use of org.apache.geode.internal.statistics.StatArchiveReader.StatValue in project geode by apache.
the class StatArchiveWriterReaderIntegrationTest method testLongCounterTwoSamples.
@Test
public void testLongCounterTwoSamples() throws Exception {
final TestStatisticsManager manager = new TestStatisticsManager(1, getUniqueName(), WRITER_INITIAL_DATE_MILLIS);
final TestStatisticsSampler sampler = new TestStatisticsSampler(manager);
final SampleCollector sampleCollector = new SampleCollector(sampler);
final StatArchiveDescriptor archiveDescriptor = new StatArchiveDescriptor.Builder().setArchiveName(this.archiveFileName).setSystemId(1).setSystemStartTime(WRITER_INITIAL_DATE_MILLIS).setSystemDirectoryPath(this.testName.getMethodName()).setProductDescription(getClass().getSimpleName()).build();
final StatArchiveWriter writer = new TestStatArchiveWriter(archiveDescriptor);
sampleCollector.addSampleHandler(writer);
final StatisticDescriptor[] statsST1 = new StatisticDescriptor[] { manager.createLongCounter("long_counter_1", "d1", "u1") };
final StatisticsType ST1 = manager.createType("ST1", "ST1", statsST1);
final Statistics st1_1 = manager.createAtomicStatistics(ST1, "st1_1", 1);
final long value1 = 5;
incLong(st1_1, "long_counter_1", value1);
final long sampleIncNanos = NANOS_PER_MILLI * 1000;
long sampleTimeNanos = WRITER_PREVIOUS_TIMESTAMP_NANOS + sampleIncNanos;
sampleCollector.sample(sampleTimeNanos);
final long value2 = 15;
incLong(st1_1, "long_counter_1", value2);
sampleTimeNanos += sampleIncNanos;
sampleCollector.sample(sampleTimeNanos);
writer.close();
final StatisticDescriptor[] sds = ST1.getStatistics();
for (int i = 0; i < sds.length; i++) {
assertEquals(value1 + value2, st1_1.get(sds[i].getName()));
}
final StatArchiveReader reader = new StatArchiveReader(new File[] { new File(this.archiveFileName) }, null, false);
// compare all resourceInst values against what was printed above
final List resources = reader.getResourceInstList();
assertNotNull(resources);
assertEquals(1, resources.size());
final StatArchiveReader.ResourceInst ri = (StatArchiveReader.ResourceInst) resources.get(0);
assertNotNull(ri);
final String statsName = ri.getName();
assertNotNull(statsName);
assertEquals("st1_1", statsName);
assertEquals("ST1", ri.getType().getName());
final StatValue[] statValues = ri.getStatValues();
assertNotNull(statValues);
assertEquals(1, statValues.length);
statValues[0].setFilter(StatValue.FILTER_NONE);
final String statName = ri.getType().getStats()[0].getName();
assertNotNull(statName);
assertEquals("long_counter_1", statName);
assertEquals(statName, statValues[0].getDescriptor().getName());
assertEquals(2, statValues[0].getSnapshotsSize());
assertEquals((double) (value1 + value2), statValues[0].getSnapshotsMostRecent(), 0.01);
final long[] timeStampsMillis = statValues[0].getRawAbsoluteTimeStamps();
assertNotNull(timeStampsMillis);
assertEquals(2, timeStampsMillis.length);
final long initialPreviousTimeStampMillis = NanoTimer.nanosToMillis(WRITER_PREVIOUS_TIMESTAMP_NANOS);
final long timeStampMillis = NanoTimer.nanosToMillis(sampleTimeNanos);
final long deltaMillis = timeStampMillis - initialPreviousTimeStampMillis;
assertEquals(NanoTimer.nanosToMillis(sampleIncNanos * 2), deltaMillis);
long expectedTimeStampMillis = WRITER_INITIAL_DATE_MILLIS;
for (int i = 0; i < timeStampsMillis.length; i++) {
expectedTimeStampMillis += 1000;
assertEquals("expectedTimeStampMillis for " + i + " is wrong", expectedTimeStampMillis, timeStampsMillis[i]);
}
final double[] snapshots = statValues[0].getRawSnapshots();
assertNotNull(snapshots);
assertEquals(2, snapshots.length);
assertEquals((double) value1, snapshots[0], 0.01);
assertEquals((double) (value1 + value2), snapshots[1], 0.01);
}
use of org.apache.geode.internal.statistics.StatArchiveReader.StatValue in project geode by apache.
the class StatArchiveWriterReaderIntegrationTest method testIntGaugeOneSample.
@Test
public void testIntGaugeOneSample() throws Exception {
final TestStatisticsManager manager = new TestStatisticsManager(1, getUniqueName(), WRITER_INITIAL_DATE_MILLIS);
final TestStatisticsSampler sampler = new TestStatisticsSampler(manager);
final SampleCollector sampleCollector = new SampleCollector(sampler);
final StatArchiveDescriptor archiveDescriptor = new StatArchiveDescriptor.Builder().setArchiveName(this.archiveFileName).setSystemId(1).setSystemStartTime(WRITER_INITIAL_DATE_MILLIS).setSystemDirectoryPath(this.testName.getMethodName()).setProductDescription(getClass().getSimpleName()).build();
final StatArchiveWriter writer = new TestStatArchiveWriter(archiveDescriptor);
sampleCollector.addSampleHandler(writer);
final StatisticDescriptor[] statsST1 = new StatisticDescriptor[] { manager.createIntGauge("int_gauge_1", "d1", "u1") };
final StatisticsType ST1 = manager.createType("ST1", "ST1", statsST1);
final Statistics st1_1 = manager.createAtomicStatistics(ST1, "st1_1", 1);
final int value = 5;
incInt(st1_1, "int_gauge_1", value);
final long sampleIncNanos = NANOS_PER_MILLI * 1000;
final long sampleTimeNanos = WRITER_PREVIOUS_TIMESTAMP_NANOS + sampleIncNanos;
sampleCollector.sample(sampleTimeNanos);
writer.close();
final StatisticDescriptor[] sds = ST1.getStatistics();
for (int i = 0; i < sds.length; i++) {
assertEquals(value, st1_1.get(sds[i].getName()));
}
final StatArchiveReader reader = new StatArchiveReader(new File[] { new File(this.archiveFileName) }, null, false);
// compare all resourceInst values against what was printed above
final List resources = reader.getResourceInstList();
assertNotNull(resources);
assertEquals(1, resources.size());
final StatArchiveReader.ResourceInst ri = (StatArchiveReader.ResourceInst) resources.get(0);
assertNotNull(ri);
final String statsName = ri.getName();
assertNotNull(statsName);
assertEquals("st1_1", statsName);
assertEquals("ST1", ri.getType().getName());
final StatValue[] statValues = ri.getStatValues();
assertNotNull(statValues);
assertEquals(1, statValues.length);
final String statName = ri.getType().getStats()[0].getName();
assertNotNull(statName);
assertEquals("int_gauge_1", statName);
assertEquals(statName, statValues[0].getDescriptor().getName());
assertEquals(1, statValues[0].getSnapshotsSize());
assertEquals((double) value, statValues[0].getSnapshotsMostRecent(), 0.01);
final long[] timeStampsMillis = statValues[0].getRawAbsoluteTimeStamps();
assertNotNull(timeStampsMillis);
assertEquals(1, timeStampsMillis.length);
final long initialPreviousTimeStampMillis = NanoTimer.nanosToMillis(WRITER_PREVIOUS_TIMESTAMP_NANOS);
final long timeStampMillis = NanoTimer.nanosToMillis(sampleTimeNanos);
final long deltaMillis = timeStampMillis - initialPreviousTimeStampMillis;
assertEquals(NanoTimer.nanosToMillis(sampleIncNanos), deltaMillis);
final long expectedTimeStampMillis = deltaMillis + WRITER_INITIAL_DATE_MILLIS;
assertEquals(expectedTimeStampMillis, timeStampsMillis[0]);
final double[] snapshots = statValues[0].getRawSnapshots();
assertNotNull(snapshots);
assertEquals(1, snapshots.length);
assertEquals((double) value, snapshots[0], 0.01);
}
use of org.apache.geode.internal.statistics.StatArchiveReader.StatValue in project geode by apache.
the class StatArchiveWriterReaderIntegrationTest method testWriteAfterSamplingBegins.
/**
* Tests the stat archive file written by StatArchiveWriter.
*/
@Test
public void testWriteAfterSamplingBegins() throws Exception {
final TestStatisticsManager manager = new TestStatisticsManager(1, getUniqueName(), WRITER_INITIAL_DATE_MILLIS);
final TestStatisticsSampler sampler = new TestStatisticsSampler(manager);
final SampleCollector sampleCollector = new SampleCollector(sampler);
final StatArchiveDescriptor archiveDescriptor = new StatArchiveDescriptor.Builder().setArchiveName(this.archiveFileName).setSystemId(1).setSystemStartTime(WRITER_INITIAL_DATE_MILLIS - 2000).setSystemDirectoryPath(this.testName.getMethodName()).setProductDescription(getClass().getSimpleName()).build();
final StatArchiveWriter writer = new TestStatArchiveWriter(archiveDescriptor);
sampleCollector.addSampleHandler(writer);
long sampleTimeNanos = WRITER_PREVIOUS_TIMESTAMP_NANOS + NANOS_PER_MILLI * 1000;
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 1) create ST1 and st1_1
final StatisticDescriptor[] statsST1 = new StatisticDescriptor[] { manager.createDoubleCounter("double_counter_1", "d1", "u1"), manager.createDoubleCounter("double_counter_2", "d2", "u2", true), manager.createDoubleGauge("double_gauge_3", "d3", "u3"), manager.createDoubleGauge("double_gauge_4", "d4", "u4", false), manager.createIntCounter("int_counter_5", "d5", "u5"), manager.createIntCounter("int_counter_6", "d6", "u6", true), manager.createIntGauge("int_gauge_7", "d7", "u7"), manager.createIntGauge("int_gauge_8", "d8", "u8", false), manager.createLongCounter("long_counter_9", "d9", "u9"), manager.createLongCounter("long_counter_10", "d10", "u10", true), manager.createLongGauge("long_gauge_11", "d11", "u11"), manager.createLongGauge("long_gauge_12", "d12", "u12", false) };
final StatisticsType ST1 = manager.createType("ST1", "ST1", statsST1);
final Statistics st1_1 = manager.createAtomicStatistics(ST1, "st1_1", 1);
// 2) create st1_2
final Statistics st1_2 = manager.createAtomicStatistics(ST1, "st1_2", 2);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 3) some new values
incDouble(st1_1, "double_counter_1", 18347.94880);
incDouble(st1_1, "double_gauge_4", 24885.02346);
incInt(st1_1, "int_counter_5", 3);
incInt(st1_1, "int_gauge_8", 4);
incLong(st1_1, "long_counter_9", 1073741824);
incLong(st1_1, "long_gauge_12", 154367897);
incDouble(st1_2, "double_counter_2", 346.95);
incDouble(st1_2, "double_gauge_3", 9865.23008);
incInt(st1_2, "int_counter_6", 4);
incInt(st1_2, "int_gauge_7", 3);
incLong(st1_2, "long_counter_10", 3497536);
incLong(st1_2, "long_gauge_11", 103909646);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 4) all new values
incDouble(st1_1, "double_counter_1", 1.098367);
incDouble(st1_1, "double_counter_2", 50247.0983254);
incDouble(st1_1, "double_gauge_3", 987654.2344);
incDouble(st1_1, "double_gauge_4", 23.097);
incInt(st1_1, "int_counter_5", 3);
incInt(st1_1, "int_counter_6", 4);
incInt(st1_1, "int_gauge_7", 3);
incInt(st1_1, "int_gauge_8", 4);
incLong(st1_1, "long_counter_9", 5);
incLong(st1_1, "long_counter_10", 465793);
incLong(st1_1, "long_gauge_11", -203050);
incLong(st1_1, "long_gauge_12", 6);
incDouble(st1_2, "double_counter_1", 0.000846643);
incDouble(st1_2, "double_counter_2", 4.0);
incDouble(st1_2, "double_gauge_3", -4.0);
incDouble(st1_2, "double_gauge_4", 19276.0346624);
incInt(st1_2, "int_counter_5", 1);
incInt(st1_2, "int_counter_6", 2);
incInt(st1_2, "int_gauge_7", -1);
incInt(st1_2, "int_gauge_8", -2);
incLong(st1_2, "long_counter_9", 309876);
incLong(st1_2, "long_counter_10", 4);
incLong(st1_2, "long_gauge_11", -4);
incLong(st1_2, "long_gauge_12", 1098764);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 5) no new values
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 6) some new values
incDouble(st1_1, "double_counter_2", 10.255);
incDouble(st1_1, "double_gauge_3", -4123.05);
incInt(st1_1, "int_counter_6", 2);
incInt(st1_1, "int_gauge_7", 3);
incLong(st1_1, "long_counter_10", 4);
incLong(st1_1, "long_gauge_11", -2);
incDouble(st1_2, "double_counter_1", 5.00007634);
incDouble(st1_2, "double_gauge_4", 16904.06524);
incInt(st1_2, "int_counter_5", 4);
incInt(st1_2, "int_gauge_8", 1);
incLong(st1_2, "long_counter_9", 8);
incLong(st1_2, "long_gauge_12", 10);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 7) all new values
incDouble(st1_1, "double_counter_1", 4065.340);
incDouble(st1_1, "double_counter_2", 2.01342568);
incDouble(st1_1, "double_gauge_3", 1.367890);
incDouble(st1_1, "double_gauge_4", 8.0549003);
incInt(st1_1, "int_counter_5", 2);
incInt(st1_1, "int_counter_6", 9);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 2);
incLong(st1_1, "long_counter_9", 6);
incLong(st1_1, "long_counter_10", 2);
incLong(st1_1, "long_gauge_11", -10);
incLong(st1_1, "long_gauge_12", 8);
incDouble(st1_2, "double_counter_1", 128.2450);
incDouble(st1_2, "double_counter_2", 113.550);
incDouble(st1_2, "double_gauge_3", 21.0676);
incDouble(st1_2, "double_gauge_4", 2.01346);
incInt(st1_2, "int_counter_5", 3);
incInt(st1_2, "int_counter_6", 4);
incInt(st1_2, "int_gauge_7", 4);
incInt(st1_2, "int_gauge_8", 2);
incLong(st1_2, "long_counter_9", 1);
incLong(st1_2, "long_counter_10", 2);
incLong(st1_2, "long_gauge_11", 3);
incLong(st1_2, "long_gauge_12", -2);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 8) create ST2 and ST3 and st2_1 and st3_1 and st3_2
final StatisticDescriptor[] statsST2 = new StatisticDescriptor[] { manager.createIntGauge("int_gauge_7", "d7", "u7"), manager.createIntGauge("int_gauge_8", "d8", "u8", false), manager.createLongCounter("long_counter_9", "d9", "u9"), manager.createLongCounter("long_counter_10", "d10", "u10", true), manager.createLongGauge("long_gauge_11", "d11", "u11"), manager.createLongGauge("long_gauge_12", "d12", "u12", false) };
final StatisticsType ST2 = manager.createType("ST2", "ST2", statsST2);
final Statistics st2_1 = manager.createAtomicStatistics(ST2, "st2_1", 1);
final StatisticDescriptor[] statsST3 = new StatisticDescriptor[] { manager.createDoubleCounter("double_counter_1", "d1", "u1"), manager.createDoubleCounter("double_counter_2", "d2", "u2", true), manager.createDoubleGauge("double_gauge_3", "d3", "u3"), manager.createDoubleGauge("double_gauge_4", "d4", "u4", false), manager.createIntCounter("int_counter_5", "d5", "u5"), manager.createIntCounter("int_counter_6", "d6", "u6", true) };
final StatisticsType ST3 = manager.createType("ST3", "ST3", statsST3);
final Statistics st3_1 = manager.createAtomicStatistics(ST3, "st3_1", 1);
final Statistics st3_2 = manager.createAtomicStatistics(ST3, "st3_2", 2);
// 9) all new values
incDouble(st1_1, "double_counter_1", 9499.10);
incDouble(st1_1, "double_counter_2", 83.0);
incDouble(st1_1, "double_gauge_3", -7.05678);
incDouble(st1_1, "double_gauge_4", 5111.031);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 3);
incInt(st1_1, "int_gauge_7", 9);
incInt(st1_1, "int_gauge_8", -3);
incLong(st1_1, "long_counter_9", 3);
incLong(st1_1, "long_counter_10", 8);
incLong(st1_1, "long_gauge_11", 5);
incLong(st1_1, "long_gauge_12", 4);
incDouble(st1_2, "double_counter_1", 2509.0235);
incDouble(st1_2, "double_counter_2", 409.10063);
incDouble(st1_2, "double_gauge_3", -42.66904);
incDouble(st1_2, "double_gauge_4", 21.0098);
incInt(st1_2, "int_counter_5", 8);
incInt(st1_2, "int_counter_6", 9);
incInt(st1_2, "int_gauge_7", -2);
incInt(st1_2, "int_gauge_8", 6);
incLong(st1_2, "long_counter_9", 4);
incLong(st1_2, "long_counter_10", 5);
incLong(st1_2, "long_gauge_11", 5);
incLong(st1_2, "long_gauge_12", -1);
incInt(st2_1, "int_gauge_7", 2);
incInt(st2_1, "int_gauge_8", -1);
incLong(st2_1, "long_counter_9", 1002948);
incLong(st2_1, "long_counter_10", 29038856);
incLong(st2_1, "long_gauge_11", -2947465);
incLong(st2_1, "long_gauge_12", 4934745);
incDouble(st3_1, "double_counter_1", 562.0458);
incDouble(st3_1, "double_counter_2", 14.0086);
incDouble(st3_1, "double_gauge_3", -2.0);
incDouble(st3_1, "double_gauge_4", 1.0);
incInt(st3_1, "int_counter_5", 2);
incInt(st3_1, "int_counter_6", 1);
incDouble(st3_2, "double_counter_1", 33.087);
incDouble(st3_2, "double_counter_2", 2.02);
incDouble(st3_2, "double_gauge_3", 1.06);
incDouble(st3_2, "double_gauge_4", 3.021);
incInt(st3_2, "int_counter_5", 1);
incInt(st3_2, "int_counter_6", 4);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 10) some new values
incDouble(st1_1, "double_counter_1", 3.014);
incDouble(st1_1, "double_gauge_3", 57.003);
incInt(st1_1, "int_counter_5", 3);
incInt(st1_1, "int_gauge_7", 5);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_gauge_11", 1);
incDouble(st1_2, "double_counter_2", 20.107);
incDouble(st1_2, "double_gauge_4", 1.5078);
incInt(st1_2, "int_counter_6", 1);
incInt(st1_2, "int_gauge_8", -1);
incLong(st1_2, "long_counter_10", 1073741824);
incLong(st1_2, "long_gauge_12", 5);
incInt(st2_1, "int_gauge_7", 2);
incLong(st2_1, "long_counter_9", 2);
incLong(st2_1, "long_gauge_11", -2);
incDouble(st3_1, "double_counter_1", 24.80097);
incDouble(st3_1, "double_gauge_3", -22.09834);
incInt(st3_1, "int_counter_5", 2);
incDouble(st3_2, "double_counter_2", 21.0483);
incDouble(st3_2, "double_gauge_4", 36310.012);
incInt(st3_2, "int_counter_6", 4);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 11) remove ST2 and st2_1
manager.destroyStatistics(st2_1);
// 12) some new values
incDouble(st1_1, "double_counter_1", 339.0803);
incDouble(st1_1, "double_counter_2", 21.06);
incDouble(st1_1, "double_gauge_3", 12.056);
incDouble(st1_1, "double_gauge_4", 27.108);
incInt(st1_1, "int_counter_5", 2);
incInt(st1_1, "int_counter_6", 4);
incInt(st1_2, "int_gauge_7", 4);
incInt(st1_2, "int_gauge_8", 7);
incLong(st1_2, "long_counter_9", 8);
incLong(st1_2, "long_counter_10", 4);
incLong(st1_2, "long_gauge_11", 2);
incLong(st1_2, "long_gauge_12", 1);
incDouble(st3_1, "double_counter_1", 41.103);
incDouble(st3_1, "double_counter_2", 2.0333);
incDouble(st3_1, "double_gauge_3", -14.0);
incDouble(st3_2, "double_gauge_4", 26.01);
incInt(st3_2, "int_counter_5", 3);
incInt(st3_2, "int_counter_6", 1);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 13) no new values
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// 14) remove st1_2
manager.destroyStatistics(st1_2);
// 15) all new values
incDouble(st1_1, "double_counter_1", 62.1350);
incDouble(st1_1, "double_counter_2", 33.306);
incDouble(st1_1, "double_gauge_3", 41.1340);
incDouble(st1_1, "double_gauge_4", -1.04321);
incInt(st1_1, "int_counter_5", 2);
incInt(st1_1, "int_counter_6", 2);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 9);
incLong(st1_1, "long_counter_9", 2);
incLong(st1_1, "long_counter_10", 5);
incLong(st1_1, "long_gauge_11", 3);
incLong(st1_1, "long_gauge_12", -2);
incDouble(st3_1, "double_counter_1", 3461.0153);
incDouble(st3_1, "double_counter_2", 5.03167);
incDouble(st3_1, "double_gauge_3", -1.31051);
incDouble(st3_1, "double_gauge_4", 71.031);
incInt(st3_1, "int_counter_5", 4);
incInt(st3_1, "int_counter_6", 2);
incDouble(st3_2, "double_counter_1", 531.5608);
incDouble(st3_2, "double_counter_2", 55.0532);
incDouble(st3_2, "double_gauge_3", 8.40956);
incDouble(st3_2, "double_gauge_4", 23230.0462);
incInt(st3_2, "int_counter_5", 9);
incInt(st3_2, "int_counter_6", 5);
sampleCollector.sample(sampleTimeNanos += (1000 * NANOS_PER_MILLI));
// close the writer
writer.close();
if (false) {
StatisticDescriptor[] sds = ST1.getStatistics();
for (int i = 0; i < sds.length; i++) {
logger.info("testWriteAfterSamplingBegins#st1_1#" + sds[i].getName() + "=" + st1_1.get(sds[i].getName()));
}
for (int i = 0; i < sds.length; i++) {
logger.info("testWriteAfterSamplingBegins#st1_2#" + sds[i].getName() + "=" + st1_2.get(sds[i].getName()));
}
sds = ST2.getStatistics();
for (int i = 0; i < sds.length; i++) {
logger.info("testWriteAfterSamplingBegins#st2_1#" + sds[i].getName() + "=" + st2_1.get(sds[i].getName()));
}
sds = ST3.getStatistics();
for (int i = 0; i < sds.length; i++) {
logger.info("testWriteAfterSamplingBegins#st3_1#" + sds[i].getName() + "=" + st3_1.get(sds[i].getName()));
}
for (int i = 0; i < sds.length; i++) {
logger.info("testWriteAfterSamplingBegins#st3_2#" + sds[i].getName() + "=" + st3_2.get(sds[i].getName()));
}
}
// validate that stat archive file exists
final File actual = new File(this.archiveFileName);
assertTrue(actual.exists());
// validate content of stat archive file using StatArchiveReader
final StatArchiveReader reader = new StatArchiveReader(new File[] { actual }, null, false);
// compare all resourceInst values against what was printed above
final List resources = reader.getResourceInstList();
for (final Iterator iter = resources.iterator(); iter.hasNext(); ) {
final StatArchiveReader.ResourceInst ri = (StatArchiveReader.ResourceInst) iter.next();
final String resourceName = ri.getName();
assertNotNull(resourceName);
final String expectedStatsType = this.statisticTypes.get(resourceName);
assertNotNull(expectedStatsType);
assertEquals(expectedStatsType, ri.getType().getName());
final Map<String, Number> expectedStatValues = this.allStatistics.get(resourceName);
assertNotNull(expectedStatValues);
final StatValue[] statValues = ri.getStatValues();
for (int i = 0; i < statValues.length; i++) {
final String statName = ri.getType().getStats()[i].getName();
assertNotNull(statName);
assertNotNull(expectedStatValues.get(statName));
assertEquals(statName, statValues[i].getDescriptor().getName());
statValues[i].setFilter(StatValue.FILTER_NONE);
final double[] rawSnapshots = statValues[i].getRawSnapshots();
// for (int j = 0; j < rawSnapshots.length; j++) {
// logger.info("DEBUG " + ri.getName() + " " + statName + " rawSnapshots[" + j + "] = " +
// rawSnapshots[j]);
// }
assertEquals("Value " + i + " for " + statName + " is wrong: " + expectedStatValues, expectedStatValues.get(statName).doubleValue(), statValues[i].getSnapshotsMostRecent(), 0.01);
}
}
// validate byte content of stat archive file against saved expected file
final File expected = new File(TestUtil.getResourcePath(getClass(), "StatArchiveWriterReaderJUnitTest_" + this.testName.getMethodName() + "_expected.gfs"));
assertTrue(expected + " does not exist!", expected.exists());
assertEquals(expected.length(), actual.length());
assertTrue("Actual stat archive file bytes differ from expected stat archive file bytes!", Arrays.equals(readBytes(expected), readBytes(actual)));
}
use of org.apache.geode.internal.statistics.StatArchiveReader.StatValue in project geode by apache.
the class StatArchiveWriterReaderIntegrationTest method testIntCounterOneSample.
@Test
public void testIntCounterOneSample() throws Exception {
final TestStatisticsManager manager = new TestStatisticsManager(1, getUniqueName(), WRITER_INITIAL_DATE_MILLIS);
final TestStatisticsSampler sampler = new TestStatisticsSampler(manager);
final SampleCollector sampleCollector = new SampleCollector(sampler);
final StatArchiveDescriptor archiveDescriptor = new StatArchiveDescriptor.Builder().setArchiveName(this.archiveFileName).setSystemId(1).setSystemStartTime(WRITER_INITIAL_DATE_MILLIS).setSystemDirectoryPath(this.testName.getMethodName()).setProductDescription(getClass().getSimpleName()).build();
final StatArchiveWriter writer = new TestStatArchiveWriter(archiveDescriptor);
sampleCollector.addSampleHandler(writer);
final StatisticDescriptor[] statsST1 = new StatisticDescriptor[] { manager.createIntCounter("int_counter_1", "d1", "u1") };
final StatisticsType ST1 = manager.createType("ST1", "ST1", statsST1);
final Statistics st1_1 = manager.createAtomicStatistics(ST1, "st1_1", 1);
final int value = 5;
incInt(st1_1, "int_counter_1", value);
final long sampleIncNanos = NANOS_PER_MILLI * 1000;
final long sampleTimeNanos = WRITER_PREVIOUS_TIMESTAMP_NANOS + sampleIncNanos;
sampleCollector.sample(sampleTimeNanos);
writer.close();
final StatisticDescriptor[] sds = ST1.getStatistics();
for (int i = 0; i < sds.length; i++) {
assertEquals(value, st1_1.get(sds[i].getName()));
}
final StatArchiveReader reader = new StatArchiveReader(new File[] { new File(this.archiveFileName) }, null, false);
// compare all resourceInst values against what was printed above
final List resources = reader.getResourceInstList();
assertNotNull(resources);
assertEquals(1, resources.size());
final StatArchiveReader.ResourceInst ri = (StatArchiveReader.ResourceInst) resources.get(0);
assertNotNull(ri);
final String statsName = ri.getName();
assertNotNull(statsName);
assertEquals("st1_1", statsName);
assertEquals("ST1", ri.getType().getName());
final StatValue[] statValues = ri.getStatValues();
assertNotNull(statValues);
assertEquals(1, statValues.length);
final String statName = ri.getType().getStats()[0].getName();
assertNotNull(statName);
assertEquals("int_counter_1", statName);
assertEquals(statName, statValues[0].getDescriptor().getName());
assertEquals(1, statValues[0].getSnapshotsSize());
assertEquals((double) value, statValues[0].getSnapshotsMostRecent(), 0.01);
final long[] timeStampsMillis = statValues[0].getRawAbsoluteTimeStamps();
assertNotNull(timeStampsMillis);
assertEquals(1, timeStampsMillis.length);
final long initPreviousTimeStampMillis = NanoTimer.nanosToMillis(WRITER_PREVIOUS_TIMESTAMP_NANOS);
final long timeStampMillis = NanoTimer.nanosToMillis(sampleTimeNanos);
final long deltaMillis = timeStampMillis - initPreviousTimeStampMillis;
assertEquals(NanoTimer.nanosToMillis(sampleIncNanos), deltaMillis);
final long expectedTimeStampMillis = deltaMillis + WRITER_INITIAL_DATE_MILLIS;
assertEquals(expectedTimeStampMillis, timeStampsMillis[0]);
final double[] snapshots = statValues[0].getRawSnapshots();
assertNotNull(snapshots);
assertEquals(1, snapshots.length);
assertEquals((double) value, snapshots[0], 0.01);
}
use of org.apache.geode.internal.statistics.StatArchiveReader.StatValue in project geode by apache.
the class StatSamplerIntegrationTest method testStatSampler.
@Test
public void testStatSampler() throws Exception {
StatArchiveWriter.setTraceFilter("st1_1", "ST1");
File folder = temporaryFolder.newFolder();
String archiveFileName = folder.getAbsolutePath() + File.separator + getName() + ".gfs";
System.setProperty("stats.log-level", "config");
System.setProperty("stats.disable", "false");
System.setProperty("stats.name", getName());
System.setProperty("stats.archive-file", archiveFileName);
System.setProperty("stats.file-size-limit", "0");
System.setProperty("stats.disk-space-limit", "0");
System.setProperty("stats.sample-rate", "100");
final CancelCriterion stopper = new CancelCriterion() {
public String cancelInProgress() {
return null;
}
public RuntimeException generateCancelledException(Throwable e) {
return null;
}
};
final LocalStatisticsFactory factory = new LocalStatisticsFactory(stopper);
final StatisticDescriptor[] statsST1 = new StatisticDescriptor[] { factory.createDoubleCounter("double_counter_1", "d1", "u1"), factory.createDoubleCounter("double_counter_2", "d2", "u2", true), factory.createDoubleGauge("double_gauge_3", "d3", "u3"), factory.createDoubleGauge("double_gauge_4", "d4", "u4", false), factory.createIntCounter("int_counter_5", "d5", "u5"), factory.createIntCounter("int_counter_6", "d6", "u6", true), factory.createIntGauge("int_gauge_7", "d7", "u7"), factory.createIntGauge("int_gauge_8", "d8", "u8", false), factory.createLongCounter("long_counter_9", "d9", "u9"), factory.createLongCounter("long_counter_10", "d10", "u10", true), factory.createLongGauge("long_gauge_11", "d11", "u11"), factory.createLongGauge("long_gauge_12", "d12", "u12", false), factory.createLongGauge("sampled_long", "d13", "u13", false), factory.createIntGauge("sampled_int", "d14", "u14", false), factory.createDoubleGauge("sampled_double", "d15", "u15", false) };
final StatisticsType ST1 = factory.createType("ST1", "ST1", statsST1);
final Statistics st1_1 = factory.createAtomicStatistics(ST1, "st1_1", 1);
st1_1.setIntSupplier("sampled_int", () -> 5);
getOrCreateExpectedValueMap(st1_1).put("sampled_int", 5);
st1_1.setLongSupplier("sampled_long", () -> 6);
getOrCreateExpectedValueMap(st1_1).put("sampled_long", 6);
st1_1.setDoubleSupplier("sampled_double", () -> 7.0);
getOrCreateExpectedValueMap(st1_1).put("sampled_double", 7.0);
await("awaiting StatSampler readiness").atMost(30, SECONDS).until(() -> hasSamplerStatsInstances(factory));
Statistics[] samplerStatsInstances = factory.findStatisticsByTextId("statSampler");
assertNotNull(samplerStatsInstances);
assertEquals(1, samplerStatsInstances.length);
final Statistics samplerStats = samplerStatsInstances[0];
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_gauge_3", 3);
incInt(st1_1, "int_counter_5", 5);
incInt(st1_1, "int_gauge_7", 7);
incLong(st1_1, "long_counter_9", 9);
incLong(st1_1, "long_gauge_11", 11);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", 1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", -1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", -1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", -1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", 1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
awaitStatSample(samplerStats);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_gauge_3", 3);
incInt(st1_1, "int_counter_5", 5);
incInt(st1_1, "int_gauge_7", 7);
incLong(st1_1, "long_counter_9", 9);
incLong(st1_1, "long_gauge_11", 11);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", 1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", -1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", -1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", -1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
incDouble(st1_1, "double_counter_1", 1);
incDouble(st1_1, "double_counter_2", 1);
incDouble(st1_1, "double_gauge_3", 1);
incDouble(st1_1, "double_gauge_4", 1);
incInt(st1_1, "int_counter_5", 1);
incInt(st1_1, "int_counter_6", 1);
incInt(st1_1, "int_gauge_7", 1);
incInt(st1_1, "int_gauge_8", 1);
incLong(st1_1, "long_counter_9", 1);
incLong(st1_1, "long_counter_10", 1);
incLong(st1_1, "long_gauge_11", 1);
incLong(st1_1, "long_gauge_12", 1);
awaitStatSample(samplerStats);
factory.close();
final File archiveFile = new File(System.getProperty("stats.archive-file"));
assertTrue(archiveFile.exists());
final StatArchiveReader reader = new StatArchiveReader(new File[] { archiveFile }, null, false);
List resources = reader.getResourceInstList();
for (Iterator iter = resources.iterator(); iter.hasNext(); ) {
StatArchiveReader.ResourceInst ri = (StatArchiveReader.ResourceInst) iter.next();
String resourceName = ri.getName();
assertNotNull(resourceName);
if (!resourceName.equals("st1_1")) {
logger.info("testStatSampler skipping {}", resourceName);
continue;
}
String expectedStatsType = this.statisticTypes.get(resourceName);
assertNotNull(expectedStatsType);
assertEquals(expectedStatsType, ri.getType().getName());
Map<String, Number> expectedStatValues = this.allStatistics.get(resourceName);
assertNotNull(expectedStatValues);
StatValue[] statValues = ri.getStatValues();
for (int i = 0; i < statValues.length; i++) {
String statName = ri.getType().getStats()[i].getName();
assertNotNull(statName);
assertNotNull(expectedStatValues.get(statName));
assertEquals(statName, statValues[i].getDescriptor().getName());
statValues[i].setFilter(StatValue.FILTER_NONE);
// double[] rawSnapshots = statValues[i].getRawSnapshots();
assertEquals("Value " + i + " for " + statName + " is wrong: " + expectedStatValues, expectedStatValues.get(statName).doubleValue(), statValues[i].getSnapshotsMostRecent(), 0);
}
}
}
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