequest = StreamMessageRequest
	.newBuilder().setPacket(packetOut).build();

	//Send the request
	streamRequestObserver.onNext(packetOutRequest);

	} catch (P4InfoBrowser.NotFoundException e) {
	log.error("Cant find expected metadata in p4Info file. {}", e.getMessage());
	log.debug("Exception", e);
	return false;
	}
	return true;
	}

	private void doPacketIn(PacketIn packetInMsg) {

	// Retrieve the pipeconf for this client's device.
	PiPipeconfService pipeconfService = DefaultServiceDirectory.getService(PiPipeconfService.class);
	if (pipeconfService == null) {
	throw new IllegalStateException("PiPipeconfService is null. Can't handle packet in.");
	}
	final PiPipeconf pipeconf;
	if (pipeconfService.ofDevice(deviceId).isPresent() &&
	pipeconfService.getPipeconf(pipeconfService.ofDevice(deviceId).get()).isPresent()) {
	pipeconf = pipeconfService.getPipeconf(pipeconfService.ofDevice(deviceId).get()).get();
	} else {
	log.warn("Unable to get pipeconf of {}. Can't handle packet in", deviceId);
	return;
	}
	// Decode packet message and post event.
	P4RuntimeEvent event = new DefaultPacketInEvent(deviceId, PacketIOCodec.decodePacketIn(packetInMsg, pipeconf));
	log.debug("Received packet in: {}", event);
	controller.postEvent(event);
	}

	private void doArbitrationUpdateFromDevice(MasterArbitrationUpdate arbitrationMsg) {

	log.warn("Received arbitration update from {} (NOT IMPLEMENTED YET): {}", deviceId, arbitrationMsg);
	}

	/**
	* Returns the internal P4 device ID associated with this client.
	*
	* @return P4 device ID
	*/
	public int p4DeviceId() {
	return p4DeviceId;
	}

	/**
	* For testing purpose only. TODO: remove before release.
	*
	* @return blocking stub
	*/
	public P4RuntimeGrpc.P4RuntimeBlockingStub blockingStub() {
	return this.blockingStub;
	}


	@Override
	public void shutdown() {

	log.info("Shutting down client for {}...", deviceId);

	writeLock.lock();
	try {
	if (streamRequestObserver != null) {
	streamRequestObserver.onCompleted();
	cancellableContext.cancel(new InterruptedException("Requested client shutdown"));
	}

	this.executorService.shutdown();
	try {
	executorService.awaitTermination(5, TimeUnit.SECONDS);
	} catch (InterruptedException e) {
	log.warn("Executor service didn't shutdown in time.");
	}
	} finally {
	writeLock.unlock();
	}
	}

	/**
	* Handles messages received from the device on the stream channel.
	*/
	private class StreamChannelResponseObserver implements StreamObserver<StreamMessageResponse> {

	@Override
	public void onNext(StreamMessageResponse message) {
	executorService.submit(() -> doNext(message));
	}

	private void doNext(StreamMessageResponse message) {
	try {
	log.info("Received message on stream channel from {}: {}", deviceId, message.getUpdateCase());
	switch (message.getUpdateCase()) {
	case PACKET:
	// Packet-in
	doPacketIn(message.getPacket());
	return;
	case ARBITRATION:
	doArbitrationUpdateFromDevice(message.getArbitration());
	return;
	default:
	log.warn("Unrecognized stream message from {}: {}", deviceId, message.getUpdateCase());
	}
	} catch (Throwable ex) {
	log.error("Exception while processing stream channel message from {}", deviceId, ex);
	}
	}

	@Override
	public void onError(Throwable throwable) {
	log.warn("Error on stream channel for {}: {}", deviceId, Status.fromThrowable(throwable));
	// FIXME: we might want to recreate the channel.
	// In general, we want to be robust against any transient error and, if the channel is open, make sure the
	// stream channel is always on.
	}

	@Override
	public void onCompleted() {
	log.warn("Stream channel for {} has completed", deviceId);
	// FIXME: same concern as before.
	}
	}
	}