use of org.opensearch.ad.dataprocessor.SingleFeatureLinearUniformInterpolator in project anomaly-detection by opensearch-project.
the class FeatureManagerTests method setup.
@Before
public void setup() {
MockitoAnnotations.initMocks(this);
maxTrainSamples = 24;
maxSampleStride = 100;
trainSampleTimeRangeInHours = 1;
minTrainSamples = 4;
shingleSize = 3;
maxMissingPointsRate = 0.67;
maxNeighborDistance = 2;
previewSampleRate = 0.5;
maxPreviewSamples = 2;
featureBufferTtl = Duration.ofMillis(1_000L);
detectorId = "id";
when(detector.getDetectorId()).thenReturn(detectorId);
when(detector.getShingleSize()).thenReturn(shingleSize);
IntervalTimeConfiguration detectorIntervalTimeConfig = new IntervalTimeConfiguration(1, ChronoUnit.MINUTES);
intervalInMilliseconds = detectorIntervalTimeConfig.toDuration().toMillis();
when(detector.getDetectorIntervalInMilliseconds()).thenReturn(intervalInMilliseconds);
Interpolator interpolator = new LinearUniformInterpolator(new SingleFeatureLinearUniformInterpolator());
ExecutorService executorService = mock(ExecutorService.class);
when(threadPool.executor(AnomalyDetectorPlugin.AD_THREAD_POOL_NAME)).thenReturn(executorService);
doAnswer(invocation -> {
Runnable runnable = invocation.getArgument(0);
runnable.run();
return null;
}).when(executorService).execute(any(Runnable.class));
this.featureManager = spy(new FeatureManager(searchFeatureDao, interpolator, clock, maxTrainSamples, maxSampleStride, trainSampleTimeRangeInHours, minTrainSamples, maxMissingPointsRate, maxNeighborDistance, previewSampleRate, maxPreviewSamples, featureBufferTtl, threadPool, AnomalyDetectorPlugin.AD_THREAD_POOL_NAME));
}
use of org.opensearch.ad.dataprocessor.SingleFeatureLinearUniformInterpolator in project anomaly-detection by opensearch-project.
the class NoPowermockSearchFeatureDaoTests method setUp.
@Override
public void setUp() throws Exception {
super.setUp();
serviceField = "service";
hostField = "host";
detector = mock(AnomalyDetector.class);
when(detector.isMultientityDetector()).thenReturn(true);
when(detector.getCategoryField()).thenReturn(Arrays.asList(new String[] { serviceField, hostField }));
detectorId = "123";
when(detector.getDetectorId()).thenReturn(detectorId);
when(detector.getTimeField()).thenReturn("testTimeField");
when(detector.getIndices()).thenReturn(Arrays.asList("testIndices"));
IntervalTimeConfiguration detectionInterval = new IntervalTimeConfiguration(1, ChronoUnit.MINUTES);
when(detector.getDetectionInterval()).thenReturn(detectionInterval);
when(detector.getFilterQuery()).thenReturn(QueryBuilders.matchAllQuery());
client = mock(Client.class);
interpolator = new LinearUniformInterpolator(new SingleFeatureLinearUniformInterpolator());
clientUtil = mock(ClientUtil.class);
settings = Settings.EMPTY;
ClusterSettings clusterSettings = new ClusterSettings(Settings.EMPTY, Collections.unmodifiableSet(new HashSet<>(Arrays.asList(AnomalyDetectorSettings.MAX_ENTITIES_FOR_PREVIEW, AnomalyDetectorSettings.PAGE_SIZE))));
clusterService = mock(ClusterService.class);
when(clusterService.getClusterSettings()).thenReturn(clusterSettings);
clock = mock(Clock.class);
searchFeatureDao = new SearchFeatureDao(client, // Important. Without this, ParseUtils cannot parse anything
xContentRegistry(), interpolator, clientUtil, settings, clusterService, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE, clock, 1, 1, 60_000L);
String app0 = "app_0";
String server1 = "server_1";
attrs1 = new HashMap<>();
attrs1.put(serviceField, app0);
attrs1.put(hostField, server1);
String server2 = "server_2";
attrs1 = new HashMap<>();
attrs1.put(serviceField, app0);
attrs1.put(hostField, server2);
}
use of org.opensearch.ad.dataprocessor.SingleFeatureLinearUniformInterpolator in project anomaly-detection by opensearch-project.
the class SearchFeatureDaoTests method setup.
@Before
public void setup() throws Exception {
MockitoAnnotations.initMocks(this);
PowerMockito.mockStatic(ParseUtils.class);
interpolator = new LinearUniformInterpolator(new SingleFeatureLinearUniformInterpolator());
ExecutorService executorService = mock(ExecutorService.class);
when(threadPool.executor(AnomalyDetectorPlugin.AD_THREAD_POOL_NAME)).thenReturn(executorService);
doAnswer(invocation -> {
Runnable runnable = invocation.getArgument(0);
runnable.run();
return null;
}).when(executorService).execute(any(Runnable.class));
settings = Settings.EMPTY;
ClusterSettings clusterSettings = new ClusterSettings(Settings.EMPTY, Collections.unmodifiableSet(new HashSet<>(Arrays.asList(AnomalyDetectorSettings.MAX_ENTITIES_FOR_PREVIEW, AnomalyDetectorSettings.PAGE_SIZE))));
when(clusterService.getClusterSettings()).thenReturn(clusterSettings);
searchFeatureDao = spy(new SearchFeatureDao(client, xContent, interpolator, clientUtil, settings, clusterService, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE));
detectionInterval = new IntervalTimeConfiguration(1, ChronoUnit.MINUTES);
detectorId = "123";
when(detector.getDetectorId()).thenReturn(detectorId);
when(detector.getTimeField()).thenReturn("testTimeField");
when(detector.getIndices()).thenReturn(Arrays.asList("testIndices"));
when(detector.getDetectionInterval()).thenReturn(detectionInterval);
when(detector.getFilterQuery()).thenReturn(QueryBuilders.matchAllQuery());
when(detector.getCategoryField()).thenReturn(Collections.singletonList("a"));
searchSourceBuilder = SearchSourceBuilder.fromXContent(XContentType.JSON.xContent().createParser(xContent, LoggingDeprecationHandler.INSTANCE, "{}"));
searchRequest = new SearchRequest(detector.getIndices().toArray(new String[0]));
aggsMap = new HashMap<>();
when(max.getName()).thenReturn(CommonName.AGG_NAME_MAX_TIME);
List<Aggregation> list = new ArrayList<>();
list.add(max);
Aggregations aggregations = new Aggregations(list);
SearchHits hits = new SearchHits(new SearchHit[0], new TotalHits(1L, TotalHits.Relation.EQUAL_TO), 1f);
when(searchResponse.getHits()).thenReturn(hits);
doReturn(Optional.of(searchResponse)).when(clientUtil).timedRequest(eq(searchRequest), anyObject(), Matchers.<BiConsumer<SearchRequest, ActionListener<SearchResponse>>>anyObject());
when(searchResponse.getAggregations()).thenReturn(aggregations);
doReturn(Optional.of(searchResponse)).when(clientUtil).throttledTimedRequest(eq(searchRequest), anyObject(), Matchers.<BiConsumer<SearchRequest, ActionListener<SearchResponse>>>anyObject(), anyObject());
multiSearchRequest = new MultiSearchRequest();
SearchRequest request = new SearchRequest(detector.getIndices().toArray(new String[0]));
multiSearchRequest.add(request);
doReturn(Optional.of(multiSearchResponse)).when(clientUtil).timedRequest(eq(multiSearchRequest), anyObject(), Matchers.<BiConsumer<MultiSearchRequest, ActionListener<MultiSearchResponse>>>anyObject());
when(multiSearchResponse.getResponses()).thenReturn(new Item[] { multiSearchResponseItem });
when(multiSearchResponseItem.getResponse()).thenReturn(searchResponse);
gson = PowerMockito.mock(Gson.class);
}
use of org.opensearch.ad.dataprocessor.SingleFeatureLinearUniformInterpolator in project anomaly-detection by opensearch-project.
the class EntityColdStarterTests method setUp.
@SuppressWarnings("unchecked")
@Override
public void setUp() throws Exception {
super.setUp();
numMinSamples = AnomalyDetectorSettings.NUM_MIN_SAMPLES;
clock = mock(Clock.class);
when(clock.instant()).thenReturn(Instant.now());
threadPool = mock(ThreadPool.class);
setUpADThreadPool(threadPool);
settings = Settings.EMPTY;
Client client = mock(Client.class);
clientUtil = mock(ClientUtil.class);
detector = TestHelpers.AnomalyDetectorBuilder.newInstance().setDetectionInterval(new IntervalTimeConfiguration(1, ChronoUnit.MINUTES)).setCategoryFields(ImmutableList.of(randomAlphaOfLength(5))).build();
job = TestHelpers.randomAnomalyDetectorJob(true, Instant.ofEpochMilli(1602401500000L), null);
doAnswer(invocation -> {
GetRequest request = invocation.getArgument(0);
ActionListener<GetResponse> listener = invocation.getArgument(2);
if (request.index().equals(AnomalyDetectorJob.ANOMALY_DETECTOR_JOB_INDEX)) {
listener.onResponse(TestHelpers.createGetResponse(job, detectorId, AnomalyDetectorJob.ANOMALY_DETECTOR_JOB_INDEX));
} else {
listener.onResponse(TestHelpers.createGetResponse(detector, detectorId, AnomalyDetector.ANOMALY_DETECTORS_INDEX));
}
return null;
}).when(clientUtil).asyncRequest(any(GetRequest.class), any(), any(ActionListener.class));
Set<Setting<?>> nodestateSetting = new HashSet<>(ClusterSettings.BUILT_IN_CLUSTER_SETTINGS);
nodestateSetting.add(MAX_RETRY_FOR_UNRESPONSIVE_NODE);
nodestateSetting.add(BACKOFF_MINUTES);
ClusterSettings clusterSettings = new ClusterSettings(Settings.EMPTY, nodestateSetting);
DiscoveryNode discoveryNode = new DiscoveryNode("node1", OpenSearchTestCase.buildNewFakeTransportAddress(), Collections.emptyMap(), DiscoveryNodeRole.BUILT_IN_ROLES, Version.CURRENT);
ClusterService clusterService = ClusterServiceUtils.createClusterService(threadPool, discoveryNode, clusterSettings);
stateManager = new NodeStateManager(client, xContentRegistry(), settings, clientUtil, clock, AnomalyDetectorSettings.HOURLY_MAINTENANCE, clusterService);
SingleFeatureLinearUniformInterpolator singleFeatureLinearUniformInterpolator = new IntegerSensitiveSingleFeatureLinearUniformInterpolator();
interpolator = new LinearUniformInterpolator(singleFeatureLinearUniformInterpolator);
searchFeatureDao = mock(SearchFeatureDao.class);
checkpoint = mock(CheckpointDao.class);
featureManager = new FeatureManager(searchFeatureDao, interpolator, clock, AnomalyDetectorSettings.MAX_TRAIN_SAMPLE, AnomalyDetectorSettings.MAX_SAMPLE_STRIDE, AnomalyDetectorSettings.TRAIN_SAMPLE_TIME_RANGE_IN_HOURS, AnomalyDetectorSettings.MIN_TRAIN_SAMPLES, AnomalyDetectorSettings.MAX_SHINGLE_PROPORTION_MISSING, AnomalyDetectorSettings.MAX_IMPUTATION_NEIGHBOR_DISTANCE, AnomalyDetectorSettings.PREVIEW_SAMPLE_RATE, AnomalyDetectorSettings.MAX_PREVIEW_SAMPLES, AnomalyDetectorSettings.HOURLY_MAINTENANCE, threadPool, AnomalyDetectorPlugin.AD_THREAD_POOL_NAME);
checkpointWriteQueue = mock(CheckpointWriteWorker.class);
rcfSeed = 2051L;
entityColdStarter = new EntityColdStarter(clock, threadPool, stateManager, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE, AnomalyDetectorSettings.NUM_TREES, AnomalyDetectorSettings.TIME_DECAY, numMinSamples, AnomalyDetectorSettings.MAX_SAMPLE_STRIDE, AnomalyDetectorSettings.MAX_TRAIN_SAMPLE, interpolator, searchFeatureDao, AnomalyDetectorSettings.THRESHOLD_MIN_PVALUE, featureManager, settings, AnomalyDetectorSettings.HOURLY_MAINTENANCE, checkpointWriteQueue, rcfSeed, AnomalyDetectorSettings.MAX_COLD_START_ROUNDS);
detectorId = "123";
modelId = "123_entity_abc";
entityName = "abc";
priority = 0.3f;
entity = Entity.createSingleAttributeEntity("field", entityName);
released = new AtomicBoolean();
inProgressLatch = new CountDownLatch(1);
releaseSemaphore = () -> {
released.set(true);
inProgressLatch.countDown();
};
listener = ActionListener.wrap(releaseSemaphore);
modelManager = new ModelManager(mock(CheckpointDao.class), mock(Clock.class), AnomalyDetectorSettings.NUM_TREES, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE, AnomalyDetectorSettings.TIME_DECAY, AnomalyDetectorSettings.NUM_MIN_SAMPLES, AnomalyDetectorSettings.THRESHOLD_MIN_PVALUE, AnomalyDetectorSettings.MIN_PREVIEW_SIZE, AnomalyDetectorSettings.HOURLY_MAINTENANCE, AnomalyDetectorSettings.HOURLY_MAINTENANCE, entityColdStarter, mock(FeatureManager.class), mock(MemoryTracker.class));
}
use of org.opensearch.ad.dataprocessor.SingleFeatureLinearUniformInterpolator in project anomaly-detection by opensearch-project.
the class AnomalyDetectorPlugin method createComponents.
@Override
public Collection<Object> createComponents(Client client, ClusterService clusterService, ThreadPool threadPool, ResourceWatcherService resourceWatcherService, ScriptService scriptService, NamedXContentRegistry xContentRegistry, Environment environment, NodeEnvironment nodeEnvironment, NamedWriteableRegistry namedWriteableRegistry, IndexNameExpressionResolver indexNameExpressionResolver, Supplier<RepositoriesService> repositoriesServiceSupplier) {
EnabledSetting.getInstance().init(clusterService);
NumericSetting.getInstance().init(clusterService);
this.client = client;
this.threadPool = threadPool;
Settings settings = environment.settings();
Throttler throttler = new Throttler(getClock());
this.clientUtil = new ClientUtil(settings, client, throttler, threadPool);
this.indexUtils = new IndexUtils(client, clientUtil, clusterService, indexNameExpressionResolver);
this.nodeFilter = new DiscoveryNodeFilterer(clusterService);
this.anomalyDetectionIndices = new AnomalyDetectionIndices(client, clusterService, threadPool, settings, nodeFilter, AnomalyDetectorSettings.MAX_UPDATE_RETRY_TIMES);
this.clusterService = clusterService;
SingleFeatureLinearUniformInterpolator singleFeatureLinearUniformInterpolator = new IntegerSensitiveSingleFeatureLinearUniformInterpolator();
Interpolator interpolator = new LinearUniformInterpolator(singleFeatureLinearUniformInterpolator);
SearchFeatureDao searchFeatureDao = new SearchFeatureDao(client, xContentRegistry, interpolator, clientUtil, settings, clusterService, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE);
JvmService jvmService = new JvmService(environment.settings());
RandomCutForestMapper mapper = new RandomCutForestMapper();
mapper.setSaveExecutorContextEnabled(true);
mapper.setSaveTreeStateEnabled(true);
mapper.setPartialTreeStateEnabled(true);
V1JsonToV2StateConverter converter = new V1JsonToV2StateConverter();
double modelMaxSizePercent = AnomalyDetectorSettings.MODEL_MAX_SIZE_PERCENTAGE.get(settings);
ADCircuitBreakerService adCircuitBreakerService = new ADCircuitBreakerService(jvmService).init();
MemoryTracker memoryTracker = new MemoryTracker(jvmService, modelMaxSizePercent, AnomalyDetectorSettings.DESIRED_MODEL_SIZE_PERCENTAGE, clusterService, adCircuitBreakerService);
NodeStateManager stateManager = new NodeStateManager(client, xContentRegistry, settings, clientUtil, getClock(), AnomalyDetectorSettings.HOURLY_MAINTENANCE, clusterService);
FeatureManager featureManager = new FeatureManager(searchFeatureDao, interpolator, getClock(), AnomalyDetectorSettings.MAX_TRAIN_SAMPLE, AnomalyDetectorSettings.MAX_SAMPLE_STRIDE, AnomalyDetectorSettings.TRAIN_SAMPLE_TIME_RANGE_IN_HOURS, AnomalyDetectorSettings.MIN_TRAIN_SAMPLES, AnomalyDetectorSettings.MAX_SHINGLE_PROPORTION_MISSING, AnomalyDetectorSettings.MAX_IMPUTATION_NEIGHBOR_DISTANCE, AnomalyDetectorSettings.PREVIEW_SAMPLE_RATE, AnomalyDetectorSettings.MAX_PREVIEW_SAMPLES, AnomalyDetectorSettings.HOURLY_MAINTENANCE, threadPool, AD_THREAD_POOL_NAME);
long heapSizeBytes = JvmInfo.jvmInfo().getMem().getHeapMax().getBytes();
serializeRCFBufferPool = AccessController.doPrivileged(new PrivilegedAction<GenericObjectPool<LinkedBuffer>>() {
@Override
public GenericObjectPool<LinkedBuffer> run() {
return new GenericObjectPool<>(new BasePooledObjectFactory<LinkedBuffer>() {
@Override
public LinkedBuffer create() throws Exception {
return LinkedBuffer.allocate(AnomalyDetectorSettings.SERIALIZATION_BUFFER_BYTES);
}
@Override
public PooledObject<LinkedBuffer> wrap(LinkedBuffer obj) {
return new DefaultPooledObject<>(obj);
}
});
}
});
serializeRCFBufferPool.setMaxTotal(AnomalyDetectorSettings.MAX_TOTAL_RCF_SERIALIZATION_BUFFERS);
serializeRCFBufferPool.setMaxIdle(AnomalyDetectorSettings.MAX_TOTAL_RCF_SERIALIZATION_BUFFERS);
serializeRCFBufferPool.setMinIdle(0);
serializeRCFBufferPool.setBlockWhenExhausted(false);
serializeRCFBufferPool.setTimeBetweenEvictionRuns(AnomalyDetectorSettings.HOURLY_MAINTENANCE);
CheckpointDao checkpoint = new CheckpointDao(client, clientUtil, CommonName.CHECKPOINT_INDEX_NAME, gson, mapper, converter, new ThresholdedRandomCutForestMapper(), AccessController.doPrivileged((PrivilegedAction<Schema<ThresholdedRandomCutForestState>>) () -> RuntimeSchema.getSchema(ThresholdedRandomCutForestState.class)), HybridThresholdingModel.class, anomalyDetectionIndices, AnomalyDetectorSettings.MAX_CHECKPOINT_BYTES, serializeRCFBufferPool, AnomalyDetectorSettings.SERIALIZATION_BUFFER_BYTES, 1 - AnomalyDetectorSettings.THRESHOLD_MIN_PVALUE);
Random random = new Random(42);
CheckpointWriteWorker checkpointWriteQueue = new CheckpointWriteWorker(heapSizeBytes, AnomalyDetectorSettings.CHECKPOINT_WRITE_QUEUE_SIZE_IN_BYTES, AnomalyDetectorSettings.CHECKPOINT_WRITE_QUEUE_MAX_HEAP_PERCENT, clusterService, random, adCircuitBreakerService, threadPool, settings, AnomalyDetectorSettings.MAX_QUEUED_TASKS_RATIO, getClock(), AnomalyDetectorSettings.MEDIUM_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.LOW_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT, AnomalyDetectorSettings.QUEUE_MAINTENANCE, checkpoint, CommonName.CHECKPOINT_INDEX_NAME, AnomalyDetectorSettings.HOURLY_MAINTENANCE, stateManager, AnomalyDetectorSettings.HOURLY_MAINTENANCE);
EntityCache cache = new PriorityCache(checkpoint, AnomalyDetectorSettings.DEDICATED_CACHE_SIZE.get(settings), AnomalyDetectorSettings.CHECKPOINT_TTL, AnomalyDetectorSettings.MAX_INACTIVE_ENTITIES, memoryTracker, AnomalyDetectorSettings.NUM_TREES, getClock(), clusterService, AnomalyDetectorSettings.HOURLY_MAINTENANCE, threadPool, checkpointWriteQueue, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT);
CacheProvider cacheProvider = new CacheProvider(cache);
EntityColdStarter entityColdStarter = new EntityColdStarter(getClock(), threadPool, stateManager, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE, AnomalyDetectorSettings.NUM_TREES, AnomalyDetectorSettings.TIME_DECAY, AnomalyDetectorSettings.NUM_MIN_SAMPLES, AnomalyDetectorSettings.MAX_SAMPLE_STRIDE, AnomalyDetectorSettings.MAX_TRAIN_SAMPLE, interpolator, searchFeatureDao, AnomalyDetectorSettings.THRESHOLD_MIN_PVALUE, featureManager, settings, AnomalyDetectorSettings.HOURLY_MAINTENANCE, checkpointWriteQueue, AnomalyDetectorSettings.MAX_COLD_START_ROUNDS);
EntityColdStartWorker coldstartQueue = new EntityColdStartWorker(heapSizeBytes, AnomalyDetectorSettings.ENTITY_REQUEST_SIZE_IN_BYTES, AnomalyDetectorSettings.ENTITY_COLD_START_QUEUE_MAX_HEAP_PERCENT, clusterService, random, adCircuitBreakerService, threadPool, settings, AnomalyDetectorSettings.MAX_QUEUED_TASKS_RATIO, getClock(), AnomalyDetectorSettings.MEDIUM_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.LOW_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT, AnomalyDetectorSettings.QUEUE_MAINTENANCE, entityColdStarter, AnomalyDetectorSettings.HOURLY_MAINTENANCE, stateManager);
ModelManager modelManager = new ModelManager(checkpoint, getClock(), AnomalyDetectorSettings.NUM_TREES, AnomalyDetectorSettings.NUM_SAMPLES_PER_TREE, AnomalyDetectorSettings.TIME_DECAY, AnomalyDetectorSettings.NUM_MIN_SAMPLES, AnomalyDetectorSettings.THRESHOLD_MIN_PVALUE, AnomalyDetectorSettings.MIN_PREVIEW_SIZE, AnomalyDetectorSettings.HOURLY_MAINTENANCE, AnomalyDetectorSettings.HOURLY_MAINTENANCE, entityColdStarter, featureManager, memoryTracker);
MultiEntityResultHandler multiEntityResultHandler = new MultiEntityResultHandler(client, settings, threadPool, anomalyDetectionIndices, this.clientUtil, this.indexUtils, clusterService);
ResultWriteWorker resultWriteQueue = new ResultWriteWorker(heapSizeBytes, AnomalyDetectorSettings.RESULT_WRITE_QUEUE_SIZE_IN_BYTES, AnomalyDetectorSettings.RESULT_WRITE_QUEUE_MAX_HEAP_PERCENT, clusterService, random, adCircuitBreakerService, threadPool, settings, AnomalyDetectorSettings.MAX_QUEUED_TASKS_RATIO, getClock(), AnomalyDetectorSettings.MEDIUM_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.LOW_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT, AnomalyDetectorSettings.QUEUE_MAINTENANCE, multiEntityResultHandler, xContentRegistry, stateManager, AnomalyDetectorSettings.HOURLY_MAINTENANCE);
CheckpointReadWorker checkpointReadQueue = new CheckpointReadWorker(heapSizeBytes, AnomalyDetectorSettings.ENTITY_FEATURE_REQUEST_SIZE_IN_BYTES, AnomalyDetectorSettings.CHECKPOINT_READ_QUEUE_MAX_HEAP_PERCENT, clusterService, random, adCircuitBreakerService, threadPool, settings, AnomalyDetectorSettings.MAX_QUEUED_TASKS_RATIO, getClock(), AnomalyDetectorSettings.MEDIUM_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.LOW_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT, AnomalyDetectorSettings.QUEUE_MAINTENANCE, modelManager, checkpoint, coldstartQueue, resultWriteQueue, stateManager, anomalyDetectionIndices, cacheProvider, AnomalyDetectorSettings.HOURLY_MAINTENANCE, checkpointWriteQueue);
ColdEntityWorker coldEntityQueue = new ColdEntityWorker(heapSizeBytes, AnomalyDetectorSettings.ENTITY_FEATURE_REQUEST_SIZE_IN_BYTES, AnomalyDetectorSettings.COLD_ENTITY_QUEUE_MAX_HEAP_PERCENT, clusterService, random, adCircuitBreakerService, threadPool, settings, AnomalyDetectorSettings.MAX_QUEUED_TASKS_RATIO, getClock(), AnomalyDetectorSettings.MEDIUM_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.LOW_SEGMENT_PRUNE_RATIO, AnomalyDetectorSettings.MAINTENANCE_FREQ_CONSTANT, checkpointReadQueue, AnomalyDetectorSettings.HOURLY_MAINTENANCE, stateManager);
ADDataMigrator dataMigrator = new ADDataMigrator(client, clusterService, xContentRegistry, anomalyDetectionIndices);
HashRing hashRing = new HashRing(nodeFilter, getClock(), settings, client, clusterService, dataMigrator, modelManager);
anomalyDetectorRunner = new AnomalyDetectorRunner(modelManager, featureManager, AnomalyDetectorSettings.MAX_PREVIEW_RESULTS);
Map<String, ADStat<?>> stats = ImmutableMap.<String, ADStat<?>>builder().put(StatNames.AD_EXECUTE_REQUEST_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_EXECUTE_FAIL_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_HC_EXECUTE_REQUEST_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_HC_EXECUTE_FAIL_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.MODEL_INFORMATION.getName(), new ADStat<>(false, new ModelsOnNodeSupplier(modelManager, cacheProvider, settings, clusterService))).put(StatNames.ANOMALY_DETECTORS_INDEX_STATUS.getName(), new ADStat<>(true, new IndexStatusSupplier(indexUtils, AnomalyDetector.ANOMALY_DETECTORS_INDEX))).put(StatNames.ANOMALY_RESULTS_INDEX_STATUS.getName(), new ADStat<>(true, new IndexStatusSupplier(indexUtils, CommonName.ANOMALY_RESULT_INDEX_ALIAS))).put(StatNames.MODELS_CHECKPOINT_INDEX_STATUS.getName(), new ADStat<>(true, new IndexStatusSupplier(indexUtils, CommonName.CHECKPOINT_INDEX_NAME))).put(StatNames.ANOMALY_DETECTION_JOB_INDEX_STATUS.getName(), new ADStat<>(true, new IndexStatusSupplier(indexUtils, AnomalyDetectorJob.ANOMALY_DETECTOR_JOB_INDEX))).put(StatNames.ANOMALY_DETECTION_STATE_STATUS.getName(), new ADStat<>(true, new IndexStatusSupplier(indexUtils, CommonName.DETECTION_STATE_INDEX))).put(StatNames.DETECTOR_COUNT.getName(), new ADStat<>(true, new SettableSupplier())).put(StatNames.SINGLE_ENTITY_DETECTOR_COUNT.getName(), new ADStat<>(true, new SettableSupplier())).put(StatNames.MULTI_ENTITY_DETECTOR_COUNT.getName(), new ADStat<>(true, new SettableSupplier())).put(StatNames.AD_EXECUTING_BATCH_TASK_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_CANCELED_BATCH_TASK_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_TOTAL_BATCH_TASK_EXECUTION_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.AD_BATCH_TASK_FAILURE_COUNT.getName(), new ADStat<>(false, new CounterSupplier())).put(StatNames.MODEL_COUNT.getName(), new ADStat<>(false, new ModelsOnNodeCountSupplier(modelManager, cacheProvider))).build();
adStats = new ADStats(stats);
adTaskCacheManager = new ADTaskCacheManager(settings, clusterService, memoryTracker);
adTaskManager = new ADTaskManager(settings, clusterService, client, xContentRegistry, anomalyDetectionIndices, nodeFilter, hashRing, adTaskCacheManager, threadPool);
AnomalyResultBulkIndexHandler anomalyResultBulkIndexHandler = new AnomalyResultBulkIndexHandler(client, settings, threadPool, this.clientUtil, this.indexUtils, clusterService, anomalyDetectionIndices);
adBatchTaskRunner = new ADBatchTaskRunner(settings, threadPool, clusterService, client, adCircuitBreakerService, featureManager, adTaskManager, anomalyDetectionIndices, adStats, anomalyResultBulkIndexHandler, adTaskCacheManager, searchFeatureDao, hashRing, modelManager);
ADSearchHandler adSearchHandler = new ADSearchHandler(settings, clusterService, client);
// transport action handler constructors
return ImmutableList.of(anomalyDetectionIndices, anomalyDetectorRunner, searchFeatureDao, singleFeatureLinearUniformInterpolator, interpolator, gson, jvmService, hashRing, featureManager, modelManager, stateManager, new ADClusterEventListener(clusterService, hashRing), adCircuitBreakerService, adStats, new MasterEventListener(clusterService, threadPool, client, getClock(), clientUtil, nodeFilter), nodeFilter, multiEntityResultHandler, checkpoint, cacheProvider, adTaskManager, adBatchTaskRunner, adSearchHandler, coldstartQueue, resultWriteQueue, checkpointReadQueue, checkpointWriteQueue, coldEntityQueue, entityColdStarter, adTaskCacheManager);
}
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