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OpenTracing API for Java

This library is a Java platform API for OpenTracing.

Required Reading

In order to understand the Java platform API, one must first be familiar with the OpenTracing project and terminology more specifically.

Status

This project has a working design of interfaces for the OpenTracing API. There is a MockTracer to facilitate unit-testing of OpenTracing Java instrumentation.

Packages are deployed to Maven Central under the io.opentracing group.

Usage

Initialization

Initialization is OpenTracing-implementation-specific. Generally speaking, the pattern is to initialize a Tracer once for the entire process and to use that Tracer for the remainder of the process lifetime. It is a best practice to set the GlobalTracer, even if also making use of cleaner, more modern dependency injection. (See the next section below for rationale)

Accessing the Tracer

Where possible, use some form of dependency injection (of which there are many) to access the Tracer instance. For vanilla application code, this is often reasonable and cleaner for all of the usual DI reasons.

That said, instrumentation for packages that are themselves statically configured (e.g., JDBC drivers) may be unable to make use of said DI mechanisms for Tracer access, and as such they should fall back on GlobalTracer. By and large, OpenTracing instrumentation should always allow the programmer to specify a Tracer instance to use for instrumentation, though the GlobalTracer is a reasonable fallback or default value.

ActiveSpans, Continuations, and within-process propagation

For any thread, at most one Span may be "active". Of course there may be many other Spans involved with the thread which are (a) started, (b) not finished, and yet (c) not "active": perhaps they are waiting for I/O, blocked on a child Span, or otherwise off of the critical path.

It's inconvenient to pass an active Span from function to function manually, so OpenTracing requires that every Tracer implement an ActiveSpanSource interface that grants access to an ActiveSpan. Any ActiveSpan may be transferred to another callback or thread via ActiveSpan#defer() and Continuation#activate(); more on this below.

Accessing the ActiveSpan

Access to the active span is straightforward:

io.opentracing.Tracer tracer = ...;
...
ActiveSpan span = tracer.activeSpan();
if (span != null) {
    span.log("...");
}

Starting a new Span

The common case starts an ActiveSpan that's automatically registered for intra-process propagation via ActiveSpanSource. The best practice is to use a try-with-resources pattern which handles Exceptions and early returns:

io.opentracing.Tracer tracer = ...;
...
try (ActiveSpan activeSpan = tracer.buildSpan("someWork").startActive()) {
    // Do things.
    //
    // If we create async work, `activeSpan.capture()` allows us to pass the `ActiveSpan` along as well.
}

The above is semantically equivalent to the more explicit try-finally version:

io.opentracing.Tracer tracer = ...;
...
ActiveSpan activeSpan = tracer.buildSpan("someWork").startActive();
try {
    // Do things.
} finally {
    activeSpan.deactivate();
}

To manually step around the ActiveSpanSource registration, use startManual(), like this:

io.opentracing.Tracer tracer = ...;
...
Span span = tracer.buildSpan("someWork").startManual();
try {
    // (do things / record data to `span`)
} finally {
    span.finish();
}

If there is an ActiveSpan, it will act as the parent to any newly started Span unless the programmer invokes ignoreActiveSpan() at buildSpan() time, like so:

io.opentracing.Tracer tracer = ...;
...
ActiveSpan span = tracer.buildSpan("someWork").ignoreActiveSpan().startActive();

Deferring asynchronous work

Consider the case where a Span's lifetime logically starts in one thread and ends in another. For instance, the Span's own internal timing breakdown might look like this:

 [ ServiceHandlerSpan                                 ]
 |·FunctionA·|·····waiting on an RPC······|·FunctionB·|
            
---------------------------------------------------------> time

The "ServiceHandlerSpan" is active while it's running FunctionA and FunctionB, and inactive while it's waiting on an RPC (presumably modelled as its own Span, though that's not the concern here).

The ActiveSpanSource API makes it easy to capture() the Span and execution context in FunctionA and re-activate it in FunctionB. Note that every Tracer implements ActiveSpanSource. These are the steps:

  1. Start an ActiveSpan via Tracer.startActive() (or, if the Span was already started manually via startManual(), call ActiveSpanSource#makeActive(span))
  2. In the method that allocates the closure/Runnable/Future/etc, call ActiveSpan#capture() to obtain an ActiveSpan.Continuation
  3. In the closure/Runnable/Future/etc itself, invoke ActiveSpan.Continuation#activate to re-activate the ActiveSpan, then deactivate() it when the Span is no longer active (or use try-with-resources for less typing).

For example:

io.opentracing.Tracer tracer = ...;
...
// STEP 1 ABOVE: start the ActiveSpan
try (ActiveSpan serviceSpan = tracer.buildSpan("ServiceHandlerSpan").startActive()) {
    ...

    // STEP 2 ABOVE: capture the ActiveSpan
    final ActiveSpan.Continuation cont = serviceSpan.capture();
    doAsyncWork(new Runnable() {
        @Override
        public void run() {

            // STEP 3 ABOVE: use the Continuation to reactivate the Span in the callback.
            try (ActiveSpan activeSpan = cont.activate()) {
                ...
            }
        }
    });
}

In practice, all of this is most fluently accomplished through the use of an OpenTracing-aware ExecutorService and/or Runnable/Callable adapter; they factor out most of the typing.

Automatic finish()ing via ActiveSpan reference counts

When an ActiveSpan is created (either via Tracer.SpanBuilder#startActive or ActiveSpanSource#makeActive(Span)), the reference count associated with the ActiveSpan is 1.

  • When an ActiveSpan.Continuation is created via ActiveSpan#capture, the reference count increments
  • When an ActiveSpan.Continuation is ActiveSpan.Continuation#activate()d and thus transformed back into an ActiveSpan, the reference count is unchanged
  • When an ActiveSpan is ActiveSpan#deactivate()d, the reference count decrements

When the reference count decrements to zero, the Span's finish() method is invoked automatically.

When used as designed, the programmer lets ActiveSpan and ActiveSpan.Continuation finish the Span as soon as the last active or deferred ActiveSpan is deactivated.

Development

This is a maven project, and provides a wrapper, ./mvnw to pin a consistent version. For example, ./mvnw clean install.

This wrapper was generated by mvn -N io.takari:maven:wrapper -Dmaven=3.5.0

Building

Execute ./mvnw clean install to build, run tests, and create jars.

Contributing

See Contributing for matters such as license headers.

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