private static Sensor ThroughputAndLatencySensor(TaskId taskId, string storeType, string storeName, string metricName, string metricDescription, string descriptionOfRate, string descriptionOfAvg, string descriptionOfMax, MetricsRecordingLevel recordingLevel, StreamMetricsRegistry streamsMetrics) { Sensor sensor; string latencyMetricName = metricName + StreamMetricsRegistry.LATENCY_SUFFIX; IDictionary <string, string> tags = streamsMetrics.StoreLevelTags(GetThreadId(), taskId.ToString(), storeName, storeType); sensor = streamsMetrics.StoreLevelSensor(GetThreadId(), taskId, storeName, metricName, metricDescription, recordingLevel); SensorHelper.AddInvocationRateToSensor(sensor, StreamMetricsRegistry.STATE_STORE_LEVEL_GROUP, tags, metricName, descriptionOfRate); SensorHelper.AddAvgAndMaxToSensor( sensor, StreamMetricsRegistry.STATE_STORE_LEVEL_GROUP, tags, latencyMetricName, descriptionOfAvg, descriptionOfMax ); return(sensor); }
private static Sensor SizeOrCountSensor(TaskId taskId, string storeType, string storeName, string metricName, string metricDescription, string descriptionOfAvg, string descriptionOfMax, MetricsRecordingLevel recordingLevel, StreamMetricsRegistry streamsMetrics) { Sensor sensor = streamsMetrics.StoreLevelSensor( GetThreadId(), taskId, storeName, metricName, metricDescription, recordingLevel); string group; IDictionary <string, string> tags; group = StreamMetricsRegistry.STATE_STORE_LEVEL_GROUP; tags = streamsMetrics.StoreLevelTags(GetThreadId(), taskId.ToString(), storeName, storeType); SensorHelper.AddAvgAndMaxToSensor(sensor, group, tags, metricName, descriptionOfAvg, descriptionOfMax); return(sensor); }
private static Sensor ThroughputSensor(string threadId, TaskId taskId, string processorNodeId, string metricNamePrefix, string metricDescription, string descriptionOfRate, string descriptionOfCount, MetricsRecordingLevel recordingLevel, StreamMetricsRegistry metricsRegistry) { Sensor sensor = metricsRegistry.NodeLevelSensor(threadId, taskId, processorNodeId, metricNamePrefix, metricDescription, recordingLevel); var tags = metricsRegistry.NodeLevelTags(threadId, taskId.ToString(), processorNodeId); SensorHelper.AddInvocationRateAndCountToSensor( sensor, StreamMetricsRegistry.PROCESSOR_NODE_LEVEL_GROUP, tags, metricNamePrefix, descriptionOfRate, descriptionOfCount ); return(sensor); }
public static Sensor ProcessSensor(string threadId, TaskId taskId, StreamMetricsRegistry metricsRegistry) { Sensor sensor = metricsRegistry.TaskLevelSensor(threadId, taskId, PROCESS, PROCESS_DESCRIPTION, MetricsRecordingLevel.DEBUG); SensorHelper.AddInvocationRateAndCountToSensor( sensor, StreamMetricsRegistry.TASK_LEVEL_GROUP, metricsRegistry.TaskLevelTags(threadId, taskId.ToString()), PROCESS, PROCESS_RATE_DESCRIPTION, PROCESS_TOTAL_DESCRIPTION ); return(sensor); }
public static Sensor ActiveRestorationSensor(string threadId, TaskId taskId, StreamMetricsRegistry metricsRegistry) { Sensor sensor = metricsRegistry.TaskLevelSensor(threadId, taskId, ACTIVE_RESTORATION, ACTIVE_RESTORATION_DESCRIPTION, MetricsRecordingLevel.DEBUG); SensorHelper.AddValueMetricToSensor( sensor, StreamMetricsRegistry.TASK_LEVEL_GROUP, metricsRegistry.TaskLevelTags(threadId, taskId.ToString()), ACTIVE_RESTORATION, ACTIVE_RESTORATION_DESCRIPTION ); return(sensor); }
public static Sensor ActiveBufferedRecordsSensor( string threadId, TaskId taskId, StreamMetricsRegistry metricsRegistry) { string name = ACTIVE_TASK_PREFIX + BUFFER_COUNT; Sensor sensor = metricsRegistry.TaskLevelSensor(threadId, taskId, name, name, MetricsRecordingLevel.DEBUG); SensorHelper.AddValueMetricToSensor( sensor, StreamMetricsRegistry.TASK_LEVEL_GROUP, metricsRegistry.TaskLevelTags(threadId, taskId.ToString()), name, NUM_BUFFERED_RECORDS_DESCRIPTION ); return(sensor); }
private static Sensor InvocationRateAndCountSensor(string threadId, TaskId taskId, string metricName, string metricDescription, string descriptionOfRate, string descriptionOfCount, MetricsRecordingLevel recordingLevel, StreamMetricsRegistry streamsMetrics) { Sensor sensor = streamsMetrics.TaskLevelSensor(threadId, taskId, metricName, metricDescription, recordingLevel); SensorHelper.AddInvocationRateAndCountToSensor( sensor, StreamMetricsRegistry.TASK_LEVEL_GROUP, streamsMetrics.TaskLevelTags(threadId, taskId.ToString()), metricName, descriptionOfRate, descriptionOfCount ); return(sensor); }
private static Sensor AvgAndMaxSensor(string threadId, TaskId taskId, string metricName, string metricDescription, string descriptionOfAvg, string descriptionOfMax, MetricsRecordingLevel recordingLevel, StreamMetricsRegistry streamsMetrics) { Sensor sensor = streamsMetrics.TaskLevelSensor(threadId, taskId, metricName, metricDescription, recordingLevel); var tags = streamsMetrics.TaskLevelTags(threadId, taskId.ToString()); SensorHelper.AddAvgAndMaxToSensor( sensor, StreamMetricsRegistry.TASK_LEVEL_GROUP, tags, metricName, descriptionOfAvg, descriptionOfMax ); return(sensor); }
public static Sensor ExpiredWindowRecordDropSensor(TaskId taskId, string storeType, string storeName, StreamMetricsRegistry streamsMetrics) { Sensor sensor = streamsMetrics.StoreLevelSensor( GetThreadId(), taskId, storeName, EXPIRED_WINDOW_RECORD_DROP, EXPIRED_WINDOW_RECORD_DROP_DESCRIPTION, MetricsRecordingLevel.INFO ); SensorHelper.AddInvocationRateAndCountToSensor( sensor, "stream-" + storeType + "-metrics", streamsMetrics.StoreLevelTags(GetThreadId(), taskId.ToString(), storeName, storeType), EXPIRED_WINDOW_RECORD_DROP, EXPIRED_WINDOW_RECORD_DROP_RATE_DESCRIPTION, EXPIRED_WINDOW_RECORD_DROP_TOTAL_DESCRIPTION ); return(sensor); }