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Distributed tracing
This is an experimental feature and is not recommended for use in a production environment. For updates on the progress of the feature or if you want to leave feedback, see the associated GitHub issue.
Distributed tracing is used to monitor and debug distributed systems. You can track the flow of requests through the system and identify performance bottlenecks and errors. A trace is a complete end-to-end path of a request as it flows through a distributed system. It represents the journey of a specific operation as it traverses various components and services in a distributed architecture. In distributed tracing, a single trace contains a series of tagged time intervals called spans. Spans have a start and end time and may include other metadata like logs or tags to help classify what happened.
Use distributed tracing for the following purposes:
- Optimize performance: Identifying and resolving bottlenecks, reducing latency in your applications.
- Troubleshoot errors: Quickly pinpointing the source of errors or unexpected behavior in your distributed system.
- Allocate resources: Optimizing resource allocation by understanding usage patterns of different services.
- Visualize service dependencies: Visualizing dependencies between services, helping you to manage architectures.
Distributed tracing pipeline
OpenSearch provides a distributed tracing pipeline that can be used to ingest, process, and visualize tracing data with query and alerting functionality. OpenTelemetry is an open-source observability framework that provides a set of APIs, libraries, agents, and collectors for generating, capturing, and exporting telemetry data. The distributed tracing pipeline consists of the following components:
- Instrumentation: Instrumenting your application code with OpenTelemetry SDKs.
- Propagation: Injecting trace context into requests as they propagate through your system.
- Collection: Collecting trace data from your application.
- Processing: Aggregating trace data from multiple sources and enriching it with additional metadata.
- Exporting: Sending trace data to a backend for storage and analysis.
OpenSearch is often chosen as the sink for storing trace data.
Trace analytics
OpenSearch provides a trace-analytics
plugin for visualizing trace data in real time. The plugin includes prebuilt dashboards for analyzing trace data, such as service maps, latency histograms, and error rates. With OpenSearch’s distributed tracing pipeline, you can quickly identify bottlenecks and errors in your applications. See the Trace analytics documentation for more information.
Get started
The distributed tracing feature is experimental as of OpenSearch 2.10. To begin using the distributed tracing feature, you need to first enable it using the opensearch.experimental.feature.telemetry.enabled
feature flag and subsequently activate the tracer, using the dynamic setting telemetry.tracer.enabled
. It’s important to exercise caution when enabling this feature because it can consume system resources. Detailed information on enabling and configuring distributed tracing, including on-demand troubleshooting and request sampling, is described in the following sections.
Enabling the flag on a node using tarball
The enable flag is toggled using a new Java Virtual Machine (JVM) parameter that is set either in OPENSEARCH_JAVA_OPTS
or in config/jvm.options
.
Option 1: Enable the experimental feature flag in the opensearch.yml
file
- Change to the top directory of your OpenSearch installation:
cd \path\to\opensearch
- Open your OpenSearch configuration folder, and then open the
opensearch.yml
file with a text editor. - Add the following line:
opensearch.experimental.feature.telemetry.enabled=true
- Save your changes and close the file.
Option 2: Modify jvm.options
Add the following lines to config/jvm.options
before starting the OpenSearch process to enable the feature and its dependency:
-Dopensearch.experimental.feature.telemetry.enabled=true
Run OpenSearch:
./bin/opensearch
Option 3: Enable from an environment variable
As an alternative to directly modifying config/jvm.options
, you can define the properties by using an environment variable. You can enable this feature in a single command when you start OpenSearch or by setting an environment variable.
To add these flags inline when starting OpenSearch, run the following command:
OPENSEARCH_JAVA_OPTS="-Dopensearch.experimental.feature.telemetry.enabled=true" ./opensearch-2.9.0/bin/opensearch
To define the environment variable separately, prior to running OpenSearch, run the following command:
export OPENSEARCH_JAVA_OPTS="-Dopensearch.experimental.feature.telemetry.enabled=true"
./bin/opensearch
Enable with Docker containers
If you’re running Docker, add the following line to docker-compose.yml
under environment
:
OPENSEARCH_JAVA_OPTS="-Dopensearch.experimental.feature.telemetry.enabled=true"
Enable for OpenSearch development
To enable the distributed tracing feature, you must first add the correct properties to run.gradle
before building OpenSearch. See the Developer Guide for information about how to use Gradle to build OpenSearch.
Add the following properties to run.gradle
to enable the feature:
testClusters {
runTask {
testDistribution = 'archive'
if (numZones > 1) numberOfZones = numZones
if (numNodes > 1) numberOfNodes = numNodes
systemProperty 'opensearch.experimental.feature.telemetry.enabled', 'true'
}
}
Enable distributed tracing
Once you’ve enabled the feature flag, do the following:
- Enable the tracing framework feature by adding the following setting in the
opensearch.yaml
file:
telemetry.feature.tracer.enabled=true
- Enable the tracer in the running cluster by adding the following dynamic setting:
telemetry.tracer.enabled=true
Install the OpenSearch OpenTelemetry plugin
The OpenSearch distributed tracing framework aims to support various telemetry solutions through plugins. The OpenSearch OpenTelemetry plugin telemetry-otel
is available and must be installed to enable tracing. The following guide provides you with the installation instructions.
Exporters
Currently, the distributed tracing feature generates traces and spans for HTTP requests and a subset of transport requests. These traces and spans are initially kept in memory using the OpenTelemetry BatchSpanProcessor
and are then sent to an exporter based on configured settings. The following are the key components:
- Span processors: As spans conclude on the request path, OpenTelemetry provides them to the
SpanProcessor
for processing and exporting. The OpenSearch distributed tracing framework uses theBatchSpanProcessor
, which batches spans for specific configurable intervals and then sends them to the exporter. The following configurations are available for theBatchSpanProcessor
:telemetry.otel.tracer.exporter.max_queue_size
: Defines the maximum queue size. When the queue reaches this value, it will be written to the exporter. Default is2048
.telemetry.otel.tracer.exporter.delay
: Defines the delay—a time period after which spans in the queue will be flushed, even if there are not enough spans to fill themax_queue_size
. Default is2 seconds
.telemetry.otel.tracer.exporter.batch_size
: Configures the maximum batch size for each export to reduce input/output. This value should always be less than themax_queue_size
. Default is512
.
- Exporters: Exporters are responsible for persisting the data. OpenTelemetry provides several out-of-the-box exporters, and OpenSearch supports the following:
LoggingSpanExporter
: Exports spans to a log file, generating a separate file in the logs directory_otel_traces.log
. Default istelemetry.otel.tracer.span.exporter.class=io.opentelemetry.exporter.logging.LoggingSpanExporter
.OtlpGrpcSpanExporter
: Exports spans through gRPC. To use this exporter, you need to install theotel-collector
on the node. By default, it writes to the http://localhost:4317/ endpoint. To use this exporter, set the following static setting:telemetry.otel.tracer.span.exporter.class=io.opentelemetry.exporter.otlp.trace.OtlpGrpcSpanExporter
.
Sampling
Distributed tracing can generate numerous spans, consuming system resources unnecessarily. To reduce the number of traces, also called samples, you can configure different sampling thresholds. By default, sampling is configured to include only 1% of all HTTP requests. Sampling has the following types:
- Head sampling: Sampling decisions are made before initiating the root span of a request. OpenSearch supports two head sampling methods:
- Probabilistic: A blanket limit on incoming requests, dynamically adjustable with the
telemetry.tracer.sampler.probability
setting. This setting ranges between 0 and 1. Default is 0.01, which indicates that 1% of incoming requests are sampled. - On-Demand: For debugging specific requests, you can send the
trace=true
attribute as part of the HTTP headers, causing those requests to be sampled regardless of the probabilistic sampling setting.
- Probabilistic: A blanket limit on incoming requests, dynamically adjustable with the
- Tail sampling: To configure tail sampling, follow the instructions in OpenTelemetry tail sampling documentation. Configuration depends on the type of collector you choose.
Collection of spans
The SpanProcessor
writes spans to the exporter, and the choice of exporter defines the endpoint, which can be logs or gRPC. To collect spans by using gRPC, you need to configure the collector as a sidecar process running on each OpenSearch node. From the collectors, these spans can be written to the sink of your choice, such as Jaeger, Prometheus, Grafana, or FileStore, for further analysis.