Overview
OpenTracing is a vendor-neutral open standard for distributed tracing. Essentially, for Java-based projects the specification exists as a set of Java APIs which any distributed tracing solution is welcome to implement. There are quite a few distributed tracing frameworks available which are compatible with OpenTracing, notably Zipkin (via community contributions like bridge from Brave to OpenTracing ), Lightstep and Jaeger. Starting from 3.2.1 release, Apache CXF fully supports integration (through cxf-integration-tracing-opentracing module) with any distributed tracer that provides OpenTracing Java API implementation.
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The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name traceser-server) is going to generate the following sample traces (taken from Jaeger UI):
![](/confluence/download/attachments/73637478/image2017-9-10%2014%3A26%3A23.png?version=1&modificationDate=1505067984000&api=v2)
Info |
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Please notice that timelines are treated as logs events in Jaeger. |
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Most of the distributed tracers compatible with OpenTracing API could be deployed into OSGi container and as such, the integration is fully available for Apache CXF services running inside the container. For a complete example please take a look on jax_rs_tracing_opentracing_osgi sample project, but here is the typical OSGi Blueprint snippet in case of Jaeger.
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|
<?xml version="1.0" encoding="UTF-8"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:cxf="http://cxf.apache.org/blueprint/core"
xmlns:jaxrs="http://cxf.apache.org/blueprint/jaxrs"
xsi:schemaLocation="http://www.osgi.org/xmlns/blueprint/v1.0.0 http://www.osgi.org/xmlns/blueprint/v1.0.0/blueprint.xsd
http://cxf.apache.org/blueprint/core http://cxf.apache.org/schemas/blueprint/core.xsd
http://cxf.apache.org/jaxrs http://cxf.apache.org/schemas/blueprint/jaxrs.xsd">
<bean id="tracingFeature" class="org.apache.cxf.tracing.opentracing.jaxrs.OpenTracingFeature">
<argument index="0">
<bean factory-ref="builder" factory-method="build" />
</argument>
</bean>
<bean id="metrics" class="com.uber.jaeger.metrics.Metrics">
<argument index="0">
<bean class="com.uber.jaeger.metrics.StatsFactoryImpl">
<argument index="0">
<bean class="com.uber.jaeger.metrics.NullStatsReporter" />
</argument>
</bean>
</argument>
</bean>
<bean id="builder" class="com.uber.jaeger.Tracer.Builder">
<argument index="0" value="cxf-server" />
<argument index="1">
<bean class="com.uber.jaeger.reporters.RemoteReporter">
<argument index="0" ref="sender" />
<argument index="1" value="1000"/>
<argument index="2" value="100"/>
<argument index="3" ref="metrics"/>
</bean>
</argument>
<argument index="2">
<bean class="com.uber.jaeger.samplers.ConstSampler">
<argument index="0" value="true" />
</bean>
</argument>
</bean>
<bean id="sender" class="com.uber.jaeger.senders.HttpSender">
<argument index="0" value="http://localhost:14268/api/traces" />
</bean>
<cxf:bus>
<cxf:features>
<cxf:logging />
</cxf:features>
</cxf:bus>
<jaxrs:server id="catalogServer" address="/">
<jaxrs:serviceBeans>
...
</jaxrs:serviceBeans>
<jaxrs:providers>
<ref component-id="tracingFeature" />
</jaxrs:providers>
</jaxrs:server>
</blueprint> |
OpenTracing API v0.31.0 and Apache CXF 3.3.x
Configuring Client
In this section and below, all the code snippets are going to be based on Jaeger distributed tracing framework (release 0.30.3+), although everything we are going to discuss is equally applicable to any other existing alternatives. Essentially, the only dependency Apache CXF integration relies on is the Tracer instance. Jaeger uses service Java's ServiceLoader mechanism to determine the instance of the tracer to use, so it is necessary to provide META-INF/services/io.jaegertracing.spi.SenderFactory binding, for example:
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io.jaegertracing.thrift.internal.senders.ThriftSenderFactory |
Alternatively, you may just provide own implementation of the SenderConfiguration with the override getSender method, for example:
...
final SenderConfiguration senderConfiguration = new SenderConfiguration() {
@Override
public Sender getSender() {
return ...; /* the Sender implementation */
}
}
Samples
OpenTracing API v0.31.0 and Apache CXF 3.3.x
Configuring Client
In this section and below, all the code snippets are going to be based on Jaeger distributed tracing framework (release 0.30.3+), although everything we are going to discuss is equally applicable to any other existing alternatives. Essentially, the only dependency Apache CXF integration relies on is the Tracer instance. Jaeger uses service Java's ServiceLoader mechanism to determine the instance of the tracer to use, so it is necessary to provide META-INF/services/io.jaegertracing.spi.SenderFactory binding, for example:
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io.jaegertracing.thrift.internal.senders.ThriftSenderFactory |
Alternatively, you may just provide own implementation of the SenderConfiguration with the override getSender method, for exampleThere are a couple of ways the JAX-RS client could be configured, depending on the client implementation. Apache CXF provides its own WebClient which could be configured just like that (in future versions, there would be a simpler ways to do that using client specific features):
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final TracerSenderConfiguration tracersenderConfiguration = new ConfigurationSenderConfiguration("web-client") {
.withSampler(@Override
public Sender new SamplerConfigurationgetSender() {
return ...; /* the desired Sender implementation */
}
} |
There are a couple of ways the JAX-RS client could be configured, depending on the client implementation. Apache CXF provides its own WebClient which could be configured just like that (in future versions, there would be a simpler ways to do that using client specific features):
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final Tracer tracer = new Configuration("web-client" .withType(ConstSampler.TYPE)
.withParam(1)
)
.withReporterwithSampler(
new ReporterConfigurationSamplerConfiguration()
.withSender(
withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();
Response response = WebClient
.create("http://localhost:9000/catalog", Arrays.asList(new OpenTracingClientProvider(tracer)))
.accept(MediaType.APPLICATION_JSON)
.get(); |
...
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|
final Tracer tracer = new Configuration("jaxrs-client", )
.withSampler(
new Configuration.SamplerConfiguration()
.withType(ConstSampler.TYPE, 1), /* or any other Sampler */
new Configuration.ReporterConfiguration(new HttpSender("http://localhost:14268/api/traces")) /* or any other Sender */withParam(1)
)
).getTracerwithReporter();
new ReporterConfiguration()
final OpenTracingClientProvider provider = new OpenTracingClientProvider.withSender(tracer);
final Client client = ClientBuilder.newClient().register(provider);
final Response response = client
.target("http://localhost:9000/catalog")
.request()
.accept(MediaType.APPLICATION_JSON)
.get(); |
Alternatively, you may use GlobalTracer to pass the tracer around, for example:
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
final OpenTracingClientProvider provider = new OpenTracingClientProvider(tracer);
final Client client = ClientBuilder.newClient().register(provider);
final Response response = client
.target("http://localhost:9000/catalog")
.request()
.accept(MediaType.APPLICATION_JSON)
.get(); |
Alternatively, you may use GlobalTracer to pass the tracer around, for example:
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|
final Tracer tracer = new Configuration("jaxrs-client")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();
// This method should only be called once during the application initialization phase.
GlobalTracer.register(tracer);
// No explicit Tracer instance is required, it will be picked off the GlobalTracer using get() method
final OpenTracingClientProvider provider = new OpenTracingClientProvider(); |
Configuring Server
Server configuration is a bit simpler than the client one thanks to the feature class available, OpenTracingFeature. Depending on the way the Apache CXF is used to configure JAX-RS services, it could be part of JAX-RS application configuration, for example:
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|
@ApplicationPath( "/" )
public class CatalogApplication extends Application {
@Override
public Set<Object> getSingletons() {
final Tracer tracer = new Configuration("tracer-server")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();
return new HashSet<>(
Arrays.asList(
new OpenTracingFeature(tracer)
)
);
}
} |
Or it could be configured using JAXRSServerFactoryBean as well, for example:
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|
final Tracer tracer = new Configuration("tracer-server")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();
final JAXRSServerFactoryBean factory = RuntimeDelegate.getInstance().createEndpoint(/* application instance */, JAXRSServerFactoryBean.class);
factory.setProvider(new OpenTracingFeature(tracer));
...
return factory.create(); |
Alternatively, you may rely on GlobalTracer to pass the tracer around, so in this case the OpenTracingFeature will pick it up from there, for example:
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|
@ApplicationPath( "/" )
public class CatalogApplication extends Application {
@Override
public Set<Object> getSingletons() {
return new HashSet<>(
Arrays.asList(
// No explicit Tracer instance is required, it will be picked off the GlobalTracer using get() method
new OpenTracingFeature()
)
);
}
} |
Once the span reporter and sampler are properly configured, all generated spans are going to be collected and available for analysis and/or visualization.
Distributed Tracing In Action: Usage Scenarios
In the following subsections we are going to walk through many different scenarios to illustrate the distributed tracing in action, starting from the simplest ones and finishing with asynchronous JAX-RS services. All examples assume that configuration has been done (see please Configuring Client and Configuring Server sections above).
Example #1: Client and Server with default distributed tracing configured
In the first example we are going to see the effect of using default configuration on the client and on the server, with only OpenTracingClientProvider and OpenTracingProvider registered. The JAX-RS resource endpoint is pretty basic stubbed method:
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks() {
return Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
);
} |
The client is as simple as that:
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|
final Response response = client
.target("http://localhost:8282/books")
.request()
.accept(MediaType.APPLICATION_JSON)
.get(); |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name tracer-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Example #2: Client and Server with nested trace
In this example server-side implementation of the JAX-RS service is going to call an external system (simulated as a simple delay of 500ms) within its own span. The client-side code stays unchanged.
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks(@Context final TracerContext tracer) throws Exception {
try(final Scope scope = tracer.startSpan("Calling External System")) {
// Simulating a delay of 500ms required to call external system
Thread.sleep(500);
return Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
);
}
} |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name tracer-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Example #3: Client and Server trace with timeline
In this example server-side implementation of the JAX-RS service is going to add timeline to the active span. The client-side code stays unchanged.
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks(@Context final TracerContext tracer) throws Exception {
tracer.timeline("Preparing Books");
// Simulating some work using a delay of 100ms
Thread.sleep(100);
return Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
);
} |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name traceser-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Example #4: Client and Server with annotations (key/value)
In this example server-side implementation of the JAX-RS service is going to add key/value annotations to the active span. The client-side code stays unchanged.
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks(@Context final TracerContext tracer) throws Exception {
final Collection<Book> books = Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
);
tracer.annotate("# of books", Integer.toString(books.size()));
return books;
} |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name tracer-server) is going to generate the following sample server trace properties (taken from Jaeger UI):
Image Added
Example #5: Client and Server with parallel trace (involving thread pools)
In this example server-side implementation of the JAX-RS service is going to offload some work into thread pool and then return the response to the client, simulating parallel execution. The client-side code stays unchanged.
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks(@Context final TracerContext tracer) throws Exception {
final Future<Book> book1 = executor.submit(
tracer.wrap("Getting Book 1", new Traceable<Book>() {
public Book call(final TracerContext context) throws Exception {
// Simulating a delay of 100ms required to call external system
Thread.sleep(100);
return new Book("Apache CXF Web Service Development",
"Naveen Balani, Rajeev Hathi");
}
})
);
final Future<Book> book2 = executor.submit(
tracer.wrap("Getting Book 2", new Traceable<Book>() {
public Book call(final TracerContext context) throws Exception {
// Simulating a delay of 100ms required to call external system
Thread.sleep(200);
return new Book("Developing Web Services with Apache CXF and Axis2",
"Kent Ka Iok Tong");
}
})
);
return Arrays.asList(book1.get(), book2.get());
} |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (process name tracer-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Example #6: Client and Server with asynchronous JAX-RS service (server-side)
In this example server-side implementation of the JAX-RS service is going to be executed asynchronously. It poses a challenge from the tracing prospective as request and response are processed in different threads (in general). At the moment, Apache CXF does not support the transparent tracing spans management (except for default use case) but provides the simple ways to do that (by letting to transfer spans from thread to thread). The client-side code stays unchanged.
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public void getBooks(@Suspended final AsyncResponse response, @Context final TracerContext tracer) throws Exception {
tracer.continueSpan(new Traceable<Future<Void>>() {
public Future<Void> call(final TracerContext context) throws Exception {
return executor.submit(
tracer.wrap("Getting Book", new Traceable<Void>() {
public Void call(final TracerContext context) throws Exception {
// Simulating a processing delay of 50ms
Thread.sleep(50);
response.resume(
Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
)
);
return null;
}
})
);
}
});
} |
The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name tracer-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Example #7: Client and Server with asynchronous invocation (client-side)
In this example server-side implementation of the JAX-RS service is going to be the default one:
Code Block |
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|
@Produces( { MediaType.APPLICATION_JSON } )
@GET
public Collection<Book> getBooks() {
return Arrays.asList(
new Book("Apache CXF Web Service Development", "Naveen Balani, Rajeev Hathi")
);
} |
While the JAX-RS client implementation is going to perform the asynchronous invocation:
Code Block |
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|
final Future<Response> future = client
.target("http://localhost:8282/books")
.request()
.accept(MediaType.APPLICATION_JSON)
.async()
.get(); |
In this respect, there is no difference from the caller prospective however a bit more work is going under the hood to transfer the active tracing span from JAX-RS client request filter to client response filter as in general those are executed in different threads (similarly to server-side asynchronous JAX-RS resource invocation). The actual invocation of the request by the client (with service name tracer-client) and consequent invocation of the service on the server side (service name tracer-server) is going to generate the following sample traces (taken from Jaeger UI):
Image Added
Distributed Tracing with OpenTracing and JAX-WS support
Distributed tracing in the Apache CXF is build primarily around JAX-RS 2.x implementation. However, JAX-WS is also supported but it requires to write some boiler-plate code and use OpenTracing Java API directly (the JAX-WS integration is going to be enhanced in the future). Essentially, from the server-side prospective the in/out interceptors, OpenTracingStartInterceptor and OpenTracingStopInterceptor respectively, should be configured as part of interceptor chains, either manually or using OpenTracingFeature. For example:
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|
final Tracer tracer = new Configuration("tracer")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();;
final JaxWsServerFactoryBean sf = new JaxWsServerFactoryBean();
...
sf.getFeatures().add(new OpenTracingFeature(trace));
...
sf.create(); |
Similarly to the server-side, client-side needs own set of out/in interceptors, OpenTracingClientStartInterceptor and OpenTracingClientStopInterceptor (or OpenTracingClientFeature). Please notice the difference from server-side: OpenTracingClientStartInterceptor becomes out-interceptor while OpenTracingClientStopInterceptor becomes in-interceptor. For example:
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|
final Tracer tracer = new Configuration("tracer")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE) /* or any other Sampler */
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSender(
new SenderConfiguration() /* or any other Sender configuration */
.withEndpoint("http://localhost:14268/api/traces")
)
)
.getTracer();;
final JaxWsProxyFactoryBean sf = new JaxWsProxyFactoryBean();
...
sf.getFeatures().add(new OpenTracingClientFeature(tracer));
...
sf.create();
|
As it was mentioned before, you may use GlobalTracer utility class to pass the tracer around so, for example, any JAX-WS service will be able to retrieve the current tracer by invoking GlobalTracer.get() method.
Distributed Tracing with OpenTracing and OSGi
Most of the distributed tracers compatible with OpenTracing API could be deployed into OSGi container and as such, the integration is fully available for Apache CXF services running inside the container. For a complete example please take a look on jax_rs_tracing_opentracing_osgi sample project, but here is the typical OSGi Blueprint snippet in case of Jaeger.
Code Block |
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|
<?xml version="1.0" encoding="UTF-8"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:cxf="http://cxf.apache.org/blueprint/core"
xmlns:jaxrs="http://cxf.apache.org/blueprint/jaxrs"
xsi:schemaLocation="http://www.osgi.org/xmlns/blueprint/v1.0.0 http://www.osgi.org/xmlns/blueprint/v1.0.0/blueprint.xsd
http://cxf.apache.org/blueprint/core http://cxf.apache.org/schemas/blueprint/core.xsd
http://cxf.apache.org/jaxrs http://cxf.apache.org/schemas/blueprint/jaxrs.xsd">
<bean id="tracingFeature" class="org.apache.cxf.tracing.opentracing.jaxrs.OpenTracingFeature">
<argument index="0">
<bean factory-ref="withReporter" factory-method="getTracer" />
</argument>
</bean>
<bean id="samplerBuilder" class="io.jaegertracing.Configuration.SamplerConfiguration" />
<bean id="withType" factory-ref="samplerBuilder" factory-method="withType">
<argument index="0" value="const"/>
</bean>
<bean id="sampler" factory-ref="withType" factory-method="withParam">
<argument index="0">
<bean class="java.lang.Integer">
<argument value="1" />
</bean>
</argument>
</bean>
<bean id="senderBuilder" class="io.jaegertracing.Configuration.SenderConfiguration" />
<bean id="sender" factory-ref="senderBuilder" factory-method="withEndpoint">
<argument index="0" value="http://localhost:14268/api/traces"/>
</bean>
<bean id="reporterBuilder" class="io.jaegertracing.Configuration.ReporterConfiguration" />
<bean id="reporter" factory-ref="reporterBuilder" factory-method="withSender">
<argument index="0" ref="sender"/>
</bean>
<bean id="builder" class="io.jaegertracing.Configuration">
<argument index="0" value="cxf-server" />
</bean>
<bean id="withSampler" factory-ref="builder" factory-method="withSampler">
<argument index="0" ref="sampler"/>
</bean>
<bean id="withReporter" factory-ref="withSampler" factory-method="withReporter">
<argument index="0" ref="reporter"/>
</bean>
<cxf:bus>
<cxf:features>
<cxf:logging />
</cxf:features>
</cxf:bus>
<jaxrs:server id="catalogServer" address="/">
<jaxrs:serviceBeans>
...
</jaxrs:serviceBeans>
<jaxrs:providers>
<ref component-id="tracingFeature" />
</jaxrs:providers>
</jaxrs:server>
</blueprint> |
Info |
---|
As of now, Jaeger tracer does not provide OSGi bundles and the service loader mechanism is not working very well. It is very likely that you may need to declare own sender configuration instance (overriding getSender method) or use system properties to pick the right one. |
Samples
Accessing OpenTracing APIs
The Apache CXF abstracts as much of the tracer-specific APIs behind TracerContext as possible. However, sometimes there is a need to get access to OpenTracing APIs in order to leverages the rich set of available instrumentations. To make it possible, TracerContext has a dedicated unwrap method which returns underlying Tracer instance. The snippet below shows off how to use this API and use OpenTracing instrumentation for OpenFeign client.
Code Block |
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|
@GET
@Path("/search")
@Produces(MediaType.APPLICATION_JSON)
public JsonObject search(@QueryParam("q") final String query, @Context final TracerContext tracing) throws Exception {
final GoogleBooksApi api = Feign.builder |
Code Block |
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java | java | final Tracer tracer = new Configuration("jaxrs-client")
.withSampler(
new SamplerConfiguration()
.withType(ConstSampler.TYPE)
.withParam(1)
)
.withReporter(
new ReporterConfiguration()
.withSenderclient(
new TracingClient(new new SenderConfiguration()
ApacheHttpClient(), tracing.unwrap(Tracer.class)))
.withEndpointtarget(GoogleBooksApi.class, "httphttps://localhost:14268/api/traces")
)www.googleapis.com");
)
final Response response = api.getTracersearch(query);
// This method should onlytry be(final calledReader oncereader during the application initialization phase.
GlobalTracer.register(tracer);
// No explicit Tracer instance is required, it will be picked off the GlobalTracer using get() method
final OpenTracingClientProvider provider = new OpenTracingClientProvider(); |
Configuring Server
...
= response.body().asReader()) {
return Json.createReader(reader).readObject();
}
} |