public BoltInstance( PhysicalPlanHelper helper, Communicator<HeronTuples.HeronTupleSet> streamInQueue, Communicator<HeronTuples.HeronTupleSet> streamOutQueue, SlaveLooper looper) { super(helper, streamInQueue, streamOutQueue, looper); SystemConfig systemConfig = (SystemConfig) SingletonRegistry.INSTANCE.getSingleton(SystemConfig.HERON_SYSTEM_CONFIG); this.instanceExecuteBatchTime = systemConfig.getInstanceExecuteBatchTimeMs() * Constants.MILLISECONDS_TO_NANOSECONDS; this.instanceExecuteBatchSize = systemConfig.getInstanceExecuteBatchSizeBytes(); }
/** Construct a Gateway basing on given arguments */ public Gateway( String topologyName, String topologyId, PhysicalPlans.Instance instance, int streamPort, int metricsPort, final NIOLooper gatewayLooper, final Communicator<HeronTuples.HeronTupleSet> inStreamQueue, final Communicator<HeronTuples.HeronTupleSet> outStreamQueue, final Communicator<InstanceControlMsg> inControlQueue, final List<Communicator<Metrics.MetricPublisherPublishMessage>> outMetricsQueues) throws IOException { systemConfig = (SystemConfig) SingletonRegistry.INSTANCE.getSingleton(SystemConfig.HERON_SYSTEM_CONFIG); // New the client this.gatewayLooper = gatewayLooper; this.gatewayMetricsCollector = new MetricsCollector(gatewayLooper, outMetricsQueues.get(0)); // JVM Metrics are auto-sample metrics so we do not have to insert it inside singleton // since it should not be used in other places jvmMetrics = new JVMMetrics(); jvmMetrics.registerMetrics(gatewayMetricsCollector); // since we need to call its methods in a lot of classes gatewayMetrics = new GatewayMetrics(); gatewayMetrics.registerMetrics(gatewayMetricsCollector); // Init the ErrorReportHandler ErrorReportLoggingHandler.init( instance.getInstanceId(), gatewayMetricsCollector, systemConfig.getHeronMetricsExportIntervalSec(), systemConfig.getHeronMetricsMaxExceptionsPerMessageCount()); // Initialize the corresponding 2 socket clients with corresponding socket options HeronSocketOptions socketOptions = new HeronSocketOptions( systemConfig.getInstanceNetworkWriteBatchSizeBytes(), systemConfig.getInstanceNetworkWriteBatchTimeMs(), systemConfig.getInstanceNetworkReadBatchSizeBytes(), systemConfig.getInstanceNetworkReadBatchTimeMs(), systemConfig.getInstanceNetworkOptionsSocketSendBufferSizeBytes(), systemConfig.getInstanceNetworkOptionsSocketReceivedBufferSizeBytes()); this.streamManagerClient = new StreamManagerClient( gatewayLooper, STREAM_MGR_HOST, streamPort, topologyName, topologyId, instance, inStreamQueue, outStreamQueue, inControlQueue, socketOptions, gatewayMetrics); this.metricsManagerClient = new MetricsManagerClient( gatewayLooper, METRICS_MGR_HOST, metricsPort, instance, outMetricsQueues, socketOptions, gatewayMetrics); // Attach sample Runnable to gatewayMetricsCollector gatewayMetricsCollector.registerMetricSampleRunnable( jvmMetrics.getJVMSampleRunnable(), systemConfig.getInstanceMetricsSystemSampleIntervalSec()); Runnable sampleStreamQueuesSize = new Runnable() { @Override public void run() { gatewayMetrics.setInStreamQueueSize(inStreamQueue.size()); gatewayMetrics.setOutStreamQueueSize(outStreamQueue.size()); gatewayMetrics.setInStreamQueueExpectedCapacity( inStreamQueue.getExpectedAvailableCapacity()); gatewayMetrics.setOutStreamQueueExpectedCapacity( outStreamQueue.getExpectedAvailableCapacity()); } }; gatewayMetricsCollector.registerMetricSampleRunnable( sampleStreamQueuesSize, systemConfig.getInstanceMetricsSystemSampleIntervalSec()); final long instanceTuningIntervalMs = systemConfig.getInstanceTuningIntervalMs() * Constants.MILLISECONDS_TO_NANOSECONDS; // Attache Runnable to update the expected stream's expected available capacity Runnable tuningStreamQueueSize = new Runnable() { @Override public void run() { inStreamQueue.updateExpectedAvailableCapacity(); outStreamQueue.updateExpectedAvailableCapacity(); gatewayLooper.registerTimerEventInNanoSeconds(instanceTuningIntervalMs, this); } }; gatewayLooper.registerTimerEventInSeconds( systemConfig.getInstanceMetricsSystemSampleIntervalSec(), tuningStreamQueueSize); }