public void Trace_Simple_Buffer()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_Simple_Buffer), _testId);
// Create annotations with very large labels to ensure the buffer is flushed.
string label = string.Join("", Enumerable.Repeat("1234567890", 1000));
var labels = new Dictionary <string, string>
{
{ "key-one", label },
{ "key-two", label },
{ "key-three", label },
{ "key-four", label },
{ "key-five", label },
};
using (var consumer = SizedBufferingConsumer <TraceProto> .Create(_grpcConsumer, MessageSizer <TraceProto> .GetSize, BufferOptions.DefaultBufferSize / 2))
{
var tracer = CreateSimpleManagedTracer(consumer);
using (tracer.StartSpan(rootSpanName))
{
BlockUntilClockTick();
tracer.AnnotateSpan(labels);
}
}
TraceProto trace = TraceEntryPolling.Default.GetTrace(rootSpanName, _startTime);
TraceEntryVerifiers.AssertSingleSpan(trace, rootSpanName);
}
public void Trace_MultipleSpans()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_MultipleSpans), _testId);
var labels = new Dictionary <string, string>
{
{ "annotation-key", "annotation-value" }
};
var tracer = CreateSimpleManagedTracer(_grpcConsumer);
using (tracer.StartSpan(rootSpanName))
{
BlockUntilClockTick();
using (tracer.StartSpan("child-one"))
{
tracer.SetStackTrace(TraceEntryData.CreateStackTrace());
BlockUntilClockTick();
}
using (tracer.StartSpan("child-two"))
{
BlockUntilClockTick();
using (tracer.StartSpan("grandchild-one", StartSpanOptions.Create(SpanKind.RpcClient)))
{
BlockUntilClockTick();
}
using (tracer.StartSpan("grandchild-two"))
{
BlockUntilClockTick();
tracer.AnnotateSpan(labels);
}
}
}
TraceProto trace = TraceEntryPolling.Default.GetTrace(rootSpanName, _startTime);
Assert.NotNull(trace);
Assert.Equal(5, trace.Spans.Count);
TraceSpan root = trace.Spans.First(s => s.Name.Equals(rootSpanName));
TraceSpan childOne = trace.Spans.First(s => s.Name.Equals("child-one"));
TraceSpan childTwo = trace.Spans.First(s => s.Name.Equals("child-two"));
TraceSpan grandchildOne = trace.Spans.First(s => s.Name.Equals("grandchild-one"));
TraceSpan grandchildTwo = trace.Spans.First(s => s.Name.Equals("grandchild-two"));
Assert.Equal(root.SpanId, childOne.ParentSpanId);
TraceEntryVerifiers.AssertContainsStackTrace(childOne,
nameof(TraceEntryData.CreateStackTrace), nameof(SimpleManagedTracerTest));
Assert.Equal(root.SpanId, childTwo.ParentSpanId);
Assert.Equal(childTwo.SpanId, grandchildOne.ParentSpanId);
Assert.Equal(TraceSpan.Types.SpanKind.RpcClient, grandchildOne.Kind);
Assert.Equal(childTwo.SpanId, grandchildTwo.ParentSpanId);
Assert.Equal(TraceSpan.Types.SpanKind.Unspecified, grandchildTwo.Kind);
TraceEntryVerifiers.AssertSpanLabelsExact(grandchildTwo, labels);
}
public void Trace_Simple()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_Simple), _testId);
using (CreateSimpleManagedTracer(_grpcConsumer).StartSpan(rootSpanName))
{
BlockUntilClockTick();
}
TraceProto trace = TraceEntryPolling.Default.GetTrace(rootSpanName, _startTime);
TraceEntryVerifiers.AssertSingleSpan(trace, rootSpanName);
}
public async Task TraceOutGoing()
{
string googleUri = "https://google.com/";
var spanName = EntryData.GetMessage(nameof(TraceOutGoing), _testId);
await TraceOutGoingRequest(spanName, googleUri, false);
var trace = TraceEntryPolling.Default.GetTrace(spanName, _startTime);
TraceEntryVerifiers.AssertParentChildSpan(trace, spanName, googleUri);
TraceEntryVerifiers.AssertSpanLabelsExact(
trace.Spans.First(s => s.Name == googleUri), TraceEntryData.HttpGetSuccessLabels);
}
public async Task TraceOutGoing_HttpError()
{
string fakeUri = "https://google.com/404";
var spanName = EntryData.GetMessage(nameof(TraceOutGoing_HttpError), _testId);
await TraceOutGoingRequest(spanName, fakeUri, false);
var trace = TraceEntryPolling.Default.GetTrace(spanName, _startTime);
TraceEntryVerifiers.AssertParentChildSpan(trace, spanName, fakeUri);
TraceEntryVerifiers.AssertSpanLabelsExact(trace.Spans.Where(s => s.Name == fakeUri).Single(),
new Dictionary <string, string>
{
{ TraceLabels.HttpMethod, "GET" },
{ TraceLabels.HttpStatusCode, "404" }
});
}
public void Trace_SimpleStacktrace()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_SimpleStacktrace), _testId);
var tracer = CreateSimpleManagedTracer(_grpcConsumer);
using (tracer.StartSpan(rootSpanName))
{
BlockUntilClockTick();
tracer.SetStackTrace(TraceEntryData.CreateStackTrace());
}
TraceProto trace = TraceEntryPolling.Default.GetTrace(rootSpanName, _startTime);
TraceEntryVerifiers.AssertSingleSpan(trace, rootSpanName);
TraceEntryVerifiers.AssertContainsStackTrace(trace.Spans[0],
nameof(TraceEntryData.CreateStackTrace), nameof(SimpleManagedTracerTest));
}
public void Trace_Simple_BufferNoTrace()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_Simple_BufferNoTrace), _testId);
using (var consumer = SizedBufferingConsumer <TraceProto> .Create(_grpcConsumer, MessageSizer <TraceProto> .GetSize, BufferOptions.DefaultBufferSize))
{
using (CreateSimpleManagedTracer(consumer).StartSpan(rootSpanName))
{
BlockUntilClockTick();
}
// Verifying before disposing of the consumer so as to check that the buffer
// wasn't flush because of the size of the messages. If we verify after disposing
// any message, big or small, would have been flushed on disposing.
TraceProto trace = TraceEntryPolling.NoEntry.GetTrace(rootSpanName, _startTime, false);
Assert.Null(trace);
}
}
public async Task TraceOutGoing_Exception()
{
string fakeUri = "http://www.thiscannotpossiblyexist934719238.com/";
var spanName = EntryData.GetMessage(nameof(TraceOutGoing_Exception), _testId);
await TraceOutGoingRequest(spanName, fakeUri, true);
var trace = TraceEntryPolling.Default.GetTrace(spanName, _startTime);
TraceEntryVerifiers.AssertParentChildSpan(trace, spanName, fakeUri);
var span = trace.Spans.Where(s => s.Name == fakeUri).Single();
TraceEntryVerifiers.AssertSpanLabelsContains(span,
new Dictionary <string, string>
{
{ TraceLabels.HttpMethod, "GET" },
});
TraceEntryVerifiers.AssertContainsStackTrace(span);
}
public void Trace_IncompleteSpans()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_IncompleteSpans), _testId);
var tracer = CreateSimpleManagedTracer(_grpcConsumer);
tracer.StartSpan(rootSpanName);
using (tracer.StartSpan("span-name-1"))
{
BlockUntilClockTick();
using (tracer.StartSpan("span-name-2"))
{
BlockUntilClockTick();
}
}
TraceProto trace = TraceEntryPolling.NoEntry.GetTrace(rootSpanName, _startTime, false);
Assert.Null(trace);
}
public void Trace_SimpleAnnotation()
{
string rootSpanName = EntryData.GetMessage(nameof(Trace_SimpleAnnotation), _testId);
var labels = new Dictionary <string, string>
{
{ "annotation-key", "annotation-value" },
{ "some-key", "some-value" }
};
var tracer = CreateSimpleManagedTracer(_grpcConsumer);
using (tracer.StartSpan(rootSpanName))
{
BlockUntilClockTick();
tracer.AnnotateSpan(labels);
}
TraceProto trace = TraceEntryPolling.Default.GetTrace(rootSpanName, _startTime);
TraceEntryVerifiers.AssertSingleSpan(trace, rootSpanName);
TraceEntryVerifiers.AssertSpanLabelsExact(trace.Spans.First(), labels);
}