use of co.cask.cdap.api.metrics.MetricStore in project cdap by caskdata.
the class MetricsSuiteTestBase method beforeClass.
@BeforeClass
public static void beforeClass() throws Exception {
if (!runBefore) {
return;
}
tmpFolder = new TemporaryFolder();
conf = CConfiguration.create();
conf.set(Constants.Metrics.ADDRESS, hostname);
conf.set(Constants.AppFabric.OUTPUT_DIR, System.getProperty("java.io.tmpdir"));
conf.set(Constants.AppFabric.TEMP_DIR, System.getProperty("java.io.tmpdir"));
conf.setBoolean(Constants.Dangerous.UNRECOVERABLE_RESET, true);
conf.setBoolean(Constants.Metrics.CONFIG_AUTHENTICATION_REQUIRED, true);
conf.set(Constants.Metrics.CLUSTER_NAME, CLUSTER);
Injector injector = startMetricsService(conf);
store = injector.getInstance(Store.class);
locationFactory = injector.getInstance(LocationFactory.class);
metricStore = injector.getInstance(MetricStore.class);
tmpFolder.create();
}
use of co.cask.cdap.api.metrics.MetricStore in project cdap by caskdata.
the class MetricsProcessorServiceTest method testMetricsProcessor.
@Test
public void testMetricsProcessor() throws Exception {
injector.getInstance(TransactionManager.class).startAndWait();
injector.getInstance(DatasetOpExecutor.class).startAndWait();
injector.getInstance(DatasetService.class).startAndWait();
zkServer = InMemoryZKServer.builder().build();
zkServer.startAndWait();
Properties kafkaConfig = generateKafkaConfig(tmpFolder1);
EmbeddedKafkaServer kafkaServer = new EmbeddedKafkaServer(kafkaConfig);
kafkaServer.startAndWait();
ZKClientService zkClient = ZKClientService.Builder.of(zkServer.getConnectionStr()).build();
zkClient.startAndWait();
KafkaClientService kafkaClient = new ZKKafkaClientService(zkClient);
kafkaClient.startAndWait();
final MetricStore metricStore = injector.getInstance(MetricStore.class);
Set<Integer> partitions = new HashSet<>();
for (int i = 0; i < PARTITION_SIZE; i++) {
partitions.add(i);
}
KafkaPublisher publisher = kafkaClient.getPublisher(KafkaPublisher.Ack.FIRE_AND_FORGET, Compression.SNAPPY);
final KafkaPublisher.Preparer preparer = publisher.prepare(TOPIC_PREFIX);
// Wait for metrics to be successfully published to Kafka. Retry if publishing fails.
Tasks.waitFor(true, new Callable<Boolean>() {
@Override
public Boolean call() throws Exception {
return publishKafkaMetrics(METRICS_CONTEXT, expected, preparer);
}
}, 15, TimeUnit.SECONDS, "Failed to publish correct number of metrics to Kafka");
// Start KafkaMetricsProcessorService after metrics are published to Kafka
KafkaMetricsProcessorService kafkaMetricsProcessorService = new KafkaMetricsProcessorService(kafkaClient, injector.getInstance(MetricDatasetFactory.class), new MetricsMessageCallbackFactory(injector.getInstance(SchemaGenerator.class), injector.getInstance(DatumReaderFactory.class), metricStore, 4), TOPIC_PREFIX, partitions, new NoopMetricsContext());
kafkaMetricsProcessorService.startAndWait();
// Intentionally set queue size to a small value, so that MessagingMetricsProcessorService
// internally can persist metrics when more messages are to be fetched
MessagingMetricsProcessorService messagingMetricsProcessorService = new MessagingMetricsProcessorService(injector.getInstance(MetricDatasetFactory.class), TOPIC_PREFIX, messagingService, injector.getInstance(SchemaGenerator.class), injector.getInstance(DatumReaderFactory.class), metricStore, 1000L, 5, partitions, new NoopMetricsContext(), 50, 0);
messagingMetricsProcessorService.startAndWait();
long startTime = TimeUnit.MILLISECONDS.toSeconds(System.currentTimeMillis());
// Publish metrics with messaging service and record expected metrics
for (int i = 10; i < 20; i++) {
publishMessagingMetrics(i, startTime, METRICS_CONTEXT, expected, SYSTEM_METRIC_PREFIX, MetricType.COUNTER);
}
Thread.sleep(500);
// Stop and restart messagingMetricsProcessorService
messagingMetricsProcessorService.stopAndWait();
// Intentionally set queue size to a large value, so that MessagingMetricsProcessorService
// internally only persists metrics during terminating.
messagingMetricsProcessorService = new MessagingMetricsProcessorService(injector.getInstance(MetricDatasetFactory.class), TOPIC_PREFIX, messagingService, injector.getInstance(SchemaGenerator.class), injector.getInstance(DatumReaderFactory.class), metricStore, 500L, 100, partitions, new NoopMetricsContext(), 50, 0);
messagingMetricsProcessorService.startAndWait();
// Publish metrics after MessagingMetricsProcessorService restarts and record expected metrics
for (int i = 20; i < 30; i++) {
publishMessagingMetrics(i, startTime, METRICS_CONTEXT, expected, SYSTEM_METRIC_PREFIX, MetricType.GAUGE);
}
final List<String> missingMetricNames = new ArrayList<>();
// are retrieved when timeout occurs, print out the missing metrics
try {
Tasks.waitFor(true, new Callable<Boolean>() {
@Override
public Boolean call() throws Exception {
return canQueryAllMetrics(metricStore, METRICS_CONTEXT, expected, missingMetricNames);
}
}, 10000, TimeUnit.MILLISECONDS, "Failed to get all metrics");
} catch (TimeoutException e) {
Assert.fail(String.format("Metrics: [%s] cannot be found in the metrics store.", Joiner.on(", ").join(missingMetricNames)));
}
// Query metrics from the metricStore and compare them with the expected ones
assertMetricsResult(metricStore, METRICS_CONTEXT, expected);
// Query for the 5 counter metrics published with messaging between time 5 - 14
Collection<MetricTimeSeries> queryResult = metricStore.query(new MetricDataQuery(5, 14, 1, Integer.MAX_VALUE, ImmutableMap.of(SYSTEM_METRIC_PREFIX + COUNTER_METRIC_NAME, AggregationFunction.SUM), METRICS_CONTEXT, ImmutableList.<String>of(), null));
MetricTimeSeries timeSeries = Iterables.getOnlyElement(queryResult);
Assert.assertEquals(5, timeSeries.getTimeValues().size());
for (TimeValue timeValue : timeSeries.getTimeValues()) {
Assert.assertEquals(1L, timeValue.getValue());
}
// Stop services and servers
kafkaMetricsProcessorService.stopAndWait();
messagingMetricsProcessorService.stopAndWait();
kafkaServer.stopAndWait();
zkServer.stopAndWait();
// Delete all metrics
metricStore.deleteAll();
}
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