Instrumentation is the act of adding observability code to an app yourself.
If you’re instrumenting an app, you need to use the OpenTelemetry SDK for your language. You’ll then use the SDK to initialize OpenTelemetry and the API to instrument your code. This will emit telemetry from your app, and any library you installed that also comes with instrumentation.
If you’re instrumenting a library, only install the OpenTelemetry API package for your language. Your library will not emit telemetry on its own. It will only emit telemetry when it is part of an app that uses the OpenTelemetry SDK. For more on instrumenting libraries, see Libraries.
For more information about the OpenTelemetry API and SDK, see the specification.
OpenTelemetry Swift provides limited functionality in its default configuration. For more useful functionality, some configuration is required.
The default registered TracerProvider
and MetricProvider
are not configured
with an exporter. There are several
exporters
available depending on your needs. Below we will explore configuring the OTLP
exporter, which can be used for sending data to the
collector.
import GRPC
import OpenTelemetryApi
import OpenTelemetrySdk
import OpenTelemetryProtocolExporter
// initialize the OtlpTraceExporter
let otlpConfiguration = OtlpConfiguration(timeout: OtlpConfiguration.DefaultTimeoutInterval)
let grpcChannel = ClientConnection.usingPlatformAppropriateTLS(for: MultiThreadedEventLoopGroup(numberOfThreads:1))
.connect(host: <collector host>, port: <collector port>)
let traceExporter = OtlpTraceExporter(channel: grpcChannel,
config: otlpConfiguration)
// build & register the Tracer Provider using the built otlp trace exporter
OpenTelemetry.registerTracerProvider(tracerProvider: TracerProviderBuilder()
.add(spanProcessor:SimpleSpanProcessor(spanExporter: traceExporter))
.with(resource: Resource())
.build())
A similar pattern is used for the OtlpMetricExporter:
// otlpConfiguration & grpcChannel can be reused
OpenTelemetry.registerMeterProvider(meterProvider: MeterProviderBuilder()
.with(processor: MetricProcessorSdk())
.with(exporter: OtlpMetricExporter(channel: channel, config: otlpConfiguration))
.with(resource: Resource())
.build())
After configuring the MeterProvider & TracerProvider all subsequently initialized instrumentation will be exporting using this OTLP exporter.
To do tracing, you will need a tracer. A tracer is acquired through the tracer provider and is responsible for creating spans. The OpenTelemetry manages the tracer provider as we defined and registered above. A tracer requires an instrumentation name, and an optional version to be created:
let tracer = OpenTelemetry.instance.tracerProvider.get(instrumentationName: "instrumentation-library-name", instrumentationVersion: "1.0.0")
A span represents a unit of work or operation. Spans are the building blocks of Traces. To create a span use the span builder associated with the tracer:
let span = tracer.spanBuilder(spanName: "\(name)").startSpan()
...
span.end()
It is required to call end()
to end the span.
Spans are used to build relationship between operations. Below is an example of how we can manually build relationship between spans.
Below we have parent()
calling child()
and how to manually link spans of
each of these methods.
func parent() {
let parentSpan = someTracer.spanBuilder(spanName: "parent span").startSpan()
child(span: parentSpan)
parentSpan.end()
}
func child(parentSpan: Span) {
let childSpan = someTracer.spanBuilder(spanName: "child span")
.setParent(parentSpan)
.startSpan()
// do work
childSpan.end()
}
The parent-child relationship will be automatically linked if activeSpan
is
used:
func parent() {
let parentSpan = someTracer.spanBuilder(spanName: "parent span")
.setActive(true) // automatically sets context
.startSpan()
child()
parentSpan.end()
}
func child() {
let childSpan = someTracer.spanBuilder(spanName: "child span")
.startSpan() //automatically captures `active span` as parent
// do work
childSpan.end()
}
Sometimes it’s useful to do something with the current/active span. Here’s how to access the current span from an arbitrary point in your code.
let currentSpan = OpenTelemetry.instance.contextProvider.activeSpan
Spans can also be annotated with additional attributes. All spans will be
automatically annotated with the Resource
attributes attached to the tracer
provider. The Opentelemetry-swift SDK already provides instrumentation of common
attributes in the SDKResourceExtension
instrumentation. In this example a span
for a network request capturing details about that request using existing
semantic conventions.
let span = tracer.spanBuilder("/resource/path").startSpan()
span.setAttribute("http.method", "GET");
span.setAttribute("http.url", url.toString());
A Span Event can be thought of as a structured log message (or annotation) on a Span, typically used to denote a meaningful, singular point in time during the Span’s duration.
let attributes = [
"key" : AttributeValue.string("value"),
"result" : AttributeValue.int(100)
]
span.addEvent(name: "computation complete", attributes: attributes)
A Status can be set on a
Span, typically used to specify that a
Span has not completed successfully - Error
. By default, all spans are
Unset
, which means a span completed without error. The Ok
status is reserved
for when you need to explicitly mark a span as successful rather than stick with
the default of Unset
(i.e., “without error”).
The status can be set at any time before the span is finished.
func myFunction() {
let span = someTracer.spanBuilder(spanName: "my span").startSpan()
defer {
span.end()
}
guard let criticalData = get() else {
span.status = .error(description: "something bad happened")
return
}
// do something
}
Semantic conventions provide special demarcation for events that record exceptions:
let span = someTracer.spanBuilder(spanName: "my span").startSpan()
do {
try throwingFunction()
} catch {
span.addEvent(name: SemanticAttributes.exception.rawValue,
attributes: [SemanticAttributes.exceptionType.rawValue: AttributeValue.string(String(describing: type(of: error))),
SemanticAttributes.exceptionEscaped.rawValue: AttributeValue.bool(false),
SemanticAttributes.exceptionMessage.rawValue: AttributeValue.string(error.localizedDescription)])
})
span.status = .error(description: error.localizedDescription)
}
span.end()
The documentation for the metrics API & SDK is missing, you can help make it available by editing this page.
The logs API & SDK are currently under development.
Different Span processors are offered by OpenTelemetry-swift. The
SimpleSpanProcessor
immediately forwards ended spans to the exporter, while
the BatchSpanProcessor
batches them and sends them in bulk. Multiple Span
processors can be configured to be active at the same time using the
MultiSpanProcessor
. For example, you may create a SimpleSpanProcessor
that
exports to a logger, and a BatchSpanProcessor
that exports to a OpenTelemetry
Collector:
let otlpConfiguration = OtlpConfiguration(timeout: OtlpConfiguration.DefaultTimeoutInterval)
let grpcChannel = ClientConnection.usingPlatformAppropriateTLS(for: MultiThreadedEventLoopGroup(numberOfThreads:1))
.connect(host: <collector host>, port: <collector port>)
let traceExporter = OtlpTraceExporter(channel: grpcChannel
config: otlpConfiguration)
// build & register the Tracer Provider using the built otlp trace exporter
OpenTelemetry.registerTracerProvider(tracerProvider: TracerProviderBuilder()
.add(spanProcessor:BatchSpanProcessor(spanExporter: traceExporter))
.add(spanProcessor:SimpleSpanProcessor(spanExporter: StdoutExporter))
.with(resource: Resource())
.build())
The batch span processor allows for a variety of parameters for customization including.
OpenTelemetry-Swift provides the following exporters:
InMemoryExporter
: Keeps the span data in memory. This is useful for testing
and debugging.DatadogExporter
: Converts OpenTelemetry span data to Datadog traces & span
Events to Datadog logs.JaegerExporter
: Converts OpenTelemetry span data to Jaeger format and
exports to a Jaeger endpoint.PrometheusExporter
: Converts metric data to Prometheus format and exports to
a Prometheus endpoint.StdoutExporter
: Exports span data to Stdout. Useful for debugging.ZipkinTraceExporter
: Exports span data to Zipkin format to a Zipkin
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