Announcing Data Prepper 2.1.0
Data Prepper 2.1.0 is now available for download! This release adds several new features to Data Prepper. Additionally, the maintainers have improved Data Prepper’s stability and performance. Many of the new features came from community contributions in the form of GitHub issues and pull requests.
By creating metrics for logs and traces that pass through Data Prepper, the performance and scalability of OpenSearch (data store, search engine, and visualization) can be significantly enhanced. The ability to generate metrics enables the summarization of events over a specific time period, making it easier to visualize and set alerts, as opposed to utilizing raw data for visualization and alerting.
Data Prepper 2.1 supports generating OpenTelemetry-format metrics from all incoming events. The Data Prepper aggregate processor has two new actions that support the generation of metrics for logs and traces:
histogramaction generates a histogram of the data field being aggregated. The histogram data includes total count, min, max, and sum, in addition to the histogram buckets and bucket-level counts.
countaction generates a count of the data being aggregated.
You can combine both of these actions with the aggregate processor’s conditional aggregation option in order to generate more meaningful metrics.
For example, you can obtain the number of traces with an error (
status_code equal to 2) using the
count aggregate action along
aggregate_when option. You can also generate a histogram of trace latencies using another aggregate processor in
a parallel sub-pipeline.
The pipeline configuration for the preceding example is similar to the following:
trace-error-metrics-pipeline: source: pipeline: name: "span-pipeline" processor: - aggregate: identification_keys: ["serviceName", "traceId"] action: count: group_duration: "20s" aggregate_when: "/status_code == 2" sink: - opensearch hosts: ["https://opensearch:9200"] insecure: true username: "admin" password: "admin" index: trace-error-metrics trace-high-latency-metrics-pipeline: source: pipeline: name: "span-pipeline" processor: - aggregate: identification_keys: ["serviceName", "traceId"] action: histogram: key: "durationInNaos" record_minmax: true units: "nanoseconds" buckets: [1000000000, 1500000000, 2000000000] group_duration: "20s" aggregate_when: "/durationInNanos > 1000000000" sink: - opensearch hosts: ["https://opensearch:9200"] insecure: true username: "admin" password: "admin" index: trace-high-latency-metrics
Data Prepper 2.1 introduces anomaly detection as an independent processor that can be placed anywhere in the pipeline to detect anomalies using artificial intelligence/machine learning (AI/ML) techniques. For now, the processor only supports the random cut forest algorithm for detecting anomalies. Support for other AI/ML algorithms may be added in the future. The processor can be configured to use any numerical (integer or floating-point data type) field in the input events to detect anomalies.
Anomaly detection in Data Prepper provides a more scalable and efficient way to detect anomalies in logs and traces because the ML algorithm is applied on the server side.
For example, consider an aggregate processor that generates a histogram of trace latencies (
durationInNanos). If you place an anomaly detector processor after the aggregate processor, it can identify abnormally high latencies.
The following is an example of such a configuration:
trace-metric-anomaly-detector-pipeline: source: pipeline: name: "trace-high-latency-metrics-pipeline" processor: - anomaly_detector: keys: ["max"] mode: random_cut_forest: sink: - opensearch hosts: ["https://opensearch:9200"] insecure: true username: "admin" password: "admin" index: high-latency-traces-with-anomalies
Sampling and rate limiting
Data Prepper 2.1 supports sampling and rate limiting to limit the number of events that are sent to a sink.
These features can be used to reduce the load on the OpenSearch cluster when storing ordinary logs and metrics. For example, you can limit the number of success HTTP logs or repetitive requests, such as from a health check.
Both sampling and rate limiting are available as configurable actions in the aggregate processor. To use sampling, specify the sampling percentage To use rate limiting, set the events per second option
For example, the following percent sampling configuration sends 60% of events to OpenSearch:
trace-normal-pipeline: source: pipeline: name: "span-pipeline" processor: - aggregate: identification_keys: ["serviceName"] action: percent_sampler: percent: 60 group_duration: "30s" aggregate_when: "/status_code != 2 and /durationInNanos <= 1000000000" sink: - opensearch hosts: ["https://opensearch:9200"] insecure: true username: "admin" password: "admin" index: sampled-traces
You can configure a rate-limiting action to limit the number of events by specifying the number of events per second.
You can also use the
when_exceeds option to specify what should happen when the number of events exceeds the specified limit.
when_exceeds option can take the following values:
block: Blocks the current pipeline thread until events are allowed (this is the default value)
drop: Drop any excess events
block is useful when there is a temporary burst in the number of events and you don’t want to lose any of them.
The following rate-limiting configuration sends 10 events per second to OpenSearch and uses the
trace-normal-pipeline: source: pipeline: name: "span-pipeline" processor: - aggregate: identification_keys: ["serviceName"] action: rate_limiter: events_per_second: 10 when_exceeds: "drop" group_duration: "30s" aggregate_when: "/status_code != 2 and /durationInNanos <= 1000000000" sink: - opensearch hosts: ["https://opensearch:9200"] insecure: true username: "admin" password: "admin" index: sampled-traces
One of Data Prepper’s goals is to support open standards. Data Prepper now supports the OpenTelemetry log format. Previously, Data Prepper supported log data through the HTTP Source plugin, which works well with tools such as Fluent Bit. If you would like to deploy the OpenTelemetry Collector on your applications and not require any other sidecars, you can now send logs to Data Prepper, which will route them to OpenSearch.
OpenSearch sink improvements
Running Data Prepper as an ingestion pipeline in front of OpenSearch is an important capability. This release adds new enhancements to Data Prepper’s OpenSearch sink to make it even more useful.
Data Prepper now supports routing traces and logs to different indexes dynamically. To achieve this, you can define an index name using a format string, which can include properties from different events. With this capability, Data Prepper can support an arbitrary number of indexes using a single sink. For example, if you have logs with different application identifiers, you can route events to an index specific to each application.
Data Prepper also now allows you to route documents to specific OpenSearch shards using the existing OpenSearch
routing_field property on the OpenSearch sink will use properties from events to specify how to
route them within OpenSearch. Most users prefer allowing OpenSearch to generate document IDs and choosing the shard
from that. However, Data Prepper now allows you to specify these values explicitly.
Going hand in hand with the routing field, Data Prepper now lets you specify a complex field to use when specifying a document ID. Previously, you could only copy a value to a field in the root of the event in order to use it as a document ID.
Data Prepper now provides a new convert entry as part of its collection of mutate processors. This feature can convert a value from one type to another. This can be particularly useful in conditional expressions when using conditional routing.
For example, you can use the following processor in a pipeline to convert the value of the
status key to an
... processor: - convert_entry_type: key: "status" type: "integer" ...
In addition to the new features already described, Data Prepper 2.1.0 introduces several other important improvements:
- Instead of failing, Data Prepper pipelines with OpenSearch sinks now wait for OpenSearch to start during pipeline initialization if the sink is not available.
- OpenSearch sinks now allow you to load index mapping and Index State Management (ISM) template files from an Amazon Simple Storage Service (Amazon S3) bucket.
- Data Prepper expressions now support the
nullvalue keyword in conditions with equality operators.
- To help with pipeline stability, Data Prepper now provides a circuit breaker on Java heap usage. The circuit breaker will cause the sources to stop accepting new data that could possibly cause the process to crash.
See the release notes for a full list of changes.
You can download Data Prepper or install a Docker container from the OpenSearch Download & Get Started page. The maintainers encourage all users to update to Data Prepper 2.1.0 on order to gain the improved stability, additional administrative options, and new features.
Additionally, we have already started working on Data Prepper 2.2. See the roadmap to learn more.