public void GetMetric_RespectsClientContext()
{
IList <ITelemetry> sentTelemetry;
TelemetryConfiguration telemetryPipeline = Util.CreateAITelemetryConfig(out sentTelemetry);
telemetryPipeline.InstrumentationKey = "754DD89F-61D6-4539-90C7-D886449E12BC";
TelemetryClient client = new TelemetryClient(telemetryPipeline);
Metric animalsSold = client.GetMetric("AnimalsSold", "Species", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient);
animalsSold.TryTrackValue(10, "Cow");
animalsSold.TryTrackValue(20, "Cow");
client.GetMetricManager(MetricAggregationScope.TelemetryClient).Flush();
animalsSold.TryTrackValue(100, "Rabbit");
animalsSold.TryTrackValue(200, "Rabbit");
client.Context.InstrumentationKey = "3A3C34B6-CA2D-4372-B772-3B015E1E83DC";
client.Context.Device.Model = "Super-Fancy";
client.Context.Properties["MyTag"] = "MyValue";
animalsSold.TryTrackValue(30, "Cow");
animalsSold.TryTrackValue(40, "Cow");
animalsSold.TryTrackValue(300, "Rabbit");
animalsSold.TryTrackValue(400, "Rabbit");
client.GetMetricManager(MetricAggregationScope.TelemetryClient).Flush();
Assert.AreEqual(3, sentTelemetry.Count);
MetricTelemetry[] orderedTelemetry = sentTelemetry
.OrderByDescending((t) => ((MetricTelemetry)t).Count * 10000 + ((MetricTelemetry)t).Sum)
.Select((t) => (MetricTelemetry)t)
.ToArray();
Util.ValidateNumericAggregateValues(orderedTelemetry[0], "AnimalsSold", 4, 1000, 400, 100, 111.803398874989);
Assert.AreEqual(3, orderedTelemetry[0].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Rabbit", orderedTelemetry[0].Context.Properties["Species"]);
Assert.AreEqual("MyValue", orderedTelemetry[0].Context.Properties["MyTag"]);
Assert.AreEqual("Super-Fancy", orderedTelemetry[0].Context.Device.Model);
Assert.AreEqual("3A3C34B6-CA2D-4372-B772-3B015E1E83DC", orderedTelemetry[0].Context.InstrumentationKey);
Util.ValidateNumericAggregateValues(orderedTelemetry[1], "AnimalsSold", 2, 70, 40, 30, 5);
Assert.AreEqual(3, orderedTelemetry[1].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[1].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Cow", orderedTelemetry[1].Context.Properties["Species"]);
Assert.AreEqual("MyValue", orderedTelemetry[1].Context.Properties["MyTag"]);
Assert.AreEqual("Super-Fancy", orderedTelemetry[1].Context.Device.Model);
Assert.AreEqual("3A3C34B6-CA2D-4372-B772-3B015E1E83DC", orderedTelemetry[1].Context.InstrumentationKey);
Util.ValidateNumericAggregateValues(orderedTelemetry[2], "AnimalsSold", 2, 30, 20, 10, 5);
Assert.AreEqual(2, orderedTelemetry[2].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[2].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Cow", orderedTelemetry[2].Context.Properties["Species"]);
Assert.IsNull(orderedTelemetry[2].Context.Device.Model);
Assert.AreEqual("754DD89F-61D6-4539-90C7-D886449E12BC", orderedTelemetry[2].Context.InstrumentationKey);
Util.CompleteDefaultAggregationCycle(client.GetMetricManager(MetricAggregationScope.TelemetryClient));
telemetryPipeline.Dispose();
}
public void GetConfiguration()
{
TelemetryConfiguration pipeline = Util.CreateAITelemetryConfig();
TelemetryClient client = new TelemetryClient(pipeline);
{
Metric metric = client.GetMetric("CowsSold");
Assert.AreEqual(MetricConfigurations.Measurement, metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Measurement, metric.GetConfiguration());
}
{
Metric metric = client.GetMetric("PigsSold", MetricConfigurations.Accumulator);
Assert.AreEqual(MetricConfigurations.Accumulator, metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Accumulator, metric.GetConfiguration());
}
{
Metric metric = client.GetMetric("HorsesSold", MetricConfigurations.Measurement);
Assert.AreEqual(MetricConfigurations.Measurement, metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Measurement, metric.GetConfiguration());
}
{
IMetricConfiguration config = new SimpleMetricConfiguration(10, 5, new SimpleMetricSeriesConfiguration(false));
Metric metric = client.GetMetric("ChickensSold", config);
Assert.AreEqual(config, metric.GetConfiguration());
Assert.AreSame(config, metric.GetConfiguration());
}
Util.CompleteDefaultAggregationCycle(pipeline.Metrics());
pipeline.Dispose();
}
public void Ctor()
{
Assert.ThrowsException <ArgumentNullException>(() => new MetricManager(telemetryPipeline: null));
var manager = new MetricManager(new MemoryMetricTelemetryPipeline());
Assert.IsNotNull(manager);
Util.CompleteDefaultAggregationCycle(manager);
}
public void ResetAggregationDateTimeOffset()
{
// Do not start this test in the last 10 secs or first 2 secs of a minute, to make sure the timings below are likely to work out.
while (DateTimeOffset.Now.Second >= 49 || DateTimeOffset.Now.Second < 3)
{
Thread.Sleep(TimeSpan.FromMilliseconds(500));
}
DateTimeOffset startTS = DateTimeOffset.Now;
var aggregateCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(aggregateCollector);
IMetricSeriesConfiguration config = new MetricSeriesConfigurationForMeasurement(restrictToUInt32Values: false);
MetricSeries series = manager.CreateNewSeries("ns", "Foo Bar", config);
series.TrackValue(0.4);
series.TrackValue(2);
series.TrackValue(-2);
Thread.Sleep(TimeSpan.FromMilliseconds(1500));
DateTimeOffset resetTS = DateTimeOffset.Now;
series.ResetAggregation(resetTS);
series.TrackValue(0.17);
series.TrackValue(0.32);
series.TrackValue(-0.15);
series.TrackValue(1.07);
Assert.AreEqual(0, aggregateCollector.Count);
manager.Flush();
Assert.AreEqual(1, aggregateCollector.Count);
DateTimeOffset endTS = DateTimeOffset.Now;
Util.ValidateNumericAggregateValues(aggregateCollector[0], name: "Foo Bar", count: 4, sum: 1.41, max: 1.07, min: -0.15, stdDev: 0.447681527427702, aggKindMoniker: "Microsoft.Azure.Measurement");
// The following might break sometimes!
// There is a little chance that second boundary is crossed between startTS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreNotEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregateCollector[0].AggregationPeriodStart);
Assert.AreEqual(
new DateTimeOffset(resetTS.Year, resetTS.Month, resetTS.Day, resetTS.Hour, resetTS.Minute, resetTS.Second, 0, resetTS.Offset),
aggregateCollector[0].AggregationPeriodStart);
Util.CompleteDefaultAggregationCycle(manager);
}
public void Properties()
{
var manager = new MetricManager(new MemoryMetricTelemetryPipeline());
IMetricSeriesConfiguration config = new MetricSeriesConfigurationForMeasurement(restrictToUInt32Values: false);
MetricSeries series = manager.CreateNewSeries("Foo Bar", config);
Assert.AreEqual("Foo Bar", series.MetricId);
Assert.AreEqual(config, series.GetConfiguration());
Assert.AreSame(config, series.GetConfiguration());
Util.CompleteDefaultAggregationCycle(manager);
}
public void TrackValueDouble()
{
DateTimeOffset startTS = DateTimeOffset.Now;
var aggregateCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(aggregateCollector);
IMetricSeriesConfiguration config = new MetricSeriesConfigurationForMeasurement(restrictToUInt32Values: false);
MetricSeries series = manager.CreateNewSeries("ns", "Foo Bar", config);
Thread.Sleep(1500);
series.TrackValue(0.4);
series.TrackValue(0.8);
series.TrackValue(-0.04);
Assert.AreEqual(0, aggregateCollector.Count);
manager.Flush();
Assert.AreEqual(1, aggregateCollector.Count);
DateTimeOffset endTSRounded = DateTimeOffset.Now;
endTSRounded = new DateTimeOffset(endTSRounded.Year, endTSRounded.Month, endTSRounded.Day, endTSRounded.Hour, endTSRounded.Minute, endTSRounded.Second, 0, endTSRounded.Offset);
Util.ValidateNumericAggregateValues(aggregateCollector[0], name: "Foo Bar", count: 3, sum: 1.16, max: 0.8, min: -0.04, stdDev: 0.343058142140496, aggKindMoniker: "Microsoft.Azure.Measurement");
// Timestamp checks have to be approximate, since we have no possibilityt to get exact timetamps snapped internally.
// The following might break sometimes!
// There is a little chance that second boundary is crossed between startTS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregateCollector[0].AggregationPeriodStart);
const int millisecsTollerance = 50;
long durationMs = (long)aggregateCollector[0].AggregationPeriodDuration.TotalMilliseconds;
Assert.IsTrue(Math.Abs(durationMs - (endTSRounded - aggregateCollector[0].AggregationPeriodStart).TotalMilliseconds) < millisecsTollerance);
Assert.AreEqual(1, aggregateCollector.Count);
aggregateCollector.Clear();
Assert.AreEqual(0, aggregateCollector.Count);
manager.Flush();
Assert.AreEqual(0, aggregateCollector.Count);
Util.CompleteDefaultAggregationCycle(manager);
}
public void CreateNewSeries()
{
var manager = new MetricManager(new MemoryMetricTelemetryPipeline());
IMetricSeriesConfiguration config = new SimpleMetricSeriesConfiguration(restrictToUInt32Values: false);
Assert.ThrowsException <ArgumentNullException>(() => manager.CreateNewSeries(null, config));
Assert.ThrowsException <ArgumentNullException>(() => manager.CreateNewSeries("Foo Bar", null));
MetricSeries series = manager.CreateNewSeries("Foo Bar", config);
Assert.IsNotNull(series);
Assert.AreEqual(config, series.GetConfiguration());
Assert.AreSame(config, series.GetConfiguration());
Assert.AreEqual("Foo Bar", series.MetricId);
Util.CompleteDefaultAggregationCycle(manager);
}
public void Flush()
{
{
var metricsCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(metricsCollector);
manager.Flush();
Assert.AreEqual(0, metricsCollector.Count);
Util.CompleteDefaultAggregationCycle(manager);
}
{
var metricsCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(metricsCollector);
IMetricSeriesConfiguration measurementConfig = new MetricSeriesConfigurationForMeasurement(restrictToUInt32Values: false);
IMetricSeriesConfiguration accumulatorConfig = new MetricSeriesConfigurationForAccumulator(restrictToUInt32Values: false);
MetricSeries series1 = manager.CreateNewSeries("Test Metrics", "Measurement 1", measurementConfig);
MetricSeries series2 = manager.CreateNewSeries("Test Metrics", "Measurement 2", measurementConfig);
MetricSeries series3 = manager.CreateNewSeries("Other Test Metrics", "Accumulator 1", accumulatorConfig);
series1.TrackValue(1);
series1.TrackValue(1);
series1.TrackValue(1);
series2.TrackValue(-1);
series2.TrackValue(-1);
series2.TrackValue(-1);
series3.TrackValue(-2);
series3.TrackValue(1);
series3.TrackValue(1);
manager.Flush();
Assert.AreEqual(3, metricsCollector.Count);
Assert.AreEqual(1, metricsCollector.Where((item) => item.MetricId.Equals("Measurement 1")).Count());
Assert.AreEqual("Test Metrics", (metricsCollector.First((item) => item.MetricId.Equals("Measurement 1"))).MetricNamespace);
Assert.AreEqual(3, (metricsCollector.First((item) => item.MetricId.Equals("Measurement 1"))).Data["Count"]);
Assert.AreEqual(3.0, (metricsCollector.First((item) => item.MetricId.Equals("Measurement 1"))).Data["Sum"]);
Assert.AreEqual(1, metricsCollector.Where((item) => item.MetricId.Equals("Measurement 2")).Count());
Assert.AreEqual("Test Metrics", (metricsCollector.First((item) => item.MetricId.Equals("Measurement 2"))).MetricNamespace);
Assert.AreEqual(3, (metricsCollector.First((item) => item.MetricId.Equals("Measurement 2"))).Data["Count"]);
Assert.AreEqual(-3.0, (metricsCollector.First((item) => item.MetricId.Equals("Measurement 2"))).Data["Sum"]);
Assert.AreEqual(1, metricsCollector.Where((item) => item.MetricId.Equals("Accumulator 1")).Count());
Assert.AreEqual("Other Test Metrics", (metricsCollector.First((item) => item.MetricId.Equals("Accumulator 1"))).MetricNamespace);
Assert.AreEqual(0.0, (metricsCollector.First((item) => item.MetricId.Equals("Accumulator 1"))).Data["Sum"]);
metricsCollector.Clear();
Assert.AreEqual(0, metricsCollector.Count);
manager.Flush();
Assert.AreEqual(1, metricsCollector.Count);
Assert.AreEqual(1, metricsCollector.Where((item) => item.MetricId.Equals("Accumulator 1")).Count());
Assert.AreEqual(0.0, (metricsCollector.First((item) => item.MetricId.Equals("Accumulator 1"))).Data["Sum"]);
Util.CompleteDefaultAggregationCycle(manager);
}
}
public void GetMetric_RespectsAggregationScope()
{
IList <ITelemetry> sentTelemetry1, sentTelemetry2;
TelemetryConfiguration telemetryPipeline1 = Util.CreateAITelemetryConfig(out sentTelemetry1);
TelemetryConfiguration telemetryPipeline2 = Util.CreateAITelemetryConfig(out sentTelemetry2);
TelemetryClient client11 = new TelemetryClient(telemetryPipeline1);
TelemetryClient client12 = new TelemetryClient(telemetryPipeline1);
TelemetryClient client21 = new TelemetryClient(telemetryPipeline2);
Metric metricA111 = client11.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration);
metricA111.TrackValue(101);
metricA111.TrackValue(102);
metricA111.TryTrackValue(111, "Val");
metricA111.TryTrackValue(112, "Val");
Metric metricA112 = client11.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement());
metricA112.TrackValue(103);
metricA112.TrackValue(104);
metricA112.TryTrackValue(113, "Val");
metricA112.TryTrackValue(114, "Val");
Metric metricA113 = client11.GetMetric("Metric A", "Dim1");
metricA113.TrackValue(105);
metricA113.TrackValue(106);
metricA113.TryTrackValue(115, "Val");
metricA113.TryTrackValue(116, "Val");
Assert.AreSame(metricA111, metricA112);
Assert.AreSame(metricA111, metricA113);
Assert.AreSame(metricA112, metricA113);
MetricSeries series1, series2;
Assert.IsTrue(metricA111.TryGetDataSeries(out series1));
Assert.IsTrue(metricA112.TryGetDataSeries(out series2));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA113.TryGetDataSeries(out series2));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA112.TryGetDataSeries(out series1));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA111.TryGetDataSeries(out series1, "Val"));
Assert.IsTrue(metricA112.TryGetDataSeries(out series2, "Val"));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA113.TryGetDataSeries(out series2, "Val"));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA112.TryGetDataSeries(out series1, "Val"));
Assert.AreSame(series1, series2);
Metric metricA121 = client12.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration);
metricA121.TrackValue(107);
metricA121.TrackValue(108);
metricA121.TryTrackValue(117, "Val");
metricA121.TryTrackValue(118, "Val");
Assert.AreSame(metricA111, metricA121);
Metric metricA211 = client21.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration);
metricA211.TrackValue(201);
metricA211.TrackValue(202);
metricA211.TryTrackValue(211, "Val");
metricA211.TryTrackValue(212, "Val");
Assert.AreNotSame(metricA111, metricA211);
Metric metricA11c1 = client11.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient);
metricA11c1.TrackValue(301);
metricA11c1.TrackValue(302);
metricA11c1.TryTrackValue(311, "Val");
metricA11c1.TryTrackValue(312, "Val");
Metric metricA11c2 = client11.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient);
metricA11c2.TrackValue(303);
metricA11c2.TrackValue(304);
metricA11c2.TryTrackValue(313, "Val");
metricA11c2.TryTrackValue(314, "Val");
Assert.AreNotSame(metricA111, metricA11c1);
Assert.AreSame(metricA11c1, metricA11c2);
Assert.IsTrue(metricA11c1.TryGetDataSeries(out series1));
Assert.IsTrue(metricA11c1.TryGetDataSeries(out series2));
Assert.AreSame(series1, series2);
Assert.IsTrue(metricA11c1.TryGetDataSeries(out series1, "Val"));
Assert.IsTrue(metricA11c1.TryGetDataSeries(out series2, "Val"));
Assert.AreSame(series1, series2);
Metric metricA12c1 = client12.GetMetric("Metric A", "Dim1", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient);
metricA12c1.TrackValue(305);
metricA12c1.TrackValue(306);
metricA12c1.TryTrackValue(315, "Val");
metricA12c1.TryTrackValue(316, "Val");
Assert.AreNotSame(metricA11c1, metricA12c1);
client11.GetMetricManager(MetricAggregationScope.TelemetryClient).Flush();
client12.GetMetricManager(MetricAggregationScope.TelemetryClient).Flush();
client21.GetMetricManager(MetricAggregationScope.TelemetryClient).Flush();
telemetryPipeline1.GetMetricManager().Flush();
telemetryPipeline2.GetMetricManager().Flush();
Assert.AreEqual(6, sentTelemetry1.Count);
Assert.AreEqual(2, sentTelemetry2.Count);
MetricTelemetry[] orderedTelemetry = sentTelemetry1
.OrderByDescending((t) => ((MetricTelemetry)t).Count * 10000 + ((MetricTelemetry)t).Sum)
.Select((t) => (MetricTelemetry)t)
.ToArray();
Util.ValidateNumericAggregateValues(orderedTelemetry[0], "Metric A", 8, 916, 118, 111, 2.29128784747792);
Assert.AreEqual(2, orderedTelemetry[0].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Val", orderedTelemetry[0].Context.Properties["Dim1"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[1], "Metric A", 8, 836, 108, 101, 2.29128784747792);
Assert.AreEqual(1, orderedTelemetry[1].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[1].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Util.ValidateNumericAggregateValues(orderedTelemetry[2], "Metric A", 4, 1250, 314, 311, 1.11803398874989);
Assert.AreEqual(2, orderedTelemetry[2].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[2].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Val", orderedTelemetry[2].Context.Properties["Dim1"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[3], "Metric A", 4, 1210, 304, 301, 1.11803398874989);
Assert.AreEqual(1, orderedTelemetry[3].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[3].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Util.ValidateNumericAggregateValues(orderedTelemetry[4], "Metric A", 2, 631, 316, 315, 0.5);
Assert.AreEqual(2, orderedTelemetry[4].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[4].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Val", orderedTelemetry[4].Context.Properties["Dim1"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[5], "Metric A", 2, 611, 306, 305, 0.5);
Assert.AreEqual(1, orderedTelemetry[5].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[5].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
orderedTelemetry = sentTelemetry2
.OrderByDescending((t) => ((MetricTelemetry)t).Count * 10000 + ((MetricTelemetry)t).Sum)
.Select((t) => (MetricTelemetry)t)
.ToArray();
Util.ValidateNumericAggregateValues(orderedTelemetry[0], "Metric A", 2, 423, 212, 211, 0.5);
Assert.AreEqual(2, orderedTelemetry[0].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Val", orderedTelemetry[0].Context.Properties["Dim1"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[1], "Metric A", 2, 403, 202, 201, 0.5);
Assert.AreEqual(1, orderedTelemetry[1].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[1].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Metric metricB21c1 = client21.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient);
TelemetryClient client22 = new TelemetryClient(telemetryPipeline2);
TelemetryClient client23 = new TelemetryClient(telemetryPipeline2);
Assert.AreNotSame(metricB21c1, client22.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient));
Assert.AreSame(metricB21c1, client21.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryClient));
Assert.ThrowsException <ArgumentException>(() => client21.GetMetric("Metric B", MetricConfigurations.Common.Accumulator(), MetricAggregationScope.TelemetryClient));
Assert.IsNotNull(client23.GetMetric("Metric B", MetricConfigurations.Common.Accumulator(), MetricAggregationScope.TelemetryClient));
Metric metricB211 = client21.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration);
TelemetryClient client24 = new TelemetryClient(telemetryPipeline2);
TelemetryClient client25 = new TelemetryClient(telemetryPipeline2);
Assert.AreSame(metricB211, client24.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration));
Assert.AreSame(metricB211, client21.GetMetric("Metric B", MetricConfigurations.Common.Measurement(), MetricAggregationScope.TelemetryConfiguration));
Assert.ThrowsException <ArgumentException>(() => client21.GetMetric("Metric B", MetricConfigurations.Common.Accumulator(), MetricAggregationScope.TelemetryConfiguration));
Assert.ThrowsException <ArgumentException>(() => client25.GetMetric("Metric B", MetricConfigurations.Common.Accumulator(), MetricAggregationScope.TelemetryConfiguration));
Assert.ThrowsException <ArgumentException>(() => client11.GetMetric("Metric C", MetricConfigurations.Common.Accumulator(), (MetricAggregationScope)42));
Util.CompleteDefaultAggregationCycle(
client11.GetMetricManager(MetricAggregationScope.TelemetryClient),
client12.GetMetricManager(MetricAggregationScope.TelemetryClient),
client21.GetMetricManager(MetricAggregationScope.TelemetryClient),
client22.GetMetricManager(MetricAggregationScope.TelemetryClient),
client23.GetMetricManager(MetricAggregationScope.TelemetryClient),
client24.GetMetricManager(MetricAggregationScope.TelemetryClient),
client25.GetMetricManager(MetricAggregationScope.TelemetryClient),
telemetryPipeline2.GetMetricManager(),
telemetryPipeline1.GetMetricManager());
telemetryPipeline1.Dispose();
telemetryPipeline2.Dispose();
}
public void GetMetric_DetectsMetricConfigurationConflicts()
{
IList <ITelemetry> sentTelemetry;
TelemetryConfiguration telemetryPipeline = Util.CreateAITelemetryConfig(out sentTelemetry);
TelemetryClient client = new TelemetryClient(telemetryPipeline);
{
Metric m1 = client.GetMetric("M01");
Assert.IsNotNull(m1);
Metric m2 = client.GetMetric("M01");
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M01 ");
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M01", MetricConfigurations.Common.Measurement());
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M01", metricConfiguration: null);
Assert.AreSame(m1, m2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M01", MetricConfigurations.Common.Accumulator()));
MetricConfiguration config1 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
MetricConfiguration config2 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreEqual(config1, config2);
Assert.AreNotSame(config1, config2);
m1 = client.GetMetric("M02", config1);
Assert.IsNotNull(m1);
m2 = client.GetMetric("M02", config2);
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M02", metricConfiguration: null);
Assert.AreSame(m1, m2);
config2 = new MetricConfiguration(10, 101, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreNotEqual(config1, config2);
Assert.AreNotSame(config1, config2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M02", config2));
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M02 ", config2));
}
{
Metric m1 = client.GetMetric("M11", "Dim1");
Assert.IsNotNull(m1);
Metric m2 = client.GetMetric("M11", "Dim1");
Assert.AreSame(m1, m2);
m2 = client.GetMetric(" M11", "Dim1");
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M11", " Dim1");
Assert.AreSame(m1, m2);
m2 = client.GetMetric(" M11", " Dim1", MetricConfigurations.Common.Measurement());
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M11", "Dim1", metricConfiguration: null);
Assert.AreSame(m1, m2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M11", "Dim1 ", MetricConfigurations.Common.Accumulator()));
MetricConfiguration config1 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
MetricConfiguration config2 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreEqual(config1, config2);
Assert.AreNotSame(config1, config2);
m1 = client.GetMetric("M12 ", "Dim1", config1);
Assert.IsNotNull(m1);
m2 = client.GetMetric("M12", "Dim1 ", config2);
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M12", "Dim1", metricConfiguration: null);
Assert.AreSame(m1, m2);
config2 = new MetricConfiguration(10, 101, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreNotEqual(config1, config2);
Assert.AreNotSame(config1, config2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M12", "Dim1", config2));
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M12 ", "Dim1", config2));
}
{
Metric m1 = client.GetMetric("M21", "Dim1", "Dim2");
Assert.IsNotNull(m1);
Metric m2 = client.GetMetric("M21", "Dim1", "Dim2");
Assert.AreSame(m1, m2);
m2 = client.GetMetric(" M21", "Dim1", "Dim2");
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M21", " Dim1", "Dim2");
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M21", "Dim1", " Dim2");
Assert.AreSame(m1, m2);
m2 = client.GetMetric(" M21", " Dim1", "Dim2", MetricConfigurations.Common.Measurement());
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M21", "Dim1", "Dim2 ", metricConfiguration: null);
Assert.AreSame(m1, m2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M21", "Dim1 ", "Dim2", MetricConfigurations.Common.Accumulator()));
MetricConfiguration config1 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
MetricConfiguration config2 = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreEqual(config1, config2);
Assert.AreNotSame(config1, config2);
m1 = client.GetMetric("M22 ", "Dim1", "Dim2 ", config1);
Assert.IsNotNull(m1);
m2 = client.GetMetric("M22", "Dim1 ", "Dim2", config2);
Assert.AreSame(m1, m2);
m2 = client.GetMetric("M22", "Dim1", "Dim2", metricConfiguration: null);
Assert.AreSame(m1, m2);
config2 = new MetricConfiguration(10, 101, new MetricSeriesConfigurationForMeasurement(false));
Assert.AreNotEqual(config1, config2);
Assert.AreNotSame(config1, config2);
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M22", "Dim1", "Dim2", config2));
Assert.ThrowsException <ArgumentException>(() => client.GetMetric("M22 ", "Dim1", "Dim2", config2));
}
{
Metric m0 = client.GetMetric("Xxx");
Metric m1 = client.GetMetric("Xxx", "Dim1");
Metric m2 = client.GetMetric("Xxx", "Dim1", "Dim2");
Assert.IsNotNull(m0);
Assert.IsNotNull(m1);
Assert.IsNotNull(m2);
Assert.AreNotSame(m0, m1);
Assert.AreNotSame(m0, m2);
Assert.AreNotSame(m1, m2);
Assert.AreSame(m0.GetConfiguration(), m1.GetConfiguration());
Assert.AreSame(m0.GetConfiguration(), m2.GetConfiguration());
Assert.AreSame(m1.GetConfiguration(), m2.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), m0.GetConfiguration());
}
Util.CompleteDefaultAggregationCycle(telemetryPipeline.GetMetricManager());
telemetryPipeline.Dispose();
}
public void GetMetric_SendsData()
{
IList <ITelemetry> sentTelemetry;
TelemetryConfiguration telemetryPipeline = Util.CreateAITelemetryConfig(out sentTelemetry);
TelemetryClient client = new TelemetryClient(telemetryPipeline);
{
Metric metric = client.GetMetric("CowsSold");
Assert.IsNotNull(metric);
Assert.AreEqual(0, metric.Identifier.DimensionsCount);
Assert.AreEqual("CowsSold", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
metric.TrackValue(0.5);
metric.TrackValue(0.6);
Assert.ThrowsException <ArgumentException>(() => metric.TryTrackValue(1.5, "A"));
Assert.ThrowsException <ArgumentException>(() => metric.TryTrackValue(2.5, "A", "X"));
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(1, sentTelemetry.Count);
Util.ValidateNumericAggregateValues(sentTelemetry[0], "CowsSold", 2, 1.1, 0.6, 0.5, 0.05);
Assert.AreEqual(1, sentTelemetry[0].Context.Properties.Count);
Assert.IsTrue(sentTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
sentTelemetry.Clear();
metric.TrackValue(0.7);
metric.TrackValue(0.8);
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(1, sentTelemetry.Count);
Util.ValidateNumericAggregateValues(sentTelemetry[0], "CowsSold", 2, 1.5, 0.8, 0.7, 0.05);
Assert.AreEqual(1, sentTelemetry[0].Context.Properties.Count);
Assert.IsTrue(sentTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
sentTelemetry.Clear();
}
{
Metric metric = client.GetMetric("CowsSold", "Color", MetricConfigurations.Common.Accumulator());
Assert.IsNotNull(metric);
Assert.AreEqual(1, metric.Identifier.DimensionsCount);
Assert.AreEqual("CowsSold", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
metric.TryTrackValue(0.5, "Purple");
metric.TryTrackValue(0.6, "Purple");
Assert.ThrowsException <ArgumentException>(() => metric.TryTrackValue(2.5, "A", "X"));
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(1, sentTelemetry.Count);
Util.ValidateNumericAggregateValues(sentTelemetry[0], "CowsSold", 1, 1.1, 1.1, 0.5, null);
Assert.AreEqual(2, sentTelemetry[0].Context.Properties.Count);
Assert.IsTrue(sentTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", sentTelemetry[0].Context.Properties["Color"]);
sentTelemetry.Clear();
metric.TryTrackValue(0.7, "Purple");
metric.TryTrackValue(0.8, "Purple");
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(1, sentTelemetry.Count);
Util.ValidateNumericAggregateValues(sentTelemetry[0], "CowsSold", 1, 2.6, 2.6, 0.5, null);
Assert.AreEqual(2, sentTelemetry[0].Context.Properties.Count);
Assert.IsTrue(sentTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", sentTelemetry[0].Context.Properties["Color"]);
sentTelemetry.Clear();
}
{
Metric metric = client.GetMetric("CowsSold", "Color", "Size", MetricConfigurations.Common.Accumulator());
Assert.IsNotNull(metric);
Assert.AreEqual(2, metric.Identifier.DimensionsCount);
Assert.AreEqual("CowsSold", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
metric.TryTrackValue(0.5, "Purple", "Large");
metric.TryTrackValue(0.6, "Purple", "Large");
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(2, sentTelemetry.Count);
MetricTelemetry[] orderedTelemetry = sentTelemetry
.OrderByDescending((t) => ((MetricTelemetry)t).Count * 10000 + ((MetricTelemetry)t).Sum)
.Select((t) => (MetricTelemetry)t)
.ToArray();
// This one is from the prev section:
Util.ValidateNumericAggregateValues(orderedTelemetry[0], "CowsSold", 1, 2.6, 2.6, 0.5, null);
Assert.AreEqual(2, orderedTelemetry[0].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", orderedTelemetry[0].Context.Properties["Color"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[1], "CowsSold", 1, 1.1, 1.1, 0.5, null);
Assert.AreEqual(3, orderedTelemetry[1].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[1].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", orderedTelemetry[1].Context.Properties["Color"]);
Assert.AreEqual("Large", orderedTelemetry[1].Context.Properties["Size"]);
sentTelemetry.Clear();
metric.TryTrackValue(0.7, "Purple", "Large");
metric.TryTrackValue(0.8, "Purple", "Small");
telemetryPipeline.GetMetricManager().Flush();
Assert.AreEqual(3, sentTelemetry.Count);
orderedTelemetry = sentTelemetry
.OrderByDescending((t) => ((MetricTelemetry)t).Count * 10000 + ((MetricTelemetry)t).Sum)
.Select((t) => (MetricTelemetry)t)
.ToArray();
// This one is from the prev section:
Util.ValidateNumericAggregateValues(orderedTelemetry[0], "CowsSold", 1, 2.6, 2.6, 0.5, null);
Assert.AreEqual(2, orderedTelemetry[0].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[0].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", orderedTelemetry[0].Context.Properties["Color"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[1], "CowsSold", 1, 1.8, 1.8, 0.5, null);
Assert.AreEqual(3, orderedTelemetry[1].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[1].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", orderedTelemetry[1].Context.Properties["Color"]);
Assert.AreEqual("Large", orderedTelemetry[1].Context.Properties["Size"]);
Util.ValidateNumericAggregateValues(orderedTelemetry[2], "CowsSold", 1, 0.8, 0.8, 0.8, null);
Assert.AreEqual(3, orderedTelemetry[2].Context.Properties.Count);
Assert.IsTrue(orderedTelemetry[2].Context.Properties.ContainsKey(Util.AggregationIntervalMonikerPropertyKey));
Assert.AreEqual("Purple", orderedTelemetry[2].Context.Properties["Color"]);
Assert.AreEqual("Small", orderedTelemetry[2].Context.Properties["Size"]);
sentTelemetry.Clear();
}
Util.CompleteDefaultAggregationCycle(telemetryPipeline.GetMetricManager());
telemetryPipeline.Dispose();
}
public void GetMetric_RespectsMetricConfiguration()
{
IList <ITelemetry> sentTelemetry;
TelemetryConfiguration telemetryPipeline = Util.CreateAITelemetryConfig(out sentTelemetry);
TelemetryClient client = new TelemetryClient(telemetryPipeline);
{
Metric metric = client.GetMetric("M1");
Assert.IsNotNull(metric);
Assert.AreEqual(0, metric.Identifier.DimensionsCount);
Assert.AreEqual("M1", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M2", MetricConfigurations.Common.Measurement());
Assert.IsNotNull(metric);
Assert.AreEqual(0, metric.Identifier.DimensionsCount);
Assert.AreEqual("M2", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M3", MetricConfigurations.Common.Accumulator());
Assert.IsNotNull(metric);
Assert.AreEqual(0, metric.Identifier.DimensionsCount);
Assert.AreEqual("M3", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
}
{
MetricConfiguration config = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(true));
Metric metric = client.GetMetric("M4", config);
Assert.IsNotNull(metric);
Assert.AreEqual(0, metric.Identifier.DimensionsCount);
Assert.AreEqual("M4", metric.Identifier.MetricId);
Assert.AreEqual(config, metric.GetConfiguration());
Assert.AreSame(config, metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
Assert.AreNotSame(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M5", "Dim1");
Assert.IsNotNull(metric);
Assert.AreEqual(1, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("M5", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val"));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M6", "Dim1", MetricConfigurations.Common.Measurement());
Assert.IsNotNull(metric);
Assert.AreEqual(1, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("M6", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val"));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M7", "Dim1", MetricConfigurations.Common.Accumulator());
Assert.IsNotNull(metric);
Assert.AreEqual(1, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("M7", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val"));
Assert.AreEqual(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
}
{
MetricConfiguration config = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(true));
Metric metric = client.GetMetric("M8", "Dim1", config);
Assert.IsNotNull(metric);
Assert.AreEqual(1, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("M8", metric.Identifier.MetricId);
Assert.AreEqual(config, metric.GetConfiguration());
Assert.AreSame(config, metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(config.SeriesConfig, series.GetConfiguration());
Assert.AreSame(config.SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val"));
Assert.AreEqual(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
Assert.AreNotSame(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M9", "Dim1", "Dim2");
Assert.IsNotNull(metric);
Assert.AreEqual(2, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("Dim2", metric.Identifier.GetDimensionName(2));
Assert.AreEqual("M9", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val", "Dim2val"));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M10", "Dim1", "Dim2", MetricConfigurations.Common.Measurement());
Assert.IsNotNull(metric);
Assert.AreEqual(2, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("Dim2", metric.Identifier.GetDimensionName(2));
Assert.AreEqual("M10", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val", "Dim2val"));
Assert.AreEqual(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Measurement().SeriesConfig, series.GetConfiguration());
}
{
Metric metric = client.GetMetric("M11", "Dim1", "Dim2", MetricConfigurations.Common.Accumulator());
Assert.IsNotNull(metric);
Assert.AreEqual(2, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("Dim2", metric.Identifier.GetDimensionName(2));
Assert.AreEqual("M11", metric.Identifier.MetricId);
Assert.AreEqual(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator(), metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val", "Dim2val"));
Assert.AreEqual(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
Assert.AreSame(MetricConfigurations.Common.Accumulator().SeriesConfig, series.GetConfiguration());
}
{
MetricConfiguration config = new MetricConfiguration(10, 10, new MetricSeriesConfigurationForMeasurement(true));
Metric metric = client.GetMetric("M12", "Dim1", "Dim2", config);
Assert.IsNotNull(metric);
Assert.AreEqual(2, metric.Identifier.DimensionsCount);
Assert.AreEqual("Dim1", metric.Identifier.GetDimensionName(1));
Assert.AreEqual("Dim2", metric.Identifier.GetDimensionName(2));
Assert.AreEqual("M12", metric.Identifier.MetricId);
Assert.AreEqual(config, metric.GetConfiguration());
Assert.AreSame(config, metric.GetConfiguration());
MetricSeries series;
Assert.IsTrue(metric.TryGetDataSeries(out series));
Assert.AreEqual(config.SeriesConfig, series.GetConfiguration());
Assert.AreSame(config.SeriesConfig, series.GetConfiguration());
Assert.IsTrue(metric.TryGetDataSeries(out series, "Dim1Val", "Dim2val"));
Assert.AreEqual(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
Assert.AreNotSame(new MetricSeriesConfigurationForMeasurement(true), series.GetConfiguration());
Assert.AreSame(config.SeriesConfig, series.GetConfiguration());
}
Util.CompleteDefaultAggregationCycle(telemetryPipeline.GetMetricManager());
}
public void GetCurrentAggregateUnsafe_MetricAggregationCycleKind_DateTimeOffset_Accumulator()
{
IMetricSeriesConfiguration seriesConfig = new MetricSeriesConfigurationForAccumulator(restrictToUInt32Values: false);
const string aggregationKindMoniker = "Microsoft.Azure.Accumulator";
// Do not start this test in the last 10 secs or first 2 secs of a minute, to make sure the timings below are likely to work out.
while (DateTimeOffset.Now.Second >= 49 || DateTimeOffset.Now.Second < 3)
{
Thread.Sleep(TimeSpan.FromMilliseconds(500));
}
DateTimeOffset startTS = DateTimeOffset.Now;
var aggregateCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(aggregateCollector);
MetricSeries series = manager.CreateNewSeries("ns", "Foo Bar", seriesConfig);
DateTimeOffset stepTS = startTS.AddMinutes(2);
DateTimeOffset stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Assert.IsNull(aggregate);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
Assert.IsNull(aggregate);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
Assert.IsNull(aggregate);
}
series.TrackValue(0.4);
series.TrackValue(2);
series.TrackValue(-2);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 0.4, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 0.4, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 0.4, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
}
DateTimeOffset customCycleStartTS = stepTS.AddMinutes(1);
manager.StartOrCycleAggregators(MetricAggregationCycleKind.Custom, customCycleStartTS, futureFilter: null);
series.TrackValue(0.17);
series.TrackValue(0.32);
series.TrackValue(-0.15);
series.TrackValue(1.07);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
}
Thread.Sleep(1500);
DateTimeOffset flushTS = DateTimeOffset.Now;
manager.Flush();
DateTimeOffset quickPulseCycleStartTS = stepTS.AddMinutes(1);
manager.StartOrCycleAggregators(MetricAggregationCycleKind.QuickPulse, quickPulseCycleStartTS, futureFilter: null);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
}
series.TrackValue(0);
series.TrackValue(-10);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
manager.StopAggregators(MetricAggregationCycleKind.Custom, stepTS);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: -8.19, max: 2.4, min: -8.19, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
if (seriesConfig.RequiresPersistentAggregation)
{
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: -8.19, max: 2.4, min: -8.19, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
else
{
Assert.IsNull(aggregate);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: -8.19, max: 2.4, min: -8.19, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
}
Util.CompleteDefaultAggregationCycle(manager);
}
public void GetCurrentAggregateUnsafe_Accumulator()
{
IMetricSeriesConfiguration seriesConfig = new MetricSeriesConfigurationForAccumulator(restrictToUInt32Values: false);
const string aggregationKindMoniker = "Microsoft.Azure.Accumulator";
// Do not start this test in the last 10 secs or first 2 secs of a minute, to make sure the timings below are likely to work out.
while (DateTimeOffset.Now.Second >= 49 || DateTimeOffset.Now.Second < 3)
{
Thread.Sleep(TimeSpan.FromMilliseconds(500));
}
DateTimeOffset startTS = DateTimeOffset.Now;
var aggregateCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(aggregateCollector);
MetricSeries series = manager.CreateNewSeries("ns", "Foo Bar", seriesConfig);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe();
Assert.IsNull(aggregate);
}
series.TrackValue(0.4);
series.TrackValue(2);
series.TrackValue(-2);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe();
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 0.4, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// The following might break sometimes!
// There is a little chance that second boundary is crossed between test TS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
}
series.TrackValue(0.17);
series.TrackValue(0.32);
series.TrackValue(-0.15);
series.TrackValue(1.07);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe();
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// The following might break sometimes!
// There is a little chance that second boundary is crossed between test TS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
}
Thread.Sleep(1500);
DateTimeOffset flushTS = DateTimeOffset.Now;
manager.Flush();
{
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe();
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// The following might break sometimes!
// There is a little chance that second boundary is crossed between test TS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
}
series.TrackValue(0);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe();
Assert.IsTrue(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 0, sum: 1.81, max: 2.4, min: 0.4, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// The following might break sometimes!
// There is a little chance that second boundary is crossed between test TS and the aggregation timestamps are snapped.
// rerun the test if it happens.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
}
Util.CompleteDefaultAggregationCycle(manager);
}
public void GetCurrentAggregateUnsafe_MetricAggregationCycleKind_DateTimeOffset_Measurement()
{
IMetricSeriesConfiguration seriesConfig = new MetricSeriesConfigurationForMeasurement(restrictToUInt32Values: false);
const string aggregationKindMoniker = "Microsoft.Azure.Measurement";
// Do not start this test in the last 10 secs or first 2 secs of a minute, to make sure the timings below are likely to work out.
while (DateTimeOffset.Now.Second >= 49 || DateTimeOffset.Now.Second < 3)
{
Thread.Sleep(TimeSpan.FromMilliseconds(500));
}
DateTimeOffset startTS = DateTimeOffset.Now;
var aggregateCollector = new MemoryMetricTelemetryPipeline();
var manager = new MetricManager(aggregateCollector);
MetricSeries series = manager.CreateNewSeries("Foo Bar", seriesConfig);
DateTimeOffset stepTS = startTS.AddMinutes(2);
DateTimeOffset stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Assert.IsNull(aggregate);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
Assert.IsNull(aggregate);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
Assert.IsNull(aggregate);
}
series.TrackValue(0.4);
series.TrackValue(2);
series.TrackValue(-2);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 3, sum: 0.4, max: 2, min: -2, stdDev: 1.64384373412506, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
Assert.IsNull(aggregate);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
Assert.IsNull(aggregate);
}
}
DateTimeOffset customCycleStartTS = stepTS.AddMinutes(1);
manager.StartOrCycleAggregators(MetricAggregationCycleKind.Custom, customCycleStartTS, futureFilter: null);
series.TrackValue(0.17);
series.TrackValue(0.32);
series.TrackValue(-0.15);
series.TrackValue(1.07);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 7, sum: 1.81, max: 2, min: -2, stdDev: 1.13330652229191, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(startTS.Year, startTS.Month, startTS.Day, startTS.Hour, startTS.Minute, startTS.Second, 0, startTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 4, sum: 1.41, max: 1.07, min: -0.15, stdDev: 0.447681527427702, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(customCycleStartTS.Year, customCycleStartTS.Month, customCycleStartTS.Day, customCycleStartTS.Hour, customCycleStartTS.Minute, customCycleStartTS.Second, 0, customCycleStartTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Assert.IsNull(aggregate);
}
}
Thread.Sleep(1500);
DateTimeOffset flushTS = DateTimeOffset.Now;
manager.Flush();
DateTimeOffset quickPulseCycleStartTS = stepTS.AddMinutes(1);
manager.StartOrCycleAggregators(MetricAggregationCycleKind.QuickPulse, quickPulseCycleStartTS, futureFilter: null);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Assert.IsNull(aggregate);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
// Custom was not cycled by Flush.
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 4, sum: 1.41, max: 1.07, min: -0.15, stdDev: 0.447681527427702, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(customCycleStartTS.Year, customCycleStartTS.Month, customCycleStartTS.Day, customCycleStartTS.Hour, customCycleStartTS.Minute, customCycleStartTS.Second, 0, customCycleStartTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
manager.StartOrCycleAggregators(MetricAggregationCycleKind.Custom, flushTS, null);
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
Assert.IsNull(aggregate);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
// We started QP cycle now, but we did not write values since then.
Assert.IsNull(aggregate);
}
}
series.TrackValue(0);
stepTS = stepTS.AddMinutes(2);
stepTSRounded = new DateTimeOffset(stepTS.Year, stepTS.Month, stepTS.Day, stepTS.Hour, stepTS.Minute, stepTS.Second, 0, stepTS.Offset);
manager.StopAggregators(MetricAggregationCycleKind.Custom, stepTS);
{
MetricAggregate aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Default, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 1, sum: 0, max: 0, min: 0, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(flushTS.Year, flushTS.Month, flushTS.Day, flushTS.Hour, flushTS.Minute, flushTS.Second, 0, flushTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.Custom, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Assert.IsNull(aggregate);
}
aggregate = series.GetCurrentAggregateUnsafe(MetricAggregationCycleKind.QuickPulse, stepTS);
{
Assert.IsFalse(seriesConfig.RequiresPersistentAggregation);
Util.ValidateNumericAggregateValues(aggregate, name: "Foo Bar", count: 1, sum: 0, max: 0, min: 0, stdDev: 0, aggKindMoniker: aggregationKindMoniker);
// This might break: Second boundary might be crossed between snapping test and the aggregation timestamps. Try re-running.
Assert.AreEqual(
new DateTimeOffset(quickPulseCycleStartTS.Year, quickPulseCycleStartTS.Month, quickPulseCycleStartTS.Day, quickPulseCycleStartTS.Hour, quickPulseCycleStartTS.Minute, quickPulseCycleStartTS.Second, 0, quickPulseCycleStartTS.Offset),
aggregate.AggregationPeriodStart);
Assert.AreEqual(
(stepTSRounded - aggregate.AggregationPeriodStart).TotalMilliseconds,
aggregate.AggregationPeriodDuration.TotalMilliseconds);
}
}
Util.CompleteDefaultAggregationCycle(manager);
}